LOC101876513 cDNA ORF clone, Melopsittacus undulatus(budgerigar)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC101876513
Entrez Gene ID	101876513
Full Name	ADAM metallopeptidase domain 22
Synonyms	ADAM22
Gene Type	protein-coding
Organism	Melopsittacus undulatus(budgerigar)

mRNA and Protein(s)

mRNA	Protein	Name
XM_013129975.1	XP_012985429.1	disintegrin and metalloproteinase domain-containing protein 22
XM_031052482.1	XP_030908342.1	disintegrin and metalloproteinase domain-containing protein 22

Pathways from BioSystems
Gene Ontology

The following LOC101876513 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC101876513 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)	Select
OMe156175	XM_013129975.1 Latest version!	Melopsittacus undulatus ADAM metallopeptidase domain 22 (LOC101876513), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00
OMe353431	XM_031052482.1 Latest version!	Melopsittacus undulatus ADAM metallopeptidase domain 22 (LOC101876513), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00

ORF Online Only Promotion

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** 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)

LOC101876513 ( XM_013129975.1 ) cDNA ORF clone, Melopsittacus undulatus(budgerigar) -> XP_012985429.1 Melopsittacus undulatus ADAM metallopeptidase domain 22 (LOC101876513), mRNA.

Price & Availability↑

CloneID	OMe156175
Clone ID Related Accession (Same CDS sequence)	XM_013129975.1
Accession Version	XM_013129975.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2772bp) 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	2015-07-13
Organism	Melopsittacus undulatus(budgerigar)
Product	disintegrin and metalloproteinase domain-containing protein 22
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_004848279.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Melopsittacus undulatus Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 7% of CDS bases ##RefSeq-Attributes-END##

ATGCCAGCCC TCCAGCAGCA GCACCCGCAT TACTTAAAGG GGCCCCCGAG CCCGCTCCTT 
CCCTCCCCCG GCGGGTGCTT GGGGGCCGAG CCCGCAGCCT GCGGCTGCCG GAGGGCTAGG 
GGACCACGGG AGGAAAGTTG CGGTGCCTTT GCGGCAGCTG GAAGCGAAAC GCTGCGGCTT 
CATTTCTGTT TCTGTCTGAA GCTCTTTTCA ATATTACAGT CTACCCACAT TGCTCGAGCC 
AGCTTCCAAG TTGATGCTTT TGGATCATCT TTCATCCTAG ATGTGACGCT AAACCATGAC 
CTCCTGTCTT CTGAATATCT TGAGAGGCAT ATCGAGGAAG GTGGGAAGAC GGTGGAAGTG 
AAAGGAGGAG AACATTGCTA TTATCAGGGA GAAATTCGAG GAAATCCTGT ATCATTTGTT 
GCCTTGTCAA CATGCCATGG ATTACATGGG ATGTTCTATG ATGGAAATCA TACTTACCTT 
ATTGAGCCAG ATGAAAACTA CACTTCAGAT GATGACTTCC ATTTCCATTC TGTTTACAAA 
TCCAAGTTGT TTGAGTTTCC TTCAGATGAC CTGCCATCTG AGTTCTGGCA AATGAATGCG 
ACATCACAGA AATTTGTTGT AAAGCCAAGG TACAAAAGAA GTAAAAGGCA GGTTCGTCGG 
ATTCCACGCA AAGTTGAAGA GGAAACAAAA TACATTGAGT TGATGATTGT AAATGATCAT 
CTAATGTGTA AAAAGCACCG CTTATCAGTT GGCCATACGA ACAGCTATGC TAAATCAGTT 
GTGAACATGG CGGATTTAAT ATATAAGGAA CAACTTAACA CCAGGATAGT ATTGGTTGCC 
ATGGAAACCT GGGCTACTGA TAACAAGTTC ACCATATCTG AAAACCCCTT GGTGACCCTA 
CGTGAATTTA TGAAATATAG GAGGGATTTT ATCAGAGAGA AAAGTGATGC AGTTCACCTT 
TTTTCGGGGA GTCGATTTCA GAGCAGTCGA AGTGGCATAG CCCATACTGG TGGCATCTGC 
TCCTTACTTA AAGGTGGAGG TGTGAATGAG TTTGGAAAGC CAGACTTAAT GGCAGTTACC 
CTGGCTCAGA CCTTGGCCCA AAACATCGGC ATTTTCTCAG ACAGAAGAAA AATTCTAAGT 
GGTGAGTGTA AGTGTGAGGA CACGTGGTCT GGATGCATAA TGGGAGACAT GGGGTATTAT 
CTTCCAAGCA AGTTCTCCAA GTGTGATATT GAAGAGTATC ATGAATTTTT AAACAGTGGA 
GGTGGAGCCT GCCTTTTCAA TAAGCCAACC AAACTTCTGG ATCCTCCAGA ATGTGGCAAT 
GGCTTTGTGG AAGATGGAGA AGAGTGTGAC TGTGGGACAA TCGCAGAGTG TGCCAGCGAA 
GGAGGAGAGT GCTGCAATAC TTGCACCCTA ACGGCAGGCT CCCAGTGCAG CAACGGGCTT 
TGCTGTCGGA AGTGCCGGTT TGAACCTAAA GGAGTTTTGT GCCGAGAAGC AGTGAATGAC 
TGTGATATTG CAGAGAACTG CACAGGAAAT TCCAGTCAGT GTTCTCCCAA TATTCATAAA 
ATGGATGGAT ATTCATGTGA TAACGAGCAG GGTATTTGTT TTGGAGGAAG ATGTAAAACC 
AGGGACCGGC AGTGTAAATA TATCTGGGGT GAAAAAGTGA CAGCTGCTGA CAAGTACTGC 
TATGAGAAGC TGAATATTGA AGGGACTGAG AAAGGAAACT GTGGAAGAGA CAAGGACTCT 
TGGATACAGT GCAATAAACA GGATGTGCTT TGTGGATACC TTCTGTGCTC CAATATATCC 
AGTGTGCCCA GACTTGGAGA ACTTGATGGT GAAATCACAT CGTCAATCCT ACAGTTTGGA 
AAAGTCTACA ATTGCAGTGG TGGCCATGTG AAGCTTGATG AGGAGACGGA CCTGGGTTAT 
GTGGAGAACG GGACGCCTTG TGGGCCAAGC ATGGTGTGCC TTGAGCATCG CTGCCTCCCC 
ATCAAGGCCT TCAACTTCAG TACCTGTCCA GGCACCACAG ACAGCCAGAT TTGTTCAGGA 
CACGGTGTTT GTAGCAATGA AATAAAGTGT GTCTGTGACC GATTCTGGGG AGGAGAAGAT 
TGCAGTTCTC GCATCAAAGA TGACCTATAT TTTGATAAAG ATGCTATCAA TAAAGGTGTT 
GTTAGCACAA ATATAATAAT AGGGGCTATT GCTGGCACCA TTTTAGTGTT GGCTCTCGTT 
TTAGGAATAA CTGGTTGGGG TTACAAAAAC TACAGAAGGC AGAGACAAAT ACCCCAGGGA 
GATTATGTAA AAAAGCCTGG AGAGGCCGAC TCTTTTTATA GCGACATGCC TCCTGGAGTC 
AGCACAAACT CTGCATCTAG TTCTAAGAAG AGGTCTGCTT TTCTGTCGCA TTTTCAGATT 
TCTACCTGTT CCATCACCCA TTATTCCATT AGTCAGAACA TTTCATTGTT TTGCAGCAGG 
TCAAATGGAT TATCTCATTC TTGGAGTGAA AGGATCCCAG ACACAAAACA TATTTCAGAC 
ATTTGTGAAA ATGGGAGGCC TAGGAGTAAT TCTTGGCAAG GTAATATAGG AGGAAACAGA 
AAGAAAGTCA GAGGCAAAAG ATTTAGGCCA CGGTCTAATT CAACTGAGAC ACTGTCTCCT 
GCAAAGTCTC CATCTTCGTC CACTGGATCT ATCGCTTCCA GCAGAAAATA CCCTTACCCA 
ATGCCACCTC TTCCTGATGA GGAGAAAAAA GCCAACAGGC AAAGTGCCAG GCTATGGGAG 
ACGTCCATTT AG

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

RefSeq	XP_012985429.1
CDS	1..2772
Translation	MPALQQQHPHYLKGPPSPLLPSPGGCLGAEPAACGCRRARGPREESCGAFAAAGSETLRLHFCFCLKLFSILQSTHIARASFQVDAFGSSFILDVTLNHDLLSSEYLERHIEEGGKTVEVKGGEHCYYQGEIRGNPVSFVALSTCHGLHGMFYDGNHTYLIEPDENYTSDDDFHFHSVYKSKLFEFPSDDLPSEFWQMNATSQKFVVKPRYKRSKRQVRRIPRKVEEETKYIELMIVNDHLMCKKHRLSVGHTNSYAKSVVNMADLIYKEQLNTRIVLVAMETWATDNKFTISENPLVTLREFMKYRRDFIREKSDAVHLFSGSRFQSSRSGIAHTGGICSLLKGGGVNEFGKPDLMAVTLAQTLAQNIGIFSDRRKILSGECKCEDTWSGCIMGDMGYYLPSKFSKCDIEEYHEFLNSGGGACLFNKPTKLLDPPECGNGFVEDGEECDCGTIAECASEGGECCNTCTLTAGSQCSNGLCCRKCRFEPKGVLCREAVNDCDIAENCTGNSSQCSPNIHKMDGYSCDNEQGICFGGRCKTRDRQCKYIWGEKVTAADKYCYEKLNIEGTEKGNCGRDKDSWIQCNKQDVLCGYLLCSNISSVPRLGELDGEITSSILQFGKVYNCSGGHVKLDEETDLGYVENGTPCGPSMVCLEHRCLPIKAFNFSTCPGTTDSQICSGHGVCSNEIKCVCDRFWGGEDCSSRIKDDLYFDKDAINKGVVSTNIIIGAIAGTILVLALVLGITGWGYKNYRRQRQIPQGDYVKKPGEADSFYSDMPPGVSTNSASSSKKRSAFLSHFQISTCSITHYSISQNISLFCSRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNIGGNRKKVRGKRFRPRSNSTETLSPAKSPSSSTGSIASSRKYPYPMPPLPDEEKKANRQSARLWETSI

Target ORF information:

RefSeq Version	XM_013129975.1
Organism	Melopsittacus undulatus(budgerigar)
Definition	Melopsittacus undulatus ADAM metallopeptidase domain 22 (LOC101876513), mRNA.

Target ORF information:

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

XM_013129975.1

ORF Insert Sequence:

ATGCCAGCCC TCCAGCAGCA GCACCCGCAT TACTTAAAGG GGCCCCCGAG CCCGCTCCTT 
CCCTCCCCCG GCGGGTGCTT GGGGGCCGAG CCCGCAGCCT GCGGCTGCCG GAGGGCTAGG 
GGACCACGGG AGGAAAGTTG CGGTGCCTTT GCGGCAGCTG GAAGCGAAAC GCTGCGGCTT 
CATTTCTGTT TCTGTCTGAA GCTCTTTTCA ATATTACAGT CTACCCACAT TGCTCGAGCC 
AGCTTCCAAG TTGATGCTTT TGGATCATCT TTCATCCTAG ATGTGACGCT AAACCATGAC 
CTCCTGTCTT CTGAATATCT TGAGAGGCAT ATCGAGGAAG GTGGGAAGAC GGTGGAAGTG 
AAAGGAGGAG AACATTGCTA TTATCAGGGA GAAATTCGAG GAAATCCTGT ATCATTTGTT 
GCCTTGTCAA CATGCCATGG ATTACATGGG ATGTTCTATG ATGGAAATCA TACTTACCTT 
ATTGAGCCAG ATGAAAACTA CACTTCAGAT GATGACTTCC ATTTCCATTC TGTTTACAAA 
TCCAAGTTGT TTGAGTTTCC TTCAGATGAC CTGCCATCTG AGTTCTGGCA AATGAATGCG 
ACATCACAGA AATTTGTTGT AAAGCCAAGG TACAAAAGAA GTAAAAGGCA GGTTCGTCGG 
ATTCCACGCA AAGTTGAAGA GGAAACAAAA TACATTGAGT TGATGATTGT AAATGATCAT 
CTAATGTGTA AAAAGCACCG CTTATCAGTT GGCCATACGA ACAGCTATGC TAAATCAGTT 
GTGAACATGG CGGATTTAAT ATATAAGGAA CAACTTAACA CCAGGATAGT ATTGGTTGCC 
ATGGAAACCT GGGCTACTGA TAACAAGTTC ACCATATCTG AAAACCCCTT GGTGACCCTA 
CGTGAATTTA TGAAATATAG GAGGGATTTT ATCAGAGAGA AAAGTGATGC AGTTCACCTT 
TTTTCGGGGA GTCGATTTCA GAGCAGTCGA AGTGGCATAG CCCATACTGG TGGCATCTGC 
TCCTTACTTA AAGGTGGAGG TGTGAATGAG TTTGGAAAGC CAGACTTAAT GGCAGTTACC 
CTGGCTCAGA CCTTGGCCCA AAACATCGGC ATTTTCTCAG ACAGAAGAAA AATTCTAAGT 
GGTGAGTGTA AGTGTGAGGA CACGTGGTCT GGATGCATAA TGGGAGACAT GGGGTATTAT 
CTTCCAAGCA AGTTCTCCAA GTGTGATATT GAAGAGTATC ATGAATTTTT AAACAGTGGA 
GGTGGAGCCT GCCTTTTCAA TAAGCCAACC AAACTTCTGG ATCCTCCAGA ATGTGGCAAT 
GGCTTTGTGG AAGATGGAGA AGAGTGTGAC TGTGGGACAA TCGCAGAGTG TGCCAGCGAA 
GGAGGAGAGT GCTGCAATAC TTGCACCCTA ACGGCAGGCT CCCAGTGCAG CAACGGGCTT 
TGCTGTCGGA AGTGCCGGTT TGAACCTAAA GGAGTTTTGT GCCGAGAAGC AGTGAATGAC 
TGTGATATTG CAGAGAACTG CACAGGAAAT TCCAGTCAGT GTTCTCCCAA TATTCATAAA 
ATGGATGGAT ATTCATGTGA TAACGAGCAG GGTATTTGTT TTGGAGGAAG ATGTAAAACC 
AGGGACCGGC AGTGTAAATA TATCTGGGGT GAAAAAGTGA CAGCTGCTGA CAAGTACTGC 
TATGAGAAGC TGAATATTGA AGGGACTGAG AAAGGAAACT GTGGAAGAGA CAAGGACTCT 
TGGATACAGT GCAATAAACA GGATGTGCTT TGTGGATACC TTCTGTGCTC CAATATATCC 
AGTGTGCCCA GACTTGGAGA ACTTGATGGT GAAATCACAT CGTCAATCCT ACAGTTTGGA 
AAAGTCTACA ATTGCAGTGG TGGCCATGTG AAGCTTGATG AGGAGACGGA CCTGGGTTAT 
GTGGAGAACG GGACGCCTTG TGGGCCAAGC ATGGTGTGCC TTGAGCATCG CTGCCTCCCC 
ATCAAGGCCT TCAACTTCAG TACCTGTCCA GGCACCACAG ACAGCCAGAT TTGTTCAGGA 
CACGGTGTTT GTAGCAATGA AATAAAGTGT GTCTGTGACC GATTCTGGGG AGGAGAAGAT 
TGCAGTTCTC GCATCAAAGA TGACCTATAT TTTGATAAAG ATGCTATCAA TAAAGGTGTT 
GTTAGCACAA ATATAATAAT AGGGGCTATT GCTGGCACCA TTTTAGTGTT GGCTCTCGTT 
TTAGGAATAA CTGGTTGGGG TTACAAAAAC TACAGAAGGC AGAGACAAAT ACCCCAGGGA 
GATTATGTAA AAAAGCCTGG AGAGGCCGAC TCTTTTTATA GCGACATGCC TCCTGGAGTC 
AGCACAAACT CTGCATCTAG TTCTAAGAAG AGGTCTGCTT TTCTGTCGCA TTTTCAGATT 
TCTACCTGTT CCATCACCCA TTATTCCATT AGTCAGAACA TTTCATTGTT TTGCAGCAGG 
TCAAATGGAT TATCTCATTC TTGGAGTGAA AGGATCCCAG ACACAAAACA TATTTCAGAC 
ATTTGTGAAA ATGGGAGGCC TAGGAGTAAT TCTTGGCAAG GTAATATAGG AGGAAACAGA 
AAGAAAGTCA GAGGCAAAAG ATTTAGGCCA CGGTCTAATT CAACTGAGAC ACTGTCTCCT 
GCAAAGTCTC CATCTTCGTC CACTGGATCT ATCGCTTCCA GCAGAAAATA CCCTTACCCA 
ATGCCACCTC TTCCTGATGA GGAGAAAAAA GCCAACAGGC AAAGTGCCAG GCTATGGGAG 
ACGTCCATTT AG

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

LOC101876513 ( XM_031052482.1 ) cDNA ORF clone, Melopsittacus undulatus(budgerigar) -> XP_030908342.1 Melopsittacus undulatus ADAM metallopeptidase domain 22 (LOC101876513), mRNA.

Price & Availability↑

CloneID	OMe353431
Clone ID Related Accession (Same CDS sequence)	XM_031052482.1
Accession Version	XM_031052482.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2910bp) 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	2019-10-03
Organism	Melopsittacus undulatus(budgerigar)
Product	disintegrin and metalloproteinase domain-containing protein 22
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_004848279.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Melopsittacus undulatus Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 8% of CDS bases ##RefSeq-Attributes-END##

ATGCAGGCCG TGCTGGCAGG CAGCACCGCT GTCCGCCTCT TCCCGGTAGG TGGGGGTGTG 
GAACAGGGTT GCAGTTGCCG CTATCCCTCT GCCGAGGGGG AGCAGCCCCG GGTGCCAGGG 
AGCGGCGTCG CTGGGCTCCG TGACACTTCT GCCGCTTGCT GCGGCCTCTG CCTTAGTCCC 
GGAGAGCGGT GCTGTACCTT GAAATGGACC GTTCTGCCTT GCAATGCCTT TCGACTCCCC 
TCAAATTCTA CCCACATTGC TCGAGCCAGC TTCCAAGTTG ATGCTTTTGG ATCATCTTTC 
ATCCTAGATG TGACGCTAAA CCATGACCTC CTGTCTTCTG AATATCTTGA GAGGCATATC 
GAGGAAGGTG GGAAGACGGT GGAAGTGAAA GGAGGAGAAC ATTGCTATTA TCAGGGAGAA 
ATTCGAGGAA ATCCTGTATC ATTTGTTGCC TTGTCAACAT GCCATGGATT ACATGGGATG 
TTCTATGATG GAAATCATAC TTACCTTATT GAGCCAGATG AAAACTACAC TTCAGATGAT 
GACTTCCATT TCCATTCTGT TTACAAATCC AAGTTGTTTG AGTTTCCTTC AGATGACCTG 
CCATCTGAGT TCTGGCAAAT GAATGCGACA TCACAGAAAT TTGTTGTAAA GCCAAGGTAC 
AAAAGAAGTA AAAGGCAGGT TCGTCGGATT CCACGCAAAG TTGAAGAGGA AACAAAATAC 
ATTGAGTTGA TGATTGTAAA TGATCATCTA ATGTGTAAAA AGCACCGCTT ATCAGTTGGC 
CATACGAACA GCTATGCTAA ATCAGTTGTG AACATGGCGG ATTTAATATA TAAGGAACAA 
CTTAACACCA GGATAGTATT GGTTGCCATG GAAACCTGGG CTACTGATAA CAAGTTCACC 
ATATCTGAAA ACCCCTTGGT GACCCTACGT GAATTTATGA AATATAGGAG GGATTTTATC 
AGAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGGAGTC GATTTCAGAG CAGTCGAAGT 
GGCATAGCCC ATACTGGTGG CATCTGCTCC TTACTTAAAG GTGGAGGTGT GAATGAGTTT 
GGAAAGCCAG ACTTAATGGC AGTTACCCTG GCTCAGACCT TGGCCCAAAA CATCGGCATT 
TTCTCAGACA GAAGAAAAAT TCTAAGTGGT GAGTGTAAGT GTGAGGACAC GTGGTCTGGA 
TGCATAATGG GAGACATGGG GTATTATCTT CCAAGCAAGT TCTCCAAGTG TGATATTGAA 
GAGTATCATG AATTTTTAAA CAGTGGAGGT GGAGCCTGCC TTTTCAATAA GCCAACCAAA 
CTTCTGGATC CTCCAGAATG TGGCAATGGC TTTGTGGAAG ATGGAGAAGA GTGTGACTGT 
GGGACAATCG CAGAGTGTGC CAGCGAAGGA GGAGAGTGCT GCAATACTTG CACCCTAACG 
GCAGGCTCCC AGTGCAGCAA CGGGCTTTGC TGTCGGAAGT GCCGGTTTGA ACCTAAAGGA 
GTTTTGTGCC GAGAAGCAGT GAATGACTGT GATATTGCAG AGAACTGCAC AGGAAATTCC 
AGTCAGTGTT CTCCCAATAT TCATAAAATG GATGGATATT CATGTGATAA CGAGCAGGGT 
ATTTGTTTTG GAGGAAGATG TAAAACCAGG GACCGGCAGT GTAAATATAT CTGGGGTGAA 
AAAGTGACAG CTGCTGACAA GTACTGCTAT GAGAAGCTGA ATATTGAAGG GACTGAGAAA 
GGAAACTGTG GAAGAGACAA GGACTCTTGG ATACAGTGCA ATAAACAGGA TGTGCTTTGT 
GGATACCTTC TGTGCTCCAA TATATCCAGT GTGCCCAGAC TTGGAGAACT TGATGGTGAA 
ATCACATCGT CAATCCTACA GTTTGGAAAA GTCTACAATT GCAGTGGTGG CCATGTGAAG 
CTTGATGAGG AGACGGACCT GGGTTATGTG GAGAACGGGA CGCCTTGTGG GCCAAGCATG 
GTGTGCCTTG AGCATCGCTG CCTCCCCATC AAGGCCTTCA ACTTCAGTAC CTGTCCAGGC 
ACCACAGACA GCCAGATTTG TTCAGGACAC GGTGTTTGTA GCAATGAAAT AAAGTGTGTC 
TGTGACCGAT TCTGGGGAGG AGAAGATTGC AGTTCTCGCA TCAAAGATGA CCTATATTTT 
GATAAAGATG CTATCAATAA AGGTGTTGTT AGCACAAATA TAATAATAGG GGCTATTGCT 
GGCACCATTT TAGTGTTGGC TCTCGTTTTA GGAATAACTG GTTGGGGTTA CAAAAACTAC 
AGAAGGCAGA GACAAATACC CCAGGGAGAT TATGTAAAAA AGCCTGGAGA GGCCGACTCT 
TTTTATAGCG ACATGCCTCC TGGAGTCAGC ACAAACTCTG CATCTAGTTC TAAGAAGAGG 
TCAAATGGAT TATCTCATTC TTGGAGTGAA AGGATCCCAG ACACAAAACA TATTTCAGAC 
ATTTGTGAAA ATGGGAGGCC TAGGAGTAAT TCTTGGCAAG GTAATATAGG AGGAAACAGA 
AAGAAAGTCA GAGGCAAAAG ATTTAGGCCA CGGTCTAATT CAACTGACAG GGTAACCCAT 
GCATCTGAGC CTGGGCTTTC TCTCGCCCAC CAAAACCCGG CCCAAGGCAT AAGCCCAGGG 
GGTTCTGATC ACCCCCAAAC AGGGAGTCGG GATCACAGGT ATTTAAACCC ATGGTTCAAA 
AGAGAATATA ATGTAGCTAA GTGGGTAGAA GATGTGAATA AAAACACAGA AGGACCATAC 
TTTAGGACAC TGTCTCCTGC AAAGTCTCCA TCTTCGTCCA CTGGATCTAT CGCTTCCAGC 
AGAAAATACC CTTACCCAAT GCCACCTCTT CCTGATGAGG AGAAAAAAGC CAACAGGCAA 
AGTGCCAGGC TATGGGAGAC GTCCATTTAG

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

RefSeq	XP_030908342.1
CDS	1..2910
Translation	MQAVLAGSTAVRLFPVGGGVEQGCSCRYPSAEGEQPRVPGSGVAGLRDTSAACCGLCLSPGERCCTLKWTVLPCNAFRLPSNSTHIARASFQVDAFGSSFILDVTLNHDLLSSEYLERHIEEGGKTVEVKGGEHCYYQGEIRGNPVSFVALSTCHGLHGMFYDGNHTYLIEPDENYTSDDDFHFHSVYKSKLFEFPSDDLPSEFWQMNATSQKFVVKPRYKRSKRQVRRIPRKVEEETKYIELMIVNDHLMCKKHRLSVGHTNSYAKSVVNMADLIYKEQLNTRIVLVAMETWATDNKFTISENPLVTLREFMKYRRDFIREKSDAVHLFSGSRFQSSRSGIAHTGGICSLLKGGGVNEFGKPDLMAVTLAQTLAQNIGIFSDRRKILSGECKCEDTWSGCIMGDMGYYLPSKFSKCDIEEYHEFLNSGGGACLFNKPTKLLDPPECGNGFVEDGEECDCGTIAECASEGGECCNTCTLTAGSQCSNGLCCRKCRFEPKGVLCREAVNDCDIAENCTGNSSQCSPNIHKMDGYSCDNEQGICFGGRCKTRDRQCKYIWGEKVTAADKYCYEKLNIEGTEKGNCGRDKDSWIQCNKQDVLCGYLLCSNISSVPRLGELDGEITSSILQFGKVYNCSGGHVKLDEETDLGYVENGTPCGPSMVCLEHRCLPIKAFNFSTCPGTTDSQICSGHGVCSNEIKCVCDRFWGGEDCSSRIKDDLYFDKDAINKGVVSTNIIIGAIAGTILVLALVLGITGWGYKNYRRQRQIPQGDYVKKPGEADSFYSDMPPGVSTNSASSSKKRSNGLSHSWSERIPDTKHISDICENGRPRSNSWQGNIGGNRKKVRGKRFRPRSNSTDRVTHASEPGLSLAHQNPAQGISPGGSDHPQTGSRDHRYLNPWFKREYNVAKWVEDVNKNTEGPYFRTLSPAKSPSSSTGSIASSRKYPYPMPPLPDEEKKANRQSARLWETSI

Target ORF information:

RefSeq Version	XM_031052482.1
Organism	Melopsittacus undulatus(budgerigar)
Definition	Melopsittacus undulatus ADAM metallopeptidase domain 22 (LOC101876513), mRNA.

Target ORF information:

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

XM_031052482.1

ORF Insert Sequence:

ATGCAGGCCG TGCTGGCAGG CAGCACCGCT GTCCGCCTCT TCCCGGTAGG TGGGGGTGTG 
GAACAGGGTT GCAGTTGCCG CTATCCCTCT GCCGAGGGGG AGCAGCCCCG GGTGCCAGGG 
AGCGGCGTCG CTGGGCTCCG TGACACTTCT GCCGCTTGCT GCGGCCTCTG CCTTAGTCCC 
GGAGAGCGGT GCTGTACCTT GAAATGGACC GTTCTGCCTT GCAATGCCTT TCGACTCCCC 
TCAAATTCTA CCCACATTGC TCGAGCCAGC TTCCAAGTTG ATGCTTTTGG ATCATCTTTC 
ATCCTAGATG TGACGCTAAA CCATGACCTC CTGTCTTCTG AATATCTTGA GAGGCATATC 
GAGGAAGGTG GGAAGACGGT GGAAGTGAAA GGAGGAGAAC ATTGCTATTA TCAGGGAGAA 
ATTCGAGGAA ATCCTGTATC ATTTGTTGCC TTGTCAACAT GCCATGGATT ACATGGGATG 
TTCTATGATG GAAATCATAC TTACCTTATT GAGCCAGATG AAAACTACAC TTCAGATGAT 
GACTTCCATT TCCATTCTGT TTACAAATCC AAGTTGTTTG AGTTTCCTTC AGATGACCTG 
CCATCTGAGT TCTGGCAAAT GAATGCGACA TCACAGAAAT TTGTTGTAAA GCCAAGGTAC 
AAAAGAAGTA AAAGGCAGGT TCGTCGGATT CCACGCAAAG TTGAAGAGGA AACAAAATAC 
ATTGAGTTGA TGATTGTAAA TGATCATCTA ATGTGTAAAA AGCACCGCTT ATCAGTTGGC 
CATACGAACA GCTATGCTAA ATCAGTTGTG AACATGGCGG ATTTAATATA TAAGGAACAA 
CTTAACACCA GGATAGTATT GGTTGCCATG GAAACCTGGG CTACTGATAA CAAGTTCACC 
ATATCTGAAA ACCCCTTGGT GACCCTACGT GAATTTATGA AATATAGGAG GGATTTTATC 
AGAGAGAAAA GTGATGCAGT TCACCTTTTT TCGGGGAGTC GATTTCAGAG CAGTCGAAGT 
GGCATAGCCC ATACTGGTGG CATCTGCTCC TTACTTAAAG GTGGAGGTGT GAATGAGTTT 
GGAAAGCCAG ACTTAATGGC AGTTACCCTG GCTCAGACCT TGGCCCAAAA CATCGGCATT 
TTCTCAGACA GAAGAAAAAT TCTAAGTGGT GAGTGTAAGT GTGAGGACAC GTGGTCTGGA 
TGCATAATGG GAGACATGGG GTATTATCTT CCAAGCAAGT TCTCCAAGTG TGATATTGAA 
GAGTATCATG AATTTTTAAA CAGTGGAGGT GGAGCCTGCC TTTTCAATAA GCCAACCAAA 
CTTCTGGATC CTCCAGAATG TGGCAATGGC TTTGTGGAAG ATGGAGAAGA GTGTGACTGT 
GGGACAATCG CAGAGTGTGC CAGCGAAGGA GGAGAGTGCT GCAATACTTG CACCCTAACG 
GCAGGCTCCC AGTGCAGCAA CGGGCTTTGC TGTCGGAAGT GCCGGTTTGA ACCTAAAGGA 
GTTTTGTGCC GAGAAGCAGT GAATGACTGT GATATTGCAG AGAACTGCAC AGGAAATTCC 
AGTCAGTGTT CTCCCAATAT TCATAAAATG GATGGATATT CATGTGATAA CGAGCAGGGT 
ATTTGTTTTG GAGGAAGATG TAAAACCAGG GACCGGCAGT GTAAATATAT CTGGGGTGAA 
AAAGTGACAG CTGCTGACAA GTACTGCTAT GAGAAGCTGA ATATTGAAGG GACTGAGAAA 
GGAAACTGTG GAAGAGACAA GGACTCTTGG ATACAGTGCA ATAAACAGGA TGTGCTTTGT 
GGATACCTTC TGTGCTCCAA TATATCCAGT GTGCCCAGAC TTGGAGAACT TGATGGTGAA 
ATCACATCGT CAATCCTACA GTTTGGAAAA GTCTACAATT GCAGTGGTGG CCATGTGAAG 
CTTGATGAGG AGACGGACCT GGGTTATGTG GAGAACGGGA CGCCTTGTGG GCCAAGCATG 
GTGTGCCTTG AGCATCGCTG CCTCCCCATC AAGGCCTTCA ACTTCAGTAC CTGTCCAGGC 
ACCACAGACA GCCAGATTTG TTCAGGACAC GGTGTTTGTA GCAATGAAAT AAAGTGTGTC 
TGTGACCGAT TCTGGGGAGG AGAAGATTGC AGTTCTCGCA TCAAAGATGA CCTATATTTT 
GATAAAGATG CTATCAATAA AGGTGTTGTT AGCACAAATA TAATAATAGG GGCTATTGCT 
GGCACCATTT TAGTGTTGGC TCTCGTTTTA GGAATAACTG GTTGGGGTTA CAAAAACTAC 
AGAAGGCAGA GACAAATACC CCAGGGAGAT TATGTAAAAA AGCCTGGAGA GGCCGACTCT 
TTTTATAGCG ACATGCCTCC TGGAGTCAGC ACAAACTCTG CATCTAGTTC TAAGAAGAGG 
TCAAATGGAT TATCTCATTC TTGGAGTGAA AGGATCCCAG ACACAAAACA TATTTCAGAC 
ATTTGTGAAA ATGGGAGGCC TAGGAGTAAT TCTTGGCAAG GTAATATAGG AGGAAACAGA 
AAGAAAGTCA GAGGCAAAAG ATTTAGGCCA CGGTCTAATT CAACTGACAG GGTAACCCAT 
GCATCTGAGC CTGGGCTTTC TCTCGCCCAC CAAAACCCGG CCCAAGGCAT AAGCCCAGGG 
GGTTCTGATC ACCCCCAAAC AGGGAGTCGG GATCACAGGT ATTTAAACCC ATGGTTCAAA 
AGAGAATATA ATGTAGCTAA GTGGGTAGAA GATGTGAATA AAAACACAGA AGGACCATAC 
TTTAGGACAC TGTCTCCTGC AAAGTCTCCA TCTTCGTCCA CTGGATCTAT CGCTTCCAGC 
AGAAAATACC CTTACCCAAT GCCACCTCTT CCTGATGAGG AGAAAAAAGC CAACAGGCAA 
AGTGCCAGGC TATGGGAGAC GTCCATTTAG