ADAMTS14 cDNA ORF clone, Eptesicus fuscus(big brown bat)

Gene
Clones
gRNAs

Summary

Gene Symbol	ADAMTS14
Entrez Gene ID	103289493
Full Name	ADAM metallopeptidase with thrombospondin type 1 motif 14
Gene Type	protein-coding
Organism	Eptesicus fuscus(big brown bat)

mRNA and Protein(s)

mRNA	Protein	Name
XM_008145417.2	XP_008143639.1	A disintegrin and metalloproteinase with thrombospondin motifs 14 isoform X1
XM_008145418.2	XP_008143640.1	A disintegrin and metalloproteinase with thrombospondin motifs 14 isoform X2
XM_008145417.1	XP_008143639.1	A disintegrin and metalloproteinase with thrombospondin motifs 14 isoform X1
XM_008145418.1	XP_008143640.1	A disintegrin and metalloproteinase with thrombospondin motifs 14 isoform X2

Pathways from BioSystems
Gene Ontology

The following ADAMTS14 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ADAMTS14 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)
OEp09231	XM_008145417.2 Latest version!	Eptesicus fuscus ADAM metallopeptidase with thrombospondin type 1 motif 14 (ADAMTS14), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OEp09232	XM_008145418.2 Latest version!	Eptesicus fuscus ADAM metallopeptidase with thrombospondin type 1 motif 14 (ADAMTS14), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
View Old Accession Versions >>
OEp09231	XM_008145417.1	Eptesicus fuscus ADAM metallopeptidase with thrombospondin type 1 motif, 14 (ADAMTS14), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OEp09232	XM_008145418.1	Eptesicus fuscus ADAM metallopeptidase with thrombospondin type 1 motif, 14 (ADAMTS14), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
Hide Old Accession Versions >>

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)

ADAMTS14 ( XM_008145417.2 ) cDNA ORF clone, Eptesicus fuscus(big brown bat) -> XP_008143639.1 Eptesicus fuscus ADAM metallopeptidase with thrombospondin type 1 motif 14 (ADAMTS14), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OEp09231
Clone ID Related Accession (Same CDS sequence)	XM_008145417.2 , XM_008145417.1
Accession Version	XM_008145417.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3657bp) 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	2019-02-11
Organism	Eptesicus fuscus(big brown bat)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 14 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_007370681.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Feb 12, 2019 this sequence version replaced XM_008145417.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Eptesicus fuscus Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTCCGC TCCGCGCGCT GCTATCCTGC CTGCTGCCCC TGCACTGTGC GCTCTGCGCC 
GCCGCGGGCA GCCGGACCCC AGAGCGGCCC CTCCCCGGAA GGCTCGGTGA CTATGGTGTG 
ACTGTGCCCC GCAGCACGGA TTTCCGGGGA CGCTTCCTCT CCCATGTGGT GTCCGGCCCA 
GCAGCAGCCT CTACAGGGAG TGCGTCAGAG GACAGGCCAC CTGCACCGCC CTCACACGCC 
GGTCACCCGC GGGTGGCCCG CAGCCCCCTG CGCCCCAGAG GAGCCACTCC ACAGCCTGAC 
CGGCTCTACT TCAATGTCAC TGTTTTTGGG GAGGAATTGC ACTTGCGCCT GCGGCCCAAC 
CGGCGGCTGG TGGTGCCCGG AGCCTCCGCA GAGTGGCAGG AGGACTTTCG GGAGCTCTTC 
CGACAGCCCT TGCAGCAAGA GTGTGTCTAC ACCGGGAGTG TCACAGGCAT GCCAGGGGCA 
GCTGTCGCCA TCAGCAACTG TGATGGACTG GCGGGCCTCA TCCGCACAGA CGTCACCGAC 
TACTTCATTG AGCCCCTGGA GCGGGGGCAG CAAGAGAAGG AGGCCGGCGG GAGGACACAC 
GTGGTGTACC GCCGGGAAGC TGTCCAGCAG GAGTGGGCAG AGCCTGGAGG GGACCTTCAC 
AACGAAGCCT TTGGCCTGGG CGACCTTCCC AACCTGCTGG GCCTGGTGGG AGGCCAGCTG 
GGAGAAGCGG AGCGGAAGCG GCGGCACGCC AAGCCGGGCA GCTACAGCAT CGAGGTGCTG 
CTGGCCGTGG ACGACTCCGT GGTGCGCTTC CACGGCAAGG AGCACGTGCA GAACTACGTC 
CTCACCCTCA TGAACATCGT GAATGAAATT TACCACGACG AGTCCCTGGG GACGCACATT 
AACATTGCGC TTGTCCGCTT GATCATGGTT GGCTACCGAC AATCCCTGAG CCTGATTGAG 
CGTGGGAACC CCTCCCGCAG CCTGGAGCAG GTGTGTCGCT GGGCCCACTC TCAGCAGCGC 
CAGGACCCCG GCCACGCAGA GCACCACGAC CACGTCATCT TCCTCACCCG GCAGGACTTT 
GGGCCCTCAG GTATGCAAGG GTATGCACCT GTCACGGGCA TGTGCCACCC CCTGAGAAGC 
TGTGCCCTTA ACCACGAGGA CGGCTTCTCT TCTGCCTTCG TGGTAGCCCA CGAGACTGGT 
CATGTGCTCG GCATGGAGCA TGACGGCCAG GGCAACGGCT GCGCGGATGA GACCAGCCTG 
GGCAGCGTCA TGGCACCCCT GGTGCAGGCT GCCTTCCACC GCTTCCACTG GTCCCGCTGC 
AGCAAGCTGG AGCTCAGCCG CTACCTTCCC TCCTACGACT GCCTCCTGGA TGACCCCTTT 
GCACCCGCCT GGCCCCAGCC CCCGGAGCTG CCTGGCACTG ACTATTCCAT GGACGAGCAG 
TGCCGCTTTG ACTTCGGTAC CGGGTACCAC ACCTGCTCCG CGTTCACGAC CTTTGAGCCC 
TGTAAGCAGC TGTGGTGCAG CCACCCCGAC AACCCGTACT TCTGCAAGAC CAAGAAGGGG 
CCCCCGCTGG ACGGGACCGA GTGTGCGCCA GGCAAGTGGT GCTTCAAAGG TCACTGCATC 
TGGAAGTCAC CAGAGCAGAC TTACGGCCAG GATGGCGGCT GGAGCTCCTG GACCAACTTC 
GGGTCATGTT CGAGGTCATG CGGGGGCGGA GTGCGATCCC GTAGCCGGAG CTGTGACAAT 
CCCTTCCCAG CCTACGGAGG CCGCCTGTGC TCAGGGCCCA TGTTCCAGTA CCAGGTCTGC 
AACAGCGAGG AGTGCCCGGG GCCCTACGAG GACTTCCGGG CCCAGCAGTG TGCCAAGCGC 
AACTCCTACT ACCTCCACCA GAACGCCAAG CACAGCTGGG TCCCCCACGA GCCTGATGAT 
GACACCCAGA AGTGCGAGCT GATCTGCCGG TCAGAGGACA CGGGGGATGT GGTCTTCATG 
AACCAAGTGG TCCACGATGG GACGCGCTGC AGCTACCGGG ACCCCTACAG TGTCTGTGCC 
CGCGGAGAGT GTGTGCCCGT CGGCTGTGAC AAAGAAGTGG GGTCCATGAA GGCAGACGAC 
AAGTGTGGGG TCTGTGGCGG CGACAACTCC CACTGCCGGA CTGTGAAGGG GACGCTGGGC 
AAGGCCTCCA AGCAGGCAGG AGCTCTCAAG CTGGTACAGA TCCCAGCAGG TGCCAGGCAC 
ATCCAGATTG AGGAGCTGGA GAAGGCCCCC CACCGCATTG CGGTGAAGAA CCAGGTCACA 
GGCAGCTTCA TCCTCAACCC CAAGGGCAAG GAAGCCGCTA GCAGGACCTT CACTGCAATG 
GGCCTGGAGT GGGAGTACGC AGTGGAGGAC GCCAAGGAAA CCCTCAAGAC GAGCGGGCCC 
CTGCCCGAAG CCATCGCTGT CCTGGTGCTC CCCCCAGCTG AGGGTGGCCC CCGCGGCAGC 
CTGGCCTACA AGTATGTCAT CCACGAGGAC CTGCTGCCCC TCATCGGCAG CAACAACGTT 
CTGCTGGAGG AGACGGACAC CTACGAGTGG GCGCTCAAGA GCTGGGCCCC CTGCACCAAG 
CCCTGCGGAG GAGGTATCCA GTTCACCAAA TACGGCTGTC GGCGCCGACG AGACCATCAC 
ATGGTACAGC GGCACCTGTG CGACCACAAG AAGAGGCCCA AACCCATCCG CAGGCGCTGC 
AACCAGCACC AGTGCCCCCA GCCTGAGTGG GTGATGGAGG AGTGGAGCAC CTGCAGCCGG 
AGCTGTGGGA AGCTGGGGGT GCAGACTCGG GCAGTGCAGT GCCTGCTGCT CCTCTCCAAC 
GGTACCCACA AGGCCATGCC AGCCAAAGCC TGCCCTGGGG ACCGGCCGGA GGCCAGGCGG 
CCCTGCCTCC GAGTGCCTTG CCCAGCCCAG TGGCGGACCG GAGCCTGGTC CCAGTGCTCT 
GCCACCTGCG GAGAGGGCAT TCAGCAGCGG CAGGTGGTGT GCCGTACCAA TGCCAACAGT 
CTCGGACAGT GCGAGGGGGA CAAGCCGGAC ACCATCCAGG CCTGCAGCCT GCCTGCCTGC 
AGAGGAAATC TCCAGAACTC TACCGTGAGG GCTGACGTCC AGGCACTCGT GACCCCACAA 
TCTGGGCCCC TACATCCTAT TAACAAGATA ACATCAACAG AGCCCTGCAT GGGGGACAGG 
TCGATCCTCT GTCAGATGGA GGTGCACGAG CGCTACTGCT CCATCCCCGG CTACCACCGG 
CTGTGCTGCG AGTCCTGCTC CAAGAAGGCC TCAGGCCCTG ATGCCAGCCT GGACCCCCGC 
CTGACCTCAC CACCACCCTC CTCCACTCCT GGGAGCCCCT CGCCAGGAGC CAAGGCCCCT 
CCAGATGCTG TGGAGCCCAC TGTGGCCTCA GTGGGCTCAG ACAACCATCC ACATGGCCGA 
CCCATACAGC TCCCAGGACC TCTGGGTACA AGCCCCCCAG TGACCCAGCG CCTCGGCTCT 
GCTCCCCAGA AACTGAGTCC TGGAGCATTG CAGAGTACTT CCCCTGGCGC CACCCGGGGG 
CGGCCTTGGG GCTGGACCAC TGGCCCACCT CTGCCAGCCT CTGAGGATAA AGGGCAACTC 
AGGGGAGACC CGAAGCACCC GGGCGCCAGC CTTCCAGCCA CCTCCCCGGT GACATGA

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

RefSeq	XP_008143639.1
CDS	24..3680
Translation	MAPLRALLSCLLPLHCALCAAAGSRTPERPLPGRLGDYGVTVPRSTDFRGRFLSHVVSGPAAASTGSASEDRPPAPPSHAGHPRVARSPLRPRGATPQPDRLYFNVTVFGEELHLRLRPNRRLVVPGASAEWQEDFRELFRQPLQQECVYTGSVTGMPGAAVAISNCDGLAGLIRTDVTDYFIEPLERGQQEKEAGGRTHVVYRREAVQQEWAEPGGDLHNEAFGLGDLPNLLGLVGGQLGEAERKRRHAKPGSYSIEVLLAVDDSVVRFHGKEHVQNYVLTLMNIVNEIYHDESLGTHINIALVRLIMVGYRQSLSLIERGNPSRSLEQVCRWAHSQQRQDPGHAEHHDHVIFLTRQDFGPSGMQGYAPVTGMCHPLRSCALNHEDGFSSAFVVAHETGHVLGMEHDGQGNGCADETSLGSVMAPLVQAAFHRFHWSRCSKLELSRYLPSYDCLLDDPFAPAWPQPPELPGTDYSMDEQCRFDFGTGYHTCSAFTTFEPCKQLWCSHPDNPYFCKTKKGPPLDGTECAPGKWCFKGHCIWKSPEQTYGQDGGWSSWTNFGSCSRSCGGGVRSRSRSCDNPFPAYGGRLCSGPMFQYQVCNSEECPGPYEDFRAQQCAKRNSYYLHQNAKHSWVPHEPDDDTQKCELICRSEDTGDVVFMNQVVHDGTRCSYRDPYSVCARGECVPVGCDKEVGSMKADDKCGVCGGDNSHCRTVKGTLGKASKQAGALKLVQIPAGARHIQIEELEKAPHRIAVKNQVTGSFILNPKGKEAASRTFTAMGLEWEYAVEDAKETLKTSGPLPEAIAVLVLPPAEGGPRGSLAYKYVIHEDLLPLIGSNNVLLEETDTYEWALKSWAPCTKPCGGGIQFTKYGCRRRRDHHMVQRHLCDHKKRPKPIRRRCNQHQCPQPEWVMEEWSTCSRSCGKLGVQTRAVQCLLLLSNGTHKAMPAKACPGDRPEARRPCLRVPCPAQWRTGAWSQCSATCGEGIQQRQVVCRTNANSLGQCEGDKPDTIQACSLPACRGNLQNSTVRADVQALVTPQSGPLHPINKITSTEPCMGDRSILCQMEVHERYCSIPGYHRLCCESCSKKASGPDASLDPRLTSPPPSSTPGSPSPGAKAPPDAVEPTVASVGSDNHPHGRPIQLPGPLGTSPPVTQRLGSAPQKLSPGALQSTSPGATRGRPWGWTTGPPLPASEDKGQLRGDPKHPGASLPATSPVT

Target ORF information:

RefSeq Version	XM_008145417.2
Organism	Eptesicus fuscus(big brown bat)
Definition	Eptesicus fuscus ADAM metallopeptidase with thrombospondin type 1 motif 14 (ADAMTS14), transcript variant X1, mRNA.

Target ORF information:

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

XM_008145417.2

ORF Insert Sequence:

ATGGCTCCGC TCCGCGCGCT GCTATCCTGC CTGCTGCCCC TGCACTGTGC GCTCTGCGCC 
GCCGCGGGCA GCCGGACCCC AGAGCGGCCC CTCCCCGGAA GGCTCGGTGA CTATGGTGTG 
ACTGTGCCCC GCAGCACGGA TTTCCGGGGA CGCTTCCTCT CCCATGTGGT GTCCGGCCCA 
GCAGCAGCCT CTACAGGGAG TGCGTCAGAG GACAGGCCAC CTGCACCGCC CTCACACGCC 
GGTCACCCGC GGGTGGCCCG CAGCCCCCTG CGCCCCAGAG GAGCCACTCC ACAGCCTGAC 
CGGCTCTACT TCAATGTCAC TGTTTTTGGG GAGGAATTGC ACTTGCGCCT GCGGCCCAAC 
CGGCGGCTGG TGGTGCCCGG AGCCTCCGCA GAGTGGCAGG AGGACTTTCG GGAGCTCTTC 
CGACAGCCCT TGCAGCAAGA GTGTGTCTAC ACCGGGAGTG TCACAGGCAT GCCAGGGGCA 
GCTGTCGCCA TCAGCAACTG TGATGGACTG GCGGGCCTCA TCCGCACAGA CGTCACCGAC 
TACTTCATTG AGCCCCTGGA GCGGGGGCAG CAAGAGAAGG AGGCCGGCGG GAGGACACAC 
GTGGTGTACC GCCGGGAAGC TGTCCAGCAG GAGTGGGCAG AGCCTGGAGG GGACCTTCAC 
AACGAAGCCT TTGGCCTGGG CGACCTTCCC AACCTGCTGG GCCTGGTGGG AGGCCAGCTG 
GGAGAAGCGG AGCGGAAGCG GCGGCACGCC AAGCCGGGCA GCTACAGCAT CGAGGTGCTG 
CTGGCCGTGG ACGACTCCGT GGTGCGCTTC CACGGCAAGG AGCACGTGCA GAACTACGTC 
CTCACCCTCA TGAACATCGT GAATGAAATT TACCACGACG AGTCCCTGGG GACGCACATT 
AACATTGCGC TTGTCCGCTT GATCATGGTT GGCTACCGAC AATCCCTGAG CCTGATTGAG 
CGTGGGAACC CCTCCCGCAG CCTGGAGCAG GTGTGTCGCT GGGCCCACTC TCAGCAGCGC 
CAGGACCCCG GCCACGCAGA GCACCACGAC CACGTCATCT TCCTCACCCG GCAGGACTTT 
GGGCCCTCAG GTATGCAAGG GTATGCACCT GTCACGGGCA TGTGCCACCC CCTGAGAAGC 
TGTGCCCTTA ACCACGAGGA CGGCTTCTCT TCTGCCTTCG TGGTAGCCCA CGAGACTGGT 
CATGTGCTCG GCATGGAGCA TGACGGCCAG GGCAACGGCT GCGCGGATGA GACCAGCCTG 
GGCAGCGTCA TGGCACCCCT GGTGCAGGCT GCCTTCCACC GCTTCCACTG GTCCCGCTGC 
AGCAAGCTGG AGCTCAGCCG CTACCTTCCC TCCTACGACT GCCTCCTGGA TGACCCCTTT 
GCACCCGCCT GGCCCCAGCC CCCGGAGCTG CCTGGCACTG ACTATTCCAT GGACGAGCAG 
TGCCGCTTTG ACTTCGGTAC CGGGTACCAC ACCTGCTCCG CGTTCACGAC CTTTGAGCCC 
TGTAAGCAGC TGTGGTGCAG CCACCCCGAC AACCCGTACT TCTGCAAGAC CAAGAAGGGG 
CCCCCGCTGG ACGGGACCGA GTGTGCGCCA GGCAAGTGGT GCTTCAAAGG TCACTGCATC 
TGGAAGTCAC CAGAGCAGAC TTACGGCCAG GATGGCGGCT GGAGCTCCTG GACCAACTTC 
GGGTCATGTT CGAGGTCATG CGGGGGCGGA GTGCGATCCC GTAGCCGGAG CTGTGACAAT 
CCCTTCCCAG CCTACGGAGG CCGCCTGTGC TCAGGGCCCA TGTTCCAGTA CCAGGTCTGC 
AACAGCGAGG AGTGCCCGGG GCCCTACGAG GACTTCCGGG CCCAGCAGTG TGCCAAGCGC 
AACTCCTACT ACCTCCACCA GAACGCCAAG CACAGCTGGG TCCCCCACGA GCCTGATGAT 
GACACCCAGA AGTGCGAGCT GATCTGCCGG TCAGAGGACA CGGGGGATGT GGTCTTCATG 
AACCAAGTGG TCCACGATGG GACGCGCTGC AGCTACCGGG ACCCCTACAG TGTCTGTGCC 
CGCGGAGAGT GTGTGCCCGT CGGCTGTGAC AAAGAAGTGG GGTCCATGAA GGCAGACGAC 
AAGTGTGGGG TCTGTGGCGG CGACAACTCC CACTGCCGGA CTGTGAAGGG GACGCTGGGC 
AAGGCCTCCA AGCAGGCAGG AGCTCTCAAG CTGGTACAGA TCCCAGCAGG TGCCAGGCAC 
ATCCAGATTG AGGAGCTGGA GAAGGCCCCC CACCGCATTG CGGTGAAGAA CCAGGTCACA 
GGCAGCTTCA TCCTCAACCC CAAGGGCAAG GAAGCCGCTA GCAGGACCTT CACTGCAATG 
GGCCTGGAGT GGGAGTACGC AGTGGAGGAC GCCAAGGAAA CCCTCAAGAC GAGCGGGCCC 
CTGCCCGAAG CCATCGCTGT CCTGGTGCTC CCCCCAGCTG AGGGTGGCCC CCGCGGCAGC 
CTGGCCTACA AGTATGTCAT CCACGAGGAC CTGCTGCCCC TCATCGGCAG CAACAACGTT 
CTGCTGGAGG AGACGGACAC CTACGAGTGG GCGCTCAAGA GCTGGGCCCC CTGCACCAAG 
CCCTGCGGAG GAGGTATCCA GTTCACCAAA TACGGCTGTC GGCGCCGACG AGACCATCAC 
ATGGTACAGC GGCACCTGTG CGACCACAAG AAGAGGCCCA AACCCATCCG CAGGCGCTGC 
AACCAGCACC AGTGCCCCCA GCCTGAGTGG GTGATGGAGG AGTGGAGCAC CTGCAGCCGG 
AGCTGTGGGA AGCTGGGGGT GCAGACTCGG GCAGTGCAGT GCCTGCTGCT CCTCTCCAAC 
GGTACCCACA AGGCCATGCC AGCCAAAGCC TGCCCTGGGG ACCGGCCGGA GGCCAGGCGG 
CCCTGCCTCC GAGTGCCTTG CCCAGCCCAG TGGCGGACCG GAGCCTGGTC CCAGTGCTCT 
GCCACCTGCG GAGAGGGCAT TCAGCAGCGG CAGGTGGTGT GCCGTACCAA TGCCAACAGT 
CTCGGACAGT GCGAGGGGGA CAAGCCGGAC ACCATCCAGG CCTGCAGCCT GCCTGCCTGC 
AGAGGAAATC TCCAGAACTC TACCGTGAGG GCTGACGTCC AGGCACTCGT GACCCCACAA 
TCTGGGCCCC TACATCCTAT TAACAAGATA ACATCAACAG AGCCCTGCAT GGGGGACAGG 
TCGATCCTCT GTCAGATGGA GGTGCACGAG CGCTACTGCT CCATCCCCGG CTACCACCGG 
CTGTGCTGCG AGTCCTGCTC CAAGAAGGCC TCAGGCCCTG ATGCCAGCCT GGACCCCCGC 
CTGACCTCAC CACCACCCTC CTCCACTCCT GGGAGCCCCT CGCCAGGAGC CAAGGCCCCT 
CCAGATGCTG TGGAGCCCAC TGTGGCCTCA GTGGGCTCAG ACAACCATCC ACATGGCCGA 
CCCATACAGC TCCCAGGACC TCTGGGTACA AGCCCCCCAG TGACCCAGCG CCTCGGCTCT 
GCTCCCCAGA AACTGAGTCC TGGAGCATTG CAGAGTACTT CCCCTGGCGC CACCCGGGGG 
CGGCCTTGGG GCTGGACCAC TGGCCCACCT CTGCCAGCCT CTGAGGATAA AGGGCAACTC 
AGGGGAGACC CGAAGCACCC GGGCGCCAGC CTTCCAGCCA CCTCCCCGGT GACATGA

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

ADAMTS14 ( XM_008145417.1 ) cDNA ORF clone, Eptesicus fuscus(big brown bat) -> XP_008143639.1 Eptesicus fuscus ADAM metallopeptidase with thrombospondin type 1 motif, 14 (ADAMTS14), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OEp09231
Clone ID Related Accession (Same CDS sequence)	XM_008145417.2 , XM_008145417.1
Accession Version	XM_008145417.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3657bp) 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	2014-05-28
Organism	Eptesicus fuscus(big brown bat)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 14 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_007370681.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Eptesicus fuscus Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTCCGC TCCGCGCGCT GCTATCCTGC CTGCTGCCCC TGCACTGTGC GCTCTGCGCC 
GCCGCGGGCA GCCGGACCCC AGAGCGGCCC CTCCCCGGAA GGCTCGGTGA CTATGGTGTG 
ACTGTGCCCC GCAGCACGGA TTTCCGGGGA CGCTTCCTCT CCCATGTGGT GTCCGGCCCA 
GCAGCAGCCT CTACAGGGAG TGCGTCAGAG GACAGGCCAC CTGCACCGCC CTCACACGCC 
GGTCACCCGC GGGTGGCCCG CAGCCCCCTG CGCCCCAGAG GAGCCACTCC ACAGCCTGAC 
CGGCTCTACT TCAATGTCAC TGTTTTTGGG GAGGAATTGC ACTTGCGCCT GCGGCCCAAC 
CGGCGGCTGG TGGTGCCCGG AGCCTCCGCA GAGTGGCAGG AGGACTTTCG GGAGCTCTTC 
CGACAGCCCT TGCAGCAAGA GTGTGTCTAC ACCGGGAGTG TCACAGGCAT GCCAGGGGCA 
GCTGTCGCCA TCAGCAACTG TGATGGACTG GCGGGCCTCA TCCGCACAGA CGTCACCGAC 
TACTTCATTG AGCCCCTGGA GCGGGGGCAG CAAGAGAAGG AGGCCGGCGG GAGGACACAC 
GTGGTGTACC GCCGGGAAGC TGTCCAGCAG GAGTGGGCAG AGCCTGGAGG GGACCTTCAC 
AACGAAGCCT TTGGCCTGGG CGACCTTCCC AACCTGCTGG GCCTGGTGGG AGGCCAGCTG 
GGAGAAGCGG AGCGGAAGCG GCGGCACGCC AAGCCGGGCA GCTACAGCAT CGAGGTGCTG 
CTGGCCGTGG ACGACTCCGT GGTGCGCTTC CACGGCAAGG AGCACGTGCA GAACTACGTC 
CTCACCCTCA TGAACATCGT GAATGAAATT TACCACGACG AGTCCCTGGG GACGCACATT 
AACATTGCGC TTGTCCGCTT GATCATGGTT GGCTACCGAC AATCCCTGAG CCTGATTGAG 
CGTGGGAACC CCTCCCGCAG CCTGGAGCAG GTGTGTCGCT GGGCCCACTC TCAGCAGCGC 
CAGGACCCCG GCCACGCAGA GCACCACGAC CACGTCATCT TCCTCACCCG GCAGGACTTT 
GGGCCCTCAG GTATGCAAGG GTATGCACCT GTCACGGGCA TGTGCCACCC CCTGAGAAGC 
TGTGCCCTTA ACCACGAGGA CGGCTTCTCT TCTGCCTTCG TGGTAGCCCA CGAGACTGGT 
CATGTGCTCG GCATGGAGCA TGACGGCCAG GGCAACGGCT GCGCGGATGA GACCAGCCTG 
GGCAGCGTCA TGGCACCCCT GGTGCAGGCT GCCTTCCACC GCTTCCACTG GTCCCGCTGC 
AGCAAGCTGG AGCTCAGCCG CTACCTTCCC TCCTACGACT GCCTCCTGGA TGACCCCTTT 
GCACCCGCCT GGCCCCAGCC CCCGGAGCTG CCTGGCACTG ACTATTCCAT GGACGAGCAG 
TGCCGCTTTG ACTTCGGTAC CGGGTACCAC ACCTGCTCCG CGTTCACGAC CTTTGAGCCC 
TGTAAGCAGC TGTGGTGCAG CCACCCCGAC AACCCGTACT TCTGCAAGAC CAAGAAGGGG 
CCCCCGCTGG ACGGGACCGA GTGTGCGCCA GGCAAGTGGT GCTTCAAAGG TCACTGCATC 
TGGAAGTCAC CAGAGCAGAC TTACGGCCAG GATGGCGGCT GGAGCTCCTG GACCAACTTC 
GGGTCATGTT CGAGGTCATG CGGGGGCGGA GTGCGATCCC GTAGCCGGAG CTGTGACAAT 
CCCTTCCCAG CCTACGGAGG CCGCCTGTGC TCAGGGCCCA TGTTCCAGTA CCAGGTCTGC 
AACAGCGAGG AGTGCCCGGG GCCCTACGAG GACTTCCGGG CCCAGCAGTG TGCCAAGCGC 
AACTCCTACT ACCTCCACCA GAACGCCAAG CACAGCTGGG TCCCCCACGA GCCTGATGAT 
GACACCCAGA AGTGCGAGCT GATCTGCCGG TCAGAGGACA CGGGGGATGT GGTCTTCATG 
AACCAAGTGG TCCACGATGG GACGCGCTGC AGCTACCGGG ACCCCTACAG TGTCTGTGCC 
CGCGGAGAGT GTGTGCCCGT CGGCTGTGAC AAAGAAGTGG GGTCCATGAA GGCAGACGAC 
AAGTGTGGGG TCTGTGGCGG CGACAACTCC CACTGCCGGA CTGTGAAGGG GACGCTGGGC 
AAGGCCTCCA AGCAGGCAGG AGCTCTCAAG CTGGTACAGA TCCCAGCAGG TGCCAGGCAC 
ATCCAGATTG AGGAGCTGGA GAAGGCCCCC CACCGCATTG CGGTGAAGAA CCAGGTCACA 
GGCAGCTTCA TCCTCAACCC CAAGGGCAAG GAAGCCGCTA GCAGGACCTT CACTGCAATG 
GGCCTGGAGT GGGAGTACGC AGTGGAGGAC GCCAAGGAAA CCCTCAAGAC GAGCGGGCCC 
CTGCCCGAAG CCATCGCTGT CCTGGTGCTC CCCCCAGCTG AGGGTGGCCC CCGCGGCAGC 
CTGGCCTACA AGTATGTCAT CCACGAGGAC CTGCTGCCCC TCATCGGCAG CAACAACGTT 
CTGCTGGAGG AGACGGACAC CTACGAGTGG GCGCTCAAGA GCTGGGCCCC CTGCACCAAG 
CCCTGCGGAG GAGGTATCCA GTTCACCAAA TACGGCTGTC GGCGCCGACG AGACCATCAC 
ATGGTACAGC GGCACCTGTG CGACCACAAG AAGAGGCCCA AACCCATCCG CAGGCGCTGC 
AACCAGCACC AGTGCCCCCA GCCTGAGTGG GTGATGGAGG AGTGGAGCAC CTGCAGCCGG 
AGCTGTGGGA AGCTGGGGGT GCAGACTCGG GCAGTGCAGT GCCTGCTGCT CCTCTCCAAC 
GGTACCCACA AGGCCATGCC AGCCAAAGCC TGCCCTGGGG ACCGGCCGGA GGCCAGGCGG 
CCCTGCCTCC GAGTGCCTTG CCCAGCCCAG TGGCGGACCG GAGCCTGGTC CCAGTGCTCT 
GCCACCTGCG GAGAGGGCAT TCAGCAGCGG CAGGTGGTGT GCCGTACCAA TGCCAACAGT 
CTCGGACAGT GCGAGGGGGA CAAGCCGGAC ACCATCCAGG CCTGCAGCCT GCCTGCCTGC 
AGAGGAAATC TCCAGAACTC TACCGTGAGG GCTGACGTCC AGGCACTCGT GACCCCACAA 
TCTGGGCCCC TACATCCTAT TAACAAGATA ACATCAACAG AGCCCTGCAT GGGGGACAGG 
TCGATCCTCT GTCAGATGGA GGTGCACGAG CGCTACTGCT CCATCCCCGG CTACCACCGG 
CTGTGCTGCG AGTCCTGCTC CAAGAAGGCC TCAGGCCCTG ATGCCAGCCT GGACCCCCGC 
CTGACCTCAC CACCACCCTC CTCCACTCCT GGGAGCCCCT CGCCAGGAGC CAAGGCCCCT 
CCAGATGCTG TGGAGCCCAC TGTGGCCTCA GTGGGCTCAG ACAACCATCC ACATGGCCGA 
CCCATACAGC TCCCAGGACC TCTGGGTACA AGCCCCCCAG TGACCCAGCG CCTCGGCTCT 
GCTCCCCAGA AACTGAGTCC TGGAGCATTG CAGAGTACTT CCCCTGGCGC CACCCGGGGG 
CGGCCTTGGG GCTGGACCAC TGGCCCACCT CTGCCAGCCT CTGAGGATAA AGGGCAACTC 
AGGGGAGACC CGAAGCACCC GGGCGCCAGC CTTCCAGCCA CCTCCCCGGT GACATGA

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

RefSeq	XP_008143639.1
CDS	1..3657
Translation	MAPLRALLSCLLPLHCALCAAAGSRTPERPLPGRLGDYGVTVPRSTDFRGRFLSHVVSGPAAASTGSASEDRPPAPPSHAGHPRVARSPLRPRGATPQPDRLYFNVTVFGEELHLRLRPNRRLVVPGASAEWQEDFRELFRQPLQQECVYTGSVTGMPGAAVAISNCDGLAGLIRTDVTDYFIEPLERGQQEKEAGGRTHVVYRREAVQQEWAEPGGDLHNEAFGLGDLPNLLGLVGGQLGEAERKRRHAKPGSYSIEVLLAVDDSVVRFHGKEHVQNYVLTLMNIVNEIYHDESLGTHINIALVRLIMVGYRQSLSLIERGNPSRSLEQVCRWAHSQQRQDPGHAEHHDHVIFLTRQDFGPSGMQGYAPVTGMCHPLRSCALNHEDGFSSAFVVAHETGHVLGMEHDGQGNGCADETSLGSVMAPLVQAAFHRFHWSRCSKLELSRYLPSYDCLLDDPFAPAWPQPPELPGTDYSMDEQCRFDFGTGYHTCSAFTTFEPCKQLWCSHPDNPYFCKTKKGPPLDGTECAPGKWCFKGHCIWKSPEQTYGQDGGWSSWTNFGSCSRSCGGGVRSRSRSCDNPFPAYGGRLCSGPMFQYQVCNSEECPGPYEDFRAQQCAKRNSYYLHQNAKHSWVPHEPDDDTQKCELICRSEDTGDVVFMNQVVHDGTRCSYRDPYSVCARGECVPVGCDKEVGSMKADDKCGVCGGDNSHCRTVKGTLGKASKQAGALKLVQIPAGARHIQIEELEKAPHRIAVKNQVTGSFILNPKGKEAASRTFTAMGLEWEYAVEDAKETLKTSGPLPEAIAVLVLPPAEGGPRGSLAYKYVIHEDLLPLIGSNNVLLEETDTYEWALKSWAPCTKPCGGGIQFTKYGCRRRRDHHMVQRHLCDHKKRPKPIRRRCNQHQCPQPEWVMEEWSTCSRSCGKLGVQTRAVQCLLLLSNGTHKAMPAKACPGDRPEARRPCLRVPCPAQWRTGAWSQCSATCGEGIQQRQVVCRTNANSLGQCEGDKPDTIQACSLPACRGNLQNSTVRADVQALVTPQSGPLHPINKITSTEPCMGDRSILCQMEVHERYCSIPGYHRLCCESCSKKASGPDASLDPRLTSPPPSSTPGSPSPGAKAPPDAVEPTVASVGSDNHPHGRPIQLPGPLGTSPPVTQRLGSAPQKLSPGALQSTSPGATRGRPWGWTTGPPLPASEDKGQLRGDPKHPGASLPATSPVT

Target ORF information:

RefSeq Version	XM_008145417.1
Organism	Eptesicus fuscus(big brown bat)
Definition	Eptesicus fuscus ADAM metallopeptidase with thrombospondin type 1 motif, 14 (ADAMTS14), transcript variant X1, mRNA.

Target ORF information:

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

XM_008145417.1

ORF Insert Sequence:

ATGGCTCCGC TCCGCGCGCT GCTATCCTGC CTGCTGCCCC TGCACTGTGC GCTCTGCGCC 
GCCGCGGGCA GCCGGACCCC AGAGCGGCCC CTCCCCGGAA GGCTCGGTGA CTATGGTGTG 
ACTGTGCCCC GCAGCACGGA TTTCCGGGGA CGCTTCCTCT CCCATGTGGT GTCCGGCCCA 
GCAGCAGCCT CTACAGGGAG TGCGTCAGAG GACAGGCCAC CTGCACCGCC CTCACACGCC 
GGTCACCCGC GGGTGGCCCG CAGCCCCCTG CGCCCCAGAG GAGCCACTCC ACAGCCTGAC 
CGGCTCTACT TCAATGTCAC TGTTTTTGGG GAGGAATTGC ACTTGCGCCT GCGGCCCAAC 
CGGCGGCTGG TGGTGCCCGG AGCCTCCGCA GAGTGGCAGG AGGACTTTCG GGAGCTCTTC 
CGACAGCCCT TGCAGCAAGA GTGTGTCTAC ACCGGGAGTG TCACAGGCAT GCCAGGGGCA 
GCTGTCGCCA TCAGCAACTG TGATGGACTG GCGGGCCTCA TCCGCACAGA CGTCACCGAC 
TACTTCATTG AGCCCCTGGA GCGGGGGCAG CAAGAGAAGG AGGCCGGCGG GAGGACACAC 
GTGGTGTACC GCCGGGAAGC TGTCCAGCAG GAGTGGGCAG AGCCTGGAGG GGACCTTCAC 
AACGAAGCCT TTGGCCTGGG CGACCTTCCC AACCTGCTGG GCCTGGTGGG AGGCCAGCTG 
GGAGAAGCGG AGCGGAAGCG GCGGCACGCC AAGCCGGGCA GCTACAGCAT CGAGGTGCTG 
CTGGCCGTGG ACGACTCCGT GGTGCGCTTC CACGGCAAGG AGCACGTGCA GAACTACGTC 
CTCACCCTCA TGAACATCGT GAATGAAATT TACCACGACG AGTCCCTGGG GACGCACATT 
AACATTGCGC TTGTCCGCTT GATCATGGTT GGCTACCGAC AATCCCTGAG CCTGATTGAG 
CGTGGGAACC CCTCCCGCAG CCTGGAGCAG GTGTGTCGCT GGGCCCACTC TCAGCAGCGC 
CAGGACCCCG GCCACGCAGA GCACCACGAC CACGTCATCT TCCTCACCCG GCAGGACTTT 
GGGCCCTCAG GTATGCAAGG GTATGCACCT GTCACGGGCA TGTGCCACCC CCTGAGAAGC 
TGTGCCCTTA ACCACGAGGA CGGCTTCTCT TCTGCCTTCG TGGTAGCCCA CGAGACTGGT 
CATGTGCTCG GCATGGAGCA TGACGGCCAG GGCAACGGCT GCGCGGATGA GACCAGCCTG 
GGCAGCGTCA TGGCACCCCT GGTGCAGGCT GCCTTCCACC GCTTCCACTG GTCCCGCTGC 
AGCAAGCTGG AGCTCAGCCG CTACCTTCCC TCCTACGACT GCCTCCTGGA TGACCCCTTT 
GCACCCGCCT GGCCCCAGCC CCCGGAGCTG CCTGGCACTG ACTATTCCAT GGACGAGCAG 
TGCCGCTTTG ACTTCGGTAC CGGGTACCAC ACCTGCTCCG CGTTCACGAC CTTTGAGCCC 
TGTAAGCAGC TGTGGTGCAG CCACCCCGAC AACCCGTACT TCTGCAAGAC CAAGAAGGGG 
CCCCCGCTGG ACGGGACCGA GTGTGCGCCA GGCAAGTGGT GCTTCAAAGG TCACTGCATC 
TGGAAGTCAC CAGAGCAGAC TTACGGCCAG GATGGCGGCT GGAGCTCCTG GACCAACTTC 
GGGTCATGTT CGAGGTCATG CGGGGGCGGA GTGCGATCCC GTAGCCGGAG CTGTGACAAT 
CCCTTCCCAG CCTACGGAGG CCGCCTGTGC TCAGGGCCCA TGTTCCAGTA CCAGGTCTGC 
AACAGCGAGG AGTGCCCGGG GCCCTACGAG GACTTCCGGG CCCAGCAGTG TGCCAAGCGC 
AACTCCTACT ACCTCCACCA GAACGCCAAG CACAGCTGGG TCCCCCACGA GCCTGATGAT 
GACACCCAGA AGTGCGAGCT GATCTGCCGG TCAGAGGACA CGGGGGATGT GGTCTTCATG 
AACCAAGTGG TCCACGATGG GACGCGCTGC AGCTACCGGG ACCCCTACAG TGTCTGTGCC 
CGCGGAGAGT GTGTGCCCGT CGGCTGTGAC AAAGAAGTGG GGTCCATGAA GGCAGACGAC 
AAGTGTGGGG TCTGTGGCGG CGACAACTCC CACTGCCGGA CTGTGAAGGG GACGCTGGGC 
AAGGCCTCCA AGCAGGCAGG AGCTCTCAAG CTGGTACAGA TCCCAGCAGG TGCCAGGCAC 
ATCCAGATTG AGGAGCTGGA GAAGGCCCCC CACCGCATTG CGGTGAAGAA CCAGGTCACA 
GGCAGCTTCA TCCTCAACCC CAAGGGCAAG GAAGCCGCTA GCAGGACCTT CACTGCAATG 
GGCCTGGAGT GGGAGTACGC AGTGGAGGAC GCCAAGGAAA CCCTCAAGAC GAGCGGGCCC 
CTGCCCGAAG CCATCGCTGT CCTGGTGCTC CCCCCAGCTG AGGGTGGCCC CCGCGGCAGC 
CTGGCCTACA AGTATGTCAT CCACGAGGAC CTGCTGCCCC TCATCGGCAG CAACAACGTT 
CTGCTGGAGG AGACGGACAC CTACGAGTGG GCGCTCAAGA GCTGGGCCCC CTGCACCAAG 
CCCTGCGGAG GAGGTATCCA GTTCACCAAA TACGGCTGTC GGCGCCGACG AGACCATCAC 
ATGGTACAGC GGCACCTGTG CGACCACAAG AAGAGGCCCA AACCCATCCG CAGGCGCTGC 
AACCAGCACC AGTGCCCCCA GCCTGAGTGG GTGATGGAGG AGTGGAGCAC CTGCAGCCGG 
AGCTGTGGGA AGCTGGGGGT GCAGACTCGG GCAGTGCAGT GCCTGCTGCT CCTCTCCAAC 
GGTACCCACA AGGCCATGCC AGCCAAAGCC TGCCCTGGGG ACCGGCCGGA GGCCAGGCGG 
CCCTGCCTCC GAGTGCCTTG CCCAGCCCAG TGGCGGACCG GAGCCTGGTC CCAGTGCTCT 
GCCACCTGCG GAGAGGGCAT TCAGCAGCGG CAGGTGGTGT GCCGTACCAA TGCCAACAGT 
CTCGGACAGT GCGAGGGGGA CAAGCCGGAC ACCATCCAGG CCTGCAGCCT GCCTGCCTGC 
AGAGGAAATC TCCAGAACTC TACCGTGAGG GCTGACGTCC AGGCACTCGT GACCCCACAA 
TCTGGGCCCC TACATCCTAT TAACAAGATA ACATCAACAG AGCCCTGCAT GGGGGACAGG 
TCGATCCTCT GTCAGATGGA GGTGCACGAG CGCTACTGCT CCATCCCCGG CTACCACCGG 
CTGTGCTGCG AGTCCTGCTC CAAGAAGGCC TCAGGCCCTG ATGCCAGCCT GGACCCCCGC 
CTGACCTCAC CACCACCCTC CTCCACTCCT GGGAGCCCCT CGCCAGGAGC CAAGGCCCCT 
CCAGATGCTG TGGAGCCCAC TGTGGCCTCA GTGGGCTCAG ACAACCATCC ACATGGCCGA 
CCCATACAGC TCCCAGGACC TCTGGGTACA AGCCCCCCAG TGACCCAGCG CCTCGGCTCT 
GCTCCCCAGA AACTGAGTCC TGGAGCATTG CAGAGTACTT CCCCTGGCGC CACCCGGGGG 
CGGCCTTGGG GCTGGACCAC TGGCCCACCT CTGCCAGCCT CTGAGGATAA AGGGCAACTC 
AGGGGAGACC CGAAGCACCC GGGCGCCAGC CTTCCAGCCA CCTCCCCGGT GACATGA

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

ADAMTS14 ( XM_008145418.2 ) cDNA ORF clone, Eptesicus fuscus(big brown bat) -> XP_008143640.1 Eptesicus fuscus ADAM metallopeptidase with thrombospondin type 1 motif 14 (ADAMTS14), transcript variant X2, mRNA.

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CloneID	OEp09232
Clone ID Related Accession (Same CDS sequence)	XM_008145418.2 , XM_008145418.1
Accession Version	XM_008145418.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3648bp) 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	2019-02-11
Organism	Eptesicus fuscus(big brown bat)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 14 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_007370681.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Feb 12, 2019 this sequence version replaced XM_008145418.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Eptesicus fuscus Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTCCGC TCCGCGCGCT GCTATCCTGC CTGCTGCCCC TGCACTGTGC GCTCTGCGCC 
GCCGCGGGCA GCCGGACCCC AGAGCGGCCC CTCCCCGGAA GGCTCGGTGA CTATGGTGTG 
ACTGTGCCCC GCAGCACGGA TTTCCGGGGA CGCTTCCTCT CCCATGTGGT GTCCGGCCCA 
GCAGCAGCCT CTACAGGGAG TGCGTCAGAG GACAGGCCAC CTGCACCGCC CTCACACGCC 
GGTCACCCGC GGGTGGCCCG CAGCCCCCTG CGCCCCAGAG GAGCCACTCC ACAGCCTGAC 
CGGCTCTACT TCAATGTCAC TGTTTTTGGG GAGGAATTGC ACTTGCGCCT GCGGCCCAAC 
CGGCGGCTGG TGGTGCCCGG AGCCTCCGCA GAGTGGCAGG AGGACTTTCG GGAGCTCTTC 
CGACAGCCCT TGCAGCAAGA GTGTGTCTAC ACCGGGAGTG TCACAGGCAT GCCAGGGGCA 
GCTGTCGCCA TCAGCAACTG TGATGGACTG GCGGGCCTCA TCCGCACAGA CGTCACCGAC 
TACTTCATTG AGCCCCTGGA GCGGGGGCAG CAAGAGAAGG AGGCCGGCGG GAGGACACAC 
GTGGTGTACC GCCGGGAAGC TGTCCAGCAG GAGTGGGCAG AGCCTGGAGG GGACCTTCAC 
AACGAAGCCT TTGGCCTGGG CGACCTTCCC AACCTGCTGG GCCTGGTGGG AGGCCAGCTG 
GGAGAAGCGG AGCGGAAGCG GCGGCACGCC AAGCCGGGCA GCTACAGCAT CGAGGTGCTG 
CTGGCCGTGG ACGACTCCGT GGTGCGCTTC CACGGCAAGG AGCACGTGCA GAACTACGTC 
CTCACCCTCA TGAACATCGT GAATGAAATT TACCACGACG AGTCCCTGGG GACGCACATT 
AACATTGCGC TTGTCCGCTT GATCATGGTT GGCTACCGAC AATCCCTGAG CCTGATTGAG 
CGTGGGAACC CCTCCCGCAG CCTGGAGCAG GTGTGTCGCT GGGCCCACTC TCAGCAGCGC 
CAGGACCCCG GCCACGCAGA GCACCACGAC CACGTCATCT TCCTCACCCG GCAGGACTTT 
GGGCCCTCAG GGTATGCACC TGTCACGGGC ATGTGCCACC CCCTGAGAAG CTGTGCCCTT 
AACCACGAGG ACGGCTTCTC TTCTGCCTTC GTGGTAGCCC ACGAGACTGG TCATGTGCTC 
GGCATGGAGC ATGACGGCCA GGGCAACGGC TGCGCGGATG AGACCAGCCT GGGCAGCGTC 
ATGGCACCCC TGGTGCAGGC TGCCTTCCAC CGCTTCCACT GGTCCCGCTG CAGCAAGCTG 
GAGCTCAGCC GCTACCTTCC CTCCTACGAC TGCCTCCTGG ATGACCCCTT TGCACCCGCC 
TGGCCCCAGC CCCCGGAGCT GCCTGGCACT GACTATTCCA TGGACGAGCA GTGCCGCTTT 
GACTTCGGTA CCGGGTACCA CACCTGCTCC GCGTTCACGA CCTTTGAGCC CTGTAAGCAG 
CTGTGGTGCA GCCACCCCGA CAACCCGTAC TTCTGCAAGA CCAAGAAGGG GCCCCCGCTG 
GACGGGACCG AGTGTGCGCC AGGCAAGTGG TGCTTCAAAG GTCACTGCAT CTGGAAGTCA 
CCAGAGCAGA CTTACGGCCA GGATGGCGGC TGGAGCTCCT GGACCAACTT CGGGTCATGT 
TCGAGGTCAT GCGGGGGCGG AGTGCGATCC CGTAGCCGGA GCTGTGACAA TCCCTTCCCA 
GCCTACGGAG GCCGCCTGTG CTCAGGGCCC ATGTTCCAGT ACCAGGTCTG CAACAGCGAG 
GAGTGCCCGG GGCCCTACGA GGACTTCCGG GCCCAGCAGT GTGCCAAGCG CAACTCCTAC 
TACCTCCACC AGAACGCCAA GCACAGCTGG GTCCCCCACG AGCCTGATGA TGACACCCAG 
AAGTGCGAGC TGATCTGCCG GTCAGAGGAC ACGGGGGATG TGGTCTTCAT GAACCAAGTG 
GTCCACGATG GGACGCGCTG CAGCTACCGG GACCCCTACA GTGTCTGTGC CCGCGGAGAG 
TGTGTGCCCG TCGGCTGTGA CAAAGAAGTG GGGTCCATGA AGGCAGACGA CAAGTGTGGG 
GTCTGTGGCG GCGACAACTC CCACTGCCGG ACTGTGAAGG GGACGCTGGG CAAGGCCTCC 
AAGCAGGCAG GAGCTCTCAA GCTGGTACAG ATCCCAGCAG GTGCCAGGCA CATCCAGATT 
GAGGAGCTGG AGAAGGCCCC CCACCGCATT GCGGTGAAGA ACCAGGTCAC AGGCAGCTTC 
ATCCTCAACC CCAAGGGCAA GGAAGCCGCT AGCAGGACCT TCACTGCAAT GGGCCTGGAG 
TGGGAGTACG CAGTGGAGGA CGCCAAGGAA ACCCTCAAGA CGAGCGGGCC CCTGCCCGAA 
GCCATCGCTG TCCTGGTGCT CCCCCCAGCT GAGGGTGGCC CCCGCGGCAG CCTGGCCTAC 
AAGTATGTCA TCCACGAGGA CCTGCTGCCC CTCATCGGCA GCAACAACGT TCTGCTGGAG 
GAGACGGACA CCTACGAGTG GGCGCTCAAG AGCTGGGCCC CCTGCACCAA GCCCTGCGGA 
GGAGGTATCC AGTTCACCAA ATACGGCTGT CGGCGCCGAC GAGACCATCA CATGGTACAG 
CGGCACCTGT GCGACCACAA GAAGAGGCCC AAACCCATCC GCAGGCGCTG CAACCAGCAC 
CAGTGCCCCC AGCCTGAGTG GGTGATGGAG GAGTGGAGCA CCTGCAGCCG GAGCTGTGGG 
AAGCTGGGGG TGCAGACTCG GGCAGTGCAG TGCCTGCTGC TCCTCTCCAA CGGTACCCAC 
AAGGCCATGC CAGCCAAAGC CTGCCCTGGG GACCGGCCGG AGGCCAGGCG GCCCTGCCTC 
CGAGTGCCTT GCCCAGCCCA GTGGCGGACC GGAGCCTGGT CCCAGTGCTC TGCCACCTGC 
GGAGAGGGCA TTCAGCAGCG GCAGGTGGTG TGCCGTACCA ATGCCAACAG TCTCGGACAG 
TGCGAGGGGG ACAAGCCGGA CACCATCCAG GCCTGCAGCC TGCCTGCCTG CAGAGGAAAT 
CTCCAGAACT CTACCGTGAG GGCTGACGTC CAGGCACTCG TGACCCCACA ATCTGGGCCC 
CTACATCCTA TTAACAAGAT AACATCAACA GAGCCCTGCA TGGGGGACAG GTCGATCCTC 
TGTCAGATGG AGGTGCACGA GCGCTACTGC TCCATCCCCG GCTACCACCG GCTGTGCTGC 
GAGTCCTGCT CCAAGAAGGC CTCAGGCCCT GATGCCAGCC TGGACCCCCG CCTGACCTCA 
CCACCACCCT CCTCCACTCC TGGGAGCCCC TCGCCAGGAG CCAAGGCCCC TCCAGATGCT 
GTGGAGCCCA CTGTGGCCTC AGTGGGCTCA GACAACCATC CACATGGCCG ACCCATACAG 
CTCCCAGGAC CTCTGGGTAC AAGCCCCCCA GTGACCCAGC GCCTCGGCTC TGCTCCCCAG 
AAACTGAGTC CTGGAGCATT GCAGAGTACT TCCCCTGGCG CCACCCGGGG GCGGCCTTGG 
GGCTGGACCA CTGGCCCACC TCTGCCAGCC TCTGAGGATA AAGGGCAACT CAGGGGAGAC 
CCGAAGCACC CGGGCGCCAG CCTTCCAGCC ACCTCCCCGG TGACATGA

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

RefSeq	XP_008143640.1
CDS	24..3671
Translation	MAPLRALLSCLLPLHCALCAAAGSRTPERPLPGRLGDYGVTVPRSTDFRGRFLSHVVSGPAAASTGSASEDRPPAPPSHAGHPRVARSPLRPRGATPQPDRLYFNVTVFGEELHLRLRPNRRLVVPGASAEWQEDFRELFRQPLQQECVYTGSVTGMPGAAVAISNCDGLAGLIRTDVTDYFIEPLERGQQEKEAGGRTHVVYRREAVQQEWAEPGGDLHNEAFGLGDLPNLLGLVGGQLGEAERKRRHAKPGSYSIEVLLAVDDSVVRFHGKEHVQNYVLTLMNIVNEIYHDESLGTHINIALVRLIMVGYRQSLSLIERGNPSRSLEQVCRWAHSQQRQDPGHAEHHDHVIFLTRQDFGPSGYAPVTGMCHPLRSCALNHEDGFSSAFVVAHETGHVLGMEHDGQGNGCADETSLGSVMAPLVQAAFHRFHWSRCSKLELSRYLPSYDCLLDDPFAPAWPQPPELPGTDYSMDEQCRFDFGTGYHTCSAFTTFEPCKQLWCSHPDNPYFCKTKKGPPLDGTECAPGKWCFKGHCIWKSPEQTYGQDGGWSSWTNFGSCSRSCGGGVRSRSRSCDNPFPAYGGRLCSGPMFQYQVCNSEECPGPYEDFRAQQCAKRNSYYLHQNAKHSWVPHEPDDDTQKCELICRSEDTGDVVFMNQVVHDGTRCSYRDPYSVCARGECVPVGCDKEVGSMKADDKCGVCGGDNSHCRTVKGTLGKASKQAGALKLVQIPAGARHIQIEELEKAPHRIAVKNQVTGSFILNPKGKEAASRTFTAMGLEWEYAVEDAKETLKTSGPLPEAIAVLVLPPAEGGPRGSLAYKYVIHEDLLPLIGSNNVLLEETDTYEWALKSWAPCTKPCGGGIQFTKYGCRRRRDHHMVQRHLCDHKKRPKPIRRRCNQHQCPQPEWVMEEWSTCSRSCGKLGVQTRAVQCLLLLSNGTHKAMPAKACPGDRPEARRPCLRVPCPAQWRTGAWSQCSATCGEGIQQRQVVCRTNANSLGQCEGDKPDTIQACSLPACRGNLQNSTVRADVQALVTPQSGPLHPINKITSTEPCMGDRSILCQMEVHERYCSIPGYHRLCCESCSKKASGPDASLDPRLTSPPPSSTPGSPSPGAKAPPDAVEPTVASVGSDNHPHGRPIQLPGPLGTSPPVTQRLGSAPQKLSPGALQSTSPGATRGRPWGWTTGPPLPASEDKGQLRGDPKHPGASLPATSPVT

Target ORF information:

RefSeq Version	XM_008145418.2
Organism	Eptesicus fuscus(big brown bat)
Definition	Eptesicus fuscus ADAM metallopeptidase with thrombospondin type 1 motif 14 (ADAMTS14), transcript variant X2, mRNA.

Target ORF information:

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

XM_008145418.2

ORF Insert Sequence:

ATGGCTCCGC TCCGCGCGCT GCTATCCTGC CTGCTGCCCC TGCACTGTGC GCTCTGCGCC 
GCCGCGGGCA GCCGGACCCC AGAGCGGCCC CTCCCCGGAA GGCTCGGTGA CTATGGTGTG 
ACTGTGCCCC GCAGCACGGA TTTCCGGGGA CGCTTCCTCT CCCATGTGGT GTCCGGCCCA 
GCAGCAGCCT CTACAGGGAG TGCGTCAGAG GACAGGCCAC CTGCACCGCC CTCACACGCC 
GGTCACCCGC GGGTGGCCCG CAGCCCCCTG CGCCCCAGAG GAGCCACTCC ACAGCCTGAC 
CGGCTCTACT TCAATGTCAC TGTTTTTGGG GAGGAATTGC ACTTGCGCCT GCGGCCCAAC 
CGGCGGCTGG TGGTGCCCGG AGCCTCCGCA GAGTGGCAGG AGGACTTTCG GGAGCTCTTC 
CGACAGCCCT TGCAGCAAGA GTGTGTCTAC ACCGGGAGTG TCACAGGCAT GCCAGGGGCA 
GCTGTCGCCA TCAGCAACTG TGATGGACTG GCGGGCCTCA TCCGCACAGA CGTCACCGAC 
TACTTCATTG AGCCCCTGGA GCGGGGGCAG CAAGAGAAGG AGGCCGGCGG GAGGACACAC 
GTGGTGTACC GCCGGGAAGC TGTCCAGCAG GAGTGGGCAG AGCCTGGAGG GGACCTTCAC 
AACGAAGCCT TTGGCCTGGG CGACCTTCCC AACCTGCTGG GCCTGGTGGG AGGCCAGCTG 
GGAGAAGCGG AGCGGAAGCG GCGGCACGCC AAGCCGGGCA GCTACAGCAT CGAGGTGCTG 
CTGGCCGTGG ACGACTCCGT GGTGCGCTTC CACGGCAAGG AGCACGTGCA GAACTACGTC 
CTCACCCTCA TGAACATCGT GAATGAAATT TACCACGACG AGTCCCTGGG GACGCACATT 
AACATTGCGC TTGTCCGCTT GATCATGGTT GGCTACCGAC AATCCCTGAG CCTGATTGAG 
CGTGGGAACC CCTCCCGCAG CCTGGAGCAG GTGTGTCGCT GGGCCCACTC TCAGCAGCGC 
CAGGACCCCG GCCACGCAGA GCACCACGAC CACGTCATCT TCCTCACCCG GCAGGACTTT 
GGGCCCTCAG GGTATGCACC TGTCACGGGC ATGTGCCACC CCCTGAGAAG CTGTGCCCTT 
AACCACGAGG ACGGCTTCTC TTCTGCCTTC GTGGTAGCCC ACGAGACTGG TCATGTGCTC 
GGCATGGAGC ATGACGGCCA GGGCAACGGC TGCGCGGATG AGACCAGCCT GGGCAGCGTC 
ATGGCACCCC TGGTGCAGGC TGCCTTCCAC CGCTTCCACT GGTCCCGCTG CAGCAAGCTG 
GAGCTCAGCC GCTACCTTCC CTCCTACGAC TGCCTCCTGG ATGACCCCTT TGCACCCGCC 
TGGCCCCAGC CCCCGGAGCT GCCTGGCACT GACTATTCCA TGGACGAGCA GTGCCGCTTT 
GACTTCGGTA CCGGGTACCA CACCTGCTCC GCGTTCACGA CCTTTGAGCC CTGTAAGCAG 
CTGTGGTGCA GCCACCCCGA CAACCCGTAC TTCTGCAAGA CCAAGAAGGG GCCCCCGCTG 
GACGGGACCG AGTGTGCGCC AGGCAAGTGG TGCTTCAAAG GTCACTGCAT CTGGAAGTCA 
CCAGAGCAGA CTTACGGCCA GGATGGCGGC TGGAGCTCCT GGACCAACTT CGGGTCATGT 
TCGAGGTCAT GCGGGGGCGG AGTGCGATCC CGTAGCCGGA GCTGTGACAA TCCCTTCCCA 
GCCTACGGAG GCCGCCTGTG CTCAGGGCCC ATGTTCCAGT ACCAGGTCTG CAACAGCGAG 
GAGTGCCCGG GGCCCTACGA GGACTTCCGG GCCCAGCAGT GTGCCAAGCG CAACTCCTAC 
TACCTCCACC AGAACGCCAA GCACAGCTGG GTCCCCCACG AGCCTGATGA TGACACCCAG 
AAGTGCGAGC TGATCTGCCG GTCAGAGGAC ACGGGGGATG TGGTCTTCAT GAACCAAGTG 
GTCCACGATG GGACGCGCTG CAGCTACCGG GACCCCTACA GTGTCTGTGC CCGCGGAGAG 
TGTGTGCCCG TCGGCTGTGA CAAAGAAGTG GGGTCCATGA AGGCAGACGA CAAGTGTGGG 
GTCTGTGGCG GCGACAACTC CCACTGCCGG ACTGTGAAGG GGACGCTGGG CAAGGCCTCC 
AAGCAGGCAG GAGCTCTCAA GCTGGTACAG ATCCCAGCAG GTGCCAGGCA CATCCAGATT 
GAGGAGCTGG AGAAGGCCCC CCACCGCATT GCGGTGAAGA ACCAGGTCAC AGGCAGCTTC 
ATCCTCAACC CCAAGGGCAA GGAAGCCGCT AGCAGGACCT TCACTGCAAT GGGCCTGGAG 
TGGGAGTACG CAGTGGAGGA CGCCAAGGAA ACCCTCAAGA CGAGCGGGCC CCTGCCCGAA 
GCCATCGCTG TCCTGGTGCT CCCCCCAGCT GAGGGTGGCC CCCGCGGCAG CCTGGCCTAC 
AAGTATGTCA TCCACGAGGA CCTGCTGCCC CTCATCGGCA GCAACAACGT TCTGCTGGAG 
GAGACGGACA CCTACGAGTG GGCGCTCAAG AGCTGGGCCC CCTGCACCAA GCCCTGCGGA 
GGAGGTATCC AGTTCACCAA ATACGGCTGT CGGCGCCGAC GAGACCATCA CATGGTACAG 
CGGCACCTGT GCGACCACAA GAAGAGGCCC AAACCCATCC GCAGGCGCTG CAACCAGCAC 
CAGTGCCCCC AGCCTGAGTG GGTGATGGAG GAGTGGAGCA CCTGCAGCCG GAGCTGTGGG 
AAGCTGGGGG TGCAGACTCG GGCAGTGCAG TGCCTGCTGC TCCTCTCCAA CGGTACCCAC 
AAGGCCATGC CAGCCAAAGC CTGCCCTGGG GACCGGCCGG AGGCCAGGCG GCCCTGCCTC 
CGAGTGCCTT GCCCAGCCCA GTGGCGGACC GGAGCCTGGT CCCAGTGCTC TGCCACCTGC 
GGAGAGGGCA TTCAGCAGCG GCAGGTGGTG TGCCGTACCA ATGCCAACAG TCTCGGACAG 
TGCGAGGGGG ACAAGCCGGA CACCATCCAG GCCTGCAGCC TGCCTGCCTG CAGAGGAAAT 
CTCCAGAACT CTACCGTGAG GGCTGACGTC CAGGCACTCG TGACCCCACA ATCTGGGCCC 
CTACATCCTA TTAACAAGAT AACATCAACA GAGCCCTGCA TGGGGGACAG GTCGATCCTC 
TGTCAGATGG AGGTGCACGA GCGCTACTGC TCCATCCCCG GCTACCACCG GCTGTGCTGC 
GAGTCCTGCT CCAAGAAGGC CTCAGGCCCT GATGCCAGCC TGGACCCCCG CCTGACCTCA 
CCACCACCCT CCTCCACTCC TGGGAGCCCC TCGCCAGGAG CCAAGGCCCC TCCAGATGCT 
GTGGAGCCCA CTGTGGCCTC AGTGGGCTCA GACAACCATC CACATGGCCG ACCCATACAG 
CTCCCAGGAC CTCTGGGTAC AAGCCCCCCA GTGACCCAGC GCCTCGGCTC TGCTCCCCAG 
AAACTGAGTC CTGGAGCATT GCAGAGTACT TCCCCTGGCG CCACCCGGGG GCGGCCTTGG 
GGCTGGACCA CTGGCCCACC TCTGCCAGCC TCTGAGGATA AAGGGCAACT CAGGGGAGAC 
CCGAAGCACC CGGGCGCCAG CCTTCCAGCC ACCTCCCCGG TGACATGA

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

ADAMTS14 ( XM_008145418.1 ) cDNA ORF clone, Eptesicus fuscus(big brown bat) -> XP_008143640.1 Eptesicus fuscus ADAM metallopeptidase with thrombospondin type 1 motif, 14 (ADAMTS14), transcript variant X2, mRNA.

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CloneID	OEp09232
Clone ID Related Accession (Same CDS sequence)	XM_008145418.2 , XM_008145418.1
Accession Version	XM_008145418.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3648bp) 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	2014-05-28
Organism	Eptesicus fuscus(big brown bat)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 14 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_007370681.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Eptesicus fuscus Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTCCGC TCCGCGCGCT GCTATCCTGC CTGCTGCCCC TGCACTGTGC GCTCTGCGCC 
GCCGCGGGCA GCCGGACCCC AGAGCGGCCC CTCCCCGGAA GGCTCGGTGA CTATGGTGTG 
ACTGTGCCCC GCAGCACGGA TTTCCGGGGA CGCTTCCTCT CCCATGTGGT GTCCGGCCCA 
GCAGCAGCCT CTACAGGGAG TGCGTCAGAG GACAGGCCAC CTGCACCGCC CTCACACGCC 
GGTCACCCGC GGGTGGCCCG CAGCCCCCTG CGCCCCAGAG GAGCCACTCC ACAGCCTGAC 
CGGCTCTACT TCAATGTCAC TGTTTTTGGG GAGGAATTGC ACTTGCGCCT GCGGCCCAAC 
CGGCGGCTGG TGGTGCCCGG AGCCTCCGCA GAGTGGCAGG AGGACTTTCG GGAGCTCTTC 
CGACAGCCCT TGCAGCAAGA GTGTGTCTAC ACCGGGAGTG TCACAGGCAT GCCAGGGGCA 
GCTGTCGCCA TCAGCAACTG TGATGGACTG GCGGGCCTCA TCCGCACAGA CGTCACCGAC 
TACTTCATTG AGCCCCTGGA GCGGGGGCAG CAAGAGAAGG AGGCCGGCGG GAGGACACAC 
GTGGTGTACC GCCGGGAAGC TGTCCAGCAG GAGTGGGCAG AGCCTGGAGG GGACCTTCAC 
AACGAAGCCT TTGGCCTGGG CGACCTTCCC AACCTGCTGG GCCTGGTGGG AGGCCAGCTG 
GGAGAAGCGG AGCGGAAGCG GCGGCACGCC AAGCCGGGCA GCTACAGCAT CGAGGTGCTG 
CTGGCCGTGG ACGACTCCGT GGTGCGCTTC CACGGCAAGG AGCACGTGCA GAACTACGTC 
CTCACCCTCA TGAACATCGT GAATGAAATT TACCACGACG AGTCCCTGGG GACGCACATT 
AACATTGCGC TTGTCCGCTT GATCATGGTT GGCTACCGAC AATCCCTGAG CCTGATTGAG 
CGTGGGAACC CCTCCCGCAG CCTGGAGCAG GTGTGTCGCT GGGCCCACTC TCAGCAGCGC 
CAGGACCCCG GCCACGCAGA GCACCACGAC CACGTCATCT TCCTCACCCG GCAGGACTTT 
GGGCCCTCAG GGTATGCACC TGTCACGGGC ATGTGCCACC CCCTGAGAAG CTGTGCCCTT 
AACCACGAGG ACGGCTTCTC TTCTGCCTTC GTGGTAGCCC ACGAGACTGG TCATGTGCTC 
GGCATGGAGC ATGACGGCCA GGGCAACGGC TGCGCGGATG AGACCAGCCT GGGCAGCGTC 
ATGGCACCCC TGGTGCAGGC TGCCTTCCAC CGCTTCCACT GGTCCCGCTG CAGCAAGCTG 
GAGCTCAGCC GCTACCTTCC CTCCTACGAC TGCCTCCTGG ATGACCCCTT TGCACCCGCC 
TGGCCCCAGC CCCCGGAGCT GCCTGGCACT GACTATTCCA TGGACGAGCA GTGCCGCTTT 
GACTTCGGTA CCGGGTACCA CACCTGCTCC GCGTTCACGA CCTTTGAGCC CTGTAAGCAG 
CTGTGGTGCA GCCACCCCGA CAACCCGTAC TTCTGCAAGA CCAAGAAGGG GCCCCCGCTG 
GACGGGACCG AGTGTGCGCC AGGCAAGTGG TGCTTCAAAG GTCACTGCAT CTGGAAGTCA 
CCAGAGCAGA CTTACGGCCA GGATGGCGGC TGGAGCTCCT GGACCAACTT CGGGTCATGT 
TCGAGGTCAT GCGGGGGCGG AGTGCGATCC CGTAGCCGGA GCTGTGACAA TCCCTTCCCA 
GCCTACGGAG GCCGCCTGTG CTCAGGGCCC ATGTTCCAGT ACCAGGTCTG CAACAGCGAG 
GAGTGCCCGG GGCCCTACGA GGACTTCCGG GCCCAGCAGT GTGCCAAGCG CAACTCCTAC 
TACCTCCACC AGAACGCCAA GCACAGCTGG GTCCCCCACG AGCCTGATGA TGACACCCAG 
AAGTGCGAGC TGATCTGCCG GTCAGAGGAC ACGGGGGATG TGGTCTTCAT GAACCAAGTG 
GTCCACGATG GGACGCGCTG CAGCTACCGG GACCCCTACA GTGTCTGTGC CCGCGGAGAG 
TGTGTGCCCG TCGGCTGTGA CAAAGAAGTG GGGTCCATGA AGGCAGACGA CAAGTGTGGG 
GTCTGTGGCG GCGACAACTC CCACTGCCGG ACTGTGAAGG GGACGCTGGG CAAGGCCTCC 
AAGCAGGCAG GAGCTCTCAA GCTGGTACAG ATCCCAGCAG GTGCCAGGCA CATCCAGATT 
GAGGAGCTGG AGAAGGCCCC CCACCGCATT GCGGTGAAGA ACCAGGTCAC AGGCAGCTTC 
ATCCTCAACC CCAAGGGCAA GGAAGCCGCT AGCAGGACCT TCACTGCAAT GGGCCTGGAG 
TGGGAGTACG CAGTGGAGGA CGCCAAGGAA ACCCTCAAGA CGAGCGGGCC CCTGCCCGAA 
GCCATCGCTG TCCTGGTGCT CCCCCCAGCT GAGGGTGGCC CCCGCGGCAG CCTGGCCTAC 
AAGTATGTCA TCCACGAGGA CCTGCTGCCC CTCATCGGCA GCAACAACGT TCTGCTGGAG 
GAGACGGACA CCTACGAGTG GGCGCTCAAG AGCTGGGCCC CCTGCACCAA GCCCTGCGGA 
GGAGGTATCC AGTTCACCAA ATACGGCTGT CGGCGCCGAC GAGACCATCA CATGGTACAG 
CGGCACCTGT GCGACCACAA GAAGAGGCCC AAACCCATCC GCAGGCGCTG CAACCAGCAC 
CAGTGCCCCC AGCCTGAGTG GGTGATGGAG GAGTGGAGCA CCTGCAGCCG GAGCTGTGGG 
AAGCTGGGGG TGCAGACTCG GGCAGTGCAG TGCCTGCTGC TCCTCTCCAA CGGTACCCAC 
AAGGCCATGC CAGCCAAAGC CTGCCCTGGG GACCGGCCGG AGGCCAGGCG GCCCTGCCTC 
CGAGTGCCTT GCCCAGCCCA GTGGCGGACC GGAGCCTGGT CCCAGTGCTC TGCCACCTGC 
GGAGAGGGCA TTCAGCAGCG GCAGGTGGTG TGCCGTACCA ATGCCAACAG TCTCGGACAG 
TGCGAGGGGG ACAAGCCGGA CACCATCCAG GCCTGCAGCC TGCCTGCCTG CAGAGGAAAT 
CTCCAGAACT CTACCGTGAG GGCTGACGTC CAGGCACTCG TGACCCCACA ATCTGGGCCC 
CTACATCCTA TTAACAAGAT AACATCAACA GAGCCCTGCA TGGGGGACAG GTCGATCCTC 
TGTCAGATGG AGGTGCACGA GCGCTACTGC TCCATCCCCG GCTACCACCG GCTGTGCTGC 
GAGTCCTGCT CCAAGAAGGC CTCAGGCCCT GATGCCAGCC TGGACCCCCG CCTGACCTCA 
CCACCACCCT CCTCCACTCC TGGGAGCCCC TCGCCAGGAG CCAAGGCCCC TCCAGATGCT 
GTGGAGCCCA CTGTGGCCTC AGTGGGCTCA GACAACCATC CACATGGCCG ACCCATACAG 
CTCCCAGGAC CTCTGGGTAC AAGCCCCCCA GTGACCCAGC GCCTCGGCTC TGCTCCCCAG 
AAACTGAGTC CTGGAGCATT GCAGAGTACT TCCCCTGGCG CCACCCGGGG GCGGCCTTGG 
GGCTGGACCA CTGGCCCACC TCTGCCAGCC TCTGAGGATA AAGGGCAACT CAGGGGAGAC 
CCGAAGCACC CGGGCGCCAG CCTTCCAGCC ACCTCCCCGG TGACATGA

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

RefSeq	XP_008143640.1
CDS	1..3648
Translation	MAPLRALLSCLLPLHCALCAAAGSRTPERPLPGRLGDYGVTVPRSTDFRGRFLSHVVSGPAAASTGSASEDRPPAPPSHAGHPRVARSPLRPRGATPQPDRLYFNVTVFGEELHLRLRPNRRLVVPGASAEWQEDFRELFRQPLQQECVYTGSVTGMPGAAVAISNCDGLAGLIRTDVTDYFIEPLERGQQEKEAGGRTHVVYRREAVQQEWAEPGGDLHNEAFGLGDLPNLLGLVGGQLGEAERKRRHAKPGSYSIEVLLAVDDSVVRFHGKEHVQNYVLTLMNIVNEIYHDESLGTHINIALVRLIMVGYRQSLSLIERGNPSRSLEQVCRWAHSQQRQDPGHAEHHDHVIFLTRQDFGPSGYAPVTGMCHPLRSCALNHEDGFSSAFVVAHETGHVLGMEHDGQGNGCADETSLGSVMAPLVQAAFHRFHWSRCSKLELSRYLPSYDCLLDDPFAPAWPQPPELPGTDYSMDEQCRFDFGTGYHTCSAFTTFEPCKQLWCSHPDNPYFCKTKKGPPLDGTECAPGKWCFKGHCIWKSPEQTYGQDGGWSSWTNFGSCSRSCGGGVRSRSRSCDNPFPAYGGRLCSGPMFQYQVCNSEECPGPYEDFRAQQCAKRNSYYLHQNAKHSWVPHEPDDDTQKCELICRSEDTGDVVFMNQVVHDGTRCSYRDPYSVCARGECVPVGCDKEVGSMKADDKCGVCGGDNSHCRTVKGTLGKASKQAGALKLVQIPAGARHIQIEELEKAPHRIAVKNQVTGSFILNPKGKEAASRTFTAMGLEWEYAVEDAKETLKTSGPLPEAIAVLVLPPAEGGPRGSLAYKYVIHEDLLPLIGSNNVLLEETDTYEWALKSWAPCTKPCGGGIQFTKYGCRRRRDHHMVQRHLCDHKKRPKPIRRRCNQHQCPQPEWVMEEWSTCSRSCGKLGVQTRAVQCLLLLSNGTHKAMPAKACPGDRPEARRPCLRVPCPAQWRTGAWSQCSATCGEGIQQRQVVCRTNANSLGQCEGDKPDTIQACSLPACRGNLQNSTVRADVQALVTPQSGPLHPINKITSTEPCMGDRSILCQMEVHERYCSIPGYHRLCCESCSKKASGPDASLDPRLTSPPPSSTPGSPSPGAKAPPDAVEPTVASVGSDNHPHGRPIQLPGPLGTSPPVTQRLGSAPQKLSPGALQSTSPGATRGRPWGWTTGPPLPASEDKGQLRGDPKHPGASLPATSPVT

Target ORF information:

RefSeq Version	XM_008145418.1
Organism	Eptesicus fuscus(big brown bat)
Definition	Eptesicus fuscus ADAM metallopeptidase with thrombospondin type 1 motif, 14 (ADAMTS14), transcript variant X2, mRNA.

Target ORF information:

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

XM_008145418.1

ORF Insert Sequence:

ATGGCTCCGC TCCGCGCGCT GCTATCCTGC CTGCTGCCCC TGCACTGTGC GCTCTGCGCC 
GCCGCGGGCA GCCGGACCCC AGAGCGGCCC CTCCCCGGAA GGCTCGGTGA CTATGGTGTG 
ACTGTGCCCC GCAGCACGGA TTTCCGGGGA CGCTTCCTCT CCCATGTGGT GTCCGGCCCA 
GCAGCAGCCT CTACAGGGAG TGCGTCAGAG GACAGGCCAC CTGCACCGCC CTCACACGCC 
GGTCACCCGC GGGTGGCCCG CAGCCCCCTG CGCCCCAGAG GAGCCACTCC ACAGCCTGAC 
CGGCTCTACT TCAATGTCAC TGTTTTTGGG GAGGAATTGC ACTTGCGCCT GCGGCCCAAC 
CGGCGGCTGG TGGTGCCCGG AGCCTCCGCA GAGTGGCAGG AGGACTTTCG GGAGCTCTTC 
CGACAGCCCT TGCAGCAAGA GTGTGTCTAC ACCGGGAGTG TCACAGGCAT GCCAGGGGCA 
GCTGTCGCCA TCAGCAACTG TGATGGACTG GCGGGCCTCA TCCGCACAGA CGTCACCGAC 
TACTTCATTG AGCCCCTGGA GCGGGGGCAG CAAGAGAAGG AGGCCGGCGG GAGGACACAC 
GTGGTGTACC GCCGGGAAGC TGTCCAGCAG GAGTGGGCAG AGCCTGGAGG GGACCTTCAC 
AACGAAGCCT TTGGCCTGGG CGACCTTCCC AACCTGCTGG GCCTGGTGGG AGGCCAGCTG 
GGAGAAGCGG AGCGGAAGCG GCGGCACGCC AAGCCGGGCA GCTACAGCAT CGAGGTGCTG 
CTGGCCGTGG ACGACTCCGT GGTGCGCTTC CACGGCAAGG AGCACGTGCA GAACTACGTC 
CTCACCCTCA TGAACATCGT GAATGAAATT TACCACGACG AGTCCCTGGG GACGCACATT 
AACATTGCGC TTGTCCGCTT GATCATGGTT GGCTACCGAC AATCCCTGAG CCTGATTGAG 
CGTGGGAACC CCTCCCGCAG CCTGGAGCAG GTGTGTCGCT GGGCCCACTC TCAGCAGCGC 
CAGGACCCCG GCCACGCAGA GCACCACGAC CACGTCATCT TCCTCACCCG GCAGGACTTT 
GGGCCCTCAG GGTATGCACC TGTCACGGGC ATGTGCCACC CCCTGAGAAG CTGTGCCCTT 
AACCACGAGG ACGGCTTCTC TTCTGCCTTC GTGGTAGCCC ACGAGACTGG TCATGTGCTC 
GGCATGGAGC ATGACGGCCA GGGCAACGGC TGCGCGGATG AGACCAGCCT GGGCAGCGTC 
ATGGCACCCC TGGTGCAGGC TGCCTTCCAC CGCTTCCACT GGTCCCGCTG CAGCAAGCTG 
GAGCTCAGCC GCTACCTTCC CTCCTACGAC TGCCTCCTGG ATGACCCCTT TGCACCCGCC 
TGGCCCCAGC CCCCGGAGCT GCCTGGCACT GACTATTCCA TGGACGAGCA GTGCCGCTTT 
GACTTCGGTA CCGGGTACCA CACCTGCTCC GCGTTCACGA CCTTTGAGCC CTGTAAGCAG 
CTGTGGTGCA GCCACCCCGA CAACCCGTAC TTCTGCAAGA CCAAGAAGGG GCCCCCGCTG 
GACGGGACCG AGTGTGCGCC AGGCAAGTGG TGCTTCAAAG GTCACTGCAT CTGGAAGTCA 
CCAGAGCAGA CTTACGGCCA GGATGGCGGC TGGAGCTCCT GGACCAACTT CGGGTCATGT 
TCGAGGTCAT GCGGGGGCGG AGTGCGATCC CGTAGCCGGA GCTGTGACAA TCCCTTCCCA 
GCCTACGGAG GCCGCCTGTG CTCAGGGCCC ATGTTCCAGT ACCAGGTCTG CAACAGCGAG 
GAGTGCCCGG GGCCCTACGA GGACTTCCGG GCCCAGCAGT GTGCCAAGCG CAACTCCTAC 
TACCTCCACC AGAACGCCAA GCACAGCTGG GTCCCCCACG AGCCTGATGA TGACACCCAG 
AAGTGCGAGC TGATCTGCCG GTCAGAGGAC ACGGGGGATG TGGTCTTCAT GAACCAAGTG 
GTCCACGATG GGACGCGCTG CAGCTACCGG GACCCCTACA GTGTCTGTGC CCGCGGAGAG 
TGTGTGCCCG TCGGCTGTGA CAAAGAAGTG GGGTCCATGA AGGCAGACGA CAAGTGTGGG 
GTCTGTGGCG GCGACAACTC CCACTGCCGG ACTGTGAAGG GGACGCTGGG CAAGGCCTCC 
AAGCAGGCAG GAGCTCTCAA GCTGGTACAG ATCCCAGCAG GTGCCAGGCA CATCCAGATT 
GAGGAGCTGG AGAAGGCCCC CCACCGCATT GCGGTGAAGA ACCAGGTCAC AGGCAGCTTC 
ATCCTCAACC CCAAGGGCAA GGAAGCCGCT AGCAGGACCT TCACTGCAAT GGGCCTGGAG 
TGGGAGTACG CAGTGGAGGA CGCCAAGGAA ACCCTCAAGA CGAGCGGGCC CCTGCCCGAA 
GCCATCGCTG TCCTGGTGCT CCCCCCAGCT GAGGGTGGCC CCCGCGGCAG CCTGGCCTAC 
AAGTATGTCA TCCACGAGGA CCTGCTGCCC CTCATCGGCA GCAACAACGT TCTGCTGGAG 
GAGACGGACA CCTACGAGTG GGCGCTCAAG AGCTGGGCCC CCTGCACCAA GCCCTGCGGA 
GGAGGTATCC AGTTCACCAA ATACGGCTGT CGGCGCCGAC GAGACCATCA CATGGTACAG 
CGGCACCTGT GCGACCACAA GAAGAGGCCC AAACCCATCC GCAGGCGCTG CAACCAGCAC 
CAGTGCCCCC AGCCTGAGTG GGTGATGGAG GAGTGGAGCA CCTGCAGCCG GAGCTGTGGG 
AAGCTGGGGG TGCAGACTCG GGCAGTGCAG TGCCTGCTGC TCCTCTCCAA CGGTACCCAC 
AAGGCCATGC CAGCCAAAGC CTGCCCTGGG GACCGGCCGG AGGCCAGGCG GCCCTGCCTC 
CGAGTGCCTT GCCCAGCCCA GTGGCGGACC GGAGCCTGGT CCCAGTGCTC TGCCACCTGC 
GGAGAGGGCA TTCAGCAGCG GCAGGTGGTG TGCCGTACCA ATGCCAACAG TCTCGGACAG 
TGCGAGGGGG ACAAGCCGGA CACCATCCAG GCCTGCAGCC TGCCTGCCTG CAGAGGAAAT 
CTCCAGAACT CTACCGTGAG GGCTGACGTC CAGGCACTCG TGACCCCACA ATCTGGGCCC 
CTACATCCTA TTAACAAGAT AACATCAACA GAGCCCTGCA TGGGGGACAG GTCGATCCTC 
TGTCAGATGG AGGTGCACGA GCGCTACTGC TCCATCCCCG GCTACCACCG GCTGTGCTGC 
GAGTCCTGCT CCAAGAAGGC CTCAGGCCCT GATGCCAGCC TGGACCCCCG CCTGACCTCA 
CCACCACCCT CCTCCACTCC TGGGAGCCCC TCGCCAGGAG CCAAGGCCCC TCCAGATGCT 
GTGGAGCCCA CTGTGGCCTC AGTGGGCTCA GACAACCATC CACATGGCCG ACCCATACAG 
CTCCCAGGAC CTCTGGGTAC AAGCCCCCCA GTGACCCAGC GCCTCGGCTC TGCTCCCCAG 
AAACTGAGTC CTGGAGCATT GCAGAGTACT TCCCCTGGCG CCACCCGGGG GCGGCCTTGG 
GGCTGGACCA CTGGCCCACC TCTGCCAGCC TCTGAGGATA AAGGGCAACT CAGGGGAGAC 
CCGAAGCACC CGGGCGCCAG CCTTCCAGCC ACCTCCCCGG TGACATGA

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

PubMed

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03-6811-6572

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オンライン注文

ADAMTS14 cDNA ORF clone, Eptesicus fuscus(big brown bat)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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Services & Products

見積依頼

Eメール

電話

FAX

オンラインフォーム