Adamts7 cDNA ORF clone, Rattus norvegicus(Norway rat)

Gene
Clones
gRNAs

Summary

Gene Symbol	Adamts7
Entrez Gene ID	315879
Full Name	ADAM metallopeptidase with thrombospondin type 1 motif, 7
Synonyms	ADAMTS7B,COMPase
General protein information	Preferred Names ADAM metallopeptidase with thrombospondin type 1 motif, 7 Names A disintegrin and metalloproteinase with thrombospondin motifs 7 ADAM-TS 7 ADAM-TS7 ADAMTS-7 a disintegrin-like and metallopeptidase (reprolysin type) with thrombospondin type 1 motif, 7
Gene Type	protein-coding
Organism	Rattus norvegicus(Norway rat)
Genome	Chromosome: 8 Map Location: 8q31

mRNA and Protein(s)

mRNA	Protein	Name
XM_006243523.1	XP_006243585.1	A disintegrin and metalloproteinase with thrombospondin motifs 7 isoform X1
XM_006243525.1	XP_006243587.1	A disintegrin and metalloproteinase with thrombospondin motifs 7 isoform X4
XM_006243526.1	XP_006243588.1	A disintegrin and metalloproteinase with thrombospondin motifs 7 isoform X5
XM_008766447.2	XP_008764669.1	A disintegrin and metalloproteinase with thrombospondin motifs 7 isoform X2
XM_006243527.3	XP_006243589.1	A disintegrin and metalloproteinase with thrombospondin motifs 7 isoform X6
XM_017595671.1	XP_017451160.1	A disintegrin and metalloproteinase with thrombospondin motifs 7 isoform X7
NM_001047101.1	NP_001040566.1	A disintegrin and metalloproteinase with thrombospondin motifs 7
XM_006243524.1	XP_006243586.1	A disintegrin and metalloproteinase with thrombospondin motifs 7 isoform X3

Pathways from BioSystems

Homologies

Homo sapiens (human)	ADAMTS7	NP_055087.2
Xenopus tropicalis (tropical clawed frog)	adamts7	XP_002933006.2
Rattus norvegicus (Norway rat)	Adamts7	NP_001040566.1
Drosophila melanogaster (fruit fly)	CG4096	NP_572247.2
Anopheles gambiae (African malaria mosquito)	AgaP_AGAP001113	XP_322050.5
Danio rerio (zebrafish)	LOC560364	XP_002662979.3
	ADAMTS7	XP_002804952.1
Canis lupus familiaris (dog)	ADAMTS7	XP_545893.3
Mus musculus (house mouse)	Adamts7	NP_001003911.2
Bos taurus (cattle)	ADAMTS7	XP_003587612.1
Gallus gallus (chicken)	ADAMTS7	XP_003641878.2

Gene Ontology
Bibliography

Related articles in PubMed

Association of ADAMTS-7 Levels with Cardiac Function in a Rat Model of Acute Myocardial Infarction.
Wu W, Wang H, Yu C, Li J, Gao Y, Ke Y, Wang Y, Zhou Y, Zheng J
Cellular physiology and biochemistry : international journal of experimental cellular physiology, biochemistry, and pharmacology38(3)950-8(2016)

ADAMTS-7 promotes vascular smooth muscle cells proliferation in vitro and in vivo.
Zhang L, Yu F, Wang L, Zheng J, Du Y, Huang Y, Liu B, Wang X, Kong W
Science China. Life sciences58(7)674-81(2015 Jul)

ADAMTS-7 forms a positive feedback loop with TNF-? in the pathogenesis of osteoarthritis.
Lai Y, Bai X, Zhao Y, Tian Q, Liu B, Lin EA, Chen Y, Lee B, Appleton CT, Beier F, Yu XP, Liu CJ
Annals of the rheumatic diseases73(8)1575-84(2014 Aug)

Extracellular matrix secretion by cardiac fibroblasts: role of microRNA-29b and microRNA-30c.
Abonnenc M, Nabeebaccus AA, Mayr U, Barallobre-Barreiro J, Dong X, Cuello F, Sur S, Drozdov I, Langley SR, Lu R, Stathopoulou K, Didangelos A, Yin X, Zimmermann WH, Shah AM, Zampetaki A, Mayr M
Circulation research113(10)1138-47(2013 Oct)

Upregulation of a disintegrin and metalloproteinase with thrombospondin motifs-7 by miR-29 repression mediates vascular smooth muscle calcification.
Du Y, Gao C, Liu Z, Wang L, Liu B, He F, Zhang T, Wang Y, Wang X, Xu M, Luo GZ, Zhu Y, Xu Q, Wang X, Kong W
Arteriosclerosis, thrombosis, and vascular biology32(11)2580-8(2012 Nov)

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

Study shows that elevated ADAMTS-7 levels may be involved in ventricular remodeling after acute myocardial infarction.
Title: Association of ADAMTS-7 Levels with Cardiac Function in a Rat Model of Acute Myocardial Infarction.

data demonstrates that ADAMTS-7 promotes VSMC proliferation both in vitro and in vivo. ADAMTS-7 may therefore serve as a novel therapeutic target for atherosclerosis and post-angioplasty restenosis
Title: ADAMTS-7 promotes vascular smooth muscle cells proliferation in vitro and in vivo.

ADAMTS-7 and TNF-alpha form a positive feedback loop in the regulation of cartilage degradation and osteoarthritis progression.
Title: ADAMTS-7 forms a positive feedback loop with TNF-? in the pathogenesis of osteoarthritis.

ADAMTS-7 upregulation by miR-29a/b repression mediates vascular calcification, which may shed light on preventing cardiovascular morbidity and mortality.
Title: Upregulation of a disintegrin and metalloproteinase with thrombospondin motifs-7 by miR-29 repression mediates vascular smooth muscle calcification.

ADAMTS-7 and ADAMTS-12 expression were dramatically increased during disc degeneration.
Title: Expression of ADAMTS-7 and ADAMTS-12 in the nucleus pulposus during degeneration of rat caudal intervetebral disc.

The following Adamts7 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Adamts7 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)
ORa62425	XM_017595671.1 Latest version!	Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 7 (Adamts7), transcript variant X7, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
ORa42571	NM_001047101.1 Latest version!	Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 7 (Adamts7), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$951.30 $1359.00
ORa31445	XM_006243523.1 Latest version!	Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 7 (Adamts7), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
ORa31446	XM_006243524.1 Latest version!	Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 7 (Adamts7), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
ORa31447	XM_006243525.1 Latest version!	Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 7 (Adamts7), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
ORa31448	XM_006243526.1 Latest version!	Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 7 (Adamts7), transcript variant X5, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
ORa31449	XM_006243527.3 Latest version!	Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 7 (Adamts7), transcript variant X6, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$727.30 $1039.00
ORa47477	XM_008766447.2 Latest version!	Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 7 (Adamts7), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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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)

Adamts7 ( XM_017595671.1 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_017451160.1 Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 7 (Adamts7), transcript variant X7, mRNA.

Price & Availability↑

CloneID	ORa62425
Clone ID Related Accession (Same CDS sequence)	XM_017595671.1
Accession Version	XM_017595671.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3315bp) 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	2016-07-25
Organism	Rattus norvegicus(Norway rat)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 7 isoform X7
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005107.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGCCTTC TTCAGCCTAC TGTGAGGACG TGGATAATGT CTGCTACACT CTGTGGTGCT 
CGGTGGGGAC CACCTGTCAC TCCAAGATGG ATGCTGCTGT GGATGGTACG AGCTGTGGGA 
AGAACAAGGC CTAAGAACAA AGGCAAGTAC TGTGTGGGGG AGCGGAAGCG GTACCGGCTC 
TGCAACCTGC AGGCCTGCCC ACCAGACCGT CCCTCTTTCC GCCACACCCA GTGTAGCCAG 
TTTGATAGCA TGCTGTACAA GGGGAAACTA CACAAATGGG TGCCTGTGCT CAACGACGAG 
AACCCATGTG AGCTGCACTG CCGGCCCTTC AACTACTCCA ACAGAGAGAA GCTGAGGGAT 
GCTGTGATGG ATGGCACCCC TTGCTACCAA GGCCGCATCA GCCGTGACAT CTGCATCGAT 
GGCATTTGCA AGAAAGTGGG CTGTGACTTT GAGCTTGACT CTGGTGCTGA GGAGGACCGC 
TGTGGGGTGT GCCGGGGGGA TGGTTCTACT TGCCATACCG TGAGCAGGAC CTTCAAGGAG 
GCTGAAGGCA TGGGGTATGT GGATGTAGGG CTGATCCCAG CTGGAGCCCG AGAGATTCTC 
ATTGAGGAGG TGGCCGAGGC TGCCAACTTC CTGGCCCTGC GGAGTGAGGA CCCAGACAAG 
TACTTCCTCA ATGGCGGCTG GACCATCCAG TGGAATGGGG ACTACCAGGT GGCAGGCACT 
ACCTTCACCT ATACACGCAA GGGCAACTGG GAGACCCTCA CATCCCCAGG CCCCACCACT 
GAGCCTGTCT GGATCCAGCT GCTATTCCAG GAGAGAAACC CTGGGGTACA CTACAAGTAT 
ACCATCCAGA GGGCCAGCCA CAGTGAAGCC CAGCCACCTG AGTTCTCCTG GCACTATGGG 
CCCTGGAGCA AGTGCCCAGT CACCTGTGGG ACAGGTGTGC AGAGGCAGAG TTTGTACTGC 
ATGGAGAAGC AGGCAGGAAT TGTAGATGAG GGACACTGTG ACCATCTGAG TCGGCCCCGT 
GACCGCAAGA GGAAATGCAA TGAGGAGCCC TGTCCTGCCA GGTGGTGGGT AGGGGACTGG 
CAGCCGTGTT CCCGATCCTG TGGGCCTGGA GGTTTCTTTC GCCGGGCTGT GTTCTGCACA 
CGTAGTGTAG GGCTGGATGA GCAGCGTGCC CTTGAGCCAT CTGCTTGTGG ACATCTTCCC 
CGTCCCTTGG CTGAAATCCC GTGCTACCAT TATGTTGCCT GTCCTTCCTC CTGGGGTGTG 
GGGAACTGGT CTCAGTATTC CACGTACATA GTGGACACAG GTGCCTCTGG GAGCGGCTCC 
TCCAGTCCCG AGCTCTTCAA TGAGGTTGAC TTCGACCCGC ACCAGCCGGT CCCACGCCCT 
TCCCCAGCAT CCTCACCCAA GCCAGTCAGC ATCAGCAACG CTATTGATGA GGAAGACCCG 
GAACTGGATC CGCCAGGGCC TGTGTTTGTG GATGATTTCT ATTATGACTA CAATTTCATT 
AACTTCCACG AAGACCTGTC CTATGGGTCC TTTGAAGAAT CCCATTCAGA CCTGGTTGAT 
ATTGGGGGTC AGACAGTACC ACCTCACATC AGACCCACTG AACCCCCCTC AGATTCTCCA 
GTGCCTACTG CAGGAGCTCC TGGAGCTGAG GAAGAGGGCA TTCAGGGATC TTGGTCTCCT 
AGCCCTTTAC TCAGTGAGGC TAGCCATTCC CCACCAGTAT TATTAGAGAA TACCCCTGTG 
AACCCCTTGG CCAATTTCTT GACCGAGGAA GAGAGTCCCA TAGGGGCCCC TGAACTTGGG 
CTCCCCAGCG TGTCCTGGCC CCCTGCTTCA GTTGATGGAA TGGTGACATC TGTTGCCCCT 
GGAAACCCTG ATGAGTTGCT AGTGAGAGAA GATACGCAGA GCCAGCCATC CACTCCATGG 
TCTGACAGGA ACAAGCTTTC TAAAGATGGT AACCCCTTGG GTCCTACATC ACCTGCCCTT 
CCCAAGAGCC CTTTCCCCAC CCAGCCCTCA TCACCCTCCA ACAGTACTAC CCAAGCTTCT 
CTGAGTCCTG ATGCAGTAGA GGTGTCGACA GGATGGAATG TGGCCTTGGA CCCTGTGCTA 
GAGGCTGACC TGAAGCCTGT ACACGGTGAG CTGCGACCCA CTGTGGAGAT GGCTTCTCCT 
CCACTTCCTT CCATGGCCAC TGTGCCAGGT GTCTGGGGCA GGGAGAGCCC TCTTGAACCA 
GGGACTTCCA CCTCTTCAAC CCCAGGACTG AGCTCACAGA ACCTAAAAAC TCTGACAGTG 
CCGGGGACCT TCCTTTTGAC AGCACCAACT GATCCAGGAC TACTGGACCA GATACAGACC 
CCTCACACCG AGGGGACCCA GAGTCCTGGG TTGTTACCTA GACCAGCTCA GGAGACTCAA 
ACTAACAGTA GCAAGGACCC TGCAGTCCAG CCTTTGCAGC CCAGCCTAGT GGAGGACGGC 
GCCCCTACAG ATCTGCTGCC TGCCAAGAAT GCCAGTTGGC AAGTAGGAAA CTGGAGCCAG 
TGTTCCACTA CCTGTGGCCT GGGTGCCATT TGGAGGCTTG TGCGCTGCAG CTCTGGCAAT 
GATGAAGACT GCACCCTTTC AAGCCGTCCC CAGCCAGCCC GCCATTGTCA TCTGAGGCCC 
TGTGCTGCCT GGCGTGCAGG CAACTGGAGT AAGTGCTCTC GCAACTGTGG TGGCGGTTCC 
GCTACCAGGG ATGTACAGTG TGTGGACACA CGGGATCTCC GGCCATTGCG GCCCTTTCAC 
TGCCAGCCCG GGCCTACCAA GCCACCCACC CGTCAGCTTT GTGGGACCCA ACCTTGCCTC 
CCCTGGTACA CCTCCTCCTG GAGAGAGTGC TCTGAGGCTT GTGGTGGTGG CGAACAGCAG 
CGTCTGGTGA CTTGTCCAGA GCCAGGCCTC TGTGAGGAGT CGCTGAGACC CAACAACACC 
AGGCCCTGCA ACACCCACCC CTGCACACAG TGGGTGGTAG GGCCCTGGGG TCAGTGCTCA 
GCCCCCTGTG GTGGTGGTGT TCAGCGGCGT CTGGTCAAGT GTGTGAACAC TCAGACAGGC 
TTGGCAGAGG AAGACAGTGA CCTGTGTAGC CATGAGGCCT GGCCTGAGAG CTCACGGCCA 
TGTGCCACTG AGGACTGTGA ACTGGTTGAA CCCTCACGTT GTGAGCGGGA TCGCCTGCCC 
TTCAATTTCT GTGAGACGCT GCGTCTGTTG GGCCGCTGCC AGCTGCCCAC CATCCGCGCT 
CAGTGCTGCC GCTCATGTCC CCCACTCAGC CGCGGTGTCC CTTCCCGAGG CCATCAACGG 
GTGGCCAGAC GATAA

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

RefSeq	XP_017451160.1
CDS	1..3315
Translation	MGLLQPTVRTWIMSATLCGARWGPPVTPRWMLLWMVRAVGRTRPKNKGKYCVGERKRYRLCNLQACPPDRPSFRHTQCSQFDSMLYKGKLHKWVPVLNDENPCELHCRPFNYSNREKLRDAVMDGTPCYQGRISRDICIDGICKKVGCDFELDSGAEEDRCGVCRGDGSTCHTVSRTFKEAEGMGYVDVGLIPAGAREILIEEVAEAANFLALRSEDPDKYFLNGGWTIQWNGDYQVAGTTFTYTRKGNWETLTSPGPTTEPVWIQLLFQERNPGVHYKYTIQRASHSEAQPPEFSWHYGPWSKCPVTCGTGVQRQSLYCMEKQAGIVDEGHCDHLSRPRDRKRKCNEEPCPARWWVGDWQPCSRSCGPGGFFRRAVFCTRSVGLDEQRALEPSACGHLPRPLAEIPCYHYVACPSSWGVGNWSQYSTYIVDTGASGSGSSSPELFNEVDFDPHQPVPRPSPASSPKPVSISNAIDEEDPELDPPGPVFVDDFYYDYNFINFHEDLSYGSFEESHSDLVDIGGQTVPPHIRPTEPPSDSPVPTAGAPGAEEEGIQGSWSPSPLLSEASHSPPVLLENTPVNPLANFLTEEESPIGAPELGLPSVSWPPASVDGMVTSVAPGNPDELLVREDTQSQPSTPWSDRNKLSKDGNPLGPTSPALPKSPFPTQPSSPSNSTTQASLSPDAVEVSTGWNVALDPVLEADLKPVHGELRPTVEMASPPLPSMATVPGVWGRESPLEPGTSTSSTPGLSSQNLKTLTVPGTFLLTAPTDPGLLDQIQTPHTEGTQSPGLLPRPAQETQTNSSKDPAVQPLQPSLVEDGAPTDLLPAKNASWQVGNWSQCSTTCGLGAIWRLVRCSSGNDEDCTLSSRPQPARHCHLRPCAAWRAGNWSKCSRNCGGGSATRDVQCVDTRDLRPLRPFHCQPGPTKPPTRQLCGTQPCLPWYTSSWRECSEACGGGEQQRLVTCPEPGLCEESLRPNNTRPCNTHPCTQWVVGPWGQCSAPCGGGVQRRLVKCVNTQTGLAEEDSDLCSHEAWPESSRPCATEDCELVEPSRCERDRLPFNFCETLRLLGRCQLPTIRAQCCRSCPPLSRGVPSRGHQRVARR

Target ORF information:

RefSeq Version	XM_017595671.1
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 7 (Adamts7), transcript variant X7, mRNA.

Target ORF information:

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

XM_017595671.1

ORF Insert Sequence:

ATGGGCCTTC TTCAGCCTAC TGTGAGGACG TGGATAATGT CTGCTACACT CTGTGGTGCT 
CGGTGGGGAC CACCTGTCAC TCCAAGATGG ATGCTGCTGT GGATGGTACG AGCTGTGGGA 
AGAACAAGGC CTAAGAACAA AGGCAAGTAC TGTGTGGGGG AGCGGAAGCG GTACCGGCTC 
TGCAACCTGC AGGCCTGCCC ACCAGACCGT CCCTCTTTCC GCCACACCCA GTGTAGCCAG 
TTTGATAGCA TGCTGTACAA GGGGAAACTA CACAAATGGG TGCCTGTGCT CAACGACGAG 
AACCCATGTG AGCTGCACTG CCGGCCCTTC AACTACTCCA ACAGAGAGAA GCTGAGGGAT 
GCTGTGATGG ATGGCACCCC TTGCTACCAA GGCCGCATCA GCCGTGACAT CTGCATCGAT 
GGCATTTGCA AGAAAGTGGG CTGTGACTTT GAGCTTGACT CTGGTGCTGA GGAGGACCGC 
TGTGGGGTGT GCCGGGGGGA TGGTTCTACT TGCCATACCG TGAGCAGGAC CTTCAAGGAG 
GCTGAAGGCA TGGGGTATGT GGATGTAGGG CTGATCCCAG CTGGAGCCCG AGAGATTCTC 
ATTGAGGAGG TGGCCGAGGC TGCCAACTTC CTGGCCCTGC GGAGTGAGGA CCCAGACAAG 
TACTTCCTCA ATGGCGGCTG GACCATCCAG TGGAATGGGG ACTACCAGGT GGCAGGCACT 
ACCTTCACCT ATACACGCAA GGGCAACTGG GAGACCCTCA CATCCCCAGG CCCCACCACT 
GAGCCTGTCT GGATCCAGCT GCTATTCCAG GAGAGAAACC CTGGGGTACA CTACAAGTAT 
ACCATCCAGA GGGCCAGCCA CAGTGAAGCC CAGCCACCTG AGTTCTCCTG GCACTATGGG 
CCCTGGAGCA AGTGCCCAGT CACCTGTGGG ACAGGTGTGC AGAGGCAGAG TTTGTACTGC 
ATGGAGAAGC AGGCAGGAAT TGTAGATGAG GGACACTGTG ACCATCTGAG TCGGCCCCGT 
GACCGCAAGA GGAAATGCAA TGAGGAGCCC TGTCCTGCCA GGTGGTGGGT AGGGGACTGG 
CAGCCGTGTT CCCGATCCTG TGGGCCTGGA GGTTTCTTTC GCCGGGCTGT GTTCTGCACA 
CGTAGTGTAG GGCTGGATGA GCAGCGTGCC CTTGAGCCAT CTGCTTGTGG ACATCTTCCC 
CGTCCCTTGG CTGAAATCCC GTGCTACCAT TATGTTGCCT GTCCTTCCTC CTGGGGTGTG 
GGGAACTGGT CTCAGTATTC CACGTACATA GTGGACACAG GTGCCTCTGG GAGCGGCTCC 
TCCAGTCCCG AGCTCTTCAA TGAGGTTGAC TTCGACCCGC ACCAGCCGGT CCCACGCCCT 
TCCCCAGCAT CCTCACCCAA GCCAGTCAGC ATCAGCAACG CTATTGATGA GGAAGACCCG 
GAACTGGATC CGCCAGGGCC TGTGTTTGTG GATGATTTCT ATTATGACTA CAATTTCATT 
AACTTCCACG AAGACCTGTC CTATGGGTCC TTTGAAGAAT CCCATTCAGA CCTGGTTGAT 
ATTGGGGGTC AGACAGTACC ACCTCACATC AGACCCACTG AACCCCCCTC AGATTCTCCA 
GTGCCTACTG CAGGAGCTCC TGGAGCTGAG GAAGAGGGCA TTCAGGGATC TTGGTCTCCT 
AGCCCTTTAC TCAGTGAGGC TAGCCATTCC CCACCAGTAT TATTAGAGAA TACCCCTGTG 
AACCCCTTGG CCAATTTCTT GACCGAGGAA GAGAGTCCCA TAGGGGCCCC TGAACTTGGG 
CTCCCCAGCG TGTCCTGGCC CCCTGCTTCA GTTGATGGAA TGGTGACATC TGTTGCCCCT 
GGAAACCCTG ATGAGTTGCT AGTGAGAGAA GATACGCAGA GCCAGCCATC CACTCCATGG 
TCTGACAGGA ACAAGCTTTC TAAAGATGGT AACCCCTTGG GTCCTACATC ACCTGCCCTT 
CCCAAGAGCC CTTTCCCCAC CCAGCCCTCA TCACCCTCCA ACAGTACTAC CCAAGCTTCT 
CTGAGTCCTG ATGCAGTAGA GGTGTCGACA GGATGGAATG TGGCCTTGGA CCCTGTGCTA 
GAGGCTGACC TGAAGCCTGT ACACGGTGAG CTGCGACCCA CTGTGGAGAT GGCTTCTCCT 
CCACTTCCTT CCATGGCCAC TGTGCCAGGT GTCTGGGGCA GGGAGAGCCC TCTTGAACCA 
GGGACTTCCA CCTCTTCAAC CCCAGGACTG AGCTCACAGA ACCTAAAAAC TCTGACAGTG 
CCGGGGACCT TCCTTTTGAC AGCACCAACT GATCCAGGAC TACTGGACCA GATACAGACC 
CCTCACACCG AGGGGACCCA GAGTCCTGGG TTGTTACCTA GACCAGCTCA GGAGACTCAA 
ACTAACAGTA GCAAGGACCC TGCAGTCCAG CCTTTGCAGC CCAGCCTAGT GGAGGACGGC 
GCCCCTACAG ATCTGCTGCC TGCCAAGAAT GCCAGTTGGC AAGTAGGAAA CTGGAGCCAG 
TGTTCCACTA CCTGTGGCCT GGGTGCCATT TGGAGGCTTG TGCGCTGCAG CTCTGGCAAT 
GATGAAGACT GCACCCTTTC AAGCCGTCCC CAGCCAGCCC GCCATTGTCA TCTGAGGCCC 
TGTGCTGCCT GGCGTGCAGG CAACTGGAGT AAGTGCTCTC GCAACTGTGG TGGCGGTTCC 
GCTACCAGGG ATGTACAGTG TGTGGACACA CGGGATCTCC GGCCATTGCG GCCCTTTCAC 
TGCCAGCCCG GGCCTACCAA GCCACCCACC CGTCAGCTTT GTGGGACCCA ACCTTGCCTC 
CCCTGGTACA CCTCCTCCTG GAGAGAGTGC TCTGAGGCTT GTGGTGGTGG CGAACAGCAG 
CGTCTGGTGA CTTGTCCAGA GCCAGGCCTC TGTGAGGAGT CGCTGAGACC CAACAACACC 
AGGCCCTGCA ACACCCACCC CTGCACACAG TGGGTGGTAG GGCCCTGGGG TCAGTGCTCA 
GCCCCCTGTG GTGGTGGTGT TCAGCGGCGT CTGGTCAAGT GTGTGAACAC TCAGACAGGC 
TTGGCAGAGG AAGACAGTGA CCTGTGTAGC CATGAGGCCT GGCCTGAGAG CTCACGGCCA 
TGTGCCACTG AGGACTGTGA ACTGGTTGAA CCCTCACGTT GTGAGCGGGA TCGCCTGCCC 
TTCAATTTCT GTGAGACGCT GCGTCTGTTG GGCCGCTGCC AGCTGCCCAC CATCCGCGCT 
CAGTGCTGCC GCTCATGTCC CCCACTCAGC CGCGGTGTCC CTTCCCGAGG CCATCAACGG 
GTGGCCAGAC GATAA

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

Adamts7 ( NM_001047101.1 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> NP_001040566.1 Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 7 (Adamts7), mRNA.

Price & Availability↑

CloneID	ORa42571
Clone ID Related Accession (Same CDS sequence)	NM_001047101.1
Accession Version	NM_001047101.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5427bp) 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	2019-10-18
Organism	Rattus norvegicus(Norway rat)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 7
Comment	Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from AY257482.1. On or before Sep 7, 2006 this sequence version replaced XM_236471.4, XM_001066795.1. 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 :: AY257482.1 [ECO:0000332] ##Evidence-Data-END##

ATGGCAGAAG AGGATATTGG GACTGAATCC TTTGGGGAAG AGGGAGAGAG AGGGCCCCAG 
AGTCCTGATG AAATCATTTT CCAGCAGTGC AAAATGTTTG CTCTACATAT TCAGAGGAAG 
AGAAAGCAGT TAGGTGCCAG TTTTTGGCAC CTTTGCACTG GGAGATGTTC GGGAAGATGG 
GGTAGTCTTA GTTGTTCCTG CCACTGTCAG AGATGTCAGA GGTGGAGGGA GAGAGAGGAT 
GGAACCAGAA GAAGCCAAGG ACAGAGAGAG AAGAAAGATG ACAAGGGACT AGAGAAACCA 
AAACGAAAGG TGCAGAAGGG GAAACAGATG CAGAAAGCAT CTGGAGACAA GGAATCAGAG 
AACTCTATCT CCAGGAAGAA ACCGCTGCCC AGTCTAGAAG GGCCTAGGCC TCTTTCCTGG 
GTTGACTTTG GACACAAATC TAGAAGCCCC CCAAGGAGAT CCTGCCTCCT CTCTGTGCCA 
TCTCGGTCTC TTGCGGGTTT CCAGGTTTCC TTCTCTGAAG GGCAGGCATT CTTTGCCTGG 
GACCCCGAAA CATCTGAAAC ACAGATTGGT GACAAGAAAC TGCAGAACTC CAGATCTTTT 
GGGGGGACCT CAGAGGGTAC AGATGGCCTG GGCCTGCTCC ACCGCCAGGG GACGTCTGTA 
GCCCTGCAGG CGGTCCAGAG CCTGAGTTGT AGGGTGGGGA CCGTGCTCCG TCTCCCAACT 
GAGGGCCGGG CGGGTTTGGA CATCGTGCAC CCTGTGCGAG TGGATGCTGG AGGCTCCTTC 
CTGTCCTATG AGCTGTGGCC ACGGGTGCTG CGTAAGCGGG ATGTGTCTGC TGCGCAGGCC 
TCATCCGCGT TCTACCAGCT GCAGTACCAA GGGCGGGAGC TGCTTTTCAA CCTGACCACC 
AACCCTTATC TCCTGGCTCC CGGCTTTGTG AGTGAGATCC GACGTCGCAG CAACCTAAGC 
AACGTGCACA TCCAAACCAG TGTCCCAACC TGCCATTTGC TTGGCGATGT CCAAGACCCA 
GAGCTGGAAG GTGGCTTTGC AGCCATCAGC GCCTGTGATG GCCTAAGAGG TGTGTTCCAG 
CTCTCCAATG AGGACTACTT CATTGAGCCT CTGGATGAAG TTCCAGCTCA GCCTGGACAT 
GCCCAGCCCC ATATGGTGTA CAAGCACAAA CGCTCTGGGC AGCAGGATGA CTCAAGGACT 
TCAGGCACCT GTGGGGTGCA AGGGTCCCCA GAGCTGAAGC ACCAGCGAGA ACATTGGGAA 
CAGCGGCAGC AGAAGCGGAG GCAGCAGCGA TCAATCAGCA AAGAGAAGTG GGTGGAGACC 
CTGGTAGTGG CTGATTCCAA GATGGTGGAG TACCACGGGC AGCCGCAAGT GGAGAGCTAT 
GTGCTGACGA TCATGAACAT GGTGGCTGGA CTGTATCATG ATCCAAGCAT TGGGAATCCC 
ATTCACATCA CCGTTGTGCG CCTTATTATA CTGGAAGACG AGGAGAAGGA CTTAAAGATC 
ACACACCATG CTGATGACAC TCTGAAGAAC TTCTGTAGGT GGCAGAAGAA TGTCAACATG 
AAGGGGGATG ACCACCCACA GCACCATGAC ACTGCCATCC TGCTTACCAG GAAGGATTTG 
TGTGCAACCA TGAACCACCC CTGTGAAACC TTGGGCCTGT CTCACGTGGC TGGCTTGTGC 
CACCCTCAGC TCAGCTGTAG TGTCAGTGAG GATACTGGCC TGCCTCTGGC CTTCACTGTG 
GCCCATGAGC TAGGACACAG TTTTGGCATT CAGCATGACG GCACCGGCAA TGACTGTGAA 
TCCATTGGGA AACGGCCTTT CATCATGTCT CCACAGCTCC TGTATGACAG AGGCATTCCA 
CTCACCTGGT CCCGCTGCAG CCGCGAGTAC ATCACCAGGT TCCTCGACCG TGGGTGGGGC 
CTGTGCTTAG ATGACCGTCC ATCCAAGGGT GTCATTAACT TCCCCTCGGT GCTGCCCGGT 
GTCCTGTACG ATGTGAACCA TCAGTGCCGC CTTCAGTATG GGCCTTCTTC AGCCTACTGT 
GAGGACGTGG ATAATGTCTG CTACACTCTG TGGTGCTCGG TGGGGACCAC CTGTCACTCC 
AAGATGGATG CTGCTGTGGA TGGTACGAGC TGTGGGAAGA ACAAGTGGTG TCTCAATGGA 
GAGTGCGTCC CTGAGGGCTT CCAGCCCGAG ACGGTGGACG GTGGCTGGTC CGGTTGGAGT 
GCCTGGTCTG TCTGCTCGCG GAGCTGTGGC GTGGGCGTAC GGAGTTCTGA ACGACAGTGC 
ACACAGCCTG TGCCTAAGAA CAAAGGCAAG TACTGTGTGG GGGAGCGGAA GCGGTACCGG 
CTCTGCAACC TGCAGGCCTG CCCACCAGAC CGTCCCTCTT TCCGCCACAC CCAGTGTAGC 
CAGTTTGATA GCATGCTGTA CAAGGGGAAA CTACACAAAT GGGTGCCTGT GCTCAACGAC 
GAGAACCCAT GTGAGCTGCA CTGCCGGCCC TTCAACTACT CCAACAGAGA GAAGCTGAGG 
GATGCTGTGA TGGATGGCAC CCCTTGCTAC CAAGGCCGCA TCAGCCGTGA CATCTGCATC 
GATGGCATTT GCAAGAAAGT GGGCTGTGAC TTTGAGCTTG ACTCTGGTGC TGAGGAGGAC 
CGCTGTGGGG TGTGCCGGGG GGATGGTTCT ACTTGCCATA CCGTGAGCAG GACCTTCAAG 
GAGGCTGAAG GCATGGGGTA TGTGGATGTA GGGCTGATCC CAGCTGGAGC CCGAGAGATT 
CTCATTGAGG AGGTGGCCGA GGCTGCCAAC TTCCTGGCCC TGCGGAGTGA GGACCCAGAC 
AAGTACTTCC TCAATGGCGG CTGGACCATC CAGTGGAATG GGGACTACCA GGTGGCAGGC 
ACTACCTTCA CCTATACACG CAAGGGCAAC TGGGAGACCC TCACATCCCC AGGCCCCACC 
ACTGAGCCTG TCTGGATCCA GCTGCTATTC CAGGAGAGAA ACCCTGGGGT ACACTACAAG 
TATACCATCC AGAGGGCCAG CCACAGTGAA GCCCAGCCAC CTGAGTTCTC CTGGCACTAT 
GGGCCCTGGA GCAAGTGCCC AGTCACCTGT GGGACAGGTG TGCAGAGGCA GAGTTTGTAC 
TGCATGGAGA AGCAGGCAGG AATTGTAGAT GAGGGACACT GTGACCATCT GAGTCGGCCC 
CGTGACCGCA AGAGGAAATG CAATGAGGAG CCCTGTCCTG CCAGGTGGTG GGTAGGGGAC 
TGGCAGCCGT GTTCCCGATC CTGTGGGCCT GGAGGTTTCT TTCGCCGGGC TGTGTTCTGC 
ACACGTAGTG TAGGGCTGGA TGAGCAGCGT GCCCTTGAGC CATCTGCTTG TGGACATCTT 
CCCCGTCCCT TGGCTGAAAT CCCGTGCTAC CATTATGTTG CCTGTCCTTC CTCCTGGGGT 
GTGGGGAACT GGTCTCAGTG CTCTGTGACA TGTGGAGCTG GCATTCGGCA ACGAAGTGTC 
CTCTGCATCA ACAATACTGG TGTCCCCTGT GATGGAGCTG AGCGACCAAT AACTGAGACC 
TTTTGTTTTC TGCAACCCTG CCAGTATTCC ACGTACATAG TGGACACAGG TGCCTCTGGG 
AGCGGCTCCT CCAGTCCCGA GCTCTTCAAT GAGGTTGACT TCGACCCGCA CCAGCCGGTC 
CCACGCCCTT CCCCAGCATC CTCACCCAAG CCAGTCAGCA TCAGCAACGC TATTGATGAG 
GAAGACCCGG AACTGGATCC GCCAGGGCCT GTGTTTGTGG ATGATTTCTA TTATGACTAC 
AATTTCATTA ACTTCCACGA AGACCTGTCC TATGGGTCCT TTGAAGAATC CCATTCAGAC 
CTGGTTGATA TTGGGGGTCA GACAGTACCA CCTCACATCA GACCCACTGA ACCCCCCTCA 
GATTCTCCAG TGCCTACTGC AGGAGCTCCT GGAGCTGAGG AAGAGGGCAT TCAGGGATCT 
TGGTCTCCTA GCCCTTTACT CAGTGAGGCT AGCCATTCCC CACCAGTATT ATTAGAGAAT 
ACCCCTGTGA ACCCCTTGGC CAATTTCTTG ACCGAGGAAG AGAGTCCCAT AGGGGCCCCT 
GAACTTGGGC TCCCCAGCGT GTCCTGGCCC CCTGCTTCAG TTGATGGAAT GGTGACATCT 
GTTGCCCCTG GAAACCCTGA TGAGTTGCTA GTGAGAGAAG ATACGCAGAG CCAGCCATCC 
ACTCCATGGT CTGACAGGAA CAAGCTTTCT AAAGATGGTA ACCCCTTGGG TCCTACATCA 
CCTGCCCTTC CCAAGAGCCC TTTCCCCACC CAGCCCTCAT CACCCTCCAA CAGTACTACC 
CAAGCTTCTC TGAGTCCTGA TGCAGTAGAG GTGTCGACAG GATGGAATGT GGCCTTGGAC 
CCTGTGCTAG AGGCTGACCT GAAGCCTGTA CACGCACCAA CTGATCCAGG ACTACTGGAC 
CAGATACAGA CCCCTCACAC CGAGGGGACC CAGAGTCCTG GGTTGTTACC TAGACCAGCT 
CAGGAGACTC AAACTAACAG TAGCAAGGAC CCTGCAGTCC AGCCTTTGCA GCCCAGCCTA 
GTGGAGGACG GCGCCCCTAC AGATCTGCTG CCTGCCAAGA ATGCCAGTTG GCAAGTAGGA 
AACTGGAGCC AGTGTTCCAC TACCTGTGGC CTGGGTGCCA TTTGGAGGCT TGTGCGCTGC 
AGCTCTGGCA ATGATGAAGA CTGCACCCTT TCAAGCCGTC CCCAGCCAGC CCGCCATTGT 
CATCTGAGGC CCTGTGCTGC CTGGCGTGCA GGCAACTGGA GTAAGTGCTC TCGCAACTGT 
GGTGGCGGTT CCGCTACCAG GGATGTACAG TGTGTGGACA CACGGGATCT CCGGCCATTG 
CGGCCCTTTC ACTGCCAGCC CGGGCCTACC AAGCCACCCA CCCGTCAGCT TTGTGGGACC 
CAACCTTGCC TCCCCTGGTA CACCTCCTCC TGGAGAGAGT GCTCTGAGGC TTGTGGTGGT 
GGCGAACAGC AGCGTCTGGT GACTTGTCCA GAGCCAGGCC TCTGTGAGGA GTCGCTGAGA 
CCCAACAACA CCAGGCCCTG CAACACCCAC CCCTGCACAC AGTGGGTGGT AGGGCCCTGG 
GGTCAGTGCT CAGCCCCCTG TGGTGGTGGT GTTCAGCGGC GTCTGGTCAA GTGTGTGAAC 
ACTCAGACAG GCTTGGCAGA GGAAGACAGT GACCTGTGTA GCCATGAGGC CTGGCCTGAG 
AGCTCACGGC CATGTGCCAC TGAGGACTGT GAACTGGTTG AACCCTCACG TTGTGAGCGG 
GATCGCCTGC CCTTCAATTT CTGTGAGACG CTGCGTCTGT TGGGCCGCTG CCAGCTGCCC 
ACCATCCGCG CTCAGTGCTG CCGCTCATGT CCCCCACTCA GCCGCGGTGT CCCTTCCCGA 
GGCCATCAAC GGGTGGCCAG ACGATAA

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

RefSeq	NP_001040566.1
CDS	1..5427
Translation	MAEEDIGTESFGEEGERGPQSPDEIIFQQCKMFALHIQRKRKQLGASFWHLCTGRCSGRWGSLSCSCHCQRCQRWREREDGTRRSQGQREKKDDKGLEKPKRKVQKGKQMQKASGDKESENSISRKKPLPSLEGPRPLSWVDFGHKSRSPPRRSCLLSVPSRSLAGFQVSFSEGQAFFAWDPETSETQIGDKKLQNSRSFGGTSEGTDGLGLLHRQGTSVALQAVQSLSCRVGTVLRLPTEGRAGLDIVHPVRVDAGGSFLSYELWPRVLRKRDVSAAQASSAFYQLQYQGRELLFNLTTNPYLLAPGFVSEIRRRSNLSNVHIQTSVPTCHLLGDVQDPELEGGFAAISACDGLRGVFQLSNEDYFIEPLDEVPAQPGHAQPHMVYKHKRSGQQDDSRTSGTCGVQGSPELKHQREHWEQRQQKRRQQRSISKEKWVETLVVADSKMVEYHGQPQVESYVLTIMNMVAGLYHDPSIGNPIHITVVRLIILEDEEKDLKITHHADDTLKNFCRWQKNVNMKGDDHPQHHDTAILLTRKDLCATMNHPCETLGLSHVAGLCHPQLSCSVSEDTGLPLAFTVAHELGHSFGIQHDGTGNDCESIGKRPFIMSPQLLYDRGIPLTWSRCSREYITRFLDRGWGLCLDDRPSKGVINFPSVLPGVLYDVNHQCRLQYGPSSAYCEDVDNVCYTLWCSVGTTCHSKMDAAVDGTSCGKNKWCLNGECVPEGFQPETVDGGWSGWSAWSVCSRSCGVGVRSSERQCTQPVPKNKGKYCVGERKRYRLCNLQACPPDRPSFRHTQCSQFDSMLYKGKLHKWVPVLNDENPCELHCRPFNYSNREKLRDAVMDGTPCYQGRISRDICIDGICKKVGCDFELDSGAEEDRCGVCRGDGSTCHTVSRTFKEAEGMGYVDVGLIPAGAREILIEEVAEAANFLALRSEDPDKYFLNGGWTIQWNGDYQVAGTTFTYTRKGNWETLTSPGPTTEPVWIQLLFQERNPGVHYKYTIQRASHSEAQPPEFSWHYGPWSKCPVTCGTGVQRQSLYCMEKQAGIVDEGHCDHLSRPRDRKRKCNEEPCPARWWVGDWQPCSRSCGPGGFFRRAVFCTRSVGLDEQRALEPSACGHLPRPLAEIPCYHYVACPSSWGVGNWSQCSVTCGAGIRQRSVLCINNTGVPCDGAERPITETFCFLQPCQYSTYIVDTGASGSGSSSPELFNEVDFDPHQPVPRPSPASSPKPVSISNAIDEEDPELDPPGPVFVDDFYYDYNFINFHEDLSYGSFEESHSDLVDIGGQTVPPHIRPTEPPSDSPVPTAGAPGAEEEGIQGSWSPSPLLSEASHSPPVLLENTPVNPLANFLTEEESPIGAPELGLPSVSWPPASVDGMVTSVAPGNPDELLVREDTQSQPSTPWSDRNKLSKDGNPLGPTSPALPKSPFPTQPSSPSNSTTQASLSPDAVEVSTGWNVALDPVLEADLKPVHAPTDPGLLDQIQTPHTEGTQSPGLLPRPAQETQTNSSKDPAVQPLQPSLVEDGAPTDLLPAKNASWQVGNWSQCSTTCGLGAIWRLVRCSSGNDEDCTLSSRPQPARHCHLRPCAAWRAGNWSKCSRNCGGGSATRDVQCVDTRDLRPLRPFHCQPGPTKPPTRQLCGTQPCLPWYTSSWRECSEACGGGEQQRLVTCPEPGLCEESLRPNNTRPCNTHPCTQWVVGPWGQCSAPCGGGVQRRLVKCVNTQTGLAEEDSDLCSHEAWPESSRPCATEDCELVEPSRCERDRLPFNFCETLRLLGRCQLPTIRAQCCRSCPPLSRGVPSRGHQRVARR

Target ORF information:

RefSeq Version	NM_001047101.1
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 7 (Adamts7), mRNA.

Target ORF information:

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

NM_001047101.1

ORF Insert Sequence:

ATGGCAGAAG AGGATATTGG GACTGAATCC TTTGGGGAAG AGGGAGAGAG AGGGCCCCAG 
AGTCCTGATG AAATCATTTT CCAGCAGTGC AAAATGTTTG CTCTACATAT TCAGAGGAAG 
AGAAAGCAGT TAGGTGCCAG TTTTTGGCAC CTTTGCACTG GGAGATGTTC GGGAAGATGG 
GGTAGTCTTA GTTGTTCCTG CCACTGTCAG AGATGTCAGA GGTGGAGGGA GAGAGAGGAT 
GGAACCAGAA GAAGCCAAGG ACAGAGAGAG AAGAAAGATG ACAAGGGACT AGAGAAACCA 
AAACGAAAGG TGCAGAAGGG GAAACAGATG CAGAAAGCAT CTGGAGACAA GGAATCAGAG 
AACTCTATCT CCAGGAAGAA ACCGCTGCCC AGTCTAGAAG GGCCTAGGCC TCTTTCCTGG 
GTTGACTTTG GACACAAATC TAGAAGCCCC CCAAGGAGAT CCTGCCTCCT CTCTGTGCCA 
TCTCGGTCTC TTGCGGGTTT CCAGGTTTCC TTCTCTGAAG GGCAGGCATT CTTTGCCTGG 
GACCCCGAAA CATCTGAAAC ACAGATTGGT GACAAGAAAC TGCAGAACTC CAGATCTTTT 
GGGGGGACCT CAGAGGGTAC AGATGGCCTG GGCCTGCTCC ACCGCCAGGG GACGTCTGTA 
GCCCTGCAGG CGGTCCAGAG CCTGAGTTGT AGGGTGGGGA CCGTGCTCCG TCTCCCAACT 
GAGGGCCGGG CGGGTTTGGA CATCGTGCAC CCTGTGCGAG TGGATGCTGG AGGCTCCTTC 
CTGTCCTATG AGCTGTGGCC ACGGGTGCTG CGTAAGCGGG ATGTGTCTGC TGCGCAGGCC 
TCATCCGCGT TCTACCAGCT GCAGTACCAA GGGCGGGAGC TGCTTTTCAA CCTGACCACC 
AACCCTTATC TCCTGGCTCC CGGCTTTGTG AGTGAGATCC GACGTCGCAG CAACCTAAGC 
AACGTGCACA TCCAAACCAG TGTCCCAACC TGCCATTTGC TTGGCGATGT CCAAGACCCA 
GAGCTGGAAG GTGGCTTTGC AGCCATCAGC GCCTGTGATG GCCTAAGAGG TGTGTTCCAG 
CTCTCCAATG AGGACTACTT CATTGAGCCT CTGGATGAAG TTCCAGCTCA GCCTGGACAT 
GCCCAGCCCC ATATGGTGTA CAAGCACAAA CGCTCTGGGC AGCAGGATGA CTCAAGGACT 
TCAGGCACCT GTGGGGTGCA AGGGTCCCCA GAGCTGAAGC ACCAGCGAGA ACATTGGGAA 
CAGCGGCAGC AGAAGCGGAG GCAGCAGCGA TCAATCAGCA AAGAGAAGTG GGTGGAGACC 
CTGGTAGTGG CTGATTCCAA GATGGTGGAG TACCACGGGC AGCCGCAAGT GGAGAGCTAT 
GTGCTGACGA TCATGAACAT GGTGGCTGGA CTGTATCATG ATCCAAGCAT TGGGAATCCC 
ATTCACATCA CCGTTGTGCG CCTTATTATA CTGGAAGACG AGGAGAAGGA CTTAAAGATC 
ACACACCATG CTGATGACAC TCTGAAGAAC TTCTGTAGGT GGCAGAAGAA TGTCAACATG 
AAGGGGGATG ACCACCCACA GCACCATGAC ACTGCCATCC TGCTTACCAG GAAGGATTTG 
TGTGCAACCA TGAACCACCC CTGTGAAACC TTGGGCCTGT CTCACGTGGC TGGCTTGTGC 
CACCCTCAGC TCAGCTGTAG TGTCAGTGAG GATACTGGCC TGCCTCTGGC CTTCACTGTG 
GCCCATGAGC TAGGACACAG TTTTGGCATT CAGCATGACG GCACCGGCAA TGACTGTGAA 
TCCATTGGGA AACGGCCTTT CATCATGTCT CCACAGCTCC TGTATGACAG AGGCATTCCA 
CTCACCTGGT CCCGCTGCAG CCGCGAGTAC ATCACCAGGT TCCTCGACCG TGGGTGGGGC 
CTGTGCTTAG ATGACCGTCC ATCCAAGGGT GTCATTAACT TCCCCTCGGT GCTGCCCGGT 
GTCCTGTACG ATGTGAACCA TCAGTGCCGC CTTCAGTATG GGCCTTCTTC AGCCTACTGT 
GAGGACGTGG ATAATGTCTG CTACACTCTG TGGTGCTCGG TGGGGACCAC CTGTCACTCC 
AAGATGGATG CTGCTGTGGA TGGTACGAGC TGTGGGAAGA ACAAGTGGTG TCTCAATGGA 
GAGTGCGTCC CTGAGGGCTT CCAGCCCGAG ACGGTGGACG GTGGCTGGTC CGGTTGGAGT 
GCCTGGTCTG TCTGCTCGCG GAGCTGTGGC GTGGGCGTAC GGAGTTCTGA ACGACAGTGC 
ACACAGCCTG TGCCTAAGAA CAAAGGCAAG TACTGTGTGG GGGAGCGGAA GCGGTACCGG 
CTCTGCAACC TGCAGGCCTG CCCACCAGAC CGTCCCTCTT TCCGCCACAC CCAGTGTAGC 
CAGTTTGATA GCATGCTGTA CAAGGGGAAA CTACACAAAT GGGTGCCTGT GCTCAACGAC 
GAGAACCCAT GTGAGCTGCA CTGCCGGCCC TTCAACTACT CCAACAGAGA GAAGCTGAGG 
GATGCTGTGA TGGATGGCAC CCCTTGCTAC CAAGGCCGCA TCAGCCGTGA CATCTGCATC 
GATGGCATTT GCAAGAAAGT GGGCTGTGAC TTTGAGCTTG ACTCTGGTGC TGAGGAGGAC 
CGCTGTGGGG TGTGCCGGGG GGATGGTTCT ACTTGCCATA CCGTGAGCAG GACCTTCAAG 
GAGGCTGAAG GCATGGGGTA TGTGGATGTA GGGCTGATCC CAGCTGGAGC CCGAGAGATT 
CTCATTGAGG AGGTGGCCGA GGCTGCCAAC TTCCTGGCCC TGCGGAGTGA GGACCCAGAC 
AAGTACTTCC TCAATGGCGG CTGGACCATC CAGTGGAATG GGGACTACCA GGTGGCAGGC 
ACTACCTTCA CCTATACACG CAAGGGCAAC TGGGAGACCC TCACATCCCC AGGCCCCACC 
ACTGAGCCTG TCTGGATCCA GCTGCTATTC CAGGAGAGAA ACCCTGGGGT ACACTACAAG 
TATACCATCC AGAGGGCCAG CCACAGTGAA GCCCAGCCAC CTGAGTTCTC CTGGCACTAT 
GGGCCCTGGA GCAAGTGCCC AGTCACCTGT GGGACAGGTG TGCAGAGGCA GAGTTTGTAC 
TGCATGGAGA AGCAGGCAGG AATTGTAGAT GAGGGACACT GTGACCATCT GAGTCGGCCC 
CGTGACCGCA AGAGGAAATG CAATGAGGAG CCCTGTCCTG CCAGGTGGTG GGTAGGGGAC 
TGGCAGCCGT GTTCCCGATC CTGTGGGCCT GGAGGTTTCT TTCGCCGGGC TGTGTTCTGC 
ACACGTAGTG TAGGGCTGGA TGAGCAGCGT GCCCTTGAGC CATCTGCTTG TGGACATCTT 
CCCCGTCCCT TGGCTGAAAT CCCGTGCTAC CATTATGTTG CCTGTCCTTC CTCCTGGGGT 
GTGGGGAACT GGTCTCAGTG CTCTGTGACA TGTGGAGCTG GCATTCGGCA ACGAAGTGTC 
CTCTGCATCA ACAATACTGG TGTCCCCTGT GATGGAGCTG AGCGACCAAT AACTGAGACC 
TTTTGTTTTC TGCAACCCTG CCAGTATTCC ACGTACATAG TGGACACAGG TGCCTCTGGG 
AGCGGCTCCT CCAGTCCCGA GCTCTTCAAT GAGGTTGACT TCGACCCGCA CCAGCCGGTC 
CCACGCCCTT CCCCAGCATC CTCACCCAAG CCAGTCAGCA TCAGCAACGC TATTGATGAG 
GAAGACCCGG AACTGGATCC GCCAGGGCCT GTGTTTGTGG ATGATTTCTA TTATGACTAC 
AATTTCATTA ACTTCCACGA AGACCTGTCC TATGGGTCCT TTGAAGAATC CCATTCAGAC 
CTGGTTGATA TTGGGGGTCA GACAGTACCA CCTCACATCA GACCCACTGA ACCCCCCTCA 
GATTCTCCAG TGCCTACTGC AGGAGCTCCT GGAGCTGAGG AAGAGGGCAT TCAGGGATCT 
TGGTCTCCTA GCCCTTTACT CAGTGAGGCT AGCCATTCCC CACCAGTATT ATTAGAGAAT 
ACCCCTGTGA ACCCCTTGGC CAATTTCTTG ACCGAGGAAG AGAGTCCCAT AGGGGCCCCT 
GAACTTGGGC TCCCCAGCGT GTCCTGGCCC CCTGCTTCAG TTGATGGAAT GGTGACATCT 
GTTGCCCCTG GAAACCCTGA TGAGTTGCTA GTGAGAGAAG ATACGCAGAG CCAGCCATCC 
ACTCCATGGT CTGACAGGAA CAAGCTTTCT AAAGATGGTA ACCCCTTGGG TCCTACATCA 
CCTGCCCTTC CCAAGAGCCC TTTCCCCACC CAGCCCTCAT CACCCTCCAA CAGTACTACC 
CAAGCTTCTC TGAGTCCTGA TGCAGTAGAG GTGTCGACAG GATGGAATGT GGCCTTGGAC 
CCTGTGCTAG AGGCTGACCT GAAGCCTGTA CACGCACCAA CTGATCCAGG ACTACTGGAC 
CAGATACAGA CCCCTCACAC CGAGGGGACC CAGAGTCCTG GGTTGTTACC TAGACCAGCT 
CAGGAGACTC AAACTAACAG TAGCAAGGAC CCTGCAGTCC AGCCTTTGCA GCCCAGCCTA 
GTGGAGGACG GCGCCCCTAC AGATCTGCTG CCTGCCAAGA ATGCCAGTTG GCAAGTAGGA 
AACTGGAGCC AGTGTTCCAC TACCTGTGGC CTGGGTGCCA TTTGGAGGCT TGTGCGCTGC 
AGCTCTGGCA ATGATGAAGA CTGCACCCTT TCAAGCCGTC CCCAGCCAGC CCGCCATTGT 
CATCTGAGGC CCTGTGCTGC CTGGCGTGCA GGCAACTGGA GTAAGTGCTC TCGCAACTGT 
GGTGGCGGTT CCGCTACCAG GGATGTACAG TGTGTGGACA CACGGGATCT CCGGCCATTG 
CGGCCCTTTC ACTGCCAGCC CGGGCCTACC AAGCCACCCA CCCGTCAGCT TTGTGGGACC 
CAACCTTGCC TCCCCTGGTA CACCTCCTCC TGGAGAGAGT GCTCTGAGGC TTGTGGTGGT 
GGCGAACAGC AGCGTCTGGT GACTTGTCCA GAGCCAGGCC TCTGTGAGGA GTCGCTGAGA 
CCCAACAACA CCAGGCCCTG CAACACCCAC CCCTGCACAC AGTGGGTGGT AGGGCCCTGG 
GGTCAGTGCT CAGCCCCCTG TGGTGGTGGT GTTCAGCGGC GTCTGGTCAA GTGTGTGAAC 
ACTCAGACAG GCTTGGCAGA GGAAGACAGT GACCTGTGTA GCCATGAGGC CTGGCCTGAG 
AGCTCACGGC CATGTGCCAC TGAGGACTGT GAACTGGTTG AACCCTCACG TTGTGAGCGG 
GATCGCCTGC CCTTCAATTT CTGTGAGACG CTGCGTCTGT TGGGCCGCTG CCAGCTGCCC 
ACCATCCGCG CTCAGTGCTG CCGCTCATGT CCCCCACTCA GCCGCGGTGT CCCTTCCCGA 
GGCCATCAAC GGGTGGCCAG ACGATAA

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

Adamts7 ( XM_006243523.1 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_006243585.1 Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 7 (Adamts7), transcript variant X1, mRNA.

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CloneID	ORa31445
Clone ID Related Accession (Same CDS sequence)	XM_006243523.1
Accession Version	XM_006243523.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4965bp) 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	2016-07-25
Organism	Rattus norvegicus(Norway rat)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 7 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005107.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCACCGTG GTCTGAATCT CCTCCTGATC CTGTGCGCTC TGGCGCCCCA CGTCCTCGGA 
CCTGCATCAG GTCTCCCAAC TGAGGGCCGG GCGGGTTTGG ACATCGTGCA CCCTGTGCGA 
GTGGATGCTG GAGGCTCCTT CCTGTCCTAT GAGCTGTGGC CACGGGTGCT GCGTAAGCGG 
GATGTGTCTG CTGCGCAGGC CTCATCCGCG TTCTACCAGC TGCAGTACCA AGGGCGGGAG 
CTGCTTTTCA ACCTGACCAC CAACCCTTAT CTCCTGGCTC CCGGCTTTGT GAGTGAGATC 
CGACGTCGCA GCAACCTAAG CAACGTGCAC ATCCAAACCA GTGTCCCAAC CTGCCATTTG 
CTTGGCGATG TCCAAGACCC AGAGCTGGAA GGTGGCTTTG CAGCCATCAG CGCCTGTGAT 
GGCCTAAGAG GTGTGTTCCA GCTCTCCAAT GAGGACTACT TCATTGAGCC TCTGGATGAA 
GTTCCAGCTC AGCCTGGACA TGCCCAGCCC CATATGGTGT ACAAGCACAA ACGCTCTGGG 
CAGCAGGATG ACTCAAGGAC TTCAGGCACC TGTGGGGTGC AAGGGTCCCC AGAGCTGAAG 
CACCAGCGAG AACATTGGGA ACAGCGGCAG CAGAAGCGGA GGCAGCAGCG ATCAATCAGC 
AAAGAGAAGT GGGTGGAGAC CCTGGTAGTG GCTGATTCCA AGATGGTGGA GTACCACGGG 
CAGCCGCAAG TGGAGAGCTA TGTGCTGACG ATCATGAACA TGGTGGCTGG ACTGTATCAT 
GATCCAAGCA TTGGGAATCC CATTCACATC ACCGTTGTGC GCCTTATTAT ACTGGAAGAC 
GAGGAGAAGG ACTTAAAGAT CACACACCAT GCTGATGACA CTCTGAAGAA CTTCTGTAGG 
TGGCAGAAGA ATGTCAACAT GAAGGGGGAT GACCACCCAC AGCACCATGA CACTGCCATC 
CTGCTTACCA GGAAGGATTT GTGTGCAACC ATGAACCACC CCTGTGAAAC CTTGGGCCTG 
TCTCACGTGG CTGGCTTGTG CCACCCTCAG CTCAGCTGTA GTGTCAGTGA GGATACTGGC 
CTGCCTCTGG CCTTCACTGT GGCCCATGAG CTAGGACACA GTTTTGGCAT TCAGCATGAC 
GGCACCGGCA ATGACTGTGA ATCCATTGGG AAACGGCCTT TCATCATGTC TCCACAGCTC 
CTGTATGACA GAGGCATTCC ACTCACCTGG TCCCGCTGCA GCCGCGAGTA CATCACCAGG 
TTCCTCGACC GTGGGTGGGG CCTGTGCTTA GATGACCGTC CATCCAAGGG TGTCATTAAC 
TTCCCCTCGG TGCTGCCCGG TGTCCTGTAC GATGTGAACC ATCAGTGCCG CCTTCAGTAT 
GGGCCTTCTT CAGCCTACTG TGAGGACGTG GATAATGTCT GCTACACTCT GTGGTGCTCG 
GTGGGGACCA CCTGTCACTC CAAGATGGAT GCTGCTGTGG ATGGTACGAG CTGTGGGAAG 
AACAAGTGGT GTCTCAATGG AGAGTGCGTC CCTGAGGGCT TCCAGCCCGA GACGGTGGAC 
GGTGGCTGGT CCGGTTGGAG TGCCTGGTCT GTCTGCTCGC GGAGCTGTGG CGTGGGCGTA 
CGGAGTTCTG AACGACAGTG CACACAGCCT GTGCCTAAGA ACAAAGGCAA GTACTGTGTG 
GGGGAGCGGA AGCGGTACCG GCTCTGCAAC CTGCAGGCCT GCCCACCAGA CCGTCCCTCT 
TTCCGCCACA CCCAGTGTAG CCAGTTTGAT AGCATGCTGT ACAAGGGGAA ACTACACAAA 
TGGGTGCCTG TGCTCAACGA CGAGAACCCA TGTGAGCTGC ACTGCCGGCC CTTCAACTAC 
TCCAACAGAG AGAAGCTGAG GGATGCTGTG ATGGATGGCA CCCCTTGCTA CCAAGGCCGC 
ATCAGCCGTG ACATCTGCAT CGATGGCATT TGCAAGAAAG TGGGCTGTGA CTTTGAGCTT 
GACTCTGGTG CTGAGGAGGA CCGCTGTGGG GTGTGCCGGG GGGATGGTTC TACTTGCCAT 
ACCGTGAGCA GGACCTTCAA GGAGGCTGAA GGCATGGGGT ATGTGGATGT AGGGCTGATC 
CCAGCTGGAG CCCGAGAGAT TCTCATTGAG GAGGTGGCCG AGGCTGCCAA CTTCCTGGCC 
CTGCGGAGTG AGGACCCAGA CAAGTACTTC CTCAATGGCG GCTGGACCAT CCAGTGGAAT 
GGGGACTACC AGGTGGCAGG CACTACCTTC ACCTATACAC GCAAGGGCAA CTGGGAGACC 
CTCACATCCC CAGGCCCCAC CACTGAGCCT GTCTGGATCC AGCTGCTATT CCAGGAGAGA 
AACCCTGGGG TACACTACAA GTATACCATC CAGAGGGCCA GCCACAGTGA AGCCCAGCCA 
CCTGAGTTCT CCTGGCACTA TGGGCCCTGG AGCAAGTGCC CAGTCACCTG TGGGACAGGT 
GTGCAGAGGC AGAGTTTGTA CTGCATGGAG AAGCAGGCAG GAATTGTAGA TGAGGGACAC 
TGTGACCATC TGAGTCGGCC CCGTGACCGC AAGAGGAAAT GCAATGAGGA GCCCTGTCCT 
GCCAGGTGGT GGGTAGGGGA CTGGCAGCCG TGTTCCCGAT CCTGTGGGCC TGGAGGTTTC 
TTTCGCCGGG CTGTGTTCTG CACACGTAGT GTAGGGCTGG ATGAGCAGCG TGCCCTTGAG 
CCATCTGCTT GTGGACATCT TCCCCGTCCC TTGGCTGAAA TCCCGTGCTA CCATTATGTT 
GCCTGTCCTT CCTCCTGGGG TGTGGGGAAC TGGTCTCAGT GCTCTGTGAC ATGTGGAGCT 
GGCATTCGGC AACGAAGTGT CCTCTGCATC AACAATACTG GTGTCCCCTG TGATGGAGCT 
GAGCGACCAA TAACTGAGAC CTTTTGTTTT CTGCAACCCT GCCAGTATTC CACGTACATA 
GTGGACACAG GTGCCTCTGG GAGCGGCTCC TCCAGTCCCG AGCTCTTCAA TGAGGTTGAC 
TTCGACCCGC ACCAGCCGGT CCCACGCCCT TCCCCAGCAT CCTCACCCAA GCCAGTCAGC 
ATCAGCAACG CTATTGATGA GGAAGACCCG GAACTGGATC CGCCAGGGCC TGTGTTTGTG 
GATGATTTCT ATTATGACTA CAATTTCATT AACTTCCACG AAGACCTGTC CTATGGGTCC 
TTTGAAGAAT CCCATTCAGA CCTGGTTGAT ATTGGGGGTC AGACAGTACC ACCTCACATC 
AGACCCACTG AACCCCCCTC AGATTCTCCA GTGCCTACTG CAGGAGCTCC TGGAGCTGAG 
GAAGAGGGCA TTCAGGGATC TTGGTCTCCT AGCCCTTTAC TCAGTGAGGC TAGCCATTCC 
CCACCAGTAT TATTAGAGAA TACCCCTGTG AACCCCTTGG CCAATTTCTT GACCGAGGAA 
GAGAGTCCCA TAGGGGCCCC TGAACTTGGG CTCCCCAGCG TGTCCTGGCC CCCTGCTTCA 
GTTGATGGAA TGGTGACATC TGTTGCCCCT GGAAACCCTG ATGAGTTGCT AGTGAGAGAA 
GATACGCAGA GCCAGCCATC CACTCCATGG TCTGACAGGA ACAAGCTTTC TAAAGATGGT 
AACCCCTTGG GTCCTACATC ACCTGCCCTT CCCAAGAGCC CTTTCCCCAC CCAGCCCTCA 
TCACCCTCCA ACAGTACTAC CCAAGCTTCT CTGAGTCCTG ATGCAGTAGA GGTGTCGACA 
GGATGGAATG TGGCCTTGGA CCCTGTGCTA GAGGCTGACC TGAAGCCTGT ACACGGTGAG 
CTGCGACCCA CTGTGGAGAT GGCTTCTCCT CCACTTCCTT CCATGGCCAC TGTGCCAGGT 
GTCTGGGGCA GGGAGAGCCC TCTTGAACCA GGGACTTCCA CCTCTTCAAC CCCAGGACTG 
AGCTCACAGA ACCTAAAAAC TCTGACAGTG CCGGGGACCT TCCTTTTGAC AGCACCAACT 
GATCCAGGAC TACTGGACCA GATACAGACC CCTCACACCG AGGGGACCCA GAGTCCTGGG 
TTGTTACCTA GACCAGCTCA GGAGACTCAA ACTAACAGTA GCAAGGACCC TGCAGTCCAG 
CCTTTGCAGC CCAGCCTAGT GGAGGACGGC GCCCCTACAG ATCTGCTGCC TGCCAAGAAT 
GCCAGTTGGC AAGTAGGAAA CTGGAGCCAG TGTTCCACTA CCTGTGGCCT GGGTGCCATT 
TGGAGGCTTG TGCGCTGCAG CTCTGGCAAT GATGAAGACT GCACCCTTTC AAGCCGTCCC 
CAGCCAGCCC GCCATTGTCA TCTGAGGCCC TGTGCTGCCT GGCGTGCAGG CAACTGGAGT 
AAGTGCTCTC GCAACTGTGG TGGCGGTTCC GCTACCAGGG ATGTACAGTG TGTGGACACA 
CGGGATCTCC GGCCATTGCG GCCCTTTCAC TGCCAGCCCG GGCCTACCAA GCCACCCACC 
CGTCAGCTTT GTGGGACCCA ACCTTGCCTC CCCTGGTACA CCTCCTCCTG GAGAGAGTGC 
TCTGAGGCTT GTGGTGGTGG CGAACAGCAG CGTCTGGTGA CTTGTCCAGA GCCAGGCCTC 
TGTGAGGAGT CGCTGAGACC CAACAACACC AGGCCCTGCA ACACCCACCC CTGCACACAG 
TGGGTGGTAG GGCCCTGGGG TCAGTGCTCA GCCCCCTGTG GTGGTGGTGT TCAGCGGCGT 
CTGGTCAAGT GTGTGAACAC TCAGACAGGC TTGGCAGAGG AAGACAGTGA CCTGTGTAGC 
CATGAGGCCT GGCCTGAGAG CTCACGGCCA TGTGCCACTG AGGACTGTGA ACTGGTTGAA 
CCCTCACGTT GTGAGCGGGA TCGCCTGCCC TTCAATTTCT GTGAGACGCT GCGTCTGTTG 
GGCCGCTGCC AGCTGCCCAC CATCCGCGCT CAGTGCTGCC GCTCATGTCC CCCACTCAGC 
CGCGGTGTCC CTTCCCGAGG CCATCAACGG GTGGCCAGAC GATAA

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

RefSeq	XP_006243585.1
CDS	298..5262
Translation	MHRGLNLLLILCALAPHVLGPASGLPTEGRAGLDIVHPVRVDAGGSFLSYELWPRVLRKRDVSAAQASSAFYQLQYQGRELLFNLTTNPYLLAPGFVSEIRRRSNLSNVHIQTSVPTCHLLGDVQDPELEGGFAAISACDGLRGVFQLSNEDYFIEPLDEVPAQPGHAQPHMVYKHKRSGQQDDSRTSGTCGVQGSPELKHQREHWEQRQQKRRQQRSISKEKWVETLVVADSKMVEYHGQPQVESYVLTIMNMVAGLYHDPSIGNPIHITVVRLIILEDEEKDLKITHHADDTLKNFCRWQKNVNMKGDDHPQHHDTAILLTRKDLCATMNHPCETLGLSHVAGLCHPQLSCSVSEDTGLPLAFTVAHELGHSFGIQHDGTGNDCESIGKRPFIMSPQLLYDRGIPLTWSRCSREYITRFLDRGWGLCLDDRPSKGVINFPSVLPGVLYDVNHQCRLQYGPSSAYCEDVDNVCYTLWCSVGTTCHSKMDAAVDGTSCGKNKWCLNGECVPEGFQPETVDGGWSGWSAWSVCSRSCGVGVRSSERQCTQPVPKNKGKYCVGERKRYRLCNLQACPPDRPSFRHTQCSQFDSMLYKGKLHKWVPVLNDENPCELHCRPFNYSNREKLRDAVMDGTPCYQGRISRDICIDGICKKVGCDFELDSGAEEDRCGVCRGDGSTCHTVSRTFKEAEGMGYVDVGLIPAGAREILIEEVAEAANFLALRSEDPDKYFLNGGWTIQWNGDYQVAGTTFTYTRKGNWETLTSPGPTTEPVWIQLLFQERNPGVHYKYTIQRASHSEAQPPEFSWHYGPWSKCPVTCGTGVQRQSLYCMEKQAGIVDEGHCDHLSRPRDRKRKCNEEPCPARWWVGDWQPCSRSCGPGGFFRRAVFCTRSVGLDEQRALEPSACGHLPRPLAEIPCYHYVACPSSWGVGNWSQCSVTCGAGIRQRSVLCINNTGVPCDGAERPITETFCFLQPCQYSTYIVDTGASGSGSSSPELFNEVDFDPHQPVPRPSPASSPKPVSISNAIDEEDPELDPPGPVFVDDFYYDYNFINFHEDLSYGSFEESHSDLVDIGGQTVPPHIRPTEPPSDSPVPTAGAPGAEEEGIQGSWSPSPLLSEASHSPPVLLENTPVNPLANFLTEEESPIGAPELGLPSVSWPPASVDGMVTSVAPGNPDELLVREDTQSQPSTPWSDRNKLSKDGNPLGPTSPALPKSPFPTQPSSPSNSTTQASLSPDAVEVSTGWNVALDPVLEADLKPVHGELRPTVEMASPPLPSMATVPGVWGRESPLEPGTSTSSTPGLSSQNLKTLTVPGTFLLTAPTDPGLLDQIQTPHTEGTQSPGLLPRPAQETQTNSSKDPAVQPLQPSLVEDGAPTDLLPAKNASWQVGNWSQCSTTCGLGAIWRLVRCSSGNDEDCTLSSRPQPARHCHLRPCAAWRAGNWSKCSRNCGGGSATRDVQCVDTRDLRPLRPFHCQPGPTKPPTRQLCGTQPCLPWYTSSWRECSEACGGGEQQRLVTCPEPGLCEESLRPNNTRPCNTHPCTQWVVGPWGQCSAPCGGGVQRRLVKCVNTQTGLAEEDSDLCSHEAWPESSRPCATEDCELVEPSRCERDRLPFNFCETLRLLGRCQLPTIRAQCCRSCPPLSRGVPSRGHQRVARR

Target ORF information:

RefSeq Version	XM_006243523.1
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 7 (Adamts7), transcript variant X1, mRNA.

Target ORF information:

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

XM_006243523.1

ORF Insert Sequence:

ATGCACCGTG GTCTGAATCT CCTCCTGATC CTGTGCGCTC TGGCGCCCCA CGTCCTCGGA 
CCTGCATCAG GTCTCCCAAC TGAGGGCCGG GCGGGTTTGG ACATCGTGCA CCCTGTGCGA 
GTGGATGCTG GAGGCTCCTT CCTGTCCTAT GAGCTGTGGC CACGGGTGCT GCGTAAGCGG 
GATGTGTCTG CTGCGCAGGC CTCATCCGCG TTCTACCAGC TGCAGTACCA AGGGCGGGAG 
CTGCTTTTCA ACCTGACCAC CAACCCTTAT CTCCTGGCTC CCGGCTTTGT GAGTGAGATC 
CGACGTCGCA GCAACCTAAG CAACGTGCAC ATCCAAACCA GTGTCCCAAC CTGCCATTTG 
CTTGGCGATG TCCAAGACCC AGAGCTGGAA GGTGGCTTTG CAGCCATCAG CGCCTGTGAT 
GGCCTAAGAG GTGTGTTCCA GCTCTCCAAT GAGGACTACT TCATTGAGCC TCTGGATGAA 
GTTCCAGCTC AGCCTGGACA TGCCCAGCCC CATATGGTGT ACAAGCACAA ACGCTCTGGG 
CAGCAGGATG ACTCAAGGAC TTCAGGCACC TGTGGGGTGC AAGGGTCCCC AGAGCTGAAG 
CACCAGCGAG AACATTGGGA ACAGCGGCAG CAGAAGCGGA GGCAGCAGCG ATCAATCAGC 
AAAGAGAAGT GGGTGGAGAC CCTGGTAGTG GCTGATTCCA AGATGGTGGA GTACCACGGG 
CAGCCGCAAG TGGAGAGCTA TGTGCTGACG ATCATGAACA TGGTGGCTGG ACTGTATCAT 
GATCCAAGCA TTGGGAATCC CATTCACATC ACCGTTGTGC GCCTTATTAT ACTGGAAGAC 
GAGGAGAAGG ACTTAAAGAT CACACACCAT GCTGATGACA CTCTGAAGAA CTTCTGTAGG 
TGGCAGAAGA ATGTCAACAT GAAGGGGGAT GACCACCCAC AGCACCATGA CACTGCCATC 
CTGCTTACCA GGAAGGATTT GTGTGCAACC ATGAACCACC CCTGTGAAAC CTTGGGCCTG 
TCTCACGTGG CTGGCTTGTG CCACCCTCAG CTCAGCTGTA GTGTCAGTGA GGATACTGGC 
CTGCCTCTGG CCTTCACTGT GGCCCATGAG CTAGGACACA GTTTTGGCAT TCAGCATGAC 
GGCACCGGCA ATGACTGTGA ATCCATTGGG AAACGGCCTT TCATCATGTC TCCACAGCTC 
CTGTATGACA GAGGCATTCC ACTCACCTGG TCCCGCTGCA GCCGCGAGTA CATCACCAGG 
TTCCTCGACC GTGGGTGGGG CCTGTGCTTA GATGACCGTC CATCCAAGGG TGTCATTAAC 
TTCCCCTCGG TGCTGCCCGG TGTCCTGTAC GATGTGAACC ATCAGTGCCG CCTTCAGTAT 
GGGCCTTCTT CAGCCTACTG TGAGGACGTG GATAATGTCT GCTACACTCT GTGGTGCTCG 
GTGGGGACCA CCTGTCACTC CAAGATGGAT GCTGCTGTGG ATGGTACGAG CTGTGGGAAG 
AACAAGTGGT GTCTCAATGG AGAGTGCGTC CCTGAGGGCT TCCAGCCCGA GACGGTGGAC 
GGTGGCTGGT CCGGTTGGAG TGCCTGGTCT GTCTGCTCGC GGAGCTGTGG CGTGGGCGTA 
CGGAGTTCTG AACGACAGTG CACACAGCCT GTGCCTAAGA ACAAAGGCAA GTACTGTGTG 
GGGGAGCGGA AGCGGTACCG GCTCTGCAAC CTGCAGGCCT GCCCACCAGA CCGTCCCTCT 
TTCCGCCACA CCCAGTGTAG CCAGTTTGAT AGCATGCTGT ACAAGGGGAA ACTACACAAA 
TGGGTGCCTG TGCTCAACGA CGAGAACCCA TGTGAGCTGC ACTGCCGGCC CTTCAACTAC 
TCCAACAGAG AGAAGCTGAG GGATGCTGTG ATGGATGGCA CCCCTTGCTA CCAAGGCCGC 
ATCAGCCGTG ACATCTGCAT CGATGGCATT TGCAAGAAAG TGGGCTGTGA CTTTGAGCTT 
GACTCTGGTG CTGAGGAGGA CCGCTGTGGG GTGTGCCGGG GGGATGGTTC TACTTGCCAT 
ACCGTGAGCA GGACCTTCAA GGAGGCTGAA GGCATGGGGT ATGTGGATGT AGGGCTGATC 
CCAGCTGGAG CCCGAGAGAT TCTCATTGAG GAGGTGGCCG AGGCTGCCAA CTTCCTGGCC 
CTGCGGAGTG AGGACCCAGA CAAGTACTTC CTCAATGGCG GCTGGACCAT CCAGTGGAAT 
GGGGACTACC AGGTGGCAGG CACTACCTTC ACCTATACAC GCAAGGGCAA CTGGGAGACC 
CTCACATCCC CAGGCCCCAC CACTGAGCCT GTCTGGATCC AGCTGCTATT CCAGGAGAGA 
AACCCTGGGG TACACTACAA GTATACCATC CAGAGGGCCA GCCACAGTGA AGCCCAGCCA 
CCTGAGTTCT CCTGGCACTA TGGGCCCTGG AGCAAGTGCC CAGTCACCTG TGGGACAGGT 
GTGCAGAGGC AGAGTTTGTA CTGCATGGAG AAGCAGGCAG GAATTGTAGA TGAGGGACAC 
TGTGACCATC TGAGTCGGCC CCGTGACCGC AAGAGGAAAT GCAATGAGGA GCCCTGTCCT 
GCCAGGTGGT GGGTAGGGGA CTGGCAGCCG TGTTCCCGAT CCTGTGGGCC TGGAGGTTTC 
TTTCGCCGGG CTGTGTTCTG CACACGTAGT GTAGGGCTGG ATGAGCAGCG TGCCCTTGAG 
CCATCTGCTT GTGGACATCT TCCCCGTCCC TTGGCTGAAA TCCCGTGCTA CCATTATGTT 
GCCTGTCCTT CCTCCTGGGG TGTGGGGAAC TGGTCTCAGT GCTCTGTGAC ATGTGGAGCT 
GGCATTCGGC AACGAAGTGT CCTCTGCATC AACAATACTG GTGTCCCCTG TGATGGAGCT 
GAGCGACCAA TAACTGAGAC CTTTTGTTTT CTGCAACCCT GCCAGTATTC CACGTACATA 
GTGGACACAG GTGCCTCTGG GAGCGGCTCC TCCAGTCCCG AGCTCTTCAA TGAGGTTGAC 
TTCGACCCGC ACCAGCCGGT CCCACGCCCT TCCCCAGCAT CCTCACCCAA GCCAGTCAGC 
ATCAGCAACG CTATTGATGA GGAAGACCCG GAACTGGATC CGCCAGGGCC TGTGTTTGTG 
GATGATTTCT ATTATGACTA CAATTTCATT AACTTCCACG AAGACCTGTC CTATGGGTCC 
TTTGAAGAAT CCCATTCAGA CCTGGTTGAT ATTGGGGGTC AGACAGTACC ACCTCACATC 
AGACCCACTG AACCCCCCTC AGATTCTCCA GTGCCTACTG CAGGAGCTCC TGGAGCTGAG 
GAAGAGGGCA TTCAGGGATC TTGGTCTCCT AGCCCTTTAC TCAGTGAGGC TAGCCATTCC 
CCACCAGTAT TATTAGAGAA TACCCCTGTG AACCCCTTGG CCAATTTCTT GACCGAGGAA 
GAGAGTCCCA TAGGGGCCCC TGAACTTGGG CTCCCCAGCG TGTCCTGGCC CCCTGCTTCA 
GTTGATGGAA TGGTGACATC TGTTGCCCCT GGAAACCCTG ATGAGTTGCT AGTGAGAGAA 
GATACGCAGA GCCAGCCATC CACTCCATGG TCTGACAGGA ACAAGCTTTC TAAAGATGGT 
AACCCCTTGG GTCCTACATC ACCTGCCCTT CCCAAGAGCC CTTTCCCCAC CCAGCCCTCA 
TCACCCTCCA ACAGTACTAC CCAAGCTTCT CTGAGTCCTG ATGCAGTAGA GGTGTCGACA 
GGATGGAATG TGGCCTTGGA CCCTGTGCTA GAGGCTGACC TGAAGCCTGT ACACGGTGAG 
CTGCGACCCA CTGTGGAGAT GGCTTCTCCT CCACTTCCTT CCATGGCCAC TGTGCCAGGT 
GTCTGGGGCA GGGAGAGCCC TCTTGAACCA GGGACTTCCA CCTCTTCAAC CCCAGGACTG 
AGCTCACAGA ACCTAAAAAC TCTGACAGTG CCGGGGACCT TCCTTTTGAC AGCACCAACT 
GATCCAGGAC TACTGGACCA GATACAGACC CCTCACACCG AGGGGACCCA GAGTCCTGGG 
TTGTTACCTA GACCAGCTCA GGAGACTCAA ACTAACAGTA GCAAGGACCC TGCAGTCCAG 
CCTTTGCAGC CCAGCCTAGT GGAGGACGGC GCCCCTACAG ATCTGCTGCC TGCCAAGAAT 
GCCAGTTGGC AAGTAGGAAA CTGGAGCCAG TGTTCCACTA CCTGTGGCCT GGGTGCCATT 
TGGAGGCTTG TGCGCTGCAG CTCTGGCAAT GATGAAGACT GCACCCTTTC AAGCCGTCCC 
CAGCCAGCCC GCCATTGTCA TCTGAGGCCC TGTGCTGCCT GGCGTGCAGG CAACTGGAGT 
AAGTGCTCTC GCAACTGTGG TGGCGGTTCC GCTACCAGGG ATGTACAGTG TGTGGACACA 
CGGGATCTCC GGCCATTGCG GCCCTTTCAC TGCCAGCCCG GGCCTACCAA GCCACCCACC 
CGTCAGCTTT GTGGGACCCA ACCTTGCCTC CCCTGGTACA CCTCCTCCTG GAGAGAGTGC 
TCTGAGGCTT GTGGTGGTGG CGAACAGCAG CGTCTGGTGA CTTGTCCAGA GCCAGGCCTC 
TGTGAGGAGT CGCTGAGACC CAACAACACC AGGCCCTGCA ACACCCACCC CTGCACACAG 
TGGGTGGTAG GGCCCTGGGG TCAGTGCTCA GCCCCCTGTG GTGGTGGTGT TCAGCGGCGT 
CTGGTCAAGT GTGTGAACAC TCAGACAGGC TTGGCAGAGG AAGACAGTGA CCTGTGTAGC 
CATGAGGCCT GGCCTGAGAG CTCACGGCCA TGTGCCACTG AGGACTGTGA ACTGGTTGAA 
CCCTCACGTT GTGAGCGGGA TCGCCTGCCC TTCAATTTCT GTGAGACGCT GCGTCTGTTG 
GGCCGCTGCC AGCTGCCCAC CATCCGCGCT CAGTGCTGCC GCTCATGTCC CCCACTCAGC 
CGCGGTGTCC CTTCCCGAGG CCATCAACGG GTGGCCAGAC GATAA

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

Adamts7 ( XM_006243524.1 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_006243586.1 Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 7 (Adamts7), transcript variant X3, mRNA.

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CloneID	ORa31446
Clone ID Related Accession (Same CDS sequence)	XM_006243524.1
Accession Version	XM_006243524.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4839bp) 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	2016-07-25
Organism	Rattus norvegicus(Norway rat)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 7 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005107.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCACCGTG GTCTGAATCT CCTCCTGATC CTGTGCGCTC TGGCGCCCCA CGTCCTCGGA 
CCTGCATCAG GTCTCCCAAC TGAGGGCCGG GCGGGTTTGG ACATCGTGCA CCCTGTGCGA 
GTGGATGCTG GAGGCTCCTT CCTGTCCTAT GAGCTGTGGC CACGGGTGCT GCGTAAGCGG 
GATGTGTCTG CTGCGCAGGC CTCATCCGCG TTCTACCAGC TGCAGTACCA AGGGCGGGAG 
CTGCTTTTCA ACCTGACCAC CAACCCTTAT CTCCTGGCTC CCGGCTTTGT GAGTGAGATC 
CGACGTCGCA GCAACCTAAG CAACGTGCAC ATCCAAACCA GTGTCCCAAC CTGCCATTTG 
CTTGGCGATG TCCAAGACCC AGAGCTGGAA GGTGGCTTTG CAGCCATCAG CGCCTGTGAT 
GGCCTAAGAG GTGTGTTCCA GCTCTCCAAT GAGGACTACT TCATTGAGCC TCTGGATGAA 
GTTCCAGCTC AGCCTGGACA TGCCCAGCCC CATATGGTGT ACAAGCACAA ACGCTCTGGG 
CAGCAGGATG ACTCAAGGAC TTCAGGCACC TGTGGGGTGC AAGGGTCCCC AGAGCTGAAG 
CACCAGCGAG AACATTGGGA ACAGCGGCAG CAGAAGCGGA GGCAGCAGCG ATCAATCAGC 
AAAGAGAAGT GGGTGGAGAC CCTGGTAGTG GCTGATTCCA AGATGGTGGA GTACCACGGG 
CAGCCGCAAG TGGAGAGCTA TGTGCTGACG ATCATGAACA TGGTGGCTGG ACTGTATCAT 
GATCCAAGCA TTGGGAATCC CATTCACATC ACCGTTGTGC GCCTTATTAT ACTGGAAGAC 
GAGGAGAAGG ACTTAAAGAT CACACACCAT GCTGATGACA CTCTGAAGAA CTTCTGTAGG 
TGGCAGAAGA ATGTCAACAT GAAGGGGGAT GACCACCCAC AGCACCATGA CACTGCCATC 
CTGCTTACCA GGAAGGATTT GTGTGCAACC ATGAACCACC CCTGTGAAAC CTTGGGCCTG 
TCTCACGTGG CTGGCTTGTG CCACCCTCAG CTCAGCTGTA GTGTCAGTGA GGATACTGGC 
CTGCCTCTGG CCTTCACTGT GGCCCATGAG CTAGGACACA GTTTTGGCAT TCAGCATGAC 
GGCACCGGCA ATGACTGTGA ATCCATTGGG AAACGGCCTT TCATCATGTC TCCACAGCTC 
CTGTATGACA GAGGCATTCC ACTCACCTGG TCCCGCTGCA GCCGCGAGTA CATCACCAGG 
TTCCTCGACC GTGGGTGGGG CCTGTGCTTA GATGACCGTC CATCCAAGGG TGTCATTAAC 
TTCCCCTCGG TGCTGCCCGG TGTCCTGTAC GATGTGAACC ATCAGTGCCG CCTTCAGTAT 
GGGCCTTCTT CAGCCTACTG TGAGGACGTG GATAATGTCT GCTACACTCT GTGGTGCTCG 
GTGGGGACCA CCTGTCACTC CAAGATGGAT GCTGCTGTGG ATGGTACGAG CTGTGGGAAG 
AACAAGTGGT GTCTCAATGG AGAGTGCGTC CCTGAGGGCT TCCAGCCCGA GACGGTGGAC 
GGTGGCTGGT CCGGTTGGAG TGCCTGGTCT GTCTGCTCGC GGAGCTGTGG CGTGGGCGTA 
CGGAGTTCTG AACGACAGTG CACACAGCCT GTGCCTAAGA ACAAAGGCAA GTACTGTGTG 
GGGGAGCGGA AGCGGTACCG GCTCTGCAAC CTGCAGGCCT GCCCACCAGA CCGTCCCTCT 
TTCCGCCACA CCCAGTGTAG CCAGTTTGAT AGCATGCTGT ACAAGGGGAA ACTACACAAA 
TGGGTGCCTG TGCTCAACGA CGAGAACCCA TGTGAGCTGC ACTGCCGGCC CTTCAACTAC 
TCCAACAGAG AGAAGCTGAG GGATGCTGTG ATGGATGGCA CCCCTTGCTA CCAAGGCCGC 
ATCAGCCGTG ACATCTGCAT CGATGGCATT TGCAAGAAAG TGGGCTGTGA CTTTGAGCTT 
GACTCTGGTG CTGAGGAGGA CCGCTGTGGG GTGTGCCGGG GGGATGGTTC TACTTGCCAT 
ACCGTGAGCA GGACCTTCAA GGAGGCTGAA GGCATGGGGT ATGTGGATGT AGGGCTGATC 
CCAGCTGGAG CCCGAGAGAT TCTCATTGAG GAGGTGGCCG AGGCTGCCAA CTTCCTGGCC 
CTGCGGAGTG AGGACCCAGA CAAGTACTTC CTCAATGGCG GCTGGACCAT CCAGTGGAAT 
GGGGACTACC AGGTGGCAGG CACTACCTTC ACCTATACAC GCAAGGGCAA CTGGGAGACC 
CTCACATCCC CAGGCCCCAC CACTGAGCCT GTCTGGATCC AGCTGCTATT CCAGGAGAGA 
AACCCTGGGG TACACTACAA GTATACCATC CAGAGGGCCA GCCACAGTGA AGCCCAGCCA 
CCTGAGTTCT CCTGGCACTA TGGGCCCTGG AGCAAGTGCC CAGTCACCTG TGGGACAGGT 
GTGCAGAGGC AGAGTTTGTA CTGCATGGAG AAGCAGGCAG GAATTGTAGA TGAGGGACAC 
TGTGACCATC TGAGTCGGCC CCGTGACCGC AAGAGGAAAT GCAATGAGGA GCCCTGTCCT 
GCCAGGTGGT GGGTAGGGGA CTGGCAGCCG TGTTCCCGAT CCTGTGGGCC TGGAGGTTTC 
TTTCGCCGGG CTGTGTTCTG CACACGTAGT GTAGGGCTGG ATGAGCAGCG TGCCCTTGAG 
CCATCTGCTT GTGGACATCT TCCCCGTCCC TTGGCTGAAA TCCCGTGCTA CCATTATGTT 
GCCTGTCCTT CCTCCTGGGG TGTGGGGAAC TGGTCTCAGT ATTCCACGTA CATAGTGGAC 
ACAGGTGCCT CTGGGAGCGG CTCCTCCAGT CCCGAGCTCT TCAATGAGGT TGACTTCGAC 
CCGCACCAGC CGGTCCCACG CCCTTCCCCA GCATCCTCAC CCAAGCCAGT CAGCATCAGC 
AACGCTATTG ATGAGGAAGA CCCGGAACTG GATCCGCCAG GGCCTGTGTT TGTGGATGAT 
TTCTATTATG ACTACAATTT CATTAACTTC CACGAAGACC TGTCCTATGG GTCCTTTGAA 
GAATCCCATT CAGACCTGGT TGATATTGGG GGTCAGACAG TACCACCTCA CATCAGACCC 
ACTGAACCCC CCTCAGATTC TCCAGTGCCT ACTGCAGGAG CTCCTGGAGC TGAGGAAGAG 
GGCATTCAGG GATCTTGGTC TCCTAGCCCT TTACTCAGTG AGGCTAGCCA TTCCCCACCA 
GTATTATTAG AGAATACCCC TGTGAACCCC TTGGCCAATT TCTTGACCGA GGAAGAGAGT 
CCCATAGGGG CCCCTGAACT TGGGCTCCCC AGCGTGTCCT GGCCCCCTGC TTCAGTTGAT 
GGAATGGTGA CATCTGTTGC CCCTGGAAAC CCTGATGAGT TGCTAGTGAG AGAAGATACG 
CAGAGCCAGC CATCCACTCC ATGGTCTGAC AGGAACAAGC TTTCTAAAGA TGGTAACCCC 
TTGGGTCCTA CATCACCTGC CCTTCCCAAG AGCCCTTTCC CCACCCAGCC CTCATCACCC 
TCCAACAGTA CTACCCAAGC TTCTCTGAGT CCTGATGCAG TAGAGGTGTC GACAGGATGG 
AATGTGGCCT TGGACCCTGT GCTAGAGGCT GACCTGAAGC CTGTACACGG TGAGCTGCGA 
CCCACTGTGG AGATGGCTTC TCCTCCACTT CCTTCCATGG CCACTGTGCC AGGTGTCTGG 
GGCAGGGAGA GCCCTCTTGA ACCAGGGACT TCCACCTCTT CAACCCCAGG ACTGAGCTCA 
CAGAACCTAA AAACTCTGAC AGTGCCGGGG ACCTTCCTTT TGACAGCACC AACTGATCCA 
GGACTACTGG ACCAGATACA GACCCCTCAC ACCGAGGGGA CCCAGAGTCC TGGGTTGTTA 
CCTAGACCAG CTCAGGAGAC TCAAACTAAC AGTAGCAAGG ACCCTGCAGT CCAGCCTTTG 
CAGCCCAGCC TAGTGGAGGA CGGCGCCCCT ACAGATCTGC TGCCTGCCAA GAATGCCAGT 
TGGCAAGTAG GAAACTGGAG CCAGTGTTCC ACTACCTGTG GCCTGGGTGC CATTTGGAGG 
CTTGTGCGCT GCAGCTCTGG CAATGATGAA GACTGCACCC TTTCAAGCCG TCCCCAGCCA 
GCCCGCCATT GTCATCTGAG GCCCTGTGCT GCCTGGCGTG CAGGCAACTG GAGTAAGTGC 
TCTCGCAACT GTGGTGGCGG TTCCGCTACC AGGGATGTAC AGTGTGTGGA CACACGGGAT 
CTCCGGCCAT TGCGGCCCTT TCACTGCCAG CCCGGGCCTA CCAAGCCACC CACCCGTCAG 
CTTTGTGGGA CCCAACCTTG CCTCCCCTGG TACACCTCCT CCTGGAGAGA GTGCTCTGAG 
GCTTGTGGTG GTGGCGAACA GCAGCGTCTG GTGACTTGTC CAGAGCCAGG CCTCTGTGAG 
GAGTCGCTGA GACCCAACAA CACCAGGCCC TGCAACACCC ACCCCTGCAC ACAGTGGGTG 
GTAGGGCCCT GGGGTCAGTG CTCAGCCCCC TGTGGTGGTG GTGTTCAGCG GCGTCTGGTC 
AAGTGTGTGA ACACTCAGAC AGGCTTGGCA GAGGAAGACA GTGACCTGTG TAGCCATGAG 
GCCTGGCCTG AGAGCTCACG GCCATGTGCC ACTGAGGACT GTGAACTGGT TGAACCCTCA 
CGTTGTGAGC GGGATCGCCT GCCCTTCAAT TTCTGTGAGA CGCTGCGTCT GTTGGGCCGC 
TGCCAGCTGC CCACCATCCG CGCTCAGTGC TGCCGCTCAT GTCCCCCACT CAGCCGCGGT 
GTCCCTTCCC GAGGCCATCA ACGGGTGGCC AGACGATAA

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

RefSeq	XP_006243586.1
CDS	298..5136
Translation	MHRGLNLLLILCALAPHVLGPASGLPTEGRAGLDIVHPVRVDAGGSFLSYELWPRVLRKRDVSAAQASSAFYQLQYQGRELLFNLTTNPYLLAPGFVSEIRRRSNLSNVHIQTSVPTCHLLGDVQDPELEGGFAAISACDGLRGVFQLSNEDYFIEPLDEVPAQPGHAQPHMVYKHKRSGQQDDSRTSGTCGVQGSPELKHQREHWEQRQQKRRQQRSISKEKWVETLVVADSKMVEYHGQPQVESYVLTIMNMVAGLYHDPSIGNPIHITVVRLIILEDEEKDLKITHHADDTLKNFCRWQKNVNMKGDDHPQHHDTAILLTRKDLCATMNHPCETLGLSHVAGLCHPQLSCSVSEDTGLPLAFTVAHELGHSFGIQHDGTGNDCESIGKRPFIMSPQLLYDRGIPLTWSRCSREYITRFLDRGWGLCLDDRPSKGVINFPSVLPGVLYDVNHQCRLQYGPSSAYCEDVDNVCYTLWCSVGTTCHSKMDAAVDGTSCGKNKWCLNGECVPEGFQPETVDGGWSGWSAWSVCSRSCGVGVRSSERQCTQPVPKNKGKYCVGERKRYRLCNLQACPPDRPSFRHTQCSQFDSMLYKGKLHKWVPVLNDENPCELHCRPFNYSNREKLRDAVMDGTPCYQGRISRDICIDGICKKVGCDFELDSGAEEDRCGVCRGDGSTCHTVSRTFKEAEGMGYVDVGLIPAGAREILIEEVAEAANFLALRSEDPDKYFLNGGWTIQWNGDYQVAGTTFTYTRKGNWETLTSPGPTTEPVWIQLLFQERNPGVHYKYTIQRASHSEAQPPEFSWHYGPWSKCPVTCGTGVQRQSLYCMEKQAGIVDEGHCDHLSRPRDRKRKCNEEPCPARWWVGDWQPCSRSCGPGGFFRRAVFCTRSVGLDEQRALEPSACGHLPRPLAEIPCYHYVACPSSWGVGNWSQYSTYIVDTGASGSGSSSPELFNEVDFDPHQPVPRPSPASSPKPVSISNAIDEEDPELDPPGPVFVDDFYYDYNFINFHEDLSYGSFEESHSDLVDIGGQTVPPHIRPTEPPSDSPVPTAGAPGAEEEGIQGSWSPSPLLSEASHSPPVLLENTPVNPLANFLTEEESPIGAPELGLPSVSWPPASVDGMVTSVAPGNPDELLVREDTQSQPSTPWSDRNKLSKDGNPLGPTSPALPKSPFPTQPSSPSNSTTQASLSPDAVEVSTGWNVALDPVLEADLKPVHGELRPTVEMASPPLPSMATVPGVWGRESPLEPGTSTSSTPGLSSQNLKTLTVPGTFLLTAPTDPGLLDQIQTPHTEGTQSPGLLPRPAQETQTNSSKDPAVQPLQPSLVEDGAPTDLLPAKNASWQVGNWSQCSTTCGLGAIWRLVRCSSGNDEDCTLSSRPQPARHCHLRPCAAWRAGNWSKCSRNCGGGSATRDVQCVDTRDLRPLRPFHCQPGPTKPPTRQLCGTQPCLPWYTSSWRECSEACGGGEQQRLVTCPEPGLCEESLRPNNTRPCNTHPCTQWVVGPWGQCSAPCGGGVQRRLVKCVNTQTGLAEEDSDLCSHEAWPESSRPCATEDCELVEPSRCERDRLPFNFCETLRLLGRCQLPTIRAQCCRSCPPLSRGVPSRGHQRVARR

Target ORF information:

RefSeq Version	XM_006243524.1
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 7 (Adamts7), transcript variant X3, mRNA.

Target ORF information:

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

XM_006243524.1

ORF Insert Sequence:

ATGCACCGTG GTCTGAATCT CCTCCTGATC CTGTGCGCTC TGGCGCCCCA CGTCCTCGGA 
CCTGCATCAG GTCTCCCAAC TGAGGGCCGG GCGGGTTTGG ACATCGTGCA CCCTGTGCGA 
GTGGATGCTG GAGGCTCCTT CCTGTCCTAT GAGCTGTGGC CACGGGTGCT GCGTAAGCGG 
GATGTGTCTG CTGCGCAGGC CTCATCCGCG TTCTACCAGC TGCAGTACCA AGGGCGGGAG 
CTGCTTTTCA ACCTGACCAC CAACCCTTAT CTCCTGGCTC CCGGCTTTGT GAGTGAGATC 
CGACGTCGCA GCAACCTAAG CAACGTGCAC ATCCAAACCA GTGTCCCAAC CTGCCATTTG 
CTTGGCGATG TCCAAGACCC AGAGCTGGAA GGTGGCTTTG CAGCCATCAG CGCCTGTGAT 
GGCCTAAGAG GTGTGTTCCA GCTCTCCAAT GAGGACTACT TCATTGAGCC TCTGGATGAA 
GTTCCAGCTC AGCCTGGACA TGCCCAGCCC CATATGGTGT ACAAGCACAA ACGCTCTGGG 
CAGCAGGATG ACTCAAGGAC TTCAGGCACC TGTGGGGTGC AAGGGTCCCC AGAGCTGAAG 
CACCAGCGAG AACATTGGGA ACAGCGGCAG CAGAAGCGGA GGCAGCAGCG ATCAATCAGC 
AAAGAGAAGT GGGTGGAGAC CCTGGTAGTG GCTGATTCCA AGATGGTGGA GTACCACGGG 
CAGCCGCAAG TGGAGAGCTA TGTGCTGACG ATCATGAACA TGGTGGCTGG ACTGTATCAT 
GATCCAAGCA TTGGGAATCC CATTCACATC ACCGTTGTGC GCCTTATTAT ACTGGAAGAC 
GAGGAGAAGG ACTTAAAGAT CACACACCAT GCTGATGACA CTCTGAAGAA CTTCTGTAGG 
TGGCAGAAGA ATGTCAACAT GAAGGGGGAT GACCACCCAC AGCACCATGA CACTGCCATC 
CTGCTTACCA GGAAGGATTT GTGTGCAACC ATGAACCACC CCTGTGAAAC CTTGGGCCTG 
TCTCACGTGG CTGGCTTGTG CCACCCTCAG CTCAGCTGTA GTGTCAGTGA GGATACTGGC 
CTGCCTCTGG CCTTCACTGT GGCCCATGAG CTAGGACACA GTTTTGGCAT TCAGCATGAC 
GGCACCGGCA ATGACTGTGA ATCCATTGGG AAACGGCCTT TCATCATGTC TCCACAGCTC 
CTGTATGACA GAGGCATTCC ACTCACCTGG TCCCGCTGCA GCCGCGAGTA CATCACCAGG 
TTCCTCGACC GTGGGTGGGG CCTGTGCTTA GATGACCGTC CATCCAAGGG TGTCATTAAC 
TTCCCCTCGG TGCTGCCCGG TGTCCTGTAC GATGTGAACC ATCAGTGCCG CCTTCAGTAT 
GGGCCTTCTT CAGCCTACTG TGAGGACGTG GATAATGTCT GCTACACTCT GTGGTGCTCG 
GTGGGGACCA CCTGTCACTC CAAGATGGAT GCTGCTGTGG ATGGTACGAG CTGTGGGAAG 
AACAAGTGGT GTCTCAATGG AGAGTGCGTC CCTGAGGGCT TCCAGCCCGA GACGGTGGAC 
GGTGGCTGGT CCGGTTGGAG TGCCTGGTCT GTCTGCTCGC GGAGCTGTGG CGTGGGCGTA 
CGGAGTTCTG AACGACAGTG CACACAGCCT GTGCCTAAGA ACAAAGGCAA GTACTGTGTG 
GGGGAGCGGA AGCGGTACCG GCTCTGCAAC CTGCAGGCCT GCCCACCAGA CCGTCCCTCT 
TTCCGCCACA CCCAGTGTAG CCAGTTTGAT AGCATGCTGT ACAAGGGGAA ACTACACAAA 
TGGGTGCCTG TGCTCAACGA CGAGAACCCA TGTGAGCTGC ACTGCCGGCC CTTCAACTAC 
TCCAACAGAG AGAAGCTGAG GGATGCTGTG ATGGATGGCA CCCCTTGCTA CCAAGGCCGC 
ATCAGCCGTG ACATCTGCAT CGATGGCATT TGCAAGAAAG TGGGCTGTGA CTTTGAGCTT 
GACTCTGGTG CTGAGGAGGA CCGCTGTGGG GTGTGCCGGG GGGATGGTTC TACTTGCCAT 
ACCGTGAGCA GGACCTTCAA GGAGGCTGAA GGCATGGGGT ATGTGGATGT AGGGCTGATC 
CCAGCTGGAG CCCGAGAGAT TCTCATTGAG GAGGTGGCCG AGGCTGCCAA CTTCCTGGCC 
CTGCGGAGTG AGGACCCAGA CAAGTACTTC CTCAATGGCG GCTGGACCAT CCAGTGGAAT 
GGGGACTACC AGGTGGCAGG CACTACCTTC ACCTATACAC GCAAGGGCAA CTGGGAGACC 
CTCACATCCC CAGGCCCCAC CACTGAGCCT GTCTGGATCC AGCTGCTATT CCAGGAGAGA 
AACCCTGGGG TACACTACAA GTATACCATC CAGAGGGCCA GCCACAGTGA AGCCCAGCCA 
CCTGAGTTCT CCTGGCACTA TGGGCCCTGG AGCAAGTGCC CAGTCACCTG TGGGACAGGT 
GTGCAGAGGC AGAGTTTGTA CTGCATGGAG AAGCAGGCAG GAATTGTAGA TGAGGGACAC 
TGTGACCATC TGAGTCGGCC CCGTGACCGC AAGAGGAAAT GCAATGAGGA GCCCTGTCCT 
GCCAGGTGGT GGGTAGGGGA CTGGCAGCCG TGTTCCCGAT CCTGTGGGCC TGGAGGTTTC 
TTTCGCCGGG CTGTGTTCTG CACACGTAGT GTAGGGCTGG ATGAGCAGCG TGCCCTTGAG 
CCATCTGCTT GTGGACATCT TCCCCGTCCC TTGGCTGAAA TCCCGTGCTA CCATTATGTT 
GCCTGTCCTT CCTCCTGGGG TGTGGGGAAC TGGTCTCAGT ATTCCACGTA CATAGTGGAC 
ACAGGTGCCT CTGGGAGCGG CTCCTCCAGT CCCGAGCTCT TCAATGAGGT TGACTTCGAC 
CCGCACCAGC CGGTCCCACG CCCTTCCCCA GCATCCTCAC CCAAGCCAGT CAGCATCAGC 
AACGCTATTG ATGAGGAAGA CCCGGAACTG GATCCGCCAG GGCCTGTGTT TGTGGATGAT 
TTCTATTATG ACTACAATTT CATTAACTTC CACGAAGACC TGTCCTATGG GTCCTTTGAA 
GAATCCCATT CAGACCTGGT TGATATTGGG GGTCAGACAG TACCACCTCA CATCAGACCC 
ACTGAACCCC CCTCAGATTC TCCAGTGCCT ACTGCAGGAG CTCCTGGAGC TGAGGAAGAG 
GGCATTCAGG GATCTTGGTC TCCTAGCCCT TTACTCAGTG AGGCTAGCCA TTCCCCACCA 
GTATTATTAG AGAATACCCC TGTGAACCCC TTGGCCAATT TCTTGACCGA GGAAGAGAGT 
CCCATAGGGG CCCCTGAACT TGGGCTCCCC AGCGTGTCCT GGCCCCCTGC TTCAGTTGAT 
GGAATGGTGA CATCTGTTGC CCCTGGAAAC CCTGATGAGT TGCTAGTGAG AGAAGATACG 
CAGAGCCAGC CATCCACTCC ATGGTCTGAC AGGAACAAGC TTTCTAAAGA TGGTAACCCC 
TTGGGTCCTA CATCACCTGC CCTTCCCAAG AGCCCTTTCC CCACCCAGCC CTCATCACCC 
TCCAACAGTA CTACCCAAGC TTCTCTGAGT CCTGATGCAG TAGAGGTGTC GACAGGATGG 
AATGTGGCCT TGGACCCTGT GCTAGAGGCT GACCTGAAGC CTGTACACGG TGAGCTGCGA 
CCCACTGTGG AGATGGCTTC TCCTCCACTT CCTTCCATGG CCACTGTGCC AGGTGTCTGG 
GGCAGGGAGA GCCCTCTTGA ACCAGGGACT TCCACCTCTT CAACCCCAGG ACTGAGCTCA 
CAGAACCTAA AAACTCTGAC AGTGCCGGGG ACCTTCCTTT TGACAGCACC AACTGATCCA 
GGACTACTGG ACCAGATACA GACCCCTCAC ACCGAGGGGA CCCAGAGTCC TGGGTTGTTA 
CCTAGACCAG CTCAGGAGAC TCAAACTAAC AGTAGCAAGG ACCCTGCAGT CCAGCCTTTG 
CAGCCCAGCC TAGTGGAGGA CGGCGCCCCT ACAGATCTGC TGCCTGCCAA GAATGCCAGT 
TGGCAAGTAG GAAACTGGAG CCAGTGTTCC ACTACCTGTG GCCTGGGTGC CATTTGGAGG 
CTTGTGCGCT GCAGCTCTGG CAATGATGAA GACTGCACCC TTTCAAGCCG TCCCCAGCCA 
GCCCGCCATT GTCATCTGAG GCCCTGTGCT GCCTGGCGTG CAGGCAACTG GAGTAAGTGC 
TCTCGCAACT GTGGTGGCGG TTCCGCTACC AGGGATGTAC AGTGTGTGGA CACACGGGAT 
CTCCGGCCAT TGCGGCCCTT TCACTGCCAG CCCGGGCCTA CCAAGCCACC CACCCGTCAG 
CTTTGTGGGA CCCAACCTTG CCTCCCCTGG TACACCTCCT CCTGGAGAGA GTGCTCTGAG 
GCTTGTGGTG GTGGCGAACA GCAGCGTCTG GTGACTTGTC CAGAGCCAGG CCTCTGTGAG 
GAGTCGCTGA GACCCAACAA CACCAGGCCC TGCAACACCC ACCCCTGCAC ACAGTGGGTG 
GTAGGGCCCT GGGGTCAGTG CTCAGCCCCC TGTGGTGGTG GTGTTCAGCG GCGTCTGGTC 
AAGTGTGTGA ACACTCAGAC AGGCTTGGCA GAGGAAGACA GTGACCTGTG TAGCCATGAG 
GCCTGGCCTG AGAGCTCACG GCCATGTGCC ACTGAGGACT GTGAACTGGT TGAACCCTCA 
CGTTGTGAGC GGGATCGCCT GCCCTTCAAT TTCTGTGAGA CGCTGCGTCT GTTGGGCCGC 
TGCCAGCTGC CCACCATCCG CGCTCAGTGC TGCCGCTCAT GTCCCCCACT CAGCCGCGGT 
GTCCCTTCCC GAGGCCATCA ACGGGTGGCC AGACGATAA

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

Adamts7 ( XM_006243525.1 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_006243587.1 Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 7 (Adamts7), transcript variant X4, mRNA.

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CloneID	ORa31447
Clone ID Related Accession (Same CDS sequence)	XM_006243525.1
Accession Version	XM_006243525.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4788bp) 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	2016-07-25
Organism	Rattus norvegicus(Norway rat)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 7 isoform X4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005107.4) 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 :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCACCGTG GTCTGAATCT CCTCCTGATC CTGTGCGCTC TGGCGCCCCA CGTCCTCGGA 
CCTGCATCAG GTCTCCCAAC TGAGGGCCGG GCGGGTTTGG ACATCGTGCA CCCTGTGCGA 
GTGGATGCTG GAGGCTCCTT CCTGTCCTAT GAGCTGTGGC CACGGGTGCT GCGTAAGCGG 
GATGTGTCTG CTGCGCAGGC CTCATCCGCG TTCTACCAGC TGCAGTACCA AGGGCGGGAG 
CTGCTTTTCA ACCTGACCAC CAACCCTTAT CTCCTGGCTC CCGGCTTTGT GAGTGAGATC 
CGACGTCGCA GCAACCTAAG CAACGTGCAC ATCCAAACCA GTGTCCCAAC CTGCCATTTG 
CTTGGCGATG TCCAAGACCC AGAGCTGGAA GGTGGCTTTG CAGCCATCAG CGCCTGTGAT 
GGCCTAAGAG GTGTGTTCCA GCTCTCCAAT GAGGACTACT TCATTGAGCC TCTGGATGAA 
GTTCCAGCTC AGCCTGGACA TGCCCAGCCC CATATGGTGT ACAAGCACAA ACGCTCTGGG 
CAGCAGGATG ACTCAAGGAC TTCAGGCACC TGTGGGGTGC AAGGGTCCCC AGAGCTGAAG 
CACCAGCGAG AACATTGGGA ACAGCGGCAG CAGAAGCGGA GGCAGCAGCG ATCAATCAGC 
AAAGAGAAGT GGGTGGAGAC CCTGGTAGTG GCTGATTCCA AGATGGTGGA GTACCACGGG 
CAGCCGCAAG TGGAGAGCTA TGTGCTGACG ATCATGAACA TGGTGGCTGG ACTGTATCAT 
GATCCAAGCA TTGGGAATCC CATTCACATC ACCGTTGTGC GCCTTATTAT ACTGGAAGAC 
GAGGAGAAGG ACTTAAAGAT CACACACCAT GCTGATGACA CTCTGAAGAA CTTCTGTAGG 
TGGCAGAAGA ATGTCAACAT GAAGGGGGAT GACCACCCAC AGCACCATGA CACTGCCATC 
CTGCTTACCA GGAAGGATTT GTGTGCAACC ATGAACCACC CCTGTGAAAC CTTGGGCCTG 
TCTCACGTGG CTGGCTTGTG CCACCCTCAG CTCAGCTGTA GTGTCAGTGA GGATACTGGC 
CTGCCTCTGG CCTTCACTGT GGCCCATGAG CTAGGACACA GTTTTGGCAT TCAGCATGAC 
GGCACCGGCA ATGACTGTGA ATCCATTGGG AAACGGCCTT TCATCATGTC TCCACAGCTC 
CTGTATGACA GAGGCATTCC ACTCACCTGG TCCCGCTGCA GCCGCGAGTA CATCACCAGG 
TTCCTCGACC GTGGGTGGGG CCTGTGCTTA GATGACCGTC CATCCAAGGG TGTCATTAAC 
TTCCCCTCGG TGCTGCCCGG TGTCCTGTAC GATGTGAACC ATCAGTGCCG CCTTCAGTAT 
GGGCCTTCTT CAGCCTACTG TGAGGACGTG GATAATGTCT GCTACACTCT GTGGTGCTCG 
GTGGGGACCA CCTGTCACTC CAAGATGGAT GCTGCTGTGG ATGGTACGAG CTGTGGGAAG 
AACAAGTGGT GTCTCAATGG AGAGTGCGTC CCTGAGGGCT TCCAGCCCGA GACGGTGGAC 
GGTGGCTGGT CCGGTTGGAG TGCCTGGTCT GTCTGCTCGC GGAGCTGTGG CGTGGGCGTA 
CGGAGTTCTG AACGACAGTG CACACAGCCT GTGCCTAAGA ACAAAGGCAA GTACTGTGTG 
GGGGAGCGGA AGCGGTACCG GCTCTGCAAC CTGCAGGCCT GCCCACCAGA CCGTCCCTCT 
TTCCGCCACA CCCAGTGTAG CCAGTTTGAT AGCATGCTGT ACAAGGGGAA ACTACACAAA 
TGGGTGCCTG TGCTCAACGA CGAGAACCCA TGTGAGCTGC ACTGCCGGCC CTTCAACTAC 
TCCAACAGAG AGAAGCTGAG GGATGCTGTG ATGGATGGCA CCCCTTGCTA CCAAGGCCGC 
ATCAGCCGTG ACATCTGCAT CGATGGCATT TGCAAGAAAG TGGGCTGTGA CTTTGAGCTT 
GACTCTGGTG CTGAGGAGGA CCGCTGTGGG GTGTGCCGGG GGGATGGTTC TACTTGCCAT 
ACCGTGAGCA GGACCTTCAA GGAGGCTGAA GGCATGGGGT ATGTGGATGT AGGGCTGATC 
CCAGCTGGAG CCCGAGAGAT TCTCATTGAG GAGGTGGCCG AGGCTGCCAA CTTCCTGGCC 
CTGCGGAGTG AGGACCCAGA CAAGTACTTC CTCAATGGCG GCTGGACCAT CCAGTGGAAT 
GGGGACTACC AGGTGGCAGG CACTACCTTC ACCTATACAC GCAAGGGCAA CTGGGAGACC 
CTCACATCCC CAGGCCCCAC CACTGAGCCT GTCTGGATCC AGCTGCTATT CCAGGAGAGA 
AACCCTGGGG TACACTACAA GTATACCATC CAGAGGGCCA GCCACAGTGA AGCCCAGCCA 
CCTGAGTTCT CCTGGCACTA TGGGCCCTGG AGCAAGTGCC CAGTCACCTG TGGGACAGGT 
GTGCAGAGGC AGAGTTTGTA CTGCATGGAG AAGCAGGCAG GAATTGTAGA TGAGGGACAC 
TGTGACCATC TGAGTCGGCC CCGTGACCGC AAGAGGAAAT GCAATGAGGA GCCCTGTCCT 
GCCAGGTGGT GGGTAGGGGA CTGGCAGCCG TGTTCCCGAT CCTGTGGGCC TGGAGGTTTC 
TTTCGCCGGG CTGTGTTCTG CACACGTAGT GTAGGGCTGG ATGAGCAGCG TGCCCTTGAG 
CCATCTGCTT GTGGACATCT TCCCCGTCCC TTGGCTGAAA TCCCGTGCTA CCATTATGTT 
GCCTGTCCTT CCTCCTGGGG TGTGGGGAAC TGGTCTCAGT GCTCTGTGAC ATGTGGAGCT 
GGCATTCGGC AACGAAGTGT CCTCTGCATC AACAATACTG GTGTCCCCTG TGATGGAGCT 
GAGCGACCAA TAACTGAGAC CTTTTGTTTT CTGCAACCCT GCCAGTATTC CACGTACATA 
GTGGACACAG GTGCCTCTGG GAGCGGCTCC TCCAGTCCCG AGCTCTTCAA TGAGGTTGAC 
TTCGACCCGC ACCAGCCGGT CCCACGCCCT TCCCCAGCAT CCTCACCCAA GCCAGTCAGC 
ATCAGCAACG CTATTGATGA GGAAGACCCG GAACTGGATC CGCCAGGGCC TGTGTTTGTG 
GATGATTTCT ATTATGACTA CAATTTCATT AACTTCCACG AAGACCTGTC CTATGGGTCC 
TTTGAAGAAT CCCATTCAGA CCTGGTTGAT ATTGGGGGTC AGACAGTACC ACCTCACATC 
AGACCCACTG AACCCCCCTC AGATTCTCCA GTGCCTACTG CAGGAGCTCC TGGAGCTGAG 
GAAGAGGGCA TTCAGGGATC TTGGTCTCCT AGCCCTTTAC TCAGTGAGGC TAGCCATTCC 
CCACCAGTAT TATTAGAGAA TACCCCTGTG AACCCCTTGG CCAATTTCTT GACCGAGGAA 
GAGAGTCCCA TAGGGGCCCC TGAACTTGGG CTCCCCAGCG TGTCCTGGCC CCCTGCTTCA 
GTTGATGGAA TGGTGACATC TGTTGCCCCT GGAAACCCTG ATGAGTTGCT AGTGAGAGAA 
GATACGCAGA GCCAGCCATC CACTCCATGG TCTGACAGGA ACAAGCTTTC TAAAGATGGT 
AACCCCTTGG GTCCTACATC ACCTGCCCTT CCCAAGAGCC CTTTCCCCAC CCAGCCCTCA 
TCACCCTCCA ACAGTACTAC CCAAGCTTCT CTGAGTCCTG ATGCAGTAGA GGTGTCGACA 
GGATGGAATG TGGCCTTGGA CCCTGTGCTA GAGGCTGACC TGAAGCCTGT ACACGCACCA 
ACTGATCCAG GACTACTGGA CCAGATACAG ACCCCTCACA CCGAGGGGAC CCAGAGTCCT 
GGGTTGTTAC CTAGACCAGC TCAGGAGACT CAAACTAACA GTAGCAAGGA CCCTGCAGTC 
CAGCCTTTGC AGCCCAGCCT AGTGGAGGAC GGCGCCCCTA CAGATCTGCT GCCTGCCAAG 
AATGCCAGTT GGCAAGTAGG AAACTGGAGC CAGTGTTCCA CTACCTGTGG CCTGGGTGCC 
ATTTGGAGGC TTGTGCGCTG CAGCTCTGGC AATGATGAAG ACTGCACCCT TTCAAGCCGT 
CCCCAGCCAG CCCGCCATTG TCATCTGAGG CCCTGTGCTG CCTGGCGTGC AGGCAACTGG 
AGTAAGTGCT CTCGCAACTG TGGTGGCGGT TCCGCTACCA GGGATGTACA GTGTGTGGAC 
ACACGGGATC TCCGGCCATT GCGGCCCTTT CACTGCCAGC CCGGGCCTAC CAAGCCACCC 
ACCCGTCAGC TTTGTGGGAC CCAACCTTGC CTCCCCTGGT ACACCTCCTC CTGGAGAGAG 
TGCTCTGAGG CTTGTGGTGG TGGCGAACAG CAGCGTCTGG TGACTTGTCC AGAGCCAGGC 
CTCTGTGAGG AGTCGCTGAG ACCCAACAAC ACCAGGCCCT GCAACACCCA CCCCTGCACA 
CAGTGGGTGG TAGGGCCCTG GGGTCAGTGC TCAGCCCCCT GTGGTGGTGG TGTTCAGCGG 
CGTCTGGTCA AGTGTGTGAA CACTCAGACA GGCTTGGCAG AGGAAGACAG TGACCTGTGT 
AGCCATGAGG CCTGGCCTGA GAGCTCACGG CCATGTGCCA CTGAGGACTG TGAACTGGTT 
GAACCCTCAC GTTGTGAGCG GGATCGCCTG CCCTTCAATT TCTGTGAGAC GCTGCGTCTG 
TTGGGCCGCT GCCAGCTGCC CACCATCCGC GCTCAGTGCT GCCGCTCATG TCCCCCACTC 
AGCCGCGGTG TCCCTTCCCG AGGCCATCAA CGGGTGGCCA GACGATAA

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

RefSeq	XP_006243587.1
CDS	298..5085
Translation	MHRGLNLLLILCALAPHVLGPASGLPTEGRAGLDIVHPVRVDAGGSFLSYELWPRVLRKRDVSAAQASSAFYQLQYQGRELLFNLTTNPYLLAPGFVSEIRRRSNLSNVHIQTSVPTCHLLGDVQDPELEGGFAAISACDGLRGVFQLSNEDYFIEPLDEVPAQPGHAQPHMVYKHKRSGQQDDSRTSGTCGVQGSPELKHQREHWEQRQQKRRQQRSISKEKWVETLVVADSKMVEYHGQPQVESYVLTIMNMVAGLYHDPSIGNPIHITVVRLIILEDEEKDLKITHHADDTLKNFCRWQKNVNMKGDDHPQHHDTAILLTRKDLCATMNHPCETLGLSHVAGLCHPQLSCSVSEDTGLPLAFTVAHELGHSFGIQHDGTGNDCESIGKRPFIMSPQLLYDRGIPLTWSRCSREYITRFLDRGWGLCLDDRPSKGVINFPSVLPGVLYDVNHQCRLQYGPSSAYCEDVDNVCYTLWCSVGTTCHSKMDAAVDGTSCGKNKWCLNGECVPEGFQPETVDGGWSGWSAWSVCSRSCGVGVRSSERQCTQPVPKNKGKYCVGERKRYRLCNLQACPPDRPSFRHTQCSQFDSMLYKGKLHKWVPVLNDENPCELHCRPFNYSNREKLRDAVMDGTPCYQGRISRDICIDGICKKVGCDFELDSGAEEDRCGVCRGDGSTCHTVSRTFKEAEGMGYVDVGLIPAGAREILIEEVAEAANFLALRSEDPDKYFLNGGWTIQWNGDYQVAGTTFTYTRKGNWETLTSPGPTTEPVWIQLLFQERNPGVHYKYTIQRASHSEAQPPEFSWHYGPWSKCPVTCGTGVQRQSLYCMEKQAGIVDEGHCDHLSRPRDRKRKCNEEPCPARWWVGDWQPCSRSCGPGGFFRRAVFCTRSVGLDEQRALEPSACGHLPRPLAEIPCYHYVACPSSWGVGNWSQCSVTCGAGIRQRSVLCINNTGVPCDGAERPITETFCFLQPCQYSTYIVDTGASGSGSSSPELFNEVDFDPHQPVPRPSPASSPKPVSISNAIDEEDPELDPPGPVFVDDFYYDYNFINFHEDLSYGSFEESHSDLVDIGGQTVPPHIRPTEPPSDSPVPTAGAPGAEEEGIQGSWSPSPLLSEASHSPPVLLENTPVNPLANFLTEEESPIGAPELGLPSVSWPPASVDGMVTSVAPGNPDELLVREDTQSQPSTPWSDRNKLSKDGNPLGPTSPALPKSPFPTQPSSPSNSTTQASLSPDAVEVSTGWNVALDPVLEADLKPVHAPTDPGLLDQIQTPHTEGTQSPGLLPRPAQETQTNSSKDPAVQPLQPSLVEDGAPTDLLPAKNASWQVGNWSQCSTTCGLGAIWRLVRCSSGNDEDCTLSSRPQPARHCHLRPCAAWRAGNWSKCSRNCGGGSATRDVQCVDTRDLRPLRPFHCQPGPTKPPTRQLCGTQPCLPWYTSSWRECSEACGGGEQQRLVTCPEPGLCEESLRPNNTRPCNTHPCTQWVVGPWGQCSAPCGGGVQRRLVKCVNTQTGLAEEDSDLCSHEAWPESSRPCATEDCELVEPSRCERDRLPFNFCETLRLLGRCQLPTIRAQCCRSCPPLSRGVPSRGHQRVARR

Target ORF information:

RefSeq Version	XM_006243525.1
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 7 (Adamts7), transcript variant X4, mRNA.

Target ORF information:

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

XM_006243525.1

ORF Insert Sequence:

ATGCACCGTG GTCTGAATCT CCTCCTGATC CTGTGCGCTC TGGCGCCCCA CGTCCTCGGA 
CCTGCATCAG GTCTCCCAAC TGAGGGCCGG GCGGGTTTGG ACATCGTGCA CCCTGTGCGA 
GTGGATGCTG GAGGCTCCTT CCTGTCCTAT GAGCTGTGGC CACGGGTGCT GCGTAAGCGG 
GATGTGTCTG CTGCGCAGGC CTCATCCGCG TTCTACCAGC TGCAGTACCA AGGGCGGGAG 
CTGCTTTTCA ACCTGACCAC CAACCCTTAT CTCCTGGCTC CCGGCTTTGT GAGTGAGATC 
CGACGTCGCA GCAACCTAAG CAACGTGCAC ATCCAAACCA GTGTCCCAAC CTGCCATTTG 
CTTGGCGATG TCCAAGACCC AGAGCTGGAA GGTGGCTTTG CAGCCATCAG CGCCTGTGAT 
GGCCTAAGAG GTGTGTTCCA GCTCTCCAAT GAGGACTACT TCATTGAGCC TCTGGATGAA 
GTTCCAGCTC AGCCTGGACA TGCCCAGCCC CATATGGTGT ACAAGCACAA ACGCTCTGGG 
CAGCAGGATG ACTCAAGGAC TTCAGGCACC TGTGGGGTGC AAGGGTCCCC AGAGCTGAAG 
CACCAGCGAG AACATTGGGA ACAGCGGCAG CAGAAGCGGA GGCAGCAGCG ATCAATCAGC 
AAAGAGAAGT GGGTGGAGAC CCTGGTAGTG GCTGATTCCA AGATGGTGGA GTACCACGGG 
CAGCCGCAAG TGGAGAGCTA TGTGCTGACG ATCATGAACA TGGTGGCTGG ACTGTATCAT 
GATCCAAGCA TTGGGAATCC CATTCACATC ACCGTTGTGC GCCTTATTAT ACTGGAAGAC 
GAGGAGAAGG ACTTAAAGAT CACACACCAT GCTGATGACA CTCTGAAGAA CTTCTGTAGG 
TGGCAGAAGA ATGTCAACAT GAAGGGGGAT GACCACCCAC AGCACCATGA CACTGCCATC 
CTGCTTACCA GGAAGGATTT GTGTGCAACC ATGAACCACC CCTGTGAAAC CTTGGGCCTG 
TCTCACGTGG CTGGCTTGTG CCACCCTCAG CTCAGCTGTA GTGTCAGTGA GGATACTGGC 
CTGCCTCTGG CCTTCACTGT GGCCCATGAG CTAGGACACA GTTTTGGCAT TCAGCATGAC 
GGCACCGGCA ATGACTGTGA ATCCATTGGG AAACGGCCTT TCATCATGTC TCCACAGCTC 
CTGTATGACA GAGGCATTCC ACTCACCTGG TCCCGCTGCA GCCGCGAGTA CATCACCAGG 
TTCCTCGACC GTGGGTGGGG CCTGTGCTTA GATGACCGTC CATCCAAGGG TGTCATTAAC 
TTCCCCTCGG TGCTGCCCGG TGTCCTGTAC GATGTGAACC ATCAGTGCCG CCTTCAGTAT 
GGGCCTTCTT CAGCCTACTG TGAGGACGTG GATAATGTCT GCTACACTCT GTGGTGCTCG 
GTGGGGACCA CCTGTCACTC CAAGATGGAT GCTGCTGTGG ATGGTACGAG CTGTGGGAAG 
AACAAGTGGT GTCTCAATGG AGAGTGCGTC CCTGAGGGCT TCCAGCCCGA GACGGTGGAC 
GGTGGCTGGT CCGGTTGGAG TGCCTGGTCT GTCTGCTCGC GGAGCTGTGG CGTGGGCGTA 
CGGAGTTCTG AACGACAGTG CACACAGCCT GTGCCTAAGA ACAAAGGCAA GTACTGTGTG 
GGGGAGCGGA AGCGGTACCG GCTCTGCAAC CTGCAGGCCT GCCCACCAGA CCGTCCCTCT 
TTCCGCCACA CCCAGTGTAG CCAGTTTGAT AGCATGCTGT ACAAGGGGAA ACTACACAAA 
TGGGTGCCTG TGCTCAACGA CGAGAACCCA TGTGAGCTGC ACTGCCGGCC CTTCAACTAC 
TCCAACAGAG AGAAGCTGAG GGATGCTGTG ATGGATGGCA CCCCTTGCTA CCAAGGCCGC 
ATCAGCCGTG ACATCTGCAT CGATGGCATT TGCAAGAAAG TGGGCTGTGA CTTTGAGCTT 
GACTCTGGTG CTGAGGAGGA CCGCTGTGGG GTGTGCCGGG GGGATGGTTC TACTTGCCAT 
ACCGTGAGCA GGACCTTCAA GGAGGCTGAA GGCATGGGGT ATGTGGATGT AGGGCTGATC 
CCAGCTGGAG CCCGAGAGAT TCTCATTGAG GAGGTGGCCG AGGCTGCCAA CTTCCTGGCC 
CTGCGGAGTG AGGACCCAGA CAAGTACTTC CTCAATGGCG GCTGGACCAT CCAGTGGAAT 
GGGGACTACC AGGTGGCAGG CACTACCTTC ACCTATACAC GCAAGGGCAA CTGGGAGACC 
CTCACATCCC CAGGCCCCAC CACTGAGCCT GTCTGGATCC AGCTGCTATT CCAGGAGAGA 
AACCCTGGGG TACACTACAA GTATACCATC CAGAGGGCCA GCCACAGTGA AGCCCAGCCA 
CCTGAGTTCT CCTGGCACTA TGGGCCCTGG AGCAAGTGCC CAGTCACCTG TGGGACAGGT 
GTGCAGAGGC AGAGTTTGTA CTGCATGGAG AAGCAGGCAG GAATTGTAGA TGAGGGACAC 
TGTGACCATC TGAGTCGGCC CCGTGACCGC AAGAGGAAAT GCAATGAGGA GCCCTGTCCT 
GCCAGGTGGT GGGTAGGGGA CTGGCAGCCG TGTTCCCGAT CCTGTGGGCC TGGAGGTTTC 
TTTCGCCGGG CTGTGTTCTG CACACGTAGT GTAGGGCTGG ATGAGCAGCG TGCCCTTGAG 
CCATCTGCTT GTGGACATCT TCCCCGTCCC TTGGCTGAAA TCCCGTGCTA CCATTATGTT 
GCCTGTCCTT CCTCCTGGGG TGTGGGGAAC TGGTCTCAGT GCTCTGTGAC ATGTGGAGCT 
GGCATTCGGC AACGAAGTGT CCTCTGCATC AACAATACTG GTGTCCCCTG TGATGGAGCT 
GAGCGACCAA TAACTGAGAC CTTTTGTTTT CTGCAACCCT GCCAGTATTC CACGTACATA 
GTGGACACAG GTGCCTCTGG GAGCGGCTCC TCCAGTCCCG AGCTCTTCAA TGAGGTTGAC 
TTCGACCCGC ACCAGCCGGT CCCACGCCCT TCCCCAGCAT CCTCACCCAA GCCAGTCAGC 
ATCAGCAACG CTATTGATGA GGAAGACCCG GAACTGGATC CGCCAGGGCC TGTGTTTGTG 
GATGATTTCT ATTATGACTA CAATTTCATT AACTTCCACG AAGACCTGTC CTATGGGTCC 
TTTGAAGAAT CCCATTCAGA CCTGGTTGAT ATTGGGGGTC AGACAGTACC ACCTCACATC 
AGACCCACTG AACCCCCCTC AGATTCTCCA GTGCCTACTG CAGGAGCTCC TGGAGCTGAG 
GAAGAGGGCA TTCAGGGATC TTGGTCTCCT AGCCCTTTAC TCAGTGAGGC TAGCCATTCC 
CCACCAGTAT TATTAGAGAA TACCCCTGTG AACCCCTTGG CCAATTTCTT GACCGAGGAA 
GAGAGTCCCA TAGGGGCCCC TGAACTTGGG CTCCCCAGCG TGTCCTGGCC CCCTGCTTCA 
GTTGATGGAA TGGTGACATC TGTTGCCCCT GGAAACCCTG ATGAGTTGCT AGTGAGAGAA 
GATACGCAGA GCCAGCCATC CACTCCATGG TCTGACAGGA ACAAGCTTTC TAAAGATGGT 
AACCCCTTGG GTCCTACATC ACCTGCCCTT CCCAAGAGCC CTTTCCCCAC CCAGCCCTCA 
TCACCCTCCA ACAGTACTAC CCAAGCTTCT CTGAGTCCTG ATGCAGTAGA GGTGTCGACA 
GGATGGAATG TGGCCTTGGA CCCTGTGCTA GAGGCTGACC TGAAGCCTGT ACACGCACCA 
ACTGATCCAG GACTACTGGA CCAGATACAG ACCCCTCACA CCGAGGGGAC CCAGAGTCCT 
GGGTTGTTAC CTAGACCAGC TCAGGAGACT CAAACTAACA GTAGCAAGGA CCCTGCAGTC 
CAGCCTTTGC AGCCCAGCCT AGTGGAGGAC GGCGCCCCTA CAGATCTGCT GCCTGCCAAG 
AATGCCAGTT GGCAAGTAGG AAACTGGAGC CAGTGTTCCA CTACCTGTGG CCTGGGTGCC 
ATTTGGAGGC TTGTGCGCTG CAGCTCTGGC AATGATGAAG ACTGCACCCT TTCAAGCCGT 
CCCCAGCCAG CCCGCCATTG TCATCTGAGG CCCTGTGCTG CCTGGCGTGC AGGCAACTGG 
AGTAAGTGCT CTCGCAACTG TGGTGGCGGT TCCGCTACCA GGGATGTACA GTGTGTGGAC 
ACACGGGATC TCCGGCCATT GCGGCCCTTT CACTGCCAGC CCGGGCCTAC CAAGCCACCC 
ACCCGTCAGC TTTGTGGGAC CCAACCTTGC CTCCCCTGGT ACACCTCCTC CTGGAGAGAG 
TGCTCTGAGG CTTGTGGTGG TGGCGAACAG CAGCGTCTGG TGACTTGTCC AGAGCCAGGC 
CTCTGTGAGG AGTCGCTGAG ACCCAACAAC ACCAGGCCCT GCAACACCCA CCCCTGCACA 
CAGTGGGTGG TAGGGCCCTG GGGTCAGTGC TCAGCCCCCT GTGGTGGTGG TGTTCAGCGG 
CGTCTGGTCA AGTGTGTGAA CACTCAGACA GGCTTGGCAG AGGAAGACAG TGACCTGTGT 
AGCCATGAGG CCTGGCCTGA GAGCTCACGG CCATGTGCCA CTGAGGACTG TGAACTGGTT 
GAACCCTCAC GTTGTGAGCG GGATCGCCTG CCCTTCAATT TCTGTGAGAC GCTGCGTCTG 
TTGGGCCGCT GCCAGCTGCC CACCATCCGC GCTCAGTGCT GCCGCTCATG TCCCCCACTC 
AGCCGCGGTG TCCCTTCCCG AGGCCATCAA CGGGTGGCCA GACGATAA

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

Adamts7 ( XM_006243526.1 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_006243588.1 Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 7 (Adamts7), transcript variant X5, mRNA.

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CloneID	ORa31448
Clone ID Related Accession (Same CDS sequence)	XM_006243526.1
Accession Version	XM_006243526.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4662bp) 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	2016-07-25
Organism	Rattus norvegicus(Norway rat)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 7 isoform X5
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005107.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCACCGTG GTCTGAATCT CCTCCTGATC CTGTGCGCTC TGGCGCCCCA CGTCCTCGGA 
CCTGCATCAG GTCTCCCAAC TGAGGGCCGG GCGGGTTTGG ACATCGTGCA CCCTGTGCGA 
GTGGATGCTG GAGGCTCCTT CCTGTCCTAT GAGCTGTGGC CACGGGTGCT GCGTAAGCGG 
GATGTGTCTG CTGCGCAGGC CTCATCCGCG TTCTACCAGC TGCAGTACCA AGGGCGGGAG 
CTGCTTTTCA ACCTGACCAC CAACCCTTAT CTCCTGGCTC CCGGCTTTGT GAGTGAGATC 
CGACGTCGCA GCAACCTAAG CAACGTGCAC ATCCAAACCA GTGTCCCAAC CTGCCATTTG 
CTTGGCGATG TCCAAGACCC AGAGCTGGAA GGTGGCTTTG CAGCCATCAG CGCCTGTGAT 
GGCCTAAGAG GTGTGTTCCA GCTCTCCAAT GAGGACTACT TCATTGAGCC TCTGGATGAA 
GTTCCAGCTC AGCCTGGACA TGCCCAGCCC CATATGGTGT ACAAGCACAA ACGCTCTGGG 
CAGCAGGATG ACTCAAGGAC TTCAGGCACC TGTGGGGTGC AAGGGTCCCC AGAGCTGAAG 
CACCAGCGAG AACATTGGGA ACAGCGGCAG CAGAAGCGGA GGCAGCAGCG ATCAATCAGC 
AAAGAGAAGT GGGTGGAGAC CCTGGTAGTG GCTGATTCCA AGATGGTGGA GTACCACGGG 
CAGCCGCAAG TGGAGAGCTA TGTGCTGACG ATCATGAACA TGGTGGCTGG ACTGTATCAT 
GATCCAAGCA TTGGGAATCC CATTCACATC ACCGTTGTGC GCCTTATTAT ACTGGAAGAC 
GAGGAGAAGG ACTTAAAGAT CACACACCAT GCTGATGACA CTCTGAAGAA CTTCTGTAGG 
TGGCAGAAGA ATGTCAACAT GAAGGGGGAT GACCACCCAC AGCACCATGA CACTGCCATC 
CTGCTTACCA GGAAGGATTT GTGTGCAACC ATGAACCACC CCTGTGAAAC CTTGGGCCTG 
TCTCACGTGG CTGGCTTGTG CCACCCTCAG CTCAGCTGTA GTGTCAGTGA GGATACTGGC 
CTGCCTCTGG CCTTCACTGT GGCCCATGAG CTAGGACACA GTTTTGGCAT TCAGCATGAC 
GGCACCGGCA ATGACTGTGA ATCCATTGGG AAACGGCCTT TCATCATGTC TCCACAGCTC 
CTGTATGACA GAGGCATTCC ACTCACCTGG TCCCGCTGCA GCCGCGAGTA CATCACCAGG 
TTCCTCGACC GTGGGTGGGG CCTGTGCTTA GATGACCGTC CATCCAAGGG TGTCATTAAC 
TTCCCCTCGG TGCTGCCCGG TGTCCTGTAC GATGTGAACC ATCAGTGCCG CCTTCAGTAT 
GGGCCTTCTT CAGCCTACTG TGAGGACGTG GATAATGTCT GCTACACTCT GTGGTGCTCG 
GTGGGGACCA CCTGTCACTC CAAGATGGAT GCTGCTGTGG ATGGTACGAG CTGTGGGAAG 
AACAAGTGGT GTCTCAATGG AGAGTGCGTC CCTGAGGGCT TCCAGCCCGA GACGGTGGAC 
GGTGGCTGGT CCGGTTGGAG TGCCTGGTCT GTCTGCTCGC GGAGCTGTGG CGTGGGCGTA 
CGGAGTTCTG AACGACAGTG CACACAGCCT GTGCCTAAGA ACAAAGGCAA GTACTGTGTG 
GGGGAGCGGA AGCGGTACCG GCTCTGCAAC CTGCAGGCCT GCCCACCAGA CCGTCCCTCT 
TTCCGCCACA CCCAGTGTAG CCAGTTTGAT AGCATGCTGT ACAAGGGGAA ACTACACAAA 
TGGGTGCCTG TGCTCAACGA CGAGAACCCA TGTGAGCTGC ACTGCCGGCC CTTCAACTAC 
TCCAACAGAG AGAAGCTGAG GGATGCTGTG ATGGATGGCA CCCCTTGCTA CCAAGGCCGC 
ATCAGCCGTG ACATCTGCAT CGATGGCATT TGCAAGAAAG TGGGCTGTGA CTTTGAGCTT 
GACTCTGGTG CTGAGGAGGA CCGCTGTGGG GTGTGCCGGG GGGATGGTTC TACTTGCCAT 
ACCGTGAGCA GGACCTTCAA GGAGGCTGAA GGCATGGGGT ATGTGGATGT AGGGCTGATC 
CCAGCTGGAG CCCGAGAGAT TCTCATTGAG GAGGTGGCCG AGGCTGCCAA CTTCCTGGCC 
CTGCGGAGTG AGGACCCAGA CAAGTACTTC CTCAATGGCG GCTGGACCAT CCAGTGGAAT 
GGGGACTACC AGGTGGCAGG CACTACCTTC ACCTATACAC GCAAGGGCAA CTGGGAGACC 
CTCACATCCC CAGGCCCCAC CACTGAGCCT GTCTGGATCC AGCTGCTATT CCAGGAGAGA 
AACCCTGGGG TACACTACAA GTATACCATC CAGAGGGCCA GCCACAGTGA AGCCCAGCCA 
CCTGAGTTCT CCTGGCACTA TGGGCCCTGG AGCAAGTGCC CAGTCACCTG TGGGACAGGT 
GTGCAGAGGC AGAGTTTGTA CTGCATGGAG AAGCAGGCAG GAATTGTAGA TGAGGGACAC 
TGTGACCATC TGAGTCGGCC CCGTGACCGC AAGAGGAAAT GCAATGAGGA GCCCTGTCCT 
GCCAGGTGGT GGGTAGGGGA CTGGCAGCCG TGTTCCCGAT CCTGTGGGCC TGGAGGTTTC 
TTTCGCCGGG CTGTGTTCTG CACACGTAGT GTAGGGCTGG ATGAGCAGCG TGCCCTTGAG 
CCATCTGCTT GTGGACATCT TCCCCGTCCC TTGGCTGAAA TCCCGTGCTA CCATTATGTT 
GCCTGTCCTT CCTCCTGGGG TGTGGGGAAC TGGTCTCAGT ATTCCACGTA CATAGTGGAC 
ACAGGTGCCT CTGGGAGCGG CTCCTCCAGT CCCGAGCTCT TCAATGAGGT TGACTTCGAC 
CCGCACCAGC CGGTCCCACG CCCTTCCCCA GCATCCTCAC CCAAGCCAGT CAGCATCAGC 
AACGCTATTG ATGAGGAAGA CCCGGAACTG GATCCGCCAG GGCCTGTGTT TGTGGATGAT 
TTCTATTATG ACTACAATTT CATTAACTTC CACGAAGACC TGTCCTATGG GTCCTTTGAA 
GAATCCCATT CAGACCTGGT TGATATTGGG GGTCAGACAG TACCACCTCA CATCAGACCC 
ACTGAACCCC CCTCAGATTC TCCAGTGCCT ACTGCAGGAG CTCCTGGAGC TGAGGAAGAG 
GGCATTCAGG GATCTTGGTC TCCTAGCCCT TTACTCAGTG AGGCTAGCCA TTCCCCACCA 
GTATTATTAG AGAATACCCC TGTGAACCCC TTGGCCAATT TCTTGACCGA GGAAGAGAGT 
CCCATAGGGG CCCCTGAACT TGGGCTCCCC AGCGTGTCCT GGCCCCCTGC TTCAGTTGAT 
GGAATGGTGA CATCTGTTGC CCCTGGAAAC CCTGATGAGT TGCTAGTGAG AGAAGATACG 
CAGAGCCAGC CATCCACTCC ATGGTCTGAC AGGAACAAGC TTTCTAAAGA TGGTAACCCC 
TTGGGTCCTA CATCACCTGC CCTTCCCAAG AGCCCTTTCC CCACCCAGCC CTCATCACCC 
TCCAACAGTA CTACCCAAGC TTCTCTGAGT CCTGATGCAG TAGAGGTGTC GACAGGATGG 
AATGTGGCCT TGGACCCTGT GCTAGAGGCT GACCTGAAGC CTGTACACGC ACCAACTGAT 
CCAGGACTAC TGGACCAGAT ACAGACCCCT CACACCGAGG GGACCCAGAG TCCTGGGTTG 
TTACCTAGAC CAGCTCAGGA GACTCAAACT AACAGTAGCA AGGACCCTGC AGTCCAGCCT 
TTGCAGCCCA GCCTAGTGGA GGACGGCGCC CCTACAGATC TGCTGCCTGC CAAGAATGCC 
AGTTGGCAAG TAGGAAACTG GAGCCAGTGT TCCACTACCT GTGGCCTGGG TGCCATTTGG 
AGGCTTGTGC GCTGCAGCTC TGGCAATGAT GAAGACTGCA CCCTTTCAAG CCGTCCCCAG 
CCAGCCCGCC ATTGTCATCT GAGGCCCTGT GCTGCCTGGC GTGCAGGCAA CTGGAGTAAG 
TGCTCTCGCA ACTGTGGTGG CGGTTCCGCT ACCAGGGATG TACAGTGTGT GGACACACGG 
GATCTCCGGC CATTGCGGCC CTTTCACTGC CAGCCCGGGC CTACCAAGCC ACCCACCCGT 
CAGCTTTGTG GGACCCAACC TTGCCTCCCC TGGTACACCT CCTCCTGGAG AGAGTGCTCT 
GAGGCTTGTG GTGGTGGCGA ACAGCAGCGT CTGGTGACTT GTCCAGAGCC AGGCCTCTGT 
GAGGAGTCGC TGAGACCCAA CAACACCAGG CCCTGCAACA CCCACCCCTG CACACAGTGG 
GTGGTAGGGC CCTGGGGTCA GTGCTCAGCC CCCTGTGGTG GTGGTGTTCA GCGGCGTCTG 
GTCAAGTGTG TGAACACTCA GACAGGCTTG GCAGAGGAAG ACAGTGACCT GTGTAGCCAT 
GAGGCCTGGC CTGAGAGCTC ACGGCCATGT GCCACTGAGG ACTGTGAACT GGTTGAACCC 
TCACGTTGTG AGCGGGATCG CCTGCCCTTC AATTTCTGTG AGACGCTGCG TCTGTTGGGC 
CGCTGCCAGC TGCCCACCAT CCGCGCTCAG TGCTGCCGCT CATGTCCCCC ACTCAGCCGC 
GGTGTCCCTT CCCGAGGCCA TCAACGGGTG GCCAGACGAT AA

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

RefSeq	XP_006243588.1
CDS	298..4959
Translation	MHRGLNLLLILCALAPHVLGPASGLPTEGRAGLDIVHPVRVDAGGSFLSYELWPRVLRKRDVSAAQASSAFYQLQYQGRELLFNLTTNPYLLAPGFVSEIRRRSNLSNVHIQTSVPTCHLLGDVQDPELEGGFAAISACDGLRGVFQLSNEDYFIEPLDEVPAQPGHAQPHMVYKHKRSGQQDDSRTSGTCGVQGSPELKHQREHWEQRQQKRRQQRSISKEKWVETLVVADSKMVEYHGQPQVESYVLTIMNMVAGLYHDPSIGNPIHITVVRLIILEDEEKDLKITHHADDTLKNFCRWQKNVNMKGDDHPQHHDTAILLTRKDLCATMNHPCETLGLSHVAGLCHPQLSCSVSEDTGLPLAFTVAHELGHSFGIQHDGTGNDCESIGKRPFIMSPQLLYDRGIPLTWSRCSREYITRFLDRGWGLCLDDRPSKGVINFPSVLPGVLYDVNHQCRLQYGPSSAYCEDVDNVCYTLWCSVGTTCHSKMDAAVDGTSCGKNKWCLNGECVPEGFQPETVDGGWSGWSAWSVCSRSCGVGVRSSERQCTQPVPKNKGKYCVGERKRYRLCNLQACPPDRPSFRHTQCSQFDSMLYKGKLHKWVPVLNDENPCELHCRPFNYSNREKLRDAVMDGTPCYQGRISRDICIDGICKKVGCDFELDSGAEEDRCGVCRGDGSTCHTVSRTFKEAEGMGYVDVGLIPAGAREILIEEVAEAANFLALRSEDPDKYFLNGGWTIQWNGDYQVAGTTFTYTRKGNWETLTSPGPTTEPVWIQLLFQERNPGVHYKYTIQRASHSEAQPPEFSWHYGPWSKCPVTCGTGVQRQSLYCMEKQAGIVDEGHCDHLSRPRDRKRKCNEEPCPARWWVGDWQPCSRSCGPGGFFRRAVFCTRSVGLDEQRALEPSACGHLPRPLAEIPCYHYVACPSSWGVGNWSQYSTYIVDTGASGSGSSSPELFNEVDFDPHQPVPRPSPASSPKPVSISNAIDEEDPELDPPGPVFVDDFYYDYNFINFHEDLSYGSFEESHSDLVDIGGQTVPPHIRPTEPPSDSPVPTAGAPGAEEEGIQGSWSPSPLLSEASHSPPVLLENTPVNPLANFLTEEESPIGAPELGLPSVSWPPASVDGMVTSVAPGNPDELLVREDTQSQPSTPWSDRNKLSKDGNPLGPTSPALPKSPFPTQPSSPSNSTTQASLSPDAVEVSTGWNVALDPVLEADLKPVHAPTDPGLLDQIQTPHTEGTQSPGLLPRPAQETQTNSSKDPAVQPLQPSLVEDGAPTDLLPAKNASWQVGNWSQCSTTCGLGAIWRLVRCSSGNDEDCTLSSRPQPARHCHLRPCAAWRAGNWSKCSRNCGGGSATRDVQCVDTRDLRPLRPFHCQPGPTKPPTRQLCGTQPCLPWYTSSWRECSEACGGGEQQRLVTCPEPGLCEESLRPNNTRPCNTHPCTQWVVGPWGQCSAPCGGGVQRRLVKCVNTQTGLAEEDSDLCSHEAWPESSRPCATEDCELVEPSRCERDRLPFNFCETLRLLGRCQLPTIRAQCCRSCPPLSRGVPSRGHQRVARR

Target ORF information:

RefSeq Version	XM_006243526.1
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 7 (Adamts7), transcript variant X5, mRNA.

Target ORF information:

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

XM_006243526.1

ORF Insert Sequence:

ATGCACCGTG GTCTGAATCT CCTCCTGATC CTGTGCGCTC TGGCGCCCCA CGTCCTCGGA 
CCTGCATCAG GTCTCCCAAC TGAGGGCCGG GCGGGTTTGG ACATCGTGCA CCCTGTGCGA 
GTGGATGCTG GAGGCTCCTT CCTGTCCTAT GAGCTGTGGC CACGGGTGCT GCGTAAGCGG 
GATGTGTCTG CTGCGCAGGC CTCATCCGCG TTCTACCAGC TGCAGTACCA AGGGCGGGAG 
CTGCTTTTCA ACCTGACCAC CAACCCTTAT CTCCTGGCTC CCGGCTTTGT GAGTGAGATC 
CGACGTCGCA GCAACCTAAG CAACGTGCAC ATCCAAACCA GTGTCCCAAC CTGCCATTTG 
CTTGGCGATG TCCAAGACCC AGAGCTGGAA GGTGGCTTTG CAGCCATCAG CGCCTGTGAT 
GGCCTAAGAG GTGTGTTCCA GCTCTCCAAT GAGGACTACT TCATTGAGCC TCTGGATGAA 
GTTCCAGCTC AGCCTGGACA TGCCCAGCCC CATATGGTGT ACAAGCACAA ACGCTCTGGG 
CAGCAGGATG ACTCAAGGAC TTCAGGCACC TGTGGGGTGC AAGGGTCCCC AGAGCTGAAG 
CACCAGCGAG AACATTGGGA ACAGCGGCAG CAGAAGCGGA GGCAGCAGCG ATCAATCAGC 
AAAGAGAAGT GGGTGGAGAC CCTGGTAGTG GCTGATTCCA AGATGGTGGA GTACCACGGG 
CAGCCGCAAG TGGAGAGCTA TGTGCTGACG ATCATGAACA TGGTGGCTGG ACTGTATCAT 
GATCCAAGCA TTGGGAATCC CATTCACATC ACCGTTGTGC GCCTTATTAT ACTGGAAGAC 
GAGGAGAAGG ACTTAAAGAT CACACACCAT GCTGATGACA CTCTGAAGAA CTTCTGTAGG 
TGGCAGAAGA ATGTCAACAT GAAGGGGGAT GACCACCCAC AGCACCATGA CACTGCCATC 
CTGCTTACCA GGAAGGATTT GTGTGCAACC ATGAACCACC CCTGTGAAAC CTTGGGCCTG 
TCTCACGTGG CTGGCTTGTG CCACCCTCAG CTCAGCTGTA GTGTCAGTGA GGATACTGGC 
CTGCCTCTGG CCTTCACTGT GGCCCATGAG CTAGGACACA GTTTTGGCAT TCAGCATGAC 
GGCACCGGCA ATGACTGTGA ATCCATTGGG AAACGGCCTT TCATCATGTC TCCACAGCTC 
CTGTATGACA GAGGCATTCC ACTCACCTGG TCCCGCTGCA GCCGCGAGTA CATCACCAGG 
TTCCTCGACC GTGGGTGGGG CCTGTGCTTA GATGACCGTC CATCCAAGGG TGTCATTAAC 
TTCCCCTCGG TGCTGCCCGG TGTCCTGTAC GATGTGAACC ATCAGTGCCG CCTTCAGTAT 
GGGCCTTCTT CAGCCTACTG TGAGGACGTG GATAATGTCT GCTACACTCT GTGGTGCTCG 
GTGGGGACCA CCTGTCACTC CAAGATGGAT GCTGCTGTGG ATGGTACGAG CTGTGGGAAG 
AACAAGTGGT GTCTCAATGG AGAGTGCGTC CCTGAGGGCT TCCAGCCCGA GACGGTGGAC 
GGTGGCTGGT CCGGTTGGAG TGCCTGGTCT GTCTGCTCGC GGAGCTGTGG CGTGGGCGTA 
CGGAGTTCTG AACGACAGTG CACACAGCCT GTGCCTAAGA ACAAAGGCAA GTACTGTGTG 
GGGGAGCGGA AGCGGTACCG GCTCTGCAAC CTGCAGGCCT GCCCACCAGA CCGTCCCTCT 
TTCCGCCACA CCCAGTGTAG CCAGTTTGAT AGCATGCTGT ACAAGGGGAA ACTACACAAA 
TGGGTGCCTG TGCTCAACGA CGAGAACCCA TGTGAGCTGC ACTGCCGGCC CTTCAACTAC 
TCCAACAGAG AGAAGCTGAG GGATGCTGTG ATGGATGGCA CCCCTTGCTA CCAAGGCCGC 
ATCAGCCGTG ACATCTGCAT CGATGGCATT TGCAAGAAAG TGGGCTGTGA CTTTGAGCTT 
GACTCTGGTG CTGAGGAGGA CCGCTGTGGG GTGTGCCGGG GGGATGGTTC TACTTGCCAT 
ACCGTGAGCA GGACCTTCAA GGAGGCTGAA GGCATGGGGT ATGTGGATGT AGGGCTGATC 
CCAGCTGGAG CCCGAGAGAT TCTCATTGAG GAGGTGGCCG AGGCTGCCAA CTTCCTGGCC 
CTGCGGAGTG AGGACCCAGA CAAGTACTTC CTCAATGGCG GCTGGACCAT CCAGTGGAAT 
GGGGACTACC AGGTGGCAGG CACTACCTTC ACCTATACAC GCAAGGGCAA CTGGGAGACC 
CTCACATCCC CAGGCCCCAC CACTGAGCCT GTCTGGATCC AGCTGCTATT CCAGGAGAGA 
AACCCTGGGG TACACTACAA GTATACCATC CAGAGGGCCA GCCACAGTGA AGCCCAGCCA 
CCTGAGTTCT CCTGGCACTA TGGGCCCTGG AGCAAGTGCC CAGTCACCTG TGGGACAGGT 
GTGCAGAGGC AGAGTTTGTA CTGCATGGAG AAGCAGGCAG GAATTGTAGA TGAGGGACAC 
TGTGACCATC TGAGTCGGCC CCGTGACCGC AAGAGGAAAT GCAATGAGGA GCCCTGTCCT 
GCCAGGTGGT GGGTAGGGGA CTGGCAGCCG TGTTCCCGAT CCTGTGGGCC TGGAGGTTTC 
TTTCGCCGGG CTGTGTTCTG CACACGTAGT GTAGGGCTGG ATGAGCAGCG TGCCCTTGAG 
CCATCTGCTT GTGGACATCT TCCCCGTCCC TTGGCTGAAA TCCCGTGCTA CCATTATGTT 
GCCTGTCCTT CCTCCTGGGG TGTGGGGAAC TGGTCTCAGT ATTCCACGTA CATAGTGGAC 
ACAGGTGCCT CTGGGAGCGG CTCCTCCAGT CCCGAGCTCT TCAATGAGGT TGACTTCGAC 
CCGCACCAGC CGGTCCCACG CCCTTCCCCA GCATCCTCAC CCAAGCCAGT CAGCATCAGC 
AACGCTATTG ATGAGGAAGA CCCGGAACTG GATCCGCCAG GGCCTGTGTT TGTGGATGAT 
TTCTATTATG ACTACAATTT CATTAACTTC CACGAAGACC TGTCCTATGG GTCCTTTGAA 
GAATCCCATT CAGACCTGGT TGATATTGGG GGTCAGACAG TACCACCTCA CATCAGACCC 
ACTGAACCCC CCTCAGATTC TCCAGTGCCT ACTGCAGGAG CTCCTGGAGC TGAGGAAGAG 
GGCATTCAGG GATCTTGGTC TCCTAGCCCT TTACTCAGTG AGGCTAGCCA TTCCCCACCA 
GTATTATTAG AGAATACCCC TGTGAACCCC TTGGCCAATT TCTTGACCGA GGAAGAGAGT 
CCCATAGGGG CCCCTGAACT TGGGCTCCCC AGCGTGTCCT GGCCCCCTGC TTCAGTTGAT 
GGAATGGTGA CATCTGTTGC CCCTGGAAAC CCTGATGAGT TGCTAGTGAG AGAAGATACG 
CAGAGCCAGC CATCCACTCC ATGGTCTGAC AGGAACAAGC TTTCTAAAGA TGGTAACCCC 
TTGGGTCCTA CATCACCTGC CCTTCCCAAG AGCCCTTTCC CCACCCAGCC CTCATCACCC 
TCCAACAGTA CTACCCAAGC TTCTCTGAGT CCTGATGCAG TAGAGGTGTC GACAGGATGG 
AATGTGGCCT TGGACCCTGT GCTAGAGGCT GACCTGAAGC CTGTACACGC ACCAACTGAT 
CCAGGACTAC TGGACCAGAT ACAGACCCCT CACACCGAGG GGACCCAGAG TCCTGGGTTG 
TTACCTAGAC CAGCTCAGGA GACTCAAACT AACAGTAGCA AGGACCCTGC AGTCCAGCCT 
TTGCAGCCCA GCCTAGTGGA GGACGGCGCC CCTACAGATC TGCTGCCTGC CAAGAATGCC 
AGTTGGCAAG TAGGAAACTG GAGCCAGTGT TCCACTACCT GTGGCCTGGG TGCCATTTGG 
AGGCTTGTGC GCTGCAGCTC TGGCAATGAT GAAGACTGCA CCCTTTCAAG CCGTCCCCAG 
CCAGCCCGCC ATTGTCATCT GAGGCCCTGT GCTGCCTGGC GTGCAGGCAA CTGGAGTAAG 
TGCTCTCGCA ACTGTGGTGG CGGTTCCGCT ACCAGGGATG TACAGTGTGT GGACACACGG 
GATCTCCGGC CATTGCGGCC CTTTCACTGC CAGCCCGGGC CTACCAAGCC ACCCACCCGT 
CAGCTTTGTG GGACCCAACC TTGCCTCCCC TGGTACACCT CCTCCTGGAG AGAGTGCTCT 
GAGGCTTGTG GTGGTGGCGA ACAGCAGCGT CTGGTGACTT GTCCAGAGCC AGGCCTCTGT 
GAGGAGTCGC TGAGACCCAA CAACACCAGG CCCTGCAACA CCCACCCCTG CACACAGTGG 
GTGGTAGGGC CCTGGGGTCA GTGCTCAGCC CCCTGTGGTG GTGGTGTTCA GCGGCGTCTG 
GTCAAGTGTG TGAACACTCA GACAGGCTTG GCAGAGGAAG ACAGTGACCT GTGTAGCCAT 
GAGGCCTGGC CTGAGAGCTC ACGGCCATGT GCCACTGAGG ACTGTGAACT GGTTGAACCC 
TCACGTTGTG AGCGGGATCG CCTGCCCTTC AATTTCTGTG AGACGCTGCG TCTGTTGGGC 
CGCTGCCAGC TGCCCACCAT CCGCGCTCAG TGCTGCCGCT CATGTCCCCC ACTCAGCCGC 
GGTGTCCCTT CCCGAGGCCA TCAACGGGTG GCCAGACGAT AA

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

Adamts7 ( XM_006243527.3 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_006243589.1 Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 7 (Adamts7), transcript variant X6, mRNA.

Price & Availability↑

CloneID	ORa31449
Clone ID Related Accession (Same CDS sequence)	XM_006243527.3
Accession Version	XM_006243527.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4275bp) 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	2016-07-25
Organism	Rattus norvegicus(Norway rat)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 7 isoform X6
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005107.4) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_006243527.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGTGTACA AGCACAAACG CTCTGGGCAG CAGGATGACT CAAGGACTTC AGGCACCTGT 
GGGGTGCAAG GGTCCCCAGA GCTGAAGCAC CAGCGAGAAC ATTGGGAACA GCGGCAGCAG 
AAGCGGAGGC AGCAGCGATC AATCAGCAAA GAGAAGTGGG TGGAGACCCT GGTAGTGGCT 
GATTCCAAGA TGGTGGAGTA CCACGGGCAG CCGCAAGTGG AGAGCTATGT GCTGACGATC 
ATGAACATGG TGGCTGGACT GTATCATGAT CCAAGCATTG GGAATCCCAT TCACATCACC 
GTTGTGCGCC TTATTATACT GGAAGACGAG GAGAAGGACT TAAAGATCAC ACACCATGCT 
GATGACACTC TGAAGAACTT CTGTAGGTGG CAGAAGAATG TCAACATGAA GGGGGATGAC 
CACCCACAGC ACCATGACAC TGCCATCCTG CTTACCAGGA AGGATTTGTG TGCAACCATG 
AACCACCCCT GTGAAACCTT GGGCCTGTCT CACGTGGCTG GCTTGTGCCA CCCTCAGCTC 
AGCTGTAGTG TCAGTGAGGA TACTGGCCTG CCTCTGGCCT TCACTGTGGC CCATGAGCTA 
GGACACAGTT TTGGCATTCA GCATGACGGC ACCGGCAATG ACTGTGAATC CATTGGGAAA 
CGGCCTTTCA TCATGTCTCC ACAGCTCCTG TATGACAGAG GCATTCCACT CACCTGGTCC 
CGCTGCAGCC GCGAGTACAT CACCAGGTTC CTCGACCGTG GGTGGGGCCT GTGCTTAGAT 
GACCGTCCAT CCAAGGGTGT CATTAACTTC CCCTCGGTGC TGCCCGGTGT CCTGTACGAT 
GTGAACCATC AGTGCCGCCT TCAGTATGGG CCTTCTTCAG CCTACTGTGA GGACGTGGAT 
AATGTCTGCT ACACTCTGTG GTGCTCGGTG GGGACCACCT GTCACTCCAA GATGGATGCT 
GCTGTGGATG GTACGAGCTG TGGGAAGAAC AAGTGGTGTC TCAATGGAGA GTGCGTCCCT 
GAGGGCTTCC AGCCCGAGAC GGTGGACGGT GGCTGGTCCG GTTGGAGTGC CTGGTCTGTC 
TGCTCGCGGA GCTGTGGCGT GGGCGTACGG AGTTCTGAAC GACAGTGCAC ACAGCCTGTG 
CCTAAGAACA AAGGCAAGTA CTGTGTGGGG GAGCGGAAGC GGTACCGGCT CTGCAACCTG 
CAGGCCTGCC CACCAGACCG TCCCTCTTTC CGCCACACCC AGTGTAGCCA GTTTGATAGC 
ATGCTGTACA AGGGGAAACT ACACAAATGG GTGCCTGTGC TCAACGACGA GAACCCATGT 
GAGCTGCACT GCCGGCCCTT CAACTACTCC AACAGAGAGA AGCTGAGGGA TGCTGTGATG 
GATGGCACCC CTTGCTACCA AGGCCGCATC AGCCGTGACA TCTGCATCGA TGGCATTTGC 
AAGAAAGTGG GCTGTGACTT TGAGCTTGAC TCTGGTGCTG AGGAGGACCG CTGTGGGGTG 
TGCCGGGGGG ATGGTTCTAC TTGCCATACC GTGAGCAGGA CCTTCAAGGA GGCTGAAGGC 
ATGGGGTATG TGGATGTAGG GCTGATCCCA GCTGGAGCCC GAGAGATTCT CATTGAGGAG 
GTGGCCGAGG CTGCCAACTT CCTGGCCCTG CGGAGTGAGG ACCCAGACAA GTACTTCCTC 
AATGGCGGCT GGACCATCCA GTGGAATGGG GACTACCAGG TGGCAGGCAC TACCTTCACC 
TATACACGCA AGGGCAACTG GGAGACCCTC ACATCCCCAG GCCCCACCAC TGAGCCTGTC 
TGGATCCAGC TGCTATTCCA GGAGAGAAAC CCTGGGGTAC ACTACAAGTA TACCATCCAG 
AGGGCCAGCC ACAGTGAAGC CCAGCCACCT GAGTTCTCCT GGCACTATGG GCCCTGGAGC 
AAGTGCCCAG TCACCTGTGG GACAGGTGTG CAGAGGCAGA GTTTGTACTG CATGGAGAAG 
CAGGCAGGAA TTGTAGATGA GGGACACTGT GACCATCTGA GTCGGCCCCG TGACCGCAAG 
AGGAAATGCA ATGAGGAGCC CTGTCCTGCC AGGTGGTGGG TAGGGGACTG GCAGCCGTGT 
TCCCGATCCT GTGGGCCTGG AGGTTTCTTT CGCCGGGCTG TGTTCTGCAC ACGTAGTGTA 
GGGCTGGATG AGCAGCGTGC CCTTGAGCCA TCTGCTTGTG GACATCTTCC CCGTCCCTTG 
GCTGAAATCC CGTGCTACCA TTATGTTGCC TGTCCTTCCT CCTGGGGTGT GGGGAACTGG 
TCTCAGTGCT CTGTGACATG TGGAGCTGGC ATTCGGCAAC GAAGTGTCCT CTGCATCAAC 
AATACTGGTG TCCCCTGTGA TGGAGCTGAG CGACCAATAA CTGAGACCTT TTGTTTTCTG 
CAACCCTGCC AGTATTCCAC GTACATAGTG GACACAGGTG CCTCTGGGAG CGGCTCCTCC 
AGTCCCGAGC TCTTCAATGA GGTTGACTTC GACCCGCACC AGCCGGTCCC ACGCCCTTCC 
CCAGCATCCT CACCCAAGCC AGTCAGCATC AGCAACGCTA TTGATGAGGA AGACCCGGAA 
CTGGATCCGC CAGGGCCTGT GTTTGTGGAT GATTTCTATT ATGACTACAA TTTCATTAAC 
TTCCACGAAG ACCTGTCCTA TGGGTCCTTT GAAGAATCCC ATTCAGACCT GGTTGATATT 
GGGGGTCAGA CAGTACCACC TCACATCAGA CCCACTGAAC CCCCCTCAGA TTCTCCAGTG 
CCTACTGCAG GAGCTCCTGG AGCTGAGGAA GAGGGCATTC AGGGATCTTG GTCTCCTAGC 
CCTTTACTCA GTGAGGCTAG CCATTCCCCA CCAGTATTAT TAGAGAATAC CCCTGTGAAC 
CCCTTGGCCA ATTTCTTGAC CGAGGAAGAG AGTCCCATAG GGGCCCCTGA ACTTGGGCTC 
CCCAGCGTGT CCTGGCCCCC TGCTTCAGTT GATGGAATGG TGACATCTGT TGCCCCTGGA 
AACCCTGATG AGTTGCTAGT GAGAGAAGAT ACGCAGAGCC AGCCATCCAC TCCATGGTCT 
GACAGGAACA AGCTTTCTAA AGATGGTAAC CCCTTGGGTC CTACATCACC TGCCCTTCCC 
AAGAGCCCTT TCCCCACCCA GCCCTCATCA CCCTCCAACA GTACTACCCA AGCTTCTCTG 
AGTCCTGATG CAGTAGAGGT GTCGACAGGA TGGAATGTGG CCTTGGACCC TGTGCTAGAG 
GCTGACCTGA AGCCTGTACA CGCACCAACT GATCCAGGAC TACTGGACCA GATACAGACC 
CCTCACACCG AGGGGACCCA GAGTCCTGGG TTGTTACCTA GACCAGCTCA GGAGACTCAA 
ACTAACAGTA GCAAGGACCC TGCAGTCCAG CCTTTGCAGC CCAGCCTAGT GGAGGACGGC 
GCCCCTACAG ATCTGCTGCC TGCCAAGAAT GCCAGTTGGC AAGTAGGAAA CTGGAGCCAG 
TGTTCCACTA CCTGTGGCCT GGGTGCCATT TGGAGGCTTG TGCGCTGCAG CTCTGGCAAT 
GATGAAGACT GCACCCTTTC AAGCCGTCCC CAGCCAGCCC GCCATTGTCA TCTGAGGCCC 
TGTGCTGCCT GGCGTGCAGG CAACTGGAGT AAGTGCTCTC GCAACTGTGG TGGCGGTTCC 
GCTACCAGGG ATGTACAGTG TGTGGACACA CGGGATCTCC GGCCATTGCG GCCCTTTCAC 
TGCCAGCCCG GGCCTACCAA GCCACCCACC CGTCAGCTTT GTGGGACCCA ACCTTGCCTC 
CCCTGGTACA CCTCCTCCTG GAGAGAGTGC TCTGAGGCTT GTGGTGGTGG CGAACAGCAG 
CGTCTGGTGA CTTGTCCAGA GCCAGGCCTC TGTGAGGAGT CGCTGAGACC CAACAACACC 
AGGCCCTGCA ACACCCACCC CTGCACACAG TGGGTGGTAG GGCCCTGGGG TCAGTGCTCA 
GCCCCCTGTG GTGGTGGTGT TCAGCGGCGT CTGGTCAAGT GTGTGAACAC TCAGACAGGC 
TTGGCAGAGG AAGACAGTGA CCTGTGTAGC CATGAGGCCT GGCCTGAGAG CTCACGGCCA 
TGTGCCACTG AGGACTGTGA ACTGGTTGAA CCCTCACGTT GTGAGCGGGA TCGCCTGCCC 
TTCAATTTCT GTGAGACGCT GCGTCTGTTG GGCCGCTGCC AGCTGCCCAC CATCCGCGCT 
CAGTGCTGCC GCTCATGTCC CCCACTCAGC CGCGGTGTCC CTTCCCGAGG CCATCAACGG 
GTGGCCAGAC GATAA

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

RefSeq	XP_006243589.1
CDS	2744..7018
Translation	MVYKHKRSGQQDDSRTSGTCGVQGSPELKHQREHWEQRQQKRRQQRSISKEKWVETLVVADSKMVEYHGQPQVESYVLTIMNMVAGLYHDPSIGNPIHITVVRLIILEDEEKDLKITHHADDTLKNFCRWQKNVNMKGDDHPQHHDTAILLTRKDLCATMNHPCETLGLSHVAGLCHPQLSCSVSEDTGLPLAFTVAHELGHSFGIQHDGTGNDCESIGKRPFIMSPQLLYDRGIPLTWSRCSREYITRFLDRGWGLCLDDRPSKGVINFPSVLPGVLYDVNHQCRLQYGPSSAYCEDVDNVCYTLWCSVGTTCHSKMDAAVDGTSCGKNKWCLNGECVPEGFQPETVDGGWSGWSAWSVCSRSCGVGVRSSERQCTQPVPKNKGKYCVGERKRYRLCNLQACPPDRPSFRHTQCSQFDSMLYKGKLHKWVPVLNDENPCELHCRPFNYSNREKLRDAVMDGTPCYQGRISRDICIDGICKKVGCDFELDSGAEEDRCGVCRGDGSTCHTVSRTFKEAEGMGYVDVGLIPAGAREILIEEVAEAANFLALRSEDPDKYFLNGGWTIQWNGDYQVAGTTFTYTRKGNWETLTSPGPTTEPVWIQLLFQERNPGVHYKYTIQRASHSEAQPPEFSWHYGPWSKCPVTCGTGVQRQSLYCMEKQAGIVDEGHCDHLSRPRDRKRKCNEEPCPARWWVGDWQPCSRSCGPGGFFRRAVFCTRSVGLDEQRALEPSACGHLPRPLAEIPCYHYVACPSSWGVGNWSQCSVTCGAGIRQRSVLCINNTGVPCDGAERPITETFCFLQPCQYSTYIVDTGASGSGSSSPELFNEVDFDPHQPVPRPSPASSPKPVSISNAIDEEDPELDPPGPVFVDDFYYDYNFINFHEDLSYGSFEESHSDLVDIGGQTVPPHIRPTEPPSDSPVPTAGAPGAEEEGIQGSWSPSPLLSEASHSPPVLLENTPVNPLANFLTEEESPIGAPELGLPSVSWPPASVDGMVTSVAPGNPDELLVREDTQSQPSTPWSDRNKLSKDGNPLGPTSPALPKSPFPTQPSSPSNSTTQASLSPDAVEVSTGWNVALDPVLEADLKPVHAPTDPGLLDQIQTPHTEGTQSPGLLPRPAQETQTNSSKDPAVQPLQPSLVEDGAPTDLLPAKNASWQVGNWSQCSTTCGLGAIWRLVRCSSGNDEDCTLSSRPQPARHCHLRPCAAWRAGNWSKCSRNCGGGSATRDVQCVDTRDLRPLRPFHCQPGPTKPPTRQLCGTQPCLPWYTSSWRECSEACGGGEQQRLVTCPEPGLCEESLRPNNTRPCNTHPCTQWVVGPWGQCSAPCGGGVQRRLVKCVNTQTGLAEEDSDLCSHEAWPESSRPCATEDCELVEPSRCERDRLPFNFCETLRLLGRCQLPTIRAQCCRSCPPLSRGVPSRGHQRVARR

Target ORF information:

RefSeq Version	XM_006243527.3
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 7 (Adamts7), transcript variant X6, mRNA.

Target ORF information:

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

XM_006243527.3

ORF Insert Sequence:

ATGGTGTACA AGCACAAACG CTCTGGGCAG CAGGATGACT CAAGGACTTC AGGCACCTGT 
GGGGTGCAAG GGTCCCCAGA GCTGAAGCAC CAGCGAGAAC ATTGGGAACA GCGGCAGCAG 
AAGCGGAGGC AGCAGCGATC AATCAGCAAA GAGAAGTGGG TGGAGACCCT GGTAGTGGCT 
GATTCCAAGA TGGTGGAGTA CCACGGGCAG CCGCAAGTGG AGAGCTATGT GCTGACGATC 
ATGAACATGG TGGCTGGACT GTATCATGAT CCAAGCATTG GGAATCCCAT TCACATCACC 
GTTGTGCGCC TTATTATACT GGAAGACGAG GAGAAGGACT TAAAGATCAC ACACCATGCT 
GATGACACTC TGAAGAACTT CTGTAGGTGG CAGAAGAATG TCAACATGAA GGGGGATGAC 
CACCCACAGC ACCATGACAC TGCCATCCTG CTTACCAGGA AGGATTTGTG TGCAACCATG 
AACCACCCCT GTGAAACCTT GGGCCTGTCT CACGTGGCTG GCTTGTGCCA CCCTCAGCTC 
AGCTGTAGTG TCAGTGAGGA TACTGGCCTG CCTCTGGCCT TCACTGTGGC CCATGAGCTA 
GGACACAGTT TTGGCATTCA GCATGACGGC ACCGGCAATG ACTGTGAATC CATTGGGAAA 
CGGCCTTTCA TCATGTCTCC ACAGCTCCTG TATGACAGAG GCATTCCACT CACCTGGTCC 
CGCTGCAGCC GCGAGTACAT CACCAGGTTC CTCGACCGTG GGTGGGGCCT GTGCTTAGAT 
GACCGTCCAT CCAAGGGTGT CATTAACTTC CCCTCGGTGC TGCCCGGTGT CCTGTACGAT 
GTGAACCATC AGTGCCGCCT TCAGTATGGG CCTTCTTCAG CCTACTGTGA GGACGTGGAT 
AATGTCTGCT ACACTCTGTG GTGCTCGGTG GGGACCACCT GTCACTCCAA GATGGATGCT 
GCTGTGGATG GTACGAGCTG TGGGAAGAAC AAGTGGTGTC TCAATGGAGA GTGCGTCCCT 
GAGGGCTTCC AGCCCGAGAC GGTGGACGGT GGCTGGTCCG GTTGGAGTGC CTGGTCTGTC 
TGCTCGCGGA GCTGTGGCGT GGGCGTACGG AGTTCTGAAC GACAGTGCAC ACAGCCTGTG 
CCTAAGAACA AAGGCAAGTA CTGTGTGGGG GAGCGGAAGC GGTACCGGCT CTGCAACCTG 
CAGGCCTGCC CACCAGACCG TCCCTCTTTC CGCCACACCC AGTGTAGCCA GTTTGATAGC 
ATGCTGTACA AGGGGAAACT ACACAAATGG GTGCCTGTGC TCAACGACGA GAACCCATGT 
GAGCTGCACT GCCGGCCCTT CAACTACTCC AACAGAGAGA AGCTGAGGGA TGCTGTGATG 
GATGGCACCC CTTGCTACCA AGGCCGCATC AGCCGTGACA TCTGCATCGA TGGCATTTGC 
AAGAAAGTGG GCTGTGACTT TGAGCTTGAC TCTGGTGCTG AGGAGGACCG CTGTGGGGTG 
TGCCGGGGGG ATGGTTCTAC TTGCCATACC GTGAGCAGGA CCTTCAAGGA GGCTGAAGGC 
ATGGGGTATG TGGATGTAGG GCTGATCCCA GCTGGAGCCC GAGAGATTCT CATTGAGGAG 
GTGGCCGAGG CTGCCAACTT CCTGGCCCTG CGGAGTGAGG ACCCAGACAA GTACTTCCTC 
AATGGCGGCT GGACCATCCA GTGGAATGGG GACTACCAGG TGGCAGGCAC TACCTTCACC 
TATACACGCA AGGGCAACTG GGAGACCCTC ACATCCCCAG GCCCCACCAC TGAGCCTGTC 
TGGATCCAGC TGCTATTCCA GGAGAGAAAC CCTGGGGTAC ACTACAAGTA TACCATCCAG 
AGGGCCAGCC ACAGTGAAGC CCAGCCACCT GAGTTCTCCT GGCACTATGG GCCCTGGAGC 
AAGTGCCCAG TCACCTGTGG GACAGGTGTG CAGAGGCAGA GTTTGTACTG CATGGAGAAG 
CAGGCAGGAA TTGTAGATGA GGGACACTGT GACCATCTGA GTCGGCCCCG TGACCGCAAG 
AGGAAATGCA ATGAGGAGCC CTGTCCTGCC AGGTGGTGGG TAGGGGACTG GCAGCCGTGT 
TCCCGATCCT GTGGGCCTGG AGGTTTCTTT CGCCGGGCTG TGTTCTGCAC ACGTAGTGTA 
GGGCTGGATG AGCAGCGTGC CCTTGAGCCA TCTGCTTGTG GACATCTTCC CCGTCCCTTG 
GCTGAAATCC CGTGCTACCA TTATGTTGCC TGTCCTTCCT CCTGGGGTGT GGGGAACTGG 
TCTCAGTGCT CTGTGACATG TGGAGCTGGC ATTCGGCAAC GAAGTGTCCT CTGCATCAAC 
AATACTGGTG TCCCCTGTGA TGGAGCTGAG CGACCAATAA CTGAGACCTT TTGTTTTCTG 
CAACCCTGCC AGTATTCCAC GTACATAGTG GACACAGGTG CCTCTGGGAG CGGCTCCTCC 
AGTCCCGAGC TCTTCAATGA GGTTGACTTC GACCCGCACC AGCCGGTCCC ACGCCCTTCC 
CCAGCATCCT CACCCAAGCC AGTCAGCATC AGCAACGCTA TTGATGAGGA AGACCCGGAA 
CTGGATCCGC CAGGGCCTGT GTTTGTGGAT GATTTCTATT ATGACTACAA TTTCATTAAC 
TTCCACGAAG ACCTGTCCTA TGGGTCCTTT GAAGAATCCC ATTCAGACCT GGTTGATATT 
GGGGGTCAGA CAGTACCACC TCACATCAGA CCCACTGAAC CCCCCTCAGA TTCTCCAGTG 
CCTACTGCAG GAGCTCCTGG AGCTGAGGAA GAGGGCATTC AGGGATCTTG GTCTCCTAGC 
CCTTTACTCA GTGAGGCTAG CCATTCCCCA CCAGTATTAT TAGAGAATAC CCCTGTGAAC 
CCCTTGGCCA ATTTCTTGAC CGAGGAAGAG AGTCCCATAG GGGCCCCTGA ACTTGGGCTC 
CCCAGCGTGT CCTGGCCCCC TGCTTCAGTT GATGGAATGG TGACATCTGT TGCCCCTGGA 
AACCCTGATG AGTTGCTAGT GAGAGAAGAT ACGCAGAGCC AGCCATCCAC TCCATGGTCT 
GACAGGAACA AGCTTTCTAA AGATGGTAAC CCCTTGGGTC CTACATCACC TGCCCTTCCC 
AAGAGCCCTT TCCCCACCCA GCCCTCATCA CCCTCCAACA GTACTACCCA AGCTTCTCTG 
AGTCCTGATG CAGTAGAGGT GTCGACAGGA TGGAATGTGG CCTTGGACCC TGTGCTAGAG 
GCTGACCTGA AGCCTGTACA CGCACCAACT GATCCAGGAC TACTGGACCA GATACAGACC 
CCTCACACCG AGGGGACCCA GAGTCCTGGG TTGTTACCTA GACCAGCTCA GGAGACTCAA 
ACTAACAGTA GCAAGGACCC TGCAGTCCAG CCTTTGCAGC CCAGCCTAGT GGAGGACGGC 
GCCCCTACAG ATCTGCTGCC TGCCAAGAAT GCCAGTTGGC AAGTAGGAAA CTGGAGCCAG 
TGTTCCACTA CCTGTGGCCT GGGTGCCATT TGGAGGCTTG TGCGCTGCAG CTCTGGCAAT 
GATGAAGACT GCACCCTTTC AAGCCGTCCC CAGCCAGCCC GCCATTGTCA TCTGAGGCCC 
TGTGCTGCCT GGCGTGCAGG CAACTGGAGT AAGTGCTCTC GCAACTGTGG TGGCGGTTCC 
GCTACCAGGG ATGTACAGTG TGTGGACACA CGGGATCTCC GGCCATTGCG GCCCTTTCAC 
TGCCAGCCCG GGCCTACCAA GCCACCCACC CGTCAGCTTT GTGGGACCCA ACCTTGCCTC 
CCCTGGTACA CCTCCTCCTG GAGAGAGTGC TCTGAGGCTT GTGGTGGTGG CGAACAGCAG 
CGTCTGGTGA CTTGTCCAGA GCCAGGCCTC TGTGAGGAGT CGCTGAGACC CAACAACACC 
AGGCCCTGCA ACACCCACCC CTGCACACAG TGGGTGGTAG GGCCCTGGGG TCAGTGCTCA 
GCCCCCTGTG GTGGTGGTGT TCAGCGGCGT CTGGTCAAGT GTGTGAACAC TCAGACAGGC 
TTGGCAGAGG AAGACAGTGA CCTGTGTAGC CATGAGGCCT GGCCTGAGAG CTCACGGCCA 
TGTGCCACTG AGGACTGTGA ACTGGTTGAA CCCTCACGTT GTGAGCGGGA TCGCCTGCCC 
TTCAATTTCT GTGAGACGCT GCGTCTGTTG GGCCGCTGCC AGCTGCCCAC CATCCGCGCT 
CAGTGCTGCC GCTCATGTCC CCCACTCAGC CGCGGTGTCC CTTCCCGAGG CCATCAACGG 
GTGGCCAGAC GATAA

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

Adamts7 ( XM_008766447.2 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_008764669.1 Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 7 (Adamts7), transcript variant X2, mRNA.

Price & Availability↑

CloneID	ORa47477
Clone ID Related Accession (Same CDS sequence)	XM_008766447.2
Accession Version	XM_008766447.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4920bp) 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	2016-07-25
Organism	Rattus norvegicus(Norway rat)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 7 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005107.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_008766447.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGGGCTG GTCAAGTGTC AGCAGGTCTC CCAACTGAGG GCCGGGCGGG TTTGGACATC 
GTGCACCCTG TGCGAGTGGA TGCTGGAGGC TCCTTCCTGT CCTATGAGCT GTGGCCACGG 
GTGCTGCGTA AGCGGGATGT GTCTGCTGCG CAGGCCTCAT CCGCGTTCTA CCAGCTGCAG 
TACCAAGGGC GGGAGCTGCT TTTCAACCTG ACCACCAACC CTTATCTCCT GGCTCCCGGC 
TTTGTGAGTG AGATCCGACG TCGCAGCAAC CTAAGCAACG TGCACATCCA AACCAGTGTC 
CCAACCTGCC ATTTGCTTGG CGATGTCCAA GACCCAGAGC TGGAAGGTGG CTTTGCAGCC 
ATCAGCGCCT GTGATGGCCT AAGAGGTGTG TTCCAGCTCT CCAATGAGGA CTACTTCATT 
GAGCCTCTGG ATGAAGTTCC AGCTCAGCCT GGACATGCCC AGCCCCATAT GGTGTACAAG 
CACAAACGCT CTGGGCAGCA GGATGACTCA AGGACTTCAG GCACCTGTGG GGTGCAAGGG 
TCCCCAGAGC TGAAGCACCA GCGAGAACAT TGGGAACAGC GGCAGCAGAA GCGGAGGCAG 
CAGCGATCAA TCAGCAAAGA GAAGTGGGTG GAGACCCTGG TAGTGGCTGA TTCCAAGATG 
GTGGAGTACC ACGGGCAGCC GCAAGTGGAG AGCTATGTGC TGACGATCAT GAACATGGTG 
GCTGGACTGT ATCATGATCC AAGCATTGGG AATCCCATTC ACATCACCGT TGTGCGCCTT 
ATTATACTGG AAGACGAGGA GAAGGACTTA AAGATCACAC ACCATGCTGA TGACACTCTG 
AAGAACTTCT GTAGGTGGCA GAAGAATGTC AACATGAAGG GGGATGACCA CCCACAGCAC 
CATGACACTG CCATCCTGCT TACCAGGAAG GATTTGTGTG CAACCATGAA CCACCCCTGT 
GAAACCTTGG GCCTGTCTCA CGTGGCTGGC TTGTGCCACC CTCAGCTCAG CTGTAGTGTC 
AGTGAGGATA CTGGCCTGCC TCTGGCCTTC ACTGTGGCCC ATGAGCTAGG ACACAGTTTT 
GGCATTCAGC ATGACGGCAC CGGCAATGAC TGTGAATCCA TTGGGAAACG GCCTTTCATC 
ATGTCTCCAC AGCTCCTGTA TGACAGAGGC ATTCCACTCA CCTGGTCCCG CTGCAGCCGC 
GAGTACATCA CCAGGTTCCT CGACCGTGGG TGGGGCCTGT GCTTAGATGA CCGTCCATCC 
AAGGGTGTCA TTAACTTCCC CTCGGTGCTG CCCGGTGTCC TGTACGATGT GAACCATCAG 
TGCCGCCTTC AGTATGGGCC TTCTTCAGCC TACTGTGAGG ACGTGGATAA TGTCTGCTAC 
ACTCTGTGGT GCTCGGTGGG GACCACCTGT CACTCCAAGA TGGATGCTGC TGTGGATGGT 
ACGAGCTGTG GGAAGAACAA GTGGTGTCTC AATGGAGAGT GCGTCCCTGA GGGCTTCCAG 
CCCGAGACGG TGGACGGTGG CTGGTCCGGT TGGAGTGCCT GGTCTGTCTG CTCGCGGAGC 
TGTGGCGTGG GCGTACGGAG TTCTGAACGA CAGTGCACAC AGCCTGTGCC TAAGAACAAA 
GGCAAGTACT GTGTGGGGGA GCGGAAGCGG TACCGGCTCT GCAACCTGCA GGCCTGCCCA 
CCAGACCGTC CCTCTTTCCG CCACACCCAG TGTAGCCAGT TTGATAGCAT GCTGTACAAG 
GGGAAACTAC ACAAATGGGT GCCTGTGCTC AACGACGAGA ACCCATGTGA GCTGCACTGC 
CGGCCCTTCA ACTACTCCAA CAGAGAGAAG CTGAGGGATG CTGTGATGGA TGGCACCCCT 
TGCTACCAAG GCCGCATCAG CCGTGACATC TGCATCGATG GCATTTGCAA GAAAGTGGGC 
TGTGACTTTG AGCTTGACTC TGGTGCTGAG GAGGACCGCT GTGGGGTGTG CCGGGGGGAT 
GGTTCTACTT GCCATACCGT GAGCAGGACC TTCAAGGAGG CTGAAGGCAT GGGGTATGTG 
GATGTAGGGC TGATCCCAGC TGGAGCCCGA GAGATTCTCA TTGAGGAGGT GGCCGAGGCT 
GCCAACTTCC TGGCCCTGCG GAGTGAGGAC CCAGACAAGT ACTTCCTCAA TGGCGGCTGG 
ACCATCCAGT GGAATGGGGA CTACCAGGTG GCAGGCACTA CCTTCACCTA TACACGCAAG 
GGCAACTGGG AGACCCTCAC ATCCCCAGGC CCCACCACTG AGCCTGTCTG GATCCAGCTG 
CTATTCCAGG AGAGAAACCC TGGGGTACAC TACAAGTATA CCATCCAGAG GGCCAGCCAC 
AGTGAAGCCC AGCCACCTGA GTTCTCCTGG CACTATGGGC CCTGGAGCAA GTGCCCAGTC 
ACCTGTGGGA CAGGTGTGCA GAGGCAGAGT TTGTACTGCA TGGAGAAGCA GGCAGGAATT 
GTAGATGAGG GACACTGTGA CCATCTGAGT CGGCCCCGTG ACCGCAAGAG GAAATGCAAT 
GAGGAGCCCT GTCCTGCCAG GTGGTGGGTA GGGGACTGGC AGCCGTGTTC CCGATCCTGT 
GGGCCTGGAG GTTTCTTTCG CCGGGCTGTG TTCTGCACAC GTAGTGTAGG GCTGGATGAG 
CAGCGTGCCC TTGAGCCATC TGCTTGTGGA CATCTTCCCC GTCCCTTGGC TGAAATCCCG 
TGCTACCATT ATGTTGCCTG TCCTTCCTCC TGGGGTGTGG GGAACTGGTC TCAGTGCTCT 
GTGACATGTG GAGCTGGCAT TCGGCAACGA AGTGTCCTCT GCATCAACAA TACTGGTGTC 
CCCTGTGATG GAGCTGAGCG ACCAATAACT GAGACCTTTT GTTTTCTGCA ACCCTGCCAG 
TATTCCACGT ACATAGTGGA CACAGGTGCC TCTGGGAGCG GCTCCTCCAG TCCCGAGCTC 
TTCAATGAGG TTGACTTCGA CCCGCACCAG CCGGTCCCAC GCCCTTCCCC AGCATCCTCA 
CCCAAGCCAG TCAGCATCAG CAACGCTATT GATGAGGAAG ACCCGGAACT GGATCCGCCA 
GGGCCTGTGT TTGTGGATGA TTTCTATTAT GACTACAATT TCATTAACTT CCACGAAGAC 
CTGTCCTATG GGTCCTTTGA AGAATCCCAT TCAGACCTGG TTGATATTGG GGGTCAGACA 
GTACCACCTC ACATCAGACC CACTGAACCC CCCTCAGATT CTCCAGTGCC TACTGCAGGA 
GCTCCTGGAG CTGAGGAAGA GGGCATTCAG GGATCTTGGT CTCCTAGCCC TTTACTCAGT 
GAGGCTAGCC ATTCCCCACC AGTATTATTA GAGAATACCC CTGTGAACCC CTTGGCCAAT 
TTCTTGACCG AGGAAGAGAG TCCCATAGGG GCCCCTGAAC TTGGGCTCCC CAGCGTGTCC 
TGGCCCCCTG CTTCAGTTGA TGGAATGGTG ACATCTGTTG CCCCTGGAAA CCCTGATGAG 
TTGCTAGTGA GAGAAGATAC GCAGAGCCAG CCATCCACTC CATGGTCTGA CAGGAACAAG 
CTTTCTAAAG ATGGTAACCC CTTGGGTCCT ACATCACCTG CCCTTCCCAA GAGCCCTTTC 
CCCACCCAGC CCTCATCACC CTCCAACAGT ACTACCCAAG CTTCTCTGAG TCCTGATGCA 
GTAGAGGTGT CGACAGGATG GAATGTGGCC TTGGACCCTG TGCTAGAGGC TGACCTGAAG 
CCTGTACACG GTGAGCTGCG ACCCACTGTG GAGATGGCTT CTCCTCCACT TCCTTCCATG 
GCCACTGTGC CAGGTGTCTG GGGCAGGGAG AGCCCTCTTG AACCAGGGAC TTCCACCTCT 
TCAACCCCAG GACTGAGCTC ACAGAACCTA AAAACTCTGA CAGTGCCGGG GACCTTCCTT 
TTGACAGCAC CAACTGATCC AGGACTACTG GACCAGATAC AGACCCCTCA CACCGAGGGG 
ACCCAGAGTC CTGGGTTGTT ACCTAGACCA GCTCAGGAGA CTCAAACTAA CAGTAGCAAG 
GACCCTGCAG TCCAGCCTTT GCAGCCCAGC CTAGTGGAGG ACGGCGCCCC TACAGATCTG 
CTGCCTGCCA AGAATGCCAG TTGGCAAGTA GGAAACTGGA GCCAGTGTTC CACTACCTGT 
GGCCTGGGTG CCATTTGGAG GCTTGTGCGC TGCAGCTCTG GCAATGATGA AGACTGCACC 
CTTTCAAGCC GTCCCCAGCC AGCCCGCCAT TGTCATCTGA GGCCCTGTGC TGCCTGGCGT 
GCAGGCAACT GGAGTAAGTG CTCTCGCAAC TGTGGTGGCG GTTCCGCTAC CAGGGATGTA 
CAGTGTGTGG ACACACGGGA TCTCCGGCCA TTGCGGCCCT TTCACTGCCA GCCCGGGCCT 
ACCAAGCCAC CCACCCGTCA GCTTTGTGGG ACCCAACCTT GCCTCCCCTG GTACACCTCC 
TCCTGGAGAG AGTGCTCTGA GGCTTGTGGT GGTGGCGAAC AGCAGCGTCT GGTGACTTGT 
CCAGAGCCAG GCCTCTGTGA GGAGTCGCTG AGACCCAACA ACACCAGGCC CTGCAACACC 
CACCCCTGCA CACAGTGGGT GGTAGGGCCC TGGGGTCAGT GCTCAGCCCC CTGTGGTGGT 
GGTGTTCAGC GGCGTCTGGT CAAGTGTGTG AACACTCAGA CAGGCTTGGC AGAGGAAGAC 
AGTGACCTGT GTAGCCATGA GGCCTGGCCT GAGAGCTCAC GGCCATGTGC CACTGAGGAC 
TGTGAACTGG TTGAACCCTC ACGTTGTGAG CGGGATCGCC TGCCCTTCAA TTTCTGTGAG 
ACGCTGCGTC TGTTGGGCCG CTGCCAGCTG CCCACCATCC GCGCTCAGTG CTGCCGCTCA 
TGTCCCCCAC TCAGCCGCGG TGTCCCTTCC CGAGGCCATC AACGGGTGGC CAGACGATAA

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

RefSeq	XP_008764669.1
CDS	384..5303
Translation	MGAGQVSAGLPTEGRAGLDIVHPVRVDAGGSFLSYELWPRVLRKRDVSAAQASSAFYQLQYQGRELLFNLTTNPYLLAPGFVSEIRRRSNLSNVHIQTSVPTCHLLGDVQDPELEGGFAAISACDGLRGVFQLSNEDYFIEPLDEVPAQPGHAQPHMVYKHKRSGQQDDSRTSGTCGVQGSPELKHQREHWEQRQQKRRQQRSISKEKWVETLVVADSKMVEYHGQPQVESYVLTIMNMVAGLYHDPSIGNPIHITVVRLIILEDEEKDLKITHHADDTLKNFCRWQKNVNMKGDDHPQHHDTAILLTRKDLCATMNHPCETLGLSHVAGLCHPQLSCSVSEDTGLPLAFTVAHELGHSFGIQHDGTGNDCESIGKRPFIMSPQLLYDRGIPLTWSRCSREYITRFLDRGWGLCLDDRPSKGVINFPSVLPGVLYDVNHQCRLQYGPSSAYCEDVDNVCYTLWCSVGTTCHSKMDAAVDGTSCGKNKWCLNGECVPEGFQPETVDGGWSGWSAWSVCSRSCGVGVRSSERQCTQPVPKNKGKYCVGERKRYRLCNLQACPPDRPSFRHTQCSQFDSMLYKGKLHKWVPVLNDENPCELHCRPFNYSNREKLRDAVMDGTPCYQGRISRDICIDGICKKVGCDFELDSGAEEDRCGVCRGDGSTCHTVSRTFKEAEGMGYVDVGLIPAGAREILIEEVAEAANFLALRSEDPDKYFLNGGWTIQWNGDYQVAGTTFTYTRKGNWETLTSPGPTTEPVWIQLLFQERNPGVHYKYTIQRASHSEAQPPEFSWHYGPWSKCPVTCGTGVQRQSLYCMEKQAGIVDEGHCDHLSRPRDRKRKCNEEPCPARWWVGDWQPCSRSCGPGGFFRRAVFCTRSVGLDEQRALEPSACGHLPRPLAEIPCYHYVACPSSWGVGNWSQCSVTCGAGIRQRSVLCINNTGVPCDGAERPITETFCFLQPCQYSTYIVDTGASGSGSSSPELFNEVDFDPHQPVPRPSPASSPKPVSISNAIDEEDPELDPPGPVFVDDFYYDYNFINFHEDLSYGSFEESHSDLVDIGGQTVPPHIRPTEPPSDSPVPTAGAPGAEEEGIQGSWSPSPLLSEASHSPPVLLENTPVNPLANFLTEEESPIGAPELGLPSVSWPPASVDGMVTSVAPGNPDELLVREDTQSQPSTPWSDRNKLSKDGNPLGPTSPALPKSPFPTQPSSPSNSTTQASLSPDAVEVSTGWNVALDPVLEADLKPVHGELRPTVEMASPPLPSMATVPGVWGRESPLEPGTSTSSTPGLSSQNLKTLTVPGTFLLTAPTDPGLLDQIQTPHTEGTQSPGLLPRPAQETQTNSSKDPAVQPLQPSLVEDGAPTDLLPAKNASWQVGNWSQCSTTCGLGAIWRLVRCSSGNDEDCTLSSRPQPARHCHLRPCAAWRAGNWSKCSRNCGGGSATRDVQCVDTRDLRPLRPFHCQPGPTKPPTRQLCGTQPCLPWYTSSWRECSEACGGGEQQRLVTCPEPGLCEESLRPNNTRPCNTHPCTQWVVGPWGQCSAPCGGGVQRRLVKCVNTQTGLAEEDSDLCSHEAWPESSRPCATEDCELVEPSRCERDRLPFNFCETLRLLGRCQLPTIRAQCCRSCPPLSRGVPSRGHQRVARR

Target ORF information:

RefSeq Version	XM_008766447.2
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 7 (Adamts7), transcript variant X2, mRNA.

Target ORF information:

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

XM_008766447.2

ORF Insert Sequence:

ATGGGGGCTG GTCAAGTGTC AGCAGGTCTC CCAACTGAGG GCCGGGCGGG TTTGGACATC 
GTGCACCCTG TGCGAGTGGA TGCTGGAGGC TCCTTCCTGT CCTATGAGCT GTGGCCACGG 
GTGCTGCGTA AGCGGGATGT GTCTGCTGCG CAGGCCTCAT CCGCGTTCTA CCAGCTGCAG 
TACCAAGGGC GGGAGCTGCT TTTCAACCTG ACCACCAACC CTTATCTCCT GGCTCCCGGC 
TTTGTGAGTG AGATCCGACG TCGCAGCAAC CTAAGCAACG TGCACATCCA AACCAGTGTC 
CCAACCTGCC ATTTGCTTGG CGATGTCCAA GACCCAGAGC TGGAAGGTGG CTTTGCAGCC 
ATCAGCGCCT GTGATGGCCT AAGAGGTGTG TTCCAGCTCT CCAATGAGGA CTACTTCATT 
GAGCCTCTGG ATGAAGTTCC AGCTCAGCCT GGACATGCCC AGCCCCATAT GGTGTACAAG 
CACAAACGCT CTGGGCAGCA GGATGACTCA AGGACTTCAG GCACCTGTGG GGTGCAAGGG 
TCCCCAGAGC TGAAGCACCA GCGAGAACAT TGGGAACAGC GGCAGCAGAA GCGGAGGCAG 
CAGCGATCAA TCAGCAAAGA GAAGTGGGTG GAGACCCTGG TAGTGGCTGA TTCCAAGATG 
GTGGAGTACC ACGGGCAGCC GCAAGTGGAG AGCTATGTGC TGACGATCAT GAACATGGTG 
GCTGGACTGT ATCATGATCC AAGCATTGGG AATCCCATTC ACATCACCGT TGTGCGCCTT 
ATTATACTGG AAGACGAGGA GAAGGACTTA AAGATCACAC ACCATGCTGA TGACACTCTG 
AAGAACTTCT GTAGGTGGCA GAAGAATGTC AACATGAAGG GGGATGACCA CCCACAGCAC 
CATGACACTG CCATCCTGCT TACCAGGAAG GATTTGTGTG CAACCATGAA CCACCCCTGT 
GAAACCTTGG GCCTGTCTCA CGTGGCTGGC TTGTGCCACC CTCAGCTCAG CTGTAGTGTC 
AGTGAGGATA CTGGCCTGCC TCTGGCCTTC ACTGTGGCCC ATGAGCTAGG ACACAGTTTT 
GGCATTCAGC ATGACGGCAC CGGCAATGAC TGTGAATCCA TTGGGAAACG GCCTTTCATC 
ATGTCTCCAC AGCTCCTGTA TGACAGAGGC ATTCCACTCA CCTGGTCCCG CTGCAGCCGC 
GAGTACATCA CCAGGTTCCT CGACCGTGGG TGGGGCCTGT GCTTAGATGA CCGTCCATCC 
AAGGGTGTCA TTAACTTCCC CTCGGTGCTG CCCGGTGTCC TGTACGATGT GAACCATCAG 
TGCCGCCTTC AGTATGGGCC TTCTTCAGCC TACTGTGAGG ACGTGGATAA TGTCTGCTAC 
ACTCTGTGGT GCTCGGTGGG GACCACCTGT CACTCCAAGA TGGATGCTGC TGTGGATGGT 
ACGAGCTGTG GGAAGAACAA GTGGTGTCTC AATGGAGAGT GCGTCCCTGA GGGCTTCCAG 
CCCGAGACGG TGGACGGTGG CTGGTCCGGT TGGAGTGCCT GGTCTGTCTG CTCGCGGAGC 
TGTGGCGTGG GCGTACGGAG TTCTGAACGA CAGTGCACAC AGCCTGTGCC TAAGAACAAA 
GGCAAGTACT GTGTGGGGGA GCGGAAGCGG TACCGGCTCT GCAACCTGCA GGCCTGCCCA 
CCAGACCGTC CCTCTTTCCG CCACACCCAG TGTAGCCAGT TTGATAGCAT GCTGTACAAG 
GGGAAACTAC ACAAATGGGT GCCTGTGCTC AACGACGAGA ACCCATGTGA GCTGCACTGC 
CGGCCCTTCA ACTACTCCAA CAGAGAGAAG CTGAGGGATG CTGTGATGGA TGGCACCCCT 
TGCTACCAAG GCCGCATCAG CCGTGACATC TGCATCGATG GCATTTGCAA GAAAGTGGGC 
TGTGACTTTG AGCTTGACTC TGGTGCTGAG GAGGACCGCT GTGGGGTGTG CCGGGGGGAT 
GGTTCTACTT GCCATACCGT GAGCAGGACC TTCAAGGAGG CTGAAGGCAT GGGGTATGTG 
GATGTAGGGC TGATCCCAGC TGGAGCCCGA GAGATTCTCA TTGAGGAGGT GGCCGAGGCT 
GCCAACTTCC TGGCCCTGCG GAGTGAGGAC CCAGACAAGT ACTTCCTCAA TGGCGGCTGG 
ACCATCCAGT GGAATGGGGA CTACCAGGTG GCAGGCACTA CCTTCACCTA TACACGCAAG 
GGCAACTGGG AGACCCTCAC ATCCCCAGGC CCCACCACTG AGCCTGTCTG GATCCAGCTG 
CTATTCCAGG AGAGAAACCC TGGGGTACAC TACAAGTATA CCATCCAGAG GGCCAGCCAC 
AGTGAAGCCC AGCCACCTGA GTTCTCCTGG CACTATGGGC CCTGGAGCAA GTGCCCAGTC 
ACCTGTGGGA CAGGTGTGCA GAGGCAGAGT TTGTACTGCA TGGAGAAGCA GGCAGGAATT 
GTAGATGAGG GACACTGTGA CCATCTGAGT CGGCCCCGTG ACCGCAAGAG GAAATGCAAT 
GAGGAGCCCT GTCCTGCCAG GTGGTGGGTA GGGGACTGGC AGCCGTGTTC CCGATCCTGT 
GGGCCTGGAG GTTTCTTTCG CCGGGCTGTG TTCTGCACAC GTAGTGTAGG GCTGGATGAG 
CAGCGTGCCC TTGAGCCATC TGCTTGTGGA CATCTTCCCC GTCCCTTGGC TGAAATCCCG 
TGCTACCATT ATGTTGCCTG TCCTTCCTCC TGGGGTGTGG GGAACTGGTC TCAGTGCTCT 
GTGACATGTG GAGCTGGCAT TCGGCAACGA AGTGTCCTCT GCATCAACAA TACTGGTGTC 
CCCTGTGATG GAGCTGAGCG ACCAATAACT GAGACCTTTT GTTTTCTGCA ACCCTGCCAG 
TATTCCACGT ACATAGTGGA CACAGGTGCC TCTGGGAGCG GCTCCTCCAG TCCCGAGCTC 
TTCAATGAGG TTGACTTCGA CCCGCACCAG CCGGTCCCAC GCCCTTCCCC AGCATCCTCA 
CCCAAGCCAG TCAGCATCAG CAACGCTATT GATGAGGAAG ACCCGGAACT GGATCCGCCA 
GGGCCTGTGT TTGTGGATGA TTTCTATTAT GACTACAATT TCATTAACTT CCACGAAGAC 
CTGTCCTATG GGTCCTTTGA AGAATCCCAT TCAGACCTGG TTGATATTGG GGGTCAGACA 
GTACCACCTC ACATCAGACC CACTGAACCC CCCTCAGATT CTCCAGTGCC TACTGCAGGA 
GCTCCTGGAG CTGAGGAAGA GGGCATTCAG GGATCTTGGT CTCCTAGCCC TTTACTCAGT 
GAGGCTAGCC ATTCCCCACC AGTATTATTA GAGAATACCC CTGTGAACCC CTTGGCCAAT 
TTCTTGACCG AGGAAGAGAG TCCCATAGGG GCCCCTGAAC TTGGGCTCCC CAGCGTGTCC 
TGGCCCCCTG CTTCAGTTGA TGGAATGGTG ACATCTGTTG CCCCTGGAAA CCCTGATGAG 
TTGCTAGTGA GAGAAGATAC GCAGAGCCAG CCATCCACTC CATGGTCTGA CAGGAACAAG 
CTTTCTAAAG ATGGTAACCC CTTGGGTCCT ACATCACCTG CCCTTCCCAA GAGCCCTTTC 
CCCACCCAGC CCTCATCACC CTCCAACAGT ACTACCCAAG CTTCTCTGAG TCCTGATGCA 
GTAGAGGTGT CGACAGGATG GAATGTGGCC TTGGACCCTG TGCTAGAGGC TGACCTGAAG 
CCTGTACACG GTGAGCTGCG ACCCACTGTG GAGATGGCTT CTCCTCCACT TCCTTCCATG 
GCCACTGTGC CAGGTGTCTG GGGCAGGGAG AGCCCTCTTG AACCAGGGAC TTCCACCTCT 
TCAACCCCAG GACTGAGCTC ACAGAACCTA AAAACTCTGA CAGTGCCGGG GACCTTCCTT 
TTGACAGCAC CAACTGATCC AGGACTACTG GACCAGATAC AGACCCCTCA CACCGAGGGG 
ACCCAGAGTC CTGGGTTGTT ACCTAGACCA GCTCAGGAGA CTCAAACTAA CAGTAGCAAG 
GACCCTGCAG TCCAGCCTTT GCAGCCCAGC CTAGTGGAGG ACGGCGCCCC TACAGATCTG 
CTGCCTGCCA AGAATGCCAG TTGGCAAGTA GGAAACTGGA GCCAGTGTTC CACTACCTGT 
GGCCTGGGTG CCATTTGGAG GCTTGTGCGC TGCAGCTCTG GCAATGATGA AGACTGCACC 
CTTTCAAGCC GTCCCCAGCC AGCCCGCCAT TGTCATCTGA GGCCCTGTGC TGCCTGGCGT 
GCAGGCAACT GGAGTAAGTG CTCTCGCAAC TGTGGTGGCG GTTCCGCTAC CAGGGATGTA 
CAGTGTGTGG ACACACGGGA TCTCCGGCCA TTGCGGCCCT TTCACTGCCA GCCCGGGCCT 
ACCAAGCCAC CCACCCGTCA GCTTTGTGGG ACCCAACCTT GCCTCCCCTG GTACACCTCC 
TCCTGGAGAG AGTGCTCTGA GGCTTGTGGT GGTGGCGAAC AGCAGCGTCT GGTGACTTGT 
CCAGAGCCAG GCCTCTGTGA GGAGTCGCTG AGACCCAACA ACACCAGGCC CTGCAACACC 
CACCCCTGCA CACAGTGGGT GGTAGGGCCC TGGGGTCAGT GCTCAGCCCC CTGTGGTGGT 
GGTGTTCAGC GGCGTCTGGT CAAGTGTGTG AACACTCAGA CAGGCTTGGC AGAGGAAGAC 
AGTGACCTGT GTAGCCATGA GGCCTGGCCT GAGAGCTCAC GGCCATGTGC CACTGAGGAC 
TGTGAACTGG TTGAACCCTC ACGTTGTGAG CGGGATCGCC TGCCCTTCAA TTTCTGTGAG 
ACGCTGCGTC TGTTGGGCCG CTGCCAGCTG CCCACCATCC GCGCTCAGTG CTGCCGCTCA 
TGTCCCCCAC TCAGCCGCGG TGTCCCTTCC CGAGGCCATC AACGGGTGGC CAGACGATAA

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

PubMed

Association of ADAMTS-7 Levels with Cardiac Function in a Rat Model of Acute Myocardial Infarction.
Cellular physiology and biochemistry : international journal of experimental cellular physiology, biochemistry, and pharmacology38(3)950-8(2016)
Wu W,Wang H,Yu C,Li J,Gao Y,Ke Y,Wang Y,Zhou Y,Zheng J

ADAMTS-7 promotes vascular smooth muscle cells proliferation in vitro and in vivo.
Science China. Life sciences58(7)674-81(2015 Jul)
Zhang L,Yu F,Wang L,Zheng J,Du Y,Huang Y,Liu B,Wang X,Kong W

ADAMTS-7 forms a positive feedback loop with TNF-? in the pathogenesis of osteoarthritis.
Annals of the rheumatic diseases73(8)1575-84(2014 Aug)
Lai Y,Bai X,Zhao Y,Tian Q,Liu B,Lin EA,Chen Y,Lee B,Appleton CT,Beier F,Yu XP,Liu CJ

Extracellular matrix secretion by cardiac fibroblasts: role of microRNA-29b and microRNA-30c.
Circulation research113(10)1138-47(2013 Oct)
Abonnenc M,Nabeebaccus AA,Mayr U,Barallobre-Barreiro J,Dong X,Cuello F,Sur S,Drozdov I,Langley SR,Lu R,Stathopoulou K,Didangelos A,Yin X,Zimmermann WH,Shah AM,Zampetaki A,Mayr M

Upregulation of a disintegrin and metalloproteinase with thrombospondin motifs-7 by miR-29 repression mediates vascular smooth muscle calcification.
Arteriosclerosis, thrombosis, and vascular biology32(11)2580-8(2012 Nov)
Du Y,Gao C,Liu Z,Wang L,Liu B,He F,Zhang T,Wang Y,Wang X,Xu M,Luo GZ,Zhu Y,Xu Q,Wang X,Kong W

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Adamts7 cDNA ORF clone, Rattus norvegicus(Norway rat)

Gene

Clones

gRNAs

Related articles in PubMed

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:

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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