ADAM22 cDNA ORF clone, Homo sapiens(human)

Gene
Clones
gRNAs

Summary

Gene Symbol	ADAM22
Entrez Gene ID	53616
Full Name	ADAM metallopeptidase domain 22
Synonyms	ADAM 22,MDC2
General protein information	Preferred Names ADAM metallopeptidase domain 22 Names disintegrin and metalloproteinase domain-containing protein 22 a disintegrin and metalloproteinase domain 22 metalloproteinase-disintegrin ADAM22-3 metalloproteinase-like, disintegrin-like, and cysteine-rich protein 2
Gene Type	protein-coding
Organism	Homo sapiens(human)
Genome	Chromosome: 7 Map Location: 7q21.12
Summary	This gene encodes a member of the ADAM (a disintegrin and metalloprotease domain) family. Members of this family are membrane-anchored proteins structurally related to snake venom disintegrins, and have been implicated in a variety of biological processes involving cell-cell and cell-matrix interactions, including fertilization, muscle development, and neurogenesis. Unlike other members of the ADAM protein family, the protein encoded by this gene lacks metalloprotease activity since it has no zinc-binding motif. This gene is highly expressed in the brain and may function as an integrin ligand in the brain. In mice, it has been shown to be essential for correct myelination in the peripheral nervous system. Alternative splicing results in several transcript variants.[provided by RefSeq, Dec 2010].
Disorder MIM:	603709

mRNA and Protein(s)

mRNA	Protein	Name
XM_017012332.1	XP_016867821.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X13
XM_017012334.1	XP_016867823.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X16
XM_017012337.1	XP_016867826.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X19
XM_005250445.3	XP_005250502.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X8
NM_001324420.1	NP_001311349.1	disintegrin and metalloproteinase domain-containing protein 22 isoform 9 precursor
NM_001324421.2	NP_001311350.1	disintegrin and metalloproteinase domain-containing protein 22 isoform 10 precursor
XM_011516319.3	XP_011514621.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X3
XM_011516322.2	XP_011514624.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X7
XM_017012330.2	XP_016867819.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X10
XM_017012333.2	XP_016867822.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X15
XM_017012340.1	XP_016867829.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X22
XM_011516318.1	XP_011514620.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X2
NM_021722.5	NP_068368.2	disintegrin and metalloproteinase domain-containing protein 22 isoform 2 precursor
NM_001324419.1	NP_001311348.1	disintegrin and metalloproteinase domain-containing protein 22 isoform 8 precursor
NM_001324419.2	NP_001311348.1	disintegrin and metalloproteinase domain-containing protein 22 isoform 8 precursor
NM_021722.6	NP_068368.2	disintegrin and metalloproteinase domain-containing protein 22 isoform 2 precursor
XM_011516321.3	XP_011514623.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X5
XM_006716029.4	XP_006716092.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X6
XM_017012329.2	XP_016867818.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X9
XM_017012331.2	XP_016867820.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X12
XM_017012332.2	XP_016867821.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X13
XM_011516324.2	XP_011514626.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X14
XM_017012337.2	XP_016867826.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X19
XM_017012341.2	XP_016867830.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X23
XM_017012333.1	XP_016867822.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X15
XM_017012329.1	XP_016867818.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X9
XM_017012339.1	XP_016867828.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X21
XM_006716029.3	XP_006716092.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X6
NM_001324418.1	NP_001311347.1	disintegrin and metalloproteinase domain-containing protein 22 isoform 7 precursor
NM_001324417.2	NP_001311346.1	disintegrin and metalloproteinase domain-containing protein 22 isoform 6 precursor
NM_016351.6	NP_057435.2	disintegrin and metalloproteinase domain-containing protein 22 isoform 3 precursor
NM_021723.5	NP_068369.1	disintegrin and metalloproteinase domain-containing protein 22 isoform 1 preproprotein
NM_001324418.2	NP_001311347.1	disintegrin and metalloproteinase domain-containing protein 22 isoform 7 precursor
XM_005250445.4	XP_005250502.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X8
XM_011516323.2	XP_011514625.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X11
XM_011516323.1	XP_011514625.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X11
XM_011516322.1	XP_011514624.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X7
XM_011516319.2	XP_011514621.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X3
XM_017012331.1	XP_016867820.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X12
XM_011516324.1	XP_011514626.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X14
XM_017012336.1	XP_016867825.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X18
XM_017012338.1	XP_016867827.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X20
XM_017012341.1	XP_016867830.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X23
XM_011516320.2	XP_011514622.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X4
XM_011516321.2	XP_011514623.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X5
NM_021723.4	NP_068369.1	disintegrin and metalloproteinase domain-containing protein 22 isoform 1 preproprotein
NM_001324420.2	NP_001311349.1	disintegrin and metalloproteinase domain-containing protein 22 isoform 9 precursor
XM_011516318.2	XP_011514620.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X2
XM_017012334.2	XP_016867823.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X16
XM_017012339.2	XP_016867828.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X21
XM_006716028.3	XP_006716091.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X1
XM_017012330.1	XP_016867819.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X10
XM_017012335.1	XP_016867824.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X17
NM_001324421.1	NP_001311350.1	disintegrin and metalloproteinase domain-containing protein 22 isoform 10 precursor
NM_001324417.1	NP_001311346.1	disintegrin and metalloproteinase domain-containing protein 22 isoform 6 precursor
NM_016351.5	NP_057435.2	disintegrin and metalloproteinase domain-containing protein 22 isoform 3 precursor
NM_021721.4	NP_068367.1	disintegrin and metalloproteinase domain-containing protein 22 isoform 5 precursor
NM_004194.4	NP_004185.1	disintegrin and metalloproteinase domain-containing protein 22 isoform 4 precursor
XM_006716028.4	XP_006716091.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X1
XM_011516320.3	XP_011514622.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X4
XM_017012335.2	XP_016867824.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X17
XM_017012336.2	XP_016867825.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X18
XM_017012338.2	XP_016867827.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X20
XM_017012340.2	XP_016867829.1	disintegrin and metalloproteinase domain-containing protein 22 isoform X22

Pathways from BioSystems

Homologies

Homo sapiens (human)	ADAM22	NP_068369.1
Canis lupus familiaris (dog)	ADAM22	XP_005628522.1
Danio rerio (zebrafish)	zgc:173905	XP_002665027.3
	ADAM22	XP_002803443.1
Mus musculus (house mouse)	Adam22	NP_001091695.1
Xenopus tropicalis (tropical clawed frog)	adam22	NP_001243156.1
Pan troglodytes (chimpanzee)	ADAM22	XP_001164271.1
Bos taurus (cattle)	ADAM22	NP_001178060.1
Gallus gallus (chicken)	ADAM22	NP_001138700.1

Gene Ontology
Bibliography

Related articles in PubMed

Secretion-Positive LGI1 Mutations Linked to Lateral Temporal Epilepsy Impair Binding to ADAM22 and ADAM23 Receptors.
Dazzo E, Leonardi E, Belluzzi E, Malacrida S, Vitiello L, Greggio E, Tosatto SC, Nobile C
PLoS genetics12(10)e1006376(2016 Oct)

Dysfunctional ADAM22 implicated in progressive encephalopathy with cortical atrophy and epilepsy.
Muona M, Fukata Y, Anttonen AK, Laari A, Palotie A, Pihko H, L?nnqvist T, Valanne L, Somer M, Fukata M, Lehesjoki AE
Neurology. Genetics2(1)e46(2016 Feb)

GeneRIFs: Gene References Into Functions What's a GeneRIF?

these results support the existence of a second mechanism, alternative to inhibition of protein secretion, by which ADLTE-causing LGI1 mutations exert their loss-of-function effect extracellularly, and suggest that interactions of LGI1 with both ADAM22 and ADAM23 play an important role in the molecular mechanisms leading to utosomal dominant lateral temporal epilepsy
Title: Secretion-Positive LGI1 Mutations Linked to Lateral Temporal Epilepsy Impair Binding to ADAM22 and ADAM23 Receptors.

Disruption of LGI1-ADAM22 interaction reduces synaptic AMPA receptors in hippocampal neurons.
Title: Autoantibodies to epilepsy-related LGI1 in limbic encephalitis neutralize LGI1-ADAM22 interaction and reduce synaptic AMPA receptors.

Data suggest that ADAM22 plays roles in cell differentiation, cell migration, and resistance to endocrine therapy in breast cancer; ADAM22 may serve as biomarker for poor disease-free survival in breast cancer patients. [REVIEW]
Title: ADAM22 as a prognostic and therapeutic drug target in the treatment of endocrine-resistant breast cancer.

findings suggest that SRC-1 switches steroid-responsive tumors to a steroid-resistant state in which the SRC-1 target gene ADAM22 has a critical role
Title: Global characterization of the SRC-1 transcriptome identifies ADAM22 as an ER-independent mediator of endocrine-resistant breast cancer.

Clinical trial of gene-disease association and gene-environment interaction. (HuGE Navigator)
Title: Personalized smoking cessation: interactions between nicotine dose, dependence and quit-success genotype score.

The following ADAM22 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ADAM22 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)
OHu100577	NM_001324418.2 Latest version!	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 7, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	in pcDNA3.1-C-(k)DYK	$339.50-$475.30 $679.00
OHu97351	XM_017012341.2 Latest version!	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X23, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	10-12	$307.30 $439.00
OHu03723	NM_021721.4 Latest version!	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 5, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$580.30 $829.00
OHu04198	NM_004194.4 Latest version!	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$608.30 $869.00
OHu10843	NM_021722.6 Latest version!	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$636.30 $909.00
OHu11770	NM_016351.6 Latest version!	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$265.30 $379.00
OHu12383	NM_021723.5 Latest version!	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$636.30 $909.00
OHu41619	XM_006716029.4 Latest version!	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X6, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$475.30 $679.00
OHu41620	XM_005250445.4 Latest version!	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X8, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$475.30 $679.00
OHu68204	XM_011516320.3 Latest version!	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$475.30 $679.00
OHu68205	XM_011516321.3 Latest version!	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X5, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$475.30 $679.00
OHu68206	XM_011516322.2 Latest version!	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X7, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$475.30 $679.00
OHu68207	XM_011516323.2 Latest version!	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X11, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$475.30 $679.00
OHu68208	XM_011516324.2 Latest version!	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X14, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$475.30 $679.00
OHu100598	NM_001324417.2 Latest version!	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 6, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OHu100659	NM_001324421.2 Latest version!	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 10, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OHu100672	NM_001324419.2 Latest version!	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 8, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OHu100694	NM_001324420.2 Latest version!	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 9, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OHu97339	XM_017012329.2 Latest version!	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X9, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OHu97340	XM_017012330.2 Latest version!	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X10, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OHu97341	XM_017012331.2 Latest version!	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X12, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OHu97342	XM_017012332.2 Latest version!	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X13, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OHu97343	XM_017012333.2 Latest version!	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X15, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OHu97344	XM_017012334.2 Latest version!	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X16, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OHu97345	XM_017012335.2 Latest version!	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X17, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OHu97346	XM_017012336.2 Latest version!	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X18, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OHu97347	XM_017012337.2 Latest version!	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X19, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OHu97348	XM_017012338.2 Latest version!	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X20, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OHu97349	XM_017012339.2 Latest version!	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X21, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OHu97350	XM_017012340.2 Latest version!	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X22, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$307.30 $439.00
OHu41618	XM_006716028.4 Latest version!	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$559.30 $799.00
OHu68202	XM_011516318.2 Latest version!	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$559.30 $799.00
OHu68203	XM_011516319.3 Latest version!	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$559.30 $799.00
View Old Accession Versions >>
OHu100672	NM_001324419.1	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 8, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OHu10843	NM_021722.5	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$636.30 $909.00
OHu97342	XM_017012332.1	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X13, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OHu97347	XM_017012337.1	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X19, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OHu97343	XM_017012333.1	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X15, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OHu97339	XM_017012329.1	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X9, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OHu41619	XM_006716029.3	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X6, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$475.30 $679.00
OHu100577	NM_001324418.1	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 7, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	in pcDNA3.1-C-(k)DYK	$339.50-$475.30 $679.00
OHu41620	XM_005250445.3	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X8, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$475.30 $679.00
OHu68207	XM_011516323.1	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X11, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$475.30 $679.00
OHu68206	XM_011516322.1	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X7, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$475.30 $679.00
OHu68203	XM_011516319.2	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$559.30 $799.00
OHu97341	XM_017012331.1	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X12, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OHu68208	XM_011516324.1	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X14, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$475.30 $679.00
OHu97351	XM_017012341.1	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X23, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	10-12	$307.30 $439.00
OHu68205	XM_011516321.2	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X5, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$475.30 $679.00
OHu12383	NM_021723.4	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$636.30 $909.00
OHu100694	NM_001324420.1	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 9, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OHu68202	XM_011516318.1	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$559.30 $799.00
OHu97344	XM_017012334.1	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X16, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OHu97349	XM_017012339.1	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X21, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OHu97340	XM_017012330.1	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X10, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OHu100659	NM_001324421.1	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 10, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OHu100598	NM_001324417.1	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 6, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OHu11770	NM_016351.5	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$265.30 $379.00
OHu41618	XM_006716028.3	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$559.30 $799.00
OHu68204	XM_011516320.2	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$475.30 $679.00
OHu97345	XM_017012335.1	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X17, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OHu97346	XM_017012336.1	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X18, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OHu97348	XM_017012338.1	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X20, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OHu97350	XM_017012340.1	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X22, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$307.30 $439.00
Hide Old Accession Versions >>

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** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

Reference Sequences (Refseq)

ADAM22 ( NM_001324418.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001311347.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 7, mRNA.

Price & Availability↑

CloneID	OHu100577
Clone ID Related Accession (Same CDS sequence)	NM_001324418.1 , NM_001324418.2
Accession Version	NM_001324418.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2895bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2018-12-22
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform 7 precursor
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DR000609.1, AC005164.2, AC004992.2, AC005075.2 and R41888.1. Transcript Variant: This variant (7) encodes isoform 7. The encoded isoform (7) may undergo proteolytic processing. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660803.101525.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2152719, SAMEA2154665 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG ACAGTTACCC CAGGGAGATT ATGTAAAAAA GCCTGGAGAT 
GGTGACTCTT TTTATAGCGA CATTCCTCCC GGAGTCAGCA CAAACTCAGC ATCTAGTTCT 
AAGAAGAGGT CTGCTTTTCT GTCGCATTTT CAGATTTCTA CCTGTTCCAT CACACATTAT 
TCCATTAGTC AGAACATTTC ATTATTTTGC AGCAGGTCAA ATGGGCTCTC TCATTCTTGG 
AGTGAAAGGA TTCCAGACAC AAAACATATT TCAGACATCT GTGAAAATGG GCGACCTCGA 
AGTAACTCTT GGCAAGGTAA CCTGGGAGGC AACAAAAAGA AAATCAGAGG CAAAAGATTT 
AGACCTCGGT CTAATTCAAC TGAGTATTTA AACCCATGGT TCAAAAGAGA CTATAATGTA 
GCTAAGTGGG TAGAAGATGT GAATAAAAAC ACTGAAGGAC CATACTTTAG GACTTTATCT 
CCTGCCAAGT CTCCTTCTTC ATCAACTGGG TCTATTGCCT CCAGCAGAAA ATACCCTTAC 
CCAATGCCTC CACTTCCTGA TGAGGACAAG AAAGTGAACC GACAAAGTGC CAGGCTATGG 
GAGACATCCA TTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	NP_001311347.1
CDS	324..3218
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQAGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRQLPQGDYVKKPGDGDSFYSDIPPGVSTNSASSSKKRSAFLSHFQISTCSITHYSISQNISLFCSRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTEYLNPWFKRDYNVAKWVEDVNKNTEGPYFRTLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	NM_001324418.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 7, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_001324418.1

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG ACAGTTACCC CAGGGAGATT ATGTAAAAAA GCCTGGAGAT 
GGTGACTCTT TTTATAGCGA CATTCCTCCC GGAGTCAGCA CAAACTCAGC ATCTAGTTCT 
AAGAAGAGGT CTGCTTTTCT GTCGCATTTT CAGATTTCTA CCTGTTCCAT CACACATTAT 
TCCATTAGTC AGAACATTTC ATTATTTTGC AGCAGGTCAA ATGGGCTCTC TCATTCTTGG 
AGTGAAAGGA TTCCAGACAC AAAACATATT TCAGACATCT GTGAAAATGG GCGACCTCGA 
AGTAACTCTT GGCAAGGTAA CCTGGGAGGC AACAAAAAGA AAATCAGAGG CAAAAGATTT 
AGACCTCGGT CTAATTCAAC TGAGTATTTA AACCCATGGT TCAAAAGAGA CTATAATGTA 
GCTAAGTGGG TAGAAGATGT GAATAAAAAC ACTGAAGGAC CATACTTTAG GACTTTATCT 
CCTGCCAAGT CTCCTTCTTC ATCAACTGGG TCTATTGCCT CCAGCAGAAA ATACCCTTAC 
CCAATGCCTC CACTTCCTGA TGAGGACAAG AAAGTGAACC GACAAAGTGC CAGGCTATGG 
GAGACATCCA TTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( NM_001324418.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001311347.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 7, mRNA.

Price & Availability↑

CloneID	OHu100577
Clone ID Related Accession (Same CDS sequence)	NM_001324418.1 , NM_001324418.2
Accession Version	NM_001324418.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2895bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-08-07
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform 7 precursor
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DR000609.1, AC005164.2, AC004992.2, AC005075.2 and R41888.1. On Jun 2, 2019 this sequence version replaced NM_001324418.1. Transcript Variant: This variant (7) encodes isoform 7. The encoded isoform (7) may undergo proteolytic processing. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660803.101525.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2152719, SAMEA2154665 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## RefSeq Select criteria :: based on conservation ##RefSeq-Attributes-END## COMPLETENESS: complete on the 3' end.

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG ACAGTTACCC CAGGGAGATT ATGTAAAAAA GCCTGGAGAT 
GGTGACTCTT TTTATAGCGA CATTCCTCCC GGAGTCAGCA CAAACTCAGC ATCTAGTTCT 
AAGAAGAGGT CTGCTTTTCT GTCGCATTTT CAGATTTCTA CCTGTTCCAT CACACATTAT 
TCCATTAGTC AGAACATTTC ATTATTTTGC AGCAGGTCAA ATGGGCTCTC TCATTCTTGG 
AGTGAAAGGA TTCCAGACAC AAAACATATT TCAGACATCT GTGAAAATGG GCGACCTCGA 
AGTAACTCTT GGCAAGGTAA CCTGGGAGGC AACAAAAAGA AAATCAGAGG CAAAAGATTT 
AGACCTCGGT CTAATTCAAC TGAGTATTTA AACCCATGGT TCAAAAGAGA CTATAATGTA 
GCTAAGTGGG TAGAAGATGT GAATAAAAAC ACTGAAGGAC CATACTTTAG GACTTTATCT 
CCTGCCAAGT CTCCTTCTTC ATCAACTGGG TCTATTGCCT CCAGCAGAAA ATACCCTTAC 
CCAATGCCTC CACTTCCTGA TGAGGACAAG AAAGTGAACC GACAAAGTGC CAGGCTATGG 
GAGACATCCA TTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	NP_001311347.1
CDS	216..3110
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQAGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRQLPQGDYVKKPGDGDSFYSDIPPGVSTNSASSSKKRSAFLSHFQISTCSITHYSISQNISLFCSRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTEYLNPWFKRDYNVAKWVEDVNKNTEGPYFRTLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	NM_001324418.2
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 7, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_001324418.2

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG ACAGTTACCC CAGGGAGATT ATGTAAAAAA GCCTGGAGAT 
GGTGACTCTT TTTATAGCGA CATTCCTCCC GGAGTCAGCA CAAACTCAGC ATCTAGTTCT 
AAGAAGAGGT CTGCTTTTCT GTCGCATTTT CAGATTTCTA CCTGTTCCAT CACACATTAT 
TCCATTAGTC AGAACATTTC ATTATTTTGC AGCAGGTCAA ATGGGCTCTC TCATTCTTGG 
AGTGAAAGGA TTCCAGACAC AAAACATATT TCAGACATCT GTGAAAATGG GCGACCTCGA 
AGTAACTCTT GGCAAGGTAA CCTGGGAGGC AACAAAAAGA AAATCAGAGG CAAAAGATTT 
AGACCTCGGT CTAATTCAAC TGAGTATTTA AACCCATGGT TCAAAAGAGA CTATAATGTA 
GCTAAGTGGG TAGAAGATGT GAATAAAAAC ACTGAAGGAC CATACTTTAG GACTTTATCT 
CCTGCCAAGT CTCCTTCTTC ATCAACTGGG TCTATTGCCT CCAGCAGAAA ATACCCTTAC 
CCAATGCCTC CACTTCCTGA TGAGGACAAG AAAGTGAACC GACAAAGTGC CAGGCTATGG 
GAGACATCCA TTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_017012341.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867830.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X23, mRNA.

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CloneID	OHu97351
Clone ID Related Accession (Same CDS sequence)	XM_017012341.2 , XM_017012341.1
Accession Version	XM_017012341.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 1518bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X23
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017012341.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTGTTA CACTTGCCCA GTCATTAGCC CATAATATTG GTATTATCTC AGACAAAAGA 
AAGTTAGCAA GTGGTGAATG TAAATGCGAG GACACGTGGT CCGGGTGCAT AATGGGAGAC 
ACTGGCTATT ATCTTCCTAA AAAGTTCACC CAGTGTAATA TTGAAGAGTA TCATGACTTC 
CTGAATAGTG GAGGTGGTGC CTGCCTTTTC AACAAACCTT CTAAGCTTCT TGATCCTCCT 
GAGTGTGGCA ATGGCTTCAT TGAAACTGGA GAGGAGTGTG ATTGTGGAAC CCCGGCCGAA 
TGTGTCCTTG AAGGAGCAGA GTGTTGTAAG AAATGCACCT TGACTCAAGA CTCTCAATGC 
AGTGACGGTC TTTGCTGTAA AAAGTGCAAG TTTCAGCCTA TGGGCACTGT GTGCCGAGAA 
GCAGTAAATG ATTGTGATAT TCGTGAAACG TGCTCAGGAA ATTCAAGCCA GTGTGCCCCT 
AATATTCATA AAATGGATGG ATATTCATGT GATGGTGTTC AGGGAATTTG CTTTGGAGGA 
AGATGCAAAA CCAGAGATAG ACAATGCAAA TACATTTGGG GGCAAAAGGT GACAGCATCA 
GACAAATATT GCTATGAGAA ACTGAATATT GAAGGGACGG AGAAGGGTAA CTGTGGGAAA 
GACAAAGACA CATGGATACA GTGCAACAAA CGGGATGTGC TTTGTGGTTA CCTTTTGTGT 
ACCAATATTG GCAATATCCC AAGGCTTGGA GAACTCGATG GTGAAATCAC ATCTACTTTA 
GTTGTGCAGC AAGGAAGAAC ATTAAACTGC AGTGGTGGGC ATGTTAAGCT TGAAGAAGAT 
GTAGATCTTG GCTATGTGGA AGATGGGACA CCTTGTGGTC CCCAAATGAT GTGCTTAGAA 
CACAGGTGTC TTCCTGTGGC TTCTTTCAAC TTTAGTACTT GCTTGAGCAG TAAAGAAGGC 
ACTATTTGCT CAGGAAATGG AGTTTGCAGT AATGAGCTGA AGTGTGTGTG TAACAGACAC 
TGGATAGGTT CTGATTGCAA CACTTACTTC CCTCACAATG ATGATGCAAA GACTGGTATC 
ACTCTGTCTG GCAATGGTGT TGCTGGCACC AATATCATAA TAGGCATAAT TGCTGGCACC 
ATTTTAGTGC TGGCCCTCAT ATTAGGAATA ACTGCGTGGG GTTATAAAAA CTATCGAGAA 
CAGAGGTCAA ATGGGCTCTC TCATTCTTGG AGTGAAAGGA TTCCAGACAC AAAACATATT 
TCAGACATCT GTGAAAATGG GCGACCTCGA AGTAACTCTT GGCAAGGTAA CCTGGGAGGC 
AACAAAAAGA AAATCAGAGG CAAAAGATTT AGACCTCGGT CTAATTCAAC TGAGACTTTA 
TCTCCTGCCA AGTCTCCTTC TTCATCAACT GGGTCTATTG CCTCCAGCAG AAAATACCCT 
TACCCAATGC CTCCACTTCC TGATGAGGAC AAGAAAGTGA ACCGACAAAG TGCCAGGCTA 
TGGGAGACAT CCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_016867830.1
CDS	1420..2937
Translation	MAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTETLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_017012341.2
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X23, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_017012341.2

ORF Insert Sequence:

ATGGCTGTTA CACTTGCCCA GTCATTAGCC CATAATATTG GTATTATCTC AGACAAAAGA 
AAGTTAGCAA GTGGTGAATG TAAATGCGAG GACACGTGGT CCGGGTGCAT AATGGGAGAC 
ACTGGCTATT ATCTTCCTAA AAAGTTCACC CAGTGTAATA TTGAAGAGTA TCATGACTTC 
CTGAATAGTG GAGGTGGTGC CTGCCTTTTC AACAAACCTT CTAAGCTTCT TGATCCTCCT 
GAGTGTGGCA ATGGCTTCAT TGAAACTGGA GAGGAGTGTG ATTGTGGAAC CCCGGCCGAA 
TGTGTCCTTG AAGGAGCAGA GTGTTGTAAG AAATGCACCT TGACTCAAGA CTCTCAATGC 
AGTGACGGTC TTTGCTGTAA AAAGTGCAAG TTTCAGCCTA TGGGCACTGT GTGCCGAGAA 
GCAGTAAATG ATTGTGATAT TCGTGAAACG TGCTCAGGAA ATTCAAGCCA GTGTGCCCCT 
AATATTCATA AAATGGATGG ATATTCATGT GATGGTGTTC AGGGAATTTG CTTTGGAGGA 
AGATGCAAAA CCAGAGATAG ACAATGCAAA TACATTTGGG GGCAAAAGGT GACAGCATCA 
GACAAATATT GCTATGAGAA ACTGAATATT GAAGGGACGG AGAAGGGTAA CTGTGGGAAA 
GACAAAGACA CATGGATACA GTGCAACAAA CGGGATGTGC TTTGTGGTTA CCTTTTGTGT 
ACCAATATTG GCAATATCCC AAGGCTTGGA GAACTCGATG GTGAAATCAC ATCTACTTTA 
GTTGTGCAGC AAGGAAGAAC ATTAAACTGC AGTGGTGGGC ATGTTAAGCT TGAAGAAGAT 
GTAGATCTTG GCTATGTGGA AGATGGGACA CCTTGTGGTC CCCAAATGAT GTGCTTAGAA 
CACAGGTGTC TTCCTGTGGC TTCTTTCAAC TTTAGTACTT GCTTGAGCAG TAAAGAAGGC 
ACTATTTGCT CAGGAAATGG AGTTTGCAGT AATGAGCTGA AGTGTGTGTG TAACAGACAC 
TGGATAGGTT CTGATTGCAA CACTTACTTC CCTCACAATG ATGATGCAAA GACTGGTATC 
ACTCTGTCTG GCAATGGTGT TGCTGGCACC AATATCATAA TAGGCATAAT TGCTGGCACC 
ATTTTAGTGC TGGCCCTCAT ATTAGGAATA ACTGCGTGGG GTTATAAAAA CTATCGAGAA 
CAGAGGTCAA ATGGGCTCTC TCATTCTTGG AGTGAAAGGA TTCCAGACAC AAAACATATT 
TCAGACATCT GTGAAAATGG GCGACCTCGA AGTAACTCTT GGCAAGGTAA CCTGGGAGGC 
AACAAAAAGA AAATCAGAGG CAAAAGATTT AGACCTCGGT CTAATTCAAC TGAGACTTTA 
TCTCCTGCCA AGTCTCCTTC TTCATCAACT GGGTCTATTG CCTCCAGCAG AAAATACCCT 
TACCCAATGC CTCCACTTCC TGATGAGGAC AAGAAAGTGA ACCGACAAAG TGCCAGGCTA 
TGGGAGACAT CCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_017012341.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867830.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X23, mRNA.

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CloneID	OHu97351
Clone ID Related Accession (Same CDS sequence)	XM_017012341.2 , XM_017012341.1
Accession Version	XM_017012341.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 1518bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-06-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X23
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTGTTA CACTTGCCCA GTCATTAGCC CATAATATTG GTATTATCTC AGACAAAAGA 
AAGTTAGCAA GTGGTGAATG TAAATGCGAG GACACGTGGT CCGGGTGCAT AATGGGAGAC 
ACTGGCTATT ATCTTCCTAA AAAGTTCACC CAGTGTAATA TTGAAGAGTA TCATGACTTC 
CTGAATAGTG GAGGTGGTGC CTGCCTTTTC AACAAACCTT CTAAGCTTCT TGATCCTCCT 
GAGTGTGGCA ATGGCTTCAT TGAAACTGGA GAGGAGTGTG ATTGTGGAAC CCCGGCCGAA 
TGTGTCCTTG AAGGAGCAGA GTGTTGTAAG AAATGCACCT TGACTCAAGA CTCTCAATGC 
AGTGACGGTC TTTGCTGTAA AAAGTGCAAG TTTCAGCCTA TGGGCACTGT GTGCCGAGAA 
GCAGTAAATG ATTGTGATAT TCGTGAAACG TGCTCAGGAA ATTCAAGCCA GTGTGCCCCT 
AATATTCATA AAATGGATGG ATATTCATGT GATGGTGTTC AGGGAATTTG CTTTGGAGGA 
AGATGCAAAA CCAGAGATAG ACAATGCAAA TACATTTGGG GGCAAAAGGT GACAGCATCA 
GACAAATATT GCTATGAGAA ACTGAATATT GAAGGGACGG AGAAGGGTAA CTGTGGGAAA 
GACAAAGACA CATGGATACA GTGCAACAAA CGGGATGTGC TTTGTGGTTA CCTTTTGTGT 
ACCAATATTG GCAATATCCC AAGGCTTGGA GAACTCGATG GTGAAATCAC ATCTACTTTA 
GTTGTGCAGC AAGGAAGAAC ATTAAACTGC AGTGGTGGGC ATGTTAAGCT TGAAGAAGAT 
GTAGATCTTG GCTATGTGGA AGATGGGACA CCTTGTGGTC CCCAAATGAT GTGCTTAGAA 
CACAGGTGTC TTCCTGTGGC TTCTTTCAAC TTTAGTACTT GCTTGAGCAG TAAAGAAGGC 
ACTATTTGCT CAGGAAATGG AGTTTGCAGT AATGAGCTGA AGTGTGTGTG TAACAGACAC 
TGGATAGGTT CTGATTGCAA CACTTACTTC CCTCACAATG ATGATGCAAA GACTGGTATC 
ACTCTGTCTG GCAATGGTGT TGCTGGCACC AATATCATAA TAGGCATAAT TGCTGGCACC 
ATTTTAGTGC TGGCCCTCAT ATTAGGAATA ACTGCGTGGG GTTATAAAAA CTATCGAGAA 
CAGAGGTCAA ATGGGCTCTC TCATTCTTGG AGTGAAAGGA TTCCAGACAC AAAACATATT 
TCAGACATCT GTGAAAATGG GCGACCTCGA AGTAACTCTT GGCAAGGTAA CCTGGGAGGC 
AACAAAAAGA AAATCAGAGG CAAAAGATTT AGACCTCGGT CTAATTCAAC TGAGACTTTA 
TCTCCTGCCA AGTCTCCTTC TTCATCAACT GGGTCTATTG CCTCCAGCAG AAAATACCCT 
TACCCAATGC CTCCACTTCC TGATGAGGAC AAGAAAGTGA ACCGACAAAG TGCCAGGCTA 
TGGGAGACAT CCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_016867830.1
CDS	1039..2556
Translation	MAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTETLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_017012341.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X23, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_017012341.1

ORF Insert Sequence:

ATGGCTGTTA CACTTGCCCA GTCATTAGCC CATAATATTG GTATTATCTC AGACAAAAGA 
AAGTTAGCAA GTGGTGAATG TAAATGCGAG GACACGTGGT CCGGGTGCAT AATGGGAGAC 
ACTGGCTATT ATCTTCCTAA AAAGTTCACC CAGTGTAATA TTGAAGAGTA TCATGACTTC 
CTGAATAGTG GAGGTGGTGC CTGCCTTTTC AACAAACCTT CTAAGCTTCT TGATCCTCCT 
GAGTGTGGCA ATGGCTTCAT TGAAACTGGA GAGGAGTGTG ATTGTGGAAC CCCGGCCGAA 
TGTGTCCTTG AAGGAGCAGA GTGTTGTAAG AAATGCACCT TGACTCAAGA CTCTCAATGC 
AGTGACGGTC TTTGCTGTAA AAAGTGCAAG TTTCAGCCTA TGGGCACTGT GTGCCGAGAA 
GCAGTAAATG ATTGTGATAT TCGTGAAACG TGCTCAGGAA ATTCAAGCCA GTGTGCCCCT 
AATATTCATA AAATGGATGG ATATTCATGT GATGGTGTTC AGGGAATTTG CTTTGGAGGA 
AGATGCAAAA CCAGAGATAG ACAATGCAAA TACATTTGGG GGCAAAAGGT GACAGCATCA 
GACAAATATT GCTATGAGAA ACTGAATATT GAAGGGACGG AGAAGGGTAA CTGTGGGAAA 
GACAAAGACA CATGGATACA GTGCAACAAA CGGGATGTGC TTTGTGGTTA CCTTTTGTGT 
ACCAATATTG GCAATATCCC AAGGCTTGGA GAACTCGATG GTGAAATCAC ATCTACTTTA 
GTTGTGCAGC AAGGAAGAAC ATTAAACTGC AGTGGTGGGC ATGTTAAGCT TGAAGAAGAT 
GTAGATCTTG GCTATGTGGA AGATGGGACA CCTTGTGGTC CCCAAATGAT GTGCTTAGAA 
CACAGGTGTC TTCCTGTGGC TTCTTTCAAC TTTAGTACTT GCTTGAGCAG TAAAGAAGGC 
ACTATTTGCT CAGGAAATGG AGTTTGCAGT AATGAGCTGA AGTGTGTGTG TAACAGACAC 
TGGATAGGTT CTGATTGCAA CACTTACTTC CCTCACAATG ATGATGCAAA GACTGGTATC 
ACTCTGTCTG GCAATGGTGT TGCTGGCACC AATATCATAA TAGGCATAAT TGCTGGCACC 
ATTTTAGTGC TGGCCCTCAT ATTAGGAATA ACTGCGTGGG GTTATAAAAA CTATCGAGAA 
CAGAGGTCAA ATGGGCTCTC TCATTCTTGG AGTGAAAGGA TTCCAGACAC AAAACATATT 
TCAGACATCT GTGAAAATGG GCGACCTCGA AGTAACTCTT GGCAAGGTAA CCTGGGAGGC 
AACAAAAAGA AAATCAGAGG CAAAAGATTT AGACCTCGGT CTAATTCAAC TGAGACTTTA 
TCTCCTGCCA AGTCTCCTTC TTCATCAACT GGGTCTATTG CCTCCAGCAG AAAATACCCT 
TACCCAATGC CTCCACTTCC TGATGAGGAC AAGAAAGTGA ACCGACAAAG TGCCAGGCTA 
TGGGAGACAT CCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( NM_021721.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_068367.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 5, mRNA.

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CloneID	OHu03723
Clone ID Related Accession (Same CDS sequence)	NM_021721.4
Accession Version	NM_021721.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2472bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-08-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform 5 precursor
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DR000609.1, AF155381.1 and AB009671.1. On May 5, 2016 this sequence version replaced NM_021721.3. Transcript Variant: This variant (5) uses an alternate splice site in the 3' coding region and lacks one coding and two non-coding exons, compared to variant 1. The resulting protein (isoform 5) has a shorter and distinct C-terminus, compared to isoform 1. The encoded isoform (5) may undergo proteolytic processing. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803611.247593.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968540, SAMEA2142348 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG GTCAAATGGG CTCTCTCATT CTTGGAGTGA AAGGATTCCA 
GACACAAAAC ATATTTCAGA CATCTGTGAA AATGGGCGAC CTCGAAGTAA CTCTTGGCAA 
GGTAACCTGG GAGGCAACAA AAAGAAAATC AGAGGCAAAA GATTTAGACC TCGGTCTAAT 
TCAACTGAGT AA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	NP_068367.1
CDS	324..2795
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQAGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTE

Target ORF information:

RefSeq Version	NM_021721.4
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 5, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_021721.4

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG GTCAAATGGG CTCTCTCATT CTTGGAGTGA AAGGATTCCA 
GACACAAAAC ATATTTCAGA CATCTGTGAA AATGGGCGAC CTCGAAGTAA CTCTTGGCAA 
GGTAACCTGG GAGGCAACAA AAAGAAAATC AGAGGCAAAA GATTTAGACC TCGGTCTAAT 
TCAACTGAGT AA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( NM_004194.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_004185.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 4, mRNA.

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CloneID	OHu04198
Clone ID Related Accession (Same CDS sequence)	NM_004194.4
Accession Version	NM_004194.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2580bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-08-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform 4 precursor
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DR000609.1 and AB009671.1. On May 4, 2016 this sequence version replaced NM_004194.3. Transcript Variant: This variant (4), also known as beta, uses an alternate splice site in the 3' coding region and lacks two downstream exons, compared to variant 1. The resulting protein (isoform 4) has a shorter and distinct C-terminus, compared to isoform 1. The encoded isoform (4) may undergo proteolytic processing. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AB009671.1, SRR1660809.167459.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2154665, SAMEA2157437 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG ACAGTTACCC CAGGGAGATT ATGTAAAAAA GCCTGGAGAT 
GGTGACTCTT TTTATAGCGA CATTCCTCCC GGAGTCAGCA CAAACTCAGC ATCTAGTTCT 
AAGAAGAGGT CAAATGGGCT CTCTCATTCT TGGAGTGAAA GGATTCCAGA CACAAAACAT 
ATTTCAGACA TCTGTGAAAA TGGGCGACCT CGAAGTAACT CTTGGCAAGG TAACCTGGGA 
GGCAACAAAA AGAAAATCAG AGGCAAAAGA TTTAGACCTC GGTCTAATTC AACTGAGTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	NP_004185.1
CDS	324..2903
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQAGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRQLPQGDYVKKPGDGDSFYSDIPPGVSTNSASSSKKRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTE

Target ORF information:

RefSeq Version	NM_004194.4
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 4, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_004194.4

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG ACAGTTACCC CAGGGAGATT ATGTAAAAAA GCCTGGAGAT 
GGTGACTCTT TTTATAGCGA CATTCCTCCC GGAGTCAGCA CAAACTCAGC ATCTAGTTCT 
AAGAAGAGGT CAAATGGGCT CTCTCATTCT TGGAGTGAAA GGATTCCAGA CACAAAACAT 
ATTTCAGACA TCTGTGAAAA TGGGCGACCT CGAAGTAACT CTTGGCAAGG TAACCTGGGA 
GGCAACAAAA AGAAAATCAG AGGCAAAAGA TTTAGACCTC GGTCTAATTC AACTGAGTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( NM_021722.5 ) cDNA ORF clone, Homo sapiens(human) -> NP_068368.2 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 2, mRNA.

Price & Availability↑

CloneID	OHu10843
Clone ID Related Accession (Same CDS sequence)	NM_021722.5 , NM_021722.6
Accession Version	NM_021722.5	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2700bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2018-12-22
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform 2 precursor
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DR000609.1, AF155381.1, AC005075.2 and R41888.1. On May 4, 2016 this sequence version replaced NM_021722.4. Transcript Variant: This variant (2), also known as delta, has multiple differences in the coding region but maintains the reading frame, compared to variant 1. The encoded isoform (2) is shorter than isoform 1. The encoded isoform (2) may undergo proteolytic processing. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660803.35095.1, SRR1803617.271927.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2144120, SAMEA2145544 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG GTCAAATGGG CTCTCTCATT CTTGGAGTGA AAGGATTCCA 
GACACAAAAC ATATTTCAGA CATCTGTGAA AATGGGCGAC CTCGAAGTAA CTCTTGGCAA 
GGTAACCTGG GAGGCAACAA AAAGAAAATC AGAGGCAAAA GATTTAGACC TCGGTCTAAT 
TCAACTGAGT ATTTAAACCC ATGGTTCAAA AGAGACTATA ATGTAGCTAA GTGGGTAGAA 
GATGTGAATA AAAACACTGA AGGACCATAC TTTAGGACTT TATCTCCTGC CAAGTCTCCT 
TCTTCATCAA CTGGGTCTAT TGCCTCCAGC AGAAAATACC CTTACCCAAT GCCTCCACTT 
CCTGATGAGG ACAAGAAAGT GAACCGACAA AGTGCCAGGC TATGGGAGAC ATCCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	NP_068368.2
CDS	324..3023
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQAGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTEYLNPWFKRDYNVAKWVEDVNKNTEGPYFRTLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	NM_021722.5
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 2, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_021722.5

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG GTCAAATGGG CTCTCTCATT CTTGGAGTGA AAGGATTCCA 
GACACAAAAC ATATTTCAGA CATCTGTGAA AATGGGCGAC CTCGAAGTAA CTCTTGGCAA 
GGTAACCTGG GAGGCAACAA AAAGAAAATC AGAGGCAAAA GATTTAGACC TCGGTCTAAT 
TCAACTGAGT ATTTAAACCC ATGGTTCAAA AGAGACTATA ATGTAGCTAA GTGGGTAGAA 
GATGTGAATA AAAACACTGA AGGACCATAC TTTAGGACTT TATCTCCTGC CAAGTCTCCT 
TCTTCATCAA CTGGGTCTAT TGCCTCCAGC AGAAAATACC CTTACCCAAT GCCTCCACTT 
CCTGATGAGG ACAAGAAAGT GAACCGACAA AGTGCCAGGC TATGGGAGAC ATCCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( NM_021722.6 ) cDNA ORF clone, Homo sapiens(human) -> NP_068368.2 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 2, mRNA.

Price & Availability↑

CloneID	OHu10843
Clone ID Related Accession (Same CDS sequence)	NM_021722.5 , NM_021722.6
Accession Version	NM_021722.6 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2700bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-08-08
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform 2 precursor
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DR000609.1, AF155381.1, AC005075.2 and R41888.1. On Jun 2, 2019 this sequence version replaced NM_021722.5. Transcript Variant: This variant (2), also known as delta, has multiple differences in the coding region but maintains the reading frame, compared to variant 1. The encoded isoform (2) is shorter than isoform 1. The encoded isoform (2) may undergo proteolytic processing. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660803.35095.1, SRR1803617.271927.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2144120, SAMEA2145544 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG GTCAAATGGG CTCTCTCATT CTTGGAGTGA AAGGATTCCA 
GACACAAAAC ATATTTCAGA CATCTGTGAA AATGGGCGAC CTCGAAGTAA CTCTTGGCAA 
GGTAACCTGG GAGGCAACAA AAAGAAAATC AGAGGCAAAA GATTTAGACC TCGGTCTAAT 
TCAACTGAGT ATTTAAACCC ATGGTTCAAA AGAGACTATA ATGTAGCTAA GTGGGTAGAA 
GATGTGAATA AAAACACTGA AGGACCATAC TTTAGGACTT TATCTCCTGC CAAGTCTCCT 
TCTTCATCAA CTGGGTCTAT TGCCTCCAGC AGAAAATACC CTTACCCAAT GCCTCCACTT 
CCTGATGAGG ACAAGAAAGT GAACCGACAA AGTGCCAGGC TATGGGAGAC ATCCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	NP_068368.2
CDS	216..2915
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQAGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTEYLNPWFKRDYNVAKWVEDVNKNTEGPYFRTLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	NM_021722.6
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 2, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_021722.6

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG GTCAAATGGG CTCTCTCATT CTTGGAGTGA AAGGATTCCA 
GACACAAAAC ATATTTCAGA CATCTGTGAA AATGGGCGAC CTCGAAGTAA CTCTTGGCAA 
GGTAACCTGG GAGGCAACAA AAAGAAAATC AGAGGCAAAA GATTTAGACC TCGGTCTAAT 
TCAACTGAGT ATTTAAACCC ATGGTTCAAA AGAGACTATA ATGTAGCTAA GTGGGTAGAA 
GATGTGAATA AAAACACTGA AGGACCATAC TTTAGGACTT TATCTCCTGC CAAGTCTCCT 
TCTTCATCAA CTGGGTCTAT TGCCTCCAGC AGAAAATACC CTTACCCAAT GCCTCCACTT 
CCTGATGAGG ACAAGAAAGT GAACCGACAA AGTGCCAGGC TATGGGAGAC ATCCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( NM_016351.6 ) cDNA ORF clone, Homo sapiens(human) -> NP_057435.2 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 3, mRNA.

Price & Availability↑

CloneID	OHu11770
Clone ID Related Accession (Same CDS sequence)	NM_016351.6 , NM_016351.5
Accession Version	NM_016351.6 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2613bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-08-08
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform 3 precursor
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DR000609.1, AC005164.2, AK291010.1, AC005075.2 and R41888.1. On Jun 2, 2019 this sequence version replaced NM_016351.5. Transcript Variant: This variant (3), also known as alpha, lacks an in-frame exon compared to variant 1. The encoded isoform (3) is shorter than isoform 1. The encoded isoform (3) may undergo proteolytic processing. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803612.121859.1, SRR1803616.261519.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968540, SAMEA2142348 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG GTCAAATGGG CTCTCTCATT CTTGGAGTGA AAGGATTCCA 
GACACAAAAC ATATTTCAGA CATCTGTGAA AATGGGCGAC CTCGAAGTAA CTCTTGGCAA 
GGTAACCTGG GAGGCAACAA AAAGAAAATC AGAGGCAAAA GATTTAGACC TCGGTCTAAT 
TCAACTGAGA CTTTATCTCC TGCCAAGTCT CCTTCTTCAT CAACTGGGTC TATTGCCTCC 
AGCAGAAAAT ACCCTTACCC AATGCCTCCA CTTCCTGATG AGGACAAGAA AGTGAACCGA 
CAAAGTGCCA GGCTATGGGA GACATCCATT TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	NP_057435.2
CDS	216..2828
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQAGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTETLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	NM_016351.6
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 3, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_016351.6

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG GTCAAATGGG CTCTCTCATT CTTGGAGTGA AAGGATTCCA 
GACACAAAAC ATATTTCAGA CATCTGTGAA AATGGGCGAC CTCGAAGTAA CTCTTGGCAA 
GGTAACCTGG GAGGCAACAA AAAGAAAATC AGAGGCAAAA GATTTAGACC TCGGTCTAAT 
TCAACTGAGA CTTTATCTCC TGCCAAGTCT CCTTCTTCAT CAACTGGGTC TATTGCCTCC 
AGCAGAAAAT ACCCTTACCC AATGCCTCCA CTTCCTGATG AGGACAAGAA AGTGAACCGA 
CAAAGTGCCA GGCTATGGGA GACATCCATT TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( NM_016351.5 ) cDNA ORF clone, Homo sapiens(human) -> NP_057435.2 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 3, mRNA.

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CloneID	OHu11770
Clone ID Related Accession (Same CDS sequence)	NM_016351.6 , NM_016351.5
Accession Version	NM_016351.5	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2613bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2018-12-22
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform 3 precursor
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DR000609.1, AC005164.2, AK291010.1, AC005075.2 and R41888.1. On May 4, 2016 this sequence version replaced NM_016351.4. Transcript Variant: This variant (3), also known as alpha, lacks an in-frame exon compared to variant 1. The encoded isoform (3) is shorter than isoform 1. The encoded isoform (3) may undergo proteolytic processing. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803616.261519.1, SRR1803612.121859.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968540, SAMEA2142348 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG GTCAAATGGG CTCTCTCATT CTTGGAGTGA AAGGATTCCA 
GACACAAAAC ATATTTCAGA CATCTGTGAA AATGGGCGAC CTCGAAGTAA CTCTTGGCAA 
GGTAACCTGG GAGGCAACAA AAAGAAAATC AGAGGCAAAA GATTTAGACC TCGGTCTAAT 
TCAACTGAGA CTTTATCTCC TGCCAAGTCT CCTTCTTCAT CAACTGGGTC TATTGCCTCC 
AGCAGAAAAT ACCCTTACCC AATGCCTCCA CTTCCTGATG AGGACAAGAA AGTGAACCGA 
CAAAGTGCCA GGCTATGGGA GACATCCATT TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	NP_057435.2
CDS	324..2936
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQAGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTETLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	NM_016351.5
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 3, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_016351.5

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG GTCAAATGGG CTCTCTCATT CTTGGAGTGA AAGGATTCCA 
GACACAAAAC ATATTTCAGA CATCTGTGAA AATGGGCGAC CTCGAAGTAA CTCTTGGCAA 
GGTAACCTGG GAGGCAACAA AAAGAAAATC AGAGGCAAAA GATTTAGACC TCGGTCTAAT 
TCAACTGAGA CTTTATCTCC TGCCAAGTCT CCTTCTTCAT CAACTGGGTC TATTGCCTCC 
AGCAGAAAAT ACCCTTACCC AATGCCTCCA CTTCCTGATG AGGACAAGAA AGTGAACCGA 
CAAAGTGCCA GGCTATGGGA GACATCCATT TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( NM_021723.5 ) cDNA ORF clone, Homo sapiens(human) -> NP_068369.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 1, mRNA.

Price & Availability↑

CloneID	OHu12383
Clone ID Related Accession (Same CDS sequence)	NM_021723.5 , NM_021723.4
Accession Version	NM_021723.5 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2721bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-08-07
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform 1 preproprotein
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DR000609.1, AF155382.1, AC005075.2 and R41888.1. On Jun 2, 2019 this sequence version replaced NM_021723.4. Transcript Variant: This variant (1), also known as epsilon, encodes isoform 1, which is proteolytically processed to generate the mature protein. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660807.94448.1, SRR1803614.21432.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2154665, SAMEA2157437 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG ACAGTTACCC CAGGGAGATT ATGTAAAAAA GCCTGGAGAT 
GGTGACTCTT TTTATAGCGA CATTCCTCCC GGAGTCAGCA CAAACTCAGC ATCTAGTTCT 
AAGAAGAGGT CAAATGGGCT CTCTCATTCT TGGAGTGAAA GGATTCCAGA CACAAAACAT 
ATTTCAGACA TCTGTGAAAA TGGGCGACCT CGAAGTAACT CTTGGCAAGG TAACCTGGGA 
GGCAACAAAA AGAAAATCAG AGGCAAAAGA TTTAGACCTC GGTCTAATTC AACTGAGACT 
TTATCTCCTG CCAAGTCTCC TTCTTCATCA ACTGGGTCTA TTGCCTCCAG CAGAAAATAC 
CCTTACCCAA TGCCTCCACT TCCTGATGAG GACAAGAAAG TGAACCGACA AAGTGCCAGG 
CTATGGGAGA CATCCATTTA A

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	NP_068369.1
CDS	216..2936
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQAGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRQLPQGDYVKKPGDGDSFYSDIPPGVSTNSASSSKKRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTETLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	NM_021723.5
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 1, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_021723.5

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG ACAGTTACCC CAGGGAGATT ATGTAAAAAA GCCTGGAGAT 
GGTGACTCTT TTTATAGCGA CATTCCTCCC GGAGTCAGCA CAAACTCAGC ATCTAGTTCT 
AAGAAGAGGT CAAATGGGCT CTCTCATTCT TGGAGTGAAA GGATTCCAGA CACAAAACAT 
ATTTCAGACA TCTGTGAAAA TGGGCGACCT CGAAGTAACT CTTGGCAAGG TAACCTGGGA 
GGCAACAAAA AGAAAATCAG AGGCAAAAGA TTTAGACCTC GGTCTAATTC AACTGAGACT 
TTATCTCCTG CCAAGTCTCC TTCTTCATCA ACTGGGTCTA TTGCCTCCAG CAGAAAATAC 
CCTTACCCAA TGCCTCCACT TCCTGATGAG GACAAGAAAG TGAACCGACA AAGTGCCAGG 
CTATGGGAGA CATCCATTTA A

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( NM_021723.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_068369.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 1, mRNA.

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CloneID	OHu12383
Clone ID Related Accession (Same CDS sequence)	NM_021723.5 , NM_021723.4
Accession Version	NM_021723.4	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2721bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-02-25
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform 1 preproprotein
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DR000609.1, AF155382.1, AC005075.2 and R41888.1. On May 4, 2016 this sequence version replaced NM_021723.3. Transcript Variant: This variant (1), also known as epsilon, encodes isoform 1, which is proteolytically processed to generate the mature protein. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660807.94448.1, SRR1803614.21432.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2154665, SAMEA2157437 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG ACAGTTACCC CAGGGAGATT ATGTAAAAAA GCCTGGAGAT 
GGTGACTCTT TTTATAGCGA CATTCCTCCC GGAGTCAGCA CAAACTCAGC ATCTAGTTCT 
AAGAAGAGGT CAAATGGGCT CTCTCATTCT TGGAGTGAAA GGATTCCAGA CACAAAACAT 
ATTTCAGACA TCTGTGAAAA TGGGCGACCT CGAAGTAACT CTTGGCAAGG TAACCTGGGA 
GGCAACAAAA AGAAAATCAG AGGCAAAAGA TTTAGACCTC GGTCTAATTC AACTGAGACT 
TTATCTCCTG CCAAGTCTCC TTCTTCATCA ACTGGGTCTA TTGCCTCCAG CAGAAAATAC 
CCTTACCCAA TGCCTCCACT TCCTGATGAG GACAAGAAAG TGAACCGACA AAGTGCCAGG 
CTATGGGAGA CATCCATTTA A

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	NP_068369.1
CDS	324..3044
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQAGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRQLPQGDYVKKPGDGDSFYSDIPPGVSTNSASSSKKRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTETLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	NM_021723.4
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 1, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_021723.4

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG ACAGTTACCC CAGGGAGATT ATGTAAAAAA GCCTGGAGAT 
GGTGACTCTT TTTATAGCGA CATTCCTCCC GGAGTCAGCA CAAACTCAGC ATCTAGTTCT 
AAGAAGAGGT CAAATGGGCT CTCTCATTCT TGGAGTGAAA GGATTCCAGA CACAAAACAT 
ATTTCAGACA TCTGTGAAAA TGGGCGACCT CGAAGTAACT CTTGGCAAGG TAACCTGGGA 
GGCAACAAAA AGAAAATCAG AGGCAAAAGA TTTAGACCTC GGTCTAATTC AACTGAGACT 
TTATCTCCTG CCAAGTCTCC TTCTTCATCA ACTGGGTCTA TTGCCTCCAG CAGAAAATAC 
CCTTACCCAA TGCCTCCACT TCCTGATGAG GACAAGAAAG TGAACCGACA AAGTGCCAGG 
CTATGGGAGA CATCCATTTA A

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_006716029.4 ) cDNA ORF clone, Homo sapiens(human) -> XP_006716092.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X6, mRNA.

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CloneID	OHu41619
Clone ID Related Accession (Same CDS sequence)	XM_006716029.4 , XM_006716029.3
Accession Version	XM_006716029.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2937bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X6
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_006716029.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGGAGAA TGGGAAAGGG GTGCCCTGCT TCTGGGCCCC GCTCCTGGTT GCTCTCGGAT 
GAGCTGGTCC AAGGCTCTCG GGCTGGTGTC TCTGCGTCCT TCCCAGTTGG GTTCCGAGAG 
GGAGGGGGCG GTGGGGATTT TCGTAGGGGA GACGTAGGAC TGCAGGATGG AGGAGTGAGG 
GTCAGGGTCA TTATTTTCGC CTTTTCTCTC CACTCCCTCC TTTCCCGGTT CCTGCCTGGA 
GGAGACGCCT CATTGATGGA GCTAGAGAAG AGGAAGGAAA ACCGCTTCGT GGAGCGCCAG 
AGCATCGTGC CACTGCGCCT CATCTACCGC TCGGGCGGCG AAGACGAAAG TCGGCACGAC 
GCGCTCGACA CGCGGGTGCG GGGCGACCTC GGTGGCCCGC AGTTGACTCA TGTTGACCAA 
GCAAGCTTCC AGGTTGATGC CTTTGGAACG TCATTCATTC TCGATGTCGT GCTAAATCAT 
GATTTGCTGT CCTCTGAATA CATAGAGAGA CACATTGAAC ATGGAGGCAA GACTGTGGAA 
GTTAAAGGAG GAGAGCACTG TTACTACCAG GGCCATATCC GAGGAAACCC TGACTCATTT 
GTTGCATTGT CAACATGCCA CGGACTTCAT GGGATGTTCT ATGACGGGAA CCACACATAT 
CTCATTGAGC CAGAAGAAAA TGACACTACT CAAGAGGATT TCCATTTTCA TTCAGTTTAC 
AAATCCAGAC TGTTTGAATT TTCCTTGGAT GATCTTCCAT CTGAATTTCA GCAAGTAAAC 
ATTACTCCAT CAAAATTTAT TTTGAAGCCA AGACCAAAAA GGAGTAAACG GCAGCTTCGT 
CGATATCCTC GTAATGTAGA AGAAGAAACC AAATACATTG AACTGATGAT TGTGAATGAT 
CACCTTATGT TTAAAAAACA TCGGCTTTCC GTTGTACATA CCAATACCTA TGCGAAATCT 
GTGGTGAACA TGGCAGATTT AATATATAAA GACCAACTTA AGACCAGGAT AGTATTGGTT 
GCTATGGAAA CCTGGGCGAC TGACAACAAG TTTGCCATAT CTGAAAATCC ATTGATCACC 
CTACGTGAGT TTATGAAATA CAGGAGGGAT TTTATCAAAG AGAAAAGTGA TGCAGTTCAC 
CTTTTTTCGG GAAGTCAATT TGAGAGTAGC CGGAGCGGGG CAGCTTATAT TGGTGGGATT 
TGCTCGTTGC TGAAAGGAGG AGGCGTGAAT GAATTTGGGA AAACTGATTT AATGGCTGTT 
ACACTTGCCC AGTCATTAGC CCATAATATT GGTATTATCT CAGACAAAAG AAAGTTAGCA 
AGTGGTGAAT GTAAATGCGA GGACACGTGG TCCGGGTGCA TAATGGGAGA CACTGGCTAT 
TATCTTCCTA AAAAGTTCAC CCAGTGTAAT ATTGAAGAGT ATCATGACTT CCTGAATAGT 
GGAGGTGGTG CCTGCCTTTT CAACAAACCT TCTAAGCTTC TTGATCCTCC TGAGTGTGGC 
AATGGCTTCA TTGAAACTGG AGAGGAGTGT GATTGTGGAA CCCCGGCCGA ATGTGTCCTT 
GAAGGAGCAG AGTGTTGTAA GAAATGCACC TTGACTCAAG ACTCTCAATG CAGTGACGGT 
CTTTGCTGTA AAAAGTGCAA GTTTCAGCCT ATGGGCACTG TGTGCCGAGA AGCAGTAAAT 
GATTGTGATA TTCGTGAAAC GTGCTCAGGA AATTCAAGCC AGTGTGCCCC TAATATTCAT 
AAAATGGATG GATATTCATG TGATGGTGTT CAGGGAATTT GCTTTGGAGG AAGATGCAAA 
ACCAGAGATA GACAATGCAA ATACATTTGG GGGCAAAAGG TGACAGCATC AGACAAATAT 
TGCTATGAGA AACTGAATAT TGAAGGGACG GAGAAGGGTA ACTGTGGGAA AGACAAAGAC 
ACATGGATAC AGTGCAACAA ACGGGATGTG CTTTGTGGTT ACCTTTTGTG TACCAATATT 
GGCAATATCC CAAGGCTTGG AGAACTCGAT GGTGAAATCA CATCTACTTT AGTTGTGCAG 
CAAGGAAGAA CATTAAACTG CAGTGGTGGG CATGTTAAGC TTGAAGAAGA TGTAGATCTT 
GGCTATGTGG AAGATGGGAC ACCTTGTGGT CCCCAAATGA TGTGCTTAGA ACACAGGTGT 
CTTCCTGTGG CTTCTTTCAA CTTTAGTACT TGCTTGAGCA GTAAAGAAGG CACTATTTGC 
TCAGGAAATG GAGTTTGCAG TAATGAGCTG AAGTGTGTGT GTAACAGACA CTGGATAGGT 
TCTGATTGCA ACACTTACTT CCCTCACAAT GATGATGCAA AGACTGGTAT CACTCTGTCT 
GGCAATGGTG TTGCTGGCAC CAATATCATA ATAGGCATAA TTGCTGGCAC CATTTTAGTG 
CTGGCCCTCA TATTAGGAAT AACTGCGTGG GGTTATAAAA ACTATCGAGA ACAGAGACAG 
TTACCCCAGG GAGATTATGT AAAAAAGCCT GGAGATGGTG ACTCTTTTTA TAGCGACATT 
CCTCCCGGAG TCAGCACAAA CTCAGCATCT AGTTCTAAGA AGAGGTCAAA TGGGCTCTCT 
CATTCTTGGA GTGAAAGGAT TCCAGACACA AAACATATTT CAGACATCTG TGAAAATGGG 
CGACCTCGAA GTAACTCTTG GCAAGGTAAC CTGGGAGGCA ACAAAAAGAA AATCAGAGGC 
AAAAGATTTA GACCTCGGTC TAATTCAACT GACTATGGGA GACATCCATT TAAGATCAAC 
TGTTTACATG TGATACATCG AAAACTGTTT ACTTCAACTT TTATAGAAAC CCAGGCTCAT 
GGAATCACTG CAAATCTATC TGCTCTTCAG ACAATACGAA GACCCTCTGA GATGCTACAG 
AGGAGAGGAA GCGGAGTTTC ACATCTGGTT ACCATTTTCT TTTTGTCATT GGCTTAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_006716092.1
CDS	16..2952
Translation	MGRMGKGCPASGPRSWLLSDELVQGSRAGVSASFPVGFREGGGGGDFRRGDVGLQDGGVRVRVIIFAFSLHSLLSRFLPGGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRQLPQGDYVKKPGDGDSFYSDIPPGVSTNSASSSKKRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTDYGRHPFKINCLHVIHRKLFTSTFIETQAHGITANLSALQTIRRPSEMLQRRGSGVSHLVTIFFLSLA

Target ORF information:

RefSeq Version	XM_006716029.4
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X6, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_006716029.4

ORF Insert Sequence:

ATGGGGAGAA TGGGAAAGGG GTGCCCTGCT TCTGGGCCCC GCTCCTGGTT GCTCTCGGAT 
GAGCTGGTCC AAGGCTCTCG GGCTGGTGTC TCTGCGTCCT TCCCAGTTGG GTTCCGAGAG 
GGAGGGGGCG GTGGGGATTT TCGTAGGGGA GACGTAGGAC TGCAGGATGG AGGAGTGAGG 
GTCAGGGTCA TTATTTTCGC CTTTTCTCTC CACTCCCTCC TTTCCCGGTT CCTGCCTGGA 
GGAGACGCCT CATTGATGGA GCTAGAGAAG AGGAAGGAAA ACCGCTTCGT GGAGCGCCAG 
AGCATCGTGC CACTGCGCCT CATCTACCGC TCGGGCGGCG AAGACGAAAG TCGGCACGAC 
GCGCTCGACA CGCGGGTGCG GGGCGACCTC GGTGGCCCGC AGTTGACTCA TGTTGACCAA 
GCAAGCTTCC AGGTTGATGC CTTTGGAACG TCATTCATTC TCGATGTCGT GCTAAATCAT 
GATTTGCTGT CCTCTGAATA CATAGAGAGA CACATTGAAC ATGGAGGCAA GACTGTGGAA 
GTTAAAGGAG GAGAGCACTG TTACTACCAG GGCCATATCC GAGGAAACCC TGACTCATTT 
GTTGCATTGT CAACATGCCA CGGACTTCAT GGGATGTTCT ATGACGGGAA CCACACATAT 
CTCATTGAGC CAGAAGAAAA TGACACTACT CAAGAGGATT TCCATTTTCA TTCAGTTTAC 
AAATCCAGAC TGTTTGAATT TTCCTTGGAT GATCTTCCAT CTGAATTTCA GCAAGTAAAC 
ATTACTCCAT CAAAATTTAT TTTGAAGCCA AGACCAAAAA GGAGTAAACG GCAGCTTCGT 
CGATATCCTC GTAATGTAGA AGAAGAAACC AAATACATTG AACTGATGAT TGTGAATGAT 
CACCTTATGT TTAAAAAACA TCGGCTTTCC GTTGTACATA CCAATACCTA TGCGAAATCT 
GTGGTGAACA TGGCAGATTT AATATATAAA GACCAACTTA AGACCAGGAT AGTATTGGTT 
GCTATGGAAA CCTGGGCGAC TGACAACAAG TTTGCCATAT CTGAAAATCC ATTGATCACC 
CTACGTGAGT TTATGAAATA CAGGAGGGAT TTTATCAAAG AGAAAAGTGA TGCAGTTCAC 
CTTTTTTCGG GAAGTCAATT TGAGAGTAGC CGGAGCGGGG CAGCTTATAT TGGTGGGATT 
TGCTCGTTGC TGAAAGGAGG AGGCGTGAAT GAATTTGGGA AAACTGATTT AATGGCTGTT 
ACACTTGCCC AGTCATTAGC CCATAATATT GGTATTATCT CAGACAAAAG AAAGTTAGCA 
AGTGGTGAAT GTAAATGCGA GGACACGTGG TCCGGGTGCA TAATGGGAGA CACTGGCTAT 
TATCTTCCTA AAAAGTTCAC CCAGTGTAAT ATTGAAGAGT ATCATGACTT CCTGAATAGT 
GGAGGTGGTG CCTGCCTTTT CAACAAACCT TCTAAGCTTC TTGATCCTCC TGAGTGTGGC 
AATGGCTTCA TTGAAACTGG AGAGGAGTGT GATTGTGGAA CCCCGGCCGA ATGTGTCCTT 
GAAGGAGCAG AGTGTTGTAA GAAATGCACC TTGACTCAAG ACTCTCAATG CAGTGACGGT 
CTTTGCTGTA AAAAGTGCAA GTTTCAGCCT ATGGGCACTG TGTGCCGAGA AGCAGTAAAT 
GATTGTGATA TTCGTGAAAC GTGCTCAGGA AATTCAAGCC AGTGTGCCCC TAATATTCAT 
AAAATGGATG GATATTCATG TGATGGTGTT CAGGGAATTT GCTTTGGAGG AAGATGCAAA 
ACCAGAGATA GACAATGCAA ATACATTTGG GGGCAAAAGG TGACAGCATC AGACAAATAT 
TGCTATGAGA AACTGAATAT TGAAGGGACG GAGAAGGGTA ACTGTGGGAA AGACAAAGAC 
ACATGGATAC AGTGCAACAA ACGGGATGTG CTTTGTGGTT ACCTTTTGTG TACCAATATT 
GGCAATATCC CAAGGCTTGG AGAACTCGAT GGTGAAATCA CATCTACTTT AGTTGTGCAG 
CAAGGAAGAA CATTAAACTG CAGTGGTGGG CATGTTAAGC TTGAAGAAGA TGTAGATCTT 
GGCTATGTGG AAGATGGGAC ACCTTGTGGT CCCCAAATGA TGTGCTTAGA ACACAGGTGT 
CTTCCTGTGG CTTCTTTCAA CTTTAGTACT TGCTTGAGCA GTAAAGAAGG CACTATTTGC 
TCAGGAAATG GAGTTTGCAG TAATGAGCTG AAGTGTGTGT GTAACAGACA CTGGATAGGT 
TCTGATTGCA ACACTTACTT CCCTCACAAT GATGATGCAA AGACTGGTAT CACTCTGTCT 
GGCAATGGTG TTGCTGGCAC CAATATCATA ATAGGCATAA TTGCTGGCAC CATTTTAGTG 
CTGGCCCTCA TATTAGGAAT AACTGCGTGG GGTTATAAAA ACTATCGAGA ACAGAGACAG 
TTACCCCAGG GAGATTATGT AAAAAAGCCT GGAGATGGTG ACTCTTTTTA TAGCGACATT 
CCTCCCGGAG TCAGCACAAA CTCAGCATCT AGTTCTAAGA AGAGGTCAAA TGGGCTCTCT 
CATTCTTGGA GTGAAAGGAT TCCAGACACA AAACATATTT CAGACATCTG TGAAAATGGG 
CGACCTCGAA GTAACTCTTG GCAAGGTAAC CTGGGAGGCA ACAAAAAGAA AATCAGAGGC 
AAAAGATTTA GACCTCGGTC TAATTCAACT GACTATGGGA GACATCCATT TAAGATCAAC 
TGTTTACATG TGATACATCG AAAACTGTTT ACTTCAACTT TTATAGAAAC CCAGGCTCAT 
GGAATCACTG CAAATCTATC TGCTCTTCAG ACAATACGAA GACCCTCTGA GATGCTACAG 
AGGAGAGGAA GCGGAGTTTC ACATCTGGTT ACCATTTTCT TTTTGTCATT GGCTTAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_006716029.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_006716092.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X6, mRNA.

Price & Availability↑

CloneID	OHu41619
Clone ID Related Accession (Same CDS sequence)	XM_006716029.4 , XM_006716029.3
Accession Version	XM_006716029.3	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2937bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-06-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X6
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_006716029.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGGAGAA TGGGAAAGGG GTGCCCTGCT TCTGGGCCCC GCTCCTGGTT GCTCTCGGAT 
GAGCTGGTCC AAGGCTCTCG GGCTGGTGTC TCTGCGTCCT TCCCAGTTGG GTTCCGAGAG 
GGAGGGGGCG GTGGGGATTT TCGTAGGGGA GACGTAGGAC TGCAGGATGG AGGAGTGAGG 
GTCAGGGTCA TTATTTTCGC CTTTTCTCTC CACTCCCTCC TTTCCCGGTT CCTGCCTGGA 
GGAGACGCCT CATTGATGGA GCTAGAGAAG AGGAAGGAAA ACCGCTTCGT GGAGCGCCAG 
AGCATCGTGC CACTGCGCCT CATCTACCGC TCGGGCGGCG AAGACGAAAG TCGGCACGAC 
GCGCTCGACA CGCGGGTGCG GGGCGACCTC GGTGGCCCGC AGTTGACTCA TGTTGACCAA 
GCAAGCTTCC AGGTTGATGC CTTTGGAACG TCATTCATTC TCGATGTCGT GCTAAATCAT 
GATTTGCTGT CCTCTGAATA CATAGAGAGA CACATTGAAC ATGGAGGCAA GACTGTGGAA 
GTTAAAGGAG GAGAGCACTG TTACTACCAG GGCCATATCC GAGGAAACCC TGACTCATTT 
GTTGCATTGT CAACATGCCA CGGACTTCAT GGGATGTTCT ATGACGGGAA CCACACATAT 
CTCATTGAGC CAGAAGAAAA TGACACTACT CAAGAGGATT TCCATTTTCA TTCAGTTTAC 
AAATCCAGAC TGTTTGAATT TTCCTTGGAT GATCTTCCAT CTGAATTTCA GCAAGTAAAC 
ATTACTCCAT CAAAATTTAT TTTGAAGCCA AGACCAAAAA GGAGTAAACG GCAGCTTCGT 
CGATATCCTC GTAATGTAGA AGAAGAAACC AAATACATTG AACTGATGAT TGTGAATGAT 
CACCTTATGT TTAAAAAACA TCGGCTTTCC GTTGTACATA CCAATACCTA TGCGAAATCT 
GTGGTGAACA TGGCAGATTT AATATATAAA GACCAACTTA AGACCAGGAT AGTATTGGTT 
GCTATGGAAA CCTGGGCGAC TGACAACAAG TTTGCCATAT CTGAAAATCC ATTGATCACC 
CTACGTGAGT TTATGAAATA CAGGAGGGAT TTTATCAAAG AGAAAAGTGA TGCAGTTCAC 
CTTTTTTCGG GAAGTCAATT TGAGAGTAGC CGGAGCGGGG CAGCTTATAT TGGTGGGATT 
TGCTCGTTGC TGAAAGGAGG AGGCGTGAAT GAATTTGGGA AAACTGATTT AATGGCTGTT 
ACACTTGCCC AGTCATTAGC CCATAATATT GGTATTATCT CAGACAAAAG AAAGTTAGCA 
AGTGGTGAAT GTAAATGCGA GGACACGTGG TCCGGGTGCA TAATGGGAGA CACTGGCTAT 
TATCTTCCTA AAAAGTTCAC CCAGTGTAAT ATTGAAGAGT ATCATGACTT CCTGAATAGT 
GGAGGTGGTG CCTGCCTTTT CAACAAACCT TCTAAGCTTC TTGATCCTCC TGAGTGTGGC 
AATGGCTTCA TTGAAACTGG AGAGGAGTGT GATTGTGGAA CCCCGGCCGA ATGTGTCCTT 
GAAGGAGCAG AGTGTTGTAA GAAATGCACC TTGACTCAAG ACTCTCAATG CAGTGACGGT 
CTTTGCTGTA AAAAGTGCAA GTTTCAGCCT ATGGGCACTG TGTGCCGAGA AGCAGTAAAT 
GATTGTGATA TTCGTGAAAC GTGCTCAGGA AATTCAAGCC AGTGTGCCCC TAATATTCAT 
AAAATGGATG GATATTCATG TGATGGTGTT CAGGGAATTT GCTTTGGAGG AAGATGCAAA 
ACCAGAGATA GACAATGCAA ATACATTTGG GGGCAAAAGG TGACAGCATC AGACAAATAT 
TGCTATGAGA AACTGAATAT TGAAGGGACG GAGAAGGGTA ACTGTGGGAA AGACAAAGAC 
ACATGGATAC AGTGCAACAA ACGGGATGTG CTTTGTGGTT ACCTTTTGTG TACCAATATT 
GGCAATATCC CAAGGCTTGG AGAACTCGAT GGTGAAATCA CATCTACTTT AGTTGTGCAG 
CAAGGAAGAA CATTAAACTG CAGTGGTGGG CATGTTAAGC TTGAAGAAGA TGTAGATCTT 
GGCTATGTGG AAGATGGGAC ACCTTGTGGT CCCCAAATGA TGTGCTTAGA ACACAGGTGT 
CTTCCTGTGG CTTCTTTCAA CTTTAGTACT TGCTTGAGCA GTAAAGAAGG CACTATTTGC 
TCAGGAAATG GAGTTTGCAG TAATGAGCTG AAGTGTGTGT GTAACAGACA CTGGATAGGT 
TCTGATTGCA ACACTTACTT CCCTCACAAT GATGATGCAA AGACTGGTAT CACTCTGTCT 
GGCAATGGTG TTGCTGGCAC CAATATCATA ATAGGCATAA TTGCTGGCAC CATTTTAGTG 
CTGGCCCTCA TATTAGGAAT AACTGCGTGG GGTTATAAAA ACTATCGAGA ACAGAGACAG 
TTACCCCAGG GAGATTATGT AAAAAAGCCT GGAGATGGTG ACTCTTTTTA TAGCGACATT 
CCTCCCGGAG TCAGCACAAA CTCAGCATCT AGTTCTAAGA AGAGGTCAAA TGGGCTCTCT 
CATTCTTGGA GTGAAAGGAT TCCAGACACA AAACATATTT CAGACATCTG TGAAAATGGG 
CGACCTCGAA GTAACTCTTG GCAAGGTAAC CTGGGAGGCA ACAAAAAGAA AATCAGAGGC 
AAAAGATTTA GACCTCGGTC TAATTCAACT GACTATGGGA GACATCCATT TAAGATCAAC 
TGTTTACATG TGATACATCG AAAACTGTTT ACTTCAACTT TTATAGAAAC CCAGGCTCAT 
GGAATCACTG CAAATCTATC TGCTCTTCAG ACAATACGAA GACCCTCTGA GATGCTACAG 
AGGAGAGGAA GCGGAGTTTC ACATCTGGTT ACCATTTTCT TTTTGTCATT GGCTTAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_006716092.1
CDS	16..2952
Translation	MGRMGKGCPASGPRSWLLSDELVQGSRAGVSASFPVGFREGGGGGDFRRGDVGLQDGGVRVRVIIFAFSLHSLLSRFLPGGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRQLPQGDYVKKPGDGDSFYSDIPPGVSTNSASSSKKRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTDYGRHPFKINCLHVIHRKLFTSTFIETQAHGITANLSALQTIRRPSEMLQRRGSGVSHLVTIFFLSLA

Target ORF information:

RefSeq Version	XM_006716029.3
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X6, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_006716029.3

ORF Insert Sequence:

ATGGGGAGAA TGGGAAAGGG GTGCCCTGCT TCTGGGCCCC GCTCCTGGTT GCTCTCGGAT 
GAGCTGGTCC AAGGCTCTCG GGCTGGTGTC TCTGCGTCCT TCCCAGTTGG GTTCCGAGAG 
GGAGGGGGCG GTGGGGATTT TCGTAGGGGA GACGTAGGAC TGCAGGATGG AGGAGTGAGG 
GTCAGGGTCA TTATTTTCGC CTTTTCTCTC CACTCCCTCC TTTCCCGGTT CCTGCCTGGA 
GGAGACGCCT CATTGATGGA GCTAGAGAAG AGGAAGGAAA ACCGCTTCGT GGAGCGCCAG 
AGCATCGTGC CACTGCGCCT CATCTACCGC TCGGGCGGCG AAGACGAAAG TCGGCACGAC 
GCGCTCGACA CGCGGGTGCG GGGCGACCTC GGTGGCCCGC AGTTGACTCA TGTTGACCAA 
GCAAGCTTCC AGGTTGATGC CTTTGGAACG TCATTCATTC TCGATGTCGT GCTAAATCAT 
GATTTGCTGT CCTCTGAATA CATAGAGAGA CACATTGAAC ATGGAGGCAA GACTGTGGAA 
GTTAAAGGAG GAGAGCACTG TTACTACCAG GGCCATATCC GAGGAAACCC TGACTCATTT 
GTTGCATTGT CAACATGCCA CGGACTTCAT GGGATGTTCT ATGACGGGAA CCACACATAT 
CTCATTGAGC CAGAAGAAAA TGACACTACT CAAGAGGATT TCCATTTTCA TTCAGTTTAC 
AAATCCAGAC TGTTTGAATT TTCCTTGGAT GATCTTCCAT CTGAATTTCA GCAAGTAAAC 
ATTACTCCAT CAAAATTTAT TTTGAAGCCA AGACCAAAAA GGAGTAAACG GCAGCTTCGT 
CGATATCCTC GTAATGTAGA AGAAGAAACC AAATACATTG AACTGATGAT TGTGAATGAT 
CACCTTATGT TTAAAAAACA TCGGCTTTCC GTTGTACATA CCAATACCTA TGCGAAATCT 
GTGGTGAACA TGGCAGATTT AATATATAAA GACCAACTTA AGACCAGGAT AGTATTGGTT 
GCTATGGAAA CCTGGGCGAC TGACAACAAG TTTGCCATAT CTGAAAATCC ATTGATCACC 
CTACGTGAGT TTATGAAATA CAGGAGGGAT TTTATCAAAG AGAAAAGTGA TGCAGTTCAC 
CTTTTTTCGG GAAGTCAATT TGAGAGTAGC CGGAGCGGGG CAGCTTATAT TGGTGGGATT 
TGCTCGTTGC TGAAAGGAGG AGGCGTGAAT GAATTTGGGA AAACTGATTT AATGGCTGTT 
ACACTTGCCC AGTCATTAGC CCATAATATT GGTATTATCT CAGACAAAAG AAAGTTAGCA 
AGTGGTGAAT GTAAATGCGA GGACACGTGG TCCGGGTGCA TAATGGGAGA CACTGGCTAT 
TATCTTCCTA AAAAGTTCAC CCAGTGTAAT ATTGAAGAGT ATCATGACTT CCTGAATAGT 
GGAGGTGGTG CCTGCCTTTT CAACAAACCT TCTAAGCTTC TTGATCCTCC TGAGTGTGGC 
AATGGCTTCA TTGAAACTGG AGAGGAGTGT GATTGTGGAA CCCCGGCCGA ATGTGTCCTT 
GAAGGAGCAG AGTGTTGTAA GAAATGCACC TTGACTCAAG ACTCTCAATG CAGTGACGGT 
CTTTGCTGTA AAAAGTGCAA GTTTCAGCCT ATGGGCACTG TGTGCCGAGA AGCAGTAAAT 
GATTGTGATA TTCGTGAAAC GTGCTCAGGA AATTCAAGCC AGTGTGCCCC TAATATTCAT 
AAAATGGATG GATATTCATG TGATGGTGTT CAGGGAATTT GCTTTGGAGG AAGATGCAAA 
ACCAGAGATA GACAATGCAA ATACATTTGG GGGCAAAAGG TGACAGCATC AGACAAATAT 
TGCTATGAGA AACTGAATAT TGAAGGGACG GAGAAGGGTA ACTGTGGGAA AGACAAAGAC 
ACATGGATAC AGTGCAACAA ACGGGATGTG CTTTGTGGTT ACCTTTTGTG TACCAATATT 
GGCAATATCC CAAGGCTTGG AGAACTCGAT GGTGAAATCA CATCTACTTT AGTTGTGCAG 
CAAGGAAGAA CATTAAACTG CAGTGGTGGG CATGTTAAGC TTGAAGAAGA TGTAGATCTT 
GGCTATGTGG AAGATGGGAC ACCTTGTGGT CCCCAAATGA TGTGCTTAGA ACACAGGTGT 
CTTCCTGTGG CTTCTTTCAA CTTTAGTACT TGCTTGAGCA GTAAAGAAGG CACTATTTGC 
TCAGGAAATG GAGTTTGCAG TAATGAGCTG AAGTGTGTGT GTAACAGACA CTGGATAGGT 
TCTGATTGCA ACACTTACTT CCCTCACAAT GATGATGCAA AGACTGGTAT CACTCTGTCT 
GGCAATGGTG TTGCTGGCAC CAATATCATA ATAGGCATAA TTGCTGGCAC CATTTTAGTG 
CTGGCCCTCA TATTAGGAAT AACTGCGTGG GGTTATAAAA ACTATCGAGA ACAGAGACAG 
TTACCCCAGG GAGATTATGT AAAAAAGCCT GGAGATGGTG ACTCTTTTTA TAGCGACATT 
CCTCCCGGAG TCAGCACAAA CTCAGCATCT AGTTCTAAGA AGAGGTCAAA TGGGCTCTCT 
CATTCTTGGA GTGAAAGGAT TCCAGACACA AAACATATTT CAGACATCTG TGAAAATGGG 
CGACCTCGAA GTAACTCTTG GCAAGGTAAC CTGGGAGGCA ACAAAAAGAA AATCAGAGGC 
AAAAGATTTA GACCTCGGTC TAATTCAACT GACTATGGGA GACATCCATT TAAGATCAAC 
TGTTTACATG TGATACATCG AAAACTGTTT ACTTCAACTT TTATAGAAAC CCAGGCTCAT 
GGAATCACTG CAAATCTATC TGCTCTTCAG ACAATACGAA GACCCTCTGA GATGCTACAG 
AGGAGAGGAA GCGGAGTTTC ACATCTGGTT ACCATTTTCT TTTTGTCATT GGCTTAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_005250445.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_005250502.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X8, mRNA.

Price & Availability↑

CloneID	OHu41620
Clone ID Related Accession (Same CDS sequence)	XM_005250445.3 , XM_005250445.4
Accession Version	XM_005250445.3	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2877bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-06-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X8
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_005250445.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGGAGAA TGGGAAAGGG GTGCCCTGCT TCTGGGCCCC GCTCCTGGTT GCTCTCGGAT 
GAGCTGGTCC AAGGCTCTCG GGCTGGTGTC TCTGCGTCCT TCCCAGTTGG GTTCCGAGAG 
GGAGGGGGCG GTGGGGATTT TCGTAGGGGA GACGTAGGAC TGCAGGATGG AGGAGTGAGG 
GTCAGGGTCA TTATTTTCGC CTTTTCTCTC CACTCCCTCC TTTCCCGGTT CCTGCCTGGA 
GGAGACGCCT CATTGATGGA GCTAGAGAAG AGGAAGGAAA ACCGCTTCGT GGAGCGCCAG 
AGCATCGTGC CACTGCGCCT CATCTACCGC TCGGGCGGCG AAGACGAAAG TCGGCACGAC 
GCGCTCGACA CGCGGGTGCG GGGCGACCTC GGTGGCCCGC AGTTGACTCA TGTTGACCAA 
GCAAGCTTCC AGGTTGATGC CTTTGGAACG TCATTCATTC TCGATGTCGT GCTAAATCAT 
GATTTGCTGT CCTCTGAATA CATAGAGAGA CACATTGAAC ATGGAGGCAA GACTGTGGAA 
GTTAAAGGAG GAGAGCACTG TTACTACCAG GGCCATATCC GAGGAAACCC TGACTCATTT 
GTTGCATTGT CAACATGCCA CGGACTTCAT GGGATGTTCT ATGACGGGAA CCACACATAT 
CTCATTGAGC CAGAAGAAAA TGACACTACT CAAGAGGATT TCCATTTTCA TTCAGTTTAC 
AAATCCAGAC TGTTTGAATT TTCCTTGGAT GATCTTCCAT CTGAATTTCA GCAAGTAAAC 
ATTACTCCAT CAAAATTTAT TTTGAAGCCA AGACCAAAAA GGAGTAAACG GCAGCTTCGT 
CGATATCCTC GTAATGTAGA AGAAGAAACC AAATACATTG AACTGATGAT TGTGAATGAT 
CACCTTATGT TTAAAAAACA TCGGCTTTCC GTTGTACATA CCAATACCTA TGCGAAATCT 
GTGGTGAACA TGGCAGATTT AATATATAAA GACCAACTTA AGACCAGGAT AGTATTGGTT 
GCTATGGAAA CCTGGGCGAC TGACAACAAG TTTGCCATAT CTGAAAATCC ATTGATCACC 
CTACGTGAGT TTATGAAATA CAGGAGGGAT TTTATCAAAG AGAAAAGTGA TGCAGTTCAC 
CTTTTTTCGG GAAGTCAATT TGAGAGTAGC CGGAGCGGGG CAGCTTATAT TGGTGGGATT 
TGCTCGTTGC TGAAAGGAGG AGGCGTGAAT GAATTTGGGA AAACTGATTT AATGGCTGTT 
ACACTTGCCC AGTCATTAGC CCATAATATT GGTATTATCT CAGACAAAAG AAAGTTAGCA 
AGTGGTGAAT GTAAATGCGA GGACACGTGG TCCGGGTGCA TAATGGGAGA CACTGGCTAT 
TATCTTCCTA AAAAGTTCAC CCAGTGTAAT ATTGAAGAGT ATCATGACTT CCTGAATAGT 
GGAGGTGGTG CCTGCCTTTT CAACAAACCT TCTAAGCTTC TTGATCCTCC TGAGTGTGGC 
AATGGCTTCA TTGAAACTGG AGAGGAGTGT GATTGTGGAA CCCCGGCCGA ATGTGTCCTT 
GAAGGAGCAG AGTGTTGTAA GAAATGCACC TTGACTCAAG ACTCTCAATG CAGTGACGGT 
CTTTGCTGTA AAAAGTGCAA GTTTCAGCCT ATGGGCACTG TGTGCCGAGA AGCAGTAAAT 
GATTGTGATA TTCGTGAAAC GTGCTCAGGA AATTCAAGCC AGTGTGCCCC TAATATTCAT 
AAAATGGATG GATATTCATG TGATGGTGTT CAGGGAATTT GCTTTGGAGG AAGATGCAAA 
ACCAGAGATA GACAATGCAA ATACATTTGG GGGCAAAAGG TGACAGCATC AGACAAATAT 
TGCTATGAGA AACTGAATAT TGAAGGGACG GAGAAGGGTA ACTGTGGGAA AGACAAAGAC 
ACATGGATAC AGTGCAACAA ACGGGATGTG CTTTGTGGTT ACCTTTTGTG TACCAATATT 
GGCAATATCC CAAGGCTTGG AGAACTCGAT GGTGAAATCA CATCTACTTT AGTTGTGCAG 
CAAGGAAGAA CATTAAACTG CAGTGGTGGG CATGTTAAGC TTGAAGAAGA TGTAGATCTT 
GGCTATGTGG AAGATGGGAC ACCTTGTGGT CCCCAAATGA TGTGCTTAGA ACACAGGTGT 
CTTCCTGTGG CTTCTTTCAA CTTTAGTACT TGCTTGAGCA GTAAAGAAGG CACTATTTGC 
TCAGGAAATG GAGTTTGCAG TAATGAGCTG AAGTGTGTGT GTAACAGACA CTGGATAGGT 
TCTGATTGCA ACACTTACTT CCCTCACAAT GATGATGCAA AGACTGGTAT CACTCTGTCT 
GGCAATGGTG TTGCTGGCAC CAATATCATA ATAGGCATAA TTGCTGGCAC CATTTTAGTG 
CTGGCCCTCA TATTAGGAAT AACTGCGTGG GGTTATAAAA ACTATCGAGA ACAGAGACAG 
TTACCCCAGG GAGATTATGT AAAAAAGCCT GGAGATGGTG ACTCTTTTTA TAGCGACATT 
CCTCCCGGAG TCAGCACAAA CTCAGCATCT AGTTCTAAGA AGAGGTCAAA TGGGCTCTCT 
CATTCTTGGA GTGAAAGGAT TCCAGACACA AAACATATTT CAGACATCTG TGAAAATGGG 
CGACCTCGAA GTAACTCTTG GCAAGGTAAC CTGGGAGGCA ACAAAAAGAA AATCAGAGGC 
AAAAGATTTA GACCTCGGTC TAATTCAACT GAGACTTTAT CTCCTGCCAA GTCTCCTTCT 
TCATCAACTG GGTCTATTGC CTCCAGCAGA AAATACCCTT ACCCAATGCC TCCACTTCCT 
GATGAGGACA AGAAAGTGAA CCGACAAAGT GCCAGGCTAT GGGAGACATC CATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_005250502.1
CDS	16..2892
Translation	MGRMGKGCPASGPRSWLLSDELVQGSRAGVSASFPVGFREGGGGGDFRRGDVGLQDGGVRVRVIIFAFSLHSLLSRFLPGGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRQLPQGDYVKKPGDGDSFYSDIPPGVSTNSASSSKKRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTETLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_005250445.3
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X8, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_005250445.3

ORF Insert Sequence:

ATGGGGAGAA TGGGAAAGGG GTGCCCTGCT TCTGGGCCCC GCTCCTGGTT GCTCTCGGAT 
GAGCTGGTCC AAGGCTCTCG GGCTGGTGTC TCTGCGTCCT TCCCAGTTGG GTTCCGAGAG 
GGAGGGGGCG GTGGGGATTT TCGTAGGGGA GACGTAGGAC TGCAGGATGG AGGAGTGAGG 
GTCAGGGTCA TTATTTTCGC CTTTTCTCTC CACTCCCTCC TTTCCCGGTT CCTGCCTGGA 
GGAGACGCCT CATTGATGGA GCTAGAGAAG AGGAAGGAAA ACCGCTTCGT GGAGCGCCAG 
AGCATCGTGC CACTGCGCCT CATCTACCGC TCGGGCGGCG AAGACGAAAG TCGGCACGAC 
GCGCTCGACA CGCGGGTGCG GGGCGACCTC GGTGGCCCGC AGTTGACTCA TGTTGACCAA 
GCAAGCTTCC AGGTTGATGC CTTTGGAACG TCATTCATTC TCGATGTCGT GCTAAATCAT 
GATTTGCTGT CCTCTGAATA CATAGAGAGA CACATTGAAC ATGGAGGCAA GACTGTGGAA 
GTTAAAGGAG GAGAGCACTG TTACTACCAG GGCCATATCC GAGGAAACCC TGACTCATTT 
GTTGCATTGT CAACATGCCA CGGACTTCAT GGGATGTTCT ATGACGGGAA CCACACATAT 
CTCATTGAGC CAGAAGAAAA TGACACTACT CAAGAGGATT TCCATTTTCA TTCAGTTTAC 
AAATCCAGAC TGTTTGAATT TTCCTTGGAT GATCTTCCAT CTGAATTTCA GCAAGTAAAC 
ATTACTCCAT CAAAATTTAT TTTGAAGCCA AGACCAAAAA GGAGTAAACG GCAGCTTCGT 
CGATATCCTC GTAATGTAGA AGAAGAAACC AAATACATTG AACTGATGAT TGTGAATGAT 
CACCTTATGT TTAAAAAACA TCGGCTTTCC GTTGTACATA CCAATACCTA TGCGAAATCT 
GTGGTGAACA TGGCAGATTT AATATATAAA GACCAACTTA AGACCAGGAT AGTATTGGTT 
GCTATGGAAA CCTGGGCGAC TGACAACAAG TTTGCCATAT CTGAAAATCC ATTGATCACC 
CTACGTGAGT TTATGAAATA CAGGAGGGAT TTTATCAAAG AGAAAAGTGA TGCAGTTCAC 
CTTTTTTCGG GAAGTCAATT TGAGAGTAGC CGGAGCGGGG CAGCTTATAT TGGTGGGATT 
TGCTCGTTGC TGAAAGGAGG AGGCGTGAAT GAATTTGGGA AAACTGATTT AATGGCTGTT 
ACACTTGCCC AGTCATTAGC CCATAATATT GGTATTATCT CAGACAAAAG AAAGTTAGCA 
AGTGGTGAAT GTAAATGCGA GGACACGTGG TCCGGGTGCA TAATGGGAGA CACTGGCTAT 
TATCTTCCTA AAAAGTTCAC CCAGTGTAAT ATTGAAGAGT ATCATGACTT CCTGAATAGT 
GGAGGTGGTG CCTGCCTTTT CAACAAACCT TCTAAGCTTC TTGATCCTCC TGAGTGTGGC 
AATGGCTTCA TTGAAACTGG AGAGGAGTGT GATTGTGGAA CCCCGGCCGA ATGTGTCCTT 
GAAGGAGCAG AGTGTTGTAA GAAATGCACC TTGACTCAAG ACTCTCAATG CAGTGACGGT 
CTTTGCTGTA AAAAGTGCAA GTTTCAGCCT ATGGGCACTG TGTGCCGAGA AGCAGTAAAT 
GATTGTGATA TTCGTGAAAC GTGCTCAGGA AATTCAAGCC AGTGTGCCCC TAATATTCAT 
AAAATGGATG GATATTCATG TGATGGTGTT CAGGGAATTT GCTTTGGAGG AAGATGCAAA 
ACCAGAGATA GACAATGCAA ATACATTTGG GGGCAAAAGG TGACAGCATC AGACAAATAT 
TGCTATGAGA AACTGAATAT TGAAGGGACG GAGAAGGGTA ACTGTGGGAA AGACAAAGAC 
ACATGGATAC AGTGCAACAA ACGGGATGTG CTTTGTGGTT ACCTTTTGTG TACCAATATT 
GGCAATATCC CAAGGCTTGG AGAACTCGAT GGTGAAATCA CATCTACTTT AGTTGTGCAG 
CAAGGAAGAA CATTAAACTG CAGTGGTGGG CATGTTAAGC TTGAAGAAGA TGTAGATCTT 
GGCTATGTGG AAGATGGGAC ACCTTGTGGT CCCCAAATGA TGTGCTTAGA ACACAGGTGT 
CTTCCTGTGG CTTCTTTCAA CTTTAGTACT TGCTTGAGCA GTAAAGAAGG CACTATTTGC 
TCAGGAAATG GAGTTTGCAG TAATGAGCTG AAGTGTGTGT GTAACAGACA CTGGATAGGT 
TCTGATTGCA ACACTTACTT CCCTCACAAT GATGATGCAA AGACTGGTAT CACTCTGTCT 
GGCAATGGTG TTGCTGGCAC CAATATCATA ATAGGCATAA TTGCTGGCAC CATTTTAGTG 
CTGGCCCTCA TATTAGGAAT AACTGCGTGG GGTTATAAAA ACTATCGAGA ACAGAGACAG 
TTACCCCAGG GAGATTATGT AAAAAAGCCT GGAGATGGTG ACTCTTTTTA TAGCGACATT 
CCTCCCGGAG TCAGCACAAA CTCAGCATCT AGTTCTAAGA AGAGGTCAAA TGGGCTCTCT 
CATTCTTGGA GTGAAAGGAT TCCAGACACA AAACATATTT CAGACATCTG TGAAAATGGG 
CGACCTCGAA GTAACTCTTG GCAAGGTAAC CTGGGAGGCA ACAAAAAGAA AATCAGAGGC 
AAAAGATTTA GACCTCGGTC TAATTCAACT GAGACTTTAT CTCCTGCCAA GTCTCCTTCT 
TCATCAACTG GGTCTATTGC CTCCAGCAGA AAATACCCTT ACCCAATGCC TCCACTTCCT 
GATGAGGACA AGAAAGTGAA CCGACAAAGT GCCAGGCTAT GGGAGACATC CATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_005250445.4 ) cDNA ORF clone, Homo sapiens(human) -> XP_005250502.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X8, mRNA.

Price & Availability↑

CloneID	OHu41620
Clone ID Related Accession (Same CDS sequence)	XM_005250445.3 , XM_005250445.4
Accession Version	XM_005250445.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2877bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X8
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_005250445.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGGAGAA TGGGAAAGGG GTGCCCTGCT TCTGGGCCCC GCTCCTGGTT GCTCTCGGAT 
GAGCTGGTCC AAGGCTCTCG GGCTGGTGTC TCTGCGTCCT TCCCAGTTGG GTTCCGAGAG 
GGAGGGGGCG GTGGGGATTT TCGTAGGGGA GACGTAGGAC TGCAGGATGG AGGAGTGAGG 
GTCAGGGTCA TTATTTTCGC CTTTTCTCTC CACTCCCTCC TTTCCCGGTT CCTGCCTGGA 
GGAGACGCCT CATTGATGGA GCTAGAGAAG AGGAAGGAAA ACCGCTTCGT GGAGCGCCAG 
AGCATCGTGC CACTGCGCCT CATCTACCGC TCGGGCGGCG AAGACGAAAG TCGGCACGAC 
GCGCTCGACA CGCGGGTGCG GGGCGACCTC GGTGGCCCGC AGTTGACTCA TGTTGACCAA 
GCAAGCTTCC AGGTTGATGC CTTTGGAACG TCATTCATTC TCGATGTCGT GCTAAATCAT 
GATTTGCTGT CCTCTGAATA CATAGAGAGA CACATTGAAC ATGGAGGCAA GACTGTGGAA 
GTTAAAGGAG GAGAGCACTG TTACTACCAG GGCCATATCC GAGGAAACCC TGACTCATTT 
GTTGCATTGT CAACATGCCA CGGACTTCAT GGGATGTTCT ATGACGGGAA CCACACATAT 
CTCATTGAGC CAGAAGAAAA TGACACTACT CAAGAGGATT TCCATTTTCA TTCAGTTTAC 
AAATCCAGAC TGTTTGAATT TTCCTTGGAT GATCTTCCAT CTGAATTTCA GCAAGTAAAC 
ATTACTCCAT CAAAATTTAT TTTGAAGCCA AGACCAAAAA GGAGTAAACG GCAGCTTCGT 
CGATATCCTC GTAATGTAGA AGAAGAAACC AAATACATTG AACTGATGAT TGTGAATGAT 
CACCTTATGT TTAAAAAACA TCGGCTTTCC GTTGTACATA CCAATACCTA TGCGAAATCT 
GTGGTGAACA TGGCAGATTT AATATATAAA GACCAACTTA AGACCAGGAT AGTATTGGTT 
GCTATGGAAA CCTGGGCGAC TGACAACAAG TTTGCCATAT CTGAAAATCC ATTGATCACC 
CTACGTGAGT TTATGAAATA CAGGAGGGAT TTTATCAAAG AGAAAAGTGA TGCAGTTCAC 
CTTTTTTCGG GAAGTCAATT TGAGAGTAGC CGGAGCGGGG CAGCTTATAT TGGTGGGATT 
TGCTCGTTGC TGAAAGGAGG AGGCGTGAAT GAATTTGGGA AAACTGATTT AATGGCTGTT 
ACACTTGCCC AGTCATTAGC CCATAATATT GGTATTATCT CAGACAAAAG AAAGTTAGCA 
AGTGGTGAAT GTAAATGCGA GGACACGTGG TCCGGGTGCA TAATGGGAGA CACTGGCTAT 
TATCTTCCTA AAAAGTTCAC CCAGTGTAAT ATTGAAGAGT ATCATGACTT CCTGAATAGT 
GGAGGTGGTG CCTGCCTTTT CAACAAACCT TCTAAGCTTC TTGATCCTCC TGAGTGTGGC 
AATGGCTTCA TTGAAACTGG AGAGGAGTGT GATTGTGGAA CCCCGGCCGA ATGTGTCCTT 
GAAGGAGCAG AGTGTTGTAA GAAATGCACC TTGACTCAAG ACTCTCAATG CAGTGACGGT 
CTTTGCTGTA AAAAGTGCAA GTTTCAGCCT ATGGGCACTG TGTGCCGAGA AGCAGTAAAT 
GATTGTGATA TTCGTGAAAC GTGCTCAGGA AATTCAAGCC AGTGTGCCCC TAATATTCAT 
AAAATGGATG GATATTCATG TGATGGTGTT CAGGGAATTT GCTTTGGAGG AAGATGCAAA 
ACCAGAGATA GACAATGCAA ATACATTTGG GGGCAAAAGG TGACAGCATC AGACAAATAT 
TGCTATGAGA AACTGAATAT TGAAGGGACG GAGAAGGGTA ACTGTGGGAA AGACAAAGAC 
ACATGGATAC AGTGCAACAA ACGGGATGTG CTTTGTGGTT ACCTTTTGTG TACCAATATT 
GGCAATATCC CAAGGCTTGG AGAACTCGAT GGTGAAATCA CATCTACTTT AGTTGTGCAG 
CAAGGAAGAA CATTAAACTG CAGTGGTGGG CATGTTAAGC TTGAAGAAGA TGTAGATCTT 
GGCTATGTGG AAGATGGGAC ACCTTGTGGT CCCCAAATGA TGTGCTTAGA ACACAGGTGT 
CTTCCTGTGG CTTCTTTCAA CTTTAGTACT TGCTTGAGCA GTAAAGAAGG CACTATTTGC 
TCAGGAAATG GAGTTTGCAG TAATGAGCTG AAGTGTGTGT GTAACAGACA CTGGATAGGT 
TCTGATTGCA ACACTTACTT CCCTCACAAT GATGATGCAA AGACTGGTAT CACTCTGTCT 
GGCAATGGTG TTGCTGGCAC CAATATCATA ATAGGCATAA TTGCTGGCAC CATTTTAGTG 
CTGGCCCTCA TATTAGGAAT AACTGCGTGG GGTTATAAAA ACTATCGAGA ACAGAGACAG 
TTACCCCAGG GAGATTATGT AAAAAAGCCT GGAGATGGTG ACTCTTTTTA TAGCGACATT 
CCTCCCGGAG TCAGCACAAA CTCAGCATCT AGTTCTAAGA AGAGGTCAAA TGGGCTCTCT 
CATTCTTGGA GTGAAAGGAT TCCAGACACA AAACATATTT CAGACATCTG TGAAAATGGG 
CGACCTCGAA GTAACTCTTG GCAAGGTAAC CTGGGAGGCA ACAAAAAGAA AATCAGAGGC 
AAAAGATTTA GACCTCGGTC TAATTCAACT GAGACTTTAT CTCCTGCCAA GTCTCCTTCT 
TCATCAACTG GGTCTATTGC CTCCAGCAGA AAATACCCTT ACCCAATGCC TCCACTTCCT 
GATGAGGACA AGAAAGTGAA CCGACAAAGT GCCAGGCTAT GGGAGACATC CATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_005250502.1
CDS	16..2892
Translation	MGRMGKGCPASGPRSWLLSDELVQGSRAGVSASFPVGFREGGGGGDFRRGDVGLQDGGVRVRVIIFAFSLHSLLSRFLPGGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRQLPQGDYVKKPGDGDSFYSDIPPGVSTNSASSSKKRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTETLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_005250445.4
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X8, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_005250445.4

ORF Insert Sequence:

ATGGGGAGAA TGGGAAAGGG GTGCCCTGCT TCTGGGCCCC GCTCCTGGTT GCTCTCGGAT 
GAGCTGGTCC AAGGCTCTCG GGCTGGTGTC TCTGCGTCCT TCCCAGTTGG GTTCCGAGAG 
GGAGGGGGCG GTGGGGATTT TCGTAGGGGA GACGTAGGAC TGCAGGATGG AGGAGTGAGG 
GTCAGGGTCA TTATTTTCGC CTTTTCTCTC CACTCCCTCC TTTCCCGGTT CCTGCCTGGA 
GGAGACGCCT CATTGATGGA GCTAGAGAAG AGGAAGGAAA ACCGCTTCGT GGAGCGCCAG 
AGCATCGTGC CACTGCGCCT CATCTACCGC TCGGGCGGCG AAGACGAAAG TCGGCACGAC 
GCGCTCGACA CGCGGGTGCG GGGCGACCTC GGTGGCCCGC AGTTGACTCA TGTTGACCAA 
GCAAGCTTCC AGGTTGATGC CTTTGGAACG TCATTCATTC TCGATGTCGT GCTAAATCAT 
GATTTGCTGT CCTCTGAATA CATAGAGAGA CACATTGAAC ATGGAGGCAA GACTGTGGAA 
GTTAAAGGAG GAGAGCACTG TTACTACCAG GGCCATATCC GAGGAAACCC TGACTCATTT 
GTTGCATTGT CAACATGCCA CGGACTTCAT GGGATGTTCT ATGACGGGAA CCACACATAT 
CTCATTGAGC CAGAAGAAAA TGACACTACT CAAGAGGATT TCCATTTTCA TTCAGTTTAC 
AAATCCAGAC TGTTTGAATT TTCCTTGGAT GATCTTCCAT CTGAATTTCA GCAAGTAAAC 
ATTACTCCAT CAAAATTTAT TTTGAAGCCA AGACCAAAAA GGAGTAAACG GCAGCTTCGT 
CGATATCCTC GTAATGTAGA AGAAGAAACC AAATACATTG AACTGATGAT TGTGAATGAT 
CACCTTATGT TTAAAAAACA TCGGCTTTCC GTTGTACATA CCAATACCTA TGCGAAATCT 
GTGGTGAACA TGGCAGATTT AATATATAAA GACCAACTTA AGACCAGGAT AGTATTGGTT 
GCTATGGAAA CCTGGGCGAC TGACAACAAG TTTGCCATAT CTGAAAATCC ATTGATCACC 
CTACGTGAGT TTATGAAATA CAGGAGGGAT TTTATCAAAG AGAAAAGTGA TGCAGTTCAC 
CTTTTTTCGG GAAGTCAATT TGAGAGTAGC CGGAGCGGGG CAGCTTATAT TGGTGGGATT 
TGCTCGTTGC TGAAAGGAGG AGGCGTGAAT GAATTTGGGA AAACTGATTT AATGGCTGTT 
ACACTTGCCC AGTCATTAGC CCATAATATT GGTATTATCT CAGACAAAAG AAAGTTAGCA 
AGTGGTGAAT GTAAATGCGA GGACACGTGG TCCGGGTGCA TAATGGGAGA CACTGGCTAT 
TATCTTCCTA AAAAGTTCAC CCAGTGTAAT ATTGAAGAGT ATCATGACTT CCTGAATAGT 
GGAGGTGGTG CCTGCCTTTT CAACAAACCT TCTAAGCTTC TTGATCCTCC TGAGTGTGGC 
AATGGCTTCA TTGAAACTGG AGAGGAGTGT GATTGTGGAA CCCCGGCCGA ATGTGTCCTT 
GAAGGAGCAG AGTGTTGTAA GAAATGCACC TTGACTCAAG ACTCTCAATG CAGTGACGGT 
CTTTGCTGTA AAAAGTGCAA GTTTCAGCCT ATGGGCACTG TGTGCCGAGA AGCAGTAAAT 
GATTGTGATA TTCGTGAAAC GTGCTCAGGA AATTCAAGCC AGTGTGCCCC TAATATTCAT 
AAAATGGATG GATATTCATG TGATGGTGTT CAGGGAATTT GCTTTGGAGG AAGATGCAAA 
ACCAGAGATA GACAATGCAA ATACATTTGG GGGCAAAAGG TGACAGCATC AGACAAATAT 
TGCTATGAGA AACTGAATAT TGAAGGGACG GAGAAGGGTA ACTGTGGGAA AGACAAAGAC 
ACATGGATAC AGTGCAACAA ACGGGATGTG CTTTGTGGTT ACCTTTTGTG TACCAATATT 
GGCAATATCC CAAGGCTTGG AGAACTCGAT GGTGAAATCA CATCTACTTT AGTTGTGCAG 
CAAGGAAGAA CATTAAACTG CAGTGGTGGG CATGTTAAGC TTGAAGAAGA TGTAGATCTT 
GGCTATGTGG AAGATGGGAC ACCTTGTGGT CCCCAAATGA TGTGCTTAGA ACACAGGTGT 
CTTCCTGTGG CTTCTTTCAA CTTTAGTACT TGCTTGAGCA GTAAAGAAGG CACTATTTGC 
TCAGGAAATG GAGTTTGCAG TAATGAGCTG AAGTGTGTGT GTAACAGACA CTGGATAGGT 
TCTGATTGCA ACACTTACTT CCCTCACAAT GATGATGCAA AGACTGGTAT CACTCTGTCT 
GGCAATGGTG TTGCTGGCAC CAATATCATA ATAGGCATAA TTGCTGGCAC CATTTTAGTG 
CTGGCCCTCA TATTAGGAAT AACTGCGTGG GGTTATAAAA ACTATCGAGA ACAGAGACAG 
TTACCCCAGG GAGATTATGT AAAAAAGCCT GGAGATGGTG ACTCTTTTTA TAGCGACATT 
CCTCCCGGAG TCAGCACAAA CTCAGCATCT AGTTCTAAGA AGAGGTCAAA TGGGCTCTCT 
CATTCTTGGA GTGAAAGGAT TCCAGACACA AAACATATTT CAGACATCTG TGAAAATGGG 
CGACCTCGAA GTAACTCTTG GCAAGGTAAC CTGGGAGGCA ACAAAAAGAA AATCAGAGGC 
AAAAGATTTA GACCTCGGTC TAATTCAACT GAGACTTTAT CTCCTGCCAA GTCTCCTTCT 
TCATCAACTG GGTCTATTGC CTCCAGCAGA AAATACCCTT ACCCAATGCC TCCACTTCCT 
GATGAGGACA AGAAAGTGAA CCGACAAAGT GCCAGGCTAT GGGAGACATC CATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_011516320.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011514622.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X4, mRNA.

Price & Availability↑

CloneID	OHu68204
Clone ID Related Accession (Same CDS sequence)	XM_011516320.2 , XM_011516320.3
Accession Version	XM_011516320.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2988bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-06-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011516320.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGGAGAA TGGGAAAGGG GTGCCCTGCT TCTGGGCCCC GCTCCTGGTT GCTCTCGGAT 
GAGCTGGTCC AAGGCTCTCG GGCTGGTGTC TCTGCGTCCT TCCCAGTTGG GTTCCGAGAG 
GGAGGGGGCG GTGGGGATTT TCGTAGGGGA GACGTAGGAC TGCAGGATGG AGGAGTGAGG 
GTCAGGGTCA TTATTTTCGC CTTTTCTCTC CACTCCCTCC TTTCCCGGTT CCTGCCTGGA 
GGAGACGCCT CATTGATGGA GCTAGAGAAG AGGAAGGAAA ACCGCTTCGT GGAGCGCCAG 
AGCATCGTGC CACTGCGCCT CATCTACCGC TCGGGCGGCG AAGACGAAAG TCGGCACGAC 
GCGCTCGACA CGCGGGTGCG GGGCGACCTC GGTGGCCCGC AGTTGACTCA TGTTGACCAA 
GCAAGCTTCC AGGTTGATGC CTTTGGAACG TCATTCATTC TCGATGTCGT GCTAAATCAT 
GATTTGCTGT CCTCTGAATA CATAGAGAGA CACATTGAAC ATGGAGGCAA GACTGTGGAA 
GTTAAAGGAG GAGAGCACTG TTACTACCAG GGCCATATCC GAGGAAACCC TGACTCATTT 
GTTGCATTGT CAACATGCCA CGGACTTCAT GGGATGTTCT ATGACGGGAA CCACACATAT 
CTCATTGAGC CAGAAGAAAA TGACACTACT CAAGAGGATT TCCATTTTCA TTCAGTTTAC 
AAATCCAGAC TGTTTGAATT TTCCTTGGAT GATCTTCCAT CTGAATTTCA GCAAGTAAAC 
ATTACTCCAT CAAAATTTAT TTTGAAGCCA AGACCAAAAA GGAGTAAACG GCAGCTTCGT 
CGATATCCTC GTAATGTAGA AGAAGAAACC AAATACATTG AACTGATGAT TGTGAATGAT 
CACCTTATGT TTAAAAAACA TCGGCTTTCC GTTGTACATA CCAATACCTA TGCGAAATCT 
GTGGTGAACA TGGCAGATTT AATATATAAA GACCAACTTA AGACCAGGAT AGTATTGGTT 
GCTATGGAAA CCTGGGCGAC TGACAACAAG TTTGCCATAT CTGAAAATCC ATTGATCACC 
CTACGTGAGT TTATGAAATA CAGGAGGGAT TTTATCAAAG AGAAAAGTGA TGCAGTTCAC 
CTTTTTTCGG GAAGTCAATT TGAGAGTAGC CGGAGCGGGG CAGCTTATAT TGGTGGGATT 
TGCTCGTTGC TGAAAGGAGG AGGCGTGAAT GAATTTGGGA AAACTGATTT AATGGCTGTT 
ACACTTGCCC AGTCATTAGC CCATAATATT GGTATTATCT CAGACAAAAG AAAGTTAGCA 
AGTGGTGAAT GTAAATGCGA GGACACGTGG TCCGGGTGCA TAATGGGAGA CACTGGCTAT 
TATCTTCCTA AAAAGTTCAC CCAGTGTAAT ATTGAAGAGT ATCATGACTT CCTGAATAGT 
GGAGGTGGTG CCTGCCTTTT CAACAAACCT TCTAAGCTTC TTGATCCTCC TGAGTGTGGC 
AATGGCTTCA TTGAAACTGG AGAGGAGTGT GATTGTGGAA CCCCGGCCGA ATGTGTCCTT 
GAAGGAGCAG AGTGTTGTAA GAAATGCACC TTGACTCAAG ACTCTCAATG CAGTGACGGT 
CTTTGCTGTA AAAAGTGCAA GTTTCAGCCT ATGGGCACTG TGTGCCGAGA AGCAGTAAAT 
GATTGTGATA TTCGTGAAAC GTGCTCAGGA AATTCAAGCC AGTGTGCCCC TAATATTCAT 
AAAATGGATG GATATTCATG TGATGGTGTT CAGGGAATTT GCTTTGGAGG AAGATGCAAA 
ACCAGAGATA GACAATGCAA ATACATTTGG GGGCAAAAGG TGACAGCATC AGACAAATAT 
TGCTATGAGA AACTGAATAT TGAAGGGACG GAGAAGGGTA ACTGTGGGAA AGACAAAGAC 
ACATGGATAC AGTGCAACAA ACGGGATGTG CTTTGTGGTT ACCTTTTGTG TACCAATATT 
GGCAATATCC CAAGGCTTGG AGAACTCGAT GGTGAAATCA CATCTACTTT AGTTGTGCAG 
CAAGGAAGAA CATTAAACTG CAGTGGTGGG CATGTTAAGC TTGAAGAAGA TGTAGATCTT 
GGCTATGTGG AAGATGGGAC ACCTTGTGGT CCCCAAATGA TGTGCTTAGA ACACAGGTGT 
CTTCCTGTGG CTTCTTTCAA CTTTAGTACT TGCTTGAGCA GTAAAGAAGG CACTATTTGC 
TCAGGAAATG GAGTTTGCAG TAATGAGCTG AAGTGTGTGT GTAACAGACA CTGGATAGGT 
TCTGATTGCA ACACTTACTT CCCTCACAAT GATGATGCAA AGACTGGTAT CACTCTGTCT 
GGCAATGGTG TTGCTGGCAC CAATATCATA ATAGGCATAA TTGCTGGCAC CATTTTAGTG 
CTGGCCCTCA TATTAGGAAT AACTGCGTGG GGTTATAAAA ACTATCGAGA ACAGAGACAG 
TTACCCCAGG GAGATTATGT AAAAAAGCCT GGAGATGGTG ACTCTTTTTA TAGCGACATT 
CCTCCCGGAG TCAGCACAAA CTCAGCATCT AGTTCTAAGA AGAGGTCAAA TGGGCTCTCT 
CATTCTTGGA GTGAAAGGAT TCCAGACACA AAACATATTT CAGACATCTG TGAAAATGGG 
CGACCTCGAA GTAACTCTTG GCAAGGTAAC CTGGGAGGCA ACAAAAAGAA AATCAGAGGC 
AAAAGATTTA GACCTCGGTC TAATTCAACT GAGAGGGAGC CCCAAGCACC TGAGCCTGGG 
CACTCCCTCG CCCAGACAGT CCCATCCCAA GGCATAAGCC CAGGGGGCTC TGACAGCCCC 
CAGACAGGGA GTCTGGATCA CAGGACTTTA TCTCCTGCCA AGTCTCCTTC TTCATCAACT 
GGGTCTATTG CCTCCAGCAG AAAATACCCT TACCCAATGC CTCCACTTCC TGATGAGGAC 
AAGAAAGTGA ACCGACAAAG TGCCAGGCTA TGGGAGACAT CCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_011514622.1
CDS	16..3003
Translation	MGRMGKGCPASGPRSWLLSDELVQGSRAGVSASFPVGFREGGGGGDFRRGDVGLQDGGVRVRVIIFAFSLHSLLSRFLPGGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRQLPQGDYVKKPGDGDSFYSDIPPGVSTNSASSSKKRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTEREPQAPEPGHSLAQTVPSQGISPGGSDSPQTGSLDHRTLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_011516320.2
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X4, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_011516320.2

ORF Insert Sequence:

ATGGGGAGAA TGGGAAAGGG GTGCCCTGCT TCTGGGCCCC GCTCCTGGTT GCTCTCGGAT 
GAGCTGGTCC AAGGCTCTCG GGCTGGTGTC TCTGCGTCCT TCCCAGTTGG GTTCCGAGAG 
GGAGGGGGCG GTGGGGATTT TCGTAGGGGA GACGTAGGAC TGCAGGATGG AGGAGTGAGG 
GTCAGGGTCA TTATTTTCGC CTTTTCTCTC CACTCCCTCC TTTCCCGGTT CCTGCCTGGA 
GGAGACGCCT CATTGATGGA GCTAGAGAAG AGGAAGGAAA ACCGCTTCGT GGAGCGCCAG 
AGCATCGTGC CACTGCGCCT CATCTACCGC TCGGGCGGCG AAGACGAAAG TCGGCACGAC 
GCGCTCGACA CGCGGGTGCG GGGCGACCTC GGTGGCCCGC AGTTGACTCA TGTTGACCAA 
GCAAGCTTCC AGGTTGATGC CTTTGGAACG TCATTCATTC TCGATGTCGT GCTAAATCAT 
GATTTGCTGT CCTCTGAATA CATAGAGAGA CACATTGAAC ATGGAGGCAA GACTGTGGAA 
GTTAAAGGAG GAGAGCACTG TTACTACCAG GGCCATATCC GAGGAAACCC TGACTCATTT 
GTTGCATTGT CAACATGCCA CGGACTTCAT GGGATGTTCT ATGACGGGAA CCACACATAT 
CTCATTGAGC CAGAAGAAAA TGACACTACT CAAGAGGATT TCCATTTTCA TTCAGTTTAC 
AAATCCAGAC TGTTTGAATT TTCCTTGGAT GATCTTCCAT CTGAATTTCA GCAAGTAAAC 
ATTACTCCAT CAAAATTTAT TTTGAAGCCA AGACCAAAAA GGAGTAAACG GCAGCTTCGT 
CGATATCCTC GTAATGTAGA AGAAGAAACC AAATACATTG AACTGATGAT TGTGAATGAT 
CACCTTATGT TTAAAAAACA TCGGCTTTCC GTTGTACATA CCAATACCTA TGCGAAATCT 
GTGGTGAACA TGGCAGATTT AATATATAAA GACCAACTTA AGACCAGGAT AGTATTGGTT 
GCTATGGAAA CCTGGGCGAC TGACAACAAG TTTGCCATAT CTGAAAATCC ATTGATCACC 
CTACGTGAGT TTATGAAATA CAGGAGGGAT TTTATCAAAG AGAAAAGTGA TGCAGTTCAC 
CTTTTTTCGG GAAGTCAATT TGAGAGTAGC CGGAGCGGGG CAGCTTATAT TGGTGGGATT 
TGCTCGTTGC TGAAAGGAGG AGGCGTGAAT GAATTTGGGA AAACTGATTT AATGGCTGTT 
ACACTTGCCC AGTCATTAGC CCATAATATT GGTATTATCT CAGACAAAAG AAAGTTAGCA 
AGTGGTGAAT GTAAATGCGA GGACACGTGG TCCGGGTGCA TAATGGGAGA CACTGGCTAT 
TATCTTCCTA AAAAGTTCAC CCAGTGTAAT ATTGAAGAGT ATCATGACTT CCTGAATAGT 
GGAGGTGGTG CCTGCCTTTT CAACAAACCT TCTAAGCTTC TTGATCCTCC TGAGTGTGGC 
AATGGCTTCA TTGAAACTGG AGAGGAGTGT GATTGTGGAA CCCCGGCCGA ATGTGTCCTT 
GAAGGAGCAG AGTGTTGTAA GAAATGCACC TTGACTCAAG ACTCTCAATG CAGTGACGGT 
CTTTGCTGTA AAAAGTGCAA GTTTCAGCCT ATGGGCACTG TGTGCCGAGA AGCAGTAAAT 
GATTGTGATA TTCGTGAAAC GTGCTCAGGA AATTCAAGCC AGTGTGCCCC TAATATTCAT 
AAAATGGATG GATATTCATG TGATGGTGTT CAGGGAATTT GCTTTGGAGG AAGATGCAAA 
ACCAGAGATA GACAATGCAA ATACATTTGG GGGCAAAAGG TGACAGCATC AGACAAATAT 
TGCTATGAGA AACTGAATAT TGAAGGGACG GAGAAGGGTA ACTGTGGGAA AGACAAAGAC 
ACATGGATAC AGTGCAACAA ACGGGATGTG CTTTGTGGTT ACCTTTTGTG TACCAATATT 
GGCAATATCC CAAGGCTTGG AGAACTCGAT GGTGAAATCA CATCTACTTT AGTTGTGCAG 
CAAGGAAGAA CATTAAACTG CAGTGGTGGG CATGTTAAGC TTGAAGAAGA TGTAGATCTT 
GGCTATGTGG AAGATGGGAC ACCTTGTGGT CCCCAAATGA TGTGCTTAGA ACACAGGTGT 
CTTCCTGTGG CTTCTTTCAA CTTTAGTACT TGCTTGAGCA GTAAAGAAGG CACTATTTGC 
TCAGGAAATG GAGTTTGCAG TAATGAGCTG AAGTGTGTGT GTAACAGACA CTGGATAGGT 
TCTGATTGCA ACACTTACTT CCCTCACAAT GATGATGCAA AGACTGGTAT CACTCTGTCT 
GGCAATGGTG TTGCTGGCAC CAATATCATA ATAGGCATAA TTGCTGGCAC CATTTTAGTG 
CTGGCCCTCA TATTAGGAAT AACTGCGTGG GGTTATAAAA ACTATCGAGA ACAGAGACAG 
TTACCCCAGG GAGATTATGT AAAAAAGCCT GGAGATGGTG ACTCTTTTTA TAGCGACATT 
CCTCCCGGAG TCAGCACAAA CTCAGCATCT AGTTCTAAGA AGAGGTCAAA TGGGCTCTCT 
CATTCTTGGA GTGAAAGGAT TCCAGACACA AAACATATTT CAGACATCTG TGAAAATGGG 
CGACCTCGAA GTAACTCTTG GCAAGGTAAC CTGGGAGGCA ACAAAAAGAA AATCAGAGGC 
AAAAGATTTA GACCTCGGTC TAATTCAACT GAGAGGGAGC CCCAAGCACC TGAGCCTGGG 
CACTCCCTCG CCCAGACAGT CCCATCCCAA GGCATAAGCC CAGGGGGCTC TGACAGCCCC 
CAGACAGGGA GTCTGGATCA CAGGACTTTA TCTCCTGCCA AGTCTCCTTC TTCATCAACT 
GGGTCTATTG CCTCCAGCAG AAAATACCCT TACCCAATGC CTCCACTTCC TGATGAGGAC 
AAGAAAGTGA ACCGACAAAG TGCCAGGCTA TGGGAGACAT CCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_011516320.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011514622.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X4, mRNA.

Price & Availability↑

CloneID	OHu68204
Clone ID Related Accession (Same CDS sequence)	XM_011516320.2 , XM_011516320.3
Accession Version	XM_011516320.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2988bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011516320.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGGAGAA TGGGAAAGGG GTGCCCTGCT TCTGGGCCCC GCTCCTGGTT GCTCTCGGAT 
GAGCTGGTCC AAGGCTCTCG GGCTGGTGTC TCTGCGTCCT TCCCAGTTGG GTTCCGAGAG 
GGAGGGGGCG GTGGGGATTT TCGTAGGGGA GACGTAGGAC TGCAGGATGG AGGAGTGAGG 
GTCAGGGTCA TTATTTTCGC CTTTTCTCTC CACTCCCTCC TTTCCCGGTT CCTGCCTGGA 
GGAGACGCCT CATTGATGGA GCTAGAGAAG AGGAAGGAAA ACCGCTTCGT GGAGCGCCAG 
AGCATCGTGC CACTGCGCCT CATCTACCGC TCGGGCGGCG AAGACGAAAG TCGGCACGAC 
GCGCTCGACA CGCGGGTGCG GGGCGACCTC GGTGGCCCGC AGTTGACTCA TGTTGACCAA 
GCAAGCTTCC AGGTTGATGC CTTTGGAACG TCATTCATTC TCGATGTCGT GCTAAATCAT 
GATTTGCTGT CCTCTGAATA CATAGAGAGA CACATTGAAC ATGGAGGCAA GACTGTGGAA 
GTTAAAGGAG GAGAGCACTG TTACTACCAG GGCCATATCC GAGGAAACCC TGACTCATTT 
GTTGCATTGT CAACATGCCA CGGACTTCAT GGGATGTTCT ATGACGGGAA CCACACATAT 
CTCATTGAGC CAGAAGAAAA TGACACTACT CAAGAGGATT TCCATTTTCA TTCAGTTTAC 
AAATCCAGAC TGTTTGAATT TTCCTTGGAT GATCTTCCAT CTGAATTTCA GCAAGTAAAC 
ATTACTCCAT CAAAATTTAT TTTGAAGCCA AGACCAAAAA GGAGTAAACG GCAGCTTCGT 
CGATATCCTC GTAATGTAGA AGAAGAAACC AAATACATTG AACTGATGAT TGTGAATGAT 
CACCTTATGT TTAAAAAACA TCGGCTTTCC GTTGTACATA CCAATACCTA TGCGAAATCT 
GTGGTGAACA TGGCAGATTT AATATATAAA GACCAACTTA AGACCAGGAT AGTATTGGTT 
GCTATGGAAA CCTGGGCGAC TGACAACAAG TTTGCCATAT CTGAAAATCC ATTGATCACC 
CTACGTGAGT TTATGAAATA CAGGAGGGAT TTTATCAAAG AGAAAAGTGA TGCAGTTCAC 
CTTTTTTCGG GAAGTCAATT TGAGAGTAGC CGGAGCGGGG CAGCTTATAT TGGTGGGATT 
TGCTCGTTGC TGAAAGGAGG AGGCGTGAAT GAATTTGGGA AAACTGATTT AATGGCTGTT 
ACACTTGCCC AGTCATTAGC CCATAATATT GGTATTATCT CAGACAAAAG AAAGTTAGCA 
AGTGGTGAAT GTAAATGCGA GGACACGTGG TCCGGGTGCA TAATGGGAGA CACTGGCTAT 
TATCTTCCTA AAAAGTTCAC CCAGTGTAAT ATTGAAGAGT ATCATGACTT CCTGAATAGT 
GGAGGTGGTG CCTGCCTTTT CAACAAACCT TCTAAGCTTC TTGATCCTCC TGAGTGTGGC 
AATGGCTTCA TTGAAACTGG AGAGGAGTGT GATTGTGGAA CCCCGGCCGA ATGTGTCCTT 
GAAGGAGCAG AGTGTTGTAA GAAATGCACC TTGACTCAAG ACTCTCAATG CAGTGACGGT 
CTTTGCTGTA AAAAGTGCAA GTTTCAGCCT ATGGGCACTG TGTGCCGAGA AGCAGTAAAT 
GATTGTGATA TTCGTGAAAC GTGCTCAGGA AATTCAAGCC AGTGTGCCCC TAATATTCAT 
AAAATGGATG GATATTCATG TGATGGTGTT CAGGGAATTT GCTTTGGAGG AAGATGCAAA 
ACCAGAGATA GACAATGCAA ATACATTTGG GGGCAAAAGG TGACAGCATC AGACAAATAT 
TGCTATGAGA AACTGAATAT TGAAGGGACG GAGAAGGGTA ACTGTGGGAA AGACAAAGAC 
ACATGGATAC AGTGCAACAA ACGGGATGTG CTTTGTGGTT ACCTTTTGTG TACCAATATT 
GGCAATATCC CAAGGCTTGG AGAACTCGAT GGTGAAATCA CATCTACTTT AGTTGTGCAG 
CAAGGAAGAA CATTAAACTG CAGTGGTGGG CATGTTAAGC TTGAAGAAGA TGTAGATCTT 
GGCTATGTGG AAGATGGGAC ACCTTGTGGT CCCCAAATGA TGTGCTTAGA ACACAGGTGT 
CTTCCTGTGG CTTCTTTCAA CTTTAGTACT TGCTTGAGCA GTAAAGAAGG CACTATTTGC 
TCAGGAAATG GAGTTTGCAG TAATGAGCTG AAGTGTGTGT GTAACAGACA CTGGATAGGT 
TCTGATTGCA ACACTTACTT CCCTCACAAT GATGATGCAA AGACTGGTAT CACTCTGTCT 
GGCAATGGTG TTGCTGGCAC CAATATCATA ATAGGCATAA TTGCTGGCAC CATTTTAGTG 
CTGGCCCTCA TATTAGGAAT AACTGCGTGG GGTTATAAAA ACTATCGAGA ACAGAGACAG 
TTACCCCAGG GAGATTATGT AAAAAAGCCT GGAGATGGTG ACTCTTTTTA TAGCGACATT 
CCTCCCGGAG TCAGCACAAA CTCAGCATCT AGTTCTAAGA AGAGGTCAAA TGGGCTCTCT 
CATTCTTGGA GTGAAAGGAT TCCAGACACA AAACATATTT CAGACATCTG TGAAAATGGG 
CGACCTCGAA GTAACTCTTG GCAAGGTAAC CTGGGAGGCA ACAAAAAGAA AATCAGAGGC 
AAAAGATTTA GACCTCGGTC TAATTCAACT GAGAGGGAGC CCCAAGCACC TGAGCCTGGG 
CACTCCCTCG CCCAGACAGT CCCATCCCAA GGCATAAGCC CAGGGGGCTC TGACAGCCCC 
CAGACAGGGA GTCTGGATCA CAGGACTTTA TCTCCTGCCA AGTCTCCTTC TTCATCAACT 
GGGTCTATTG CCTCCAGCAG AAAATACCCT TACCCAATGC CTCCACTTCC TGATGAGGAC 
AAGAAAGTGA ACCGACAAAG TGCCAGGCTA TGGGAGACAT CCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_011514622.1
CDS	16..3003
Translation	MGRMGKGCPASGPRSWLLSDELVQGSRAGVSASFPVGFREGGGGGDFRRGDVGLQDGGVRVRVIIFAFSLHSLLSRFLPGGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRQLPQGDYVKKPGDGDSFYSDIPPGVSTNSASSSKKRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTEREPQAPEPGHSLAQTVPSQGISPGGSDSPQTGSLDHRTLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_011516320.3
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X4, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_011516320.3

ORF Insert Sequence:

ATGGGGAGAA TGGGAAAGGG GTGCCCTGCT TCTGGGCCCC GCTCCTGGTT GCTCTCGGAT 
GAGCTGGTCC AAGGCTCTCG GGCTGGTGTC TCTGCGTCCT TCCCAGTTGG GTTCCGAGAG 
GGAGGGGGCG GTGGGGATTT TCGTAGGGGA GACGTAGGAC TGCAGGATGG AGGAGTGAGG 
GTCAGGGTCA TTATTTTCGC CTTTTCTCTC CACTCCCTCC TTTCCCGGTT CCTGCCTGGA 
GGAGACGCCT CATTGATGGA GCTAGAGAAG AGGAAGGAAA ACCGCTTCGT GGAGCGCCAG 
AGCATCGTGC CACTGCGCCT CATCTACCGC TCGGGCGGCG AAGACGAAAG TCGGCACGAC 
GCGCTCGACA CGCGGGTGCG GGGCGACCTC GGTGGCCCGC AGTTGACTCA TGTTGACCAA 
GCAAGCTTCC AGGTTGATGC CTTTGGAACG TCATTCATTC TCGATGTCGT GCTAAATCAT 
GATTTGCTGT CCTCTGAATA CATAGAGAGA CACATTGAAC ATGGAGGCAA GACTGTGGAA 
GTTAAAGGAG GAGAGCACTG TTACTACCAG GGCCATATCC GAGGAAACCC TGACTCATTT 
GTTGCATTGT CAACATGCCA CGGACTTCAT GGGATGTTCT ATGACGGGAA CCACACATAT 
CTCATTGAGC CAGAAGAAAA TGACACTACT CAAGAGGATT TCCATTTTCA TTCAGTTTAC 
AAATCCAGAC TGTTTGAATT TTCCTTGGAT GATCTTCCAT CTGAATTTCA GCAAGTAAAC 
ATTACTCCAT CAAAATTTAT TTTGAAGCCA AGACCAAAAA GGAGTAAACG GCAGCTTCGT 
CGATATCCTC GTAATGTAGA AGAAGAAACC AAATACATTG AACTGATGAT TGTGAATGAT 
CACCTTATGT TTAAAAAACA TCGGCTTTCC GTTGTACATA CCAATACCTA TGCGAAATCT 
GTGGTGAACA TGGCAGATTT AATATATAAA GACCAACTTA AGACCAGGAT AGTATTGGTT 
GCTATGGAAA CCTGGGCGAC TGACAACAAG TTTGCCATAT CTGAAAATCC ATTGATCACC 
CTACGTGAGT TTATGAAATA CAGGAGGGAT TTTATCAAAG AGAAAAGTGA TGCAGTTCAC 
CTTTTTTCGG GAAGTCAATT TGAGAGTAGC CGGAGCGGGG CAGCTTATAT TGGTGGGATT 
TGCTCGTTGC TGAAAGGAGG AGGCGTGAAT GAATTTGGGA AAACTGATTT AATGGCTGTT 
ACACTTGCCC AGTCATTAGC CCATAATATT GGTATTATCT CAGACAAAAG AAAGTTAGCA 
AGTGGTGAAT GTAAATGCGA GGACACGTGG TCCGGGTGCA TAATGGGAGA CACTGGCTAT 
TATCTTCCTA AAAAGTTCAC CCAGTGTAAT ATTGAAGAGT ATCATGACTT CCTGAATAGT 
GGAGGTGGTG CCTGCCTTTT CAACAAACCT TCTAAGCTTC TTGATCCTCC TGAGTGTGGC 
AATGGCTTCA TTGAAACTGG AGAGGAGTGT GATTGTGGAA CCCCGGCCGA ATGTGTCCTT 
GAAGGAGCAG AGTGTTGTAA GAAATGCACC TTGACTCAAG ACTCTCAATG CAGTGACGGT 
CTTTGCTGTA AAAAGTGCAA GTTTCAGCCT ATGGGCACTG TGTGCCGAGA AGCAGTAAAT 
GATTGTGATA TTCGTGAAAC GTGCTCAGGA AATTCAAGCC AGTGTGCCCC TAATATTCAT 
AAAATGGATG GATATTCATG TGATGGTGTT CAGGGAATTT GCTTTGGAGG AAGATGCAAA 
ACCAGAGATA GACAATGCAA ATACATTTGG GGGCAAAAGG TGACAGCATC AGACAAATAT 
TGCTATGAGA AACTGAATAT TGAAGGGACG GAGAAGGGTA ACTGTGGGAA AGACAAAGAC 
ACATGGATAC AGTGCAACAA ACGGGATGTG CTTTGTGGTT ACCTTTTGTG TACCAATATT 
GGCAATATCC CAAGGCTTGG AGAACTCGAT GGTGAAATCA CATCTACTTT AGTTGTGCAG 
CAAGGAAGAA CATTAAACTG CAGTGGTGGG CATGTTAAGC TTGAAGAAGA TGTAGATCTT 
GGCTATGTGG AAGATGGGAC ACCTTGTGGT CCCCAAATGA TGTGCTTAGA ACACAGGTGT 
CTTCCTGTGG CTTCTTTCAA CTTTAGTACT TGCTTGAGCA GTAAAGAAGG CACTATTTGC 
TCAGGAAATG GAGTTTGCAG TAATGAGCTG AAGTGTGTGT GTAACAGACA CTGGATAGGT 
TCTGATTGCA ACACTTACTT CCCTCACAAT GATGATGCAA AGACTGGTAT CACTCTGTCT 
GGCAATGGTG TTGCTGGCAC CAATATCATA ATAGGCATAA TTGCTGGCAC CATTTTAGTG 
CTGGCCCTCA TATTAGGAAT AACTGCGTGG GGTTATAAAA ACTATCGAGA ACAGAGACAG 
TTACCCCAGG GAGATTATGT AAAAAAGCCT GGAGATGGTG ACTCTTTTTA TAGCGACATT 
CCTCCCGGAG TCAGCACAAA CTCAGCATCT AGTTCTAAGA AGAGGTCAAA TGGGCTCTCT 
CATTCTTGGA GTGAAAGGAT TCCAGACACA AAACATATTT CAGACATCTG TGAAAATGGG 
CGACCTCGAA GTAACTCTTG GCAAGGTAAC CTGGGAGGCA ACAAAAAGAA AATCAGAGGC 
AAAAGATTTA GACCTCGGTC TAATTCAACT GAGAGGGAGC CCCAAGCACC TGAGCCTGGG 
CACTCCCTCG CCCAGACAGT CCCATCCCAA GGCATAAGCC CAGGGGGCTC TGACAGCCCC 
CAGACAGGGA GTCTGGATCA CAGGACTTTA TCTCCTGCCA AGTCTCCTTC TTCATCAACT 
GGGTCTATTG CCTCCAGCAG AAAATACCCT TACCCAATGC CTCCACTTCC TGATGAGGAC 
AAGAAAGTGA ACCGACAAAG TGCCAGGCTA TGGGAGACAT CCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_011516321.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011514623.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X5, mRNA.

Price & Availability↑

CloneID	OHu68205
Clone ID Related Accession (Same CDS sequence)	XM_011516321.3 , XM_011516321.2
Accession Version	XM_011516321.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2964bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X5
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011516321.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGGAGAA TGGGAAAGGG GTGCCCTGCT TCTGGGCCCC GCTCCTGGTT GCTCTCGGAT 
GAGCTGGTCC AAGGCTCTCG GGCTGGTGTC TCTGCGTCCT TCCCAGTTGG GTTCCGAGAG 
GGAGGGGGCG GTGGGGATTT TCGTAGGGGA GACGTAGGAC TGCAGGATGG AGGAGTGAGG 
GTCAGGGTCA TTATTTTCGC CTTTTCTCTC CACTCCCTCC TTTCCCGGTT CCTGCCTGGA 
GGAGACGCCT CATTGATGGA GCTAGAGAAG AGGAAGGAAA ACCGCTTCGT GGAGCGCCAG 
AGCATCGTGC CACTGCGCCT CATCTACCGC TCGGGCGGCG AAGACGAAAG TCGGCACGAC 
GCGCTCGACA CGCGGGTGCG GGGCGACCTC GGTGGCCCGC AGTTGACTCA TGTTGACCAA 
GCAAGCTTCC AGGTTGATGC CTTTGGAACG TCATTCATTC TCGATGTCGT GCTAAATCAT 
GATTTGCTGT CCTCTGAATA CATAGAGAGA CACATTGAAC ATGGAGGCAA GACTGTGGAA 
GTTAAAGGAG GAGAGCACTG TTACTACCAG GGCCATATCC GAGGAAACCC TGACTCATTT 
GTTGCATTGT CAACATGCCA CGGACTTCAT GGGATGTTCT ATGACGGGAA CCACACATAT 
CTCATTGAGC CAGAAGAAAA TGACACTACT CAAGAGGATT TCCATTTTCA TTCAGTTTAC 
AAATCCAGAC TGTTTGAATT TTCCTTGGAT GATCTTCCAT CTGAATTTCA GCAAGTAAAC 
ATTACTCCAT CAAAATTTAT TTTGAAGCCA AGACCAAAAA GGAGTAAACG GCAGCTTCGT 
CGATATCCTC GTAATGTAGA AGAAGAAACC AAATACATTG AACTGATGAT TGTGAATGAT 
CACCTTATGT TTAAAAAACA TCGGCTTTCC GTTGTACATA CCAATACCTA TGCGAAATCT 
GTGGTGAACA TGGCAGATTT AATATATAAA GACCAACTTA AGACCAGGAT AGTATTGGTT 
GCTATGGAAA CCTGGGCGAC TGACAACAAG TTTGCCATAT CTGAAAATCC ATTGATCACC 
CTACGTGAGT TTATGAAATA CAGGAGGGAT TTTATCAAAG AGAAAAGTGA TGCAGTTCAC 
CTTTTTTCGG GAAGTCAATT TGAGAGTAGC CGGAGCGGGG CAGCTTATAT TGGTGGGATT 
TGCTCGTTGC TGAAAGGAGG AGGCGTGAAT GAATTTGGGA AAACTGATTT AATGGCTGTT 
ACACTTGCCC AGTCATTAGC CCATAATATT GGTATTATCT CAGACAAAAG AAAGTTAGCA 
AGTGGTGAAT GTAAATGCGA GGACACGTGG TCCGGGTGCA TAATGGGAGA CACTGGCTAT 
TATCTTCCTA AAAAGTTCAC CCAGTGTAAT ATTGAAGAGT ATCATGACTT CCTGAATAGT 
GGAGGTGGTG CCTGCCTTTT CAACAAACCT TCTAAGCTTC TTGATCCTCC TGAGTGTGGC 
AATGGCTTCA TTGAAACTGG AGAGGAGTGT GATTGTGGAA CCCCGGCCGA ATGTGTCCTT 
GAAGGAGCAG AGTGTTGTAA GAAATGCACC TTGACTCAAG ACTCTCAATG CAGTGACGGT 
CTTTGCTGTA AAAAGTGCAA GTTTCAGCCT ATGGGCACTG TGTGCCGAGA AGCAGTAAAT 
GATTGTGATA TTCGTGAAAC GTGCTCAGGA AATTCAAGCC AGTGTGCCCC TAATATTCAT 
AAAATGGATG GATATTCATG TGATGGTGTT CAGGGAATTT GCTTTGGAGG AAGATGCAAA 
ACCAGAGATA GACAATGCAA ATACATTTGG GGGCAAAAGG TGACAGCATC AGACAAATAT 
TGCTATGAGA AACTGAATAT TGAAGGGACG GAGAAGGGTA ACTGTGGGAA AGACAAAGAC 
ACATGGATAC AGTGCAACAA ACGGGATGTG CTTTGTGGTT ACCTTTTGTG TACCAATATT 
GGCAATATCC CAAGGCTTGG AGAACTCGAT GGTGAAATCA CATCTACTTT AGTTGTGCAG 
CAAGGAAGAA CATTAAACTG CAGTGGTGGG CATGTTAAGC TTGAAGAAGA TGTAGATCTT 
GGCTATGTGG AAGATGGGAC ACCTTGTGGT CCCCAAATGA TGTGCTTAGA ACACAGGTGT 
CTTCCTGTGG CTTCTTTCAA CTTTAGTACT TGCTTGAGCA GTAAAGAAGG CACTATTTGC 
TCAGGAAATG GAGTTTGCAG TAATGAGCTG AAGTGTGTGT GTAACAGACA CTGGATAGGT 
TCTGATTGCA ACACTTACTT CCCTCACAAT GATGATGCAA AGACTGGTAT CACTCTGTCT 
GGCAATGGTG TTGCTGGCAC CAATATCATA ATAGGCATAA TTGCTGGCAC CATTTTAGTG 
CTGGCCCTCA TATTAGGAAT AACTGCGTGG GGTTATAAAA ACTATCGAGA ACAGAGACAG 
TTACCCCAGG GAGATTATGT AAAAAAGCCT GGAGATGGTG ACTCTTTTTA TAGCGACATT 
CCTCCCGGAG TCAGCACAAA CTCAGCATCT AGTTCTAAGA AGAGGTCAAA TGGGCTCTCT 
CATTCTTGGA GTGAAAGGAT TCCAGACACA AAACATATTT CAGACATCTG TGAAAATGGG 
CGACCTCGAA GTAACTCTTG GCAAGGTAAC CTGGGAGGCA ACAAAAAGAA AATCAGAGGC 
AAAAGATTTA GACCTCGGTC TAATTCAACT GAGTATTTAA ACCCATGGTT CAAAAGAGAC 
TATAATGTAG CTAAGTGGGT AGAAGATGTG AATAAAAACA CTGAAGGACC ATACTTTAGG 
ACTTTATCTC CTGCCAAGTC TCCTTCTTCA TCAACTGGGT CTATTGCCTC CAGCAGAAAA 
TACCCTTACC CAATGCCTCC ACTTCCTGAT GAGGACAAGA AAGTGAACCG ACAAAGTGCC 
AGGCTATGGG AGACATCCAT TTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_011514623.1
CDS	16..2979
Translation	MGRMGKGCPASGPRSWLLSDELVQGSRAGVSASFPVGFREGGGGGDFRRGDVGLQDGGVRVRVIIFAFSLHSLLSRFLPGGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRQLPQGDYVKKPGDGDSFYSDIPPGVSTNSASSSKKRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTEYLNPWFKRDYNVAKWVEDVNKNTEGPYFRTLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_011516321.3
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X5, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_011516321.3

ORF Insert Sequence:

ATGGGGAGAA TGGGAAAGGG GTGCCCTGCT TCTGGGCCCC GCTCCTGGTT GCTCTCGGAT 
GAGCTGGTCC AAGGCTCTCG GGCTGGTGTC TCTGCGTCCT TCCCAGTTGG GTTCCGAGAG 
GGAGGGGGCG GTGGGGATTT TCGTAGGGGA GACGTAGGAC TGCAGGATGG AGGAGTGAGG 
GTCAGGGTCA TTATTTTCGC CTTTTCTCTC CACTCCCTCC TTTCCCGGTT CCTGCCTGGA 
GGAGACGCCT CATTGATGGA GCTAGAGAAG AGGAAGGAAA ACCGCTTCGT GGAGCGCCAG 
AGCATCGTGC CACTGCGCCT CATCTACCGC TCGGGCGGCG AAGACGAAAG TCGGCACGAC 
GCGCTCGACA CGCGGGTGCG GGGCGACCTC GGTGGCCCGC AGTTGACTCA TGTTGACCAA 
GCAAGCTTCC AGGTTGATGC CTTTGGAACG TCATTCATTC TCGATGTCGT GCTAAATCAT 
GATTTGCTGT CCTCTGAATA CATAGAGAGA CACATTGAAC ATGGAGGCAA GACTGTGGAA 
GTTAAAGGAG GAGAGCACTG TTACTACCAG GGCCATATCC GAGGAAACCC TGACTCATTT 
GTTGCATTGT CAACATGCCA CGGACTTCAT GGGATGTTCT ATGACGGGAA CCACACATAT 
CTCATTGAGC CAGAAGAAAA TGACACTACT CAAGAGGATT TCCATTTTCA TTCAGTTTAC 
AAATCCAGAC TGTTTGAATT TTCCTTGGAT GATCTTCCAT CTGAATTTCA GCAAGTAAAC 
ATTACTCCAT CAAAATTTAT TTTGAAGCCA AGACCAAAAA GGAGTAAACG GCAGCTTCGT 
CGATATCCTC GTAATGTAGA AGAAGAAACC AAATACATTG AACTGATGAT TGTGAATGAT 
CACCTTATGT TTAAAAAACA TCGGCTTTCC GTTGTACATA CCAATACCTA TGCGAAATCT 
GTGGTGAACA TGGCAGATTT AATATATAAA GACCAACTTA AGACCAGGAT AGTATTGGTT 
GCTATGGAAA CCTGGGCGAC TGACAACAAG TTTGCCATAT CTGAAAATCC ATTGATCACC 
CTACGTGAGT TTATGAAATA CAGGAGGGAT TTTATCAAAG AGAAAAGTGA TGCAGTTCAC 
CTTTTTTCGG GAAGTCAATT TGAGAGTAGC CGGAGCGGGG CAGCTTATAT TGGTGGGATT 
TGCTCGTTGC TGAAAGGAGG AGGCGTGAAT GAATTTGGGA AAACTGATTT AATGGCTGTT 
ACACTTGCCC AGTCATTAGC CCATAATATT GGTATTATCT CAGACAAAAG AAAGTTAGCA 
AGTGGTGAAT GTAAATGCGA GGACACGTGG TCCGGGTGCA TAATGGGAGA CACTGGCTAT 
TATCTTCCTA AAAAGTTCAC CCAGTGTAAT ATTGAAGAGT ATCATGACTT CCTGAATAGT 
GGAGGTGGTG CCTGCCTTTT CAACAAACCT TCTAAGCTTC TTGATCCTCC TGAGTGTGGC 
AATGGCTTCA TTGAAACTGG AGAGGAGTGT GATTGTGGAA CCCCGGCCGA ATGTGTCCTT 
GAAGGAGCAG AGTGTTGTAA GAAATGCACC TTGACTCAAG ACTCTCAATG CAGTGACGGT 
CTTTGCTGTA AAAAGTGCAA GTTTCAGCCT ATGGGCACTG TGTGCCGAGA AGCAGTAAAT 
GATTGTGATA TTCGTGAAAC GTGCTCAGGA AATTCAAGCC AGTGTGCCCC TAATATTCAT 
AAAATGGATG GATATTCATG TGATGGTGTT CAGGGAATTT GCTTTGGAGG AAGATGCAAA 
ACCAGAGATA GACAATGCAA ATACATTTGG GGGCAAAAGG TGACAGCATC AGACAAATAT 
TGCTATGAGA AACTGAATAT TGAAGGGACG GAGAAGGGTA ACTGTGGGAA AGACAAAGAC 
ACATGGATAC AGTGCAACAA ACGGGATGTG CTTTGTGGTT ACCTTTTGTG TACCAATATT 
GGCAATATCC CAAGGCTTGG AGAACTCGAT GGTGAAATCA CATCTACTTT AGTTGTGCAG 
CAAGGAAGAA CATTAAACTG CAGTGGTGGG CATGTTAAGC TTGAAGAAGA TGTAGATCTT 
GGCTATGTGG AAGATGGGAC ACCTTGTGGT CCCCAAATGA TGTGCTTAGA ACACAGGTGT 
CTTCCTGTGG CTTCTTTCAA CTTTAGTACT TGCTTGAGCA GTAAAGAAGG CACTATTTGC 
TCAGGAAATG GAGTTTGCAG TAATGAGCTG AAGTGTGTGT GTAACAGACA CTGGATAGGT 
TCTGATTGCA ACACTTACTT CCCTCACAAT GATGATGCAA AGACTGGTAT CACTCTGTCT 
GGCAATGGTG TTGCTGGCAC CAATATCATA ATAGGCATAA TTGCTGGCAC CATTTTAGTG 
CTGGCCCTCA TATTAGGAAT AACTGCGTGG GGTTATAAAA ACTATCGAGA ACAGAGACAG 
TTACCCCAGG GAGATTATGT AAAAAAGCCT GGAGATGGTG ACTCTTTTTA TAGCGACATT 
CCTCCCGGAG TCAGCACAAA CTCAGCATCT AGTTCTAAGA AGAGGTCAAA TGGGCTCTCT 
CATTCTTGGA GTGAAAGGAT TCCAGACACA AAACATATTT CAGACATCTG TGAAAATGGG 
CGACCTCGAA GTAACTCTTG GCAAGGTAAC CTGGGAGGCA ACAAAAAGAA AATCAGAGGC 
AAAAGATTTA GACCTCGGTC TAATTCAACT GAGTATTTAA ACCCATGGTT CAAAAGAGAC 
TATAATGTAG CTAAGTGGGT AGAAGATGTG AATAAAAACA CTGAAGGACC ATACTTTAGG 
ACTTTATCTC CTGCCAAGTC TCCTTCTTCA TCAACTGGGT CTATTGCCTC CAGCAGAAAA 
TACCCTTACC CAATGCCTCC ACTTCCTGAT GAGGACAAGA AAGTGAACCG ACAAAGTGCC 
AGGCTATGGG AGACATCCAT TTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_011516321.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011514623.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X5, mRNA.

Price & Availability↑

CloneID	OHu68205
Clone ID Related Accession (Same CDS sequence)	XM_011516321.3 , XM_011516321.2
Accession Version	XM_011516321.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2964bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-06-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X5
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011516321.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGGAGAA TGGGAAAGGG GTGCCCTGCT TCTGGGCCCC GCTCCTGGTT GCTCTCGGAT 
GAGCTGGTCC AAGGCTCTCG GGCTGGTGTC TCTGCGTCCT TCCCAGTTGG GTTCCGAGAG 
GGAGGGGGCG GTGGGGATTT TCGTAGGGGA GACGTAGGAC TGCAGGATGG AGGAGTGAGG 
GTCAGGGTCA TTATTTTCGC CTTTTCTCTC CACTCCCTCC TTTCCCGGTT CCTGCCTGGA 
GGAGACGCCT CATTGATGGA GCTAGAGAAG AGGAAGGAAA ACCGCTTCGT GGAGCGCCAG 
AGCATCGTGC CACTGCGCCT CATCTACCGC TCGGGCGGCG AAGACGAAAG TCGGCACGAC 
GCGCTCGACA CGCGGGTGCG GGGCGACCTC GGTGGCCCGC AGTTGACTCA TGTTGACCAA 
GCAAGCTTCC AGGTTGATGC CTTTGGAACG TCATTCATTC TCGATGTCGT GCTAAATCAT 
GATTTGCTGT CCTCTGAATA CATAGAGAGA CACATTGAAC ATGGAGGCAA GACTGTGGAA 
GTTAAAGGAG GAGAGCACTG TTACTACCAG GGCCATATCC GAGGAAACCC TGACTCATTT 
GTTGCATTGT CAACATGCCA CGGACTTCAT GGGATGTTCT ATGACGGGAA CCACACATAT 
CTCATTGAGC CAGAAGAAAA TGACACTACT CAAGAGGATT TCCATTTTCA TTCAGTTTAC 
AAATCCAGAC TGTTTGAATT TTCCTTGGAT GATCTTCCAT CTGAATTTCA GCAAGTAAAC 
ATTACTCCAT CAAAATTTAT TTTGAAGCCA AGACCAAAAA GGAGTAAACG GCAGCTTCGT 
CGATATCCTC GTAATGTAGA AGAAGAAACC AAATACATTG AACTGATGAT TGTGAATGAT 
CACCTTATGT TTAAAAAACA TCGGCTTTCC GTTGTACATA CCAATACCTA TGCGAAATCT 
GTGGTGAACA TGGCAGATTT AATATATAAA GACCAACTTA AGACCAGGAT AGTATTGGTT 
GCTATGGAAA CCTGGGCGAC TGACAACAAG TTTGCCATAT CTGAAAATCC ATTGATCACC 
CTACGTGAGT TTATGAAATA CAGGAGGGAT TTTATCAAAG AGAAAAGTGA TGCAGTTCAC 
CTTTTTTCGG GAAGTCAATT TGAGAGTAGC CGGAGCGGGG CAGCTTATAT TGGTGGGATT 
TGCTCGTTGC TGAAAGGAGG AGGCGTGAAT GAATTTGGGA AAACTGATTT AATGGCTGTT 
ACACTTGCCC AGTCATTAGC CCATAATATT GGTATTATCT CAGACAAAAG AAAGTTAGCA 
AGTGGTGAAT GTAAATGCGA GGACACGTGG TCCGGGTGCA TAATGGGAGA CACTGGCTAT 
TATCTTCCTA AAAAGTTCAC CCAGTGTAAT ATTGAAGAGT ATCATGACTT CCTGAATAGT 
GGAGGTGGTG CCTGCCTTTT CAACAAACCT TCTAAGCTTC TTGATCCTCC TGAGTGTGGC 
AATGGCTTCA TTGAAACTGG AGAGGAGTGT GATTGTGGAA CCCCGGCCGA ATGTGTCCTT 
GAAGGAGCAG AGTGTTGTAA GAAATGCACC TTGACTCAAG ACTCTCAATG CAGTGACGGT 
CTTTGCTGTA AAAAGTGCAA GTTTCAGCCT ATGGGCACTG TGTGCCGAGA AGCAGTAAAT 
GATTGTGATA TTCGTGAAAC GTGCTCAGGA AATTCAAGCC AGTGTGCCCC TAATATTCAT 
AAAATGGATG GATATTCATG TGATGGTGTT CAGGGAATTT GCTTTGGAGG AAGATGCAAA 
ACCAGAGATA GACAATGCAA ATACATTTGG GGGCAAAAGG TGACAGCATC AGACAAATAT 
TGCTATGAGA AACTGAATAT TGAAGGGACG GAGAAGGGTA ACTGTGGGAA AGACAAAGAC 
ACATGGATAC AGTGCAACAA ACGGGATGTG CTTTGTGGTT ACCTTTTGTG TACCAATATT 
GGCAATATCC CAAGGCTTGG AGAACTCGAT GGTGAAATCA CATCTACTTT AGTTGTGCAG 
CAAGGAAGAA CATTAAACTG CAGTGGTGGG CATGTTAAGC TTGAAGAAGA TGTAGATCTT 
GGCTATGTGG AAGATGGGAC ACCTTGTGGT CCCCAAATGA TGTGCTTAGA ACACAGGTGT 
CTTCCTGTGG CTTCTTTCAA CTTTAGTACT TGCTTGAGCA GTAAAGAAGG CACTATTTGC 
TCAGGAAATG GAGTTTGCAG TAATGAGCTG AAGTGTGTGT GTAACAGACA CTGGATAGGT 
TCTGATTGCA ACACTTACTT CCCTCACAAT GATGATGCAA AGACTGGTAT CACTCTGTCT 
GGCAATGGTG TTGCTGGCAC CAATATCATA ATAGGCATAA TTGCTGGCAC CATTTTAGTG 
CTGGCCCTCA TATTAGGAAT AACTGCGTGG GGTTATAAAA ACTATCGAGA ACAGAGACAG 
TTACCCCAGG GAGATTATGT AAAAAAGCCT GGAGATGGTG ACTCTTTTTA TAGCGACATT 
CCTCCCGGAG TCAGCACAAA CTCAGCATCT AGTTCTAAGA AGAGGTCAAA TGGGCTCTCT 
CATTCTTGGA GTGAAAGGAT TCCAGACACA AAACATATTT CAGACATCTG TGAAAATGGG 
CGACCTCGAA GTAACTCTTG GCAAGGTAAC CTGGGAGGCA ACAAAAAGAA AATCAGAGGC 
AAAAGATTTA GACCTCGGTC TAATTCAACT GAGTATTTAA ACCCATGGTT CAAAAGAGAC 
TATAATGTAG CTAAGTGGGT AGAAGATGTG AATAAAAACA CTGAAGGACC ATACTTTAGG 
ACTTTATCTC CTGCCAAGTC TCCTTCTTCA TCAACTGGGT CTATTGCCTC CAGCAGAAAA 
TACCCTTACC CAATGCCTCC ACTTCCTGAT GAGGACAAGA AAGTGAACCG ACAAAGTGCC 
AGGCTATGGG AGACATCCAT TTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_011514623.1
CDS	16..2979
Translation	MGRMGKGCPASGPRSWLLSDELVQGSRAGVSASFPVGFREGGGGGDFRRGDVGLQDGGVRVRVIIFAFSLHSLLSRFLPGGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRQLPQGDYVKKPGDGDSFYSDIPPGVSTNSASSSKKRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTEYLNPWFKRDYNVAKWVEDVNKNTEGPYFRTLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_011516321.2
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X5, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_011516321.2

ORF Insert Sequence:

ATGGGGAGAA TGGGAAAGGG GTGCCCTGCT TCTGGGCCCC GCTCCTGGTT GCTCTCGGAT 
GAGCTGGTCC AAGGCTCTCG GGCTGGTGTC TCTGCGTCCT TCCCAGTTGG GTTCCGAGAG 
GGAGGGGGCG GTGGGGATTT TCGTAGGGGA GACGTAGGAC TGCAGGATGG AGGAGTGAGG 
GTCAGGGTCA TTATTTTCGC CTTTTCTCTC CACTCCCTCC TTTCCCGGTT CCTGCCTGGA 
GGAGACGCCT CATTGATGGA GCTAGAGAAG AGGAAGGAAA ACCGCTTCGT GGAGCGCCAG 
AGCATCGTGC CACTGCGCCT CATCTACCGC TCGGGCGGCG AAGACGAAAG TCGGCACGAC 
GCGCTCGACA CGCGGGTGCG GGGCGACCTC GGTGGCCCGC AGTTGACTCA TGTTGACCAA 
GCAAGCTTCC AGGTTGATGC CTTTGGAACG TCATTCATTC TCGATGTCGT GCTAAATCAT 
GATTTGCTGT CCTCTGAATA CATAGAGAGA CACATTGAAC ATGGAGGCAA GACTGTGGAA 
GTTAAAGGAG GAGAGCACTG TTACTACCAG GGCCATATCC GAGGAAACCC TGACTCATTT 
GTTGCATTGT CAACATGCCA CGGACTTCAT GGGATGTTCT ATGACGGGAA CCACACATAT 
CTCATTGAGC CAGAAGAAAA TGACACTACT CAAGAGGATT TCCATTTTCA TTCAGTTTAC 
AAATCCAGAC TGTTTGAATT TTCCTTGGAT GATCTTCCAT CTGAATTTCA GCAAGTAAAC 
ATTACTCCAT CAAAATTTAT TTTGAAGCCA AGACCAAAAA GGAGTAAACG GCAGCTTCGT 
CGATATCCTC GTAATGTAGA AGAAGAAACC AAATACATTG AACTGATGAT TGTGAATGAT 
CACCTTATGT TTAAAAAACA TCGGCTTTCC GTTGTACATA CCAATACCTA TGCGAAATCT 
GTGGTGAACA TGGCAGATTT AATATATAAA GACCAACTTA AGACCAGGAT AGTATTGGTT 
GCTATGGAAA CCTGGGCGAC TGACAACAAG TTTGCCATAT CTGAAAATCC ATTGATCACC 
CTACGTGAGT TTATGAAATA CAGGAGGGAT TTTATCAAAG AGAAAAGTGA TGCAGTTCAC 
CTTTTTTCGG GAAGTCAATT TGAGAGTAGC CGGAGCGGGG CAGCTTATAT TGGTGGGATT 
TGCTCGTTGC TGAAAGGAGG AGGCGTGAAT GAATTTGGGA AAACTGATTT AATGGCTGTT 
ACACTTGCCC AGTCATTAGC CCATAATATT GGTATTATCT CAGACAAAAG AAAGTTAGCA 
AGTGGTGAAT GTAAATGCGA GGACACGTGG TCCGGGTGCA TAATGGGAGA CACTGGCTAT 
TATCTTCCTA AAAAGTTCAC CCAGTGTAAT ATTGAAGAGT ATCATGACTT CCTGAATAGT 
GGAGGTGGTG CCTGCCTTTT CAACAAACCT TCTAAGCTTC TTGATCCTCC TGAGTGTGGC 
AATGGCTTCA TTGAAACTGG AGAGGAGTGT GATTGTGGAA CCCCGGCCGA ATGTGTCCTT 
GAAGGAGCAG AGTGTTGTAA GAAATGCACC TTGACTCAAG ACTCTCAATG CAGTGACGGT 
CTTTGCTGTA AAAAGTGCAA GTTTCAGCCT ATGGGCACTG TGTGCCGAGA AGCAGTAAAT 
GATTGTGATA TTCGTGAAAC GTGCTCAGGA AATTCAAGCC AGTGTGCCCC TAATATTCAT 
AAAATGGATG GATATTCATG TGATGGTGTT CAGGGAATTT GCTTTGGAGG AAGATGCAAA 
ACCAGAGATA GACAATGCAA ATACATTTGG GGGCAAAAGG TGACAGCATC AGACAAATAT 
TGCTATGAGA AACTGAATAT TGAAGGGACG GAGAAGGGTA ACTGTGGGAA AGACAAAGAC 
ACATGGATAC AGTGCAACAA ACGGGATGTG CTTTGTGGTT ACCTTTTGTG TACCAATATT 
GGCAATATCC CAAGGCTTGG AGAACTCGAT GGTGAAATCA CATCTACTTT AGTTGTGCAG 
CAAGGAAGAA CATTAAACTG CAGTGGTGGG CATGTTAAGC TTGAAGAAGA TGTAGATCTT 
GGCTATGTGG AAGATGGGAC ACCTTGTGGT CCCCAAATGA TGTGCTTAGA ACACAGGTGT 
CTTCCTGTGG CTTCTTTCAA CTTTAGTACT TGCTTGAGCA GTAAAGAAGG CACTATTTGC 
TCAGGAAATG GAGTTTGCAG TAATGAGCTG AAGTGTGTGT GTAACAGACA CTGGATAGGT 
TCTGATTGCA ACACTTACTT CCCTCACAAT GATGATGCAA AGACTGGTAT CACTCTGTCT 
GGCAATGGTG TTGCTGGCAC CAATATCATA ATAGGCATAA TTGCTGGCAC CATTTTAGTG 
CTGGCCCTCA TATTAGGAAT AACTGCGTGG GGTTATAAAA ACTATCGAGA ACAGAGACAG 
TTACCCCAGG GAGATTATGT AAAAAAGCCT GGAGATGGTG ACTCTTTTTA TAGCGACATT 
CCTCCCGGAG TCAGCACAAA CTCAGCATCT AGTTCTAAGA AGAGGTCAAA TGGGCTCTCT 
CATTCTTGGA GTGAAAGGAT TCCAGACACA AAACATATTT CAGACATCTG TGAAAATGGG 
CGACCTCGAA GTAACTCTTG GCAAGGTAAC CTGGGAGGCA ACAAAAAGAA AATCAGAGGC 
AAAAGATTTA GACCTCGGTC TAATTCAACT GAGTATTTAA ACCCATGGTT CAAAAGAGAC 
TATAATGTAG CTAAGTGGGT AGAAGATGTG AATAAAAACA CTGAAGGACC ATACTTTAGG 
ACTTTATCTC CTGCCAAGTC TCCTTCTTCA TCAACTGGGT CTATTGCCTC CAGCAGAAAA 
TACCCTTACC CAATGCCTCC ACTTCCTGAT GAGGACAAGA AAGTGAACCG ACAAAGTGCC 
AGGCTATGGG AGACATCCAT TTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_011516322.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011514624.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X7, mRNA.

Price & Availability↑

CloneID	OHu68206
Clone ID Related Accession (Same CDS sequence)	XM_011516322.2 , XM_011516322.1
Accession Version	XM_011516322.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2919bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X7
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011516322.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG ACAGTTACCC CAGGGAGATT ATGTAAAAAA GCCTGGAGAT 
GGTGACTCTT TTTATAGCGA CATTCCTCCC GGAGTCAGCA CAAACTCAGC ATCTAGTTCT 
AAGAAGAGGT CAAATGGGCT CTCTCATTCT TGGAGTGAAA GGATTCCAGA CACAAAACAT 
ATTTCAGACA TCTGTGAAAA TGGGCGACCT CGAAGTAACT CTTGGCAAGG TAACCTGGGA 
GGCAACAAAA AGAAAATCAG AGGCAAAAGA TTTAGACCTC GGTCTAATTC AACTGAGAGG 
GAGCCCCAAG CACCTGAGCC TGGGCACTCC CTCGCCCAGA CAGTCCCATC CCAAGGCATA 
AGCCCAGGGG GCTCTGACAG CCCCCAGACA GGGAGTCTGG ATCACAGGTA TTTAAACCCA 
TGGTTCAAAA GAGACTATAA TGTAGCTAAG TGGGTAGAAG ATGTGAATAA AAACACTGAA 
GGACCATACT TTAGGACTTT ATCTCCTGCC AAGTCTCCTT CTTCATCAAC TGGGTCTATT 
GCCTCCAGCA GAAAATACCC TTACCCAATG CCTCCACTTC CTGATGAGGA CAAGAAAGTG 
AACCGACAAA GTGCCAGGCT ATGGGAGACA TCCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_011514624.1
CDS	216..3134
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQAGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRQLPQGDYVKKPGDGDSFYSDIPPGVSTNSASSSKKRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTEREPQAPEPGHSLAQTVPSQGISPGGSDSPQTGSLDHRYLNPWFKRDYNVAKWVEDVNKNTEGPYFRTLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_011516322.2
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X7, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_011516322.2

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG ACAGTTACCC CAGGGAGATT ATGTAAAAAA GCCTGGAGAT 
GGTGACTCTT TTTATAGCGA CATTCCTCCC GGAGTCAGCA CAAACTCAGC ATCTAGTTCT 
AAGAAGAGGT CAAATGGGCT CTCTCATTCT TGGAGTGAAA GGATTCCAGA CACAAAACAT 
ATTTCAGACA TCTGTGAAAA TGGGCGACCT CGAAGTAACT CTTGGCAAGG TAACCTGGGA 
GGCAACAAAA AGAAAATCAG AGGCAAAAGA TTTAGACCTC GGTCTAATTC AACTGAGAGG 
GAGCCCCAAG CACCTGAGCC TGGGCACTCC CTCGCCCAGA CAGTCCCATC CCAAGGCATA 
AGCCCAGGGG GCTCTGACAG CCCCCAGACA GGGAGTCTGG ATCACAGGTA TTTAAACCCA 
TGGTTCAAAA GAGACTATAA TGTAGCTAAG TGGGTAGAAG ATGTGAATAA AAACACTGAA 
GGACCATACT TTAGGACTTT ATCTCCTGCC AAGTCTCCTT CTTCATCAAC TGGGTCTATT 
GCCTCCAGCA GAAAATACCC TTACCCAATG CCTCCACTTC CTGATGAGGA CAAGAAAGTG 
AACCGACAAA GTGCCAGGCT ATGGGAGACA TCCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_011516322.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011514624.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X7, mRNA.

Price & Availability↑

CloneID	OHu68206
Clone ID Related Accession (Same CDS sequence)	XM_011516322.2 , XM_011516322.1
Accession Version	XM_011516322.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2919bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-06-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X7
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG ACAGTTACCC CAGGGAGATT ATGTAAAAAA GCCTGGAGAT 
GGTGACTCTT TTTATAGCGA CATTCCTCCC GGAGTCAGCA CAAACTCAGC ATCTAGTTCT 
AAGAAGAGGT CAAATGGGCT CTCTCATTCT TGGAGTGAAA GGATTCCAGA CACAAAACAT 
ATTTCAGACA TCTGTGAAAA TGGGCGACCT CGAAGTAACT CTTGGCAAGG TAACCTGGGA 
GGCAACAAAA AGAAAATCAG AGGCAAAAGA TTTAGACCTC GGTCTAATTC AACTGAGAGG 
GAGCCCCAAG CACCTGAGCC TGGGCACTCC CTCGCCCAGA CAGTCCCATC CCAAGGCATA 
AGCCCAGGGG GCTCTGACAG CCCCCAGACA GGGAGTCTGG ATCACAGGTA TTTAAACCCA 
TGGTTCAAAA GAGACTATAA TGTAGCTAAG TGGGTAGAAG ATGTGAATAA AAACACTGAA 
GGACCATACT TTAGGACTTT ATCTCCTGCC AAGTCTCCTT CTTCATCAAC TGGGTCTATT 
GCCTCCAGCA GAAAATACCC TTACCCAATG CCTCCACTTC CTGATGAGGA CAAGAAAGTG 
AACCGACAAA GTGCCAGGCT ATGGGAGACA TCCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_011514624.1
CDS	216..3134
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQAGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRQLPQGDYVKKPGDGDSFYSDIPPGVSTNSASSSKKRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTEREPQAPEPGHSLAQTVPSQGISPGGSDSPQTGSLDHRYLNPWFKRDYNVAKWVEDVNKNTEGPYFRTLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_011516322.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X7, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_011516322.1

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG ACAGTTACCC CAGGGAGATT ATGTAAAAAA GCCTGGAGAT 
GGTGACTCTT TTTATAGCGA CATTCCTCCC GGAGTCAGCA CAAACTCAGC ATCTAGTTCT 
AAGAAGAGGT CAAATGGGCT CTCTCATTCT TGGAGTGAAA GGATTCCAGA CACAAAACAT 
ATTTCAGACA TCTGTGAAAA TGGGCGACCT CGAAGTAACT CTTGGCAAGG TAACCTGGGA 
GGCAACAAAA AGAAAATCAG AGGCAAAAGA TTTAGACCTC GGTCTAATTC AACTGAGAGG 
GAGCCCCAAG CACCTGAGCC TGGGCACTCC CTCGCCCAGA CAGTCCCATC CCAAGGCATA 
AGCCCAGGGG GCTCTGACAG CCCCCAGACA GGGAGTCTGG ATCACAGGTA TTTAAACCCA 
TGGTTCAAAA GAGACTATAA TGTAGCTAAG TGGGTAGAAG ATGTGAATAA AAACACTGAA 
GGACCATACT TTAGGACTTT ATCTCCTGCC AAGTCTCCTT CTTCATCAAC TGGGTCTATT 
GCCTCCAGCA GAAAATACCC TTACCCAATG CCTCCACTTC CTGATGAGGA CAAGAAAGTG 
AACCGACAAA GTGCCAGGCT ATGGGAGACA TCCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_011516323.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011514625.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X11, mRNA.

Price & Availability↑

CloneID	OHu68207
Clone ID Related Accession (Same CDS sequence)	XM_011516323.2 , XM_011516323.1
Accession Version	XM_011516323.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2811bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X11
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011516323.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG GTCAAATGGG CTCTCTCATT CTTGGAGTGA AAGGATTCCA 
GACACAAAAC ATATTTCAGA CATCTGTGAA AATGGGCGAC CTCGAAGTAA CTCTTGGCAA 
GGTAACCTGG GAGGCAACAA AAAGAAAATC AGAGGCAAAA GATTTAGACC TCGGTCTAAT 
TCAACTGAGA GGGAGCCCCA AGCACCTGAG CCTGGGCACT CCCTCGCCCA GACAGTCCCA 
TCCCAAGGCA TAAGCCCAGG GGGCTCTGAC AGCCCCCAGA CAGGGAGTCT GGATCACAGG 
TATTTAAACC CATGGTTCAA AAGAGACTAT AATGTAGCTA AGTGGGTAGA AGATGTGAAT 
AAAAACACTG AAGGACCATA CTTTAGGACT TTATCTCCTG CCAAGTCTCC TTCTTCATCA 
ACTGGGTCTA TTGCCTCCAG CAGAAAATAC CCTTACCCAA TGCCTCCACT TCCTGATGAG 
GACAAGAAAG TGAACCGACA AAGTGCCAGG CTATGGGAGA CATCCATTTA A

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_011514625.1
CDS	216..3026
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQAGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTEREPQAPEPGHSLAQTVPSQGISPGGSDSPQTGSLDHRYLNPWFKRDYNVAKWVEDVNKNTEGPYFRTLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_011516323.2
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X11, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_011516323.2

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG GTCAAATGGG CTCTCTCATT CTTGGAGTGA AAGGATTCCA 
GACACAAAAC ATATTTCAGA CATCTGTGAA AATGGGCGAC CTCGAAGTAA CTCTTGGCAA 
GGTAACCTGG GAGGCAACAA AAAGAAAATC AGAGGCAAAA GATTTAGACC TCGGTCTAAT 
TCAACTGAGA GGGAGCCCCA AGCACCTGAG CCTGGGCACT CCCTCGCCCA GACAGTCCCA 
TCCCAAGGCA TAAGCCCAGG GGGCTCTGAC AGCCCCCAGA CAGGGAGTCT GGATCACAGG 
TATTTAAACC CATGGTTCAA AAGAGACTAT AATGTAGCTA AGTGGGTAGA AGATGTGAAT 
AAAAACACTG AAGGACCATA CTTTAGGACT TTATCTCCTG CCAAGTCTCC TTCTTCATCA 
ACTGGGTCTA TTGCCTCCAG CAGAAAATAC CCTTACCCAA TGCCTCCACT TCCTGATGAG 
GACAAGAAAG TGAACCGACA AAGTGCCAGG CTATGGGAGA CATCCATTTA A

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_011516323.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011514625.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X11, mRNA.

Price & Availability↑

CloneID	OHu68207
Clone ID Related Accession (Same CDS sequence)	XM_011516323.2 , XM_011516323.1
Accession Version	XM_011516323.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2811bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-06-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X11
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG GTCAAATGGG CTCTCTCATT CTTGGAGTGA AAGGATTCCA 
GACACAAAAC ATATTTCAGA CATCTGTGAA AATGGGCGAC CTCGAAGTAA CTCTTGGCAA 
GGTAACCTGG GAGGCAACAA AAAGAAAATC AGAGGCAAAA GATTTAGACC TCGGTCTAAT 
TCAACTGAGA GGGAGCCCCA AGCACCTGAG CCTGGGCACT CCCTCGCCCA GACAGTCCCA 
TCCCAAGGCA TAAGCCCAGG GGGCTCTGAC AGCCCCCAGA CAGGGAGTCT GGATCACAGG 
TATTTAAACC CATGGTTCAA AAGAGACTAT AATGTAGCTA AGTGGGTAGA AGATGTGAAT 
AAAAACACTG AAGGACCATA CTTTAGGACT TTATCTCCTG CCAAGTCTCC TTCTTCATCA 
ACTGGGTCTA TTGCCTCCAG CAGAAAATAC CCTTACCCAA TGCCTCCACT TCCTGATGAG 
GACAAGAAAG TGAACCGACA AAGTGCCAGG CTATGGGAGA CATCCATTTA A

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_011514625.1
CDS	216..3026
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQAGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTEREPQAPEPGHSLAQTVPSQGISPGGSDSPQTGSLDHRYLNPWFKRDYNVAKWVEDVNKNTEGPYFRTLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_011516323.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X11, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_011516323.1

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG GTCAAATGGG CTCTCTCATT CTTGGAGTGA AAGGATTCCA 
GACACAAAAC ATATTTCAGA CATCTGTGAA AATGGGCGAC CTCGAAGTAA CTCTTGGCAA 
GGTAACCTGG GAGGCAACAA AAAGAAAATC AGAGGCAAAA GATTTAGACC TCGGTCTAAT 
TCAACTGAGA GGGAGCCCCA AGCACCTGAG CCTGGGCACT CCCTCGCCCA GACAGTCCCA 
TCCCAAGGCA TAAGCCCAGG GGGCTCTGAC AGCCCCCAGA CAGGGAGTCT GGATCACAGG 
TATTTAAACC CATGGTTCAA AAGAGACTAT AATGTAGCTA AGTGGGTAGA AGATGTGAAT 
AAAAACACTG AAGGACCATA CTTTAGGACT TTATCTCCTG CCAAGTCTCC TTCTTCATCA 
ACTGGGTCTA TTGCCTCCAG CAGAAAATAC CCTTACCCAA TGCCTCCACT TCCTGATGAG 
GACAAGAAAG TGAACCGACA AAGTGCCAGG CTATGGGAGA CATCCATTTA A

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_011516324.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011514626.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X14, mRNA.

Price & Availability↑

CloneID	OHu68208
Clone ID Related Accession (Same CDS sequence)	XM_011516324.2 , XM_011516324.1
Accession Version	XM_011516324.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2784bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X14
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011516324.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGATGAAAA AGGCCTACCA GGAGTTGACT CATGTTGACC AAGCAAGCTT CCAGGTTGAT 
GCCTTTGGAA CGTCATTCAT TCTCGATGTC GTGCTAAATC ATGATTTGCT GTCCTCTGAA 
TACATAGAGA GACACATTGA ACATGGAGGC AAGACTGTGG AAGTTAAAGG AGGAGAGCAC 
TGTTACTACC AGGGCCATAT CCGAGGAAAC CCTGACTCAT TTGTTGCATT GTCAACATGC 
CACGGACTTC ATGGGATGTT CTATGACGGG AACCACACAT ATCTCATTGA GCCAGAAGAA 
AATGACACTA CTCAAGAGGA TTTCCATTTT CATTCAGTTT ACAAATCCAG ACTGTTTGAA 
TTTTCCTTGG ATGATCTTCC ATCTGAATTT CAGCAAGTAA ACATTACTCC ATCAAAATTT 
ATTTTGAAGC CAAGACCAAA AAGGAGTAAA CGGCAGCTTC GTCGATATCC TCGTAATGTA 
GAAGAAGAAA CCAAATACAT TGAACTGATG ATTGTGAATG ATCACCTTAT GTTTAAAAAA 
CATCGGCTTT CCGTTGTACA TACCAATACC TATGCGAAAT CTGTGGTGAA CATGGCAGAT 
TTAATATATA AAGACCAACT TAAGACCAGG ATAGTATTGG TTGCTATGGA AACCTGGGCG 
ACTGACAACA AGTTTGCCAT ATCTGAAAAT CCATTGATCA CCCTACGTGA GTTTATGAAA 
TACAGGAGGG ATTTTATCAA AGAGAAAAGT GATGCAGTTC ACCTTTTTTC GGGAAGTCAA 
TTTGAGAGTA GCCGGAGCGG GGCAGCTTAT ATTGGTGGGA TTTGCTCGTT GCTGAAAGGA 
GGAGGCGTGA ATGAATTTGG GAAAACTGAT TTAATGGCTG TTACACTTGC CCAGTCATTA 
GCCCATAATA TTGGTATTAT CTCAGACAAA AGAAAGTTAG CAAGTGGTGA ATGTAAATGC 
GAGGACACGT GGTCCGGGTG CATAATGGGA GACACTGGCT ATTATCTTCC TAAAAAGTTC 
ACCCAGTGTA ATATTGAAGA GTATCATGAC TTCCTGAATA GTGGAGGTGG TGCCTGCCTT 
TTCAACAAAC CTTCTAAGCT TCTTGATCCT CCTGAGTGTG GCAATGGCTT CATTGAAACT 
GGAGAGGAGT GTGATTGTGG AACCCCGGCC GAATGTGTCC TTGAAGGAGC AGAGTGTTGT 
AAGAAATGCA CCTTGACTCA AGACTCTCAA TGCAGTGACG GTCTTTGCTG TAAAAAGTGC 
AAGTTTCAGC CTATGGGCAC TGTGTGCCGA GAAGCAGTAA ATGATTGTGA TATTCGTGAA 
ACGTGCTCAG GAAATTCAAG CCAGTGTGCC CCTAATATTC ATAAAATGGA TGGATATTCA 
TGTGATGGTG TTCAGGGAAT TTGCTTTGGA GGAAGATGCA AAACCAGAGA TAGACAATGC 
AAATACATTT GGGGGCAAAA GGTGACAGCA TCAGACAAAT ATTGCTATGA GAAACTGAAT 
ATTGAAGGGA CGGAGAAGGG TAACTGTGGG AAAGACAAAG ACACATGGAT ACAGTGCAAC 
AAACGGGATG TGCTTTGTGG TTACCTTTTG TGTACCAATA TTGGCAATAT CCCAAGGCTT 
GGAGAACTCG ATGGTGAAAT CACATCTACT TTAGTTGTGC AGCAAGGAAG AACATTAAAC 
TGCAGTGGTG GGCATGTTAA GCTTGAAGAA GATGTAGATC TTGGCTATGT GGAAGATGGG 
ACACCTTGTG GTCCCCAAAT GATGTGCTTA GAACACAGGT GTCTTCCTGT GGCTTCTTTC 
AACTTTAGTA CTTGCTTGAG CAGTAAAGAA GGCACTATTT GCTCAGGAAA TGGAGTTTGC 
AGTAATGAGC TGAAGTGTGT GTGTAACAGA CACTGGATAG GTTCTGATTG CAACACTTAC 
TTCCCTCACA ATGATGATGC AAAGACTGGT ATCACTCTGT CTGGCAATGG TGTTGCTGGC 
ACCAATATCA TAATAGGCAT AATTGCTGGC ACCATTTTAG TGCTGGCCCT CATATTAGGA 
ATAACTGCGT GGGGTTATAA AAACTATCGA GAACAGAGAC AGTTACCCCA GGGAGATTAT 
GTAAAAAAGC CTGGAGATGG TGACTCTTTT TATAGCGACA TTCCTCCCGG AGTCAGCACA 
AACTCAGCAT CTAGTTCTAA GAAGAGGTCT GCTTTTCTGT CGCATTTTCA GATTTCTACC 
TGTTCCATCA CACATTATTC CATTAGTCAG AACATTTCAT TATTTTGCAG CAGGTCAAAT 
GGGCTCTCTC ATTCTTGGAG TGAAAGGATT CCAGACACAA AACATATTTC AGACATCTGT 
GAAAATGGGC GACCTCGAAG TAACTCTTGG CAAGGTAACC TGGGAGGCAA CAAAAAGAAA 
ATCAGAGGCA AAAGATTTAG ACCTCGGTCT AATTCAACTG AGAGGGAGCC CCAAGCACCT 
GAGCCTGGGC ACTCCCTCGC CCAGACAGTC CCATCCCAAG GCATAAGCCC AGGGGGCTCT 
GACAGCCCCC AGACAGGGAG TCTGGATCAC AGGTATTTAA ACCCATGGTT CAAAAGAGAC 
TATAATGTAG CTAAGTGGGT AGAAGATGTG AATAAAAACA CTGAAGGACC ATACTTTAGG 
ACTTTATCTC CTGCCAAGTC TCCTTCTTCA TCAACTGGGT CTATTGCCTC CAGCAGAAAA 
TACCCTTACC CAATGCCTCC ACTTCCTGAT GAGGACAAGA AAGTGAACCG ACAAAGTGCC 
AGGCTATGGG AGACATCCAT TTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_011514626.1
CDS	110..2893
Translation	MMKKAYQELTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRQLPQGDYVKKPGDGDSFYSDIPPGVSTNSASSSKKRSAFLSHFQISTCSITHYSISQNISLFCSRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTEREPQAPEPGHSLAQTVPSQGISPGGSDSPQTGSLDHRYLNPWFKRDYNVAKWVEDVNKNTEGPYFRTLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_011516324.2
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X14, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_011516324.2

ORF Insert Sequence:

ATGATGAAAA AGGCCTACCA GGAGTTGACT CATGTTGACC AAGCAAGCTT CCAGGTTGAT 
GCCTTTGGAA CGTCATTCAT TCTCGATGTC GTGCTAAATC ATGATTTGCT GTCCTCTGAA 
TACATAGAGA GACACATTGA ACATGGAGGC AAGACTGTGG AAGTTAAAGG AGGAGAGCAC 
TGTTACTACC AGGGCCATAT CCGAGGAAAC CCTGACTCAT TTGTTGCATT GTCAACATGC 
CACGGACTTC ATGGGATGTT CTATGACGGG AACCACACAT ATCTCATTGA GCCAGAAGAA 
AATGACACTA CTCAAGAGGA TTTCCATTTT CATTCAGTTT ACAAATCCAG ACTGTTTGAA 
TTTTCCTTGG ATGATCTTCC ATCTGAATTT CAGCAAGTAA ACATTACTCC ATCAAAATTT 
ATTTTGAAGC CAAGACCAAA AAGGAGTAAA CGGCAGCTTC GTCGATATCC TCGTAATGTA 
GAAGAAGAAA CCAAATACAT TGAACTGATG ATTGTGAATG ATCACCTTAT GTTTAAAAAA 
CATCGGCTTT CCGTTGTACA TACCAATACC TATGCGAAAT CTGTGGTGAA CATGGCAGAT 
TTAATATATA AAGACCAACT TAAGACCAGG ATAGTATTGG TTGCTATGGA AACCTGGGCG 
ACTGACAACA AGTTTGCCAT ATCTGAAAAT CCATTGATCA CCCTACGTGA GTTTATGAAA 
TACAGGAGGG ATTTTATCAA AGAGAAAAGT GATGCAGTTC ACCTTTTTTC GGGAAGTCAA 
TTTGAGAGTA GCCGGAGCGG GGCAGCTTAT ATTGGTGGGA TTTGCTCGTT GCTGAAAGGA 
GGAGGCGTGA ATGAATTTGG GAAAACTGAT TTAATGGCTG TTACACTTGC CCAGTCATTA 
GCCCATAATA TTGGTATTAT CTCAGACAAA AGAAAGTTAG CAAGTGGTGA ATGTAAATGC 
GAGGACACGT GGTCCGGGTG CATAATGGGA GACACTGGCT ATTATCTTCC TAAAAAGTTC 
ACCCAGTGTA ATATTGAAGA GTATCATGAC TTCCTGAATA GTGGAGGTGG TGCCTGCCTT 
TTCAACAAAC CTTCTAAGCT TCTTGATCCT CCTGAGTGTG GCAATGGCTT CATTGAAACT 
GGAGAGGAGT GTGATTGTGG AACCCCGGCC GAATGTGTCC TTGAAGGAGC AGAGTGTTGT 
AAGAAATGCA CCTTGACTCA AGACTCTCAA TGCAGTGACG GTCTTTGCTG TAAAAAGTGC 
AAGTTTCAGC CTATGGGCAC TGTGTGCCGA GAAGCAGTAA ATGATTGTGA TATTCGTGAA 
ACGTGCTCAG GAAATTCAAG CCAGTGTGCC CCTAATATTC ATAAAATGGA TGGATATTCA 
TGTGATGGTG TTCAGGGAAT TTGCTTTGGA GGAAGATGCA AAACCAGAGA TAGACAATGC 
AAATACATTT GGGGGCAAAA GGTGACAGCA TCAGACAAAT ATTGCTATGA GAAACTGAAT 
ATTGAAGGGA CGGAGAAGGG TAACTGTGGG AAAGACAAAG ACACATGGAT ACAGTGCAAC 
AAACGGGATG TGCTTTGTGG TTACCTTTTG TGTACCAATA TTGGCAATAT CCCAAGGCTT 
GGAGAACTCG ATGGTGAAAT CACATCTACT TTAGTTGTGC AGCAAGGAAG AACATTAAAC 
TGCAGTGGTG GGCATGTTAA GCTTGAAGAA GATGTAGATC TTGGCTATGT GGAAGATGGG 
ACACCTTGTG GTCCCCAAAT GATGTGCTTA GAACACAGGT GTCTTCCTGT GGCTTCTTTC 
AACTTTAGTA CTTGCTTGAG CAGTAAAGAA GGCACTATTT GCTCAGGAAA TGGAGTTTGC 
AGTAATGAGC TGAAGTGTGT GTGTAACAGA CACTGGATAG GTTCTGATTG CAACACTTAC 
TTCCCTCACA ATGATGATGC AAAGACTGGT ATCACTCTGT CTGGCAATGG TGTTGCTGGC 
ACCAATATCA TAATAGGCAT AATTGCTGGC ACCATTTTAG TGCTGGCCCT CATATTAGGA 
ATAACTGCGT GGGGTTATAA AAACTATCGA GAACAGAGAC AGTTACCCCA GGGAGATTAT 
GTAAAAAAGC CTGGAGATGG TGACTCTTTT TATAGCGACA TTCCTCCCGG AGTCAGCACA 
AACTCAGCAT CTAGTTCTAA GAAGAGGTCT GCTTTTCTGT CGCATTTTCA GATTTCTACC 
TGTTCCATCA CACATTATTC CATTAGTCAG AACATTTCAT TATTTTGCAG CAGGTCAAAT 
GGGCTCTCTC ATTCTTGGAG TGAAAGGATT CCAGACACAA AACATATTTC AGACATCTGT 
GAAAATGGGC GACCTCGAAG TAACTCTTGG CAAGGTAACC TGGGAGGCAA CAAAAAGAAA 
ATCAGAGGCA AAAGATTTAG ACCTCGGTCT AATTCAACTG AGAGGGAGCC CCAAGCACCT 
GAGCCTGGGC ACTCCCTCGC CCAGACAGTC CCATCCCAAG GCATAAGCCC AGGGGGCTCT 
GACAGCCCCC AGACAGGGAG TCTGGATCAC AGGTATTTAA ACCCATGGTT CAAAAGAGAC 
TATAATGTAG CTAAGTGGGT AGAAGATGTG AATAAAAACA CTGAAGGACC ATACTTTAGG 
ACTTTATCTC CTGCCAAGTC TCCTTCTTCA TCAACTGGGT CTATTGCCTC CAGCAGAAAA 
TACCCTTACC CAATGCCTCC ACTTCCTGAT GAGGACAAGA AAGTGAACCG ACAAAGTGCC 
AGGCTATGGG AGACATCCAT TTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_011516324.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011514626.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X14, mRNA.

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CloneID	OHu68208
Clone ID Related Accession (Same CDS sequence)	XM_011516324.2 , XM_011516324.1
Accession Version	XM_011516324.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2784bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-06-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X14
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGATGAAAA AGGCCTACCA GGAGTTGACT CATGTTGACC AAGCAAGCTT CCAGGTTGAT 
GCCTTTGGAA CGTCATTCAT TCTCGATGTC GTGCTAAATC ATGATTTGCT GTCCTCTGAA 
TACATAGAGA GACACATTGA ACATGGAGGC AAGACTGTGG AAGTTAAAGG AGGAGAGCAC 
TGTTACTACC AGGGCCATAT CCGAGGAAAC CCTGACTCAT TTGTTGCATT GTCAACATGC 
CACGGACTTC ATGGGATGTT CTATGACGGG AACCACACAT ATCTCATTGA GCCAGAAGAA 
AATGACACTA CTCAAGAGGA TTTCCATTTT CATTCAGTTT ACAAATCCAG ACTGTTTGAA 
TTTTCCTTGG ATGATCTTCC ATCTGAATTT CAGCAAGTAA ACATTACTCC ATCAAAATTT 
ATTTTGAAGC CAAGACCAAA AAGGAGTAAA CGGCAGCTTC GTCGATATCC TCGTAATGTA 
GAAGAAGAAA CCAAATACAT TGAACTGATG ATTGTGAATG ATCACCTTAT GTTTAAAAAA 
CATCGGCTTT CCGTTGTACA TACCAATACC TATGCGAAAT CTGTGGTGAA CATGGCAGAT 
TTAATATATA AAGACCAACT TAAGACCAGG ATAGTATTGG TTGCTATGGA AACCTGGGCG 
ACTGACAACA AGTTTGCCAT ATCTGAAAAT CCATTGATCA CCCTACGTGA GTTTATGAAA 
TACAGGAGGG ATTTTATCAA AGAGAAAAGT GATGCAGTTC ACCTTTTTTC GGGAAGTCAA 
TTTGAGAGTA GCCGGAGCGG GGCAGCTTAT ATTGGTGGGA TTTGCTCGTT GCTGAAAGGA 
GGAGGCGTGA ATGAATTTGG GAAAACTGAT TTAATGGCTG TTACACTTGC CCAGTCATTA 
GCCCATAATA TTGGTATTAT CTCAGACAAA AGAAAGTTAG CAAGTGGTGA ATGTAAATGC 
GAGGACACGT GGTCCGGGTG CATAATGGGA GACACTGGCT ATTATCTTCC TAAAAAGTTC 
ACCCAGTGTA ATATTGAAGA GTATCATGAC TTCCTGAATA GTGGAGGTGG TGCCTGCCTT 
TTCAACAAAC CTTCTAAGCT TCTTGATCCT CCTGAGTGTG GCAATGGCTT CATTGAAACT 
GGAGAGGAGT GTGATTGTGG AACCCCGGCC GAATGTGTCC TTGAAGGAGC AGAGTGTTGT 
AAGAAATGCA CCTTGACTCA AGACTCTCAA TGCAGTGACG GTCTTTGCTG TAAAAAGTGC 
AAGTTTCAGC CTATGGGCAC TGTGTGCCGA GAAGCAGTAA ATGATTGTGA TATTCGTGAA 
ACGTGCTCAG GAAATTCAAG CCAGTGTGCC CCTAATATTC ATAAAATGGA TGGATATTCA 
TGTGATGGTG TTCAGGGAAT TTGCTTTGGA GGAAGATGCA AAACCAGAGA TAGACAATGC 
AAATACATTT GGGGGCAAAA GGTGACAGCA TCAGACAAAT ATTGCTATGA GAAACTGAAT 
ATTGAAGGGA CGGAGAAGGG TAACTGTGGG AAAGACAAAG ACACATGGAT ACAGTGCAAC 
AAACGGGATG TGCTTTGTGG TTACCTTTTG TGTACCAATA TTGGCAATAT CCCAAGGCTT 
GGAGAACTCG ATGGTGAAAT CACATCTACT TTAGTTGTGC AGCAAGGAAG AACATTAAAC 
TGCAGTGGTG GGCATGTTAA GCTTGAAGAA GATGTAGATC TTGGCTATGT GGAAGATGGG 
ACACCTTGTG GTCCCCAAAT GATGTGCTTA GAACACAGGT GTCTTCCTGT GGCTTCTTTC 
AACTTTAGTA CTTGCTTGAG CAGTAAAGAA GGCACTATTT GCTCAGGAAA TGGAGTTTGC 
AGTAATGAGC TGAAGTGTGT GTGTAACAGA CACTGGATAG GTTCTGATTG CAACACTTAC 
TTCCCTCACA ATGATGATGC AAAGACTGGT ATCACTCTGT CTGGCAATGG TGTTGCTGGC 
ACCAATATCA TAATAGGCAT AATTGCTGGC ACCATTTTAG TGCTGGCCCT CATATTAGGA 
ATAACTGCGT GGGGTTATAA AAACTATCGA GAACAGAGAC AGTTACCCCA GGGAGATTAT 
GTAAAAAAGC CTGGAGATGG TGACTCTTTT TATAGCGACA TTCCTCCCGG AGTCAGCACA 
AACTCAGCAT CTAGTTCTAA GAAGAGGTCT GCTTTTCTGT CGCATTTTCA GATTTCTACC 
TGTTCCATCA CACATTATTC CATTAGTCAG AACATTTCAT TATTTTGCAG CAGGTCAAAT 
GGGCTCTCTC ATTCTTGGAG TGAAAGGATT CCAGACACAA AACATATTTC AGACATCTGT 
GAAAATGGGC GACCTCGAAG TAACTCTTGG CAAGGTAACC TGGGAGGCAA CAAAAAGAAA 
ATCAGAGGCA AAAGATTTAG ACCTCGGTCT AATTCAACTG AGAGGGAGCC CCAAGCACCT 
GAGCCTGGGC ACTCCCTCGC CCAGACAGTC CCATCCCAAG GCATAAGCCC AGGGGGCTCT 
GACAGCCCCC AGACAGGGAG TCTGGATCAC AGGTATTTAA ACCCATGGTT CAAAAGAGAC 
TATAATGTAG CTAAGTGGGT AGAAGATGTG AATAAAAACA CTGAAGGACC ATACTTTAGG 
ACTTTATCTC CTGCCAAGTC TCCTTCTTCA TCAACTGGGT CTATTGCCTC CAGCAGAAAA 
TACCCTTACC CAATGCCTCC ACTTCCTGAT GAGGACAAGA AAGTGAACCG ACAAAGTGCC 
AGGCTATGGG AGACATCCAT TTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_011514626.1
CDS	110..2893
Translation	MMKKAYQELTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRQLPQGDYVKKPGDGDSFYSDIPPGVSTNSASSSKKRSAFLSHFQISTCSITHYSISQNISLFCSRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTEREPQAPEPGHSLAQTVPSQGISPGGSDSPQTGSLDHRYLNPWFKRDYNVAKWVEDVNKNTEGPYFRTLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_011516324.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X14, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_011516324.1

ORF Insert Sequence:

ATGATGAAAA AGGCCTACCA GGAGTTGACT CATGTTGACC AAGCAAGCTT CCAGGTTGAT 
GCCTTTGGAA CGTCATTCAT TCTCGATGTC GTGCTAAATC ATGATTTGCT GTCCTCTGAA 
TACATAGAGA GACACATTGA ACATGGAGGC AAGACTGTGG AAGTTAAAGG AGGAGAGCAC 
TGTTACTACC AGGGCCATAT CCGAGGAAAC CCTGACTCAT TTGTTGCATT GTCAACATGC 
CACGGACTTC ATGGGATGTT CTATGACGGG AACCACACAT ATCTCATTGA GCCAGAAGAA 
AATGACACTA CTCAAGAGGA TTTCCATTTT CATTCAGTTT ACAAATCCAG ACTGTTTGAA 
TTTTCCTTGG ATGATCTTCC ATCTGAATTT CAGCAAGTAA ACATTACTCC ATCAAAATTT 
ATTTTGAAGC CAAGACCAAA AAGGAGTAAA CGGCAGCTTC GTCGATATCC TCGTAATGTA 
GAAGAAGAAA CCAAATACAT TGAACTGATG ATTGTGAATG ATCACCTTAT GTTTAAAAAA 
CATCGGCTTT CCGTTGTACA TACCAATACC TATGCGAAAT CTGTGGTGAA CATGGCAGAT 
TTAATATATA AAGACCAACT TAAGACCAGG ATAGTATTGG TTGCTATGGA AACCTGGGCG 
ACTGACAACA AGTTTGCCAT ATCTGAAAAT CCATTGATCA CCCTACGTGA GTTTATGAAA 
TACAGGAGGG ATTTTATCAA AGAGAAAAGT GATGCAGTTC ACCTTTTTTC GGGAAGTCAA 
TTTGAGAGTA GCCGGAGCGG GGCAGCTTAT ATTGGTGGGA TTTGCTCGTT GCTGAAAGGA 
GGAGGCGTGA ATGAATTTGG GAAAACTGAT TTAATGGCTG TTACACTTGC CCAGTCATTA 
GCCCATAATA TTGGTATTAT CTCAGACAAA AGAAAGTTAG CAAGTGGTGA ATGTAAATGC 
GAGGACACGT GGTCCGGGTG CATAATGGGA GACACTGGCT ATTATCTTCC TAAAAAGTTC 
ACCCAGTGTA ATATTGAAGA GTATCATGAC TTCCTGAATA GTGGAGGTGG TGCCTGCCTT 
TTCAACAAAC CTTCTAAGCT TCTTGATCCT CCTGAGTGTG GCAATGGCTT CATTGAAACT 
GGAGAGGAGT GTGATTGTGG AACCCCGGCC GAATGTGTCC TTGAAGGAGC AGAGTGTTGT 
AAGAAATGCA CCTTGACTCA AGACTCTCAA TGCAGTGACG GTCTTTGCTG TAAAAAGTGC 
AAGTTTCAGC CTATGGGCAC TGTGTGCCGA GAAGCAGTAA ATGATTGTGA TATTCGTGAA 
ACGTGCTCAG GAAATTCAAG CCAGTGTGCC CCTAATATTC ATAAAATGGA TGGATATTCA 
TGTGATGGTG TTCAGGGAAT TTGCTTTGGA GGAAGATGCA AAACCAGAGA TAGACAATGC 
AAATACATTT GGGGGCAAAA GGTGACAGCA TCAGACAAAT ATTGCTATGA GAAACTGAAT 
ATTGAAGGGA CGGAGAAGGG TAACTGTGGG AAAGACAAAG ACACATGGAT ACAGTGCAAC 
AAACGGGATG TGCTTTGTGG TTACCTTTTG TGTACCAATA TTGGCAATAT CCCAAGGCTT 
GGAGAACTCG ATGGTGAAAT CACATCTACT TTAGTTGTGC AGCAAGGAAG AACATTAAAC 
TGCAGTGGTG GGCATGTTAA GCTTGAAGAA GATGTAGATC TTGGCTATGT GGAAGATGGG 
ACACCTTGTG GTCCCCAAAT GATGTGCTTA GAACACAGGT GTCTTCCTGT GGCTTCTTTC 
AACTTTAGTA CTTGCTTGAG CAGTAAAGAA GGCACTATTT GCTCAGGAAA TGGAGTTTGC 
AGTAATGAGC TGAAGTGTGT GTGTAACAGA CACTGGATAG GTTCTGATTG CAACACTTAC 
TTCCCTCACA ATGATGATGC AAAGACTGGT ATCACTCTGT CTGGCAATGG TGTTGCTGGC 
ACCAATATCA TAATAGGCAT AATTGCTGGC ACCATTTTAG TGCTGGCCCT CATATTAGGA 
ATAACTGCGT GGGGTTATAA AAACTATCGA GAACAGAGAC AGTTACCCCA GGGAGATTAT 
GTAAAAAAGC CTGGAGATGG TGACTCTTTT TATAGCGACA TTCCTCCCGG AGTCAGCACA 
AACTCAGCAT CTAGTTCTAA GAAGAGGTCT GCTTTTCTGT CGCATTTTCA GATTTCTACC 
TGTTCCATCA CACATTATTC CATTAGTCAG AACATTTCAT TATTTTGCAG CAGGTCAAAT 
GGGCTCTCTC ATTCTTGGAG TGAAAGGATT CCAGACACAA AACATATTTC AGACATCTGT 
GAAAATGGGC GACCTCGAAG TAACTCTTGG CAAGGTAACC TGGGAGGCAA CAAAAAGAAA 
ATCAGAGGCA AAAGATTTAG ACCTCGGTCT AATTCAACTG AGAGGGAGCC CCAAGCACCT 
GAGCCTGGGC ACTCCCTCGC CCAGACAGTC CCATCCCAAG GCATAAGCCC AGGGGGCTCT 
GACAGCCCCC AGACAGGGAG TCTGGATCAC AGGTATTTAA ACCCATGGTT CAAAAGAGAC 
TATAATGTAG CTAAGTGGGT AGAAGATGTG AATAAAAACA CTGAAGGACC ATACTTTAGG 
ACTTTATCTC CTGCCAAGTC TCCTTCTTCA TCAACTGGGT CTATTGCCTC CAGCAGAAAA 
TACCCTTACC CAATGCCTCC ACTTCCTGAT GAGGACAAGA AAGTGAACCG ACAAAGTGCC 
AGGCTATGGG AGACATCCAT TTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( NM_001324417.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001311346.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 6, mRNA.

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CloneID	OHu100598
Clone ID Related Accession (Same CDS sequence)	NM_001324417.2 , NM_001324417.1
Accession Version	NM_001324417.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2610bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-08-08
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform 6 precursor
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DR000609.1, AC005164.2, AC004992.2, AC005075.2 and R41888.1. On Jun 2, 2019 this sequence version replaced NM_001324417.1. Transcript Variant: This variant (6) encodes isoform 6. The encoded isoform (6) may undergo proteolytic processing. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803612.141922.1, SRR1803612.85572.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2154665, SAMEA2162841 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGACGCC TCATTGATGG AGCTAGAGAA GAGGAAGGAA 
AACCGCTTCG TGGAGCGCCA GAGCATCGTG CCACTGCGCC TCATCTACCG CTCGGGCGGC 
GAAGACGAAA GTCGGCACGA CGCGCTCGAC ACGCGGGTGC GGGGCGACCT CGGTGGCCCG 
CAGTTGACTC ATGTTGACCA AGCAAGCTTC CAGGTTGATG CCTTTGGAAC GTCATTCATT 
CTCGATGTCG TGCTAAATCA TGATTTGCTG TCCTCTGAAT ACATAGAGAG ACACATTGAA 
CATGGAGGCA AGACTGTGGA AGTTAAAGGA GGAGAGCACT GTTACTACCA GGGCCATATC 
CGAGGAAACC CTGACTCATT TGTTGCATTG TCAACATGCC ACGGACTTCA TGGGATGTTC 
TATGACGGGA ACCACACATA TCTCATTGAG CCAGAAGAAA ATGACACTAC TCAAGAGGAT 
TTCCATTTTC ATTCAGTTTA CAAATCCAGA CTGTTTGAAT TTTCCTTGGA TGATCTTCCA 
TCTGAATTTC AGCAAGTAAA CATTACTCCA TCAAAATTTA TTTTGAAGCC AAGACCAAAA 
AGGAGTAAAC GGCAGCTTCG TCGATATCCT CGTAATGTAG AAGAAGAAAC CAAATACATT 
GAACTGATGA TTGTGAATGA TCACCTTATG TTTAAAAAAC ATCGGCTTTC CGTTGTACAT 
ACCAATACCT ATGCGAAATC TGTGGTGAAC ATGGCAGATT TAATATATAA AGACCAACTT 
AAGACCAGGA TAGTATTGGT TGCTATGGAA ACCTGGGCGA CTGACAACAA GTTTGCCATA 
TCTGAAAATC CATTGATCAC CCTACGTGAG TTTATGAAAT ACAGGAGGGA TTTTATCAAA 
GAGAAAAGTG ATGCAGTTCA CCTTTTTTCG GGAAGTCAAT TTGAGAGTAG CCGGAGCGGG 
GCAGCTTATA TTGGTGGGAT TTGCTCGTTG CTGAAAGGAG GAGGCGTGAA TGAATTTGGG 
AAAACTGATT TAATGGCTGT TACACTTGCC CAGTCATTAG CCCATAATAT TGGTATTATC 
TCAGACAAAA GAAAGTTAGC AAGTGGTGAA TGTAAATGCG AGGACACGTG GTCCGGGTGC 
ATAATGGGAG ACACTGGCTA TTATCTTCCT AAAAAGTTCA CCCAGTGTAA TATTGAAGAG 
TATCATGACT TCCTGAATAG TGGAGGTGGT GCCTGCCTTT TCAACAAACC TTCTAAGCTT 
CTTGATCCTC CTGAGTGTGG CAATGGCTTC ATTGAAACTG GAGAGGAGTG TGATTGTGGA 
ACCCCGGCCG AATGTGTCCT TGAAGGAGCA GAGTGTTGTA AGAAATGCAC CTTGACTCAA 
GACTCTCAAT GCAGTGACGG TCTTTGCTGT AAAAAGTGCA AGTTTCAGCC TATGGGCACT 
GTGTGCCGAG AAGCAGTAAA TGATTGTGAT ATTCGTGAAA CGTGCTCAGG AAATTCAAGC 
CAGTGTGCCC CTAATATTCA TAAAATGGAT GGATATTCAT GTGATGGTGT TCAGGGAATT 
TGCTTTGGAG GAAGATGCAA AACCAGAGAT AGACAATGCA AATACATTTG GGGGCAAAAG 
GTGACAGCAT CAGACAAATA TTGCTATGAG AAACTGAATA TTGAAGGGAC GGAGAAGGGT 
AACTGTGGGA AAGACAAAGA CACATGGATA CAGTGCAACA AACGGGATGT GCTTTGTGGT 
TACCTTTTGT GTACCAATAT TGGCAATATC CCAAGGCTTG GAGAACTCGA TGGTGAAATC 
ACATCTACTT TAGTTGTGCA GCAAGGAAGA ACATTAAACT GCAGTGGTGG GCATGTTAAG 
CTTGAAGAAG ATGTAGATCT TGGCTATGTG GAAGATGGGA CACCTTGTGG TCCCCAAATG 
ATGTGCTTAG AACACAGGTG TCTTCCTGTG GCTTCTTTCA ACTTTAGTAC TTGCTTGAGC 
AGTAAAGAAG GCACTATTTG CTCAGGAAAT GGAGTTTGCA GTAATGAGCT GAAGTGTGTG 
TGTAACAGAC ACTGGATAGG TTCTGATTGC AACACTTACT TCCCTCACAA TGATGATGCA 
AAGACTGGTA TCACTCTGTC TGGCAATGGT GTTGCTGGCA CCAATATCAT AATAGGCATA 
ATTGCTGGCA CCATTTTAGT GCTGGCCCTC ATATTAGGAA TAACTGCGTG GGGTTATAAA 
AACTATCGAG AACAGAGGTC AAATGGGCTC TCTCATTCTT GGAGTGAAAG GATTCCAGAC 
ACAAAACATA TTTCAGACAT CTGTGAAAAT GGGCGACCTC GAAGTAACTC TTGGCAAGGT 
AACCTGGGAG GCAACAAAAA GAAAATCAGA GGCAAAAGAT TTAGACCTCG GTCTAATTCA 
ACTGAGACTT TATCTCCTGC CAAGTCTCCT TCTTCATCAA CTGGGTCTAT TGCCTCCAGC 
AGAAAATACC CTTACCCAAT GCCTCCACTT CCTGATGAGG ACAAGAAAGT GAACCGACAA 
AGTGCCAGGC TATGGGAGAC ATCCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	NP_001311346.1
CDS	216..2825
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQADASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTETLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	NM_001324417.2
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 6, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_001324417.2

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGACGCC TCATTGATGG AGCTAGAGAA GAGGAAGGAA 
AACCGCTTCG TGGAGCGCCA GAGCATCGTG CCACTGCGCC TCATCTACCG CTCGGGCGGC 
GAAGACGAAA GTCGGCACGA CGCGCTCGAC ACGCGGGTGC GGGGCGACCT CGGTGGCCCG 
CAGTTGACTC ATGTTGACCA AGCAAGCTTC CAGGTTGATG CCTTTGGAAC GTCATTCATT 
CTCGATGTCG TGCTAAATCA TGATTTGCTG TCCTCTGAAT ACATAGAGAG ACACATTGAA 
CATGGAGGCA AGACTGTGGA AGTTAAAGGA GGAGAGCACT GTTACTACCA GGGCCATATC 
CGAGGAAACC CTGACTCATT TGTTGCATTG TCAACATGCC ACGGACTTCA TGGGATGTTC 
TATGACGGGA ACCACACATA TCTCATTGAG CCAGAAGAAA ATGACACTAC TCAAGAGGAT 
TTCCATTTTC ATTCAGTTTA CAAATCCAGA CTGTTTGAAT TTTCCTTGGA TGATCTTCCA 
TCTGAATTTC AGCAAGTAAA CATTACTCCA TCAAAATTTA TTTTGAAGCC AAGACCAAAA 
AGGAGTAAAC GGCAGCTTCG TCGATATCCT CGTAATGTAG AAGAAGAAAC CAAATACATT 
GAACTGATGA TTGTGAATGA TCACCTTATG TTTAAAAAAC ATCGGCTTTC CGTTGTACAT 
ACCAATACCT ATGCGAAATC TGTGGTGAAC ATGGCAGATT TAATATATAA AGACCAACTT 
AAGACCAGGA TAGTATTGGT TGCTATGGAA ACCTGGGCGA CTGACAACAA GTTTGCCATA 
TCTGAAAATC CATTGATCAC CCTACGTGAG TTTATGAAAT ACAGGAGGGA TTTTATCAAA 
GAGAAAAGTG ATGCAGTTCA CCTTTTTTCG GGAAGTCAAT TTGAGAGTAG CCGGAGCGGG 
GCAGCTTATA TTGGTGGGAT TTGCTCGTTG CTGAAAGGAG GAGGCGTGAA TGAATTTGGG 
AAAACTGATT TAATGGCTGT TACACTTGCC CAGTCATTAG CCCATAATAT TGGTATTATC 
TCAGACAAAA GAAAGTTAGC AAGTGGTGAA TGTAAATGCG AGGACACGTG GTCCGGGTGC 
ATAATGGGAG ACACTGGCTA TTATCTTCCT AAAAAGTTCA CCCAGTGTAA TATTGAAGAG 
TATCATGACT TCCTGAATAG TGGAGGTGGT GCCTGCCTTT TCAACAAACC TTCTAAGCTT 
CTTGATCCTC CTGAGTGTGG CAATGGCTTC ATTGAAACTG GAGAGGAGTG TGATTGTGGA 
ACCCCGGCCG AATGTGTCCT TGAAGGAGCA GAGTGTTGTA AGAAATGCAC CTTGACTCAA 
GACTCTCAAT GCAGTGACGG TCTTTGCTGT AAAAAGTGCA AGTTTCAGCC TATGGGCACT 
GTGTGCCGAG AAGCAGTAAA TGATTGTGAT ATTCGTGAAA CGTGCTCAGG AAATTCAAGC 
CAGTGTGCCC CTAATATTCA TAAAATGGAT GGATATTCAT GTGATGGTGT TCAGGGAATT 
TGCTTTGGAG GAAGATGCAA AACCAGAGAT AGACAATGCA AATACATTTG GGGGCAAAAG 
GTGACAGCAT CAGACAAATA TTGCTATGAG AAACTGAATA TTGAAGGGAC GGAGAAGGGT 
AACTGTGGGA AAGACAAAGA CACATGGATA CAGTGCAACA AACGGGATGT GCTTTGTGGT 
TACCTTTTGT GTACCAATAT TGGCAATATC CCAAGGCTTG GAGAACTCGA TGGTGAAATC 
ACATCTACTT TAGTTGTGCA GCAAGGAAGA ACATTAAACT GCAGTGGTGG GCATGTTAAG 
CTTGAAGAAG ATGTAGATCT TGGCTATGTG GAAGATGGGA CACCTTGTGG TCCCCAAATG 
ATGTGCTTAG AACACAGGTG TCTTCCTGTG GCTTCTTTCA ACTTTAGTAC TTGCTTGAGC 
AGTAAAGAAG GCACTATTTG CTCAGGAAAT GGAGTTTGCA GTAATGAGCT GAAGTGTGTG 
TGTAACAGAC ACTGGATAGG TTCTGATTGC AACACTTACT TCCCTCACAA TGATGATGCA 
AAGACTGGTA TCACTCTGTC TGGCAATGGT GTTGCTGGCA CCAATATCAT AATAGGCATA 
ATTGCTGGCA CCATTTTAGT GCTGGCCCTC ATATTAGGAA TAACTGCGTG GGGTTATAAA 
AACTATCGAG AACAGAGGTC AAATGGGCTC TCTCATTCTT GGAGTGAAAG GATTCCAGAC 
ACAAAACATA TTTCAGACAT CTGTGAAAAT GGGCGACCTC GAAGTAACTC TTGGCAAGGT 
AACCTGGGAG GCAACAAAAA GAAAATCAGA GGCAAAAGAT TTAGACCTCG GTCTAATTCA 
ACTGAGACTT TATCTCCTGC CAAGTCTCCT TCTTCATCAA CTGGGTCTAT TGCCTCCAGC 
AGAAAATACC CTTACCCAAT GCCTCCACTT CCTGATGAGG ACAAGAAAGT GAACCGACAA 
AGTGCCAGGC TATGGGAGAC ATCCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( NM_001324417.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001311346.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 6, mRNA.

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CloneID	OHu100598
Clone ID Related Accession (Same CDS sequence)	NM_001324417.2 , NM_001324417.1
Accession Version	NM_001324417.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2610bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2018-12-22
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform 6 precursor
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DR000609.1, AC005164.2, AC004992.2, AC005075.2 and R41888.1. Transcript Variant: This variant (6) encodes isoform 6. The encoded isoform (6) may undergo proteolytic processing. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803612.141922.1, SRR1803612.85572.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2154665, SAMEA2162841 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGACGCC TCATTGATGG AGCTAGAGAA GAGGAAGGAA 
AACCGCTTCG TGGAGCGCCA GAGCATCGTG CCACTGCGCC TCATCTACCG CTCGGGCGGC 
GAAGACGAAA GTCGGCACGA CGCGCTCGAC ACGCGGGTGC GGGGCGACCT CGGTGGCCCG 
CAGTTGACTC ATGTTGACCA AGCAAGCTTC CAGGTTGATG CCTTTGGAAC GTCATTCATT 
CTCGATGTCG TGCTAAATCA TGATTTGCTG TCCTCTGAAT ACATAGAGAG ACACATTGAA 
CATGGAGGCA AGACTGTGGA AGTTAAAGGA GGAGAGCACT GTTACTACCA GGGCCATATC 
CGAGGAAACC CTGACTCATT TGTTGCATTG TCAACATGCC ACGGACTTCA TGGGATGTTC 
TATGACGGGA ACCACACATA TCTCATTGAG CCAGAAGAAA ATGACACTAC TCAAGAGGAT 
TTCCATTTTC ATTCAGTTTA CAAATCCAGA CTGTTTGAAT TTTCCTTGGA TGATCTTCCA 
TCTGAATTTC AGCAAGTAAA CATTACTCCA TCAAAATTTA TTTTGAAGCC AAGACCAAAA 
AGGAGTAAAC GGCAGCTTCG TCGATATCCT CGTAATGTAG AAGAAGAAAC CAAATACATT 
GAACTGATGA TTGTGAATGA TCACCTTATG TTTAAAAAAC ATCGGCTTTC CGTTGTACAT 
ACCAATACCT ATGCGAAATC TGTGGTGAAC ATGGCAGATT TAATATATAA AGACCAACTT 
AAGACCAGGA TAGTATTGGT TGCTATGGAA ACCTGGGCGA CTGACAACAA GTTTGCCATA 
TCTGAAAATC CATTGATCAC CCTACGTGAG TTTATGAAAT ACAGGAGGGA TTTTATCAAA 
GAGAAAAGTG ATGCAGTTCA CCTTTTTTCG GGAAGTCAAT TTGAGAGTAG CCGGAGCGGG 
GCAGCTTATA TTGGTGGGAT TTGCTCGTTG CTGAAAGGAG GAGGCGTGAA TGAATTTGGG 
AAAACTGATT TAATGGCTGT TACACTTGCC CAGTCATTAG CCCATAATAT TGGTATTATC 
TCAGACAAAA GAAAGTTAGC AAGTGGTGAA TGTAAATGCG AGGACACGTG GTCCGGGTGC 
ATAATGGGAG ACACTGGCTA TTATCTTCCT AAAAAGTTCA CCCAGTGTAA TATTGAAGAG 
TATCATGACT TCCTGAATAG TGGAGGTGGT GCCTGCCTTT TCAACAAACC TTCTAAGCTT 
CTTGATCCTC CTGAGTGTGG CAATGGCTTC ATTGAAACTG GAGAGGAGTG TGATTGTGGA 
ACCCCGGCCG AATGTGTCCT TGAAGGAGCA GAGTGTTGTA AGAAATGCAC CTTGACTCAA 
GACTCTCAAT GCAGTGACGG TCTTTGCTGT AAAAAGTGCA AGTTTCAGCC TATGGGCACT 
GTGTGCCGAG AAGCAGTAAA TGATTGTGAT ATTCGTGAAA CGTGCTCAGG AAATTCAAGC 
CAGTGTGCCC CTAATATTCA TAAAATGGAT GGATATTCAT GTGATGGTGT TCAGGGAATT 
TGCTTTGGAG GAAGATGCAA AACCAGAGAT AGACAATGCA AATACATTTG GGGGCAAAAG 
GTGACAGCAT CAGACAAATA TTGCTATGAG AAACTGAATA TTGAAGGGAC GGAGAAGGGT 
AACTGTGGGA AAGACAAAGA CACATGGATA CAGTGCAACA AACGGGATGT GCTTTGTGGT 
TACCTTTTGT GTACCAATAT TGGCAATATC CCAAGGCTTG GAGAACTCGA TGGTGAAATC 
ACATCTACTT TAGTTGTGCA GCAAGGAAGA ACATTAAACT GCAGTGGTGG GCATGTTAAG 
CTTGAAGAAG ATGTAGATCT TGGCTATGTG GAAGATGGGA CACCTTGTGG TCCCCAAATG 
ATGTGCTTAG AACACAGGTG TCTTCCTGTG GCTTCTTTCA ACTTTAGTAC TTGCTTGAGC 
AGTAAAGAAG GCACTATTTG CTCAGGAAAT GGAGTTTGCA GTAATGAGCT GAAGTGTGTG 
TGTAACAGAC ACTGGATAGG TTCTGATTGC AACACTTACT TCCCTCACAA TGATGATGCA 
AAGACTGGTA TCACTCTGTC TGGCAATGGT GTTGCTGGCA CCAATATCAT AATAGGCATA 
ATTGCTGGCA CCATTTTAGT GCTGGCCCTC ATATTAGGAA TAACTGCGTG GGGTTATAAA 
AACTATCGAG AACAGAGGTC AAATGGGCTC TCTCATTCTT GGAGTGAAAG GATTCCAGAC 
ACAAAACATA TTTCAGACAT CTGTGAAAAT GGGCGACCTC GAAGTAACTC TTGGCAAGGT 
AACCTGGGAG GCAACAAAAA GAAAATCAGA GGCAAAAGAT TTAGACCTCG GTCTAATTCA 
ACTGAGACTT TATCTCCTGC CAAGTCTCCT TCTTCATCAA CTGGGTCTAT TGCCTCCAGC 
AGAAAATACC CTTACCCAAT GCCTCCACTT CCTGATGAGG ACAAGAAAGT GAACCGACAA 
AGTGCCAGGC TATGGGAGAC ATCCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	NP_001311346.1
CDS	324..2933
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQADASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTETLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	NM_001324417.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 6, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_001324417.1

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGACGCC TCATTGATGG AGCTAGAGAA GAGGAAGGAA 
AACCGCTTCG TGGAGCGCCA GAGCATCGTG CCACTGCGCC TCATCTACCG CTCGGGCGGC 
GAAGACGAAA GTCGGCACGA CGCGCTCGAC ACGCGGGTGC GGGGCGACCT CGGTGGCCCG 
CAGTTGACTC ATGTTGACCA AGCAAGCTTC CAGGTTGATG CCTTTGGAAC GTCATTCATT 
CTCGATGTCG TGCTAAATCA TGATTTGCTG TCCTCTGAAT ACATAGAGAG ACACATTGAA 
CATGGAGGCA AGACTGTGGA AGTTAAAGGA GGAGAGCACT GTTACTACCA GGGCCATATC 
CGAGGAAACC CTGACTCATT TGTTGCATTG TCAACATGCC ACGGACTTCA TGGGATGTTC 
TATGACGGGA ACCACACATA TCTCATTGAG CCAGAAGAAA ATGACACTAC TCAAGAGGAT 
TTCCATTTTC ATTCAGTTTA CAAATCCAGA CTGTTTGAAT TTTCCTTGGA TGATCTTCCA 
TCTGAATTTC AGCAAGTAAA CATTACTCCA TCAAAATTTA TTTTGAAGCC AAGACCAAAA 
AGGAGTAAAC GGCAGCTTCG TCGATATCCT CGTAATGTAG AAGAAGAAAC CAAATACATT 
GAACTGATGA TTGTGAATGA TCACCTTATG TTTAAAAAAC ATCGGCTTTC CGTTGTACAT 
ACCAATACCT ATGCGAAATC TGTGGTGAAC ATGGCAGATT TAATATATAA AGACCAACTT 
AAGACCAGGA TAGTATTGGT TGCTATGGAA ACCTGGGCGA CTGACAACAA GTTTGCCATA 
TCTGAAAATC CATTGATCAC CCTACGTGAG TTTATGAAAT ACAGGAGGGA TTTTATCAAA 
GAGAAAAGTG ATGCAGTTCA CCTTTTTTCG GGAAGTCAAT TTGAGAGTAG CCGGAGCGGG 
GCAGCTTATA TTGGTGGGAT TTGCTCGTTG CTGAAAGGAG GAGGCGTGAA TGAATTTGGG 
AAAACTGATT TAATGGCTGT TACACTTGCC CAGTCATTAG CCCATAATAT TGGTATTATC 
TCAGACAAAA GAAAGTTAGC AAGTGGTGAA TGTAAATGCG AGGACACGTG GTCCGGGTGC 
ATAATGGGAG ACACTGGCTA TTATCTTCCT AAAAAGTTCA CCCAGTGTAA TATTGAAGAG 
TATCATGACT TCCTGAATAG TGGAGGTGGT GCCTGCCTTT TCAACAAACC TTCTAAGCTT 
CTTGATCCTC CTGAGTGTGG CAATGGCTTC ATTGAAACTG GAGAGGAGTG TGATTGTGGA 
ACCCCGGCCG AATGTGTCCT TGAAGGAGCA GAGTGTTGTA AGAAATGCAC CTTGACTCAA 
GACTCTCAAT GCAGTGACGG TCTTTGCTGT AAAAAGTGCA AGTTTCAGCC TATGGGCACT 
GTGTGCCGAG AAGCAGTAAA TGATTGTGAT ATTCGTGAAA CGTGCTCAGG AAATTCAAGC 
CAGTGTGCCC CTAATATTCA TAAAATGGAT GGATATTCAT GTGATGGTGT TCAGGGAATT 
TGCTTTGGAG GAAGATGCAA AACCAGAGAT AGACAATGCA AATACATTTG GGGGCAAAAG 
GTGACAGCAT CAGACAAATA TTGCTATGAG AAACTGAATA TTGAAGGGAC GGAGAAGGGT 
AACTGTGGGA AAGACAAAGA CACATGGATA CAGTGCAACA AACGGGATGT GCTTTGTGGT 
TACCTTTTGT GTACCAATAT TGGCAATATC CCAAGGCTTG GAGAACTCGA TGGTGAAATC 
ACATCTACTT TAGTTGTGCA GCAAGGAAGA ACATTAAACT GCAGTGGTGG GCATGTTAAG 
CTTGAAGAAG ATGTAGATCT TGGCTATGTG GAAGATGGGA CACCTTGTGG TCCCCAAATG 
ATGTGCTTAG AACACAGGTG TCTTCCTGTG GCTTCTTTCA ACTTTAGTAC TTGCTTGAGC 
AGTAAAGAAG GCACTATTTG CTCAGGAAAT GGAGTTTGCA GTAATGAGCT GAAGTGTGTG 
TGTAACAGAC ACTGGATAGG TTCTGATTGC AACACTTACT TCCCTCACAA TGATGATGCA 
AAGACTGGTA TCACTCTGTC TGGCAATGGT GTTGCTGGCA CCAATATCAT AATAGGCATA 
ATTGCTGGCA CCATTTTAGT GCTGGCCCTC ATATTAGGAA TAACTGCGTG GGGTTATAAA 
AACTATCGAG AACAGAGGTC AAATGGGCTC TCTCATTCTT GGAGTGAAAG GATTCCAGAC 
ACAAAACATA TTTCAGACAT CTGTGAAAAT GGGCGACCTC GAAGTAACTC TTGGCAAGGT 
AACCTGGGAG GCAACAAAAA GAAAATCAGA GGCAAAAGAT TTAGACCTCG GTCTAATTCA 
ACTGAGACTT TATCTCCTGC CAAGTCTCCT TCTTCATCAA CTGGGTCTAT TGCCTCCAGC 
AGAAAATACC CTTACCCAAT GCCTCCACTT CCTGATGAGG ACAAGAAAGT GAACCGACAA 
AGTGCCAGGC TATGGGAGAC ATCCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( NM_001324421.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001311350.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 10, mRNA.

Price & Availability↑

CloneID	OHu100659
Clone ID Related Accession (Same CDS sequence)	NM_001324421.2 , NM_001324421.1
Accession Version	NM_001324421.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2673bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-08-07
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform 10 precursor
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DR000609.1, AC005164.2, AC004992.2, AC005075.2 and R41888.1. On Jun 2, 2019 this sequence version replaced NM_001324421.1. Transcript Variant: This variant (10) encodes isoform 10. The encoded isoform (10) may undergo proteolytic processing. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660803.12163.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2144120, SAMEA2145544 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG GTCAAATGGG CTCTCTCATT CTTGGAGTGA AAGGATTCCA 
GACACAAAAC ATATTTCAGA CATCTGTGAA AATGGGCGAC CTCGAAGTAA CTCTTGGCAA 
GGTAACCTGG GAGGCAACAA AAAGAAAATC AGAGGCAAAA GATTTAGACC TCGGTCTAAT 
TCAACTGACT ATGGGAGACA TCCATTTAAG ATCAACTGTT TACATGTGAT ACATCGAAAA 
CTGTTTACTT CAACTTTTAT AGAAACCCAG GCTCATGGAA TCACTGCAAA TCTATCTGCT 
CTTCAGACAA TACGAAGACC CTCTGAGATG CTACAGAGGA GAGGAAGCGG AGTTTCACAT 
CTGGTTACCA TTTTCTTTTT GTCATTGGCT TAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	NP_001311350.1
CDS	216..2888
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQAGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTDYGRHPFKINCLHVIHRKLFTSTFIETQAHGITANLSALQTIRRPSEMLQRRGSGVSHLVTIFFLSLA

Target ORF information:

RefSeq Version	NM_001324421.2
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 10, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_001324421.2

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG GTCAAATGGG CTCTCTCATT CTTGGAGTGA AAGGATTCCA 
GACACAAAAC ATATTTCAGA CATCTGTGAA AATGGGCGAC CTCGAAGTAA CTCTTGGCAA 
GGTAACCTGG GAGGCAACAA AAAGAAAATC AGAGGCAAAA GATTTAGACC TCGGTCTAAT 
TCAACTGACT ATGGGAGACA TCCATTTAAG ATCAACTGTT TACATGTGAT ACATCGAAAA 
CTGTTTACTT CAACTTTTAT AGAAACCCAG GCTCATGGAA TCACTGCAAA TCTATCTGCT 
CTTCAGACAA TACGAAGACC CTCTGAGATG CTACAGAGGA GAGGAAGCGG AGTTTCACAT 
CTGGTTACCA TTTTCTTTTT GTCATTGGCT TAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( NM_001324421.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001311350.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 10, mRNA.

Price & Availability↑

CloneID	OHu100659
Clone ID Related Accession (Same CDS sequence)	NM_001324421.2 , NM_001324421.1
Accession Version	NM_001324421.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2673bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2018-12-22
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform 10 precursor
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DR000609.1, AC005164.2, AC004992.2, AC005075.2 and R41888.1. Transcript Variant: This variant (10) encodes isoform 10. The encoded isoform (10) may undergo proteolytic processing. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660803.12163.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2144120, SAMEA2145544 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG GTCAAATGGG CTCTCTCATT CTTGGAGTGA AAGGATTCCA 
GACACAAAAC ATATTTCAGA CATCTGTGAA AATGGGCGAC CTCGAAGTAA CTCTTGGCAA 
GGTAACCTGG GAGGCAACAA AAAGAAAATC AGAGGCAAAA GATTTAGACC TCGGTCTAAT 
TCAACTGACT ATGGGAGACA TCCATTTAAG ATCAACTGTT TACATGTGAT ACATCGAAAA 
CTGTTTACTT CAACTTTTAT AGAAACCCAG GCTCATGGAA TCACTGCAAA TCTATCTGCT 
CTTCAGACAA TACGAAGACC CTCTGAGATG CTACAGAGGA GAGGAAGCGG AGTTTCACAT 
CTGGTTACCA TTTTCTTTTT GTCATTGGCT TAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	NP_001311350.1
CDS	324..2996
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQAGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTDYGRHPFKINCLHVIHRKLFTSTFIETQAHGITANLSALQTIRRPSEMLQRRGSGVSHLVTIFFLSLA

Target ORF information:

RefSeq Version	NM_001324421.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 10, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_001324421.1

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG GTCAAATGGG CTCTCTCATT CTTGGAGTGA AAGGATTCCA 
GACACAAAAC ATATTTCAGA CATCTGTGAA AATGGGCGAC CTCGAAGTAA CTCTTGGCAA 
GGTAACCTGG GAGGCAACAA AAAGAAAATC AGAGGCAAAA GATTTAGACC TCGGTCTAAT 
TCAACTGACT ATGGGAGACA TCCATTTAAG ATCAACTGTT TACATGTGAT ACATCGAAAA 
CTGTTTACTT CAACTTTTAT AGAAACCCAG GCTCATGGAA TCACTGCAAA TCTATCTGCT 
CTTCAGACAA TACGAAGACC CTCTGAGATG CTACAGAGGA GAGGAAGCGG AGTTTCACAT 
CTGGTTACCA TTTTCTTTTT GTCATTGGCT TAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( NM_001324419.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001311348.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 8, mRNA.

Price & Availability↑

CloneID	OHu100672
Clone ID Related Accession (Same CDS sequence)	NM_001324419.1 , NM_001324419.2
Accession Version	NM_001324419.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2892bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2018-12-22
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform 8 precursor
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DR000609.1, AC005164.2, AC004992.2, AC005075.2 and R41888.1. Transcript Variant: This variant (8) encodes isoform 8. The encoded isoform (8) may undergo proteolytic processing. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803615.207134.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2154665, SAMN03465403 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGACGCC TCATTGATGG AGCTAGAGAA GAGGAAGGAA 
AACCGCTTCG TGGAGCGCCA GAGCATCGTG CCACTGCGCC TCATCTACCG CTCGGGCGGC 
GAAGACGAAA GTCGGCACGA CGCGCTCGAC ACGCGGGTGC GGGGCGACCT CGGTGGCCCG 
CAGTTGACTC ATGTTGACCA AGCAAGCTTC CAGGTTGATG CCTTTGGAAC GTCATTCATT 
CTCGATGTCG TGCTAAATCA TGATTTGCTG TCCTCTGAAT ACATAGAGAG ACACATTGAA 
CATGGAGGCA AGACTGTGGA AGTTAAAGGA GGAGAGCACT GTTACTACCA GGGCCATATC 
CGAGGAAACC CTGACTCATT TGTTGCATTG TCAACATGCC ACGGACTTCA TGGGATGTTC 
TATGACGGGA ACCACACATA TCTCATTGAG CCAGAAGAAA ATGACACTAC TCAAGAGGAT 
TTCCATTTTC ATTCAGTTTA CAAATCCAGA CTGTTTGAAT TTTCCTTGGA TGATCTTCCA 
TCTGAATTTC AGCAAGTAAA CATTACTCCA TCAAAATTTA TTTTGAAGCC AAGACCAAAA 
AGGAGTAAAC GGCAGCTTCG TCGATATCCT CGTAATGTAG AAGAAGAAAC CAAATACATT 
GAACTGATGA TTGTGAATGA TCACCTTATG TTTAAAAAAC ATCGGCTTTC CGTTGTACAT 
ACCAATACCT ATGCGAAATC TGTGGTGAAC ATGGCAGATT TAATATATAA AGACCAACTT 
AAGACCAGGA TAGTATTGGT TGCTATGGAA ACCTGGGCGA CTGACAACAA GTTTGCCATA 
TCTGAAAATC CATTGATCAC CCTACGTGAG TTTATGAAAT ACAGGAGGGA TTTTATCAAA 
GAGAAAAGTG ATGCAGTTCA CCTTTTTTCG GGAAGTCAAT TTGAGAGTAG CCGGAGCGGG 
GCAGCTTATA TTGGTGGGAT TTGCTCGTTG CTGAAAGGAG GAGGCGTGAA TGAATTTGGG 
AAAACTGATT TAATGGCTGT TACACTTGCC CAGTCATTAG CCCATAATAT TGGTATTATC 
TCAGACAAAA GAAAGTTAGC AAGTGGTGAA TGTAAATGCG AGGACACGTG GTCCGGGTGC 
ATAATGGGAG ACACTGGCTA TTATCTTCCT AAAAAGTTCA CCCAGTGTAA TATTGAAGAG 
TATCATGACT TCCTGAATAG TGGAGGTGGT GCCTGCCTTT TCAACAAACC TTCTAAGCTT 
CTTGATCCTC CTGAGTGTGG CAATGGCTTC ATTGAAACTG GAGAGGAGTG TGATTGTGGA 
ACCCCGGCCG AATGTGTCCT TGAAGGAGCA GAGTGTTGTA AGAAATGCAC CTTGACTCAA 
GACTCTCAAT GCAGTGACGG TCTTTGCTGT AAAAAGTGCA AGTTTCAGCC TATGGGCACT 
GTGTGCCGAG AAGCAGTAAA TGATTGTGAT ATTCGTGAAA CGTGCTCAGG AAATTCAAGC 
CAGTGTGCCC CTAATATTCA TAAAATGGAT GGATATTCAT GTGATGGTGT TCAGGGAATT 
TGCTTTGGAG GAAGATGCAA AACCAGAGAT AGACAATGCA AATACATTTG GGGGCAAAAG 
GTGACAGCAT CAGACAAATA TTGCTATGAG AAACTGAATA TTGAAGGGAC GGAGAAGGGT 
AACTGTGGGA AAGACAAAGA CACATGGATA CAGTGCAACA AACGGGATGT GCTTTGTGGT 
TACCTTTTGT GTACCAATAT TGGCAATATC CCAAGGCTTG GAGAACTCGA TGGTGAAATC 
ACATCTACTT TAGTTGTGCA GCAAGGAAGA ACATTAAACT GCAGTGGTGG GCATGTTAAG 
CTTGAAGAAG ATGTAGATCT TGGCTATGTG GAAGATGGGA CACCTTGTGG TCCCCAAATG 
ATGTGCTTAG AACACAGGTG TCTTCCTGTG GCTTCTTTCA ACTTTAGTAC TTGCTTGAGC 
AGTAAAGAAG GCACTATTTG CTCAGGAAAT GGAGTTTGCA GTAATGAGCT GAAGTGTGTG 
TGTAACAGAC ACTGGATAGG TTCTGATTGC AACACTTACT TCCCTCACAA TGATGATGCA 
AAGACTGGTA TCACTCTGTC TGGCAATGGT GTTGCTGGCA CCAATATCAT AATAGGCATA 
ATTGCTGGCA CCATTTTAGT GCTGGCCCTC ATATTAGGAA TAACTGCGTG GGGTTATAAA 
AACTATCGAG AACAGAGACA GTTACCCCAG GGAGATTATG TAAAAAAGCC TGGAGATGGT 
GACTCTTTTT ATAGCGACAT TCCTCCCGGA GTCAGCACAA ACTCAGCATC TAGTTCTAAG 
AAGAGGTCTG CTTTTCTGTC GCATTTTCAG ATTTCTACCT GTTCCATCAC ACATTATTCC 
ATTAGTCAGA ACATTTCATT ATTTTGCAGC AGGTCAAATG GGCTCTCTCA TTCTTGGAGT 
GAAAGGATTC CAGACACAAA ACATATTTCA GACATCTGTG AAAATGGGCG ACCTCGAAGT 
AACTCTTGGC AAGGTAACCT GGGAGGCAAC AAAAAGAAAA TCAGAGGCAA AAGATTTAGA 
CCTCGGTCTA ATTCAACTGA GTATTTAAAC CCATGGTTCA AAAGAGACTA TAATGTAGCT 
AAGTGGGTAG AAGATGTGAA TAAAAACACT GAAGGACCAT ACTTTAGGAC TTTATCTCCT 
GCCAAGTCTC CTTCTTCATC AACTGGGTCT ATTGCCTCCA GCAGAAAATA CCCTTACCCA 
ATGCCTCCAC TTCCTGATGA GGACAAGAAA GTGAACCGAC AAAGTGCCAG GCTATGGGAG 
ACATCCATTT AA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	NP_001311348.1
CDS	324..3215
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQADASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRQLPQGDYVKKPGDGDSFYSDIPPGVSTNSASSSKKRSAFLSHFQISTCSITHYSISQNISLFCSRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTEYLNPWFKRDYNVAKWVEDVNKNTEGPYFRTLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	NM_001324419.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 8, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_001324419.1

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGACGCC TCATTGATGG AGCTAGAGAA GAGGAAGGAA 
AACCGCTTCG TGGAGCGCCA GAGCATCGTG CCACTGCGCC TCATCTACCG CTCGGGCGGC 
GAAGACGAAA GTCGGCACGA CGCGCTCGAC ACGCGGGTGC GGGGCGACCT CGGTGGCCCG 
CAGTTGACTC ATGTTGACCA AGCAAGCTTC CAGGTTGATG CCTTTGGAAC GTCATTCATT 
CTCGATGTCG TGCTAAATCA TGATTTGCTG TCCTCTGAAT ACATAGAGAG ACACATTGAA 
CATGGAGGCA AGACTGTGGA AGTTAAAGGA GGAGAGCACT GTTACTACCA GGGCCATATC 
CGAGGAAACC CTGACTCATT TGTTGCATTG TCAACATGCC ACGGACTTCA TGGGATGTTC 
TATGACGGGA ACCACACATA TCTCATTGAG CCAGAAGAAA ATGACACTAC TCAAGAGGAT 
TTCCATTTTC ATTCAGTTTA CAAATCCAGA CTGTTTGAAT TTTCCTTGGA TGATCTTCCA 
TCTGAATTTC AGCAAGTAAA CATTACTCCA TCAAAATTTA TTTTGAAGCC AAGACCAAAA 
AGGAGTAAAC GGCAGCTTCG TCGATATCCT CGTAATGTAG AAGAAGAAAC CAAATACATT 
GAACTGATGA TTGTGAATGA TCACCTTATG TTTAAAAAAC ATCGGCTTTC CGTTGTACAT 
ACCAATACCT ATGCGAAATC TGTGGTGAAC ATGGCAGATT TAATATATAA AGACCAACTT 
AAGACCAGGA TAGTATTGGT TGCTATGGAA ACCTGGGCGA CTGACAACAA GTTTGCCATA 
TCTGAAAATC CATTGATCAC CCTACGTGAG TTTATGAAAT ACAGGAGGGA TTTTATCAAA 
GAGAAAAGTG ATGCAGTTCA CCTTTTTTCG GGAAGTCAAT TTGAGAGTAG CCGGAGCGGG 
GCAGCTTATA TTGGTGGGAT TTGCTCGTTG CTGAAAGGAG GAGGCGTGAA TGAATTTGGG 
AAAACTGATT TAATGGCTGT TACACTTGCC CAGTCATTAG CCCATAATAT TGGTATTATC 
TCAGACAAAA GAAAGTTAGC AAGTGGTGAA TGTAAATGCG AGGACACGTG GTCCGGGTGC 
ATAATGGGAG ACACTGGCTA TTATCTTCCT AAAAAGTTCA CCCAGTGTAA TATTGAAGAG 
TATCATGACT TCCTGAATAG TGGAGGTGGT GCCTGCCTTT TCAACAAACC TTCTAAGCTT 
CTTGATCCTC CTGAGTGTGG CAATGGCTTC ATTGAAACTG GAGAGGAGTG TGATTGTGGA 
ACCCCGGCCG AATGTGTCCT TGAAGGAGCA GAGTGTTGTA AGAAATGCAC CTTGACTCAA 
GACTCTCAAT GCAGTGACGG TCTTTGCTGT AAAAAGTGCA AGTTTCAGCC TATGGGCACT 
GTGTGCCGAG AAGCAGTAAA TGATTGTGAT ATTCGTGAAA CGTGCTCAGG AAATTCAAGC 
CAGTGTGCCC CTAATATTCA TAAAATGGAT GGATATTCAT GTGATGGTGT TCAGGGAATT 
TGCTTTGGAG GAAGATGCAA AACCAGAGAT AGACAATGCA AATACATTTG GGGGCAAAAG 
GTGACAGCAT CAGACAAATA TTGCTATGAG AAACTGAATA TTGAAGGGAC GGAGAAGGGT 
AACTGTGGGA AAGACAAAGA CACATGGATA CAGTGCAACA AACGGGATGT GCTTTGTGGT 
TACCTTTTGT GTACCAATAT TGGCAATATC CCAAGGCTTG GAGAACTCGA TGGTGAAATC 
ACATCTACTT TAGTTGTGCA GCAAGGAAGA ACATTAAACT GCAGTGGTGG GCATGTTAAG 
CTTGAAGAAG ATGTAGATCT TGGCTATGTG GAAGATGGGA CACCTTGTGG TCCCCAAATG 
ATGTGCTTAG AACACAGGTG TCTTCCTGTG GCTTCTTTCA ACTTTAGTAC TTGCTTGAGC 
AGTAAAGAAG GCACTATTTG CTCAGGAAAT GGAGTTTGCA GTAATGAGCT GAAGTGTGTG 
TGTAACAGAC ACTGGATAGG TTCTGATTGC AACACTTACT TCCCTCACAA TGATGATGCA 
AAGACTGGTA TCACTCTGTC TGGCAATGGT GTTGCTGGCA CCAATATCAT AATAGGCATA 
ATTGCTGGCA CCATTTTAGT GCTGGCCCTC ATATTAGGAA TAACTGCGTG GGGTTATAAA 
AACTATCGAG AACAGAGACA GTTACCCCAG GGAGATTATG TAAAAAAGCC TGGAGATGGT 
GACTCTTTTT ATAGCGACAT TCCTCCCGGA GTCAGCACAA ACTCAGCATC TAGTTCTAAG 
AAGAGGTCTG CTTTTCTGTC GCATTTTCAG ATTTCTACCT GTTCCATCAC ACATTATTCC 
ATTAGTCAGA ACATTTCATT ATTTTGCAGC AGGTCAAATG GGCTCTCTCA TTCTTGGAGT 
GAAAGGATTC CAGACACAAA ACATATTTCA GACATCTGTG AAAATGGGCG ACCTCGAAGT 
AACTCTTGGC AAGGTAACCT GGGAGGCAAC AAAAAGAAAA TCAGAGGCAA AAGATTTAGA 
CCTCGGTCTA ATTCAACTGA GTATTTAAAC CCATGGTTCA AAAGAGACTA TAATGTAGCT 
AAGTGGGTAG AAGATGTGAA TAAAAACACT GAAGGACCAT ACTTTAGGAC TTTATCTCCT 
GCCAAGTCTC CTTCTTCATC AACTGGGTCT ATTGCCTCCA GCAGAAAATA CCCTTACCCA 
ATGCCTCCAC TTCCTGATGA GGACAAGAAA GTGAACCGAC AAAGTGCCAG GCTATGGGAG 
ACATCCATTT AA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( NM_001324419.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001311348.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 8, mRNA.

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CloneID	OHu100672
Clone ID Related Accession (Same CDS sequence)	NM_001324419.1 , NM_001324419.2
Accession Version	NM_001324419.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2892bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-08-07
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform 8 precursor
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DR000609.1, AC005164.2, AC004992.2, AC005075.2 and R41888.1. On Jun 2, 2019 this sequence version replaced NM_001324419.1. Transcript Variant: This variant (8) encodes isoform 8. The encoded isoform (8) may undergo proteolytic processing. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803615.207134.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2154665, SAMN03465403 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGACGCC TCATTGATGG AGCTAGAGAA GAGGAAGGAA 
AACCGCTTCG TGGAGCGCCA GAGCATCGTG CCACTGCGCC TCATCTACCG CTCGGGCGGC 
GAAGACGAAA GTCGGCACGA CGCGCTCGAC ACGCGGGTGC GGGGCGACCT CGGTGGCCCG 
CAGTTGACTC ATGTTGACCA AGCAAGCTTC CAGGTTGATG CCTTTGGAAC GTCATTCATT 
CTCGATGTCG TGCTAAATCA TGATTTGCTG TCCTCTGAAT ACATAGAGAG ACACATTGAA 
CATGGAGGCA AGACTGTGGA AGTTAAAGGA GGAGAGCACT GTTACTACCA GGGCCATATC 
CGAGGAAACC CTGACTCATT TGTTGCATTG TCAACATGCC ACGGACTTCA TGGGATGTTC 
TATGACGGGA ACCACACATA TCTCATTGAG CCAGAAGAAA ATGACACTAC TCAAGAGGAT 
TTCCATTTTC ATTCAGTTTA CAAATCCAGA CTGTTTGAAT TTTCCTTGGA TGATCTTCCA 
TCTGAATTTC AGCAAGTAAA CATTACTCCA TCAAAATTTA TTTTGAAGCC AAGACCAAAA 
AGGAGTAAAC GGCAGCTTCG TCGATATCCT CGTAATGTAG AAGAAGAAAC CAAATACATT 
GAACTGATGA TTGTGAATGA TCACCTTATG TTTAAAAAAC ATCGGCTTTC CGTTGTACAT 
ACCAATACCT ATGCGAAATC TGTGGTGAAC ATGGCAGATT TAATATATAA AGACCAACTT 
AAGACCAGGA TAGTATTGGT TGCTATGGAA ACCTGGGCGA CTGACAACAA GTTTGCCATA 
TCTGAAAATC CATTGATCAC CCTACGTGAG TTTATGAAAT ACAGGAGGGA TTTTATCAAA 
GAGAAAAGTG ATGCAGTTCA CCTTTTTTCG GGAAGTCAAT TTGAGAGTAG CCGGAGCGGG 
GCAGCTTATA TTGGTGGGAT TTGCTCGTTG CTGAAAGGAG GAGGCGTGAA TGAATTTGGG 
AAAACTGATT TAATGGCTGT TACACTTGCC CAGTCATTAG CCCATAATAT TGGTATTATC 
TCAGACAAAA GAAAGTTAGC AAGTGGTGAA TGTAAATGCG AGGACACGTG GTCCGGGTGC 
ATAATGGGAG ACACTGGCTA TTATCTTCCT AAAAAGTTCA CCCAGTGTAA TATTGAAGAG 
TATCATGACT TCCTGAATAG TGGAGGTGGT GCCTGCCTTT TCAACAAACC TTCTAAGCTT 
CTTGATCCTC CTGAGTGTGG CAATGGCTTC ATTGAAACTG GAGAGGAGTG TGATTGTGGA 
ACCCCGGCCG AATGTGTCCT TGAAGGAGCA GAGTGTTGTA AGAAATGCAC CTTGACTCAA 
GACTCTCAAT GCAGTGACGG TCTTTGCTGT AAAAAGTGCA AGTTTCAGCC TATGGGCACT 
GTGTGCCGAG AAGCAGTAAA TGATTGTGAT ATTCGTGAAA CGTGCTCAGG AAATTCAAGC 
CAGTGTGCCC CTAATATTCA TAAAATGGAT GGATATTCAT GTGATGGTGT TCAGGGAATT 
TGCTTTGGAG GAAGATGCAA AACCAGAGAT AGACAATGCA AATACATTTG GGGGCAAAAG 
GTGACAGCAT CAGACAAATA TTGCTATGAG AAACTGAATA TTGAAGGGAC GGAGAAGGGT 
AACTGTGGGA AAGACAAAGA CACATGGATA CAGTGCAACA AACGGGATGT GCTTTGTGGT 
TACCTTTTGT GTACCAATAT TGGCAATATC CCAAGGCTTG GAGAACTCGA TGGTGAAATC 
ACATCTACTT TAGTTGTGCA GCAAGGAAGA ACATTAAACT GCAGTGGTGG GCATGTTAAG 
CTTGAAGAAG ATGTAGATCT TGGCTATGTG GAAGATGGGA CACCTTGTGG TCCCCAAATG 
ATGTGCTTAG AACACAGGTG TCTTCCTGTG GCTTCTTTCA ACTTTAGTAC TTGCTTGAGC 
AGTAAAGAAG GCACTATTTG CTCAGGAAAT GGAGTTTGCA GTAATGAGCT GAAGTGTGTG 
TGTAACAGAC ACTGGATAGG TTCTGATTGC AACACTTACT TCCCTCACAA TGATGATGCA 
AAGACTGGTA TCACTCTGTC TGGCAATGGT GTTGCTGGCA CCAATATCAT AATAGGCATA 
ATTGCTGGCA CCATTTTAGT GCTGGCCCTC ATATTAGGAA TAACTGCGTG GGGTTATAAA 
AACTATCGAG AACAGAGACA GTTACCCCAG GGAGATTATG TAAAAAAGCC TGGAGATGGT 
GACTCTTTTT ATAGCGACAT TCCTCCCGGA GTCAGCACAA ACTCAGCATC TAGTTCTAAG 
AAGAGGTCTG CTTTTCTGTC GCATTTTCAG ATTTCTACCT GTTCCATCAC ACATTATTCC 
ATTAGTCAGA ACATTTCATT ATTTTGCAGC AGGTCAAATG GGCTCTCTCA TTCTTGGAGT 
GAAAGGATTC CAGACACAAA ACATATTTCA GACATCTGTG AAAATGGGCG ACCTCGAAGT 
AACTCTTGGC AAGGTAACCT GGGAGGCAAC AAAAAGAAAA TCAGAGGCAA AAGATTTAGA 
CCTCGGTCTA ATTCAACTGA GTATTTAAAC CCATGGTTCA AAAGAGACTA TAATGTAGCT 
AAGTGGGTAG AAGATGTGAA TAAAAACACT GAAGGACCAT ACTTTAGGAC TTTATCTCCT 
GCCAAGTCTC CTTCTTCATC AACTGGGTCT ATTGCCTCCA GCAGAAAATA CCCTTACCCA 
ATGCCTCCAC TTCCTGATGA GGACAAGAAA GTGAACCGAC AAAGTGCCAG GCTATGGGAG 
ACATCCATTT AA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	NP_001311348.1
CDS	216..3107
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQADASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRQLPQGDYVKKPGDGDSFYSDIPPGVSTNSASSSKKRSAFLSHFQISTCSITHYSISQNISLFCSRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTEYLNPWFKRDYNVAKWVEDVNKNTEGPYFRTLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	NM_001324419.2
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 8, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_001324419.2

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGACGCC TCATTGATGG AGCTAGAGAA GAGGAAGGAA 
AACCGCTTCG TGGAGCGCCA GAGCATCGTG CCACTGCGCC TCATCTACCG CTCGGGCGGC 
GAAGACGAAA GTCGGCACGA CGCGCTCGAC ACGCGGGTGC GGGGCGACCT CGGTGGCCCG 
CAGTTGACTC ATGTTGACCA AGCAAGCTTC CAGGTTGATG CCTTTGGAAC GTCATTCATT 
CTCGATGTCG TGCTAAATCA TGATTTGCTG TCCTCTGAAT ACATAGAGAG ACACATTGAA 
CATGGAGGCA AGACTGTGGA AGTTAAAGGA GGAGAGCACT GTTACTACCA GGGCCATATC 
CGAGGAAACC CTGACTCATT TGTTGCATTG TCAACATGCC ACGGACTTCA TGGGATGTTC 
TATGACGGGA ACCACACATA TCTCATTGAG CCAGAAGAAA ATGACACTAC TCAAGAGGAT 
TTCCATTTTC ATTCAGTTTA CAAATCCAGA CTGTTTGAAT TTTCCTTGGA TGATCTTCCA 
TCTGAATTTC AGCAAGTAAA CATTACTCCA TCAAAATTTA TTTTGAAGCC AAGACCAAAA 
AGGAGTAAAC GGCAGCTTCG TCGATATCCT CGTAATGTAG AAGAAGAAAC CAAATACATT 
GAACTGATGA TTGTGAATGA TCACCTTATG TTTAAAAAAC ATCGGCTTTC CGTTGTACAT 
ACCAATACCT ATGCGAAATC TGTGGTGAAC ATGGCAGATT TAATATATAA AGACCAACTT 
AAGACCAGGA TAGTATTGGT TGCTATGGAA ACCTGGGCGA CTGACAACAA GTTTGCCATA 
TCTGAAAATC CATTGATCAC CCTACGTGAG TTTATGAAAT ACAGGAGGGA TTTTATCAAA 
GAGAAAAGTG ATGCAGTTCA CCTTTTTTCG GGAAGTCAAT TTGAGAGTAG CCGGAGCGGG 
GCAGCTTATA TTGGTGGGAT TTGCTCGTTG CTGAAAGGAG GAGGCGTGAA TGAATTTGGG 
AAAACTGATT TAATGGCTGT TACACTTGCC CAGTCATTAG CCCATAATAT TGGTATTATC 
TCAGACAAAA GAAAGTTAGC AAGTGGTGAA TGTAAATGCG AGGACACGTG GTCCGGGTGC 
ATAATGGGAG ACACTGGCTA TTATCTTCCT AAAAAGTTCA CCCAGTGTAA TATTGAAGAG 
TATCATGACT TCCTGAATAG TGGAGGTGGT GCCTGCCTTT TCAACAAACC TTCTAAGCTT 
CTTGATCCTC CTGAGTGTGG CAATGGCTTC ATTGAAACTG GAGAGGAGTG TGATTGTGGA 
ACCCCGGCCG AATGTGTCCT TGAAGGAGCA GAGTGTTGTA AGAAATGCAC CTTGACTCAA 
GACTCTCAAT GCAGTGACGG TCTTTGCTGT AAAAAGTGCA AGTTTCAGCC TATGGGCACT 
GTGTGCCGAG AAGCAGTAAA TGATTGTGAT ATTCGTGAAA CGTGCTCAGG AAATTCAAGC 
CAGTGTGCCC CTAATATTCA TAAAATGGAT GGATATTCAT GTGATGGTGT TCAGGGAATT 
TGCTTTGGAG GAAGATGCAA AACCAGAGAT AGACAATGCA AATACATTTG GGGGCAAAAG 
GTGACAGCAT CAGACAAATA TTGCTATGAG AAACTGAATA TTGAAGGGAC GGAGAAGGGT 
AACTGTGGGA AAGACAAAGA CACATGGATA CAGTGCAACA AACGGGATGT GCTTTGTGGT 
TACCTTTTGT GTACCAATAT TGGCAATATC CCAAGGCTTG GAGAACTCGA TGGTGAAATC 
ACATCTACTT TAGTTGTGCA GCAAGGAAGA ACATTAAACT GCAGTGGTGG GCATGTTAAG 
CTTGAAGAAG ATGTAGATCT TGGCTATGTG GAAGATGGGA CACCTTGTGG TCCCCAAATG 
ATGTGCTTAG AACACAGGTG TCTTCCTGTG GCTTCTTTCA ACTTTAGTAC TTGCTTGAGC 
AGTAAAGAAG GCACTATTTG CTCAGGAAAT GGAGTTTGCA GTAATGAGCT GAAGTGTGTG 
TGTAACAGAC ACTGGATAGG TTCTGATTGC AACACTTACT TCCCTCACAA TGATGATGCA 
AAGACTGGTA TCACTCTGTC TGGCAATGGT GTTGCTGGCA CCAATATCAT AATAGGCATA 
ATTGCTGGCA CCATTTTAGT GCTGGCCCTC ATATTAGGAA TAACTGCGTG GGGTTATAAA 
AACTATCGAG AACAGAGACA GTTACCCCAG GGAGATTATG TAAAAAAGCC TGGAGATGGT 
GACTCTTTTT ATAGCGACAT TCCTCCCGGA GTCAGCACAA ACTCAGCATC TAGTTCTAAG 
AAGAGGTCTG CTTTTCTGTC GCATTTTCAG ATTTCTACCT GTTCCATCAC ACATTATTCC 
ATTAGTCAGA ACATTTCATT ATTTTGCAGC AGGTCAAATG GGCTCTCTCA TTCTTGGAGT 
GAAAGGATTC CAGACACAAA ACATATTTCA GACATCTGTG AAAATGGGCG ACCTCGAAGT 
AACTCTTGGC AAGGTAACCT GGGAGGCAAC AAAAAGAAAA TCAGAGGCAA AAGATTTAGA 
CCTCGGTCTA ATTCAACTGA GTATTTAAAC CCATGGTTCA AAAGAGACTA TAATGTAGCT 
AAGTGGGTAG AAGATGTGAA TAAAAACACT GAAGGACCAT ACTTTAGGAC TTTATCTCCT 
GCCAAGTCTC CTTCTTCATC AACTGGGTCT ATTGCCTCCA GCAGAAAATA CCCTTACCCA 
ATGCCTCCAC TTCCTGATGA GGACAAGAAA GTGAACCGAC AAAGTGCCAG GCTATGGGAG 
ACATCCATTT AA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( NM_001324420.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001311349.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 9, mRNA.

Price & Availability↑

CloneID	OHu100694
Clone ID Related Accession (Same CDS sequence)	NM_001324420.1 , NM_001324420.2
Accession Version	NM_001324420.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2808bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2018-12-22
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform 9 precursor
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DR000609.1, AC005164.2, AC004992.2, AC005075.2 and R41888.1. Transcript Variant: This variant (9) encodes isoform 9. The encoded isoform (9) may undergo proteolytic processing. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660809.233288.1, SRR1803611.35759.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2152719, SAMEA2154665 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG ACAGTTACCC CAGGGAGATT ATGTAAAAAA GCCTGGAGAT 
GGTGACTCTT TTTATAGCGA CATTCCTCCC GGAGTCAGCA CAAACTCAGC ATCTAGTTCT 
AAGAAGAGGT CTGCTTTTCT GTCGCATTTT CAGATTTCTA CCTGTTCCAT CACACATTAT 
TCCATTAGTC AGAACATTTC ATTATTTTGC AGCAGGTCAA ATGGGCTCTC TCATTCTTGG 
AGTGAAAGGA TTCCAGACAC AAAACATATT TCAGACATCT GTGAAAATGG GCGACCTCGA 
AGTAACTCTT GGCAAGGTAA CCTGGGAGGC AACAAAAAGA AAATCAGAGG CAAAAGATTT 
AGACCTCGGT CTAATTCAAC TGAGACTTTA TCTCCTGCCA AGTCTCCTTC TTCATCAACT 
GGGTCTATTG CCTCCAGCAG AAAATACCCT TACCCAATGC CTCCACTTCC TGATGAGGAC 
AAGAAAGTGA ACCGACAAAG TGCCAGGCTA TGGGAGACAT CCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	NP_001311349.1
CDS	324..3131
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQAGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRQLPQGDYVKKPGDGDSFYSDIPPGVSTNSASSSKKRSAFLSHFQISTCSITHYSISQNISLFCSRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTETLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	NM_001324420.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 9, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_001324420.1

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG ACAGTTACCC CAGGGAGATT ATGTAAAAAA GCCTGGAGAT 
GGTGACTCTT TTTATAGCGA CATTCCTCCC GGAGTCAGCA CAAACTCAGC ATCTAGTTCT 
AAGAAGAGGT CTGCTTTTCT GTCGCATTTT CAGATTTCTA CCTGTTCCAT CACACATTAT 
TCCATTAGTC AGAACATTTC ATTATTTTGC AGCAGGTCAA ATGGGCTCTC TCATTCTTGG 
AGTGAAAGGA TTCCAGACAC AAAACATATT TCAGACATCT GTGAAAATGG GCGACCTCGA 
AGTAACTCTT GGCAAGGTAA CCTGGGAGGC AACAAAAAGA AAATCAGAGG CAAAAGATTT 
AGACCTCGGT CTAATTCAAC TGAGACTTTA TCTCCTGCCA AGTCTCCTTC TTCATCAACT 
GGGTCTATTG CCTCCAGCAG AAAATACCCT TACCCAATGC CTCCACTTCC TGATGAGGAC 
AAGAAAGTGA ACCGACAAAG TGCCAGGCTA TGGGAGACAT CCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( NM_001324420.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001311349.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 9, mRNA.

Price & Availability↑

CloneID	OHu100694
Clone ID Related Accession (Same CDS sequence)	NM_001324420.1 , NM_001324420.2
Accession Version	NM_001324420.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2808bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-08-07
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform 9 precursor
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DR000609.1, AC005164.2, AC004992.2, AC005075.2 and R41888.1. On Jun 2, 2019 this sequence version replaced NM_001324420.1. Transcript Variant: This variant (9) encodes isoform 9. The encoded isoform (9) may undergo proteolytic processing. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660809.233288.1, SRR1803611.35759.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2152719, SAMEA2154665 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG ACAGTTACCC CAGGGAGATT ATGTAAAAAA GCCTGGAGAT 
GGTGACTCTT TTTATAGCGA CATTCCTCCC GGAGTCAGCA CAAACTCAGC ATCTAGTTCT 
AAGAAGAGGT CTGCTTTTCT GTCGCATTTT CAGATTTCTA CCTGTTCCAT CACACATTAT 
TCCATTAGTC AGAACATTTC ATTATTTTGC AGCAGGTCAA ATGGGCTCTC TCATTCTTGG 
AGTGAAAGGA TTCCAGACAC AAAACATATT TCAGACATCT GTGAAAATGG GCGACCTCGA 
AGTAACTCTT GGCAAGGTAA CCTGGGAGGC AACAAAAAGA AAATCAGAGG CAAAAGATTT 
AGACCTCGGT CTAATTCAAC TGAGACTTTA TCTCCTGCCA AGTCTCCTTC TTCATCAACT 
GGGTCTATTG CCTCCAGCAG AAAATACCCT TACCCAATGC CTCCACTTCC TGATGAGGAC 
AAGAAAGTGA ACCGACAAAG TGCCAGGCTA TGGGAGACAT CCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	NP_001311349.1
CDS	216..3023
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQAGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRQLPQGDYVKKPGDGDSFYSDIPPGVSTNSASSSKKRSAFLSHFQISTCSITHYSISQNISLFCSRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTETLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	NM_001324420.2
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant 9, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_001324420.2

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG ACAGTTACCC CAGGGAGATT ATGTAAAAAA GCCTGGAGAT 
GGTGACTCTT TTTATAGCGA CATTCCTCCC GGAGTCAGCA CAAACTCAGC ATCTAGTTCT 
AAGAAGAGGT CTGCTTTTCT GTCGCATTTT CAGATTTCTA CCTGTTCCAT CACACATTAT 
TCCATTAGTC AGAACATTTC ATTATTTTGC AGCAGGTCAA ATGGGCTCTC TCATTCTTGG 
AGTGAAAGGA TTCCAGACAC AAAACATATT TCAGACATCT GTGAAAATGG GCGACCTCGA 
AGTAACTCTT GGCAAGGTAA CCTGGGAGGC AACAAAAAGA AAATCAGAGG CAAAAGATTT 
AGACCTCGGT CTAATTCAAC TGAGACTTTA TCTCCTGCCA AGTCTCCTTC TTCATCAACT 
GGGTCTATTG CCTCCAGCAG AAAATACCCT TACCCAATGC CTCCACTTCC TGATGAGGAC 
AAGAAAGTGA ACCGACAAAG TGCCAGGCTA TGGGAGACAT CCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_017012329.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867818.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X9, mRNA.

Price & Availability↑

CloneID	OHu97339
Clone ID Related Accession (Same CDS sequence)	XM_017012329.2 , XM_017012329.1
Accession Version	XM_017012329.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2862bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X9
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017012329.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGATTC AGATGTTTTT GAAGTCAGAA TCCCAGAAGA CCATATACCA GATACAGTTG 
ACTCATGTTG ACCAAGCAAG CTTCCAGGTT GATGCCTTTG GAACGTCATT CATTCTCGAT 
GTCGTGCTAA ATCATGATTT GCTGTCCTCT GAATACATAG AGAGACACAT TGAACATGGA 
GGCAAGACTG TGGAAGTTAA AGGAGGAGAG CACTGTTACT ACCAGGGCCA TATCCGAGGA 
AACCCTGACT CATTTGTTGC ATTGTCAACA TGCCACGGAC TTCATGGGAT GTTCTATGAC 
GGGAACCACA CATATCTCAT TGAGCCAGAA GAAAATGACA CTACTCAAGA GGATTTCCAT 
TTTCATTCAG TTTACAAATC CAGACTGTTT GAATTTTCCT TGGATGATCT TCCATCTGAA 
TTTCAGCAAG TAAACATTAC TCCATCAAAA TTTATTTTGA AGCCAAGACC AAAAAGGAGT 
AAACGGCAGC TTCGTCGATA TCCTCGTAAT GTAGAAGAAG AAACCAAATA CATTGAACTG 
ATGATTGTGA ATGATCACCT TATGTTTAAA AAACATCGGC TTTCCGTTGT ACATACCAAT 
ACCTATGCGA AATCTGTGGT GAACATGGCA GATTTAATAT ATAAAGACCA ACTTAAGACC 
AGGATAGTAT TGGTTGCTAT GGAAACCTGG GCGACTGACA ACAAGTTTGC CATATCTGAA 
AATCCATTGA TCACCCTACG TGAGTTTATG AAATACAGGA GGGATTTTAT CAAAGAGAAA 
AGTGATGCAG TTCACCTTTT TTCGGGAAGT CAATTTGAGA GTAGCCGGAG CGGGGCAGCT 
TATATTGGTG GGATTTGCTC GTTGCTGAAA GGAGGAGGCG TGAATGAATT TGGGAAAACT 
GATTTAATGG CTGTTACACT TGCCCAGTCA TTAGCCCATA ATATTGGTAT TATCTCAGAC 
AAAAGAAAGT TAGCAAGTGG TGAATGTAAA TGCGAGGACA CGTGGTCCGG GTGCATAATG 
GGAGACACTG GCTATTATCT TCCTAAAAAG TTCACCCAGT GTAATATTGA AGAGTATCAT 
GACTTCCTGA ATAGTGGAGG TGGTGCCTGC CTTTTCAACA AACCTTCTAA GCTTCTTGAT 
CCTCCTGAGT GTGGCAATGG CTTCATTGAA ACTGGAGAGG AGTGTGATTG TGGAACCCCG 
GCCGAATGTG TCCTTGAAGG AGCAGAGTGT TGTAAGAAAT GCACCTTGAC TCAAGACTCT 
CAATGCAGTG ACGGTCTTTG CTGTAAAAAG TGCAAGTTTC AGCCTATGGG CACTGTGTGC 
CGAGAAGCAG TAAATGATTG TGATATTCGT GAAACGTGCT CAGGAAATTC AAGCCAGTGT 
GCCCCTAATA TTCATAAAAT GGATGGATAT TCATGTGATG GTGTTCAGGG AATTTGCTTT 
GGAGGAAGAT GCAAAACCAG AGATAGACAA TGCAAATACA TTTGGGGGCA AAAGGTGACA 
GCATCAGACA AATATTGCTA TGAGAAACTG AATATTGAAG GGACGGAGAA GGGTAACTGT 
GGGAAAGACA AAGACACATG GATACAGTGC AACAAACGGG ATGTGCTTTG TGGTTACCTT 
TTGTGTACCA ATATTGGCAA TATCCCAAGG CTTGGAGAAC TCGATGGTGA AATCACATCT 
ACTTTAGTTG TGCAGCAAGG AAGAACATTA AACTGCAGTG GTGGGCATGT TAAGCTTGAA 
GAAGATGTAG ATCTTGGCTA TGTGGAAGAT GGGACACCTT GTGGTCCCCA AATGATGTGC 
TTAGAACACA GGTGTCTTCC TGTGGCTTCT TTCAACTTTA GTACTTGCTT GAGCAGTAAA 
GAAGGCACTA TTTGCTCAGG AAATGGAGTT TGCAGTAATG AGCTGAAGTG TGTGTGTAAC 
AGACACTGGA TAGGTTCTGA TTGCAACACT TACTTCCCTC ACAATGATGA TGCAAAGACT 
GGTATCACTC TGTCTGGCAA TGGTGTTGCT GGCACCAATA TCATAATAGG CATAATTGCT 
GGCACCATTT TAGTGCTGGC CCTCATATTA GGAATAACTG CGTGGGGTTA TAAAAACTAT 
CGAGAACAGA GGTCAAATGG GCTCTCTCAT TCTTGGAGTG AAAGGATTCC AGACACAAAA 
CATATTTCAG ACATCTGTGA AAATGGGCGA CCTCGAAGTA ACTCTTGGCA AGGTAACCTG 
GGAGGCAACA AAAAGAAAAT CAGAGGCAAA AGATTTAGAC CTCGGTCTAA TTCAACTGAG 
AGGGAGCCCC AAGCACCTGA GCCTGGGCAC TCCCTCGCCC AGACAGTCCC ATCCCAAGGC 
ATAAGCCCAG GGGGCTCTGA CAGCCCCCAG ACAGGGAGTC TGGATCACAG GTATTTAAAC 
CCATGGTTCA AAAGAGACTA TAATGTAGCT AAGTGGGTAG AAGATGTGAA TAAAAACACT 
GAAGGACCAT ACTTTAGGAC TTTATCTCCT GCCAAGTCTC CTTCTTCATC AACTGGGTCT 
ATTGCCTCCA GCAGAAAATA CCCTTACCCA ATGCCTCCAC TTCCTGATGA GGACAAGAAA 
GTGAACCGAC AAAGTGCCAG GCTATGGGAG ACATCCATTT AA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_016867818.1
CDS	216..3077
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQAGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQIQMFLKSESQKTIYQIQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTEREPQAPEPGHSLAQTVPSQGISPGGSDSPQTGSLDHRYLNPWFKRDYNVAKWVEDVNKNTEGPYFRTLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_017012329.2
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X9, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_017012329.2

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGATTC AGATGTTTTT GAAGTCAGAA TCCCAGAAGA CCATATACCA GATACAGTTG 
ACTCATGTTG ACCAAGCAAG CTTCCAGGTT GATGCCTTTG GAACGTCATT CATTCTCGAT 
GTCGTGCTAA ATCATGATTT GCTGTCCTCT GAATACATAG AGAGACACAT TGAACATGGA 
GGCAAGACTG TGGAAGTTAA AGGAGGAGAG CACTGTTACT ACCAGGGCCA TATCCGAGGA 
AACCCTGACT CATTTGTTGC ATTGTCAACA TGCCACGGAC TTCATGGGAT GTTCTATGAC 
GGGAACCACA CATATCTCAT TGAGCCAGAA GAAAATGACA CTACTCAAGA GGATTTCCAT 
TTTCATTCAG TTTACAAATC CAGACTGTTT GAATTTTCCT TGGATGATCT TCCATCTGAA 
TTTCAGCAAG TAAACATTAC TCCATCAAAA TTTATTTTGA AGCCAAGACC AAAAAGGAGT 
AAACGGCAGC TTCGTCGATA TCCTCGTAAT GTAGAAGAAG AAACCAAATA CATTGAACTG 
ATGATTGTGA ATGATCACCT TATGTTTAAA AAACATCGGC TTTCCGTTGT ACATACCAAT 
ACCTATGCGA AATCTGTGGT GAACATGGCA GATTTAATAT ATAAAGACCA ACTTAAGACC 
AGGATAGTAT TGGTTGCTAT GGAAACCTGG GCGACTGACA ACAAGTTTGC CATATCTGAA 
AATCCATTGA TCACCCTACG TGAGTTTATG AAATACAGGA GGGATTTTAT CAAAGAGAAA 
AGTGATGCAG TTCACCTTTT TTCGGGAAGT CAATTTGAGA GTAGCCGGAG CGGGGCAGCT 
TATATTGGTG GGATTTGCTC GTTGCTGAAA GGAGGAGGCG TGAATGAATT TGGGAAAACT 
GATTTAATGG CTGTTACACT TGCCCAGTCA TTAGCCCATA ATATTGGTAT TATCTCAGAC 
AAAAGAAAGT TAGCAAGTGG TGAATGTAAA TGCGAGGACA CGTGGTCCGG GTGCATAATG 
GGAGACACTG GCTATTATCT TCCTAAAAAG TTCACCCAGT GTAATATTGA AGAGTATCAT 
GACTTCCTGA ATAGTGGAGG TGGTGCCTGC CTTTTCAACA AACCTTCTAA GCTTCTTGAT 
CCTCCTGAGT GTGGCAATGG CTTCATTGAA ACTGGAGAGG AGTGTGATTG TGGAACCCCG 
GCCGAATGTG TCCTTGAAGG AGCAGAGTGT TGTAAGAAAT GCACCTTGAC TCAAGACTCT 
CAATGCAGTG ACGGTCTTTG CTGTAAAAAG TGCAAGTTTC AGCCTATGGG CACTGTGTGC 
CGAGAAGCAG TAAATGATTG TGATATTCGT GAAACGTGCT CAGGAAATTC AAGCCAGTGT 
GCCCCTAATA TTCATAAAAT GGATGGATAT TCATGTGATG GTGTTCAGGG AATTTGCTTT 
GGAGGAAGAT GCAAAACCAG AGATAGACAA TGCAAATACA TTTGGGGGCA AAAGGTGACA 
GCATCAGACA AATATTGCTA TGAGAAACTG AATATTGAAG GGACGGAGAA GGGTAACTGT 
GGGAAAGACA AAGACACATG GATACAGTGC AACAAACGGG ATGTGCTTTG TGGTTACCTT 
TTGTGTACCA ATATTGGCAA TATCCCAAGG CTTGGAGAAC TCGATGGTGA AATCACATCT 
ACTTTAGTTG TGCAGCAAGG AAGAACATTA AACTGCAGTG GTGGGCATGT TAAGCTTGAA 
GAAGATGTAG ATCTTGGCTA TGTGGAAGAT GGGACACCTT GTGGTCCCCA AATGATGTGC 
TTAGAACACA GGTGTCTTCC TGTGGCTTCT TTCAACTTTA GTACTTGCTT GAGCAGTAAA 
GAAGGCACTA TTTGCTCAGG AAATGGAGTT TGCAGTAATG AGCTGAAGTG TGTGTGTAAC 
AGACACTGGA TAGGTTCTGA TTGCAACACT TACTTCCCTC ACAATGATGA TGCAAAGACT 
GGTATCACTC TGTCTGGCAA TGGTGTTGCT GGCACCAATA TCATAATAGG CATAATTGCT 
GGCACCATTT TAGTGCTGGC CCTCATATTA GGAATAACTG CGTGGGGTTA TAAAAACTAT 
CGAGAACAGA GGTCAAATGG GCTCTCTCAT TCTTGGAGTG AAAGGATTCC AGACACAAAA 
CATATTTCAG ACATCTGTGA AAATGGGCGA CCTCGAAGTA ACTCTTGGCA AGGTAACCTG 
GGAGGCAACA AAAAGAAAAT CAGAGGCAAA AGATTTAGAC CTCGGTCTAA TTCAACTGAG 
AGGGAGCCCC AAGCACCTGA GCCTGGGCAC TCCCTCGCCC AGACAGTCCC ATCCCAAGGC 
ATAAGCCCAG GGGGCTCTGA CAGCCCCCAG ACAGGGAGTC TGGATCACAG GTATTTAAAC 
CCATGGTTCA AAAGAGACTA TAATGTAGCT AAGTGGGTAG AAGATGTGAA TAAAAACACT 
GAAGGACCAT ACTTTAGGAC TTTATCTCCT GCCAAGTCTC CTTCTTCATC AACTGGGTCT 
ATTGCCTCCA GCAGAAAATA CCCTTACCCA ATGCCTCCAC TTCCTGATGA GGACAAGAAA 
GTGAACCGAC AAAGTGCCAG GCTATGGGAG ACATCCATTT AA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_017012329.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867818.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X9, mRNA.

Price & Availability↑

CloneID	OHu97339
Clone ID Related Accession (Same CDS sequence)	XM_017012329.2 , XM_017012329.1
Accession Version	XM_017012329.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2862bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-06-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X9
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGATTC AGATGTTTTT GAAGTCAGAA TCCCAGAAGA CCATATACCA GATACAGTTG 
ACTCATGTTG ACCAAGCAAG CTTCCAGGTT GATGCCTTTG GAACGTCATT CATTCTCGAT 
GTCGTGCTAA ATCATGATTT GCTGTCCTCT GAATACATAG AGAGACACAT TGAACATGGA 
GGCAAGACTG TGGAAGTTAA AGGAGGAGAG CACTGTTACT ACCAGGGCCA TATCCGAGGA 
AACCCTGACT CATTTGTTGC ATTGTCAACA TGCCACGGAC TTCATGGGAT GTTCTATGAC 
GGGAACCACA CATATCTCAT TGAGCCAGAA GAAAATGACA CTACTCAAGA GGATTTCCAT 
TTTCATTCAG TTTACAAATC CAGACTGTTT GAATTTTCCT TGGATGATCT TCCATCTGAA 
TTTCAGCAAG TAAACATTAC TCCATCAAAA TTTATTTTGA AGCCAAGACC AAAAAGGAGT 
AAACGGCAGC TTCGTCGATA TCCTCGTAAT GTAGAAGAAG AAACCAAATA CATTGAACTG 
ATGATTGTGA ATGATCACCT TATGTTTAAA AAACATCGGC TTTCCGTTGT ACATACCAAT 
ACCTATGCGA AATCTGTGGT GAACATGGCA GATTTAATAT ATAAAGACCA ACTTAAGACC 
AGGATAGTAT TGGTTGCTAT GGAAACCTGG GCGACTGACA ACAAGTTTGC CATATCTGAA 
AATCCATTGA TCACCCTACG TGAGTTTATG AAATACAGGA GGGATTTTAT CAAAGAGAAA 
AGTGATGCAG TTCACCTTTT TTCGGGAAGT CAATTTGAGA GTAGCCGGAG CGGGGCAGCT 
TATATTGGTG GGATTTGCTC GTTGCTGAAA GGAGGAGGCG TGAATGAATT TGGGAAAACT 
GATTTAATGG CTGTTACACT TGCCCAGTCA TTAGCCCATA ATATTGGTAT TATCTCAGAC 
AAAAGAAAGT TAGCAAGTGG TGAATGTAAA TGCGAGGACA CGTGGTCCGG GTGCATAATG 
GGAGACACTG GCTATTATCT TCCTAAAAAG TTCACCCAGT GTAATATTGA AGAGTATCAT 
GACTTCCTGA ATAGTGGAGG TGGTGCCTGC CTTTTCAACA AACCTTCTAA GCTTCTTGAT 
CCTCCTGAGT GTGGCAATGG CTTCATTGAA ACTGGAGAGG AGTGTGATTG TGGAACCCCG 
GCCGAATGTG TCCTTGAAGG AGCAGAGTGT TGTAAGAAAT GCACCTTGAC TCAAGACTCT 
CAATGCAGTG ACGGTCTTTG CTGTAAAAAG TGCAAGTTTC AGCCTATGGG CACTGTGTGC 
CGAGAAGCAG TAAATGATTG TGATATTCGT GAAACGTGCT CAGGAAATTC AAGCCAGTGT 
GCCCCTAATA TTCATAAAAT GGATGGATAT TCATGTGATG GTGTTCAGGG AATTTGCTTT 
GGAGGAAGAT GCAAAACCAG AGATAGACAA TGCAAATACA TTTGGGGGCA AAAGGTGACA 
GCATCAGACA AATATTGCTA TGAGAAACTG AATATTGAAG GGACGGAGAA GGGTAACTGT 
GGGAAAGACA AAGACACATG GATACAGTGC AACAAACGGG ATGTGCTTTG TGGTTACCTT 
TTGTGTACCA ATATTGGCAA TATCCCAAGG CTTGGAGAAC TCGATGGTGA AATCACATCT 
ACTTTAGTTG TGCAGCAAGG AAGAACATTA AACTGCAGTG GTGGGCATGT TAAGCTTGAA 
GAAGATGTAG ATCTTGGCTA TGTGGAAGAT GGGACACCTT GTGGTCCCCA AATGATGTGC 
TTAGAACACA GGTGTCTTCC TGTGGCTTCT TTCAACTTTA GTACTTGCTT GAGCAGTAAA 
GAAGGCACTA TTTGCTCAGG AAATGGAGTT TGCAGTAATG AGCTGAAGTG TGTGTGTAAC 
AGACACTGGA TAGGTTCTGA TTGCAACACT TACTTCCCTC ACAATGATGA TGCAAAGACT 
GGTATCACTC TGTCTGGCAA TGGTGTTGCT GGCACCAATA TCATAATAGG CATAATTGCT 
GGCACCATTT TAGTGCTGGC CCTCATATTA GGAATAACTG CGTGGGGTTA TAAAAACTAT 
CGAGAACAGA GGTCAAATGG GCTCTCTCAT TCTTGGAGTG AAAGGATTCC AGACACAAAA 
CATATTTCAG ACATCTGTGA AAATGGGCGA CCTCGAAGTA ACTCTTGGCA AGGTAACCTG 
GGAGGCAACA AAAAGAAAAT CAGAGGCAAA AGATTTAGAC CTCGGTCTAA TTCAACTGAG 
AGGGAGCCCC AAGCACCTGA GCCTGGGCAC TCCCTCGCCC AGACAGTCCC ATCCCAAGGC 
ATAAGCCCAG GGGGCTCTGA CAGCCCCCAG ACAGGGAGTC TGGATCACAG GTATTTAAAC 
CCATGGTTCA AAAGAGACTA TAATGTAGCT AAGTGGGTAG AAGATGTGAA TAAAAACACT 
GAAGGACCAT ACTTTAGGAC TTTATCTCCT GCCAAGTCTC CTTCTTCATC AACTGGGTCT 
ATTGCCTCCA GCAGAAAATA CCCTTACCCA ATGCCTCCAC TTCCTGATGA GGACAAGAAA 
GTGAACCGAC AAAGTGCCAG GCTATGGGAG ACATCCATTT AA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_016867818.1
CDS	216..3077
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQAGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQIQMFLKSESQKTIYQIQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTEREPQAPEPGHSLAQTVPSQGISPGGSDSPQTGSLDHRYLNPWFKRDYNVAKWVEDVNKNTEGPYFRTLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_017012329.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X9, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_017012329.1

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGATTC AGATGTTTTT GAAGTCAGAA TCCCAGAAGA CCATATACCA GATACAGTTG 
ACTCATGTTG ACCAAGCAAG CTTCCAGGTT GATGCCTTTG GAACGTCATT CATTCTCGAT 
GTCGTGCTAA ATCATGATTT GCTGTCCTCT GAATACATAG AGAGACACAT TGAACATGGA 
GGCAAGACTG TGGAAGTTAA AGGAGGAGAG CACTGTTACT ACCAGGGCCA TATCCGAGGA 
AACCCTGACT CATTTGTTGC ATTGTCAACA TGCCACGGAC TTCATGGGAT GTTCTATGAC 
GGGAACCACA CATATCTCAT TGAGCCAGAA GAAAATGACA CTACTCAAGA GGATTTCCAT 
TTTCATTCAG TTTACAAATC CAGACTGTTT GAATTTTCCT TGGATGATCT TCCATCTGAA 
TTTCAGCAAG TAAACATTAC TCCATCAAAA TTTATTTTGA AGCCAAGACC AAAAAGGAGT 
AAACGGCAGC TTCGTCGATA TCCTCGTAAT GTAGAAGAAG AAACCAAATA CATTGAACTG 
ATGATTGTGA ATGATCACCT TATGTTTAAA AAACATCGGC TTTCCGTTGT ACATACCAAT 
ACCTATGCGA AATCTGTGGT GAACATGGCA GATTTAATAT ATAAAGACCA ACTTAAGACC 
AGGATAGTAT TGGTTGCTAT GGAAACCTGG GCGACTGACA ACAAGTTTGC CATATCTGAA 
AATCCATTGA TCACCCTACG TGAGTTTATG AAATACAGGA GGGATTTTAT CAAAGAGAAA 
AGTGATGCAG TTCACCTTTT TTCGGGAAGT CAATTTGAGA GTAGCCGGAG CGGGGCAGCT 
TATATTGGTG GGATTTGCTC GTTGCTGAAA GGAGGAGGCG TGAATGAATT TGGGAAAACT 
GATTTAATGG CTGTTACACT TGCCCAGTCA TTAGCCCATA ATATTGGTAT TATCTCAGAC 
AAAAGAAAGT TAGCAAGTGG TGAATGTAAA TGCGAGGACA CGTGGTCCGG GTGCATAATG 
GGAGACACTG GCTATTATCT TCCTAAAAAG TTCACCCAGT GTAATATTGA AGAGTATCAT 
GACTTCCTGA ATAGTGGAGG TGGTGCCTGC CTTTTCAACA AACCTTCTAA GCTTCTTGAT 
CCTCCTGAGT GTGGCAATGG CTTCATTGAA ACTGGAGAGG AGTGTGATTG TGGAACCCCG 
GCCGAATGTG TCCTTGAAGG AGCAGAGTGT TGTAAGAAAT GCACCTTGAC TCAAGACTCT 
CAATGCAGTG ACGGTCTTTG CTGTAAAAAG TGCAAGTTTC AGCCTATGGG CACTGTGTGC 
CGAGAAGCAG TAAATGATTG TGATATTCGT GAAACGTGCT CAGGAAATTC AAGCCAGTGT 
GCCCCTAATA TTCATAAAAT GGATGGATAT TCATGTGATG GTGTTCAGGG AATTTGCTTT 
GGAGGAAGAT GCAAAACCAG AGATAGACAA TGCAAATACA TTTGGGGGCA AAAGGTGACA 
GCATCAGACA AATATTGCTA TGAGAAACTG AATATTGAAG GGACGGAGAA GGGTAACTGT 
GGGAAAGACA AAGACACATG GATACAGTGC AACAAACGGG ATGTGCTTTG TGGTTACCTT 
TTGTGTACCA ATATTGGCAA TATCCCAAGG CTTGGAGAAC TCGATGGTGA AATCACATCT 
ACTTTAGTTG TGCAGCAAGG AAGAACATTA AACTGCAGTG GTGGGCATGT TAAGCTTGAA 
GAAGATGTAG ATCTTGGCTA TGTGGAAGAT GGGACACCTT GTGGTCCCCA AATGATGTGC 
TTAGAACACA GGTGTCTTCC TGTGGCTTCT TTCAACTTTA GTACTTGCTT GAGCAGTAAA 
GAAGGCACTA TTTGCTCAGG AAATGGAGTT TGCAGTAATG AGCTGAAGTG TGTGTGTAAC 
AGACACTGGA TAGGTTCTGA TTGCAACACT TACTTCCCTC ACAATGATGA TGCAAAGACT 
GGTATCACTC TGTCTGGCAA TGGTGTTGCT GGCACCAATA TCATAATAGG CATAATTGCT 
GGCACCATTT TAGTGCTGGC CCTCATATTA GGAATAACTG CGTGGGGTTA TAAAAACTAT 
CGAGAACAGA GGTCAAATGG GCTCTCTCAT TCTTGGAGTG AAAGGATTCC AGACACAAAA 
CATATTTCAG ACATCTGTGA AAATGGGCGA CCTCGAAGTA ACTCTTGGCA AGGTAACCTG 
GGAGGCAACA AAAAGAAAAT CAGAGGCAAA AGATTTAGAC CTCGGTCTAA TTCAACTGAG 
AGGGAGCCCC AAGCACCTGA GCCTGGGCAC TCCCTCGCCC AGACAGTCCC ATCCCAAGGC 
ATAAGCCCAG GGGGCTCTGA CAGCCCCCAG ACAGGGAGTC TGGATCACAG GTATTTAAAC 
CCATGGTTCA AAAGAGACTA TAATGTAGCT AAGTGGGTAG AAGATGTGAA TAAAAACACT 
GAAGGACCAT ACTTTAGGAC TTTATCTCCT GCCAAGTCTC CTTCTTCATC AACTGGGTCT 
ATTGCCTCCA GCAGAAAATA CCCTTACCCA ATGCCTCCAC TTCCTGATGA GGACAAGAAA 
GTGAACCGAC AAAGTGCCAG GCTATGGGAG ACATCCATTT AA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_017012330.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867819.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X10, mRNA.

Price & Availability↑

CloneID	OHu97340
Clone ID Related Accession (Same CDS sequence)	XM_017012330.2 , XM_017012330.1
Accession Version	XM_017012330.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2859bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X10
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017012330.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGATTC AGATGTTTTT GAAGTCAGAA TCCCAGAAGA CCATATACCA GATACAGTTG 
ACTCATGTTG ACCAAGCAAG CTTCCAGGTT GATGCCTTTG GAACGTCATT CATTCTCGAT 
GTCGTGCTAA ATCATGATTT GCTGTCCTCT GAATACATAG AGAGACACAT TGAACATGGA 
GGCAAGACTG TGGAAGTTAA AGGAGGAGAG CACTGTTACT ACCAGGGCCA TATCCGAGGA 
AACCCTGACT CATTTGTTGC ATTGTCAACA TGCCACGGAC TTCATGGGAT GTTCTATGAC 
GGGAACCACA CATATCTCAT TGAGCCAGAA GAAAATGACA CTACTCAAGA GGATTTCCAT 
TTTCATTCAG TTTACAAATC CAGACTGTTT GAATTTTCCT TGGATGATCT TCCATCTGAA 
TTTCAGCAAG TAAACATTAC TCCATCAAAA TTTATTTTGA AGCCAAGACC AAAAAGGAGT 
AAACGGCAGC TTCGTCGATA TCCTCGTAAT GTAGAAGAAG AAACCAAATA CATTGAACTG 
ATGATTGTGA ATGATCACCT TATGTTTAAA AAACATCGGC TTTCCGTTGT ACATACCAAT 
ACCTATGCGA AATCTGTGGT GAACATGGCA GATTTAATAT ATAAAGACCA ACTTAAGACC 
AGGATAGTAT TGGTTGCTAT GGAAACCTGG GCGACTGACA ACAAGTTTGC CATATCTGAA 
AATCCATTGA TCACCCTACG TGAGTTTATG AAATACAGGA GGGATTTTAT CAAAGAGAAA 
AGTGATGCAG TTCACCTTTT TTCGGGAAGT CAATTTGAGA GTAGCCGGAG CGGGGCAGCT 
TATATTGGTG GGATTTGCTC GTTGCTGAAA GGAGGAGGCG TGAATGAATT TGGGAAAACT 
GATTTAATGG CTGTTACACT TGCCCAGTCA TTAGCCCATA ATATTGGTAT TATCTCAGAC 
AAAAGAAAGT TAGCAAGTGG TGAATGTAAA TGCGAGGACA CGTGGTCCGG GTGCATAATG 
GGAGACACTG GCTATTATCT TCCTAAAAAG TTCACCCAGT GTAATATTGA AGAGTATCAT 
GACTTCCTGA ATAGTGGAGG TGGTGCCTGC CTTTTCAACA AACCTTCTAA GCTTCTTGAT 
CCTCCTGAGT GTGGCAATGG CTTCATTGAA ACTGGAGAGG AGTGTGATTG TGGAACCCCG 
GCCGAATGTG TCCTTGAAGG AGCAGAGTGT TGTAAGAAAT GCACCTTGAC TCAAGACTCT 
CAATGCAGTG ACGGTCTTTG CTGTAAAAAG TGCAAGTTTC AGCCTATGGG CACTGTGTGC 
CGAGAAGCAG TAAATGATTG TGATATTCGT GAAACGTGCT CAGGAAATTC AAGCCAGTGT 
GCCCCTAATA TTCATAAAAT GGATGGATAT TCATGTGATG GTGTTCAGGG AATTTGCTTT 
GGAGGAAGAT GCAAAACCAG AGATAGACAA TGCAAATACA TTTGGGGGCA AAAGGTGACA 
GCATCAGACA AATATTGCTA TGAGAAACTG AATATTGAAG GGACGGAGAA GGGTAACTGT 
GGGAAAGACA AAGACACATG GATACAGTGC AACAAACGGG ATGTGCTTTG TGGTTACCTT 
TTGTGTACCA ATATTGGCAA TATCCCAAGG CTTGGAGAAC TCGATGGTGA AATCACATCT 
ACTTTAGTTG TGCAGCAAGG AAGAACATTA AACTGCAGTG GTGGGCATGT TAAGCTTGAA 
GAAGATGTAG ATCTTGGCTA TGTGGAAGAT GGGACACCTT GTGGTCCCCA AATGATGTGC 
TTAGAACACA GGTGTCTTCC TGTGGCTTCT TTCAACTTTA GTACTTGCTT GAGCAGTAAA 
GAAGGCACTA TTTGCTCAGG AAATGGAGTT TGCAGTAATG AGCTGAAGTG TGTGTGTAAC 
AGACACTGGA TAGGTTCTGA TTGCAACACT TACTTCCCTC ACAATGATGA TGCAAAGACT 
GGTATCACTC TGTCTGGCAA TGGTGTTGCT GGCACCAATA TCATAATAGG CATAATTGCT 
GGCACCATTT TAGTGCTGGC CCTCATATTA GGAATAACTG CGTGGGGTTA TAAAAACTAT 
CGAGAACAGA GACAGTTACC CCAGGGAGAT TATGTAAAAA AGCCTGGAGA TGGTGACTCT 
TTTTATAGCG ACATTCCTCC CGGAGTCAGC ACAAACTCAG CATCTAGTTC TAAGAAGAGG 
TCTGCTTTTC TGTCGCATTT TCAGATTTCT ACCTGTTCCA TCACACATTA TTCCATTAGT 
CAGAACATTT CATTATTTTG CAGCAGGTCA AATGGGCTCT CTCATTCTTG GAGTGAAAGG 
ATTCCAGACA CAAAACATAT TTCAGACATC TGTGAAAATG GGCGACCTCG AAGTAACTCT 
TGGCAAGGTA ACCTGGGAGG CAACAAAAAG AAAATCAGAG GCAAAAGATT TAGACCTCGG 
TCTAATTCAA CTGAGACTTT ATCTCCTGCC AAGTCTCCTT CTTCATCAAC TGGGTCTATT 
GCCTCCAGCA GAAAATACCC TTACCCAATG CCTCCACTTC CTGATGAGGA CAAGAAAGTG 
AACCGACAAA GTGCCAGGCT ATGGGAGACA TCCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_016867819.1
CDS	216..3074
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQAGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQIQMFLKSESQKTIYQIQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRQLPQGDYVKKPGDGDSFYSDIPPGVSTNSASSSKKRSAFLSHFQISTCSITHYSISQNISLFCSRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTETLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_017012330.2
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X10, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_017012330.2

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGATTC AGATGTTTTT GAAGTCAGAA TCCCAGAAGA CCATATACCA GATACAGTTG 
ACTCATGTTG ACCAAGCAAG CTTCCAGGTT GATGCCTTTG GAACGTCATT CATTCTCGAT 
GTCGTGCTAA ATCATGATTT GCTGTCCTCT GAATACATAG AGAGACACAT TGAACATGGA 
GGCAAGACTG TGGAAGTTAA AGGAGGAGAG CACTGTTACT ACCAGGGCCA TATCCGAGGA 
AACCCTGACT CATTTGTTGC ATTGTCAACA TGCCACGGAC TTCATGGGAT GTTCTATGAC 
GGGAACCACA CATATCTCAT TGAGCCAGAA GAAAATGACA CTACTCAAGA GGATTTCCAT 
TTTCATTCAG TTTACAAATC CAGACTGTTT GAATTTTCCT TGGATGATCT TCCATCTGAA 
TTTCAGCAAG TAAACATTAC TCCATCAAAA TTTATTTTGA AGCCAAGACC AAAAAGGAGT 
AAACGGCAGC TTCGTCGATA TCCTCGTAAT GTAGAAGAAG AAACCAAATA CATTGAACTG 
ATGATTGTGA ATGATCACCT TATGTTTAAA AAACATCGGC TTTCCGTTGT ACATACCAAT 
ACCTATGCGA AATCTGTGGT GAACATGGCA GATTTAATAT ATAAAGACCA ACTTAAGACC 
AGGATAGTAT TGGTTGCTAT GGAAACCTGG GCGACTGACA ACAAGTTTGC CATATCTGAA 
AATCCATTGA TCACCCTACG TGAGTTTATG AAATACAGGA GGGATTTTAT CAAAGAGAAA 
AGTGATGCAG TTCACCTTTT TTCGGGAAGT CAATTTGAGA GTAGCCGGAG CGGGGCAGCT 
TATATTGGTG GGATTTGCTC GTTGCTGAAA GGAGGAGGCG TGAATGAATT TGGGAAAACT 
GATTTAATGG CTGTTACACT TGCCCAGTCA TTAGCCCATA ATATTGGTAT TATCTCAGAC 
AAAAGAAAGT TAGCAAGTGG TGAATGTAAA TGCGAGGACA CGTGGTCCGG GTGCATAATG 
GGAGACACTG GCTATTATCT TCCTAAAAAG TTCACCCAGT GTAATATTGA AGAGTATCAT 
GACTTCCTGA ATAGTGGAGG TGGTGCCTGC CTTTTCAACA AACCTTCTAA GCTTCTTGAT 
CCTCCTGAGT GTGGCAATGG CTTCATTGAA ACTGGAGAGG AGTGTGATTG TGGAACCCCG 
GCCGAATGTG TCCTTGAAGG AGCAGAGTGT TGTAAGAAAT GCACCTTGAC TCAAGACTCT 
CAATGCAGTG ACGGTCTTTG CTGTAAAAAG TGCAAGTTTC AGCCTATGGG CACTGTGTGC 
CGAGAAGCAG TAAATGATTG TGATATTCGT GAAACGTGCT CAGGAAATTC AAGCCAGTGT 
GCCCCTAATA TTCATAAAAT GGATGGATAT TCATGTGATG GTGTTCAGGG AATTTGCTTT 
GGAGGAAGAT GCAAAACCAG AGATAGACAA TGCAAATACA TTTGGGGGCA AAAGGTGACA 
GCATCAGACA AATATTGCTA TGAGAAACTG AATATTGAAG GGACGGAGAA GGGTAACTGT 
GGGAAAGACA AAGACACATG GATACAGTGC AACAAACGGG ATGTGCTTTG TGGTTACCTT 
TTGTGTACCA ATATTGGCAA TATCCCAAGG CTTGGAGAAC TCGATGGTGA AATCACATCT 
ACTTTAGTTG TGCAGCAAGG AAGAACATTA AACTGCAGTG GTGGGCATGT TAAGCTTGAA 
GAAGATGTAG ATCTTGGCTA TGTGGAAGAT GGGACACCTT GTGGTCCCCA AATGATGTGC 
TTAGAACACA GGTGTCTTCC TGTGGCTTCT TTCAACTTTA GTACTTGCTT GAGCAGTAAA 
GAAGGCACTA TTTGCTCAGG AAATGGAGTT TGCAGTAATG AGCTGAAGTG TGTGTGTAAC 
AGACACTGGA TAGGTTCTGA TTGCAACACT TACTTCCCTC ACAATGATGA TGCAAAGACT 
GGTATCACTC TGTCTGGCAA TGGTGTTGCT GGCACCAATA TCATAATAGG CATAATTGCT 
GGCACCATTT TAGTGCTGGC CCTCATATTA GGAATAACTG CGTGGGGTTA TAAAAACTAT 
CGAGAACAGA GACAGTTACC CCAGGGAGAT TATGTAAAAA AGCCTGGAGA TGGTGACTCT 
TTTTATAGCG ACATTCCTCC CGGAGTCAGC ACAAACTCAG CATCTAGTTC TAAGAAGAGG 
TCTGCTTTTC TGTCGCATTT TCAGATTTCT ACCTGTTCCA TCACACATTA TTCCATTAGT 
CAGAACATTT CATTATTTTG CAGCAGGTCA AATGGGCTCT CTCATTCTTG GAGTGAAAGG 
ATTCCAGACA CAAAACATAT TTCAGACATC TGTGAAAATG GGCGACCTCG AAGTAACTCT 
TGGCAAGGTA ACCTGGGAGG CAACAAAAAG AAAATCAGAG GCAAAAGATT TAGACCTCGG 
TCTAATTCAA CTGAGACTTT ATCTCCTGCC AAGTCTCCTT CTTCATCAAC TGGGTCTATT 
GCCTCCAGCA GAAAATACCC TTACCCAATG CCTCCACTTC CTGATGAGGA CAAGAAAGTG 
AACCGACAAA GTGCCAGGCT ATGGGAGACA TCCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_017012330.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867819.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X10, mRNA.

Price & Availability↑

CloneID	OHu97340
Clone ID Related Accession (Same CDS sequence)	XM_017012330.2 , XM_017012330.1
Accession Version	XM_017012330.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2859bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-06-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X10
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGATTC AGATGTTTTT GAAGTCAGAA TCCCAGAAGA CCATATACCA GATACAGTTG 
ACTCATGTTG ACCAAGCAAG CTTCCAGGTT GATGCCTTTG GAACGTCATT CATTCTCGAT 
GTCGTGCTAA ATCATGATTT GCTGTCCTCT GAATACATAG AGAGACACAT TGAACATGGA 
GGCAAGACTG TGGAAGTTAA AGGAGGAGAG CACTGTTACT ACCAGGGCCA TATCCGAGGA 
AACCCTGACT CATTTGTTGC ATTGTCAACA TGCCACGGAC TTCATGGGAT GTTCTATGAC 
GGGAACCACA CATATCTCAT TGAGCCAGAA GAAAATGACA CTACTCAAGA GGATTTCCAT 
TTTCATTCAG TTTACAAATC CAGACTGTTT GAATTTTCCT TGGATGATCT TCCATCTGAA 
TTTCAGCAAG TAAACATTAC TCCATCAAAA TTTATTTTGA AGCCAAGACC AAAAAGGAGT 
AAACGGCAGC TTCGTCGATA TCCTCGTAAT GTAGAAGAAG AAACCAAATA CATTGAACTG 
ATGATTGTGA ATGATCACCT TATGTTTAAA AAACATCGGC TTTCCGTTGT ACATACCAAT 
ACCTATGCGA AATCTGTGGT GAACATGGCA GATTTAATAT ATAAAGACCA ACTTAAGACC 
AGGATAGTAT TGGTTGCTAT GGAAACCTGG GCGACTGACA ACAAGTTTGC CATATCTGAA 
AATCCATTGA TCACCCTACG TGAGTTTATG AAATACAGGA GGGATTTTAT CAAAGAGAAA 
AGTGATGCAG TTCACCTTTT TTCGGGAAGT CAATTTGAGA GTAGCCGGAG CGGGGCAGCT 
TATATTGGTG GGATTTGCTC GTTGCTGAAA GGAGGAGGCG TGAATGAATT TGGGAAAACT 
GATTTAATGG CTGTTACACT TGCCCAGTCA TTAGCCCATA ATATTGGTAT TATCTCAGAC 
AAAAGAAAGT TAGCAAGTGG TGAATGTAAA TGCGAGGACA CGTGGTCCGG GTGCATAATG 
GGAGACACTG GCTATTATCT TCCTAAAAAG TTCACCCAGT GTAATATTGA AGAGTATCAT 
GACTTCCTGA ATAGTGGAGG TGGTGCCTGC CTTTTCAACA AACCTTCTAA GCTTCTTGAT 
CCTCCTGAGT GTGGCAATGG CTTCATTGAA ACTGGAGAGG AGTGTGATTG TGGAACCCCG 
GCCGAATGTG TCCTTGAAGG AGCAGAGTGT TGTAAGAAAT GCACCTTGAC TCAAGACTCT 
CAATGCAGTG ACGGTCTTTG CTGTAAAAAG TGCAAGTTTC AGCCTATGGG CACTGTGTGC 
CGAGAAGCAG TAAATGATTG TGATATTCGT GAAACGTGCT CAGGAAATTC AAGCCAGTGT 
GCCCCTAATA TTCATAAAAT GGATGGATAT TCATGTGATG GTGTTCAGGG AATTTGCTTT 
GGAGGAAGAT GCAAAACCAG AGATAGACAA TGCAAATACA TTTGGGGGCA AAAGGTGACA 
GCATCAGACA AATATTGCTA TGAGAAACTG AATATTGAAG GGACGGAGAA GGGTAACTGT 
GGGAAAGACA AAGACACATG GATACAGTGC AACAAACGGG ATGTGCTTTG TGGTTACCTT 
TTGTGTACCA ATATTGGCAA TATCCCAAGG CTTGGAGAAC TCGATGGTGA AATCACATCT 
ACTTTAGTTG TGCAGCAAGG AAGAACATTA AACTGCAGTG GTGGGCATGT TAAGCTTGAA 
GAAGATGTAG ATCTTGGCTA TGTGGAAGAT GGGACACCTT GTGGTCCCCA AATGATGTGC 
TTAGAACACA GGTGTCTTCC TGTGGCTTCT TTCAACTTTA GTACTTGCTT GAGCAGTAAA 
GAAGGCACTA TTTGCTCAGG AAATGGAGTT TGCAGTAATG AGCTGAAGTG TGTGTGTAAC 
AGACACTGGA TAGGTTCTGA TTGCAACACT TACTTCCCTC ACAATGATGA TGCAAAGACT 
GGTATCACTC TGTCTGGCAA TGGTGTTGCT GGCACCAATA TCATAATAGG CATAATTGCT 
GGCACCATTT TAGTGCTGGC CCTCATATTA GGAATAACTG CGTGGGGTTA TAAAAACTAT 
CGAGAACAGA GACAGTTACC CCAGGGAGAT TATGTAAAAA AGCCTGGAGA TGGTGACTCT 
TTTTATAGCG ACATTCCTCC CGGAGTCAGC ACAAACTCAG CATCTAGTTC TAAGAAGAGG 
TCTGCTTTTC TGTCGCATTT TCAGATTTCT ACCTGTTCCA TCACACATTA TTCCATTAGT 
CAGAACATTT CATTATTTTG CAGCAGGTCA AATGGGCTCT CTCATTCTTG GAGTGAAAGG 
ATTCCAGACA CAAAACATAT TTCAGACATC TGTGAAAATG GGCGACCTCG AAGTAACTCT 
TGGCAAGGTA ACCTGGGAGG CAACAAAAAG AAAATCAGAG GCAAAAGATT TAGACCTCGG 
TCTAATTCAA CTGAGACTTT ATCTCCTGCC AAGTCTCCTT CTTCATCAAC TGGGTCTATT 
GCCTCCAGCA GAAAATACCC TTACCCAATG CCTCCACTTC CTGATGAGGA CAAGAAAGTG 
AACCGACAAA GTGCCAGGCT ATGGGAGACA TCCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_016867819.1
CDS	216..3074
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQAGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQIQMFLKSESQKTIYQIQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRQLPQGDYVKKPGDGDSFYSDIPPGVSTNSASSSKKRSAFLSHFQISTCSITHYSISQNISLFCSRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTETLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_017012330.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X10, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_017012330.1

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGATTC AGATGTTTTT GAAGTCAGAA TCCCAGAAGA CCATATACCA GATACAGTTG 
ACTCATGTTG ACCAAGCAAG CTTCCAGGTT GATGCCTTTG GAACGTCATT CATTCTCGAT 
GTCGTGCTAA ATCATGATTT GCTGTCCTCT GAATACATAG AGAGACACAT TGAACATGGA 
GGCAAGACTG TGGAAGTTAA AGGAGGAGAG CACTGTTACT ACCAGGGCCA TATCCGAGGA 
AACCCTGACT CATTTGTTGC ATTGTCAACA TGCCACGGAC TTCATGGGAT GTTCTATGAC 
GGGAACCACA CATATCTCAT TGAGCCAGAA GAAAATGACA CTACTCAAGA GGATTTCCAT 
TTTCATTCAG TTTACAAATC CAGACTGTTT GAATTTTCCT TGGATGATCT TCCATCTGAA 
TTTCAGCAAG TAAACATTAC TCCATCAAAA TTTATTTTGA AGCCAAGACC AAAAAGGAGT 
AAACGGCAGC TTCGTCGATA TCCTCGTAAT GTAGAAGAAG AAACCAAATA CATTGAACTG 
ATGATTGTGA ATGATCACCT TATGTTTAAA AAACATCGGC TTTCCGTTGT ACATACCAAT 
ACCTATGCGA AATCTGTGGT GAACATGGCA GATTTAATAT ATAAAGACCA ACTTAAGACC 
AGGATAGTAT TGGTTGCTAT GGAAACCTGG GCGACTGACA ACAAGTTTGC CATATCTGAA 
AATCCATTGA TCACCCTACG TGAGTTTATG AAATACAGGA GGGATTTTAT CAAAGAGAAA 
AGTGATGCAG TTCACCTTTT TTCGGGAAGT CAATTTGAGA GTAGCCGGAG CGGGGCAGCT 
TATATTGGTG GGATTTGCTC GTTGCTGAAA GGAGGAGGCG TGAATGAATT TGGGAAAACT 
GATTTAATGG CTGTTACACT TGCCCAGTCA TTAGCCCATA ATATTGGTAT TATCTCAGAC 
AAAAGAAAGT TAGCAAGTGG TGAATGTAAA TGCGAGGACA CGTGGTCCGG GTGCATAATG 
GGAGACACTG GCTATTATCT TCCTAAAAAG TTCACCCAGT GTAATATTGA AGAGTATCAT 
GACTTCCTGA ATAGTGGAGG TGGTGCCTGC CTTTTCAACA AACCTTCTAA GCTTCTTGAT 
CCTCCTGAGT GTGGCAATGG CTTCATTGAA ACTGGAGAGG AGTGTGATTG TGGAACCCCG 
GCCGAATGTG TCCTTGAAGG AGCAGAGTGT TGTAAGAAAT GCACCTTGAC TCAAGACTCT 
CAATGCAGTG ACGGTCTTTG CTGTAAAAAG TGCAAGTTTC AGCCTATGGG CACTGTGTGC 
CGAGAAGCAG TAAATGATTG TGATATTCGT GAAACGTGCT CAGGAAATTC AAGCCAGTGT 
GCCCCTAATA TTCATAAAAT GGATGGATAT TCATGTGATG GTGTTCAGGG AATTTGCTTT 
GGAGGAAGAT GCAAAACCAG AGATAGACAA TGCAAATACA TTTGGGGGCA AAAGGTGACA 
GCATCAGACA AATATTGCTA TGAGAAACTG AATATTGAAG GGACGGAGAA GGGTAACTGT 
GGGAAAGACA AAGACACATG GATACAGTGC AACAAACGGG ATGTGCTTTG TGGTTACCTT 
TTGTGTACCA ATATTGGCAA TATCCCAAGG CTTGGAGAAC TCGATGGTGA AATCACATCT 
ACTTTAGTTG TGCAGCAAGG AAGAACATTA AACTGCAGTG GTGGGCATGT TAAGCTTGAA 
GAAGATGTAG ATCTTGGCTA TGTGGAAGAT GGGACACCTT GTGGTCCCCA AATGATGTGC 
TTAGAACACA GGTGTCTTCC TGTGGCTTCT TTCAACTTTA GTACTTGCTT GAGCAGTAAA 
GAAGGCACTA TTTGCTCAGG AAATGGAGTT TGCAGTAATG AGCTGAAGTG TGTGTGTAAC 
AGACACTGGA TAGGTTCTGA TTGCAACACT TACTTCCCTC ACAATGATGA TGCAAAGACT 
GGTATCACTC TGTCTGGCAA TGGTGTTGCT GGCACCAATA TCATAATAGG CATAATTGCT 
GGCACCATTT TAGTGCTGGC CCTCATATTA GGAATAACTG CGTGGGGTTA TAAAAACTAT 
CGAGAACAGA GACAGTTACC CCAGGGAGAT TATGTAAAAA AGCCTGGAGA TGGTGACTCT 
TTTTATAGCG ACATTCCTCC CGGAGTCAGC ACAAACTCAG CATCTAGTTC TAAGAAGAGG 
TCTGCTTTTC TGTCGCATTT TCAGATTTCT ACCTGTTCCA TCACACATTA TTCCATTAGT 
CAGAACATTT CATTATTTTG CAGCAGGTCA AATGGGCTCT CTCATTCTTG GAGTGAAAGG 
ATTCCAGACA CAAAACATAT TTCAGACATC TGTGAAAATG GGCGACCTCG AAGTAACTCT 
TGGCAAGGTA ACCTGGGAGG CAACAAAAAG AAAATCAGAG GCAAAAGATT TAGACCTCGG 
TCTAATTCAA CTGAGACTTT ATCTCCTGCC AAGTCTCCTT CTTCATCAAC TGGGTCTATT 
GCCTCCAGCA GAAAATACCC TTACCCAATG CCTCCACTTC CTGATGAGGA CAAGAAAGTG 
AACCGACAAA GTGCCAGGCT ATGGGAGACA TCCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_017012331.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867820.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X12, mRNA.

Price & Availability↑

CloneID	OHu97341
Clone ID Related Accession (Same CDS sequence)	XM_017012331.2 , XM_017012331.1
Accession Version	XM_017012331.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2808bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X12
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017012331.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGACGCC TCATTGATGG AGCTAGAGAA GAGGAAGGAA 
AACCGCTTCG TGGAGCGCCA GAGCATCGTG CCACTGCGCC TCATCTACCG CTCGGGCGGC 
GAAGACGAAA GTCGGCACGA CGCGCTCGAC ACGCGGGTGC GGGGCGACCT CGGTGGCCCG 
CAGTTGACTC ATGTTGACCA AGCAAGCTTC CAGGTTGATG CCTTTGGAAC GTCATTCATT 
CTCGATGTCG TGCTAAATCA TGATTTGCTG TCCTCTGAAT ACATAGAGAG ACACATTGAA 
CATGGAGGCA AGACTGTGGA AGTTAAAGGA GGAGAGCACT GTTACTACCA GGGCCATATC 
CGAGGAAACC CTGACTCATT TGTTGCATTG TCAACATGCC ACGGACTTCA TGGGATGTTC 
TATGACGGGA ACCACACATA TCTCATTGAG CCAGAAGAAA ATGACACTAC TCAAGAGGAT 
TTCCATTTTC ATTCAGTTTA CAAATCCAGA CTGTTTGAAT TTTCCTTGGA TGATCTTCCA 
TCTGAATTTC AGCAAGTAAA CATTACTCCA TCAAAATTTA TTTTGAAGCC AAGACCAAAA 
AGGAGTAAAC GGCAGCTTCG TCGATATCCT CGTAATGTAG AAGAAGAAAC CAAATACATT 
GAACTGATGA TTGTGAATGA TCACCTTATG TTTAAAAAAC ATCGGCTTTC CGTTGTACAT 
ACCAATACCT ATGCGAAATC TGTGGTGAAC ATGGCAGATT TAATATATAA AGACCAACTT 
AAGACCAGGA TAGTATTGGT TGCTATGGAA ACCTGGGCGA CTGACAACAA GTTTGCCATA 
TCTGAAAATC CATTGATCAC CCTACGTGAG TTTATGAAAT ACAGGAGGGA TTTTATCAAA 
GAGAAAAGTG ATGCAGTTCA CCTTTTTTCG GGAAGTCAAT TTGAGAGTAG CCGGAGCGGG 
GCAGCTTATA TTGGTGGGAT TTGCTCGTTG CTGAAAGGAG GAGGCGTGAA TGAATTTGGG 
AAAACTGATT TAATGGCTGT TACACTTGCC CAGTCATTAG CCCATAATAT TGGTATTATC 
TCAGACAAAA GAAAGTTAGC AAGTGGTGAA TGTAAATGCG AGGACACGTG GTCCGGGTGC 
ATAATGGGAG ACACTGGCTA TTATCTTCCT AAAAAGTTCA CCCAGTGTAA TATTGAAGAG 
TATCATGACT TCCTGAATAG TGGAGGTGGT GCCTGCCTTT TCAACAAACC TTCTAAGCTT 
CTTGATCCTC CTGAGTGTGG CAATGGCTTC ATTGAAACTG GAGAGGAGTG TGATTGTGGA 
ACCCCGGCCG AATGTGTCCT TGAAGGAGCA GAGTGTTGTA AGAAATGCAC CTTGACTCAA 
GACTCTCAAT GCAGTGACGG TCTTTGCTGT AAAAAGTGCA AGTTTCAGCC TATGGGCACT 
GTGTGCCGAG AAGCAGTAAA TGATTGTGAT ATTCGTGAAA CGTGCTCAGG AAATTCAAGC 
CAGTGTGCCC CTAATATTCA TAAAATGGAT GGATATTCAT GTGATGGTGT TCAGGGAATT 
TGCTTTGGAG GAAGATGCAA AACCAGAGAT AGACAATGCA AATACATTTG GGGGCAAAAG 
GTGACAGCAT CAGACAAATA TTGCTATGAG AAACTGAATA TTGAAGGGAC GGAGAAGGGT 
AACTGTGGGA AAGACAAAGA CACATGGATA CAGTGCAACA AACGGGATGT GCTTTGTGGT 
TACCTTTTGT GTACCAATAT TGGCAATATC CCAAGGCTTG GAGAACTCGA TGGTGAAATC 
ACATCTACTT TAGTTGTGCA GCAAGGAAGA ACATTAAACT GCAGTGGTGG GCATGTTAAG 
CTTGAAGAAG ATGTAGATCT TGGCTATGTG GAAGATGGGA CACCTTGTGG TCCCCAAATG 
ATGTGCTTAG AACACAGGTG TCTTCCTGTG GCTTCTTTCA ACTTTAGTAC TTGCTTGAGC 
AGTAAAGAAG GCACTATTTG CTCAGGAAAT GGAGTTTGCA GTAATGAGCT GAAGTGTGTG 
TGTAACAGAC ACTGGATAGG TTCTGATTGC AACACTTACT TCCCTCACAA TGATGATGCA 
AAGACTGGTA TCACTCTGTC TGGCAATGGT GTTGCTGGCA CCAATATCAT AATAGGCATA 
ATTGCTGGCA CCATTTTAGT GCTGGCCCTC ATATTAGGAA TAACTGCGTG GGGTTATAAA 
AACTATCGAG AACAGAGGTC AAATGGGCTC TCTCATTCTT GGAGTGAAAG GATTCCAGAC 
ACAAAACATA TTTCAGACAT CTGTGAAAAT GGGCGACCTC GAAGTAACTC TTGGCAAGGT 
AACCTGGGAG GCAACAAAAA GAAAATCAGA GGCAAAAGAT TTAGACCTCG GTCTAATTCA 
ACTGAGAGGG AGCCCCAAGC ACCTGAGCCT GGGCACTCCC TCGCCCAGAC AGTCCCATCC 
CAAGGCATAA GCCCAGGGGG CTCTGACAGC CCCCAGACAG GGAGTCTGGA TCACAGGTAT 
TTAAACCCAT GGTTCAAAAG AGACTATAAT GTAGCTAAGT GGGTAGAAGA TGTGAATAAA 
AACACTGAAG GACCATACTT TAGGACTTTA TCTCCTGCCA AGTCTCCTTC TTCATCAACT 
GGGTCTATTG CCTCCAGCAG AAAATACCCT TACCCAATGC CTCCACTTCC TGATGAGGAC 
AAGAAAGTGA ACCGACAAAG TGCCAGGCTA TGGGAGACAT CCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_016867820.1
CDS	300..3107
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQADASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTEREPQAPEPGHSLAQTVPSQGISPGGSDSPQTGSLDHRYLNPWFKRDYNVAKWVEDVNKNTEGPYFRTLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_017012331.2
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X12, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_017012331.2

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGACGCC TCATTGATGG AGCTAGAGAA GAGGAAGGAA 
AACCGCTTCG TGGAGCGCCA GAGCATCGTG CCACTGCGCC TCATCTACCG CTCGGGCGGC 
GAAGACGAAA GTCGGCACGA CGCGCTCGAC ACGCGGGTGC GGGGCGACCT CGGTGGCCCG 
CAGTTGACTC ATGTTGACCA AGCAAGCTTC CAGGTTGATG CCTTTGGAAC GTCATTCATT 
CTCGATGTCG TGCTAAATCA TGATTTGCTG TCCTCTGAAT ACATAGAGAG ACACATTGAA 
CATGGAGGCA AGACTGTGGA AGTTAAAGGA GGAGAGCACT GTTACTACCA GGGCCATATC 
CGAGGAAACC CTGACTCATT TGTTGCATTG TCAACATGCC ACGGACTTCA TGGGATGTTC 
TATGACGGGA ACCACACATA TCTCATTGAG CCAGAAGAAA ATGACACTAC TCAAGAGGAT 
TTCCATTTTC ATTCAGTTTA CAAATCCAGA CTGTTTGAAT TTTCCTTGGA TGATCTTCCA 
TCTGAATTTC AGCAAGTAAA CATTACTCCA TCAAAATTTA TTTTGAAGCC AAGACCAAAA 
AGGAGTAAAC GGCAGCTTCG TCGATATCCT CGTAATGTAG AAGAAGAAAC CAAATACATT 
GAACTGATGA TTGTGAATGA TCACCTTATG TTTAAAAAAC ATCGGCTTTC CGTTGTACAT 
ACCAATACCT ATGCGAAATC TGTGGTGAAC ATGGCAGATT TAATATATAA AGACCAACTT 
AAGACCAGGA TAGTATTGGT TGCTATGGAA ACCTGGGCGA CTGACAACAA GTTTGCCATA 
TCTGAAAATC CATTGATCAC CCTACGTGAG TTTATGAAAT ACAGGAGGGA TTTTATCAAA 
GAGAAAAGTG ATGCAGTTCA CCTTTTTTCG GGAAGTCAAT TTGAGAGTAG CCGGAGCGGG 
GCAGCTTATA TTGGTGGGAT TTGCTCGTTG CTGAAAGGAG GAGGCGTGAA TGAATTTGGG 
AAAACTGATT TAATGGCTGT TACACTTGCC CAGTCATTAG CCCATAATAT TGGTATTATC 
TCAGACAAAA GAAAGTTAGC AAGTGGTGAA TGTAAATGCG AGGACACGTG GTCCGGGTGC 
ATAATGGGAG ACACTGGCTA TTATCTTCCT AAAAAGTTCA CCCAGTGTAA TATTGAAGAG 
TATCATGACT TCCTGAATAG TGGAGGTGGT GCCTGCCTTT TCAACAAACC TTCTAAGCTT 
CTTGATCCTC CTGAGTGTGG CAATGGCTTC ATTGAAACTG GAGAGGAGTG TGATTGTGGA 
ACCCCGGCCG AATGTGTCCT TGAAGGAGCA GAGTGTTGTA AGAAATGCAC CTTGACTCAA 
GACTCTCAAT GCAGTGACGG TCTTTGCTGT AAAAAGTGCA AGTTTCAGCC TATGGGCACT 
GTGTGCCGAG AAGCAGTAAA TGATTGTGAT ATTCGTGAAA CGTGCTCAGG AAATTCAAGC 
CAGTGTGCCC CTAATATTCA TAAAATGGAT GGATATTCAT GTGATGGTGT TCAGGGAATT 
TGCTTTGGAG GAAGATGCAA AACCAGAGAT AGACAATGCA AATACATTTG GGGGCAAAAG 
GTGACAGCAT CAGACAAATA TTGCTATGAG AAACTGAATA TTGAAGGGAC GGAGAAGGGT 
AACTGTGGGA AAGACAAAGA CACATGGATA CAGTGCAACA AACGGGATGT GCTTTGTGGT 
TACCTTTTGT GTACCAATAT TGGCAATATC CCAAGGCTTG GAGAACTCGA TGGTGAAATC 
ACATCTACTT TAGTTGTGCA GCAAGGAAGA ACATTAAACT GCAGTGGTGG GCATGTTAAG 
CTTGAAGAAG ATGTAGATCT TGGCTATGTG GAAGATGGGA CACCTTGTGG TCCCCAAATG 
ATGTGCTTAG AACACAGGTG TCTTCCTGTG GCTTCTTTCA ACTTTAGTAC TTGCTTGAGC 
AGTAAAGAAG GCACTATTTG CTCAGGAAAT GGAGTTTGCA GTAATGAGCT GAAGTGTGTG 
TGTAACAGAC ACTGGATAGG TTCTGATTGC AACACTTACT TCCCTCACAA TGATGATGCA 
AAGACTGGTA TCACTCTGTC TGGCAATGGT GTTGCTGGCA CCAATATCAT AATAGGCATA 
ATTGCTGGCA CCATTTTAGT GCTGGCCCTC ATATTAGGAA TAACTGCGTG GGGTTATAAA 
AACTATCGAG AACAGAGGTC AAATGGGCTC TCTCATTCTT GGAGTGAAAG GATTCCAGAC 
ACAAAACATA TTTCAGACAT CTGTGAAAAT GGGCGACCTC GAAGTAACTC TTGGCAAGGT 
AACCTGGGAG GCAACAAAAA GAAAATCAGA GGCAAAAGAT TTAGACCTCG GTCTAATTCA 
ACTGAGAGGG AGCCCCAAGC ACCTGAGCCT GGGCACTCCC TCGCCCAGAC AGTCCCATCC 
CAAGGCATAA GCCCAGGGGG CTCTGACAGC CCCCAGACAG GGAGTCTGGA TCACAGGTAT 
TTAAACCCAT GGTTCAAAAG AGACTATAAT GTAGCTAAGT GGGTAGAAGA TGTGAATAAA 
AACACTGAAG GACCATACTT TAGGACTTTA TCTCCTGCCA AGTCTCCTTC TTCATCAACT 
GGGTCTATTG CCTCCAGCAG AAAATACCCT TACCCAATGC CTCCACTTCC TGATGAGGAC 
AAGAAAGTGA ACCGACAAAG TGCCAGGCTA TGGGAGACAT CCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_017012331.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867820.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X12, mRNA.

Price & Availability↑

CloneID	OHu97341
Clone ID Related Accession (Same CDS sequence)	XM_017012331.2 , XM_017012331.1
Accession Version	XM_017012331.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2808bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-06-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X12
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGACGCC TCATTGATGG AGCTAGAGAA GAGGAAGGAA 
AACCGCTTCG TGGAGCGCCA GAGCATCGTG CCACTGCGCC TCATCTACCG CTCGGGCGGC 
GAAGACGAAA GTCGGCACGA CGCGCTCGAC ACGCGGGTGC GGGGCGACCT CGGTGGCCCG 
CAGTTGACTC ATGTTGACCA AGCAAGCTTC CAGGTTGATG CCTTTGGAAC GTCATTCATT 
CTCGATGTCG TGCTAAATCA TGATTTGCTG TCCTCTGAAT ACATAGAGAG ACACATTGAA 
CATGGAGGCA AGACTGTGGA AGTTAAAGGA GGAGAGCACT GTTACTACCA GGGCCATATC 
CGAGGAAACC CTGACTCATT TGTTGCATTG TCAACATGCC ACGGACTTCA TGGGATGTTC 
TATGACGGGA ACCACACATA TCTCATTGAG CCAGAAGAAA ATGACACTAC TCAAGAGGAT 
TTCCATTTTC ATTCAGTTTA CAAATCCAGA CTGTTTGAAT TTTCCTTGGA TGATCTTCCA 
TCTGAATTTC AGCAAGTAAA CATTACTCCA TCAAAATTTA TTTTGAAGCC AAGACCAAAA 
AGGAGTAAAC GGCAGCTTCG TCGATATCCT CGTAATGTAG AAGAAGAAAC CAAATACATT 
GAACTGATGA TTGTGAATGA TCACCTTATG TTTAAAAAAC ATCGGCTTTC CGTTGTACAT 
ACCAATACCT ATGCGAAATC TGTGGTGAAC ATGGCAGATT TAATATATAA AGACCAACTT 
AAGACCAGGA TAGTATTGGT TGCTATGGAA ACCTGGGCGA CTGACAACAA GTTTGCCATA 
TCTGAAAATC CATTGATCAC CCTACGTGAG TTTATGAAAT ACAGGAGGGA TTTTATCAAA 
GAGAAAAGTG ATGCAGTTCA CCTTTTTTCG GGAAGTCAAT TTGAGAGTAG CCGGAGCGGG 
GCAGCTTATA TTGGTGGGAT TTGCTCGTTG CTGAAAGGAG GAGGCGTGAA TGAATTTGGG 
AAAACTGATT TAATGGCTGT TACACTTGCC CAGTCATTAG CCCATAATAT TGGTATTATC 
TCAGACAAAA GAAAGTTAGC AAGTGGTGAA TGTAAATGCG AGGACACGTG GTCCGGGTGC 
ATAATGGGAG ACACTGGCTA TTATCTTCCT AAAAAGTTCA CCCAGTGTAA TATTGAAGAG 
TATCATGACT TCCTGAATAG TGGAGGTGGT GCCTGCCTTT TCAACAAACC TTCTAAGCTT 
CTTGATCCTC CTGAGTGTGG CAATGGCTTC ATTGAAACTG GAGAGGAGTG TGATTGTGGA 
ACCCCGGCCG AATGTGTCCT TGAAGGAGCA GAGTGTTGTA AGAAATGCAC CTTGACTCAA 
GACTCTCAAT GCAGTGACGG TCTTTGCTGT AAAAAGTGCA AGTTTCAGCC TATGGGCACT 
GTGTGCCGAG AAGCAGTAAA TGATTGTGAT ATTCGTGAAA CGTGCTCAGG AAATTCAAGC 
CAGTGTGCCC CTAATATTCA TAAAATGGAT GGATATTCAT GTGATGGTGT TCAGGGAATT 
TGCTTTGGAG GAAGATGCAA AACCAGAGAT AGACAATGCA AATACATTTG GGGGCAAAAG 
GTGACAGCAT CAGACAAATA TTGCTATGAG AAACTGAATA TTGAAGGGAC GGAGAAGGGT 
AACTGTGGGA AAGACAAAGA CACATGGATA CAGTGCAACA AACGGGATGT GCTTTGTGGT 
TACCTTTTGT GTACCAATAT TGGCAATATC CCAAGGCTTG GAGAACTCGA TGGTGAAATC 
ACATCTACTT TAGTTGTGCA GCAAGGAAGA ACATTAAACT GCAGTGGTGG GCATGTTAAG 
CTTGAAGAAG ATGTAGATCT TGGCTATGTG GAAGATGGGA CACCTTGTGG TCCCCAAATG 
ATGTGCTTAG AACACAGGTG TCTTCCTGTG GCTTCTTTCA ACTTTAGTAC TTGCTTGAGC 
AGTAAAGAAG GCACTATTTG CTCAGGAAAT GGAGTTTGCA GTAATGAGCT GAAGTGTGTG 
TGTAACAGAC ACTGGATAGG TTCTGATTGC AACACTTACT TCCCTCACAA TGATGATGCA 
AAGACTGGTA TCACTCTGTC TGGCAATGGT GTTGCTGGCA CCAATATCAT AATAGGCATA 
ATTGCTGGCA CCATTTTAGT GCTGGCCCTC ATATTAGGAA TAACTGCGTG GGGTTATAAA 
AACTATCGAG AACAGAGGTC AAATGGGCTC TCTCATTCTT GGAGTGAAAG GATTCCAGAC 
ACAAAACATA TTTCAGACAT CTGTGAAAAT GGGCGACCTC GAAGTAACTC TTGGCAAGGT 
AACCTGGGAG GCAACAAAAA GAAAATCAGA GGCAAAAGAT TTAGACCTCG GTCTAATTCA 
ACTGAGAGGG AGCCCCAAGC ACCTGAGCCT GGGCACTCCC TCGCCCAGAC AGTCCCATCC 
CAAGGCATAA GCCCAGGGGG CTCTGACAGC CCCCAGACAG GGAGTCTGGA TCACAGGTAT 
TTAAACCCAT GGTTCAAAAG AGACTATAAT GTAGCTAAGT GGGTAGAAGA TGTGAATAAA 
AACACTGAAG GACCATACTT TAGGACTTTA TCTCCTGCCA AGTCTCCTTC TTCATCAACT 
GGGTCTATTG CCTCCAGCAG AAAATACCCT TACCCAATGC CTCCACTTCC TGATGAGGAC 
AAGAAAGTGA ACCGACAAAG TGCCAGGCTA TGGGAGACAT CCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_016867820.1
CDS	300..3107
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQADASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTEREPQAPEPGHSLAQTVPSQGISPGGSDSPQTGSLDHRYLNPWFKRDYNVAKWVEDVNKNTEGPYFRTLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_017012331.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X12, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_017012331.1

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGACGCC TCATTGATGG AGCTAGAGAA GAGGAAGGAA 
AACCGCTTCG TGGAGCGCCA GAGCATCGTG CCACTGCGCC TCATCTACCG CTCGGGCGGC 
GAAGACGAAA GTCGGCACGA CGCGCTCGAC ACGCGGGTGC GGGGCGACCT CGGTGGCCCG 
CAGTTGACTC ATGTTGACCA AGCAAGCTTC CAGGTTGATG CCTTTGGAAC GTCATTCATT 
CTCGATGTCG TGCTAAATCA TGATTTGCTG TCCTCTGAAT ACATAGAGAG ACACATTGAA 
CATGGAGGCA AGACTGTGGA AGTTAAAGGA GGAGAGCACT GTTACTACCA GGGCCATATC 
CGAGGAAACC CTGACTCATT TGTTGCATTG TCAACATGCC ACGGACTTCA TGGGATGTTC 
TATGACGGGA ACCACACATA TCTCATTGAG CCAGAAGAAA ATGACACTAC TCAAGAGGAT 
TTCCATTTTC ATTCAGTTTA CAAATCCAGA CTGTTTGAAT TTTCCTTGGA TGATCTTCCA 
TCTGAATTTC AGCAAGTAAA CATTACTCCA TCAAAATTTA TTTTGAAGCC AAGACCAAAA 
AGGAGTAAAC GGCAGCTTCG TCGATATCCT CGTAATGTAG AAGAAGAAAC CAAATACATT 
GAACTGATGA TTGTGAATGA TCACCTTATG TTTAAAAAAC ATCGGCTTTC CGTTGTACAT 
ACCAATACCT ATGCGAAATC TGTGGTGAAC ATGGCAGATT TAATATATAA AGACCAACTT 
AAGACCAGGA TAGTATTGGT TGCTATGGAA ACCTGGGCGA CTGACAACAA GTTTGCCATA 
TCTGAAAATC CATTGATCAC CCTACGTGAG TTTATGAAAT ACAGGAGGGA TTTTATCAAA 
GAGAAAAGTG ATGCAGTTCA CCTTTTTTCG GGAAGTCAAT TTGAGAGTAG CCGGAGCGGG 
GCAGCTTATA TTGGTGGGAT TTGCTCGTTG CTGAAAGGAG GAGGCGTGAA TGAATTTGGG 
AAAACTGATT TAATGGCTGT TACACTTGCC CAGTCATTAG CCCATAATAT TGGTATTATC 
TCAGACAAAA GAAAGTTAGC AAGTGGTGAA TGTAAATGCG AGGACACGTG GTCCGGGTGC 
ATAATGGGAG ACACTGGCTA TTATCTTCCT AAAAAGTTCA CCCAGTGTAA TATTGAAGAG 
TATCATGACT TCCTGAATAG TGGAGGTGGT GCCTGCCTTT TCAACAAACC TTCTAAGCTT 
CTTGATCCTC CTGAGTGTGG CAATGGCTTC ATTGAAACTG GAGAGGAGTG TGATTGTGGA 
ACCCCGGCCG AATGTGTCCT TGAAGGAGCA GAGTGTTGTA AGAAATGCAC CTTGACTCAA 
GACTCTCAAT GCAGTGACGG TCTTTGCTGT AAAAAGTGCA AGTTTCAGCC TATGGGCACT 
GTGTGCCGAG AAGCAGTAAA TGATTGTGAT ATTCGTGAAA CGTGCTCAGG AAATTCAAGC 
CAGTGTGCCC CTAATATTCA TAAAATGGAT GGATATTCAT GTGATGGTGT TCAGGGAATT 
TGCTTTGGAG GAAGATGCAA AACCAGAGAT AGACAATGCA AATACATTTG GGGGCAAAAG 
GTGACAGCAT CAGACAAATA TTGCTATGAG AAACTGAATA TTGAAGGGAC GGAGAAGGGT 
AACTGTGGGA AAGACAAAGA CACATGGATA CAGTGCAACA AACGGGATGT GCTTTGTGGT 
TACCTTTTGT GTACCAATAT TGGCAATATC CCAAGGCTTG GAGAACTCGA TGGTGAAATC 
ACATCTACTT TAGTTGTGCA GCAAGGAAGA ACATTAAACT GCAGTGGTGG GCATGTTAAG 
CTTGAAGAAG ATGTAGATCT TGGCTATGTG GAAGATGGGA CACCTTGTGG TCCCCAAATG 
ATGTGCTTAG AACACAGGTG TCTTCCTGTG GCTTCTTTCA ACTTTAGTAC TTGCTTGAGC 
AGTAAAGAAG GCACTATTTG CTCAGGAAAT GGAGTTTGCA GTAATGAGCT GAAGTGTGTG 
TGTAACAGAC ACTGGATAGG TTCTGATTGC AACACTTACT TCCCTCACAA TGATGATGCA 
AAGACTGGTA TCACTCTGTC TGGCAATGGT GTTGCTGGCA CCAATATCAT AATAGGCATA 
ATTGCTGGCA CCATTTTAGT GCTGGCCCTC ATATTAGGAA TAACTGCGTG GGGTTATAAA 
AACTATCGAG AACAGAGGTC AAATGGGCTC TCTCATTCTT GGAGTGAAAG GATTCCAGAC 
ACAAAACATA TTTCAGACAT CTGTGAAAAT GGGCGACCTC GAAGTAACTC TTGGCAAGGT 
AACCTGGGAG GCAACAAAAA GAAAATCAGA GGCAAAAGAT TTAGACCTCG GTCTAATTCA 
ACTGAGAGGG AGCCCCAAGC ACCTGAGCCT GGGCACTCCC TCGCCCAGAC AGTCCCATCC 
CAAGGCATAA GCCCAGGGGG CTCTGACAGC CCCCAGACAG GGAGTCTGGA TCACAGGTAT 
TTAAACCCAT GGTTCAAAAG AGACTATAAT GTAGCTAAGT GGGTAGAAGA TGTGAATAAA 
AACACTGAAG GACCATACTT TAGGACTTTA TCTCCTGCCA AGTCTCCTTC TTCATCAACT 
GGGTCTATTG CCTCCAGCAG AAAATACCCT TACCCAATGC CTCCACTTCC TGATGAGGAC 
AAGAAAGTGA ACCGACAAAG TGCCAGGCTA TGGGAGACAT CCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_017012332.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867821.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X13, mRNA.

Price & Availability↑

CloneID	OHu97342
Clone ID Related Accession (Same CDS sequence)	XM_017012332.1 , XM_017012332.2
Accession Version	XM_017012332.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2808bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-06-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X13
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG ACAGTTACCC CAGGGAGATT ATGTAAAAAA GCCTGGAGAT 
GGTGACTCTT TTTATAGCGA CATTCCTCCC GGAGTCAGCA CAAACTCAGC ATCTAGTTCT 
AAGAAGAGGT CAAATGGGCT CTCTCATTCT TGGAGTGAAA GGATTCCAGA CACAAAACAT 
ATTTCAGACA TCTGTGAAAA TGGGCGACCT CGAAGTAACT CTTGGCAAGG TAACCTGGGA 
GGCAACAAAA AGAAAATCAG AGGCAAAAGA TTTAGACCTC GGTCTAATTC AACTGAGTAT 
TTAAACCCAT GGTTCAAAAG AGACTATAAT GTAGCTAAGT GGGTAGAAGA TGTGAATAAA 
AACACTGAAG GACCATACTT TAGGACTTTA TCTCCTGCCA AGTCTCCTTC TTCATCAACT 
GGGTCTATTG CCTCCAGCAG AAAATACCCT TACCCAATGC CTCCACTTCC TGATGAGGAC 
AAGAAAGTGA ACCGACAAAG TGCCAGGCTA TGGGAGACAT CCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_016867821.1
CDS	216..3023
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQAGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRQLPQGDYVKKPGDGDSFYSDIPPGVSTNSASSSKKRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTEYLNPWFKRDYNVAKWVEDVNKNTEGPYFRTLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_017012332.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X13, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_017012332.1

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG ACAGTTACCC CAGGGAGATT ATGTAAAAAA GCCTGGAGAT 
GGTGACTCTT TTTATAGCGA CATTCCTCCC GGAGTCAGCA CAAACTCAGC ATCTAGTTCT 
AAGAAGAGGT CAAATGGGCT CTCTCATTCT TGGAGTGAAA GGATTCCAGA CACAAAACAT 
ATTTCAGACA TCTGTGAAAA TGGGCGACCT CGAAGTAACT CTTGGCAAGG TAACCTGGGA 
GGCAACAAAA AGAAAATCAG AGGCAAAAGA TTTAGACCTC GGTCTAATTC AACTGAGTAT 
TTAAACCCAT GGTTCAAAAG AGACTATAAT GTAGCTAAGT GGGTAGAAGA TGTGAATAAA 
AACACTGAAG GACCATACTT TAGGACTTTA TCTCCTGCCA AGTCTCCTTC TTCATCAACT 
GGGTCTATTG CCTCCAGCAG AAAATACCCT TACCCAATGC CTCCACTTCC TGATGAGGAC 
AAGAAAGTGA ACCGACAAAG TGCCAGGCTA TGGGAGACAT CCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_017012332.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867821.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X13, mRNA.

Price & Availability↑

CloneID	OHu97342
Clone ID Related Accession (Same CDS sequence)	XM_017012332.1 , XM_017012332.2
Accession Version	XM_017012332.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2808bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X13
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017012332.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG ACAGTTACCC CAGGGAGATT ATGTAAAAAA GCCTGGAGAT 
GGTGACTCTT TTTATAGCGA CATTCCTCCC GGAGTCAGCA CAAACTCAGC ATCTAGTTCT 
AAGAAGAGGT CAAATGGGCT CTCTCATTCT TGGAGTGAAA GGATTCCAGA CACAAAACAT 
ATTTCAGACA TCTGTGAAAA TGGGCGACCT CGAAGTAACT CTTGGCAAGG TAACCTGGGA 
GGCAACAAAA AGAAAATCAG AGGCAAAAGA TTTAGACCTC GGTCTAATTC AACTGAGTAT 
TTAAACCCAT GGTTCAAAAG AGACTATAAT GTAGCTAAGT GGGTAGAAGA TGTGAATAAA 
AACACTGAAG GACCATACTT TAGGACTTTA TCTCCTGCCA AGTCTCCTTC TTCATCAACT 
GGGTCTATTG CCTCCAGCAG AAAATACCCT TACCCAATGC CTCCACTTCC TGATGAGGAC 
AAGAAAGTGA ACCGACAAAG TGCCAGGCTA TGGGAGACAT CCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_016867821.1
CDS	216..3023
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQAGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRQLPQGDYVKKPGDGDSFYSDIPPGVSTNSASSSKKRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTEYLNPWFKRDYNVAKWVEDVNKNTEGPYFRTLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_017012332.2
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X13, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_017012332.2

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG ACAGTTACCC CAGGGAGATT ATGTAAAAAA GCCTGGAGAT 
GGTGACTCTT TTTATAGCGA CATTCCTCCC GGAGTCAGCA CAAACTCAGC ATCTAGTTCT 
AAGAAGAGGT CAAATGGGCT CTCTCATTCT TGGAGTGAAA GGATTCCAGA CACAAAACAT 
ATTTCAGACA TCTGTGAAAA TGGGCGACCT CGAAGTAACT CTTGGCAAGG TAACCTGGGA 
GGCAACAAAA AGAAAATCAG AGGCAAAAGA TTTAGACCTC GGTCTAATTC AACTGAGTAT 
TTAAACCCAT GGTTCAAAAG AGACTATAAT GTAGCTAAGT GGGTAGAAGA TGTGAATAAA 
AACACTGAAG GACCATACTT TAGGACTTTA TCTCCTGCCA AGTCTCCTTC TTCATCAACT 
GGGTCTATTG CCTCCAGCAG AAAATACCCT TACCCAATGC CTCCACTTCC TGATGAGGAC 
AAGAAAGTGA ACCGACAAAG TGCCAGGCTA TGGGAGACAT CCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_017012333.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867822.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X15, mRNA.

Price & Availability↑

CloneID	OHu97343
Clone ID Related Accession (Same CDS sequence)	XM_017012333.2 , XM_017012333.1
Accession Version	XM_017012333.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2781bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X15
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017012333.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG ACAGTTACCC CAGGGAGATT ATGTAAAAAA GCCTGGAGAT 
GGTGACTCTT TTTATAGCGA CATTCCTCCC GGAGTCAGCA CAAACTCAGC ATCTAGTTCT 
AAGAAGAGGT CAAATGGGCT CTCTCATTCT TGGAGTGAAA GGATTCCAGA CACAAAACAT 
ATTTCAGACA TCTGTGAAAA TGGGCGACCT CGAAGTAACT CTTGGCAAGG TAACCTGGGA 
GGCAACAAAA AGAAAATCAG AGGCAAAAGA TTTAGACCTC GGTCTAATTC AACTGACTAT 
GGGAGACATC CATTTAAGAT CAACTGTTTA CATGTGATAC ATCGAAAACT GTTTACTTCA 
ACTTTTATAG AAACCCAGGC TCATGGAATC ACTGCAAATC TATCTGCTCT TCAGACAATA 
CGAAGACCCT CTGAGATGCT ACAGAGGAGA GGAAGCGGAG TTTCACATCT GGTTACCATT 
TTCTTTTTGT CATTGGCTTA G

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_016867822.1
CDS	216..2996
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQAGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRQLPQGDYVKKPGDGDSFYSDIPPGVSTNSASSSKKRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTDYGRHPFKINCLHVIHRKLFTSTFIETQAHGITANLSALQTIRRPSEMLQRRGSGVSHLVTIFFLSLA

Target ORF information:

RefSeq Version	XM_017012333.2
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X15, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_017012333.2

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG ACAGTTACCC CAGGGAGATT ATGTAAAAAA GCCTGGAGAT 
GGTGACTCTT TTTATAGCGA CATTCCTCCC GGAGTCAGCA CAAACTCAGC ATCTAGTTCT 
AAGAAGAGGT CAAATGGGCT CTCTCATTCT TGGAGTGAAA GGATTCCAGA CACAAAACAT 
ATTTCAGACA TCTGTGAAAA TGGGCGACCT CGAAGTAACT CTTGGCAAGG TAACCTGGGA 
GGCAACAAAA AGAAAATCAG AGGCAAAAGA TTTAGACCTC GGTCTAATTC AACTGACTAT 
GGGAGACATC CATTTAAGAT CAACTGTTTA CATGTGATAC ATCGAAAACT GTTTACTTCA 
ACTTTTATAG AAACCCAGGC TCATGGAATC ACTGCAAATC TATCTGCTCT TCAGACAATA 
CGAAGACCCT CTGAGATGCT ACAGAGGAGA GGAAGCGGAG TTTCACATCT GGTTACCATT 
TTCTTTTTGT CATTGGCTTA G

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_017012333.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867822.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X15, mRNA.

Price & Availability↑

CloneID	OHu97343
Clone ID Related Accession (Same CDS sequence)	XM_017012333.2 , XM_017012333.1
Accession Version	XM_017012333.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2781bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-06-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X15
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG ACAGTTACCC CAGGGAGATT ATGTAAAAAA GCCTGGAGAT 
GGTGACTCTT TTTATAGCGA CATTCCTCCC GGAGTCAGCA CAAACTCAGC ATCTAGTTCT 
AAGAAGAGGT CAAATGGGCT CTCTCATTCT TGGAGTGAAA GGATTCCAGA CACAAAACAT 
ATTTCAGACA TCTGTGAAAA TGGGCGACCT CGAAGTAACT CTTGGCAAGG TAACCTGGGA 
GGCAACAAAA AGAAAATCAG AGGCAAAAGA TTTAGACCTC GGTCTAATTC AACTGACTAT 
GGGAGACATC CATTTAAGAT CAACTGTTTA CATGTGATAC ATCGAAAACT GTTTACTTCA 
ACTTTTATAG AAACCCAGGC TCATGGAATC ACTGCAAATC TATCTGCTCT TCAGACAATA 
CGAAGACCCT CTGAGATGCT ACAGAGGAGA GGAAGCGGAG TTTCACATCT GGTTACCATT 
TTCTTTTTGT CATTGGCTTA G

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_016867822.1
CDS	216..2996
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQAGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRQLPQGDYVKKPGDGDSFYSDIPPGVSTNSASSSKKRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTDYGRHPFKINCLHVIHRKLFTSTFIETQAHGITANLSALQTIRRPSEMLQRRGSGVSHLVTIFFLSLA

Target ORF information:

RefSeq Version	XM_017012333.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X15, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_017012333.1

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG ACAGTTACCC CAGGGAGATT ATGTAAAAAA GCCTGGAGAT 
GGTGACTCTT TTTATAGCGA CATTCCTCCC GGAGTCAGCA CAAACTCAGC ATCTAGTTCT 
AAGAAGAGGT CAAATGGGCT CTCTCATTCT TGGAGTGAAA GGATTCCAGA CACAAAACAT 
ATTTCAGACA TCTGTGAAAA TGGGCGACCT CGAAGTAACT CTTGGCAAGG TAACCTGGGA 
GGCAACAAAA AGAAAATCAG AGGCAAAAGA TTTAGACCTC GGTCTAATTC AACTGACTAT 
GGGAGACATC CATTTAAGAT CAACTGTTTA CATGTGATAC ATCGAAAACT GTTTACTTCA 
ACTTTTATAG AAACCCAGGC TCATGGAATC ACTGCAAATC TATCTGCTCT TCAGACAATA 
CGAAGACCCT CTGAGATGCT ACAGAGGAGA GGAAGCGGAG TTTCACATCT GGTTACCATT 
TTCTTTTTGT CATTGGCTTA G

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_017012334.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867823.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X16, mRNA.

Price & Availability↑

CloneID	OHu97344
Clone ID Related Accession (Same CDS sequence)	XM_017012334.1 , XM_017012334.2
Accession Version	XM_017012334.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2775bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-06-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X16
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGATTC AGATGTTTTT GAAGTCAGAA TCCCAGAAGA CCATATACCA GATACAGTTG 
ACTCATGTTG ACCAAGCAAG CTTCCAGGTT GATGCCTTTG GAACGTCATT CATTCTCGAT 
GTCGTGCTAA ATCATGATTT GCTGTCCTCT GAATACATAG AGAGACACAT TGAACATGGA 
GGCAAGACTG TGGAAGTTAA AGGAGGAGAG CACTGTTACT ACCAGGGCCA TATCCGAGGA 
AACCCTGACT CATTTGTTGC ATTGTCAACA TGCCACGGAC TTCATGGGAT GTTCTATGAC 
GGGAACCACA CATATCTCAT TGAGCCAGAA GAAAATGACA CTACTCAAGA GGATTTCCAT 
TTTCATTCAG TTTACAAATC CAGACTGTTT GAATTTTCCT TGGATGATCT TCCATCTGAA 
TTTCAGCAAG TAAACATTAC TCCATCAAAA TTTATTTTGA AGCCAAGACC AAAAAGGAGT 
AAACGGCAGC TTCGTCGATA TCCTCGTAAT GTAGAAGAAG AAACCAAATA CATTGAACTG 
ATGATTGTGA ATGATCACCT TATGTTTAAA AAACATCGGC TTTCCGTTGT ACATACCAAT 
ACCTATGCGA AATCTGTGGT GAACATGGCA GATTTAATAT ATAAAGACCA ACTTAAGACC 
AGGATAGTAT TGGTTGCTAT GGAAACCTGG GCGACTGACA ACAAGTTTGC CATATCTGAA 
AATCCATTGA TCACCCTACG TGAGTTTATG AAATACAGGA GGGATTTTAT CAAAGAGAAA 
AGTGATGCAG TTCACCTTTT TTCGGGAAGT CAATTTGAGA GTAGCCGGAG CGGGGCAGCT 
TATATTGGTG GGATTTGCTC GTTGCTGAAA GGAGGAGGCG TGAATGAATT TGGGAAAACT 
GATTTAATGG CTGTTACACT TGCCCAGTCA TTAGCCCATA ATATTGGTAT TATCTCAGAC 
AAAAGAAAGT TAGCAAGTGG TGAATGTAAA TGCGAGGACA CGTGGTCCGG GTGCATAATG 
GGAGACACTG GCTATTATCT TCCTAAAAAG TTCACCCAGT GTAATATTGA AGAGTATCAT 
GACTTCCTGA ATAGTGGAGG TGGTGCCTGC CTTTTCAACA AACCTTCTAA GCTTCTTGAT 
CCTCCTGAGT GTGGCAATGG CTTCATTGAA ACTGGAGAGG AGTGTGATTG TGGAACCCCG 
GCCGAATGTG TCCTTGAAGG AGCAGAGTGT TGTAAGAAAT GCACCTTGAC TCAAGACTCT 
CAATGCAGTG ACGGTCTTTG CTGTAAAAAG TGCAAGTTTC AGCCTATGGG CACTGTGTGC 
CGAGAAGCAG TAAATGATTG TGATATTCGT GAAACGTGCT CAGGAAATTC AAGCCAGTGT 
GCCCCTAATA TTCATAAAAT GGATGGATAT TCATGTGATG GTGTTCAGGG AATTTGCTTT 
GGAGGAAGAT GCAAAACCAG AGATAGACAA TGCAAATACA TTTGGGGGCA AAAGGTGACA 
GCATCAGACA AATATTGCTA TGAGAAACTG AATATTGAAG GGACGGAGAA GGGTAACTGT 
GGGAAAGACA AAGACACATG GATACAGTGC AACAAACGGG ATGTGCTTTG TGGTTACCTT 
TTGTGTACCA ATATTGGCAA TATCCCAAGG CTTGGAGAAC TCGATGGTGA AATCACATCT 
ACTTTAGTTG TGCAGCAAGG AAGAACATTA AACTGCAGTG GTGGGCATGT TAAGCTTGAA 
GAAGATGTAG ATCTTGGCTA TGTGGAAGAT GGGACACCTT GTGGTCCCCA AATGATGTGC 
TTAGAACACA GGTGTCTTCC TGTGGCTTCT TTCAACTTTA GTACTTGCTT GAGCAGTAAA 
GAAGGCACTA TTTGCTCAGG AAATGGAGTT TGCAGTAATG AGCTGAAGTG TGTGTGTAAC 
AGACACTGGA TAGGTTCTGA TTGCAACACT TACTTCCCTC ACAATGATGA TGCAAAGACT 
GGTATCACTC TGTCTGGCAA TGGTGTTGCT GGCACCAATA TCATAATAGG CATAATTGCT 
GGCACCATTT TAGTGCTGGC CCTCATATTA GGAATAACTG CGTGGGGTTA TAAAAACTAT 
CGAGAACAGA GGTCAAATGG GCTCTCTCAT TCTTGGAGTG AAAGGATTCC AGACACAAAA 
CATATTTCAG ACATCTGTGA AAATGGGCGA CCTCGAAGTA ACTCTTGGCA AGGTAACCTG 
GGAGGCAACA AAAAGAAAAT CAGAGGCAAA AGATTTAGAC CTCGGTCTAA TTCAACTGAG 
AGGGAGCCCC AAGCACCTGA GCCTGGGCAC TCCCTCGCCC AGACAGTCCC ATCCCAAGGC 
ATAAGCCCAG GGGGCTCTGA CAGCCCCCAG ACAGGGAGTC TGGATCACAG GACTTTATCT 
CCTGCCAAGT CTCCTTCTTC ATCAACTGGG TCTATTGCCT CCAGCAGAAA ATACCCTTAC 
CCAATGCCTC CACTTCCTGA TGAGGACAAG AAAGTGAACC GACAAAGTGC CAGGCTATGG 
GAGACATCCA TTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_016867823.1
CDS	216..2990
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQAGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQIQMFLKSESQKTIYQIQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTEREPQAPEPGHSLAQTVPSQGISPGGSDSPQTGSLDHRTLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_017012334.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X16, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_017012334.1

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGATTC AGATGTTTTT GAAGTCAGAA TCCCAGAAGA CCATATACCA GATACAGTTG 
ACTCATGTTG ACCAAGCAAG CTTCCAGGTT GATGCCTTTG GAACGTCATT CATTCTCGAT 
GTCGTGCTAA ATCATGATTT GCTGTCCTCT GAATACATAG AGAGACACAT TGAACATGGA 
GGCAAGACTG TGGAAGTTAA AGGAGGAGAG CACTGTTACT ACCAGGGCCA TATCCGAGGA 
AACCCTGACT CATTTGTTGC ATTGTCAACA TGCCACGGAC TTCATGGGAT GTTCTATGAC 
GGGAACCACA CATATCTCAT TGAGCCAGAA GAAAATGACA CTACTCAAGA GGATTTCCAT 
TTTCATTCAG TTTACAAATC CAGACTGTTT GAATTTTCCT TGGATGATCT TCCATCTGAA 
TTTCAGCAAG TAAACATTAC TCCATCAAAA TTTATTTTGA AGCCAAGACC AAAAAGGAGT 
AAACGGCAGC TTCGTCGATA TCCTCGTAAT GTAGAAGAAG AAACCAAATA CATTGAACTG 
ATGATTGTGA ATGATCACCT TATGTTTAAA AAACATCGGC TTTCCGTTGT ACATACCAAT 
ACCTATGCGA AATCTGTGGT GAACATGGCA GATTTAATAT ATAAAGACCA ACTTAAGACC 
AGGATAGTAT TGGTTGCTAT GGAAACCTGG GCGACTGACA ACAAGTTTGC CATATCTGAA 
AATCCATTGA TCACCCTACG TGAGTTTATG AAATACAGGA GGGATTTTAT CAAAGAGAAA 
AGTGATGCAG TTCACCTTTT TTCGGGAAGT CAATTTGAGA GTAGCCGGAG CGGGGCAGCT 
TATATTGGTG GGATTTGCTC GTTGCTGAAA GGAGGAGGCG TGAATGAATT TGGGAAAACT 
GATTTAATGG CTGTTACACT TGCCCAGTCA TTAGCCCATA ATATTGGTAT TATCTCAGAC 
AAAAGAAAGT TAGCAAGTGG TGAATGTAAA TGCGAGGACA CGTGGTCCGG GTGCATAATG 
GGAGACACTG GCTATTATCT TCCTAAAAAG TTCACCCAGT GTAATATTGA AGAGTATCAT 
GACTTCCTGA ATAGTGGAGG TGGTGCCTGC CTTTTCAACA AACCTTCTAA GCTTCTTGAT 
CCTCCTGAGT GTGGCAATGG CTTCATTGAA ACTGGAGAGG AGTGTGATTG TGGAACCCCG 
GCCGAATGTG TCCTTGAAGG AGCAGAGTGT TGTAAGAAAT GCACCTTGAC TCAAGACTCT 
CAATGCAGTG ACGGTCTTTG CTGTAAAAAG TGCAAGTTTC AGCCTATGGG CACTGTGTGC 
CGAGAAGCAG TAAATGATTG TGATATTCGT GAAACGTGCT CAGGAAATTC AAGCCAGTGT 
GCCCCTAATA TTCATAAAAT GGATGGATAT TCATGTGATG GTGTTCAGGG AATTTGCTTT 
GGAGGAAGAT GCAAAACCAG AGATAGACAA TGCAAATACA TTTGGGGGCA AAAGGTGACA 
GCATCAGACA AATATTGCTA TGAGAAACTG AATATTGAAG GGACGGAGAA GGGTAACTGT 
GGGAAAGACA AAGACACATG GATACAGTGC AACAAACGGG ATGTGCTTTG TGGTTACCTT 
TTGTGTACCA ATATTGGCAA TATCCCAAGG CTTGGAGAAC TCGATGGTGA AATCACATCT 
ACTTTAGTTG TGCAGCAAGG AAGAACATTA AACTGCAGTG GTGGGCATGT TAAGCTTGAA 
GAAGATGTAG ATCTTGGCTA TGTGGAAGAT GGGACACCTT GTGGTCCCCA AATGATGTGC 
TTAGAACACA GGTGTCTTCC TGTGGCTTCT TTCAACTTTA GTACTTGCTT GAGCAGTAAA 
GAAGGCACTA TTTGCTCAGG AAATGGAGTT TGCAGTAATG AGCTGAAGTG TGTGTGTAAC 
AGACACTGGA TAGGTTCTGA TTGCAACACT TACTTCCCTC ACAATGATGA TGCAAAGACT 
GGTATCACTC TGTCTGGCAA TGGTGTTGCT GGCACCAATA TCATAATAGG CATAATTGCT 
GGCACCATTT TAGTGCTGGC CCTCATATTA GGAATAACTG CGTGGGGTTA TAAAAACTAT 
CGAGAACAGA GGTCAAATGG GCTCTCTCAT TCTTGGAGTG AAAGGATTCC AGACACAAAA 
CATATTTCAG ACATCTGTGA AAATGGGCGA CCTCGAAGTA ACTCTTGGCA AGGTAACCTG 
GGAGGCAACA AAAAGAAAAT CAGAGGCAAA AGATTTAGAC CTCGGTCTAA TTCAACTGAG 
AGGGAGCCCC AAGCACCTGA GCCTGGGCAC TCCCTCGCCC AGACAGTCCC ATCCCAAGGC 
ATAAGCCCAG GGGGCTCTGA CAGCCCCCAG ACAGGGAGTC TGGATCACAG GACTTTATCT 
CCTGCCAAGT CTCCTTCTTC ATCAACTGGG TCTATTGCCT CCAGCAGAAA ATACCCTTAC 
CCAATGCCTC CACTTCCTGA TGAGGACAAG AAAGTGAACC GACAAAGTGC CAGGCTATGG 
GAGACATCCA TTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_017012334.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867823.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X16, mRNA.

Price & Availability↑

CloneID	OHu97344
Clone ID Related Accession (Same CDS sequence)	XM_017012334.1 , XM_017012334.2
Accession Version	XM_017012334.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2775bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X16
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017012334.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGATTC AGATGTTTTT GAAGTCAGAA TCCCAGAAGA CCATATACCA GATACAGTTG 
ACTCATGTTG ACCAAGCAAG CTTCCAGGTT GATGCCTTTG GAACGTCATT CATTCTCGAT 
GTCGTGCTAA ATCATGATTT GCTGTCCTCT GAATACATAG AGAGACACAT TGAACATGGA 
GGCAAGACTG TGGAAGTTAA AGGAGGAGAG CACTGTTACT ACCAGGGCCA TATCCGAGGA 
AACCCTGACT CATTTGTTGC ATTGTCAACA TGCCACGGAC TTCATGGGAT GTTCTATGAC 
GGGAACCACA CATATCTCAT TGAGCCAGAA GAAAATGACA CTACTCAAGA GGATTTCCAT 
TTTCATTCAG TTTACAAATC CAGACTGTTT GAATTTTCCT TGGATGATCT TCCATCTGAA 
TTTCAGCAAG TAAACATTAC TCCATCAAAA TTTATTTTGA AGCCAAGACC AAAAAGGAGT 
AAACGGCAGC TTCGTCGATA TCCTCGTAAT GTAGAAGAAG AAACCAAATA CATTGAACTG 
ATGATTGTGA ATGATCACCT TATGTTTAAA AAACATCGGC TTTCCGTTGT ACATACCAAT 
ACCTATGCGA AATCTGTGGT GAACATGGCA GATTTAATAT ATAAAGACCA ACTTAAGACC 
AGGATAGTAT TGGTTGCTAT GGAAACCTGG GCGACTGACA ACAAGTTTGC CATATCTGAA 
AATCCATTGA TCACCCTACG TGAGTTTATG AAATACAGGA GGGATTTTAT CAAAGAGAAA 
AGTGATGCAG TTCACCTTTT TTCGGGAAGT CAATTTGAGA GTAGCCGGAG CGGGGCAGCT 
TATATTGGTG GGATTTGCTC GTTGCTGAAA GGAGGAGGCG TGAATGAATT TGGGAAAACT 
GATTTAATGG CTGTTACACT TGCCCAGTCA TTAGCCCATA ATATTGGTAT TATCTCAGAC 
AAAAGAAAGT TAGCAAGTGG TGAATGTAAA TGCGAGGACA CGTGGTCCGG GTGCATAATG 
GGAGACACTG GCTATTATCT TCCTAAAAAG TTCACCCAGT GTAATATTGA AGAGTATCAT 
GACTTCCTGA ATAGTGGAGG TGGTGCCTGC CTTTTCAACA AACCTTCTAA GCTTCTTGAT 
CCTCCTGAGT GTGGCAATGG CTTCATTGAA ACTGGAGAGG AGTGTGATTG TGGAACCCCG 
GCCGAATGTG TCCTTGAAGG AGCAGAGTGT TGTAAGAAAT GCACCTTGAC TCAAGACTCT 
CAATGCAGTG ACGGTCTTTG CTGTAAAAAG TGCAAGTTTC AGCCTATGGG CACTGTGTGC 
CGAGAAGCAG TAAATGATTG TGATATTCGT GAAACGTGCT CAGGAAATTC AAGCCAGTGT 
GCCCCTAATA TTCATAAAAT GGATGGATAT TCATGTGATG GTGTTCAGGG AATTTGCTTT 
GGAGGAAGAT GCAAAACCAG AGATAGACAA TGCAAATACA TTTGGGGGCA AAAGGTGACA 
GCATCAGACA AATATTGCTA TGAGAAACTG AATATTGAAG GGACGGAGAA GGGTAACTGT 
GGGAAAGACA AAGACACATG GATACAGTGC AACAAACGGG ATGTGCTTTG TGGTTACCTT 
TTGTGTACCA ATATTGGCAA TATCCCAAGG CTTGGAGAAC TCGATGGTGA AATCACATCT 
ACTTTAGTTG TGCAGCAAGG AAGAACATTA AACTGCAGTG GTGGGCATGT TAAGCTTGAA 
GAAGATGTAG ATCTTGGCTA TGTGGAAGAT GGGACACCTT GTGGTCCCCA AATGATGTGC 
TTAGAACACA GGTGTCTTCC TGTGGCTTCT TTCAACTTTA GTACTTGCTT GAGCAGTAAA 
GAAGGCACTA TTTGCTCAGG AAATGGAGTT TGCAGTAATG AGCTGAAGTG TGTGTGTAAC 
AGACACTGGA TAGGTTCTGA TTGCAACACT TACTTCCCTC ACAATGATGA TGCAAAGACT 
GGTATCACTC TGTCTGGCAA TGGTGTTGCT GGCACCAATA TCATAATAGG CATAATTGCT 
GGCACCATTT TAGTGCTGGC CCTCATATTA GGAATAACTG CGTGGGGTTA TAAAAACTAT 
CGAGAACAGA GGTCAAATGG GCTCTCTCAT TCTTGGAGTG AAAGGATTCC AGACACAAAA 
CATATTTCAG ACATCTGTGA AAATGGGCGA CCTCGAAGTA ACTCTTGGCA AGGTAACCTG 
GGAGGCAACA AAAAGAAAAT CAGAGGCAAA AGATTTAGAC CTCGGTCTAA TTCAACTGAG 
AGGGAGCCCC AAGCACCTGA GCCTGGGCAC TCCCTCGCCC AGACAGTCCC ATCCCAAGGC 
ATAAGCCCAG GGGGCTCTGA CAGCCCCCAG ACAGGGAGTC TGGATCACAG GACTTTATCT 
CCTGCCAAGT CTCCTTCTTC ATCAACTGGG TCTATTGCCT CCAGCAGAAA ATACCCTTAC 
CCAATGCCTC CACTTCCTGA TGAGGACAAG AAAGTGAACC GACAAAGTGC CAGGCTATGG 
GAGACATCCA TTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_016867823.1
CDS	216..2990
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQAGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQIQMFLKSESQKTIYQIQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTEREPQAPEPGHSLAQTVPSQGISPGGSDSPQTGSLDHRTLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_017012334.2
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X16, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_017012334.2

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGATTC AGATGTTTTT GAAGTCAGAA TCCCAGAAGA CCATATACCA GATACAGTTG 
ACTCATGTTG ACCAAGCAAG CTTCCAGGTT GATGCCTTTG GAACGTCATT CATTCTCGAT 
GTCGTGCTAA ATCATGATTT GCTGTCCTCT GAATACATAG AGAGACACAT TGAACATGGA 
GGCAAGACTG TGGAAGTTAA AGGAGGAGAG CACTGTTACT ACCAGGGCCA TATCCGAGGA 
AACCCTGACT CATTTGTTGC ATTGTCAACA TGCCACGGAC TTCATGGGAT GTTCTATGAC 
GGGAACCACA CATATCTCAT TGAGCCAGAA GAAAATGACA CTACTCAAGA GGATTTCCAT 
TTTCATTCAG TTTACAAATC CAGACTGTTT GAATTTTCCT TGGATGATCT TCCATCTGAA 
TTTCAGCAAG TAAACATTAC TCCATCAAAA TTTATTTTGA AGCCAAGACC AAAAAGGAGT 
AAACGGCAGC TTCGTCGATA TCCTCGTAAT GTAGAAGAAG AAACCAAATA CATTGAACTG 
ATGATTGTGA ATGATCACCT TATGTTTAAA AAACATCGGC TTTCCGTTGT ACATACCAAT 
ACCTATGCGA AATCTGTGGT GAACATGGCA GATTTAATAT ATAAAGACCA ACTTAAGACC 
AGGATAGTAT TGGTTGCTAT GGAAACCTGG GCGACTGACA ACAAGTTTGC CATATCTGAA 
AATCCATTGA TCACCCTACG TGAGTTTATG AAATACAGGA GGGATTTTAT CAAAGAGAAA 
AGTGATGCAG TTCACCTTTT TTCGGGAAGT CAATTTGAGA GTAGCCGGAG CGGGGCAGCT 
TATATTGGTG GGATTTGCTC GTTGCTGAAA GGAGGAGGCG TGAATGAATT TGGGAAAACT 
GATTTAATGG CTGTTACACT TGCCCAGTCA TTAGCCCATA ATATTGGTAT TATCTCAGAC 
AAAAGAAAGT TAGCAAGTGG TGAATGTAAA TGCGAGGACA CGTGGTCCGG GTGCATAATG 
GGAGACACTG GCTATTATCT TCCTAAAAAG TTCACCCAGT GTAATATTGA AGAGTATCAT 
GACTTCCTGA ATAGTGGAGG TGGTGCCTGC CTTTTCAACA AACCTTCTAA GCTTCTTGAT 
CCTCCTGAGT GTGGCAATGG CTTCATTGAA ACTGGAGAGG AGTGTGATTG TGGAACCCCG 
GCCGAATGTG TCCTTGAAGG AGCAGAGTGT TGTAAGAAAT GCACCTTGAC TCAAGACTCT 
CAATGCAGTG ACGGTCTTTG CTGTAAAAAG TGCAAGTTTC AGCCTATGGG CACTGTGTGC 
CGAGAAGCAG TAAATGATTG TGATATTCGT GAAACGTGCT CAGGAAATTC AAGCCAGTGT 
GCCCCTAATA TTCATAAAAT GGATGGATAT TCATGTGATG GTGTTCAGGG AATTTGCTTT 
GGAGGAAGAT GCAAAACCAG AGATAGACAA TGCAAATACA TTTGGGGGCA AAAGGTGACA 
GCATCAGACA AATATTGCTA TGAGAAACTG AATATTGAAG GGACGGAGAA GGGTAACTGT 
GGGAAAGACA AAGACACATG GATACAGTGC AACAAACGGG ATGTGCTTTG TGGTTACCTT 
TTGTGTACCA ATATTGGCAA TATCCCAAGG CTTGGAGAAC TCGATGGTGA AATCACATCT 
ACTTTAGTTG TGCAGCAAGG AAGAACATTA AACTGCAGTG GTGGGCATGT TAAGCTTGAA 
GAAGATGTAG ATCTTGGCTA TGTGGAAGAT GGGACACCTT GTGGTCCCCA AATGATGTGC 
TTAGAACACA GGTGTCTTCC TGTGGCTTCT TTCAACTTTA GTACTTGCTT GAGCAGTAAA 
GAAGGCACTA TTTGCTCAGG AAATGGAGTT TGCAGTAATG AGCTGAAGTG TGTGTGTAAC 
AGACACTGGA TAGGTTCTGA TTGCAACACT TACTTCCCTC ACAATGATGA TGCAAAGACT 
GGTATCACTC TGTCTGGCAA TGGTGTTGCT GGCACCAATA TCATAATAGG CATAATTGCT 
GGCACCATTT TAGTGCTGGC CCTCATATTA GGAATAACTG CGTGGGGTTA TAAAAACTAT 
CGAGAACAGA GGTCAAATGG GCTCTCTCAT TCTTGGAGTG AAAGGATTCC AGACACAAAA 
CATATTTCAG ACATCTGTGA AAATGGGCGA CCTCGAAGTA ACTCTTGGCA AGGTAACCTG 
GGAGGCAACA AAAAGAAAAT CAGAGGCAAA AGATTTAGAC CTCGGTCTAA TTCAACTGAG 
AGGGAGCCCC AAGCACCTGA GCCTGGGCAC TCCCTCGCCC AGACAGTCCC ATCCCAAGGC 
ATAAGCCCAG GGGGCTCTGA CAGCCCCCAG ACAGGGAGTC TGGATCACAG GACTTTATCT 
CCTGCCAAGT CTCCTTCTTC ATCAACTGGG TCTATTGCCT CCAGCAGAAA ATACCCTTAC 
CCAATGCCTC CACTTCCTGA TGAGGACAAG AAAGTGAACC GACAAAGTGC CAGGCTATGG 
GAGACATCCA TTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_017012335.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867824.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X17, mRNA.

Price & Availability↑

CloneID	OHu97345
Clone ID Related Accession (Same CDS sequence)	XM_017012335.1 , XM_017012335.2
Accession Version	XM_017012335.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2751bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-06-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X17
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGATTC AGATGTTTTT GAAGTCAGAA TCCCAGAAGA CCATATACCA GATACAGTTG 
ACTCATGTTG ACCAAGCAAG CTTCCAGGTT GATGCCTTTG GAACGTCATT CATTCTCGAT 
GTCGTGCTAA ATCATGATTT GCTGTCCTCT GAATACATAG AGAGACACAT TGAACATGGA 
GGCAAGACTG TGGAAGTTAA AGGAGGAGAG CACTGTTACT ACCAGGGCCA TATCCGAGGA 
AACCCTGACT CATTTGTTGC ATTGTCAACA TGCCACGGAC TTCATGGGAT GTTCTATGAC 
GGGAACCACA CATATCTCAT TGAGCCAGAA GAAAATGACA CTACTCAAGA GGATTTCCAT 
TTTCATTCAG TTTACAAATC CAGACTGTTT GAATTTTCCT TGGATGATCT TCCATCTGAA 
TTTCAGCAAG TAAACATTAC TCCATCAAAA TTTATTTTGA AGCCAAGACC AAAAAGGAGT 
AAACGGCAGC TTCGTCGATA TCCTCGTAAT GTAGAAGAAG AAACCAAATA CATTGAACTG 
ATGATTGTGA ATGATCACCT TATGTTTAAA AAACATCGGC TTTCCGTTGT ACATACCAAT 
ACCTATGCGA AATCTGTGGT GAACATGGCA GATTTAATAT ATAAAGACCA ACTTAAGACC 
AGGATAGTAT TGGTTGCTAT GGAAACCTGG GCGACTGACA ACAAGTTTGC CATATCTGAA 
AATCCATTGA TCACCCTACG TGAGTTTATG AAATACAGGA GGGATTTTAT CAAAGAGAAA 
AGTGATGCAG TTCACCTTTT TTCGGGAAGT CAATTTGAGA GTAGCCGGAG CGGGGCAGCT 
TATATTGGTG GGATTTGCTC GTTGCTGAAA GGAGGAGGCG TGAATGAATT TGGGAAAACT 
GATTTAATGG CTGTTACACT TGCCCAGTCA TTAGCCCATA ATATTGGTAT TATCTCAGAC 
AAAAGAAAGT TAGCAAGTGG TGAATGTAAA TGCGAGGACA CGTGGTCCGG GTGCATAATG 
GGAGACACTG GCTATTATCT TCCTAAAAAG TTCACCCAGT GTAATATTGA AGAGTATCAT 
GACTTCCTGA ATAGTGGAGG TGGTGCCTGC CTTTTCAACA AACCTTCTAA GCTTCTTGAT 
CCTCCTGAGT GTGGCAATGG CTTCATTGAA ACTGGAGAGG AGTGTGATTG TGGAACCCCG 
GCCGAATGTG TCCTTGAAGG AGCAGAGTGT TGTAAGAAAT GCACCTTGAC TCAAGACTCT 
CAATGCAGTG ACGGTCTTTG CTGTAAAAAG TGCAAGTTTC AGCCTATGGG CACTGTGTGC 
CGAGAAGCAG TAAATGATTG TGATATTCGT GAAACGTGCT CAGGAAATTC AAGCCAGTGT 
GCCCCTAATA TTCATAAAAT GGATGGATAT TCATGTGATG GTGTTCAGGG AATTTGCTTT 
GGAGGAAGAT GCAAAACCAG AGATAGACAA TGCAAATACA TTTGGGGGCA AAAGGTGACA 
GCATCAGACA AATATTGCTA TGAGAAACTG AATATTGAAG GGACGGAGAA GGGTAACTGT 
GGGAAAGACA AAGACACATG GATACAGTGC AACAAACGGG ATGTGCTTTG TGGTTACCTT 
TTGTGTACCA ATATTGGCAA TATCCCAAGG CTTGGAGAAC TCGATGGTGA AATCACATCT 
ACTTTAGTTG TGCAGCAAGG AAGAACATTA AACTGCAGTG GTGGGCATGT TAAGCTTGAA 
GAAGATGTAG ATCTTGGCTA TGTGGAAGAT GGGACACCTT GTGGTCCCCA AATGATGTGC 
TTAGAACACA GGTGTCTTCC TGTGGCTTCT TTCAACTTTA GTACTTGCTT GAGCAGTAAA 
GAAGGCACTA TTTGCTCAGG AAATGGAGTT TGCAGTAATG AGCTGAAGTG TGTGTGTAAC 
AGACACTGGA TAGGTTCTGA TTGCAACACT TACTTCCCTC ACAATGATGA TGCAAAGACT 
GGTATCACTC TGTCTGGCAA TGGTGTTGCT GGCACCAATA TCATAATAGG CATAATTGCT 
GGCACCATTT TAGTGCTGGC CCTCATATTA GGAATAACTG CGTGGGGTTA TAAAAACTAT 
CGAGAACAGA GGTCAAATGG GCTCTCTCAT TCTTGGAGTG AAAGGATTCC AGACACAAAA 
CATATTTCAG ACATCTGTGA AAATGGGCGA CCTCGAAGTA ACTCTTGGCA AGGTAACCTG 
GGAGGCAACA AAAAGAAAAT CAGAGGCAAA AGATTTAGAC CTCGGTCTAA TTCAACTGAG 
TATTTAAACC CATGGTTCAA AAGAGACTAT AATGTAGCTA AGTGGGTAGA AGATGTGAAT 
AAAAACACTG AAGGACCATA CTTTAGGACT TTATCTCCTG CCAAGTCTCC TTCTTCATCA 
ACTGGGTCTA TTGCCTCCAG CAGAAAATAC CCTTACCCAA TGCCTCCACT TCCTGATGAG 
GACAAGAAAG TGAACCGACA AAGTGCCAGG CTATGGGAGA CATCCATTTA A

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_016867824.1
CDS	216..2966
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQAGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQIQMFLKSESQKTIYQIQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTEYLNPWFKRDYNVAKWVEDVNKNTEGPYFRTLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_017012335.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X17, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_017012335.1

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGATTC AGATGTTTTT GAAGTCAGAA TCCCAGAAGA CCATATACCA GATACAGTTG 
ACTCATGTTG ACCAAGCAAG CTTCCAGGTT GATGCCTTTG GAACGTCATT CATTCTCGAT 
GTCGTGCTAA ATCATGATTT GCTGTCCTCT GAATACATAG AGAGACACAT TGAACATGGA 
GGCAAGACTG TGGAAGTTAA AGGAGGAGAG CACTGTTACT ACCAGGGCCA TATCCGAGGA 
AACCCTGACT CATTTGTTGC ATTGTCAACA TGCCACGGAC TTCATGGGAT GTTCTATGAC 
GGGAACCACA CATATCTCAT TGAGCCAGAA GAAAATGACA CTACTCAAGA GGATTTCCAT 
TTTCATTCAG TTTACAAATC CAGACTGTTT GAATTTTCCT TGGATGATCT TCCATCTGAA 
TTTCAGCAAG TAAACATTAC TCCATCAAAA TTTATTTTGA AGCCAAGACC AAAAAGGAGT 
AAACGGCAGC TTCGTCGATA TCCTCGTAAT GTAGAAGAAG AAACCAAATA CATTGAACTG 
ATGATTGTGA ATGATCACCT TATGTTTAAA AAACATCGGC TTTCCGTTGT ACATACCAAT 
ACCTATGCGA AATCTGTGGT GAACATGGCA GATTTAATAT ATAAAGACCA ACTTAAGACC 
AGGATAGTAT TGGTTGCTAT GGAAACCTGG GCGACTGACA ACAAGTTTGC CATATCTGAA 
AATCCATTGA TCACCCTACG TGAGTTTATG AAATACAGGA GGGATTTTAT CAAAGAGAAA 
AGTGATGCAG TTCACCTTTT TTCGGGAAGT CAATTTGAGA GTAGCCGGAG CGGGGCAGCT 
TATATTGGTG GGATTTGCTC GTTGCTGAAA GGAGGAGGCG TGAATGAATT TGGGAAAACT 
GATTTAATGG CTGTTACACT TGCCCAGTCA TTAGCCCATA ATATTGGTAT TATCTCAGAC 
AAAAGAAAGT TAGCAAGTGG TGAATGTAAA TGCGAGGACA CGTGGTCCGG GTGCATAATG 
GGAGACACTG GCTATTATCT TCCTAAAAAG TTCACCCAGT GTAATATTGA AGAGTATCAT 
GACTTCCTGA ATAGTGGAGG TGGTGCCTGC CTTTTCAACA AACCTTCTAA GCTTCTTGAT 
CCTCCTGAGT GTGGCAATGG CTTCATTGAA ACTGGAGAGG AGTGTGATTG TGGAACCCCG 
GCCGAATGTG TCCTTGAAGG AGCAGAGTGT TGTAAGAAAT GCACCTTGAC TCAAGACTCT 
CAATGCAGTG ACGGTCTTTG CTGTAAAAAG TGCAAGTTTC AGCCTATGGG CACTGTGTGC 
CGAGAAGCAG TAAATGATTG TGATATTCGT GAAACGTGCT CAGGAAATTC AAGCCAGTGT 
GCCCCTAATA TTCATAAAAT GGATGGATAT TCATGTGATG GTGTTCAGGG AATTTGCTTT 
GGAGGAAGAT GCAAAACCAG AGATAGACAA TGCAAATACA TTTGGGGGCA AAAGGTGACA 
GCATCAGACA AATATTGCTA TGAGAAACTG AATATTGAAG GGACGGAGAA GGGTAACTGT 
GGGAAAGACA AAGACACATG GATACAGTGC AACAAACGGG ATGTGCTTTG TGGTTACCTT 
TTGTGTACCA ATATTGGCAA TATCCCAAGG CTTGGAGAAC TCGATGGTGA AATCACATCT 
ACTTTAGTTG TGCAGCAAGG AAGAACATTA AACTGCAGTG GTGGGCATGT TAAGCTTGAA 
GAAGATGTAG ATCTTGGCTA TGTGGAAGAT GGGACACCTT GTGGTCCCCA AATGATGTGC 
TTAGAACACA GGTGTCTTCC TGTGGCTTCT TTCAACTTTA GTACTTGCTT GAGCAGTAAA 
GAAGGCACTA TTTGCTCAGG AAATGGAGTT TGCAGTAATG AGCTGAAGTG TGTGTGTAAC 
AGACACTGGA TAGGTTCTGA TTGCAACACT TACTTCCCTC ACAATGATGA TGCAAAGACT 
GGTATCACTC TGTCTGGCAA TGGTGTTGCT GGCACCAATA TCATAATAGG CATAATTGCT 
GGCACCATTT TAGTGCTGGC CCTCATATTA GGAATAACTG CGTGGGGTTA TAAAAACTAT 
CGAGAACAGA GGTCAAATGG GCTCTCTCAT TCTTGGAGTG AAAGGATTCC AGACACAAAA 
CATATTTCAG ACATCTGTGA AAATGGGCGA CCTCGAAGTA ACTCTTGGCA AGGTAACCTG 
GGAGGCAACA AAAAGAAAAT CAGAGGCAAA AGATTTAGAC CTCGGTCTAA TTCAACTGAG 
TATTTAAACC CATGGTTCAA AAGAGACTAT AATGTAGCTA AGTGGGTAGA AGATGTGAAT 
AAAAACACTG AAGGACCATA CTTTAGGACT TTATCTCCTG CCAAGTCTCC TTCTTCATCA 
ACTGGGTCTA TTGCCTCCAG CAGAAAATAC CCTTACCCAA TGCCTCCACT TCCTGATGAG 
GACAAGAAAG TGAACCGACA AAGTGCCAGG CTATGGGAGA CATCCATTTA A

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_017012335.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867824.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X17, mRNA.

Price & Availability↑

CloneID	OHu97345
Clone ID Related Accession (Same CDS sequence)	XM_017012335.1 , XM_017012335.2
Accession Version	XM_017012335.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2751bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X17
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017012335.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGATTC AGATGTTTTT GAAGTCAGAA TCCCAGAAGA CCATATACCA GATACAGTTG 
ACTCATGTTG ACCAAGCAAG CTTCCAGGTT GATGCCTTTG GAACGTCATT CATTCTCGAT 
GTCGTGCTAA ATCATGATTT GCTGTCCTCT GAATACATAG AGAGACACAT TGAACATGGA 
GGCAAGACTG TGGAAGTTAA AGGAGGAGAG CACTGTTACT ACCAGGGCCA TATCCGAGGA 
AACCCTGACT CATTTGTTGC ATTGTCAACA TGCCACGGAC TTCATGGGAT GTTCTATGAC 
GGGAACCACA CATATCTCAT TGAGCCAGAA GAAAATGACA CTACTCAAGA GGATTTCCAT 
TTTCATTCAG TTTACAAATC CAGACTGTTT GAATTTTCCT TGGATGATCT TCCATCTGAA 
TTTCAGCAAG TAAACATTAC TCCATCAAAA TTTATTTTGA AGCCAAGACC AAAAAGGAGT 
AAACGGCAGC TTCGTCGATA TCCTCGTAAT GTAGAAGAAG AAACCAAATA CATTGAACTG 
ATGATTGTGA ATGATCACCT TATGTTTAAA AAACATCGGC TTTCCGTTGT ACATACCAAT 
ACCTATGCGA AATCTGTGGT GAACATGGCA GATTTAATAT ATAAAGACCA ACTTAAGACC 
AGGATAGTAT TGGTTGCTAT GGAAACCTGG GCGACTGACA ACAAGTTTGC CATATCTGAA 
AATCCATTGA TCACCCTACG TGAGTTTATG AAATACAGGA GGGATTTTAT CAAAGAGAAA 
AGTGATGCAG TTCACCTTTT TTCGGGAAGT CAATTTGAGA GTAGCCGGAG CGGGGCAGCT 
TATATTGGTG GGATTTGCTC GTTGCTGAAA GGAGGAGGCG TGAATGAATT TGGGAAAACT 
GATTTAATGG CTGTTACACT TGCCCAGTCA TTAGCCCATA ATATTGGTAT TATCTCAGAC 
AAAAGAAAGT TAGCAAGTGG TGAATGTAAA TGCGAGGACA CGTGGTCCGG GTGCATAATG 
GGAGACACTG GCTATTATCT TCCTAAAAAG TTCACCCAGT GTAATATTGA AGAGTATCAT 
GACTTCCTGA ATAGTGGAGG TGGTGCCTGC CTTTTCAACA AACCTTCTAA GCTTCTTGAT 
CCTCCTGAGT GTGGCAATGG CTTCATTGAA ACTGGAGAGG AGTGTGATTG TGGAACCCCG 
GCCGAATGTG TCCTTGAAGG AGCAGAGTGT TGTAAGAAAT GCACCTTGAC TCAAGACTCT 
CAATGCAGTG ACGGTCTTTG CTGTAAAAAG TGCAAGTTTC AGCCTATGGG CACTGTGTGC 
CGAGAAGCAG TAAATGATTG TGATATTCGT GAAACGTGCT CAGGAAATTC AAGCCAGTGT 
GCCCCTAATA TTCATAAAAT GGATGGATAT TCATGTGATG GTGTTCAGGG AATTTGCTTT 
GGAGGAAGAT GCAAAACCAG AGATAGACAA TGCAAATACA TTTGGGGGCA AAAGGTGACA 
GCATCAGACA AATATTGCTA TGAGAAACTG AATATTGAAG GGACGGAGAA GGGTAACTGT 
GGGAAAGACA AAGACACATG GATACAGTGC AACAAACGGG ATGTGCTTTG TGGTTACCTT 
TTGTGTACCA ATATTGGCAA TATCCCAAGG CTTGGAGAAC TCGATGGTGA AATCACATCT 
ACTTTAGTTG TGCAGCAAGG AAGAACATTA AACTGCAGTG GTGGGCATGT TAAGCTTGAA 
GAAGATGTAG ATCTTGGCTA TGTGGAAGAT GGGACACCTT GTGGTCCCCA AATGATGTGC 
TTAGAACACA GGTGTCTTCC TGTGGCTTCT TTCAACTTTA GTACTTGCTT GAGCAGTAAA 
GAAGGCACTA TTTGCTCAGG AAATGGAGTT TGCAGTAATG AGCTGAAGTG TGTGTGTAAC 
AGACACTGGA TAGGTTCTGA TTGCAACACT TACTTCCCTC ACAATGATGA TGCAAAGACT 
GGTATCACTC TGTCTGGCAA TGGTGTTGCT GGCACCAATA TCATAATAGG CATAATTGCT 
GGCACCATTT TAGTGCTGGC CCTCATATTA GGAATAACTG CGTGGGGTTA TAAAAACTAT 
CGAGAACAGA GGTCAAATGG GCTCTCTCAT TCTTGGAGTG AAAGGATTCC AGACACAAAA 
CATATTTCAG ACATCTGTGA AAATGGGCGA CCTCGAAGTA ACTCTTGGCA AGGTAACCTG 
GGAGGCAACA AAAAGAAAAT CAGAGGCAAA AGATTTAGAC CTCGGTCTAA TTCAACTGAG 
TATTTAAACC CATGGTTCAA AAGAGACTAT AATGTAGCTA AGTGGGTAGA AGATGTGAAT 
AAAAACACTG AAGGACCATA CTTTAGGACT TTATCTCCTG CCAAGTCTCC TTCTTCATCA 
ACTGGGTCTA TTGCCTCCAG CAGAAAATAC CCTTACCCAA TGCCTCCACT TCCTGATGAG 
GACAAGAAAG TGAACCGACA AAGTGCCAGG CTATGGGAGA CATCCATTTA A

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_016867824.1
CDS	216..2966
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQAGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQIQMFLKSESQKTIYQIQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTEYLNPWFKRDYNVAKWVEDVNKNTEGPYFRTLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_017012335.2
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X17, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_017012335.2

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGATTC AGATGTTTTT GAAGTCAGAA TCCCAGAAGA CCATATACCA GATACAGTTG 
ACTCATGTTG ACCAAGCAAG CTTCCAGGTT GATGCCTTTG GAACGTCATT CATTCTCGAT 
GTCGTGCTAA ATCATGATTT GCTGTCCTCT GAATACATAG AGAGACACAT TGAACATGGA 
GGCAAGACTG TGGAAGTTAA AGGAGGAGAG CACTGTTACT ACCAGGGCCA TATCCGAGGA 
AACCCTGACT CATTTGTTGC ATTGTCAACA TGCCACGGAC TTCATGGGAT GTTCTATGAC 
GGGAACCACA CATATCTCAT TGAGCCAGAA GAAAATGACA CTACTCAAGA GGATTTCCAT 
TTTCATTCAG TTTACAAATC CAGACTGTTT GAATTTTCCT TGGATGATCT TCCATCTGAA 
TTTCAGCAAG TAAACATTAC TCCATCAAAA TTTATTTTGA AGCCAAGACC AAAAAGGAGT 
AAACGGCAGC TTCGTCGATA TCCTCGTAAT GTAGAAGAAG AAACCAAATA CATTGAACTG 
ATGATTGTGA ATGATCACCT TATGTTTAAA AAACATCGGC TTTCCGTTGT ACATACCAAT 
ACCTATGCGA AATCTGTGGT GAACATGGCA GATTTAATAT ATAAAGACCA ACTTAAGACC 
AGGATAGTAT TGGTTGCTAT GGAAACCTGG GCGACTGACA ACAAGTTTGC CATATCTGAA 
AATCCATTGA TCACCCTACG TGAGTTTATG AAATACAGGA GGGATTTTAT CAAAGAGAAA 
AGTGATGCAG TTCACCTTTT TTCGGGAAGT CAATTTGAGA GTAGCCGGAG CGGGGCAGCT 
TATATTGGTG GGATTTGCTC GTTGCTGAAA GGAGGAGGCG TGAATGAATT TGGGAAAACT 
GATTTAATGG CTGTTACACT TGCCCAGTCA TTAGCCCATA ATATTGGTAT TATCTCAGAC 
AAAAGAAAGT TAGCAAGTGG TGAATGTAAA TGCGAGGACA CGTGGTCCGG GTGCATAATG 
GGAGACACTG GCTATTATCT TCCTAAAAAG TTCACCCAGT GTAATATTGA AGAGTATCAT 
GACTTCCTGA ATAGTGGAGG TGGTGCCTGC CTTTTCAACA AACCTTCTAA GCTTCTTGAT 
CCTCCTGAGT GTGGCAATGG CTTCATTGAA ACTGGAGAGG AGTGTGATTG TGGAACCCCG 
GCCGAATGTG TCCTTGAAGG AGCAGAGTGT TGTAAGAAAT GCACCTTGAC TCAAGACTCT 
CAATGCAGTG ACGGTCTTTG CTGTAAAAAG TGCAAGTTTC AGCCTATGGG CACTGTGTGC 
CGAGAAGCAG TAAATGATTG TGATATTCGT GAAACGTGCT CAGGAAATTC AAGCCAGTGT 
GCCCCTAATA TTCATAAAAT GGATGGATAT TCATGTGATG GTGTTCAGGG AATTTGCTTT 
GGAGGAAGAT GCAAAACCAG AGATAGACAA TGCAAATACA TTTGGGGGCA AAAGGTGACA 
GCATCAGACA AATATTGCTA TGAGAAACTG AATATTGAAG GGACGGAGAA GGGTAACTGT 
GGGAAAGACA AAGACACATG GATACAGTGC AACAAACGGG ATGTGCTTTG TGGTTACCTT 
TTGTGTACCA ATATTGGCAA TATCCCAAGG CTTGGAGAAC TCGATGGTGA AATCACATCT 
ACTTTAGTTG TGCAGCAAGG AAGAACATTA AACTGCAGTG GTGGGCATGT TAAGCTTGAA 
GAAGATGTAG ATCTTGGCTA TGTGGAAGAT GGGACACCTT GTGGTCCCCA AATGATGTGC 
TTAGAACACA GGTGTCTTCC TGTGGCTTCT TTCAACTTTA GTACTTGCTT GAGCAGTAAA 
GAAGGCACTA TTTGCTCAGG AAATGGAGTT TGCAGTAATG AGCTGAAGTG TGTGTGTAAC 
AGACACTGGA TAGGTTCTGA TTGCAACACT TACTTCCCTC ACAATGATGA TGCAAAGACT 
GGTATCACTC TGTCTGGCAA TGGTGTTGCT GGCACCAATA TCATAATAGG CATAATTGCT 
GGCACCATTT TAGTGCTGGC CCTCATATTA GGAATAACTG CGTGGGGTTA TAAAAACTAT 
CGAGAACAGA GGTCAAATGG GCTCTCTCAT TCTTGGAGTG AAAGGATTCC AGACACAAAA 
CATATTTCAG ACATCTGTGA AAATGGGCGA CCTCGAAGTA ACTCTTGGCA AGGTAACCTG 
GGAGGCAACA AAAAGAAAAT CAGAGGCAAA AGATTTAGAC CTCGGTCTAA TTCAACTGAG 
TATTTAAACC CATGGTTCAA AAGAGACTAT AATGTAGCTA AGTGGGTAGA AGATGTGAAT 
AAAAACACTG AAGGACCATA CTTTAGGACT TTATCTCCTG CCAAGTCTCC TTCTTCATCA 
ACTGGGTCTA TTGCCTCCAG CAGAAAATAC CCTTACCCAA TGCCTCCACT TCCTGATGAG 
GACAAGAAAG TGAACCGACA AAGTGCCAGG CTATGGGAGA CATCCATTTA A

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_017012336.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867825.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X18, mRNA.

Price & Availability↑

CloneID	OHu97346
Clone ID Related Accession (Same CDS sequence)	XM_017012336.1 , XM_017012336.2
Accession Version	XM_017012336.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2724bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-06-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X18
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG GTCAAATGGG CTCTCTCATT CTTGGAGTGA AAGGATTCCA 
GACACAAAAC ATATTTCAGA CATCTGTGAA AATGGGCGAC CTCGAAGTAA CTCTTGGCAA 
GGTAACCTGG GAGGCAACAA AAAGAAAATC AGAGGCAAAA GATTTAGACC TCGGTCTAAT 
TCAACTGAGA GGGAGCCCCA AGCACCTGAG CCTGGGCACT CCCTCGCCCA GACAGTCCCA 
TCCCAAGGCA TAAGCCCAGG GGGCTCTGAC AGCCCCCAGA CAGGGAGTCT GGATCACAGG 
ACTTTATCTC CTGCCAAGTC TCCTTCTTCA TCAACTGGGT CTATTGCCTC CAGCAGAAAA 
TACCCTTACC CAATGCCTCC ACTTCCTGAT GAGGACAAGA AAGTGAACCG ACAAAGTGCC 
AGGCTATGGG AGACATCCAT TTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_016867825.1
CDS	216..2939
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQAGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTEREPQAPEPGHSLAQTVPSQGISPGGSDSPQTGSLDHRTLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_017012336.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X18, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_017012336.1

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG GTCAAATGGG CTCTCTCATT CTTGGAGTGA AAGGATTCCA 
GACACAAAAC ATATTTCAGA CATCTGTGAA AATGGGCGAC CTCGAAGTAA CTCTTGGCAA 
GGTAACCTGG GAGGCAACAA AAAGAAAATC AGAGGCAAAA GATTTAGACC TCGGTCTAAT 
TCAACTGAGA GGGAGCCCCA AGCACCTGAG CCTGGGCACT CCCTCGCCCA GACAGTCCCA 
TCCCAAGGCA TAAGCCCAGG GGGCTCTGAC AGCCCCCAGA CAGGGAGTCT GGATCACAGG 
ACTTTATCTC CTGCCAAGTC TCCTTCTTCA TCAACTGGGT CTATTGCCTC CAGCAGAAAA 
TACCCTTACC CAATGCCTCC ACTTCCTGAT GAGGACAAGA AAGTGAACCG ACAAAGTGCC 
AGGCTATGGG AGACATCCAT TTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_017012336.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867825.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X18, mRNA.

Price & Availability↑

CloneID	OHu97346
Clone ID Related Accession (Same CDS sequence)	XM_017012336.1 , XM_017012336.2
Accession Version	XM_017012336.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2724bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X18
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017012336.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG GTCAAATGGG CTCTCTCATT CTTGGAGTGA AAGGATTCCA 
GACACAAAAC ATATTTCAGA CATCTGTGAA AATGGGCGAC CTCGAAGTAA CTCTTGGCAA 
GGTAACCTGG GAGGCAACAA AAAGAAAATC AGAGGCAAAA GATTTAGACC TCGGTCTAAT 
TCAACTGAGA GGGAGCCCCA AGCACCTGAG CCTGGGCACT CCCTCGCCCA GACAGTCCCA 
TCCCAAGGCA TAAGCCCAGG GGGCTCTGAC AGCCCCCAGA CAGGGAGTCT GGATCACAGG 
ACTTTATCTC CTGCCAAGTC TCCTTCTTCA TCAACTGGGT CTATTGCCTC CAGCAGAAAA 
TACCCTTACC CAATGCCTCC ACTTCCTGAT GAGGACAAGA AAGTGAACCG ACAAAGTGCC 
AGGCTATGGG AGACATCCAT TTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_016867825.1
CDS	216..2939
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQAGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTEREPQAPEPGHSLAQTVPSQGISPGGSDSPQTGSLDHRTLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_017012336.2
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X18, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_017012336.2

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG GTCAAATGGG CTCTCTCATT CTTGGAGTGA AAGGATTCCA 
GACACAAAAC ATATTTCAGA CATCTGTGAA AATGGGCGAC CTCGAAGTAA CTCTTGGCAA 
GGTAACCTGG GAGGCAACAA AAAGAAAATC AGAGGCAAAA GATTTAGACC TCGGTCTAAT 
TCAACTGAGA GGGAGCCCCA AGCACCTGAG CCTGGGCACT CCCTCGCCCA GACAGTCCCA 
TCCCAAGGCA TAAGCCCAGG GGGCTCTGAC AGCCCCCAGA CAGGGAGTCT GGATCACAGG 
ACTTTATCTC CTGCCAAGTC TCCTTCTTCA TCAACTGGGT CTATTGCCTC CAGCAGAAAA 
TACCCTTACC CAATGCCTCC ACTTCCTGAT GAGGACAAGA AAGTGAACCG ACAAAGTGCC 
AGGCTATGGG AGACATCCAT TTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_017012337.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867826.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X19, mRNA.

Price & Availability↑

CloneID	OHu97347
Clone ID Related Accession (Same CDS sequence)	XM_017012337.1 , XM_017012337.2
Accession Version	XM_017012337.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2724bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-06-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X19
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGATTC AGATGTTTTT GAAGTCAGAA TCCCAGAAGA CCATATACCA GATACAGTTG 
ACTCATGTTG ACCAAGCAAG CTTCCAGGTT GATGCCTTTG GAACGTCATT CATTCTCGAT 
GTCGTGCTAA ATCATGATTT GCTGTCCTCT GAATACATAG AGAGACACAT TGAACATGGA 
GGCAAGACTG TGGAAGTTAA AGGAGGAGAG CACTGTTACT ACCAGGGCCA TATCCGAGGA 
AACCCTGACT CATTTGTTGC ATTGTCAACA TGCCACGGAC TTCATGGGAT GTTCTATGAC 
GGGAACCACA CATATCTCAT TGAGCCAGAA GAAAATGACA CTACTCAAGA GGATTTCCAT 
TTTCATTCAG TTTACAAATC CAGACTGTTT GAATTTTCCT TGGATGATCT TCCATCTGAA 
TTTCAGCAAG TAAACATTAC TCCATCAAAA TTTATTTTGA AGCCAAGACC AAAAAGGAGT 
AAACGGCAGC TTCGTCGATA TCCTCGTAAT GTAGAAGAAG AAACCAAATA CATTGAACTG 
ATGATTGTGA ATGATCACCT TATGTTTAAA AAACATCGGC TTTCCGTTGT ACATACCAAT 
ACCTATGCGA AATCTGTGGT GAACATGGCA GATTTAATAT ATAAAGACCA ACTTAAGACC 
AGGATAGTAT TGGTTGCTAT GGAAACCTGG GCGACTGACA ACAAGTTTGC CATATCTGAA 
AATCCATTGA TCACCCTACG TGAGTTTATG AAATACAGGA GGGATTTTAT CAAAGAGAAA 
AGTGATGCAG TTCACCTTTT TTCGGGAAGT CAATTTGAGA GTAGCCGGAG CGGGGCAGCT 
TATATTGGTG GGATTTGCTC GTTGCTGAAA GGAGGAGGCG TGAATGAATT TGGGAAAACT 
GATTTAATGG CTGTTACACT TGCCCAGTCA TTAGCCCATA ATATTGGTAT TATCTCAGAC 
AAAAGAAAGT TAGCAAGTGG TGAATGTAAA TGCGAGGACA CGTGGTCCGG GTGCATAATG 
GGAGACACTG GCTATTATCT TCCTAAAAAG TTCACCCAGT GTAATATTGA AGAGTATCAT 
GACTTCCTGA ATAGTGGAGG TGGTGCCTGC CTTTTCAACA AACCTTCTAA GCTTCTTGAT 
CCTCCTGAGT GTGGCAATGG CTTCATTGAA ACTGGAGAGG AGTGTGATTG TGGAACCCCG 
GCCGAATGTG TCCTTGAAGG AGCAGAGTGT TGTAAGAAAT GCACCTTGAC TCAAGACTCT 
CAATGCAGTG ACGGTCTTTG CTGTAAAAAG TGCAAGTTTC AGCCTATGGG CACTGTGTGC 
CGAGAAGCAG TAAATGATTG TGATATTCGT GAAACGTGCT CAGGAAATTC AAGCCAGTGT 
GCCCCTAATA TTCATAAAAT GGATGGATAT TCATGTGATG GTGTTCAGGG AATTTGCTTT 
GGAGGAAGAT GCAAAACCAG AGATAGACAA TGCAAATACA TTTGGGGGCA AAAGGTGACA 
GCATCAGACA AATATTGCTA TGAGAAACTG AATATTGAAG GGACGGAGAA GGGTAACTGT 
GGGAAAGACA AAGACACATG GATACAGTGC AACAAACGGG ATGTGCTTTG TGGTTACCTT 
TTGTGTACCA ATATTGGCAA TATCCCAAGG CTTGGAGAAC TCGATGGTGA AATCACATCT 
ACTTTAGTTG TGCAGCAAGG AAGAACATTA AACTGCAGTG GTGGGCATGT TAAGCTTGAA 
GAAGATGTAG ATCTTGGCTA TGTGGAAGAT GGGACACCTT GTGGTCCCCA AATGATGTGC 
TTAGAACACA GGTGTCTTCC TGTGGCTTCT TTCAACTTTA GTACTTGCTT GAGCAGTAAA 
GAAGGCACTA TTTGCTCAGG AAATGGAGTT TGCAGTAATG AGCTGAAGTG TGTGTGTAAC 
AGACACTGGA TAGGTTCTGA TTGCAACACT TACTTCCCTC ACAATGATGA TGCAAAGACT 
GGTATCACTC TGTCTGGCAA TGGTGTTGCT GGCACCAATA TCATAATAGG CATAATTGCT 
GGCACCATTT TAGTGCTGGC CCTCATATTA GGAATAACTG CGTGGGGTTA TAAAAACTAT 
CGAGAACAGA GGTCAAATGG GCTCTCTCAT TCTTGGAGTG AAAGGATTCC AGACACAAAA 
CATATTTCAG ACATCTGTGA AAATGGGCGA CCTCGAAGTA ACTCTTGGCA AGGTAACCTG 
GGAGGCAACA AAAAGAAAAT CAGAGGCAAA AGATTTAGAC CTCGGTCTAA TTCAACTGAC 
TATGGGAGAC ATCCATTTAA GATCAACTGT TTACATGTGA TACATCGAAA ACTGTTTACT 
TCAACTTTTA TAGAAACCCA GGCTCATGGA ATCACTGCAA ATCTATCTGC TCTTCAGACA 
ATACGAAGAC CCTCTGAGAT GCTACAGAGG AGAGGAAGCG GAGTTTCACA TCTGGTTACC 
ATTTTCTTTT TGTCATTGGC TTAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_016867826.1
CDS	216..2939
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQAGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQIQMFLKSESQKTIYQIQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTDYGRHPFKINCLHVIHRKLFTSTFIETQAHGITANLSALQTIRRPSEMLQRRGSGVSHLVTIFFLSLA

Target ORF information:

RefSeq Version	XM_017012337.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X19, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_017012337.1

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGATTC AGATGTTTTT GAAGTCAGAA TCCCAGAAGA CCATATACCA GATACAGTTG 
ACTCATGTTG ACCAAGCAAG CTTCCAGGTT GATGCCTTTG GAACGTCATT CATTCTCGAT 
GTCGTGCTAA ATCATGATTT GCTGTCCTCT GAATACATAG AGAGACACAT TGAACATGGA 
GGCAAGACTG TGGAAGTTAA AGGAGGAGAG CACTGTTACT ACCAGGGCCA TATCCGAGGA 
AACCCTGACT CATTTGTTGC ATTGTCAACA TGCCACGGAC TTCATGGGAT GTTCTATGAC 
GGGAACCACA CATATCTCAT TGAGCCAGAA GAAAATGACA CTACTCAAGA GGATTTCCAT 
TTTCATTCAG TTTACAAATC CAGACTGTTT GAATTTTCCT TGGATGATCT TCCATCTGAA 
TTTCAGCAAG TAAACATTAC TCCATCAAAA TTTATTTTGA AGCCAAGACC AAAAAGGAGT 
AAACGGCAGC TTCGTCGATA TCCTCGTAAT GTAGAAGAAG AAACCAAATA CATTGAACTG 
ATGATTGTGA ATGATCACCT TATGTTTAAA AAACATCGGC TTTCCGTTGT ACATACCAAT 
ACCTATGCGA AATCTGTGGT GAACATGGCA GATTTAATAT ATAAAGACCA ACTTAAGACC 
AGGATAGTAT TGGTTGCTAT GGAAACCTGG GCGACTGACA ACAAGTTTGC CATATCTGAA 
AATCCATTGA TCACCCTACG TGAGTTTATG AAATACAGGA GGGATTTTAT CAAAGAGAAA 
AGTGATGCAG TTCACCTTTT TTCGGGAAGT CAATTTGAGA GTAGCCGGAG CGGGGCAGCT 
TATATTGGTG GGATTTGCTC GTTGCTGAAA GGAGGAGGCG TGAATGAATT TGGGAAAACT 
GATTTAATGG CTGTTACACT TGCCCAGTCA TTAGCCCATA ATATTGGTAT TATCTCAGAC 
AAAAGAAAGT TAGCAAGTGG TGAATGTAAA TGCGAGGACA CGTGGTCCGG GTGCATAATG 
GGAGACACTG GCTATTATCT TCCTAAAAAG TTCACCCAGT GTAATATTGA AGAGTATCAT 
GACTTCCTGA ATAGTGGAGG TGGTGCCTGC CTTTTCAACA AACCTTCTAA GCTTCTTGAT 
CCTCCTGAGT GTGGCAATGG CTTCATTGAA ACTGGAGAGG AGTGTGATTG TGGAACCCCG 
GCCGAATGTG TCCTTGAAGG AGCAGAGTGT TGTAAGAAAT GCACCTTGAC TCAAGACTCT 
CAATGCAGTG ACGGTCTTTG CTGTAAAAAG TGCAAGTTTC AGCCTATGGG CACTGTGTGC 
CGAGAAGCAG TAAATGATTG TGATATTCGT GAAACGTGCT CAGGAAATTC AAGCCAGTGT 
GCCCCTAATA TTCATAAAAT GGATGGATAT TCATGTGATG GTGTTCAGGG AATTTGCTTT 
GGAGGAAGAT GCAAAACCAG AGATAGACAA TGCAAATACA TTTGGGGGCA AAAGGTGACA 
GCATCAGACA AATATTGCTA TGAGAAACTG AATATTGAAG GGACGGAGAA GGGTAACTGT 
GGGAAAGACA AAGACACATG GATACAGTGC AACAAACGGG ATGTGCTTTG TGGTTACCTT 
TTGTGTACCA ATATTGGCAA TATCCCAAGG CTTGGAGAAC TCGATGGTGA AATCACATCT 
ACTTTAGTTG TGCAGCAAGG AAGAACATTA AACTGCAGTG GTGGGCATGT TAAGCTTGAA 
GAAGATGTAG ATCTTGGCTA TGTGGAAGAT GGGACACCTT GTGGTCCCCA AATGATGTGC 
TTAGAACACA GGTGTCTTCC TGTGGCTTCT TTCAACTTTA GTACTTGCTT GAGCAGTAAA 
GAAGGCACTA TTTGCTCAGG AAATGGAGTT TGCAGTAATG AGCTGAAGTG TGTGTGTAAC 
AGACACTGGA TAGGTTCTGA TTGCAACACT TACTTCCCTC ACAATGATGA TGCAAAGACT 
GGTATCACTC TGTCTGGCAA TGGTGTTGCT GGCACCAATA TCATAATAGG CATAATTGCT 
GGCACCATTT TAGTGCTGGC CCTCATATTA GGAATAACTG CGTGGGGTTA TAAAAACTAT 
CGAGAACAGA GGTCAAATGG GCTCTCTCAT TCTTGGAGTG AAAGGATTCC AGACACAAAA 
CATATTTCAG ACATCTGTGA AAATGGGCGA CCTCGAAGTA ACTCTTGGCA AGGTAACCTG 
GGAGGCAACA AAAAGAAAAT CAGAGGCAAA AGATTTAGAC CTCGGTCTAA TTCAACTGAC 
TATGGGAGAC ATCCATTTAA GATCAACTGT TTACATGTGA TACATCGAAA ACTGTTTACT 
TCAACTTTTA TAGAAACCCA GGCTCATGGA ATCACTGCAA ATCTATCTGC TCTTCAGACA 
ATACGAAGAC CCTCTGAGAT GCTACAGAGG AGAGGAAGCG GAGTTTCACA TCTGGTTACC 
ATTTTCTTTT TGTCATTGGC TTAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_017012337.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867826.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X19, mRNA.

Price & Availability↑

CloneID	OHu97347
Clone ID Related Accession (Same CDS sequence)	XM_017012337.1 , XM_017012337.2
Accession Version	XM_017012337.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2724bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X19
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017012337.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGATTC AGATGTTTTT GAAGTCAGAA TCCCAGAAGA CCATATACCA GATACAGTTG 
ACTCATGTTG ACCAAGCAAG CTTCCAGGTT GATGCCTTTG GAACGTCATT CATTCTCGAT 
GTCGTGCTAA ATCATGATTT GCTGTCCTCT GAATACATAG AGAGACACAT TGAACATGGA 
GGCAAGACTG TGGAAGTTAA AGGAGGAGAG CACTGTTACT ACCAGGGCCA TATCCGAGGA 
AACCCTGACT CATTTGTTGC ATTGTCAACA TGCCACGGAC TTCATGGGAT GTTCTATGAC 
GGGAACCACA CATATCTCAT TGAGCCAGAA GAAAATGACA CTACTCAAGA GGATTTCCAT 
TTTCATTCAG TTTACAAATC CAGACTGTTT GAATTTTCCT TGGATGATCT TCCATCTGAA 
TTTCAGCAAG TAAACATTAC TCCATCAAAA TTTATTTTGA AGCCAAGACC AAAAAGGAGT 
AAACGGCAGC TTCGTCGATA TCCTCGTAAT GTAGAAGAAG AAACCAAATA CATTGAACTG 
ATGATTGTGA ATGATCACCT TATGTTTAAA AAACATCGGC TTTCCGTTGT ACATACCAAT 
ACCTATGCGA AATCTGTGGT GAACATGGCA GATTTAATAT ATAAAGACCA ACTTAAGACC 
AGGATAGTAT TGGTTGCTAT GGAAACCTGG GCGACTGACA ACAAGTTTGC CATATCTGAA 
AATCCATTGA TCACCCTACG TGAGTTTATG AAATACAGGA GGGATTTTAT CAAAGAGAAA 
AGTGATGCAG TTCACCTTTT TTCGGGAAGT CAATTTGAGA GTAGCCGGAG CGGGGCAGCT 
TATATTGGTG GGATTTGCTC GTTGCTGAAA GGAGGAGGCG TGAATGAATT TGGGAAAACT 
GATTTAATGG CTGTTACACT TGCCCAGTCA TTAGCCCATA ATATTGGTAT TATCTCAGAC 
AAAAGAAAGT TAGCAAGTGG TGAATGTAAA TGCGAGGACA CGTGGTCCGG GTGCATAATG 
GGAGACACTG GCTATTATCT TCCTAAAAAG TTCACCCAGT GTAATATTGA AGAGTATCAT 
GACTTCCTGA ATAGTGGAGG TGGTGCCTGC CTTTTCAACA AACCTTCTAA GCTTCTTGAT 
CCTCCTGAGT GTGGCAATGG CTTCATTGAA ACTGGAGAGG AGTGTGATTG TGGAACCCCG 
GCCGAATGTG TCCTTGAAGG AGCAGAGTGT TGTAAGAAAT GCACCTTGAC TCAAGACTCT 
CAATGCAGTG ACGGTCTTTG CTGTAAAAAG TGCAAGTTTC AGCCTATGGG CACTGTGTGC 
CGAGAAGCAG TAAATGATTG TGATATTCGT GAAACGTGCT CAGGAAATTC AAGCCAGTGT 
GCCCCTAATA TTCATAAAAT GGATGGATAT TCATGTGATG GTGTTCAGGG AATTTGCTTT 
GGAGGAAGAT GCAAAACCAG AGATAGACAA TGCAAATACA TTTGGGGGCA AAAGGTGACA 
GCATCAGACA AATATTGCTA TGAGAAACTG AATATTGAAG GGACGGAGAA GGGTAACTGT 
GGGAAAGACA AAGACACATG GATACAGTGC AACAAACGGG ATGTGCTTTG TGGTTACCTT 
TTGTGTACCA ATATTGGCAA TATCCCAAGG CTTGGAGAAC TCGATGGTGA AATCACATCT 
ACTTTAGTTG TGCAGCAAGG AAGAACATTA AACTGCAGTG GTGGGCATGT TAAGCTTGAA 
GAAGATGTAG ATCTTGGCTA TGTGGAAGAT GGGACACCTT GTGGTCCCCA AATGATGTGC 
TTAGAACACA GGTGTCTTCC TGTGGCTTCT TTCAACTTTA GTACTTGCTT GAGCAGTAAA 
GAAGGCACTA TTTGCTCAGG AAATGGAGTT TGCAGTAATG AGCTGAAGTG TGTGTGTAAC 
AGACACTGGA TAGGTTCTGA TTGCAACACT TACTTCCCTC ACAATGATGA TGCAAAGACT 
GGTATCACTC TGTCTGGCAA TGGTGTTGCT GGCACCAATA TCATAATAGG CATAATTGCT 
GGCACCATTT TAGTGCTGGC CCTCATATTA GGAATAACTG CGTGGGGTTA TAAAAACTAT 
CGAGAACAGA GGTCAAATGG GCTCTCTCAT TCTTGGAGTG AAAGGATTCC AGACACAAAA 
CATATTTCAG ACATCTGTGA AAATGGGCGA CCTCGAAGTA ACTCTTGGCA AGGTAACCTG 
GGAGGCAACA AAAAGAAAAT CAGAGGCAAA AGATTTAGAC CTCGGTCTAA TTCAACTGAC 
TATGGGAGAC ATCCATTTAA GATCAACTGT TTACATGTGA TACATCGAAA ACTGTTTACT 
TCAACTTTTA TAGAAACCCA GGCTCATGGA ATCACTGCAA ATCTATCTGC TCTTCAGACA 
ATACGAAGAC CCTCTGAGAT GCTACAGAGG AGAGGAAGCG GAGTTTCACA TCTGGTTACC 
ATTTTCTTTT TGTCATTGGC TTAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_016867826.1
CDS	216..2939
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQAGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQIQMFLKSESQKTIYQIQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTDYGRHPFKINCLHVIHRKLFTSTFIETQAHGITANLSALQTIRRPSEMLQRRGSGVSHLVTIFFLSLA

Target ORF information:

RefSeq Version	XM_017012337.2
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X19, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_017012337.2

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGATTC AGATGTTTTT GAAGTCAGAA TCCCAGAAGA CCATATACCA GATACAGTTG 
ACTCATGTTG ACCAAGCAAG CTTCCAGGTT GATGCCTTTG GAACGTCATT CATTCTCGAT 
GTCGTGCTAA ATCATGATTT GCTGTCCTCT GAATACATAG AGAGACACAT TGAACATGGA 
GGCAAGACTG TGGAAGTTAA AGGAGGAGAG CACTGTTACT ACCAGGGCCA TATCCGAGGA 
AACCCTGACT CATTTGTTGC ATTGTCAACA TGCCACGGAC TTCATGGGAT GTTCTATGAC 
GGGAACCACA CATATCTCAT TGAGCCAGAA GAAAATGACA CTACTCAAGA GGATTTCCAT 
TTTCATTCAG TTTACAAATC CAGACTGTTT GAATTTTCCT TGGATGATCT TCCATCTGAA 
TTTCAGCAAG TAAACATTAC TCCATCAAAA TTTATTTTGA AGCCAAGACC AAAAAGGAGT 
AAACGGCAGC TTCGTCGATA TCCTCGTAAT GTAGAAGAAG AAACCAAATA CATTGAACTG 
ATGATTGTGA ATGATCACCT TATGTTTAAA AAACATCGGC TTTCCGTTGT ACATACCAAT 
ACCTATGCGA AATCTGTGGT GAACATGGCA GATTTAATAT ATAAAGACCA ACTTAAGACC 
AGGATAGTAT TGGTTGCTAT GGAAACCTGG GCGACTGACA ACAAGTTTGC CATATCTGAA 
AATCCATTGA TCACCCTACG TGAGTTTATG AAATACAGGA GGGATTTTAT CAAAGAGAAA 
AGTGATGCAG TTCACCTTTT TTCGGGAAGT CAATTTGAGA GTAGCCGGAG CGGGGCAGCT 
TATATTGGTG GGATTTGCTC GTTGCTGAAA GGAGGAGGCG TGAATGAATT TGGGAAAACT 
GATTTAATGG CTGTTACACT TGCCCAGTCA TTAGCCCATA ATATTGGTAT TATCTCAGAC 
AAAAGAAAGT TAGCAAGTGG TGAATGTAAA TGCGAGGACA CGTGGTCCGG GTGCATAATG 
GGAGACACTG GCTATTATCT TCCTAAAAAG TTCACCCAGT GTAATATTGA AGAGTATCAT 
GACTTCCTGA ATAGTGGAGG TGGTGCCTGC CTTTTCAACA AACCTTCTAA GCTTCTTGAT 
CCTCCTGAGT GTGGCAATGG CTTCATTGAA ACTGGAGAGG AGTGTGATTG TGGAACCCCG 
GCCGAATGTG TCCTTGAAGG AGCAGAGTGT TGTAAGAAAT GCACCTTGAC TCAAGACTCT 
CAATGCAGTG ACGGTCTTTG CTGTAAAAAG TGCAAGTTTC AGCCTATGGG CACTGTGTGC 
CGAGAAGCAG TAAATGATTG TGATATTCGT GAAACGTGCT CAGGAAATTC AAGCCAGTGT 
GCCCCTAATA TTCATAAAAT GGATGGATAT TCATGTGATG GTGTTCAGGG AATTTGCTTT 
GGAGGAAGAT GCAAAACCAG AGATAGACAA TGCAAATACA TTTGGGGGCA AAAGGTGACA 
GCATCAGACA AATATTGCTA TGAGAAACTG AATATTGAAG GGACGGAGAA GGGTAACTGT 
GGGAAAGACA AAGACACATG GATACAGTGC AACAAACGGG ATGTGCTTTG TGGTTACCTT 
TTGTGTACCA ATATTGGCAA TATCCCAAGG CTTGGAGAAC TCGATGGTGA AATCACATCT 
ACTTTAGTTG TGCAGCAAGG AAGAACATTA AACTGCAGTG GTGGGCATGT TAAGCTTGAA 
GAAGATGTAG ATCTTGGCTA TGTGGAAGAT GGGACACCTT GTGGTCCCCA AATGATGTGC 
TTAGAACACA GGTGTCTTCC TGTGGCTTCT TTCAACTTTA GTACTTGCTT GAGCAGTAAA 
GAAGGCACTA TTTGCTCAGG AAATGGAGTT TGCAGTAATG AGCTGAAGTG TGTGTGTAAC 
AGACACTGGA TAGGTTCTGA TTGCAACACT TACTTCCCTC ACAATGATGA TGCAAAGACT 
GGTATCACTC TGTCTGGCAA TGGTGTTGCT GGCACCAATA TCATAATAGG CATAATTGCT 
GGCACCATTT TAGTGCTGGC CCTCATATTA GGAATAACTG CGTGGGGTTA TAAAAACTAT 
CGAGAACAGA GGTCAAATGG GCTCTCTCAT TCTTGGAGTG AAAGGATTCC AGACACAAAA 
CATATTTCAG ACATCTGTGA AAATGGGCGA CCTCGAAGTA ACTCTTGGCA AGGTAACCTG 
GGAGGCAACA AAAAGAAAAT CAGAGGCAAA AGATTTAGAC CTCGGTCTAA TTCAACTGAC 
TATGGGAGAC ATCCATTTAA GATCAACTGT TTACATGTGA TACATCGAAA ACTGTTTACT 
TCAACTTTTA TAGAAACCCA GGCTCATGGA ATCACTGCAA ATCTATCTGC TCTTCAGACA 
ATACGAAGAC CCTCTGAGAT GCTACAGAGG AGAGGAAGCG GAGTTTCACA TCTGGTTACC 
ATTTTCTTTT TGTCATTGGC TTAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_017012338.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867827.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X20, mRNA.

Price & Availability↑

CloneID	OHu97348
Clone ID Related Accession (Same CDS sequence)	XM_017012338.1 , XM_017012338.2
Accession Version	XM_017012338.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2718bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-06-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X20
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGACGCC TCATTGATGG AGCTAGAGAA GAGGAAGGAA 
AACCGCTTCG TGGAGCGCCA GAGCATCGTG CCACTGCGCC TCATCTACCG CTCGGGCGGC 
GAAGACGAAA GTCGGCACGA CGCGCTCGAC ACGCGGGTGC GGGGCGACCT CGGTGGCCCG 
CAGTTGACTC ATGTTGACCA AGCAAGCTTC CAGGTTGATG CCTTTGGAAC GTCATTCATT 
CTCGATGTCG TGCTAAATCA TGATTTGCTG TCCTCTGAAT ACATAGAGAG ACACATTGAA 
CATGGAGGCA AGACTGTGGA AGTTAAAGGA GGAGAGCACT GTTACTACCA GGGCCATATC 
CGAGGAAACC CTGACTCATT TGTTGCATTG TCAACATGCC ACGGACTTCA TGGGATGTTC 
TATGACGGGA ACCACACATA TCTCATTGAG CCAGAAGAAA ATGACACTAC TCAAGAGGAT 
TTCCATTTTC ATTCAGTTTA CAAATCCAGA CTGTTTGAAT TTTCCTTGGA TGATCTTCCA 
TCTGAATTTC AGCAAGTAAA CATTACTCCA TCAAAATTTA TTTTGAAGCC AAGACCAAAA 
AGGAGTAAAC GGCAGCTTCG TCGATATCCT CGTAATGTAG AAGAAGAAAC CAAATACATT 
GAACTGATGA TTGTGAATGA TCACCTTATG TTTAAAAAAC ATCGGCTTTC CGTTGTACAT 
ACCAATACCT ATGCGAAATC TGTGGTGAAC ATGGCAGATT TAATATATAA AGACCAACTT 
AAGACCAGGA TAGTATTGGT TGCTATGGAA ACCTGGGCGA CTGACAACAA GTTTGCCATA 
TCTGAAAATC CATTGATCAC CCTACGTGAG TTTATGAAAT ACAGGAGGGA TTTTATCAAA 
GAGAAAAGTG ATGCAGTTCA CCTTTTTTCG GGAAGTCAAT TTGAGAGTAG CCGGAGCGGG 
GCAGCTTATA TTGGTGGGAT TTGCTCGTTG CTGAAAGGAG GAGGCGTGAA TGAATTTGGG 
AAAACTGATT TAATGGCTGT TACACTTGCC CAGTCATTAG CCCATAATAT TGGTATTATC 
TCAGACAAAA GAAAGTTAGC AAGTGGTGAA TGTAAATGCG AGGACACGTG GTCCGGGTGC 
ATAATGGGAG ACACTGGCTA TTATCTTCCT AAAAAGTTCA CCCAGTGTAA TATTGAAGAG 
TATCATGACT TCCTGAATAG TGGAGGTGGT GCCTGCCTTT TCAACAAACC TTCTAAGCTT 
CTTGATCCTC CTGAGTGTGG CAATGGCTTC ATTGAAACTG GAGAGGAGTG TGATTGTGGA 
ACCCCGGCCG AATGTGTCCT TGAAGGAGCA GAGTGTTGTA AGAAATGCAC CTTGACTCAA 
GACTCTCAAT GCAGTGACGG TCTTTGCTGT AAAAAGTGCA AGTTTCAGCC TATGGGCACT 
GTGTGCCGAG AAGCAGTAAA TGATTGTGAT ATTCGTGAAA CGTGCTCAGG AAATTCAAGC 
CAGTGTGCCC CTAATATTCA TAAAATGGAT GGATATTCAT GTGATGGTGT TCAGGGAATT 
TGCTTTGGAG GAAGATGCAA AACCAGAGAT AGACAATGCA AATACATTTG GGGGCAAAAG 
GTGACAGCAT CAGACAAATA TTGCTATGAG AAACTGAATA TTGAAGGGAC GGAGAAGGGT 
AACTGTGGGA AAGACAAAGA CACATGGATA CAGTGCAACA AACGGGATGT GCTTTGTGGT 
TACCTTTTGT GTACCAATAT TGGCAATATC CCAAGGCTTG GAGAACTCGA TGGTGAAATC 
ACATCTACTT TAGTTGTGCA GCAAGGAAGA ACATTAAACT GCAGTGGTGG GCATGTTAAG 
CTTGAAGAAG ATGTAGATCT TGGCTATGTG GAAGATGGGA CACCTTGTGG TCCCCAAATG 
ATGTGCTTAG AACACAGGTG TCTTCCTGTG GCTTCTTTCA ACTTTAGTAC TTGCTTGAGC 
AGTAAAGAAG GCACTATTTG CTCAGGAAAT GGAGTTTGCA GTAATGAGCT GAAGTGTGTG 
TGTAACAGAC ACTGGATAGG TTCTGATTGC AACACTTACT TCCCTCACAA TGATGATGCA 
AAGACTGGTA TCACTCTGTC TGGCAATGGT GTTGCTGGCA CCAATATCAT AATAGGCATA 
ATTGCTGGCA CCATTTTAGT GCTGGCCCTC ATATTAGGAA TAACTGCGTG GGGTTATAAA 
AACTATCGAG AACAGAGACA GTTACCCCAG GGAGATTATG TAAAAAAGCC TGGAGATGGT 
GACTCTTTTT ATAGCGACAT TCCTCCCGGA GTCAGCACAA ACTCAGCATC TAGTTCTAAG 
AAGAGGTCAA ATGGGCTCTC TCATTCTTGG AGTGAAAGGA TTCCAGACAC AAAACATATT 
TCAGACATCT GTGAAAATGG GCGACCTCGA AGTAACTCTT GGCAAGGTAA CCTGGGAGGC 
AACAAAAAGA AAATCAGAGG CAAAAGATTT AGACCTCGGT CTAATTCAAC TGAGACTTTA 
TCTCCTGCCA AGTCTCCTTC TTCATCAACT GGGTCTATTG CCTCCAGCAG AAAATACCCT 
TACCCAATGC CTCCACTTCC TGATGAGGAC AAGAAAGTGA ACCGACAAAG TGCCAGGCTA 
TGGGAGACAT CCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_016867827.1
CDS	298..3015
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQADASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRQLPQGDYVKKPGDGDSFYSDIPPGVSTNSASSSKKRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTETLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_017012338.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X20, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_017012338.1

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGACGCC TCATTGATGG AGCTAGAGAA GAGGAAGGAA 
AACCGCTTCG TGGAGCGCCA GAGCATCGTG CCACTGCGCC TCATCTACCG CTCGGGCGGC 
GAAGACGAAA GTCGGCACGA CGCGCTCGAC ACGCGGGTGC GGGGCGACCT CGGTGGCCCG 
CAGTTGACTC ATGTTGACCA AGCAAGCTTC CAGGTTGATG CCTTTGGAAC GTCATTCATT 
CTCGATGTCG TGCTAAATCA TGATTTGCTG TCCTCTGAAT ACATAGAGAG ACACATTGAA 
CATGGAGGCA AGACTGTGGA AGTTAAAGGA GGAGAGCACT GTTACTACCA GGGCCATATC 
CGAGGAAACC CTGACTCATT TGTTGCATTG TCAACATGCC ACGGACTTCA TGGGATGTTC 
TATGACGGGA ACCACACATA TCTCATTGAG CCAGAAGAAA ATGACACTAC TCAAGAGGAT 
TTCCATTTTC ATTCAGTTTA CAAATCCAGA CTGTTTGAAT TTTCCTTGGA TGATCTTCCA 
TCTGAATTTC AGCAAGTAAA CATTACTCCA TCAAAATTTA TTTTGAAGCC AAGACCAAAA 
AGGAGTAAAC GGCAGCTTCG TCGATATCCT CGTAATGTAG AAGAAGAAAC CAAATACATT 
GAACTGATGA TTGTGAATGA TCACCTTATG TTTAAAAAAC ATCGGCTTTC CGTTGTACAT 
ACCAATACCT ATGCGAAATC TGTGGTGAAC ATGGCAGATT TAATATATAA AGACCAACTT 
AAGACCAGGA TAGTATTGGT TGCTATGGAA ACCTGGGCGA CTGACAACAA GTTTGCCATA 
TCTGAAAATC CATTGATCAC CCTACGTGAG TTTATGAAAT ACAGGAGGGA TTTTATCAAA 
GAGAAAAGTG ATGCAGTTCA CCTTTTTTCG GGAAGTCAAT TTGAGAGTAG CCGGAGCGGG 
GCAGCTTATA TTGGTGGGAT TTGCTCGTTG CTGAAAGGAG GAGGCGTGAA TGAATTTGGG 
AAAACTGATT TAATGGCTGT TACACTTGCC CAGTCATTAG CCCATAATAT TGGTATTATC 
TCAGACAAAA GAAAGTTAGC AAGTGGTGAA TGTAAATGCG AGGACACGTG GTCCGGGTGC 
ATAATGGGAG ACACTGGCTA TTATCTTCCT AAAAAGTTCA CCCAGTGTAA TATTGAAGAG 
TATCATGACT TCCTGAATAG TGGAGGTGGT GCCTGCCTTT TCAACAAACC TTCTAAGCTT 
CTTGATCCTC CTGAGTGTGG CAATGGCTTC ATTGAAACTG GAGAGGAGTG TGATTGTGGA 
ACCCCGGCCG AATGTGTCCT TGAAGGAGCA GAGTGTTGTA AGAAATGCAC CTTGACTCAA 
GACTCTCAAT GCAGTGACGG TCTTTGCTGT AAAAAGTGCA AGTTTCAGCC TATGGGCACT 
GTGTGCCGAG AAGCAGTAAA TGATTGTGAT ATTCGTGAAA CGTGCTCAGG AAATTCAAGC 
CAGTGTGCCC CTAATATTCA TAAAATGGAT GGATATTCAT GTGATGGTGT TCAGGGAATT 
TGCTTTGGAG GAAGATGCAA AACCAGAGAT AGACAATGCA AATACATTTG GGGGCAAAAG 
GTGACAGCAT CAGACAAATA TTGCTATGAG AAACTGAATA TTGAAGGGAC GGAGAAGGGT 
AACTGTGGGA AAGACAAAGA CACATGGATA CAGTGCAACA AACGGGATGT GCTTTGTGGT 
TACCTTTTGT GTACCAATAT TGGCAATATC CCAAGGCTTG GAGAACTCGA TGGTGAAATC 
ACATCTACTT TAGTTGTGCA GCAAGGAAGA ACATTAAACT GCAGTGGTGG GCATGTTAAG 
CTTGAAGAAG ATGTAGATCT TGGCTATGTG GAAGATGGGA CACCTTGTGG TCCCCAAATG 
ATGTGCTTAG AACACAGGTG TCTTCCTGTG GCTTCTTTCA ACTTTAGTAC TTGCTTGAGC 
AGTAAAGAAG GCACTATTTG CTCAGGAAAT GGAGTTTGCA GTAATGAGCT GAAGTGTGTG 
TGTAACAGAC ACTGGATAGG TTCTGATTGC AACACTTACT TCCCTCACAA TGATGATGCA 
AAGACTGGTA TCACTCTGTC TGGCAATGGT GTTGCTGGCA CCAATATCAT AATAGGCATA 
ATTGCTGGCA CCATTTTAGT GCTGGCCCTC ATATTAGGAA TAACTGCGTG GGGTTATAAA 
AACTATCGAG AACAGAGACA GTTACCCCAG GGAGATTATG TAAAAAAGCC TGGAGATGGT 
GACTCTTTTT ATAGCGACAT TCCTCCCGGA GTCAGCACAA ACTCAGCATC TAGTTCTAAG 
AAGAGGTCAA ATGGGCTCTC TCATTCTTGG AGTGAAAGGA TTCCAGACAC AAAACATATT 
TCAGACATCT GTGAAAATGG GCGACCTCGA AGTAACTCTT GGCAAGGTAA CCTGGGAGGC 
AACAAAAAGA AAATCAGAGG CAAAAGATTT AGACCTCGGT CTAATTCAAC TGAGACTTTA 
TCTCCTGCCA AGTCTCCTTC TTCATCAACT GGGTCTATTG CCTCCAGCAG AAAATACCCT 
TACCCAATGC CTCCACTTCC TGATGAGGAC AAGAAAGTGA ACCGACAAAG TGCCAGGCTA 
TGGGAGACAT CCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_017012338.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867827.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X20, mRNA.

Price & Availability↑

CloneID	OHu97348
Clone ID Related Accession (Same CDS sequence)	XM_017012338.1 , XM_017012338.2
Accession Version	XM_017012338.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2718bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X20
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017012338.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGACGCC TCATTGATGG AGCTAGAGAA GAGGAAGGAA 
AACCGCTTCG TGGAGCGCCA GAGCATCGTG CCACTGCGCC TCATCTACCG CTCGGGCGGC 
GAAGACGAAA GTCGGCACGA CGCGCTCGAC ACGCGGGTGC GGGGCGACCT CGGTGGCCCG 
CAGTTGACTC ATGTTGACCA AGCAAGCTTC CAGGTTGATG CCTTTGGAAC GTCATTCATT 
CTCGATGTCG TGCTAAATCA TGATTTGCTG TCCTCTGAAT ACATAGAGAG ACACATTGAA 
CATGGAGGCA AGACTGTGGA AGTTAAAGGA GGAGAGCACT GTTACTACCA GGGCCATATC 
CGAGGAAACC CTGACTCATT TGTTGCATTG TCAACATGCC ACGGACTTCA TGGGATGTTC 
TATGACGGGA ACCACACATA TCTCATTGAG CCAGAAGAAA ATGACACTAC TCAAGAGGAT 
TTCCATTTTC ATTCAGTTTA CAAATCCAGA CTGTTTGAAT TTTCCTTGGA TGATCTTCCA 
TCTGAATTTC AGCAAGTAAA CATTACTCCA TCAAAATTTA TTTTGAAGCC AAGACCAAAA 
AGGAGTAAAC GGCAGCTTCG TCGATATCCT CGTAATGTAG AAGAAGAAAC CAAATACATT 
GAACTGATGA TTGTGAATGA TCACCTTATG TTTAAAAAAC ATCGGCTTTC CGTTGTACAT 
ACCAATACCT ATGCGAAATC TGTGGTGAAC ATGGCAGATT TAATATATAA AGACCAACTT 
AAGACCAGGA TAGTATTGGT TGCTATGGAA ACCTGGGCGA CTGACAACAA GTTTGCCATA 
TCTGAAAATC CATTGATCAC CCTACGTGAG TTTATGAAAT ACAGGAGGGA TTTTATCAAA 
GAGAAAAGTG ATGCAGTTCA CCTTTTTTCG GGAAGTCAAT TTGAGAGTAG CCGGAGCGGG 
GCAGCTTATA TTGGTGGGAT TTGCTCGTTG CTGAAAGGAG GAGGCGTGAA TGAATTTGGG 
AAAACTGATT TAATGGCTGT TACACTTGCC CAGTCATTAG CCCATAATAT TGGTATTATC 
TCAGACAAAA GAAAGTTAGC AAGTGGTGAA TGTAAATGCG AGGACACGTG GTCCGGGTGC 
ATAATGGGAG ACACTGGCTA TTATCTTCCT AAAAAGTTCA CCCAGTGTAA TATTGAAGAG 
TATCATGACT TCCTGAATAG TGGAGGTGGT GCCTGCCTTT TCAACAAACC TTCTAAGCTT 
CTTGATCCTC CTGAGTGTGG CAATGGCTTC ATTGAAACTG GAGAGGAGTG TGATTGTGGA 
ACCCCGGCCG AATGTGTCCT TGAAGGAGCA GAGTGTTGTA AGAAATGCAC CTTGACTCAA 
GACTCTCAAT GCAGTGACGG TCTTTGCTGT AAAAAGTGCA AGTTTCAGCC TATGGGCACT 
GTGTGCCGAG AAGCAGTAAA TGATTGTGAT ATTCGTGAAA CGTGCTCAGG AAATTCAAGC 
CAGTGTGCCC CTAATATTCA TAAAATGGAT GGATATTCAT GTGATGGTGT TCAGGGAATT 
TGCTTTGGAG GAAGATGCAA AACCAGAGAT AGACAATGCA AATACATTTG GGGGCAAAAG 
GTGACAGCAT CAGACAAATA TTGCTATGAG AAACTGAATA TTGAAGGGAC GGAGAAGGGT 
AACTGTGGGA AAGACAAAGA CACATGGATA CAGTGCAACA AACGGGATGT GCTTTGTGGT 
TACCTTTTGT GTACCAATAT TGGCAATATC CCAAGGCTTG GAGAACTCGA TGGTGAAATC 
ACATCTACTT TAGTTGTGCA GCAAGGAAGA ACATTAAACT GCAGTGGTGG GCATGTTAAG 
CTTGAAGAAG ATGTAGATCT TGGCTATGTG GAAGATGGGA CACCTTGTGG TCCCCAAATG 
ATGTGCTTAG AACACAGGTG TCTTCCTGTG GCTTCTTTCA ACTTTAGTAC TTGCTTGAGC 
AGTAAAGAAG GCACTATTTG CTCAGGAAAT GGAGTTTGCA GTAATGAGCT GAAGTGTGTG 
TGTAACAGAC ACTGGATAGG TTCTGATTGC AACACTTACT TCCCTCACAA TGATGATGCA 
AAGACTGGTA TCACTCTGTC TGGCAATGGT GTTGCTGGCA CCAATATCAT AATAGGCATA 
ATTGCTGGCA CCATTTTAGT GCTGGCCCTC ATATTAGGAA TAACTGCGTG GGGTTATAAA 
AACTATCGAG AACAGAGACA GTTACCCCAG GGAGATTATG TAAAAAAGCC TGGAGATGGT 
GACTCTTTTT ATAGCGACAT TCCTCCCGGA GTCAGCACAA ACTCAGCATC TAGTTCTAAG 
AAGAGGTCAA ATGGGCTCTC TCATTCTTGG AGTGAAAGGA TTCCAGACAC AAAACATATT 
TCAGACATCT GTGAAAATGG GCGACCTCGA AGTAACTCTT GGCAAGGTAA CCTGGGAGGC 
AACAAAAAGA AAATCAGAGG CAAAAGATTT AGACCTCGGT CTAATTCAAC TGAGACTTTA 
TCTCCTGCCA AGTCTCCTTC TTCATCAACT GGGTCTATTG CCTCCAGCAG AAAATACCCT 
TACCCAATGC CTCCACTTCC TGATGAGGAC AAGAAAGTGA ACCGACAAAG TGCCAGGCTA 
TGGGAGACAT CCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_016867827.1
CDS	298..3015
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQADASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRQLPQGDYVKKPGDGDSFYSDIPPGVSTNSASSSKKRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTETLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_017012338.2
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X20, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_017012338.2

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGACGCC TCATTGATGG AGCTAGAGAA GAGGAAGGAA 
AACCGCTTCG TGGAGCGCCA GAGCATCGTG CCACTGCGCC TCATCTACCG CTCGGGCGGC 
GAAGACGAAA GTCGGCACGA CGCGCTCGAC ACGCGGGTGC GGGGCGACCT CGGTGGCCCG 
CAGTTGACTC ATGTTGACCA AGCAAGCTTC CAGGTTGATG CCTTTGGAAC GTCATTCATT 
CTCGATGTCG TGCTAAATCA TGATTTGCTG TCCTCTGAAT ACATAGAGAG ACACATTGAA 
CATGGAGGCA AGACTGTGGA AGTTAAAGGA GGAGAGCACT GTTACTACCA GGGCCATATC 
CGAGGAAACC CTGACTCATT TGTTGCATTG TCAACATGCC ACGGACTTCA TGGGATGTTC 
TATGACGGGA ACCACACATA TCTCATTGAG CCAGAAGAAA ATGACACTAC TCAAGAGGAT 
TTCCATTTTC ATTCAGTTTA CAAATCCAGA CTGTTTGAAT TTTCCTTGGA TGATCTTCCA 
TCTGAATTTC AGCAAGTAAA CATTACTCCA TCAAAATTTA TTTTGAAGCC AAGACCAAAA 
AGGAGTAAAC GGCAGCTTCG TCGATATCCT CGTAATGTAG AAGAAGAAAC CAAATACATT 
GAACTGATGA TTGTGAATGA TCACCTTATG TTTAAAAAAC ATCGGCTTTC CGTTGTACAT 
ACCAATACCT ATGCGAAATC TGTGGTGAAC ATGGCAGATT TAATATATAA AGACCAACTT 
AAGACCAGGA TAGTATTGGT TGCTATGGAA ACCTGGGCGA CTGACAACAA GTTTGCCATA 
TCTGAAAATC CATTGATCAC CCTACGTGAG TTTATGAAAT ACAGGAGGGA TTTTATCAAA 
GAGAAAAGTG ATGCAGTTCA CCTTTTTTCG GGAAGTCAAT TTGAGAGTAG CCGGAGCGGG 
GCAGCTTATA TTGGTGGGAT TTGCTCGTTG CTGAAAGGAG GAGGCGTGAA TGAATTTGGG 
AAAACTGATT TAATGGCTGT TACACTTGCC CAGTCATTAG CCCATAATAT TGGTATTATC 
TCAGACAAAA GAAAGTTAGC AAGTGGTGAA TGTAAATGCG AGGACACGTG GTCCGGGTGC 
ATAATGGGAG ACACTGGCTA TTATCTTCCT AAAAAGTTCA CCCAGTGTAA TATTGAAGAG 
TATCATGACT TCCTGAATAG TGGAGGTGGT GCCTGCCTTT TCAACAAACC TTCTAAGCTT 
CTTGATCCTC CTGAGTGTGG CAATGGCTTC ATTGAAACTG GAGAGGAGTG TGATTGTGGA 
ACCCCGGCCG AATGTGTCCT TGAAGGAGCA GAGTGTTGTA AGAAATGCAC CTTGACTCAA 
GACTCTCAAT GCAGTGACGG TCTTTGCTGT AAAAAGTGCA AGTTTCAGCC TATGGGCACT 
GTGTGCCGAG AAGCAGTAAA TGATTGTGAT ATTCGTGAAA CGTGCTCAGG AAATTCAAGC 
CAGTGTGCCC CTAATATTCA TAAAATGGAT GGATATTCAT GTGATGGTGT TCAGGGAATT 
TGCTTTGGAG GAAGATGCAA AACCAGAGAT AGACAATGCA AATACATTTG GGGGCAAAAG 
GTGACAGCAT CAGACAAATA TTGCTATGAG AAACTGAATA TTGAAGGGAC GGAGAAGGGT 
AACTGTGGGA AAGACAAAGA CACATGGATA CAGTGCAACA AACGGGATGT GCTTTGTGGT 
TACCTTTTGT GTACCAATAT TGGCAATATC CCAAGGCTTG GAGAACTCGA TGGTGAAATC 
ACATCTACTT TAGTTGTGCA GCAAGGAAGA ACATTAAACT GCAGTGGTGG GCATGTTAAG 
CTTGAAGAAG ATGTAGATCT TGGCTATGTG GAAGATGGGA CACCTTGTGG TCCCCAAATG 
ATGTGCTTAG AACACAGGTG TCTTCCTGTG GCTTCTTTCA ACTTTAGTAC TTGCTTGAGC 
AGTAAAGAAG GCACTATTTG CTCAGGAAAT GGAGTTTGCA GTAATGAGCT GAAGTGTGTG 
TGTAACAGAC ACTGGATAGG TTCTGATTGC AACACTTACT TCCCTCACAA TGATGATGCA 
AAGACTGGTA TCACTCTGTC TGGCAATGGT GTTGCTGGCA CCAATATCAT AATAGGCATA 
ATTGCTGGCA CCATTTTAGT GCTGGCCCTC ATATTAGGAA TAACTGCGTG GGGTTATAAA 
AACTATCGAG AACAGAGACA GTTACCCCAG GGAGATTATG TAAAAAAGCC TGGAGATGGT 
GACTCTTTTT ATAGCGACAT TCCTCCCGGA GTCAGCACAA ACTCAGCATC TAGTTCTAAG 
AAGAGGTCAA ATGGGCTCTC TCATTCTTGG AGTGAAAGGA TTCCAGACAC AAAACATATT 
TCAGACATCT GTGAAAATGG GCGACCTCGA AGTAACTCTT GGCAAGGTAA CCTGGGAGGC 
AACAAAAAGA AAATCAGAGG CAAAAGATTT AGACCTCGGT CTAATTCAAC TGAGACTTTA 
TCTCCTGCCA AGTCTCCTTC TTCATCAACT GGGTCTATTG CCTCCAGCAG AAAATACCCT 
TACCCAATGC CTCCACTTCC TGATGAGGAC AAGAAAGTGA ACCGACAAAG TGCCAGGCTA 
TGGGAGACAT CCATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_017012339.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867828.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X21, mRNA.

Price & Availability↑

CloneID	OHu97349
Clone ID Related Accession (Same CDS sequence)	XM_017012339.1 , XM_017012339.2
Accession Version	XM_017012339.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2664bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-06-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X21
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGATTC AGATGTTTTT GAAGTCAGAA TCCCAGAAGA CCATATACCA GATACAGTTG 
ACTCATGTTG ACCAAGCAAG CTTCCAGGTT GATGCCTTTG GAACGTCATT CATTCTCGAT 
GTCGTGCTAA ATCATGATTT GCTGTCCTCT GAATACATAG AGAGACACAT TGAACATGGA 
GGCAAGACTG TGGAAGTTAA AGGAGGAGAG CACTGTTACT ACCAGGGCCA TATCCGAGGA 
AACCCTGACT CATTTGTTGC ATTGTCAACA TGCCACGGAC TTCATGGGAT GTTCTATGAC 
GGGAACCACA CATATCTCAT TGAGCCAGAA GAAAATGACA CTACTCAAGA GGATTTCCAT 
TTTCATTCAG TTTACAAATC CAGACTGTTT GAATTTTCCT TGGATGATCT TCCATCTGAA 
TTTCAGCAAG TAAACATTAC TCCATCAAAA TTTATTTTGA AGCCAAGACC AAAAAGGAGT 
AAACGGCAGC TTCGTCGATA TCCTCGTAAT GTAGAAGAAG AAACCAAATA CATTGAACTG 
ATGATTGTGA ATGATCACCT TATGTTTAAA AAACATCGGC TTTCCGTTGT ACATACCAAT 
ACCTATGCGA AATCTGTGGT GAACATGGCA GATTTAATAT ATAAAGACCA ACTTAAGACC 
AGGATAGTAT TGGTTGCTAT GGAAACCTGG GCGACTGACA ACAAGTTTGC CATATCTGAA 
AATCCATTGA TCACCCTACG TGAGTTTATG AAATACAGGA GGGATTTTAT CAAAGAGAAA 
AGTGATGCAG TTCACCTTTT TTCGGGAAGT CAATTTGAGA GTAGCCGGAG CGGGGCAGCT 
TATATTGGTG GGATTTGCTC GTTGCTGAAA GGAGGAGGCG TGAATGAATT TGGGAAAACT 
GATTTAATGG CTGTTACACT TGCCCAGTCA TTAGCCCATA ATATTGGTAT TATCTCAGAC 
AAAAGAAAGT TAGCAAGTGG TGAATGTAAA TGCGAGGACA CGTGGTCCGG GTGCATAATG 
GGAGACACTG GCTATTATCT TCCTAAAAAG TTCACCCAGT GTAATATTGA AGAGTATCAT 
GACTTCCTGA ATAGTGGAGG TGGTGCCTGC CTTTTCAACA AACCTTCTAA GCTTCTTGAT 
CCTCCTGAGT GTGGCAATGG CTTCATTGAA ACTGGAGAGG AGTGTGATTG TGGAACCCCG 
GCCGAATGTG TCCTTGAAGG AGCAGAGTGT TGTAAGAAAT GCACCTTGAC TCAAGACTCT 
CAATGCAGTG ACGGTCTTTG CTGTAAAAAG TGCAAGTTTC AGCCTATGGG CACTGTGTGC 
CGAGAAGCAG TAAATGATTG TGATATTCGT GAAACGTGCT CAGGAAATTC AAGCCAGTGT 
GCCCCTAATA TTCATAAAAT GGATGGATAT TCATGTGATG GTGTTCAGGG AATTTGCTTT 
GGAGGAAGAT GCAAAACCAG AGATAGACAA TGCAAATACA TTTGGGGGCA AAAGGTGACA 
GCATCAGACA AATATTGCTA TGAGAAACTG AATATTGAAG GGACGGAGAA GGGTAACTGT 
GGGAAAGACA AAGACACATG GATACAGTGC AACAAACGGG ATGTGCTTTG TGGTTACCTT 
TTGTGTACCA ATATTGGCAA TATCCCAAGG CTTGGAGAAC TCGATGGTGA AATCACATCT 
ACTTTAGTTG TGCAGCAAGG AAGAACATTA AACTGCAGTG GTGGGCATGT TAAGCTTGAA 
GAAGATGTAG ATCTTGGCTA TGTGGAAGAT GGGACACCTT GTGGTCCCCA AATGATGTGC 
TTAGAACACA GGTGTCTTCC TGTGGCTTCT TTCAACTTTA GTACTTGCTT GAGCAGTAAA 
GAAGGCACTA TTTGCTCAGG AAATGGAGTT TGCAGTAATG AGCTGAAGTG TGTGTGTAAC 
AGACACTGGA TAGGTTCTGA TTGCAACACT TACTTCCCTC ACAATGATGA TGCAAAGACT 
GGTATCACTC TGTCTGGCAA TGGTGTTGCT GGCACCAATA TCATAATAGG CATAATTGCT 
GGCACCATTT TAGTGCTGGC CCTCATATTA GGAATAACTG CGTGGGGTTA TAAAAACTAT 
CGAGAACAGA GGTCAAATGG GCTCTCTCAT TCTTGGAGTG AAAGGATTCC AGACACAAAA 
CATATTTCAG ACATCTGTGA AAATGGGCGA CCTCGAAGTA ACTCTTGGCA AGGTAACCTG 
GGAGGCAACA AAAAGAAAAT CAGAGGCAAA AGATTTAGAC CTCGGTCTAA TTCAACTGAG 
ACTTTATCTC CTGCCAAGTC TCCTTCTTCA TCAACTGGGT CTATTGCCTC CAGCAGAAAA 
TACCCTTACC CAATGCCTCC ACTTCCTGAT GAGGACAAGA AAGTGAACCG ACAAAGTGCC 
AGGCTATGGG AGACATCCAT TTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_016867828.1
CDS	216..2879
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQAGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQIQMFLKSESQKTIYQIQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTETLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_017012339.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X21, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_017012339.1

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGATTC AGATGTTTTT GAAGTCAGAA TCCCAGAAGA CCATATACCA GATACAGTTG 
ACTCATGTTG ACCAAGCAAG CTTCCAGGTT GATGCCTTTG GAACGTCATT CATTCTCGAT 
GTCGTGCTAA ATCATGATTT GCTGTCCTCT GAATACATAG AGAGACACAT TGAACATGGA 
GGCAAGACTG TGGAAGTTAA AGGAGGAGAG CACTGTTACT ACCAGGGCCA TATCCGAGGA 
AACCCTGACT CATTTGTTGC ATTGTCAACA TGCCACGGAC TTCATGGGAT GTTCTATGAC 
GGGAACCACA CATATCTCAT TGAGCCAGAA GAAAATGACA CTACTCAAGA GGATTTCCAT 
TTTCATTCAG TTTACAAATC CAGACTGTTT GAATTTTCCT TGGATGATCT TCCATCTGAA 
TTTCAGCAAG TAAACATTAC TCCATCAAAA TTTATTTTGA AGCCAAGACC AAAAAGGAGT 
AAACGGCAGC TTCGTCGATA TCCTCGTAAT GTAGAAGAAG AAACCAAATA CATTGAACTG 
ATGATTGTGA ATGATCACCT TATGTTTAAA AAACATCGGC TTTCCGTTGT ACATACCAAT 
ACCTATGCGA AATCTGTGGT GAACATGGCA GATTTAATAT ATAAAGACCA ACTTAAGACC 
AGGATAGTAT TGGTTGCTAT GGAAACCTGG GCGACTGACA ACAAGTTTGC CATATCTGAA 
AATCCATTGA TCACCCTACG TGAGTTTATG AAATACAGGA GGGATTTTAT CAAAGAGAAA 
AGTGATGCAG TTCACCTTTT TTCGGGAAGT CAATTTGAGA GTAGCCGGAG CGGGGCAGCT 
TATATTGGTG GGATTTGCTC GTTGCTGAAA GGAGGAGGCG TGAATGAATT TGGGAAAACT 
GATTTAATGG CTGTTACACT TGCCCAGTCA TTAGCCCATA ATATTGGTAT TATCTCAGAC 
AAAAGAAAGT TAGCAAGTGG TGAATGTAAA TGCGAGGACA CGTGGTCCGG GTGCATAATG 
GGAGACACTG GCTATTATCT TCCTAAAAAG TTCACCCAGT GTAATATTGA AGAGTATCAT 
GACTTCCTGA ATAGTGGAGG TGGTGCCTGC CTTTTCAACA AACCTTCTAA GCTTCTTGAT 
CCTCCTGAGT GTGGCAATGG CTTCATTGAA ACTGGAGAGG AGTGTGATTG TGGAACCCCG 
GCCGAATGTG TCCTTGAAGG AGCAGAGTGT TGTAAGAAAT GCACCTTGAC TCAAGACTCT 
CAATGCAGTG ACGGTCTTTG CTGTAAAAAG TGCAAGTTTC AGCCTATGGG CACTGTGTGC 
CGAGAAGCAG TAAATGATTG TGATATTCGT GAAACGTGCT CAGGAAATTC AAGCCAGTGT 
GCCCCTAATA TTCATAAAAT GGATGGATAT TCATGTGATG GTGTTCAGGG AATTTGCTTT 
GGAGGAAGAT GCAAAACCAG AGATAGACAA TGCAAATACA TTTGGGGGCA AAAGGTGACA 
GCATCAGACA AATATTGCTA TGAGAAACTG AATATTGAAG GGACGGAGAA GGGTAACTGT 
GGGAAAGACA AAGACACATG GATACAGTGC AACAAACGGG ATGTGCTTTG TGGTTACCTT 
TTGTGTACCA ATATTGGCAA TATCCCAAGG CTTGGAGAAC TCGATGGTGA AATCACATCT 
ACTTTAGTTG TGCAGCAAGG AAGAACATTA AACTGCAGTG GTGGGCATGT TAAGCTTGAA 
GAAGATGTAG ATCTTGGCTA TGTGGAAGAT GGGACACCTT GTGGTCCCCA AATGATGTGC 
TTAGAACACA GGTGTCTTCC TGTGGCTTCT TTCAACTTTA GTACTTGCTT GAGCAGTAAA 
GAAGGCACTA TTTGCTCAGG AAATGGAGTT TGCAGTAATG AGCTGAAGTG TGTGTGTAAC 
AGACACTGGA TAGGTTCTGA TTGCAACACT TACTTCCCTC ACAATGATGA TGCAAAGACT 
GGTATCACTC TGTCTGGCAA TGGTGTTGCT GGCACCAATA TCATAATAGG CATAATTGCT 
GGCACCATTT TAGTGCTGGC CCTCATATTA GGAATAACTG CGTGGGGTTA TAAAAACTAT 
CGAGAACAGA GGTCAAATGG GCTCTCTCAT TCTTGGAGTG AAAGGATTCC AGACACAAAA 
CATATTTCAG ACATCTGTGA AAATGGGCGA CCTCGAAGTA ACTCTTGGCA AGGTAACCTG 
GGAGGCAACA AAAAGAAAAT CAGAGGCAAA AGATTTAGAC CTCGGTCTAA TTCAACTGAG 
ACTTTATCTC CTGCCAAGTC TCCTTCTTCA TCAACTGGGT CTATTGCCTC CAGCAGAAAA 
TACCCTTACC CAATGCCTCC ACTTCCTGAT GAGGACAAGA AAGTGAACCG ACAAAGTGCC 
AGGCTATGGG AGACATCCAT TTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_017012339.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867828.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X21, mRNA.

Price & Availability↑

CloneID	OHu97349
Clone ID Related Accession (Same CDS sequence)	XM_017012339.1 , XM_017012339.2
Accession Version	XM_017012339.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2664bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X21
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017012339.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGATTC AGATGTTTTT GAAGTCAGAA TCCCAGAAGA CCATATACCA GATACAGTTG 
ACTCATGTTG ACCAAGCAAG CTTCCAGGTT GATGCCTTTG GAACGTCATT CATTCTCGAT 
GTCGTGCTAA ATCATGATTT GCTGTCCTCT GAATACATAG AGAGACACAT TGAACATGGA 
GGCAAGACTG TGGAAGTTAA AGGAGGAGAG CACTGTTACT ACCAGGGCCA TATCCGAGGA 
AACCCTGACT CATTTGTTGC ATTGTCAACA TGCCACGGAC TTCATGGGAT GTTCTATGAC 
GGGAACCACA CATATCTCAT TGAGCCAGAA GAAAATGACA CTACTCAAGA GGATTTCCAT 
TTTCATTCAG TTTACAAATC CAGACTGTTT GAATTTTCCT TGGATGATCT TCCATCTGAA 
TTTCAGCAAG TAAACATTAC TCCATCAAAA TTTATTTTGA AGCCAAGACC AAAAAGGAGT 
AAACGGCAGC TTCGTCGATA TCCTCGTAAT GTAGAAGAAG AAACCAAATA CATTGAACTG 
ATGATTGTGA ATGATCACCT TATGTTTAAA AAACATCGGC TTTCCGTTGT ACATACCAAT 
ACCTATGCGA AATCTGTGGT GAACATGGCA GATTTAATAT ATAAAGACCA ACTTAAGACC 
AGGATAGTAT TGGTTGCTAT GGAAACCTGG GCGACTGACA ACAAGTTTGC CATATCTGAA 
AATCCATTGA TCACCCTACG TGAGTTTATG AAATACAGGA GGGATTTTAT CAAAGAGAAA 
AGTGATGCAG TTCACCTTTT TTCGGGAAGT CAATTTGAGA GTAGCCGGAG CGGGGCAGCT 
TATATTGGTG GGATTTGCTC GTTGCTGAAA GGAGGAGGCG TGAATGAATT TGGGAAAACT 
GATTTAATGG CTGTTACACT TGCCCAGTCA TTAGCCCATA ATATTGGTAT TATCTCAGAC 
AAAAGAAAGT TAGCAAGTGG TGAATGTAAA TGCGAGGACA CGTGGTCCGG GTGCATAATG 
GGAGACACTG GCTATTATCT TCCTAAAAAG TTCACCCAGT GTAATATTGA AGAGTATCAT 
GACTTCCTGA ATAGTGGAGG TGGTGCCTGC CTTTTCAACA AACCTTCTAA GCTTCTTGAT 
CCTCCTGAGT GTGGCAATGG CTTCATTGAA ACTGGAGAGG AGTGTGATTG TGGAACCCCG 
GCCGAATGTG TCCTTGAAGG AGCAGAGTGT TGTAAGAAAT GCACCTTGAC TCAAGACTCT 
CAATGCAGTG ACGGTCTTTG CTGTAAAAAG TGCAAGTTTC AGCCTATGGG CACTGTGTGC 
CGAGAAGCAG TAAATGATTG TGATATTCGT GAAACGTGCT CAGGAAATTC AAGCCAGTGT 
GCCCCTAATA TTCATAAAAT GGATGGATAT TCATGTGATG GTGTTCAGGG AATTTGCTTT 
GGAGGAAGAT GCAAAACCAG AGATAGACAA TGCAAATACA TTTGGGGGCA AAAGGTGACA 
GCATCAGACA AATATTGCTA TGAGAAACTG AATATTGAAG GGACGGAGAA GGGTAACTGT 
GGGAAAGACA AAGACACATG GATACAGTGC AACAAACGGG ATGTGCTTTG TGGTTACCTT 
TTGTGTACCA ATATTGGCAA TATCCCAAGG CTTGGAGAAC TCGATGGTGA AATCACATCT 
ACTTTAGTTG TGCAGCAAGG AAGAACATTA AACTGCAGTG GTGGGCATGT TAAGCTTGAA 
GAAGATGTAG ATCTTGGCTA TGTGGAAGAT GGGACACCTT GTGGTCCCCA AATGATGTGC 
TTAGAACACA GGTGTCTTCC TGTGGCTTCT TTCAACTTTA GTACTTGCTT GAGCAGTAAA 
GAAGGCACTA TTTGCTCAGG AAATGGAGTT TGCAGTAATG AGCTGAAGTG TGTGTGTAAC 
AGACACTGGA TAGGTTCTGA TTGCAACACT TACTTCCCTC ACAATGATGA TGCAAAGACT 
GGTATCACTC TGTCTGGCAA TGGTGTTGCT GGCACCAATA TCATAATAGG CATAATTGCT 
GGCACCATTT TAGTGCTGGC CCTCATATTA GGAATAACTG CGTGGGGTTA TAAAAACTAT 
CGAGAACAGA GGTCAAATGG GCTCTCTCAT TCTTGGAGTG AAAGGATTCC AGACACAAAA 
CATATTTCAG ACATCTGTGA AAATGGGCGA CCTCGAAGTA ACTCTTGGCA AGGTAACCTG 
GGAGGCAACA AAAAGAAAAT CAGAGGCAAA AGATTTAGAC CTCGGTCTAA TTCAACTGAG 
ACTTTATCTC CTGCCAAGTC TCCTTCTTCA TCAACTGGGT CTATTGCCTC CAGCAGAAAA 
TACCCTTACC CAATGCCTCC ACTTCCTGAT GAGGACAAGA AAGTGAACCG ACAAAGTGCC 
AGGCTATGGG AGACATCCAT TTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_016867828.1
CDS	216..2879
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQAGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQIQMFLKSESQKTIYQIQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTETLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_017012339.2
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X21, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_017012339.2

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGATTC AGATGTTTTT GAAGTCAGAA TCCCAGAAGA CCATATACCA GATACAGTTG 
ACTCATGTTG ACCAAGCAAG CTTCCAGGTT GATGCCTTTG GAACGTCATT CATTCTCGAT 
GTCGTGCTAA ATCATGATTT GCTGTCCTCT GAATACATAG AGAGACACAT TGAACATGGA 
GGCAAGACTG TGGAAGTTAA AGGAGGAGAG CACTGTTACT ACCAGGGCCA TATCCGAGGA 
AACCCTGACT CATTTGTTGC ATTGTCAACA TGCCACGGAC TTCATGGGAT GTTCTATGAC 
GGGAACCACA CATATCTCAT TGAGCCAGAA GAAAATGACA CTACTCAAGA GGATTTCCAT 
TTTCATTCAG TTTACAAATC CAGACTGTTT GAATTTTCCT TGGATGATCT TCCATCTGAA 
TTTCAGCAAG TAAACATTAC TCCATCAAAA TTTATTTTGA AGCCAAGACC AAAAAGGAGT 
AAACGGCAGC TTCGTCGATA TCCTCGTAAT GTAGAAGAAG AAACCAAATA CATTGAACTG 
ATGATTGTGA ATGATCACCT TATGTTTAAA AAACATCGGC TTTCCGTTGT ACATACCAAT 
ACCTATGCGA AATCTGTGGT GAACATGGCA GATTTAATAT ATAAAGACCA ACTTAAGACC 
AGGATAGTAT TGGTTGCTAT GGAAACCTGG GCGACTGACA ACAAGTTTGC CATATCTGAA 
AATCCATTGA TCACCCTACG TGAGTTTATG AAATACAGGA GGGATTTTAT CAAAGAGAAA 
AGTGATGCAG TTCACCTTTT TTCGGGAAGT CAATTTGAGA GTAGCCGGAG CGGGGCAGCT 
TATATTGGTG GGATTTGCTC GTTGCTGAAA GGAGGAGGCG TGAATGAATT TGGGAAAACT 
GATTTAATGG CTGTTACACT TGCCCAGTCA TTAGCCCATA ATATTGGTAT TATCTCAGAC 
AAAAGAAAGT TAGCAAGTGG TGAATGTAAA TGCGAGGACA CGTGGTCCGG GTGCATAATG 
GGAGACACTG GCTATTATCT TCCTAAAAAG TTCACCCAGT GTAATATTGA AGAGTATCAT 
GACTTCCTGA ATAGTGGAGG TGGTGCCTGC CTTTTCAACA AACCTTCTAA GCTTCTTGAT 
CCTCCTGAGT GTGGCAATGG CTTCATTGAA ACTGGAGAGG AGTGTGATTG TGGAACCCCG 
GCCGAATGTG TCCTTGAAGG AGCAGAGTGT TGTAAGAAAT GCACCTTGAC TCAAGACTCT 
CAATGCAGTG ACGGTCTTTG CTGTAAAAAG TGCAAGTTTC AGCCTATGGG CACTGTGTGC 
CGAGAAGCAG TAAATGATTG TGATATTCGT GAAACGTGCT CAGGAAATTC AAGCCAGTGT 
GCCCCTAATA TTCATAAAAT GGATGGATAT TCATGTGATG GTGTTCAGGG AATTTGCTTT 
GGAGGAAGAT GCAAAACCAG AGATAGACAA TGCAAATACA TTTGGGGGCA AAAGGTGACA 
GCATCAGACA AATATTGCTA TGAGAAACTG AATATTGAAG GGACGGAGAA GGGTAACTGT 
GGGAAAGACA AAGACACATG GATACAGTGC AACAAACGGG ATGTGCTTTG TGGTTACCTT 
TTGTGTACCA ATATTGGCAA TATCCCAAGG CTTGGAGAAC TCGATGGTGA AATCACATCT 
ACTTTAGTTG TGCAGCAAGG AAGAACATTA AACTGCAGTG GTGGGCATGT TAAGCTTGAA 
GAAGATGTAG ATCTTGGCTA TGTGGAAGAT GGGACACCTT GTGGTCCCCA AATGATGTGC 
TTAGAACACA GGTGTCTTCC TGTGGCTTCT TTCAACTTTA GTACTTGCTT GAGCAGTAAA 
GAAGGCACTA TTTGCTCAGG AAATGGAGTT TGCAGTAATG AGCTGAAGTG TGTGTGTAAC 
AGACACTGGA TAGGTTCTGA TTGCAACACT TACTTCCCTC ACAATGATGA TGCAAAGACT 
GGTATCACTC TGTCTGGCAA TGGTGTTGCT GGCACCAATA TCATAATAGG CATAATTGCT 
GGCACCATTT TAGTGCTGGC CCTCATATTA GGAATAACTG CGTGGGGTTA TAAAAACTAT 
CGAGAACAGA GGTCAAATGG GCTCTCTCAT TCTTGGAGTG AAAGGATTCC AGACACAAAA 
CATATTTCAG ACATCTGTGA AAATGGGCGA CCTCGAAGTA ACTCTTGGCA AGGTAACCTG 
GGAGGCAACA AAAAGAAAAT CAGAGGCAAA AGATTTAGAC CTCGGTCTAA TTCAACTGAG 
ACTTTATCTC CTGCCAAGTC TCCTTCTTCA TCAACTGGGT CTATTGCCTC CAGCAGAAAA 
TACCCTTACC CAATGCCTCC ACTTCCTGAT GAGGACAAGA AAGTGAACCG ACAAAGTGCC 
AGGCTATGGG AGACATCCAT TTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_017012340.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867829.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X22, mRNA.

Price & Availability↑

CloneID	OHu97350
Clone ID Related Accession (Same CDS sequence)	XM_017012340.1 , XM_017012340.2
Accession Version	XM_017012340.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 1911bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-06-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X22
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTGTTA CACTTGCCCA GTCATTAGCC CATAATATTG GTATTATCTC AGACAAAAGA 
AAGTTAGCAA GTGGTGAATG TAAATGCGAG GACACGTGGT CCGGGTGCAT AATGGGAGAC 
ACTGGCTATT ATCTTCCTAA AAAGTTCACC CAGTGTAATA TTGAAGAGTA TCATGACTTC 
CTGAATAGTG GAGGTGGTGC CTGCCTTTTC AACAAACCTT CTAAGCTTCT TGATCCTCCT 
GAGTGTGGCA ATGGCTTCAT TGAAACTGGA GAGGAGTGTG ATTGTGGAAC CCCGGCCGAA 
TGTGTCCTTG AAGGAGCAGA GTGTTGTAAG AAATGCACCT TGACTCAAGA CTCTCAATGC 
AGTGACGGTC TTTGCTGTAA AAAGTGCAAG TTTCAGCCTA TGGGCACTGT GTGCCGAGAA 
GCAGTAAATG ATTGTGATAT TCGTGAAACG TGCTCAGGAA ATTCAAGCCA GTGTGCCCCT 
AATATTCATA AAATGGATGG ATATTCATGT GATGGTGTTC AGGGAATTTG CTTTGGAGGA 
AGATGCAAAA CCAGAGATAG ACAATGCAAA TACATTTGGG GGCAAAAGGT GACAGCATCA 
GACAAATATT GCTATGAGAA ACTGAATATT GAAGGGACGG AGAAGGGTAA CTGTGGGAAA 
GACAAAGACA CATGGATACA GTGCAACAAA CGGGATGTGC TTTGTGGTTA CCTTTTGTGT 
ACCAATATTG GCAATATCCC AAGGCTTGGA GAACTCGATG GTGAAATCAC ATCTACTTTA 
GTTGTGCAGC AAGGAAGAAC ATTAAACTGC AGTGGTGGGC ATGTTAAGCT TGAAGAAGAT 
GTAGATCTTG GCTATGTGGA AGATGGGACA CCTTGTGGTC CCCAAATGAT GTGCTTAGAA 
CACAGGTGTC TTCCTGTGGC TTCTTTCAAC TTTAGTACTT GCTTGAGCAG TAAAGAAGGC 
ACTATTTGCT CAGGAAATGG AGTTTGCAGT AATGAGCTGA AGTGTGTGTG TAACAGACAC 
TGGATAGGTT CTGATTGCAA CACTTACTTC CCTCACAATG ATGATGCAAA GACTGGTATC 
ACTCTGTCTG GCAATGGTGT TGCTGGCACC AATATCATAA TAGGCATAAT TGCTGGCACC 
ATTTTAGTGC TGGCCCTCAT ATTAGGAATA ACTGCGTGGG GTTATAAAAA CTATCGAGAA 
CAGAGACAGT TACCCCAGGG AGATTATGTA AAAAAGCCTG GAGATGGTGA CTCTTTTTAT 
AGCGACATTC CTCCCGGAGT CAGCACAAAC TCAGCATCTA GTTCTAAGAA GAGGTCTGCT 
TTTCTGTCGC ATTTTCAGAT TTCTACCTGT TCCATCACAC ATTATTCCAT TAGTCAGAAC 
ATTTCATTAT TTTGCAGCAG GTCAAATGGG CTCTCTCATT CTTGGAGTGA AAGGATTCCA 
GACACAAAAC ATATTTCAGA CATCTGTGAA AATGGGCGAC CTCGAAGTAA CTCTTGGCAA 
GGTAACCTGG GAGGCAACAA AAAGAAAATC AGAGGCAAAA GATTTAGACC TCGGTCTAAT 
TCAACTGAGA GGGAGCCCCA AGCACCTGAG CCTGGGCACT CCCTCGCCCA GACAGTCCCA 
TCCCAAGGCA TAAGCCCAGG GGGCTCTGAC AGCCCCCAGA CAGGGAGTCT GGATCACAGG 
TATTTAAACC CATGGTTCAA AAGAGACTAT AATGTAGCTA AGTGGGTAGA AGATGTGAAT 
AAAAACACTG AAGGACCATA CTTTAGGACT TTATCTCCTG CCAAGTCTCC TTCTTCATCA 
ACTGGGTCTA TTGCCTCCAG CAGAAAATAC CCTTACCCAA TGCCTCCACT TCCTGATGAG 
GACAAGAAAG TGAACCGACA AAGTGCCAGG CTATGGGAGA CATCCATTTA A

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_016867829.1
CDS	42..1952
Translation	MAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRQLPQGDYVKKPGDGDSFYSDIPPGVSTNSASSSKKRSAFLSHFQISTCSITHYSISQNISLFCSRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTEREPQAPEPGHSLAQTVPSQGISPGGSDSPQTGSLDHRYLNPWFKRDYNVAKWVEDVNKNTEGPYFRTLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_017012340.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X22, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_017012340.1

ORF Insert Sequence:

ATGGCTGTTA CACTTGCCCA GTCATTAGCC CATAATATTG GTATTATCTC AGACAAAAGA 
AAGTTAGCAA GTGGTGAATG TAAATGCGAG GACACGTGGT CCGGGTGCAT AATGGGAGAC 
ACTGGCTATT ATCTTCCTAA AAAGTTCACC CAGTGTAATA TTGAAGAGTA TCATGACTTC 
CTGAATAGTG GAGGTGGTGC CTGCCTTTTC AACAAACCTT CTAAGCTTCT TGATCCTCCT 
GAGTGTGGCA ATGGCTTCAT TGAAACTGGA GAGGAGTGTG ATTGTGGAAC CCCGGCCGAA 
TGTGTCCTTG AAGGAGCAGA GTGTTGTAAG AAATGCACCT TGACTCAAGA CTCTCAATGC 
AGTGACGGTC TTTGCTGTAA AAAGTGCAAG TTTCAGCCTA TGGGCACTGT GTGCCGAGAA 
GCAGTAAATG ATTGTGATAT TCGTGAAACG TGCTCAGGAA ATTCAAGCCA GTGTGCCCCT 
AATATTCATA AAATGGATGG ATATTCATGT GATGGTGTTC AGGGAATTTG CTTTGGAGGA 
AGATGCAAAA CCAGAGATAG ACAATGCAAA TACATTTGGG GGCAAAAGGT GACAGCATCA 
GACAAATATT GCTATGAGAA ACTGAATATT GAAGGGACGG AGAAGGGTAA CTGTGGGAAA 
GACAAAGACA CATGGATACA GTGCAACAAA CGGGATGTGC TTTGTGGTTA CCTTTTGTGT 
ACCAATATTG GCAATATCCC AAGGCTTGGA GAACTCGATG GTGAAATCAC ATCTACTTTA 
GTTGTGCAGC AAGGAAGAAC ATTAAACTGC AGTGGTGGGC ATGTTAAGCT TGAAGAAGAT 
GTAGATCTTG GCTATGTGGA AGATGGGACA CCTTGTGGTC CCCAAATGAT GTGCTTAGAA 
CACAGGTGTC TTCCTGTGGC TTCTTTCAAC TTTAGTACTT GCTTGAGCAG TAAAGAAGGC 
ACTATTTGCT CAGGAAATGG AGTTTGCAGT AATGAGCTGA AGTGTGTGTG TAACAGACAC 
TGGATAGGTT CTGATTGCAA CACTTACTTC CCTCACAATG ATGATGCAAA GACTGGTATC 
ACTCTGTCTG GCAATGGTGT TGCTGGCACC AATATCATAA TAGGCATAAT TGCTGGCACC 
ATTTTAGTGC TGGCCCTCAT ATTAGGAATA ACTGCGTGGG GTTATAAAAA CTATCGAGAA 
CAGAGACAGT TACCCCAGGG AGATTATGTA AAAAAGCCTG GAGATGGTGA CTCTTTTTAT 
AGCGACATTC CTCCCGGAGT CAGCACAAAC TCAGCATCTA GTTCTAAGAA GAGGTCTGCT 
TTTCTGTCGC ATTTTCAGAT TTCTACCTGT TCCATCACAC ATTATTCCAT TAGTCAGAAC 
ATTTCATTAT TTTGCAGCAG GTCAAATGGG CTCTCTCATT CTTGGAGTGA AAGGATTCCA 
GACACAAAAC ATATTTCAGA CATCTGTGAA AATGGGCGAC CTCGAAGTAA CTCTTGGCAA 
GGTAACCTGG GAGGCAACAA AAAGAAAATC AGAGGCAAAA GATTTAGACC TCGGTCTAAT 
TCAACTGAGA GGGAGCCCCA AGCACCTGAG CCTGGGCACT CCCTCGCCCA GACAGTCCCA 
TCCCAAGGCA TAAGCCCAGG GGGCTCTGAC AGCCCCCAGA CAGGGAGTCT GGATCACAGG 
TATTTAAACC CATGGTTCAA AAGAGACTAT AATGTAGCTA AGTGGGTAGA AGATGTGAAT 
AAAAACACTG AAGGACCATA CTTTAGGACT TTATCTCCTG CCAAGTCTCC TTCTTCATCA 
ACTGGGTCTA TTGCCTCCAG CAGAAAATAC CCTTACCCAA TGCCTCCACT TCCTGATGAG 
GACAAGAAAG TGAACCGACA AAGTGCCAGG CTATGGGAGA CATCCATTTA A

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_017012340.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867829.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X22, mRNA.

Price & Availability↑

CloneID	OHu97350
Clone ID Related Accession (Same CDS sequence)	XM_017012340.1 , XM_017012340.2
Accession Version	XM_017012340.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 1911bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X22
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017012340.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTGTTA CACTTGCCCA GTCATTAGCC CATAATATTG GTATTATCTC AGACAAAAGA 
AAGTTAGCAA GTGGTGAATG TAAATGCGAG GACACGTGGT CCGGGTGCAT AATGGGAGAC 
ACTGGCTATT ATCTTCCTAA AAAGTTCACC CAGTGTAATA TTGAAGAGTA TCATGACTTC 
CTGAATAGTG GAGGTGGTGC CTGCCTTTTC AACAAACCTT CTAAGCTTCT TGATCCTCCT 
GAGTGTGGCA ATGGCTTCAT TGAAACTGGA GAGGAGTGTG ATTGTGGAAC CCCGGCCGAA 
TGTGTCCTTG AAGGAGCAGA GTGTTGTAAG AAATGCACCT TGACTCAAGA CTCTCAATGC 
AGTGACGGTC TTTGCTGTAA AAAGTGCAAG TTTCAGCCTA TGGGCACTGT GTGCCGAGAA 
GCAGTAAATG ATTGTGATAT TCGTGAAACG TGCTCAGGAA ATTCAAGCCA GTGTGCCCCT 
AATATTCATA AAATGGATGG ATATTCATGT GATGGTGTTC AGGGAATTTG CTTTGGAGGA 
AGATGCAAAA CCAGAGATAG ACAATGCAAA TACATTTGGG GGCAAAAGGT GACAGCATCA 
GACAAATATT GCTATGAGAA ACTGAATATT GAAGGGACGG AGAAGGGTAA CTGTGGGAAA 
GACAAAGACA CATGGATACA GTGCAACAAA CGGGATGTGC TTTGTGGTTA CCTTTTGTGT 
ACCAATATTG GCAATATCCC AAGGCTTGGA GAACTCGATG GTGAAATCAC ATCTACTTTA 
GTTGTGCAGC AAGGAAGAAC ATTAAACTGC AGTGGTGGGC ATGTTAAGCT TGAAGAAGAT 
GTAGATCTTG GCTATGTGGA AGATGGGACA CCTTGTGGTC CCCAAATGAT GTGCTTAGAA 
CACAGGTGTC TTCCTGTGGC TTCTTTCAAC TTTAGTACTT GCTTGAGCAG TAAAGAAGGC 
ACTATTTGCT CAGGAAATGG AGTTTGCAGT AATGAGCTGA AGTGTGTGTG TAACAGACAC 
TGGATAGGTT CTGATTGCAA CACTTACTTC CCTCACAATG ATGATGCAAA GACTGGTATC 
ACTCTGTCTG GCAATGGTGT TGCTGGCACC AATATCATAA TAGGCATAAT TGCTGGCACC 
ATTTTAGTGC TGGCCCTCAT ATTAGGAATA ACTGCGTGGG GTTATAAAAA CTATCGAGAA 
CAGAGACAGT TACCCCAGGG AGATTATGTA AAAAAGCCTG GAGATGGTGA CTCTTTTTAT 
AGCGACATTC CTCCCGGAGT CAGCACAAAC TCAGCATCTA GTTCTAAGAA GAGGTCTGCT 
TTTCTGTCGC ATTTTCAGAT TTCTACCTGT TCCATCACAC ATTATTCCAT TAGTCAGAAC 
ATTTCATTAT TTTGCAGCAG GTCAAATGGG CTCTCTCATT CTTGGAGTGA AAGGATTCCA 
GACACAAAAC ATATTTCAGA CATCTGTGAA AATGGGCGAC CTCGAAGTAA CTCTTGGCAA 
GGTAACCTGG GAGGCAACAA AAAGAAAATC AGAGGCAAAA GATTTAGACC TCGGTCTAAT 
TCAACTGAGA GGGAGCCCCA AGCACCTGAG CCTGGGCACT CCCTCGCCCA GACAGTCCCA 
TCCCAAGGCA TAAGCCCAGG GGGCTCTGAC AGCCCCCAGA CAGGGAGTCT GGATCACAGG 
TATTTAAACC CATGGTTCAA AAGAGACTAT AATGTAGCTA AGTGGGTAGA AGATGTGAAT 
AAAAACACTG AAGGACCATA CTTTAGGACT TTATCTCCTG CCAAGTCTCC TTCTTCATCA 
ACTGGGTCTA TTGCCTCCAG CAGAAAATAC CCTTACCCAA TGCCTCCACT TCCTGATGAG 
GACAAGAAAG TGAACCGACA AAGTGCCAGG CTATGGGAGA CATCCATTTA A

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_016867829.1
CDS	73..1983
Translation	MAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRQLPQGDYVKKPGDGDSFYSDIPPGVSTNSASSSKKRSAFLSHFQISTCSITHYSISQNISLFCSRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTEREPQAPEPGHSLAQTVPSQGISPGGSDSPQTGSLDHRYLNPWFKRDYNVAKWVEDVNKNTEGPYFRTLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_017012340.2
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X22, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_017012340.2

ORF Insert Sequence:

ATGGCTGTTA CACTTGCCCA GTCATTAGCC CATAATATTG GTATTATCTC AGACAAAAGA 
AAGTTAGCAA GTGGTGAATG TAAATGCGAG GACACGTGGT CCGGGTGCAT AATGGGAGAC 
ACTGGCTATT ATCTTCCTAA AAAGTTCACC CAGTGTAATA TTGAAGAGTA TCATGACTTC 
CTGAATAGTG GAGGTGGTGC CTGCCTTTTC AACAAACCTT CTAAGCTTCT TGATCCTCCT 
GAGTGTGGCA ATGGCTTCAT TGAAACTGGA GAGGAGTGTG ATTGTGGAAC CCCGGCCGAA 
TGTGTCCTTG AAGGAGCAGA GTGTTGTAAG AAATGCACCT TGACTCAAGA CTCTCAATGC 
AGTGACGGTC TTTGCTGTAA AAAGTGCAAG TTTCAGCCTA TGGGCACTGT GTGCCGAGAA 
GCAGTAAATG ATTGTGATAT TCGTGAAACG TGCTCAGGAA ATTCAAGCCA GTGTGCCCCT 
AATATTCATA AAATGGATGG ATATTCATGT GATGGTGTTC AGGGAATTTG CTTTGGAGGA 
AGATGCAAAA CCAGAGATAG ACAATGCAAA TACATTTGGG GGCAAAAGGT GACAGCATCA 
GACAAATATT GCTATGAGAA ACTGAATATT GAAGGGACGG AGAAGGGTAA CTGTGGGAAA 
GACAAAGACA CATGGATACA GTGCAACAAA CGGGATGTGC TTTGTGGTTA CCTTTTGTGT 
ACCAATATTG GCAATATCCC AAGGCTTGGA GAACTCGATG GTGAAATCAC ATCTACTTTA 
GTTGTGCAGC AAGGAAGAAC ATTAAACTGC AGTGGTGGGC ATGTTAAGCT TGAAGAAGAT 
GTAGATCTTG GCTATGTGGA AGATGGGACA CCTTGTGGTC CCCAAATGAT GTGCTTAGAA 
CACAGGTGTC TTCCTGTGGC TTCTTTCAAC TTTAGTACTT GCTTGAGCAG TAAAGAAGGC 
ACTATTTGCT CAGGAAATGG AGTTTGCAGT AATGAGCTGA AGTGTGTGTG TAACAGACAC 
TGGATAGGTT CTGATTGCAA CACTTACTTC CCTCACAATG ATGATGCAAA GACTGGTATC 
ACTCTGTCTG GCAATGGTGT TGCTGGCACC AATATCATAA TAGGCATAAT TGCTGGCACC 
ATTTTAGTGC TGGCCCTCAT ATTAGGAATA ACTGCGTGGG GTTATAAAAA CTATCGAGAA 
CAGAGACAGT TACCCCAGGG AGATTATGTA AAAAAGCCTG GAGATGGTGA CTCTTTTTAT 
AGCGACATTC CTCCCGGAGT CAGCACAAAC TCAGCATCTA GTTCTAAGAA GAGGTCTGCT 
TTTCTGTCGC ATTTTCAGAT TTCTACCTGT TCCATCACAC ATTATTCCAT TAGTCAGAAC 
ATTTCATTAT TTTGCAGCAG GTCAAATGGG CTCTCTCATT CTTGGAGTGA AAGGATTCCA 
GACACAAAAC ATATTTCAGA CATCTGTGAA AATGGGCGAC CTCGAAGTAA CTCTTGGCAA 
GGTAACCTGG GAGGCAACAA AAAGAAAATC AGAGGCAAAA GATTTAGACC TCGGTCTAAT 
TCAACTGAGA GGGAGCCCCA AGCACCTGAG CCTGGGCACT CCCTCGCCCA GACAGTCCCA 
TCCCAAGGCA TAAGCCCAGG GGGCTCTGAC AGCCCCCAGA CAGGGAGTCT GGATCACAGG 
TATTTAAACC CATGGTTCAA AAGAGACTAT AATGTAGCTA AGTGGGTAGA AGATGTGAAT 
AAAAACACTG AAGGACCATA CTTTAGGACT TTATCTCCTG CCAAGTCTCC TTCTTCATCA 
ACTGGGTCTA TTGCCTCCAG CAGAAAATAC CCTTACCCAA TGCCTCCACT TCCTGATGAG 
GACAAGAAAG TGAACCGACA AAGTGCCAGG CTATGGGAGA CATCCATTTA A

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_006716028.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_006716091.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OHu41618
Clone ID Related Accession (Same CDS sequence)	XM_006716028.3 , XM_006716028.4
Accession Version	XM_006716028.3	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3075bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-06-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_006716028.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGGAGAA TGGGAAAGGG GTGCCCTGCT TCTGGGCCCC GCTCCTGGTT GCTCTCGGAT 
GAGCTGGTCC AAGGCTCTCG GGCTGGTGTC TCTGCGTCCT TCCCAGTTGG GTTCCGAGAG 
GGAGGGGGCG GTGGGGATTT TCGTAGGGGA GACGTAGGAC TGCAGGATGG AGGAGTGAGG 
GTCAGGGTCA TTATTTTCGC CTTTTCTCTC CACTCCCTCC TTTCCCGGTT CCTGCCTGGA 
GGAGACGCCT CATTGATGGA GCTAGAGAAG AGGAAGGAAA ACCGCTTCGT GGAGCGCCAG 
AGCATCGTGC CACTGCGCCT CATCTACCGC TCGGGCGGCG AAGACGAAAG TCGGCACGAC 
GCGCTCGACA CGCGGGTGCG GGGCGACCTC GGTGGCCCGC AGTTGACTCA TGTTGACCAA 
GCAAGCTTCC AGGTTGATGC CTTTGGAACG TCATTCATTC TCGATGTCGT GCTAAATCAT 
GATTTGCTGT CCTCTGAATA CATAGAGAGA CACATTGAAC ATGGAGGCAA GACTGTGGAA 
GTTAAAGGAG GAGAGCACTG TTACTACCAG GGCCATATCC GAGGAAACCC TGACTCATTT 
GTTGCATTGT CAACATGCCA CGGACTTCAT GGGATGTTCT ATGACGGGAA CCACACATAT 
CTCATTGAGC CAGAAGAAAA TGACACTACT CAAGAGGATT TCCATTTTCA TTCAGTTTAC 
AAATCCAGAC TGTTTGAATT TTCCTTGGAT GATCTTCCAT CTGAATTTCA GCAAGTAAAC 
ATTACTCCAT CAAAATTTAT TTTGAAGCCA AGACCAAAAA GGAGTAAACG GCAGCTTCGT 
CGATATCCTC GTAATGTAGA AGAAGAAACC AAATACATTG AACTGATGAT TGTGAATGAT 
CACCTTATGT TTAAAAAACA TCGGCTTTCC GTTGTACATA CCAATACCTA TGCGAAATCT 
GTGGTGAACA TGGCAGATTT AATATATAAA GACCAACTTA AGACCAGGAT AGTATTGGTT 
GCTATGGAAA CCTGGGCGAC TGACAACAAG TTTGCCATAT CTGAAAATCC ATTGATCACC 
CTACGTGAGT TTATGAAATA CAGGAGGGAT TTTATCAAAG AGAAAAGTGA TGCAGTTCAC 
CTTTTTTCGG GAAGTCAATT TGAGAGTAGC CGGAGCGGGG CAGCTTATAT TGGTGGGATT 
TGCTCGTTGC TGAAAGGAGG AGGCGTGAAT GAATTTGGGA AAACTGATTT AATGGCTGTT 
ACACTTGCCC AGTCATTAGC CCATAATATT GGTATTATCT CAGACAAAAG AAAGTTAGCA 
AGTGGTGAAT GTAAATGCGA GGACACGTGG TCCGGGTGCA TAATGGGAGA CACTGGCTAT 
TATCTTCCTA AAAAGTTCAC CCAGTGTAAT ATTGAAGAGT ATCATGACTT CCTGAATAGT 
GGAGGTGGTG CCTGCCTTTT CAACAAACCT TCTAAGCTTC TTGATCCTCC TGAGTGTGGC 
AATGGCTTCA TTGAAACTGG AGAGGAGTGT GATTGTGGAA CCCCGGCCGA ATGTGTCCTT 
GAAGGAGCAG AGTGTTGTAA GAAATGCACC TTGACTCAAG ACTCTCAATG CAGTGACGGT 
CTTTGCTGTA AAAAGTGCAA GTTTCAGCCT ATGGGCACTG TGTGCCGAGA AGCAGTAAAT 
GATTGTGATA TTCGTGAAAC GTGCTCAGGA AATTCAAGCC AGTGTGCCCC TAATATTCAT 
AAAATGGATG GATATTCATG TGATGGTGTT CAGGGAATTT GCTTTGGAGG AAGATGCAAA 
ACCAGAGATA GACAATGCAA ATACATTTGG GGGCAAAAGG TGACAGCATC AGACAAATAT 
TGCTATGAGA AACTGAATAT TGAAGGGACG GAGAAGGGTA ACTGTGGGAA AGACAAAGAC 
ACATGGATAC AGTGCAACAA ACGGGATGTG CTTTGTGGTT ACCTTTTGTG TACCAATATT 
GGCAATATCC CAAGGCTTGG AGAACTCGAT GGTGAAATCA CATCTACTTT AGTTGTGCAG 
CAAGGAAGAA CATTAAACTG CAGTGGTGGG CATGTTAAGC TTGAAGAAGA TGTAGATCTT 
GGCTATGTGG AAGATGGGAC ACCTTGTGGT CCCCAAATGA TGTGCTTAGA ACACAGGTGT 
CTTCCTGTGG CTTCTTTCAA CTTTAGTACT TGCTTGAGCA GTAAAGAAGG CACTATTTGC 
TCAGGAAATG GAGTTTGCAG TAATGAGCTG AAGTGTGTGT GTAACAGACA CTGGATAGGT 
TCTGATTGCA ACACTTACTT CCCTCACAAT GATGATGCAA AGACTGGTAT CACTCTGTCT 
GGCAATGGTG TTGCTGGCAC CAATATCATA ATAGGCATAA TTGCTGGCAC CATTTTAGTG 
CTGGCCCTCA TATTAGGAAT AACTGCGTGG GGTTATAAAA ACTATCGAGA ACAGAGACAG 
TTACCCCAGG GAGATTATGT AAAAAAGCCT GGAGATGGTG ACTCTTTTTA TAGCGACATT 
CCTCCCGGAG TCAGCACAAA CTCAGCATCT AGTTCTAAGA AGAGGTCAAA TGGGCTCTCT 
CATTCTTGGA GTGAAAGGAT TCCAGACACA AAACATATTT CAGACATCTG TGAAAATGGG 
CGACCTCGAA GTAACTCTTG GCAAGGTAAC CTGGGAGGCA ACAAAAAGAA AATCAGAGGC 
AAAAGATTTA GACCTCGGTC TAATTCAACT GAGAGGGAGC CCCAAGCACC TGAGCCTGGG 
CACTCCCTCG CCCAGACAGT CCCATCCCAA GGCATAAGCC CAGGGGGCTC TGACAGCCCC 
CAGACAGGGA GTCTGGATCA CAGGTATTTA AACCCATGGT TCAAAAGAGA CTATAATGTA 
GCTAAGTGGG TAGAAGATGT GAATAAAAAC ACTGAAGGAC CATACTTTAG GACTTTATCT 
CCTGCCAAGT CTCCTTCTTC ATCAACTGGG TCTATTGCCT CCAGCAGAAA ATACCCTTAC 
CCAATGCCTC CACTTCCTGA TGAGGACAAG AAAGTGAACC GACAAAGTGC CAGGCTATGG 
GAGACATCCA TTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_006716091.1
CDS	16..3090
Translation	MGRMGKGCPASGPRSWLLSDELVQGSRAGVSASFPVGFREGGGGGDFRRGDVGLQDGGVRVRVIIFAFSLHSLLSRFLPGGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRQLPQGDYVKKPGDGDSFYSDIPPGVSTNSASSSKKRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTEREPQAPEPGHSLAQTVPSQGISPGGSDSPQTGSLDHRYLNPWFKRDYNVAKWVEDVNKNTEGPYFRTLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_006716028.3
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X1, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_006716028.3

ORF Insert Sequence:

ATGGGGAGAA TGGGAAAGGG GTGCCCTGCT TCTGGGCCCC GCTCCTGGTT GCTCTCGGAT 
GAGCTGGTCC AAGGCTCTCG GGCTGGTGTC TCTGCGTCCT TCCCAGTTGG GTTCCGAGAG 
GGAGGGGGCG GTGGGGATTT TCGTAGGGGA GACGTAGGAC TGCAGGATGG AGGAGTGAGG 
GTCAGGGTCA TTATTTTCGC CTTTTCTCTC CACTCCCTCC TTTCCCGGTT CCTGCCTGGA 
GGAGACGCCT CATTGATGGA GCTAGAGAAG AGGAAGGAAA ACCGCTTCGT GGAGCGCCAG 
AGCATCGTGC CACTGCGCCT CATCTACCGC TCGGGCGGCG AAGACGAAAG TCGGCACGAC 
GCGCTCGACA CGCGGGTGCG GGGCGACCTC GGTGGCCCGC AGTTGACTCA TGTTGACCAA 
GCAAGCTTCC AGGTTGATGC CTTTGGAACG TCATTCATTC TCGATGTCGT GCTAAATCAT 
GATTTGCTGT CCTCTGAATA CATAGAGAGA CACATTGAAC ATGGAGGCAA GACTGTGGAA 
GTTAAAGGAG GAGAGCACTG TTACTACCAG GGCCATATCC GAGGAAACCC TGACTCATTT 
GTTGCATTGT CAACATGCCA CGGACTTCAT GGGATGTTCT ATGACGGGAA CCACACATAT 
CTCATTGAGC CAGAAGAAAA TGACACTACT CAAGAGGATT TCCATTTTCA TTCAGTTTAC 
AAATCCAGAC TGTTTGAATT TTCCTTGGAT GATCTTCCAT CTGAATTTCA GCAAGTAAAC 
ATTACTCCAT CAAAATTTAT TTTGAAGCCA AGACCAAAAA GGAGTAAACG GCAGCTTCGT 
CGATATCCTC GTAATGTAGA AGAAGAAACC AAATACATTG AACTGATGAT TGTGAATGAT 
CACCTTATGT TTAAAAAACA TCGGCTTTCC GTTGTACATA CCAATACCTA TGCGAAATCT 
GTGGTGAACA TGGCAGATTT AATATATAAA GACCAACTTA AGACCAGGAT AGTATTGGTT 
GCTATGGAAA CCTGGGCGAC TGACAACAAG TTTGCCATAT CTGAAAATCC ATTGATCACC 
CTACGTGAGT TTATGAAATA CAGGAGGGAT TTTATCAAAG AGAAAAGTGA TGCAGTTCAC 
CTTTTTTCGG GAAGTCAATT TGAGAGTAGC CGGAGCGGGG CAGCTTATAT TGGTGGGATT 
TGCTCGTTGC TGAAAGGAGG AGGCGTGAAT GAATTTGGGA AAACTGATTT AATGGCTGTT 
ACACTTGCCC AGTCATTAGC CCATAATATT GGTATTATCT CAGACAAAAG AAAGTTAGCA 
AGTGGTGAAT GTAAATGCGA GGACACGTGG TCCGGGTGCA TAATGGGAGA CACTGGCTAT 
TATCTTCCTA AAAAGTTCAC CCAGTGTAAT ATTGAAGAGT ATCATGACTT CCTGAATAGT 
GGAGGTGGTG CCTGCCTTTT CAACAAACCT TCTAAGCTTC TTGATCCTCC TGAGTGTGGC 
AATGGCTTCA TTGAAACTGG AGAGGAGTGT GATTGTGGAA CCCCGGCCGA ATGTGTCCTT 
GAAGGAGCAG AGTGTTGTAA GAAATGCACC TTGACTCAAG ACTCTCAATG CAGTGACGGT 
CTTTGCTGTA AAAAGTGCAA GTTTCAGCCT ATGGGCACTG TGTGCCGAGA AGCAGTAAAT 
GATTGTGATA TTCGTGAAAC GTGCTCAGGA AATTCAAGCC AGTGTGCCCC TAATATTCAT 
AAAATGGATG GATATTCATG TGATGGTGTT CAGGGAATTT GCTTTGGAGG AAGATGCAAA 
ACCAGAGATA GACAATGCAA ATACATTTGG GGGCAAAAGG TGACAGCATC AGACAAATAT 
TGCTATGAGA AACTGAATAT TGAAGGGACG GAGAAGGGTA ACTGTGGGAA AGACAAAGAC 
ACATGGATAC AGTGCAACAA ACGGGATGTG CTTTGTGGTT ACCTTTTGTG TACCAATATT 
GGCAATATCC CAAGGCTTGG AGAACTCGAT GGTGAAATCA CATCTACTTT AGTTGTGCAG 
CAAGGAAGAA CATTAAACTG CAGTGGTGGG CATGTTAAGC TTGAAGAAGA TGTAGATCTT 
GGCTATGTGG AAGATGGGAC ACCTTGTGGT CCCCAAATGA TGTGCTTAGA ACACAGGTGT 
CTTCCTGTGG CTTCTTTCAA CTTTAGTACT TGCTTGAGCA GTAAAGAAGG CACTATTTGC 
TCAGGAAATG GAGTTTGCAG TAATGAGCTG AAGTGTGTGT GTAACAGACA CTGGATAGGT 
TCTGATTGCA ACACTTACTT CCCTCACAAT GATGATGCAA AGACTGGTAT CACTCTGTCT 
GGCAATGGTG TTGCTGGCAC CAATATCATA ATAGGCATAA TTGCTGGCAC CATTTTAGTG 
CTGGCCCTCA TATTAGGAAT AACTGCGTGG GGTTATAAAA ACTATCGAGA ACAGAGACAG 
TTACCCCAGG GAGATTATGT AAAAAAGCCT GGAGATGGTG ACTCTTTTTA TAGCGACATT 
CCTCCCGGAG TCAGCACAAA CTCAGCATCT AGTTCTAAGA AGAGGTCAAA TGGGCTCTCT 
CATTCTTGGA GTGAAAGGAT TCCAGACACA AAACATATTT CAGACATCTG TGAAAATGGG 
CGACCTCGAA GTAACTCTTG GCAAGGTAAC CTGGGAGGCA ACAAAAAGAA AATCAGAGGC 
AAAAGATTTA GACCTCGGTC TAATTCAACT GAGAGGGAGC CCCAAGCACC TGAGCCTGGG 
CACTCCCTCG CCCAGACAGT CCCATCCCAA GGCATAAGCC CAGGGGGCTC TGACAGCCCC 
CAGACAGGGA GTCTGGATCA CAGGTATTTA AACCCATGGT TCAAAAGAGA CTATAATGTA 
GCTAAGTGGG TAGAAGATGT GAATAAAAAC ACTGAAGGAC CATACTTTAG GACTTTATCT 
CCTGCCAAGT CTCCTTCTTC ATCAACTGGG TCTATTGCCT CCAGCAGAAA ATACCCTTAC 
CCAATGCCTC CACTTCCTGA TGAGGACAAG AAAGTGAACC GACAAAGTGC CAGGCTATGG 
GAGACATCCA TTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_006716028.4 ) cDNA ORF clone, Homo sapiens(human) -> XP_006716091.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X1, mRNA.

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CloneID	OHu41618
Clone ID Related Accession (Same CDS sequence)	XM_006716028.3 , XM_006716028.4
Accession Version	XM_006716028.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3075bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_006716028.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGGAGAA TGGGAAAGGG GTGCCCTGCT TCTGGGCCCC GCTCCTGGTT GCTCTCGGAT 
GAGCTGGTCC AAGGCTCTCG GGCTGGTGTC TCTGCGTCCT TCCCAGTTGG GTTCCGAGAG 
GGAGGGGGCG GTGGGGATTT TCGTAGGGGA GACGTAGGAC TGCAGGATGG AGGAGTGAGG 
GTCAGGGTCA TTATTTTCGC CTTTTCTCTC CACTCCCTCC TTTCCCGGTT CCTGCCTGGA 
GGAGACGCCT CATTGATGGA GCTAGAGAAG AGGAAGGAAA ACCGCTTCGT GGAGCGCCAG 
AGCATCGTGC CACTGCGCCT CATCTACCGC TCGGGCGGCG AAGACGAAAG TCGGCACGAC 
GCGCTCGACA CGCGGGTGCG GGGCGACCTC GGTGGCCCGC AGTTGACTCA TGTTGACCAA 
GCAAGCTTCC AGGTTGATGC CTTTGGAACG TCATTCATTC TCGATGTCGT GCTAAATCAT 
GATTTGCTGT CCTCTGAATA CATAGAGAGA CACATTGAAC ATGGAGGCAA GACTGTGGAA 
GTTAAAGGAG GAGAGCACTG TTACTACCAG GGCCATATCC GAGGAAACCC TGACTCATTT 
GTTGCATTGT CAACATGCCA CGGACTTCAT GGGATGTTCT ATGACGGGAA CCACACATAT 
CTCATTGAGC CAGAAGAAAA TGACACTACT CAAGAGGATT TCCATTTTCA TTCAGTTTAC 
AAATCCAGAC TGTTTGAATT TTCCTTGGAT GATCTTCCAT CTGAATTTCA GCAAGTAAAC 
ATTACTCCAT CAAAATTTAT TTTGAAGCCA AGACCAAAAA GGAGTAAACG GCAGCTTCGT 
CGATATCCTC GTAATGTAGA AGAAGAAACC AAATACATTG AACTGATGAT TGTGAATGAT 
CACCTTATGT TTAAAAAACA TCGGCTTTCC GTTGTACATA CCAATACCTA TGCGAAATCT 
GTGGTGAACA TGGCAGATTT AATATATAAA GACCAACTTA AGACCAGGAT AGTATTGGTT 
GCTATGGAAA CCTGGGCGAC TGACAACAAG TTTGCCATAT CTGAAAATCC ATTGATCACC 
CTACGTGAGT TTATGAAATA CAGGAGGGAT TTTATCAAAG AGAAAAGTGA TGCAGTTCAC 
CTTTTTTCGG GAAGTCAATT TGAGAGTAGC CGGAGCGGGG CAGCTTATAT TGGTGGGATT 
TGCTCGTTGC TGAAAGGAGG AGGCGTGAAT GAATTTGGGA AAACTGATTT AATGGCTGTT 
ACACTTGCCC AGTCATTAGC CCATAATATT GGTATTATCT CAGACAAAAG AAAGTTAGCA 
AGTGGTGAAT GTAAATGCGA GGACACGTGG TCCGGGTGCA TAATGGGAGA CACTGGCTAT 
TATCTTCCTA AAAAGTTCAC CCAGTGTAAT ATTGAAGAGT ATCATGACTT CCTGAATAGT 
GGAGGTGGTG CCTGCCTTTT CAACAAACCT TCTAAGCTTC TTGATCCTCC TGAGTGTGGC 
AATGGCTTCA TTGAAACTGG AGAGGAGTGT GATTGTGGAA CCCCGGCCGA ATGTGTCCTT 
GAAGGAGCAG AGTGTTGTAA GAAATGCACC TTGACTCAAG ACTCTCAATG CAGTGACGGT 
CTTTGCTGTA AAAAGTGCAA GTTTCAGCCT ATGGGCACTG TGTGCCGAGA AGCAGTAAAT 
GATTGTGATA TTCGTGAAAC GTGCTCAGGA AATTCAAGCC AGTGTGCCCC TAATATTCAT 
AAAATGGATG GATATTCATG TGATGGTGTT CAGGGAATTT GCTTTGGAGG AAGATGCAAA 
ACCAGAGATA GACAATGCAA ATACATTTGG GGGCAAAAGG TGACAGCATC AGACAAATAT 
TGCTATGAGA AACTGAATAT TGAAGGGACG GAGAAGGGTA ACTGTGGGAA AGACAAAGAC 
ACATGGATAC AGTGCAACAA ACGGGATGTG CTTTGTGGTT ACCTTTTGTG TACCAATATT 
GGCAATATCC CAAGGCTTGG AGAACTCGAT GGTGAAATCA CATCTACTTT AGTTGTGCAG 
CAAGGAAGAA CATTAAACTG CAGTGGTGGG CATGTTAAGC TTGAAGAAGA TGTAGATCTT 
GGCTATGTGG AAGATGGGAC ACCTTGTGGT CCCCAAATGA TGTGCTTAGA ACACAGGTGT 
CTTCCTGTGG CTTCTTTCAA CTTTAGTACT TGCTTGAGCA GTAAAGAAGG CACTATTTGC 
TCAGGAAATG GAGTTTGCAG TAATGAGCTG AAGTGTGTGT GTAACAGACA CTGGATAGGT 
TCTGATTGCA ACACTTACTT CCCTCACAAT GATGATGCAA AGACTGGTAT CACTCTGTCT 
GGCAATGGTG TTGCTGGCAC CAATATCATA ATAGGCATAA TTGCTGGCAC CATTTTAGTG 
CTGGCCCTCA TATTAGGAAT AACTGCGTGG GGTTATAAAA ACTATCGAGA ACAGAGACAG 
TTACCCCAGG GAGATTATGT AAAAAAGCCT GGAGATGGTG ACTCTTTTTA TAGCGACATT 
CCTCCCGGAG TCAGCACAAA CTCAGCATCT AGTTCTAAGA AGAGGTCAAA TGGGCTCTCT 
CATTCTTGGA GTGAAAGGAT TCCAGACACA AAACATATTT CAGACATCTG TGAAAATGGG 
CGACCTCGAA GTAACTCTTG GCAAGGTAAC CTGGGAGGCA ACAAAAAGAA AATCAGAGGC 
AAAAGATTTA GACCTCGGTC TAATTCAACT GAGAGGGAGC CCCAAGCACC TGAGCCTGGG 
CACTCCCTCG CCCAGACAGT CCCATCCCAA GGCATAAGCC CAGGGGGCTC TGACAGCCCC 
CAGACAGGGA GTCTGGATCA CAGGTATTTA AACCCATGGT TCAAAAGAGA CTATAATGTA 
GCTAAGTGGG TAGAAGATGT GAATAAAAAC ACTGAAGGAC CATACTTTAG GACTTTATCT 
CCTGCCAAGT CTCCTTCTTC ATCAACTGGG TCTATTGCCT CCAGCAGAAA ATACCCTTAC 
CCAATGCCTC CACTTCCTGA TGAGGACAAG AAAGTGAACC GACAAAGTGC CAGGCTATGG 
GAGACATCCA TTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_006716091.1
CDS	16..3090
Translation	MGRMGKGCPASGPRSWLLSDELVQGSRAGVSASFPVGFREGGGGGDFRRGDVGLQDGGVRVRVIIFAFSLHSLLSRFLPGGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRQLPQGDYVKKPGDGDSFYSDIPPGVSTNSASSSKKRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTEREPQAPEPGHSLAQTVPSQGISPGGSDSPQTGSLDHRYLNPWFKRDYNVAKWVEDVNKNTEGPYFRTLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_006716028.4
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X1, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_006716028.4

ORF Insert Sequence:

ATGGGGAGAA TGGGAAAGGG GTGCCCTGCT TCTGGGCCCC GCTCCTGGTT GCTCTCGGAT 
GAGCTGGTCC AAGGCTCTCG GGCTGGTGTC TCTGCGTCCT TCCCAGTTGG GTTCCGAGAG 
GGAGGGGGCG GTGGGGATTT TCGTAGGGGA GACGTAGGAC TGCAGGATGG AGGAGTGAGG 
GTCAGGGTCA TTATTTTCGC CTTTTCTCTC CACTCCCTCC TTTCCCGGTT CCTGCCTGGA 
GGAGACGCCT CATTGATGGA GCTAGAGAAG AGGAAGGAAA ACCGCTTCGT GGAGCGCCAG 
AGCATCGTGC CACTGCGCCT CATCTACCGC TCGGGCGGCG AAGACGAAAG TCGGCACGAC 
GCGCTCGACA CGCGGGTGCG GGGCGACCTC GGTGGCCCGC AGTTGACTCA TGTTGACCAA 
GCAAGCTTCC AGGTTGATGC CTTTGGAACG TCATTCATTC TCGATGTCGT GCTAAATCAT 
GATTTGCTGT CCTCTGAATA CATAGAGAGA CACATTGAAC ATGGAGGCAA GACTGTGGAA 
GTTAAAGGAG GAGAGCACTG TTACTACCAG GGCCATATCC GAGGAAACCC TGACTCATTT 
GTTGCATTGT CAACATGCCA CGGACTTCAT GGGATGTTCT ATGACGGGAA CCACACATAT 
CTCATTGAGC CAGAAGAAAA TGACACTACT CAAGAGGATT TCCATTTTCA TTCAGTTTAC 
AAATCCAGAC TGTTTGAATT TTCCTTGGAT GATCTTCCAT CTGAATTTCA GCAAGTAAAC 
ATTACTCCAT CAAAATTTAT TTTGAAGCCA AGACCAAAAA GGAGTAAACG GCAGCTTCGT 
CGATATCCTC GTAATGTAGA AGAAGAAACC AAATACATTG AACTGATGAT TGTGAATGAT 
CACCTTATGT TTAAAAAACA TCGGCTTTCC GTTGTACATA CCAATACCTA TGCGAAATCT 
GTGGTGAACA TGGCAGATTT AATATATAAA GACCAACTTA AGACCAGGAT AGTATTGGTT 
GCTATGGAAA CCTGGGCGAC TGACAACAAG TTTGCCATAT CTGAAAATCC ATTGATCACC 
CTACGTGAGT TTATGAAATA CAGGAGGGAT TTTATCAAAG AGAAAAGTGA TGCAGTTCAC 
CTTTTTTCGG GAAGTCAATT TGAGAGTAGC CGGAGCGGGG CAGCTTATAT TGGTGGGATT 
TGCTCGTTGC TGAAAGGAGG AGGCGTGAAT GAATTTGGGA AAACTGATTT AATGGCTGTT 
ACACTTGCCC AGTCATTAGC CCATAATATT GGTATTATCT CAGACAAAAG AAAGTTAGCA 
AGTGGTGAAT GTAAATGCGA GGACACGTGG TCCGGGTGCA TAATGGGAGA CACTGGCTAT 
TATCTTCCTA AAAAGTTCAC CCAGTGTAAT ATTGAAGAGT ATCATGACTT CCTGAATAGT 
GGAGGTGGTG CCTGCCTTTT CAACAAACCT TCTAAGCTTC TTGATCCTCC TGAGTGTGGC 
AATGGCTTCA TTGAAACTGG AGAGGAGTGT GATTGTGGAA CCCCGGCCGA ATGTGTCCTT 
GAAGGAGCAG AGTGTTGTAA GAAATGCACC TTGACTCAAG ACTCTCAATG CAGTGACGGT 
CTTTGCTGTA AAAAGTGCAA GTTTCAGCCT ATGGGCACTG TGTGCCGAGA AGCAGTAAAT 
GATTGTGATA TTCGTGAAAC GTGCTCAGGA AATTCAAGCC AGTGTGCCCC TAATATTCAT 
AAAATGGATG GATATTCATG TGATGGTGTT CAGGGAATTT GCTTTGGAGG AAGATGCAAA 
ACCAGAGATA GACAATGCAA ATACATTTGG GGGCAAAAGG TGACAGCATC AGACAAATAT 
TGCTATGAGA AACTGAATAT TGAAGGGACG GAGAAGGGTA ACTGTGGGAA AGACAAAGAC 
ACATGGATAC AGTGCAACAA ACGGGATGTG CTTTGTGGTT ACCTTTTGTG TACCAATATT 
GGCAATATCC CAAGGCTTGG AGAACTCGAT GGTGAAATCA CATCTACTTT AGTTGTGCAG 
CAAGGAAGAA CATTAAACTG CAGTGGTGGG CATGTTAAGC TTGAAGAAGA TGTAGATCTT 
GGCTATGTGG AAGATGGGAC ACCTTGTGGT CCCCAAATGA TGTGCTTAGA ACACAGGTGT 
CTTCCTGTGG CTTCTTTCAA CTTTAGTACT TGCTTGAGCA GTAAAGAAGG CACTATTTGC 
TCAGGAAATG GAGTTTGCAG TAATGAGCTG AAGTGTGTGT GTAACAGACA CTGGATAGGT 
TCTGATTGCA ACACTTACTT CCCTCACAAT GATGATGCAA AGACTGGTAT CACTCTGTCT 
GGCAATGGTG TTGCTGGCAC CAATATCATA ATAGGCATAA TTGCTGGCAC CATTTTAGTG 
CTGGCCCTCA TATTAGGAAT AACTGCGTGG GGTTATAAAA ACTATCGAGA ACAGAGACAG 
TTACCCCAGG GAGATTATGT AAAAAAGCCT GGAGATGGTG ACTCTTTTTA TAGCGACATT 
CCTCCCGGAG TCAGCACAAA CTCAGCATCT AGTTCTAAGA AGAGGTCAAA TGGGCTCTCT 
CATTCTTGGA GTGAAAGGAT TCCAGACACA AAACATATTT CAGACATCTG TGAAAATGGG 
CGACCTCGAA GTAACTCTTG GCAAGGTAAC CTGGGAGGCA ACAAAAAGAA AATCAGAGGC 
AAAAGATTTA GACCTCGGTC TAATTCAACT GAGAGGGAGC CCCAAGCACC TGAGCCTGGG 
CACTCCCTCG CCCAGACAGT CCCATCCCAA GGCATAAGCC CAGGGGGCTC TGACAGCCCC 
CAGACAGGGA GTCTGGATCA CAGGTATTTA AACCCATGGT TCAAAAGAGA CTATAATGTA 
GCTAAGTGGG TAGAAGATGT GAATAAAAAC ACTGAAGGAC CATACTTTAG GACTTTATCT 
CCTGCCAAGT CTCCTTCTTC ATCAACTGGG TCTATTGCCT CCAGCAGAAA ATACCCTTAC 
CCAATGCCTC CACTTCCTGA TGAGGACAAG AAAGTGAACC GACAAAGTGC CAGGCTATGG 
GAGACATCCA TTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_011516318.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011514620.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OHu68202
Clone ID Related Accession (Same CDS sequence)	XM_011516318.1 , XM_011516318.2
Accession Version	XM_011516318.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3006bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-06-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG ACAGTTACCC CAGGGAGATT ATGTAAAAAA GCCTGGAGAT 
GGTGACTCTT TTTATAGCGA CATTCCTCCC GGAGTCAGCA CAAACTCAGC ATCTAGTTCT 
AAGAAGAGGT CTGCTTTTCT GTCGCATTTT CAGATTTCTA CCTGTTCCAT CACACATTAT 
TCCATTAGTC AGAACATTTC ATTATTTTGC AGCAGGTCAA ATGGGCTCTC TCATTCTTGG 
AGTGAAAGGA TTCCAGACAC AAAACATATT TCAGACATCT GTGAAAATGG GCGACCTCGA 
AGTAACTCTT GGCAAGGTAA CCTGGGAGGC AACAAAAAGA AAATCAGAGG CAAAAGATTT 
AGACCTCGGT CTAATTCAAC TGAGAGGGAG CCCCAAGCAC CTGAGCCTGG GCACTCCCTC 
GCCCAGACAG TCCCATCCCA AGGCATAAGC CCAGGGGGCT CTGACAGCCC CCAGACAGGG 
AGTCTGGATC ACAGGTATTT AAACCCATGG TTCAAAAGAG ACTATAATGT AGCTAAGTGG 
GTAGAAGATG TGAATAAAAA CACTGAAGGA CCATACTTTA GGACTTTATC TCCTGCCAAG 
TCTCCTTCTT CATCAACTGG GTCTATTGCC TCCAGCAGAA AATACCCTTA CCCAATGCCT 
CCACTTCCTG ATGAGGACAA GAAAGTGAAC CGACAAAGTG CCAGGCTATG GGAGACATCC 
ATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_011514620.1
CDS	216..3221
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQAGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRQLPQGDYVKKPGDGDSFYSDIPPGVSTNSASSSKKRSAFLSHFQISTCSITHYSISQNISLFCSRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTEREPQAPEPGHSLAQTVPSQGISPGGSDSPQTGSLDHRYLNPWFKRDYNVAKWVEDVNKNTEGPYFRTLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_011516318.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X2, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_011516318.1

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG ACAGTTACCC CAGGGAGATT ATGTAAAAAA GCCTGGAGAT 
GGTGACTCTT TTTATAGCGA CATTCCTCCC GGAGTCAGCA CAAACTCAGC ATCTAGTTCT 
AAGAAGAGGT CTGCTTTTCT GTCGCATTTT CAGATTTCTA CCTGTTCCAT CACACATTAT 
TCCATTAGTC AGAACATTTC ATTATTTTGC AGCAGGTCAA ATGGGCTCTC TCATTCTTGG 
AGTGAAAGGA TTCCAGACAC AAAACATATT TCAGACATCT GTGAAAATGG GCGACCTCGA 
AGTAACTCTT GGCAAGGTAA CCTGGGAGGC AACAAAAAGA AAATCAGAGG CAAAAGATTT 
AGACCTCGGT CTAATTCAAC TGAGAGGGAG CCCCAAGCAC CTGAGCCTGG GCACTCCCTC 
GCCCAGACAG TCCCATCCCA AGGCATAAGC CCAGGGGGCT CTGACAGCCC CCAGACAGGG 
AGTCTGGATC ACAGGTATTT AAACCCATGG TTCAAAAGAG ACTATAATGT AGCTAAGTGG 
GTAGAAGATG TGAATAAAAA CACTGAAGGA CCATACTTTA GGACTTTATC TCCTGCCAAG 
TCTCCTTCTT CATCAACTGG GTCTATTGCC TCCAGCAGAA AATACCCTTA CCCAATGCCT 
CCACTTCCTG ATGAGGACAA GAAAGTGAAC CGACAAAGTG CCAGGCTATG GGAGACATCC 
ATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_011516318.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011514620.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X2, mRNA.

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CloneID	OHu68202
Clone ID Related Accession (Same CDS sequence)	XM_011516318.1 , XM_011516318.2
Accession Version	XM_011516318.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3006bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011516318.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG ACAGTTACCC CAGGGAGATT ATGTAAAAAA GCCTGGAGAT 
GGTGACTCTT TTTATAGCGA CATTCCTCCC GGAGTCAGCA CAAACTCAGC ATCTAGTTCT 
AAGAAGAGGT CTGCTTTTCT GTCGCATTTT CAGATTTCTA CCTGTTCCAT CACACATTAT 
TCCATTAGTC AGAACATTTC ATTATTTTGC AGCAGGTCAA ATGGGCTCTC TCATTCTTGG 
AGTGAAAGGA TTCCAGACAC AAAACATATT TCAGACATCT GTGAAAATGG GCGACCTCGA 
AGTAACTCTT GGCAAGGTAA CCTGGGAGGC AACAAAAAGA AAATCAGAGG CAAAAGATTT 
AGACCTCGGT CTAATTCAAC TGAGAGGGAG CCCCAAGCAC CTGAGCCTGG GCACTCCCTC 
GCCCAGACAG TCCCATCCCA AGGCATAAGC CCAGGGGGCT CTGACAGCCC CCAGACAGGG 
AGTCTGGATC ACAGGTATTT AAACCCATGG TTCAAAAGAG ACTATAATGT AGCTAAGTGG 
GTAGAAGATG TGAATAAAAA CACTGAAGGA CCATACTTTA GGACTTTATC TCCTGCCAAG 
TCTCCTTCTT CATCAACTGG GTCTATTGCC TCCAGCAGAA AATACCCTTA CCCAATGCCT 
CCACTTCCTG ATGAGGACAA GAAAGTGAAC CGACAAAGTG CCAGGCTATG GGAGACATCC 
ATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_011514620.1
CDS	216..3221
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQAGDASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRQLPQGDYVKKPGDGDSFYSDIPPGVSTNSASSSKKRSAFLSHFQISTCSITHYSISQNISLFCSRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTEREPQAPEPGHSLAQTVPSQGISPGGSDSPQTGSLDHRYLNPWFKRDYNVAKWVEDVNKNTEGPYFRTLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_011516318.2
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X2, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_011516318.2

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGGAGAC GCCTCATTGA TGGAGCTAGA GAAGAGGAAG 
GAAAACCGCT TCGTGGAGCG CCAGAGCATC GTGCCACTGC GCCTCATCTA CCGCTCGGGC 
GGCGAAGACG AAAGTCGGCA CGACGCGCTC GACACGCGGG TGCGGGGCGA CCTCGGTGGC 
CCGCAGTTGA CTCATGTTGA CCAAGCAAGC TTCCAGGTTG ATGCCTTTGG AACGTCATTC 
ATTCTCGATG TCGTGCTAAA TCATGATTTG CTGTCCTCTG AATACATAGA GAGACACATT 
GAACATGGAG GCAAGACTGT GGAAGTTAAA GGAGGAGAGC ACTGTTACTA CCAGGGCCAT 
ATCCGAGGAA ACCCTGACTC ATTTGTTGCA TTGTCAACAT GCCACGGACT TCATGGGATG 
TTCTATGACG GGAACCACAC ATATCTCATT GAGCCAGAAG AAAATGACAC TACTCAAGAG 
GATTTCCATT TTCATTCAGT TTACAAATCC AGACTGTTTG AATTTTCCTT GGATGATCTT 
CCATCTGAAT TTCAGCAAGT AAACATTACT CCATCAAAAT TTATTTTGAA GCCAAGACCA 
AAAAGGAGTA AACGGCAGCT TCGTCGATAT CCTCGTAATG TAGAAGAAGA AACCAAATAC 
ATTGAACTGA TGATTGTGAA TGATCACCTT ATGTTTAAAA AACATCGGCT TTCCGTTGTA 
CATACCAATA CCTATGCGAA ATCTGTGGTG AACATGGCAG ATTTAATATA TAAAGACCAA 
CTTAAGACCA GGATAGTATT GGTTGCTATG GAAACCTGGG CGACTGACAA CAAGTTTGCC 
ATATCTGAAA ATCCATTGAT CACCCTACGT GAGTTTATGA AATACAGGAG GGATTTTATC 
AAAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGAAGTC AATTTGAGAG TAGCCGGAGC 
GGGGCAGCTT ATATTGGTGG GATTTGCTCG TTGCTGAAAG GAGGAGGCGT GAATGAATTT 
GGGAAAACTG ATTTAATGGC TGTTACACTT GCCCAGTCAT TAGCCCATAA TATTGGTATT 
ATCTCAGACA AAAGAAAGTT AGCAAGTGGT GAATGTAAAT GCGAGGACAC GTGGTCCGGG 
TGCATAATGG GAGACACTGG CTATTATCTT CCTAAAAAGT TCACCCAGTG TAATATTGAA 
GAGTATCATG ACTTCCTGAA TAGTGGAGGT GGTGCCTGCC TTTTCAACAA ACCTTCTAAG 
CTTCTTGATC CTCCTGAGTG TGGCAATGGC TTCATTGAAA CTGGAGAGGA GTGTGATTGT 
GGAACCCCGG CCGAATGTGT CCTTGAAGGA GCAGAGTGTT GTAAGAAATG CACCTTGACT 
CAAGACTCTC AATGCAGTGA CGGTCTTTGC TGTAAAAAGT GCAAGTTTCA GCCTATGGGC 
ACTGTGTGCC GAGAAGCAGT AAATGATTGT GATATTCGTG AAACGTGCTC AGGAAATTCA 
AGCCAGTGTG CCCCTAATAT TCATAAAATG GATGGATATT CATGTGATGG TGTTCAGGGA 
ATTTGCTTTG GAGGAAGATG CAAAACCAGA GATAGACAAT GCAAATACAT TTGGGGGCAA 
AAGGTGACAG CATCAGACAA ATATTGCTAT GAGAAACTGA ATATTGAAGG GACGGAGAAG 
GGTAACTGTG GGAAAGACAA AGACACATGG ATACAGTGCA ACAAACGGGA TGTGCTTTGT 
GGTTACCTTT TGTGTACCAA TATTGGCAAT ATCCCAAGGC TTGGAGAACT CGATGGTGAA 
ATCACATCTA CTTTAGTTGT GCAGCAAGGA AGAACATTAA ACTGCAGTGG TGGGCATGTT 
AAGCTTGAAG AAGATGTAGA TCTTGGCTAT GTGGAAGATG GGACACCTTG TGGTCCCCAA 
ATGATGTGCT TAGAACACAG GTGTCTTCCT GTGGCTTCTT TCAACTTTAG TACTTGCTTG 
AGCAGTAAAG AAGGCACTAT TTGCTCAGGA AATGGAGTTT GCAGTAATGA GCTGAAGTGT 
GTGTGTAACA GACACTGGAT AGGTTCTGAT TGCAACACTT ACTTCCCTCA CAATGATGAT 
GCAAAGACTG GTATCACTCT GTCTGGCAAT GGTGTTGCTG GCACCAATAT CATAATAGGC 
ATAATTGCTG GCACCATTTT AGTGCTGGCC CTCATATTAG GAATAACTGC GTGGGGTTAT 
AAAAACTATC GAGAACAGAG ACAGTTACCC CAGGGAGATT ATGTAAAAAA GCCTGGAGAT 
GGTGACTCTT TTTATAGCGA CATTCCTCCC GGAGTCAGCA CAAACTCAGC ATCTAGTTCT 
AAGAAGAGGT CTGCTTTTCT GTCGCATTTT CAGATTTCTA CCTGTTCCAT CACACATTAT 
TCCATTAGTC AGAACATTTC ATTATTTTGC AGCAGGTCAA ATGGGCTCTC TCATTCTTGG 
AGTGAAAGGA TTCCAGACAC AAAACATATT TCAGACATCT GTGAAAATGG GCGACCTCGA 
AGTAACTCTT GGCAAGGTAA CCTGGGAGGC AACAAAAAGA AAATCAGAGG CAAAAGATTT 
AGACCTCGGT CTAATTCAAC TGAGAGGGAG CCCCAAGCAC CTGAGCCTGG GCACTCCCTC 
GCCCAGACAG TCCCATCCCA AGGCATAAGC CCAGGGGGCT CTGACAGCCC CCAGACAGGG 
AGTCTGGATC ACAGGTATTT AAACCCATGG TTCAAAAGAG ACTATAATGT AGCTAAGTGG 
GTAGAAGATG TGAATAAAAA CACTGAAGGA CCATACTTTA GGACTTTATC TCCTGCCAAG 
TCTCCTTCTT CATCAACTGG GTCTATTGCC TCCAGCAGAA AATACCCTTA CCCAATGCCT 
CCACTTCCTG ATGAGGACAA GAAAGTGAAC CGACAAAGTG CCAGGCTATG GGAGACATCC 
ATTTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_011516319.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011514621.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OHu68203
Clone ID Related Accession (Same CDS sequence)	XM_011516319.3 , XM_011516319.2
Accession Version	XM_011516319.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3003bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011516319.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGACGCC TCATTGATGG AGCTAGAGAA GAGGAAGGAA 
AACCGCTTCG TGGAGCGCCA GAGCATCGTG CCACTGCGCC TCATCTACCG CTCGGGCGGC 
GAAGACGAAA GTCGGCACGA CGCGCTCGAC ACGCGGGTGC GGGGCGACCT CGGTGGCCCG 
CAGTTGACTC ATGTTGACCA AGCAAGCTTC CAGGTTGATG CCTTTGGAAC GTCATTCATT 
CTCGATGTCG TGCTAAATCA TGATTTGCTG TCCTCTGAAT ACATAGAGAG ACACATTGAA 
CATGGAGGCA AGACTGTGGA AGTTAAAGGA GGAGAGCACT GTTACTACCA GGGCCATATC 
CGAGGAAACC CTGACTCATT TGTTGCATTG TCAACATGCC ACGGACTTCA TGGGATGTTC 
TATGACGGGA ACCACACATA TCTCATTGAG CCAGAAGAAA ATGACACTAC TCAAGAGGAT 
TTCCATTTTC ATTCAGTTTA CAAATCCAGA CTGTTTGAAT TTTCCTTGGA TGATCTTCCA 
TCTGAATTTC AGCAAGTAAA CATTACTCCA TCAAAATTTA TTTTGAAGCC AAGACCAAAA 
AGGAGTAAAC GGCAGCTTCG TCGATATCCT CGTAATGTAG AAGAAGAAAC CAAATACATT 
GAACTGATGA TTGTGAATGA TCACCTTATG TTTAAAAAAC ATCGGCTTTC CGTTGTACAT 
ACCAATACCT ATGCGAAATC TGTGGTGAAC ATGGCAGATT TAATATATAA AGACCAACTT 
AAGACCAGGA TAGTATTGGT TGCTATGGAA ACCTGGGCGA CTGACAACAA GTTTGCCATA 
TCTGAAAATC CATTGATCAC CCTACGTGAG TTTATGAAAT ACAGGAGGGA TTTTATCAAA 
GAGAAAAGTG ATGCAGTTCA CCTTTTTTCG GGAAGTCAAT TTGAGAGTAG CCGGAGCGGG 
GCAGCTTATA TTGGTGGGAT TTGCTCGTTG CTGAAAGGAG GAGGCGTGAA TGAATTTGGG 
AAAACTGATT TAATGGCTGT TACACTTGCC CAGTCATTAG CCCATAATAT TGGTATTATC 
TCAGACAAAA GAAAGTTAGC AAGTGGTGAA TGTAAATGCG AGGACACGTG GTCCGGGTGC 
ATAATGGGAG ACACTGGCTA TTATCTTCCT AAAAAGTTCA CCCAGTGTAA TATTGAAGAG 
TATCATGACT TCCTGAATAG TGGAGGTGGT GCCTGCCTTT TCAACAAACC TTCTAAGCTT 
CTTGATCCTC CTGAGTGTGG CAATGGCTTC ATTGAAACTG GAGAGGAGTG TGATTGTGGA 
ACCCCGGCCG AATGTGTCCT TGAAGGAGCA GAGTGTTGTA AGAAATGCAC CTTGACTCAA 
GACTCTCAAT GCAGTGACGG TCTTTGCTGT AAAAAGTGCA AGTTTCAGCC TATGGGCACT 
GTGTGCCGAG AAGCAGTAAA TGATTGTGAT ATTCGTGAAA CGTGCTCAGG AAATTCAAGC 
CAGTGTGCCC CTAATATTCA TAAAATGGAT GGATATTCAT GTGATGGTGT TCAGGGAATT 
TGCTTTGGAG GAAGATGCAA AACCAGAGAT AGACAATGCA AATACATTTG GGGGCAAAAG 
GTGACAGCAT CAGACAAATA TTGCTATGAG AAACTGAATA TTGAAGGGAC GGAGAAGGGT 
AACTGTGGGA AAGACAAAGA CACATGGATA CAGTGCAACA AACGGGATGT GCTTTGTGGT 
TACCTTTTGT GTACCAATAT TGGCAATATC CCAAGGCTTG GAGAACTCGA TGGTGAAATC 
ACATCTACTT TAGTTGTGCA GCAAGGAAGA ACATTAAACT GCAGTGGTGG GCATGTTAAG 
CTTGAAGAAG ATGTAGATCT TGGCTATGTG GAAGATGGGA CACCTTGTGG TCCCCAAATG 
ATGTGCTTAG AACACAGGTG TCTTCCTGTG GCTTCTTTCA ACTTTAGTAC TTGCTTGAGC 
AGTAAAGAAG GCACTATTTG CTCAGGAAAT GGAGTTTGCA GTAATGAGCT GAAGTGTGTG 
TGTAACAGAC ACTGGATAGG TTCTGATTGC AACACTTACT TCCCTCACAA TGATGATGCA 
AAGACTGGTA TCACTCTGTC TGGCAATGGT GTTGCTGGCA CCAATATCAT AATAGGCATA 
ATTGCTGGCA CCATTTTAGT GCTGGCCCTC ATATTAGGAA TAACTGCGTG GGGTTATAAA 
AACTATCGAG AACAGAGACA GTTACCCCAG GGAGATTATG TAAAAAAGCC TGGAGATGGT 
GACTCTTTTT ATAGCGACAT TCCTCCCGGA GTCAGCACAA ACTCAGCATC TAGTTCTAAG 
AAGAGGTCTG CTTTTCTGTC GCATTTTCAG ATTTCTACCT GTTCCATCAC ACATTATTCC 
ATTAGTCAGA ACATTTCATT ATTTTGCAGC AGGTCAAATG GGCTCTCTCA TTCTTGGAGT 
GAAAGGATTC CAGACACAAA ACATATTTCA GACATCTGTG AAAATGGGCG ACCTCGAAGT 
AACTCTTGGC AAGGTAACCT GGGAGGCAAC AAAAAGAAAA TCAGAGGCAA AAGATTTAGA 
CCTCGGTCTA ATTCAACTGA GAGGGAGCCC CAAGCACCTG AGCCTGGGCA CTCCCTCGCC 
CAGACAGTCC CATCCCAAGG CATAAGCCCA GGGGGCTCTG ACAGCCCCCA GACAGGGAGT 
CTGGATCACA GGTATTTAAA CCCATGGTTC AAAAGAGACT ATAATGTAGC TAAGTGGGTA 
GAAGATGTGA ATAAAAACAC TGAAGGACCA TACTTTAGGA CTTTATCTCC TGCCAAGTCT 
CCTTCTTCAT CAACTGGGTC TATTGCCTCC AGCAGAAAAT ACCCTTACCC AATGCCTCCA 
CTTCCTGATG AGGACAAGAA AGTGAACCGA CAAAGTGCCA GGCTATGGGA GACATCCATT 
TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_011514621.1
CDS	304..3306
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQADASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRQLPQGDYVKKPGDGDSFYSDIPPGVSTNSASSSKKRSAFLSHFQISTCSITHYSISQNISLFCSRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTEREPQAPEPGHSLAQTVPSQGISPGGSDSPQTGSLDHRYLNPWFKRDYNVAKWVEDVNKNTEGPYFRTLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_011516319.3
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X3, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_011516319.3

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGACGCC TCATTGATGG AGCTAGAGAA GAGGAAGGAA 
AACCGCTTCG TGGAGCGCCA GAGCATCGTG CCACTGCGCC TCATCTACCG CTCGGGCGGC 
GAAGACGAAA GTCGGCACGA CGCGCTCGAC ACGCGGGTGC GGGGCGACCT CGGTGGCCCG 
CAGTTGACTC ATGTTGACCA AGCAAGCTTC CAGGTTGATG CCTTTGGAAC GTCATTCATT 
CTCGATGTCG TGCTAAATCA TGATTTGCTG TCCTCTGAAT ACATAGAGAG ACACATTGAA 
CATGGAGGCA AGACTGTGGA AGTTAAAGGA GGAGAGCACT GTTACTACCA GGGCCATATC 
CGAGGAAACC CTGACTCATT TGTTGCATTG TCAACATGCC ACGGACTTCA TGGGATGTTC 
TATGACGGGA ACCACACATA TCTCATTGAG CCAGAAGAAA ATGACACTAC TCAAGAGGAT 
TTCCATTTTC ATTCAGTTTA CAAATCCAGA CTGTTTGAAT TTTCCTTGGA TGATCTTCCA 
TCTGAATTTC AGCAAGTAAA CATTACTCCA TCAAAATTTA TTTTGAAGCC AAGACCAAAA 
AGGAGTAAAC GGCAGCTTCG TCGATATCCT CGTAATGTAG AAGAAGAAAC CAAATACATT 
GAACTGATGA TTGTGAATGA TCACCTTATG TTTAAAAAAC ATCGGCTTTC CGTTGTACAT 
ACCAATACCT ATGCGAAATC TGTGGTGAAC ATGGCAGATT TAATATATAA AGACCAACTT 
AAGACCAGGA TAGTATTGGT TGCTATGGAA ACCTGGGCGA CTGACAACAA GTTTGCCATA 
TCTGAAAATC CATTGATCAC CCTACGTGAG TTTATGAAAT ACAGGAGGGA TTTTATCAAA 
GAGAAAAGTG ATGCAGTTCA CCTTTTTTCG GGAAGTCAAT TTGAGAGTAG CCGGAGCGGG 
GCAGCTTATA TTGGTGGGAT TTGCTCGTTG CTGAAAGGAG GAGGCGTGAA TGAATTTGGG 
AAAACTGATT TAATGGCTGT TACACTTGCC CAGTCATTAG CCCATAATAT TGGTATTATC 
TCAGACAAAA GAAAGTTAGC AAGTGGTGAA TGTAAATGCG AGGACACGTG GTCCGGGTGC 
ATAATGGGAG ACACTGGCTA TTATCTTCCT AAAAAGTTCA CCCAGTGTAA TATTGAAGAG 
TATCATGACT TCCTGAATAG TGGAGGTGGT GCCTGCCTTT TCAACAAACC TTCTAAGCTT 
CTTGATCCTC CTGAGTGTGG CAATGGCTTC ATTGAAACTG GAGAGGAGTG TGATTGTGGA 
ACCCCGGCCG AATGTGTCCT TGAAGGAGCA GAGTGTTGTA AGAAATGCAC CTTGACTCAA 
GACTCTCAAT GCAGTGACGG TCTTTGCTGT AAAAAGTGCA AGTTTCAGCC TATGGGCACT 
GTGTGCCGAG AAGCAGTAAA TGATTGTGAT ATTCGTGAAA CGTGCTCAGG AAATTCAAGC 
CAGTGTGCCC CTAATATTCA TAAAATGGAT GGATATTCAT GTGATGGTGT TCAGGGAATT 
TGCTTTGGAG GAAGATGCAA AACCAGAGAT AGACAATGCA AATACATTTG GGGGCAAAAG 
GTGACAGCAT CAGACAAATA TTGCTATGAG AAACTGAATA TTGAAGGGAC GGAGAAGGGT 
AACTGTGGGA AAGACAAAGA CACATGGATA CAGTGCAACA AACGGGATGT GCTTTGTGGT 
TACCTTTTGT GTACCAATAT TGGCAATATC CCAAGGCTTG GAGAACTCGA TGGTGAAATC 
ACATCTACTT TAGTTGTGCA GCAAGGAAGA ACATTAAACT GCAGTGGTGG GCATGTTAAG 
CTTGAAGAAG ATGTAGATCT TGGCTATGTG GAAGATGGGA CACCTTGTGG TCCCCAAATG 
ATGTGCTTAG AACACAGGTG TCTTCCTGTG GCTTCTTTCA ACTTTAGTAC TTGCTTGAGC 
AGTAAAGAAG GCACTATTTG CTCAGGAAAT GGAGTTTGCA GTAATGAGCT GAAGTGTGTG 
TGTAACAGAC ACTGGATAGG TTCTGATTGC AACACTTACT TCCCTCACAA TGATGATGCA 
AAGACTGGTA TCACTCTGTC TGGCAATGGT GTTGCTGGCA CCAATATCAT AATAGGCATA 
ATTGCTGGCA CCATTTTAGT GCTGGCCCTC ATATTAGGAA TAACTGCGTG GGGTTATAAA 
AACTATCGAG AACAGAGACA GTTACCCCAG GGAGATTATG TAAAAAAGCC TGGAGATGGT 
GACTCTTTTT ATAGCGACAT TCCTCCCGGA GTCAGCACAA ACTCAGCATC TAGTTCTAAG 
AAGAGGTCTG CTTTTCTGTC GCATTTTCAG ATTTCTACCT GTTCCATCAC ACATTATTCC 
ATTAGTCAGA ACATTTCATT ATTTTGCAGC AGGTCAAATG GGCTCTCTCA TTCTTGGAGT 
GAAAGGATTC CAGACACAAA ACATATTTCA GACATCTGTG AAAATGGGCG ACCTCGAAGT 
AACTCTTGGC AAGGTAACCT GGGAGGCAAC AAAAAGAAAA TCAGAGGCAA AAGATTTAGA 
CCTCGGTCTA ATTCAACTGA GAGGGAGCCC CAAGCACCTG AGCCTGGGCA CTCCCTCGCC 
CAGACAGTCC CATCCCAAGG CATAAGCCCA GGGGGCTCTG ACAGCCCCCA GACAGGGAGT 
CTGGATCACA GGTATTTAAA CCCATGGTTC AAAAGAGACT ATAATGTAGC TAAGTGGGTA 
GAAGATGTGA ATAAAAACAC TGAAGGACCA TACTTTAGGA CTTTATCTCC TGCCAAGTCT 
CCTTCTTCAT CAACTGGGTC TATTGCCTCC AGCAGAAAAT ACCCTTACCC AATGCCTCCA 
CTTCCTGATG AGGACAAGAA AGTGAACCGA CAAAGTGCCA GGCTATGGGA GACATCCATT 
TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADAM22 ( XM_011516319.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011514621.1 Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OHu68203
Clone ID Related Accession (Same CDS sequence)	XM_011516319.3 , XM_011516319.2
Accession Version	XM_011516319.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3003bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-06-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 22 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011516319.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGACGCC TCATTGATGG AGCTAGAGAA GAGGAAGGAA 
AACCGCTTCG TGGAGCGCCA GAGCATCGTG CCACTGCGCC TCATCTACCG CTCGGGCGGC 
GAAGACGAAA GTCGGCACGA CGCGCTCGAC ACGCGGGTGC GGGGCGACCT CGGTGGCCCG 
CAGTTGACTC ATGTTGACCA AGCAAGCTTC CAGGTTGATG CCTTTGGAAC GTCATTCATT 
CTCGATGTCG TGCTAAATCA TGATTTGCTG TCCTCTGAAT ACATAGAGAG ACACATTGAA 
CATGGAGGCA AGACTGTGGA AGTTAAAGGA GGAGAGCACT GTTACTACCA GGGCCATATC 
CGAGGAAACC CTGACTCATT TGTTGCATTG TCAACATGCC ACGGACTTCA TGGGATGTTC 
TATGACGGGA ACCACACATA TCTCATTGAG CCAGAAGAAA ATGACACTAC TCAAGAGGAT 
TTCCATTTTC ATTCAGTTTA CAAATCCAGA CTGTTTGAAT TTTCCTTGGA TGATCTTCCA 
TCTGAATTTC AGCAAGTAAA CATTACTCCA TCAAAATTTA TTTTGAAGCC AAGACCAAAA 
AGGAGTAAAC GGCAGCTTCG TCGATATCCT CGTAATGTAG AAGAAGAAAC CAAATACATT 
GAACTGATGA TTGTGAATGA TCACCTTATG TTTAAAAAAC ATCGGCTTTC CGTTGTACAT 
ACCAATACCT ATGCGAAATC TGTGGTGAAC ATGGCAGATT TAATATATAA AGACCAACTT 
AAGACCAGGA TAGTATTGGT TGCTATGGAA ACCTGGGCGA CTGACAACAA GTTTGCCATA 
TCTGAAAATC CATTGATCAC CCTACGTGAG TTTATGAAAT ACAGGAGGGA TTTTATCAAA 
GAGAAAAGTG ATGCAGTTCA CCTTTTTTCG GGAAGTCAAT TTGAGAGTAG CCGGAGCGGG 
GCAGCTTATA TTGGTGGGAT TTGCTCGTTG CTGAAAGGAG GAGGCGTGAA TGAATTTGGG 
AAAACTGATT TAATGGCTGT TACACTTGCC CAGTCATTAG CCCATAATAT TGGTATTATC 
TCAGACAAAA GAAAGTTAGC AAGTGGTGAA TGTAAATGCG AGGACACGTG GTCCGGGTGC 
ATAATGGGAG ACACTGGCTA TTATCTTCCT AAAAAGTTCA CCCAGTGTAA TATTGAAGAG 
TATCATGACT TCCTGAATAG TGGAGGTGGT GCCTGCCTTT TCAACAAACC TTCTAAGCTT 
CTTGATCCTC CTGAGTGTGG CAATGGCTTC ATTGAAACTG GAGAGGAGTG TGATTGTGGA 
ACCCCGGCCG AATGTGTCCT TGAAGGAGCA GAGTGTTGTA AGAAATGCAC CTTGACTCAA 
GACTCTCAAT GCAGTGACGG TCTTTGCTGT AAAAAGTGCA AGTTTCAGCC TATGGGCACT 
GTGTGCCGAG AAGCAGTAAA TGATTGTGAT ATTCGTGAAA CGTGCTCAGG AAATTCAAGC 
CAGTGTGCCC CTAATATTCA TAAAATGGAT GGATATTCAT GTGATGGTGT TCAGGGAATT 
TGCTTTGGAG GAAGATGCAA AACCAGAGAT AGACAATGCA AATACATTTG GGGGCAAAAG 
GTGACAGCAT CAGACAAATA TTGCTATGAG AAACTGAATA TTGAAGGGAC GGAGAAGGGT 
AACTGTGGGA AAGACAAAGA CACATGGATA CAGTGCAACA AACGGGATGT GCTTTGTGGT 
TACCTTTTGT GTACCAATAT TGGCAATATC CCAAGGCTTG GAGAACTCGA TGGTGAAATC 
ACATCTACTT TAGTTGTGCA GCAAGGAAGA ACATTAAACT GCAGTGGTGG GCATGTTAAG 
CTTGAAGAAG ATGTAGATCT TGGCTATGTG GAAGATGGGA CACCTTGTGG TCCCCAAATG 
ATGTGCTTAG AACACAGGTG TCTTCCTGTG GCTTCTTTCA ACTTTAGTAC TTGCTTGAGC 
AGTAAAGAAG GCACTATTTG CTCAGGAAAT GGAGTTTGCA GTAATGAGCT GAAGTGTGTG 
TGTAACAGAC ACTGGATAGG TTCTGATTGC AACACTTACT TCCCTCACAA TGATGATGCA 
AAGACTGGTA TCACTCTGTC TGGCAATGGT GTTGCTGGCA CCAATATCAT AATAGGCATA 
ATTGCTGGCA CCATTTTAGT GCTGGCCCTC ATATTAGGAA TAACTGCGTG GGGTTATAAA 
AACTATCGAG AACAGAGACA GTTACCCCAG GGAGATTATG TAAAAAAGCC TGGAGATGGT 
GACTCTTTTT ATAGCGACAT TCCTCCCGGA GTCAGCACAA ACTCAGCATC TAGTTCTAAG 
AAGAGGTCTG CTTTTCTGTC GCATTTTCAG ATTTCTACCT GTTCCATCAC ACATTATTCC 
ATTAGTCAGA ACATTTCATT ATTTTGCAGC AGGTCAAATG GGCTCTCTCA TTCTTGGAGT 
GAAAGGATTC CAGACACAAA ACATATTTCA GACATCTGTG AAAATGGGCG ACCTCGAAGT 
AACTCTTGGC AAGGTAACCT GGGAGGCAAC AAAAAGAAAA TCAGAGGCAA AAGATTTAGA 
CCTCGGTCTA ATTCAACTGA GAGGGAGCCC CAAGCACCTG AGCCTGGGCA CTCCCTCGCC 
CAGACAGTCC CATCCCAAGG CATAAGCCCA GGGGGCTCTG ACAGCCCCCA GACAGGGAGT 
CTGGATCACA GGTATTTAAA CCCATGGTTC AAAAGAGACT ATAATGTAGC TAAGTGGGTA 
GAAGATGTGA ATAAAAACAC TGAAGGACCA TACTTTAGGA CTTTATCTCC TGCCAAGTCT 
CCTTCTTCAT CAACTGGGTC TATTGCCTCC AGCAGAAAAT ACCCTTACCC AATGCCTCCA 
CTTCCTGATG AGGACAAGAA AGTGAACCGA CAAAGTGCCA GGCTATGGGA GACATCCATT 
TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_011514621.1
CDS	303..3305
Translation	MQAAVAVSVPFLLLCVLGTCPPARCGQADASLMELEKRKENRFVERQSIVPLRLIYRSGGEDESRHDALDTRVRGDLGGPQLTHVDQASFQVDAFGTSFILDVVLNHDLLSSEYIERHIEHGGKTVEVKGGEHCYYQGHIRGNPDSFVALSTCHGLHGMFYDGNHTYLIEPEENDTTQEDFHFHSVYKSRLFEFSLDDLPSEFQQVNITPSKFILKPRPKRSKRQLRRYPRNVEEETKYIELMIVNDHLMFKKHRLSVVHTNTYAKSVVNMADLIYKDQLKTRIVLVAMETWATDNKFAISENPLITLREFMKYRRDFIKEKSDAVHLFSGSQFESSRSGAAYIGGICSLLKGGGVNEFGKTDLMAVTLAQSLAHNIGIISDKRKLASGECKCEDTWSGCIMGDTGYYLPKKFTQCNIEEYHDFLNSGGGACLFNKPSKLLDPPECGNGFIETGEECDCGTPAECVLEGAECCKKCTLTQDSQCSDGLCCKKCKFQPMGTVCREAVNDCDIRETCSGNSSQCAPNIHKMDGYSCDGVQGICFGGRCKTRDRQCKYIWGQKVTASDKYCYEKLNIEGTEKGNCGKDKDTWIQCNKRDVLCGYLLCTNIGNIPRLGELDGEITSTLVVQQGRTLNCSGGHVKLEEDVDLGYVEDGTPCGPQMMCLEHRCLPVASFNFSTCLSSKEGTICSGNGVCSNELKCVCNRHWIGSDCNTYFPHNDDAKTGITLSGNGVAGTNIIIGIIAGTILVLALILGITAWGYKNYREQRQLPQGDYVKKPGDGDSFYSDIPPGVSTNSASSSKKRSAFLSHFQISTCSITHYSISQNISLFCSRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNLGGNKKKIRGKRFRPRSNSTEREPQAPEPGHSLAQTVPSQGISPGGSDSPQTGSLDHRYLNPWFKRDYNVAKWVEDVNKNTEGPYFRTLSPAKSPSSSTGSIASSRKYPYPMPPLPDEDKKVNRQSARLWETSI

Target ORF information:

RefSeq Version	XM_011516319.2
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 22 (ADAM22), transcript variant X3, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_011516319.2

ORF Insert Sequence:

ATGCAGGCGG CAGTGGCTGT GTCCGTGCCC TTCTTGCTGC TCTGTGTCCT GGGGACCTGC 
CCTCCGGCGC GCTGCGGCCA GGCAGACGCC TCATTGATGG AGCTAGAGAA GAGGAAGGAA 
AACCGCTTCG TGGAGCGCCA GAGCATCGTG CCACTGCGCC TCATCTACCG CTCGGGCGGC 
GAAGACGAAA GTCGGCACGA CGCGCTCGAC ACGCGGGTGC GGGGCGACCT CGGTGGCCCG 
CAGTTGACTC ATGTTGACCA AGCAAGCTTC CAGGTTGATG CCTTTGGAAC GTCATTCATT 
CTCGATGTCG TGCTAAATCA TGATTTGCTG TCCTCTGAAT ACATAGAGAG ACACATTGAA 
CATGGAGGCA AGACTGTGGA AGTTAAAGGA GGAGAGCACT GTTACTACCA GGGCCATATC 
CGAGGAAACC CTGACTCATT TGTTGCATTG TCAACATGCC ACGGACTTCA TGGGATGTTC 
TATGACGGGA ACCACACATA TCTCATTGAG CCAGAAGAAA ATGACACTAC TCAAGAGGAT 
TTCCATTTTC ATTCAGTTTA CAAATCCAGA CTGTTTGAAT TTTCCTTGGA TGATCTTCCA 
TCTGAATTTC AGCAAGTAAA CATTACTCCA TCAAAATTTA TTTTGAAGCC AAGACCAAAA 
AGGAGTAAAC GGCAGCTTCG TCGATATCCT CGTAATGTAG AAGAAGAAAC CAAATACATT 
GAACTGATGA TTGTGAATGA TCACCTTATG TTTAAAAAAC ATCGGCTTTC CGTTGTACAT 
ACCAATACCT ATGCGAAATC TGTGGTGAAC ATGGCAGATT TAATATATAA AGACCAACTT 
AAGACCAGGA TAGTATTGGT TGCTATGGAA ACCTGGGCGA CTGACAACAA GTTTGCCATA 
TCTGAAAATC CATTGATCAC CCTACGTGAG TTTATGAAAT ACAGGAGGGA TTTTATCAAA 
GAGAAAAGTG ATGCAGTTCA CCTTTTTTCG GGAAGTCAAT TTGAGAGTAG CCGGAGCGGG 
GCAGCTTATA TTGGTGGGAT TTGCTCGTTG CTGAAAGGAG GAGGCGTGAA TGAATTTGGG 
AAAACTGATT TAATGGCTGT TACACTTGCC CAGTCATTAG CCCATAATAT TGGTATTATC 
TCAGACAAAA GAAAGTTAGC AAGTGGTGAA TGTAAATGCG AGGACACGTG GTCCGGGTGC 
ATAATGGGAG ACACTGGCTA TTATCTTCCT AAAAAGTTCA CCCAGTGTAA TATTGAAGAG 
TATCATGACT TCCTGAATAG TGGAGGTGGT GCCTGCCTTT TCAACAAACC TTCTAAGCTT 
CTTGATCCTC CTGAGTGTGG CAATGGCTTC ATTGAAACTG GAGAGGAGTG TGATTGTGGA 
ACCCCGGCCG AATGTGTCCT TGAAGGAGCA GAGTGTTGTA AGAAATGCAC CTTGACTCAA 
GACTCTCAAT GCAGTGACGG TCTTTGCTGT AAAAAGTGCA AGTTTCAGCC TATGGGCACT 
GTGTGCCGAG AAGCAGTAAA TGATTGTGAT ATTCGTGAAA CGTGCTCAGG AAATTCAAGC 
CAGTGTGCCC CTAATATTCA TAAAATGGAT GGATATTCAT GTGATGGTGT TCAGGGAATT 
TGCTTTGGAG GAAGATGCAA AACCAGAGAT AGACAATGCA AATACATTTG GGGGCAAAAG 
GTGACAGCAT CAGACAAATA TTGCTATGAG AAACTGAATA TTGAAGGGAC GGAGAAGGGT 
AACTGTGGGA AAGACAAAGA CACATGGATA CAGTGCAACA AACGGGATGT GCTTTGTGGT 
TACCTTTTGT GTACCAATAT TGGCAATATC CCAAGGCTTG GAGAACTCGA TGGTGAAATC 
ACATCTACTT TAGTTGTGCA GCAAGGAAGA ACATTAAACT GCAGTGGTGG GCATGTTAAG 
CTTGAAGAAG ATGTAGATCT TGGCTATGTG GAAGATGGGA CACCTTGTGG TCCCCAAATG 
ATGTGCTTAG AACACAGGTG TCTTCCTGTG GCTTCTTTCA ACTTTAGTAC TTGCTTGAGC 
AGTAAAGAAG GCACTATTTG CTCAGGAAAT GGAGTTTGCA GTAATGAGCT GAAGTGTGTG 
TGTAACAGAC ACTGGATAGG TTCTGATTGC AACACTTACT TCCCTCACAA TGATGATGCA 
AAGACTGGTA TCACTCTGTC TGGCAATGGT GTTGCTGGCA CCAATATCAT AATAGGCATA 
ATTGCTGGCA CCATTTTAGT GCTGGCCCTC ATATTAGGAA TAACTGCGTG GGGTTATAAA 
AACTATCGAG AACAGAGACA GTTACCCCAG GGAGATTATG TAAAAAAGCC TGGAGATGGT 
GACTCTTTTT ATAGCGACAT TCCTCCCGGA GTCAGCACAA ACTCAGCATC TAGTTCTAAG 
AAGAGGTCTG CTTTTCTGTC GCATTTTCAG ATTTCTACCT GTTCCATCAC ACATTATTCC 
ATTAGTCAGA ACATTTCATT ATTTTGCAGC AGGTCAAATG GGCTCTCTCA TTCTTGGAGT 
GAAAGGATTC CAGACACAAA ACATATTTCA GACATCTGTG AAAATGGGCG ACCTCGAAGT 
AACTCTTGGC AAGGTAACCT GGGAGGCAAC AAAAAGAAAA TCAGAGGCAA AAGATTTAGA 
CCTCGGTCTA ATTCAACTGA GAGGGAGCCC CAAGCACCTG AGCCTGGGCA CTCCCTCGCC 
CAGACAGTCC CATCCCAAGG CATAAGCCCA GGGGGCTCTG ACAGCCCCCA GACAGGGAGT 
CTGGATCACA GGTATTTAAA CCCATGGTTC AAAAGAGACT ATAATGTAGC TAAGTGGGTA 
GAAGATGTGA ATAAAAACAC TGAAGGACCA TACTTTAGGA CTTTATCTCC TGCCAAGTCT 
CCTTCTTCAT CAACTGGGTC TATTGCCTCC AGCAGAAAAT ACCCTTACCC AATGCCTCCA 
CTTCCTGATG AGGACAAGAA AGTGAACCGA CAAAGTGCCA GGCTATGGGA GACATCCATT 
TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

PubMed

Secretion-Positive LGI1 Mutations Linked to Lateral Temporal Epilepsy Impair Binding to ADAM22 and ADAM23 Receptors.
PLoS genetics12(10)e1006376(2016 Oct)
Dazzo E,Leonardi E,Belluzzi E,Malacrida S,Vitiello L,Greggio E,Tosatto SC,Nobile C

Dysfunctional ADAM22 implicated in progressive encephalopathy with cortical atrophy and epilepsy.
Neurology. Genetics2(1)e46(2016 Feb)
Muona M,Fukata Y,Anttonen AK,Laari A,Palotie A,Pihko H,L?nnqvist T,Valanne L,Somer M,Fukata M,Lehesjoki AE

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ADAM22 cDNA ORF clone, Homo sapiens(human)

Gene

Clones

gRNAs

Related articles in PubMed

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