Adamts2 cDNA ORF clone, Rattus norvegicus(Norway rat)

Gene
Clones
gRNAs

Summary

Gene Symbol	Adamts2
Entrez Gene ID	287899
Full Name	ADAM metallopeptidase with thrombospondin type 1 motif, 2
Synonyms	RGD1565950
General protein information	Preferred Names ADAM metallopeptidase with thrombospondin type 1 motif, 2 Names A disintegrin and metalloproteinase with thrombospondin motifs 2 a disintegrin-like and metallopeptidase (reprolysin type) with thrombospondin type 1 motif, 2 a disintegrin-like and metalloprotease (reprolysin type) with thrombospondin type 1 motif, 2
Gene Type	protein-coding
Organism	Rattus norvegicus(Norway rat)
Genome	Chromosome: 10 Map Location: 10q22

mRNA and Protein(s)

mRNA	Protein	Name
NM_001137622.1	NP_001131094.1	A disintegrin and metalloproteinase with thrombospondin motifs 2 precursor
XM_008767677.2	XP_008765899.2	A disintegrin and metalloproteinase with thrombospondin motifs 2 isoform X1

Pathways from BioSystems

Homologies

Pan troglodytes (chimpanzee)	ADAMTS2	XP_518147.2
	ADAMTS2	XP_001102920.2
Danio rerio (zebrafish)	adamts22	XP_700384.3
Homo sapiens (human)	ADAMTS2	NP_055059.2
Canis lupus familiaris (dog)	ADAMTS2	XP_848937.1
Gallus gallus (chicken)	ADAMTS2	XP_414611.4
Xenopus tropicalis (tropical clawed frog)	LOC100492431	XP_002933681.2
Bos taurus (cattle)	ADAMTS2	NP_777056.1
Mus musculus (house mouse)	Adamts2	NP_783574.1
Rattus norvegicus (Norway rat)	Adamts2	NP_001131094.1

Gene Ontology
Bibliography

Related articles in PubMed

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)

A genome-wide association study identifies a gene network of ADAMTS genes in the predisposition to pediatric stroke.
Arning A, Hiersche M, Witten A, Kurlemann G, Kurnik K, Manner D, Stoll M, Nowak-G?ttl U
Blood120(26)5231-6(2012 Dec)

Regulation of procollagen amino-propeptide processing during mouse embryogenesis by specialization of homologous ADAMTS proteases: insights on collagen biosynthesis and dermatosparaxis.
Le Goff C, Somerville RP, Kesteloot F, Powell K, Birk DE, Colige AC, Apte SS
Development (Cambridge, England)133(8)1587-96(2006 Apr)

Novel types of mutation responsible for the dermatosparactic type of Ehlers-Danlos syndrome (Type VIIC) and common polymorphisms in the ADAMTS2 gene.
Colige A, Nuytinck L, Hausser I, van Essen AJ, Thiry M, Herens C, Ad?s LC, Malfait F, Paepe AD, Franck P, Wolff G, Oosterwijk JC, Smitt JH, Lapi?re CM, Nusgens BV
The Journal of investigative dermatology123(4)656-63(2004 Oct)

Transgenic mice with inactive alleles for procollagen N-proteinase (ADAMTS-2) develop fragile skin and male sterility.
Li SW, Arita M, Fertala A, Bao Y, Kopen GC, L?ngsj? TK, Hyttinen MM, Helminen HJ, Prockop DJ
The Biochemical journal355(Pt 2)271-8(2001 Apr)

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

The following Adamts2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Adamts2 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)	Select
ORa04259	NM_001137622.1 Latest version!	Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 2 (Adamts2), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$860.30 $1229.00
ORa57272	XM_008767677.2 Latest version!	Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 2 (Adamts2), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$643.30 $919.00

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

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

Reference Sequences (Refseq)

Adamts2 ( NM_001137622.1 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> NP_001131094.1 Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 2 (Adamts2), mRNA.

Price & Availability↑

CloneID	ORa04259
Clone ID Related Accession (Same CDS sequence)	NM_001137622.1
Accession Version	NM_001137622.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3513bp) 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	2017-10-01
Organism	Rattus norvegicus(Norway rat)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 2 precursor
Comment	Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CH473948.1. On or before Nov 14, 2008 this sequence version replaced XM_213548.4, XM_001071965.1. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA2689602, SAMN01906354 [ECO:0000350] ##Evidence-Data-END##

ATGGATCCGC CGGCGGGAGC CGCTCGCTGC CTGCTCTGCC CCGCTCTACT GCTGCTGCTA 
CTGCTGCCGC CGCCGCCTCT CTTGCTGCTG CCGCCGCCGC CCGCGAGCGC CCGGCTCGTC 
GCTGCCACGG AGACCCCAGG CGGGCCCCCG GGGTACGGAG CCGAGCGCAT CCTGGCGGTG 
CCGGTGCGCA CTGACGCCCA GGGCCGCTTG GTGTCCCACG TGGTATCTTT GGAGACAGCC 
CGGGCGGGGG TACGTGCCCG CAGAGCTGCC CCGGTCCAGA CCTCCGGCTT GCCCGGAGGC 
GCTGAGCAGG ACCCTGGAGG ACGCCTCTTC TACAACCTCA CAGTATTCGG CCGAGACCTG 
CACCTGCGGC TGCGGCCCAA CGCTCGGCTC GTGGCTCCCG GTGCCACTGT GGAGTGGCAG 
GGTGAGACGG GTGACACCCG AGTGGAGCCT CTGCTTGGGA CCTGTCTCTA CGTTGGAGAC 
GTGGCAGACT TACCTAAAAC CTCCTCGGTG GCGCTCAGTA ACTGTGATGG GCTGGCTGGC 
CTGATCCGGA TGGAGGAGGA GGAGTTCTTT ATCGAGCCTC TGGAGAAGGG TCAGACGGAT 
CAGGAGGCTG AACAAGGCCG AGTGCATGTG GTATATCGCC GACCGCCCAC TCCCAAGCCC 
CCTCCTGTGG GCGGACCACA GGCTCTGGAC ACAGGAGCCT CCCAGGGCAA CCTGGACAGC 
CTCAGCAGAG CCCTAGGTGT CCTGGAGGAG CGCATCAACA GCTCACGGCG GAGGGTGCGC 
AGGCACGCTA CGGACGATGA CTACAACATT GAGGTCCTGC TGGGCGTGGA TGATTCCGTG 
GTCCAGTTCC ATGGAAAGGA GCACGTGCAG AAGTACCTGC TGACACTCAT GAACATTGTC 
AACGAAATCT ACCATGACGA GTCGTTGGGG GCCCACATCA ACGTTGTGCT GGTGAGGATT 
ATCCTGCTGA GTCACGCGAA GTCCATGAGC CTCATTGAGA TTGGAAACCC CTCTCAGAGT 
CTGGAGAACG TCTGCCGATG GGCCTACCTC CAGCAGAAGC CAGACACAGA CCACGATGAG 
TACCACGATC ATGCCATCTT CCTCACTAGA CAGGACTTCG GGCCCTCCGG CATGCAAGGC 
TATGCTCCCG TCACTGGGAT GTGCCATCCC GTCCGCAGCT GCACCCTGAA CCATGAGGAT 
GGCTTCTCCT CGGCATTTGT GGTGGCTCAT GAGACGGGCC ATGTGCTGGG CATGGAGCAC 
GATGGGCAAG GCAACCGCTG TGGTGACGAG GTACGGCTGG GCAGCATCAT GGCACCCCTG 
GTACAGGCTG CCTTCCATCG ATTCCACTGG TCCCGCTGCA GCCAGCAGGA GCTCAGCCGC 
TACCTGCATT CCTATGACTG CCTGCGGGAT GACCCCTTCG CCCACGACTG GCCGGCATTG 
CCTCAGCTCC CAGGGCTGCA CTACTCCATG AACGAGCAGT GTCGTTTCGA CTTTGGCCTG 
GGTTACATGA TGTGCACTGC GTTCCGGACC TTTGACCCCT GCAAACAGCT ATGGTGCAGC 
CACCCAGATA ACCCCTACTT TTGCAAGACA AAGAAGGGCC CACCTCTGGA TGGGACTATG 
TGTGCACCTG GCAAGCACTG CTTCAAAGGC CACTGCATCT GGCTGACACC AGATATCCTC 
AAACGGGATG GCAACTGGGG TGCCTGGACT CCGTTTGGCT CCTGCTCGCG CACCTGTGGC 
ACAGGCGTGA AGTTCAGGAC CCGCCAGTGT GACAGCCCAC ATCCAGCCAA CGGGGGCCGC 
ACCTGCTCGG GCCTGGCCTA TGACTTCCAG CTCTGCAACC CCCAGGACTG TCCCAACTCC 
CTGGCTGACT TCCGGGAGGA GCAGTGTCGG CAGTGGGACC TGTACTTCGA GCACGGTGAT 
GCCCAGCACC ACTGGCTGCC TCATGAGCAC CGGGATGCCA AGGAGAGATG CCATCTCTAC 
TGCGAGTCCA AGGAGACAGG GGAGGTGGTC TCCATGAAGC GCATGGTGCA CGATGGGACA 
CGCTGCTCCT ACAAGGACGC CTTCAGCCTC TGTGTGCGTG GAGACTGCAG GAAAGTGGGC 
TGTGACGGGG TGATCGGCTC CCGCAAGCAG GAAGACAAGT GTGGTGTGTG TGGAGGTGAC 
AACACCCACT GTAAAGTGGT GAAGGGCACG TTCACAAGGT CACCCAGGAA GCAAGATTAC 
ATCAAGATGT TTGAGATCCC TGCAGGAGCC AGACACCTGC TCATCCAGGA AACTGACACC 
ACCAGCCACC ATCTGTCTGT CAAGAACCTG GAGACAGGCA AGTTCATCTT AAATGAAGAG 
AACCACTTGG ACCCCAATTC TAGATCCTTC ATCGCCATGG GTGTGGAGTG GGAGTACAGG 
AATGAGGATG AGAGGGAGAC GCTGCAGACC ATAGGCCCAC TCCACGGAAC CATCACCGTG 
CTGGTTATTC CCGAAGGAGA CGCCCGGATC TCACTGACAT ACAAATACAT GATCCACGAG 
GACTCCCTCA ATGTTGACGA CAACAATGTC CTGGAAGATG ACTCCGTACG CCACGAGTGG 
GCCCTGAAGA AGTGGTCTCC CTGCTCCAAG CCCTGCGGTG GAGGGTCCCA GTTCACTAAG 
TATGGCTGCC GCCGGAGGCT GGACAGCAAG ATGGTGCACC GAGCCTTCTG CAGTGCCCTC 
GCCAAGCCCA AAGCCATCCG CCGAGCTTGC AACCCTCAGG AGTGCTCCCA GCCTGTGTGG 
GTCACCGGGG AATGGGAGCC TTGTACTCAG AGCTGTGGGC GAACGGGCAT GCAGGTGCGC 
TCCGTCCGCT GTATTCAACC TCTGCACAAC AACACCACCC GCTCCGTGCA CACCAAACAC 
TGCAACGACC ACCGTCCTGA GAGCCGCCGG GCCTGCAACC GTGAGCTCTG CCCTGGGCGG 
TGGCGGGCTG GGTCCTGGTC CCAGCCAGGA AACAGCTCAG ATCCCTCCAA GAAGAGCTAC 
GTGGTTCAGT GGCTGTCCCG GCCTGATCCT GATTCGCCCA TCCAGAAGAT CTCGTCAAAG 
GACCAGTGCC AAGGCGACAA GTCAATGTTC TGTAGGATGG AAGTCTTGTC CCGCTATTGC 
TCCATCCCCA GTTACAACAA GCTCTGTTGC AAGTCCTGCA GCCCGAACCT CGGCCACGCA 
GAAGACAGAG GCTCGGAACC TCCTCCGGGG AAGCACAACG ACATCGACGT GTTTATGCCC 
ACCCTCCCGG GGCCCACTGT GGCTACGCAG GTGCAGCCTT CTCCAGGGCC TCCTCTGGAG 
GCCCCCCTCA ATGTCTCCAT CGCTAATGCC ACTGAAGATC ACCCAGAAAC CAATGCCGTG 
GATGTCCCCT ACAAAATCCA CGGCGTGGAT GAAGAGGCCC AGTCTCCCAA CCTGATCCCT 
CGACGGCCAA GCCCGTACGT AAAGACAAGG AACCAAAGAA TCCAGGAGCT CATTAACGCG 
GCGCAGAGAA AAGAGAAGCC GGGAAAGTTC TAA

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

RefSeq	NP_001131094.1
CDS	73..3585
Translation	MDPPAGAARCLLCPALLLLLLLPPPPLLLLPPPPASARLVAATETPGGPPGYGAERILAVPVRTDAQGRLVSHVVSLETARAGVRARRAAPVQTSGLPGGAEQDPGGRLFYNLTVFGRDLHLRLRPNARLVAPGATVEWQGETGDTRVEPLLGTCLYVGDVADLPKTSSVALSNCDGLAGLIRMEEEEFFIEPLEKGQTDQEAEQGRVHVVYRRPPTPKPPPVGGPQALDTGASQGNLDSLSRALGVLEERINSSRRRVRRHATDDDYNIEVLLGVDDSVVQFHGKEHVQKYLLTLMNIVNEIYHDESLGAHINVVLVRIILLSHAKSMSLIEIGNPSQSLENVCRWAYLQQKPDTDHDEYHDHAIFLTRQDFGPSGMQGYAPVTGMCHPVRSCTLNHEDGFSSAFVVAHETGHVLGMEHDGQGNRCGDEVRLGSIMAPLVQAAFHRFHWSRCSQQELSRYLHSYDCLRDDPFAHDWPALPQLPGLHYSMNEQCRFDFGLGYMMCTAFRTFDPCKQLWCSHPDNPYFCKTKKGPPLDGTMCAPGKHCFKGHCIWLTPDILKRDGNWGAWTPFGSCSRTCGTGVKFRTRQCDSPHPANGGRTCSGLAYDFQLCNPQDCPNSLADFREEQCRQWDLYFEHGDAQHHWLPHEHRDAKERCHLYCESKETGEVVSMKRMVHDGTRCSYKDAFSLCVRGDCRKVGCDGVIGSRKQEDKCGVCGGDNTHCKVVKGTFTRSPRKQDYIKMFEIPAGARHLLIQETDTTSHHLSVKNLETGKFILNEENHLDPNSRSFIAMGVEWEYRNEDERETLQTIGPLHGTITVLVIPEGDARISLTYKYMIHEDSLNVDDNNVLEDDSVRHEWALKKWSPCSKPCGGGSQFTKYGCRRRLDSKMVHRAFCSALAKPKAIRRACNPQECSQPVWVTGEWEPCTQSCGRTGMQVRSVRCIQPLHNNTTRSVHTKHCNDHRPESRRACNRELCPGRWRAGSWSQPGNSSDPSKKSYVVQWLSRPDPDSPIQKISSKDQCQGDKSMFCRMEVLSRYCSIPSYNKLCCKSCSPNLGHAEDRGSEPPPGKHNDIDVFMPTLPGPTVATQVQPSPGPPLEAPLNVSIANATEDHPETNAVDVPYKIHGVDEEAQSPNLIPRRPSPYVKTRNQRIQELINAAQRKEKPGKF

Target ORF information:

RefSeq Version	NM_001137622.1
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 2 (Adamts2), mRNA.

Target ORF information:

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

NM_001137622.1

ORF Insert Sequence:

ATGGATCCGC CGGCGGGAGC CGCTCGCTGC CTGCTCTGCC CCGCTCTACT GCTGCTGCTA 
CTGCTGCCGC CGCCGCCTCT CTTGCTGCTG CCGCCGCCGC CCGCGAGCGC CCGGCTCGTC 
GCTGCCACGG AGACCCCAGG CGGGCCCCCG GGGTACGGAG CCGAGCGCAT CCTGGCGGTG 
CCGGTGCGCA CTGACGCCCA GGGCCGCTTG GTGTCCCACG TGGTATCTTT GGAGACAGCC 
CGGGCGGGGG TACGTGCCCG CAGAGCTGCC CCGGTCCAGA CCTCCGGCTT GCCCGGAGGC 
GCTGAGCAGG ACCCTGGAGG ACGCCTCTTC TACAACCTCA CAGTATTCGG CCGAGACCTG 
CACCTGCGGC TGCGGCCCAA CGCTCGGCTC GTGGCTCCCG GTGCCACTGT GGAGTGGCAG 
GGTGAGACGG GTGACACCCG AGTGGAGCCT CTGCTTGGGA CCTGTCTCTA CGTTGGAGAC 
GTGGCAGACT TACCTAAAAC CTCCTCGGTG GCGCTCAGTA ACTGTGATGG GCTGGCTGGC 
CTGATCCGGA TGGAGGAGGA GGAGTTCTTT ATCGAGCCTC TGGAGAAGGG TCAGACGGAT 
CAGGAGGCTG AACAAGGCCG AGTGCATGTG GTATATCGCC GACCGCCCAC TCCCAAGCCC 
CCTCCTGTGG GCGGACCACA GGCTCTGGAC ACAGGAGCCT CCCAGGGCAA CCTGGACAGC 
CTCAGCAGAG CCCTAGGTGT CCTGGAGGAG CGCATCAACA GCTCACGGCG GAGGGTGCGC 
AGGCACGCTA CGGACGATGA CTACAACATT GAGGTCCTGC TGGGCGTGGA TGATTCCGTG 
GTCCAGTTCC ATGGAAAGGA GCACGTGCAG AAGTACCTGC TGACACTCAT GAACATTGTC 
AACGAAATCT ACCATGACGA GTCGTTGGGG GCCCACATCA ACGTTGTGCT GGTGAGGATT 
ATCCTGCTGA GTCACGCGAA GTCCATGAGC CTCATTGAGA TTGGAAACCC CTCTCAGAGT 
CTGGAGAACG TCTGCCGATG GGCCTACCTC CAGCAGAAGC CAGACACAGA CCACGATGAG 
TACCACGATC ATGCCATCTT CCTCACTAGA CAGGACTTCG GGCCCTCCGG CATGCAAGGC 
TATGCTCCCG TCACTGGGAT GTGCCATCCC GTCCGCAGCT GCACCCTGAA CCATGAGGAT 
GGCTTCTCCT CGGCATTTGT GGTGGCTCAT GAGACGGGCC ATGTGCTGGG CATGGAGCAC 
GATGGGCAAG GCAACCGCTG TGGTGACGAG GTACGGCTGG GCAGCATCAT GGCACCCCTG 
GTACAGGCTG CCTTCCATCG ATTCCACTGG TCCCGCTGCA GCCAGCAGGA GCTCAGCCGC 
TACCTGCATT CCTATGACTG CCTGCGGGAT GACCCCTTCG CCCACGACTG GCCGGCATTG 
CCTCAGCTCC CAGGGCTGCA CTACTCCATG AACGAGCAGT GTCGTTTCGA CTTTGGCCTG 
GGTTACATGA TGTGCACTGC GTTCCGGACC TTTGACCCCT GCAAACAGCT ATGGTGCAGC 
CACCCAGATA ACCCCTACTT TTGCAAGACA AAGAAGGGCC CACCTCTGGA TGGGACTATG 
TGTGCACCTG GCAAGCACTG CTTCAAAGGC CACTGCATCT GGCTGACACC AGATATCCTC 
AAACGGGATG GCAACTGGGG TGCCTGGACT CCGTTTGGCT CCTGCTCGCG CACCTGTGGC 
ACAGGCGTGA AGTTCAGGAC CCGCCAGTGT GACAGCCCAC ATCCAGCCAA CGGGGGCCGC 
ACCTGCTCGG GCCTGGCCTA TGACTTCCAG CTCTGCAACC CCCAGGACTG TCCCAACTCC 
CTGGCTGACT TCCGGGAGGA GCAGTGTCGG CAGTGGGACC TGTACTTCGA GCACGGTGAT 
GCCCAGCACC ACTGGCTGCC TCATGAGCAC CGGGATGCCA AGGAGAGATG CCATCTCTAC 
TGCGAGTCCA AGGAGACAGG GGAGGTGGTC TCCATGAAGC GCATGGTGCA CGATGGGACA 
CGCTGCTCCT ACAAGGACGC CTTCAGCCTC TGTGTGCGTG GAGACTGCAG GAAAGTGGGC 
TGTGACGGGG TGATCGGCTC CCGCAAGCAG GAAGACAAGT GTGGTGTGTG TGGAGGTGAC 
AACACCCACT GTAAAGTGGT GAAGGGCACG TTCACAAGGT CACCCAGGAA GCAAGATTAC 
ATCAAGATGT TTGAGATCCC TGCAGGAGCC AGACACCTGC TCATCCAGGA AACTGACACC 
ACCAGCCACC ATCTGTCTGT CAAGAACCTG GAGACAGGCA AGTTCATCTT AAATGAAGAG 
AACCACTTGG ACCCCAATTC TAGATCCTTC ATCGCCATGG GTGTGGAGTG GGAGTACAGG 
AATGAGGATG AGAGGGAGAC GCTGCAGACC ATAGGCCCAC TCCACGGAAC CATCACCGTG 
CTGGTTATTC CCGAAGGAGA CGCCCGGATC TCACTGACAT ACAAATACAT GATCCACGAG 
GACTCCCTCA ATGTTGACGA CAACAATGTC CTGGAAGATG ACTCCGTACG CCACGAGTGG 
GCCCTGAAGA AGTGGTCTCC CTGCTCCAAG CCCTGCGGTG GAGGGTCCCA GTTCACTAAG 
TATGGCTGCC GCCGGAGGCT GGACAGCAAG ATGGTGCACC GAGCCTTCTG CAGTGCCCTC 
GCCAAGCCCA AAGCCATCCG CCGAGCTTGC AACCCTCAGG AGTGCTCCCA GCCTGTGTGG 
GTCACCGGGG AATGGGAGCC TTGTACTCAG AGCTGTGGGC GAACGGGCAT GCAGGTGCGC 
TCCGTCCGCT GTATTCAACC TCTGCACAAC AACACCACCC GCTCCGTGCA CACCAAACAC 
TGCAACGACC ACCGTCCTGA GAGCCGCCGG GCCTGCAACC GTGAGCTCTG CCCTGGGCGG 
TGGCGGGCTG GGTCCTGGTC CCAGCCAGGA AACAGCTCAG ATCCCTCCAA GAAGAGCTAC 
GTGGTTCAGT GGCTGTCCCG GCCTGATCCT GATTCGCCCA TCCAGAAGAT CTCGTCAAAG 
GACCAGTGCC AAGGCGACAA GTCAATGTTC TGTAGGATGG AAGTCTTGTC CCGCTATTGC 
TCCATCCCCA GTTACAACAA GCTCTGTTGC AAGTCCTGCA GCCCGAACCT CGGCCACGCA 
GAAGACAGAG GCTCGGAACC TCCTCCGGGG AAGCACAACG ACATCGACGT GTTTATGCCC 
ACCCTCCCGG GGCCCACTGT GGCTACGCAG GTGCAGCCTT CTCCAGGGCC TCCTCTGGAG 
GCCCCCCTCA ATGTCTCCAT CGCTAATGCC ACTGAAGATC ACCCAGAAAC CAATGCCGTG 
GATGTCCCCT ACAAAATCCA CGGCGTGGAT GAAGAGGCCC AGTCTCCCAA CCTGATCCCT 
CGACGGCCAA GCCCGTACGT AAAGACAAGG AACCAAAGAA TCCAGGAGCT CATTAACGCG 
GCGCAGAGAA AAGAGAAGCC GGGAAAGTTC TAA

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

Adamts2 ( XM_008767677.2 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_008765899.2 Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 2 (Adamts2), transcript variant X1, mRNA.

Price & Availability↑

CloneID	ORa57272
Clone ID Related Accession (Same CDS sequence)	XM_008767677.2
Accession Version	XM_008767677.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3639bp) 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 2 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005109.4) 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_008767677.1. ##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##

ATGGATCCGC CGGCGGGAGC CGCTCGCTGC CTGCTCTGCC CCGCTCTACT GCTGCTGCTA 
CTGCTGCCGC CGCCGCCTCT CTTGCTGCTG CCGCCGCCGC CCGCGAGCGC CCGGCTCGTC 
GCTGCCACGG AGACCCCAGG CGGGCCCCCG GGGTACGGAG CCGAGCGCAT CCTGGCGGTG 
CCGGTGCGCA CTGACGCCCA GGGCCGCTTG GTGTCCCACG TGGTATCTTT GGAGACAGCC 
CGGGCGGGGG TACGTGCCCG CAGAGCTGCC CCGGTCCAGA CCTCCGGCTT GCCCGGAGGC 
GCTGAGCAGG ACCCTGGAGG ACGCCTCTTC TACAACCTCA CAGTATTCGG CCGAGACCTG 
CACCTGCGGC TGCGGCCCAA CGCTCGGCTC GTGGCTCCCG GTGCCACTGT GGAGTGGCAG 
GGTGAGACGG GTGACACCCG AGTGGAGCCT CTGCTTGGGA CCTGTCTCTA CGTTGGAGAC 
GTGGCAGACT TACCTAAAAC CTCCTCGGTG GCGCTCAGTA ACTGTGATGG GCTGGCTGGC 
CTGATCCGGA TGGAGGAGGA GGAGTTCTTT ATCGAGCCTC TGGAGAAGGG TCAGACGGAT 
CAGGAGGCTG AACAAGGCCG AGTGCATGTG GTATATCGCC GACCGCCCAC TCCCAAGCCC 
CCTCCTGTGG GCGGACCACA GGCTCTGGAC ACAGGAGCCT CCCAGGGCAA CCTGGACAGC 
CTCAGCAGAG CCCTAGGTGT CCTGGAGGAG CGCATCAACA GCTCACGGCG GAGGGTGCGC 
AGGCACGCTA CGGACGATGA CTACAACATT GAGGTCCTGC TGGGCGTGGA TGATTCCGTG 
GTCCAGTTCC ATGGAAAGGA GCACGTGCAG AAGTACCTGC TGACACTCAT GAACATTGTC 
AACGAAATCT ACCATGACGA GTCGTTGGGG GCCCACATCA ACGTTGTGCT GGTGAGGATT 
ATCCTGCTGA GTCACGCGAA GTCCATGAGC CTCATTGAGA TTGGAAACCC CTCTCAGAGT 
CTGGAGAACG TCTGCCGATG GGCCTACCTC CAGCAGAAGC CAGACACAGA CCACGATGAG 
TACCACGATC ATGCCATCTT CCTCACTAGA CAGGACTTCG GGCCCTCCGG CATGCAAGGC 
TATGCTCCCG TCACTGGGAT GTGCCATCCC GTCCGCAGCT GCACCCTGAA CCATGAGGAT 
GGCTTCTCCT CGGCATTTGT GGTGGCTCAT GAGACGGGCC ATGTGCTGGG CATGGAGCAC 
GATGGGCAAG GCAACCGCTG TGGTGACGAG GTACGGCTGG GCAGCATCAT GGCACCCCTG 
GTACAGGCTG CCTTCCATCG ATTCCACTGG TCCCGCTGCA GCCAGCAGGA GCTCAGCCGC 
TACCTGCATT CCTATGACTG CCTGCGGGAT GACCCCTTCG CCCACGACTG GCCGGCATTG 
CCTCAGCTCC CAGGGCTGCA CTACTCCATG AACGAGCAGT GTCGTTTCGA CTTTGGCCTG 
GGTTACATGA TGTGCACTGC GTTCCGGACC TTTGACCCCT GCAAACAGCT ATGGTGCAGC 
CACCCAGATA ACCCCTACTT TTGCAAGACA AAGAAGGGCC CACCTCTGGA TGGGACTATG 
TGTGCACCTG GCAAGCACTG CTTCAAAGGC CACTGCATCT GGCTGACACC AGATATCCTC 
AAACGGGATG GCAACTGGGG TGCCTGGACT CCGTTTGGCT CCTGCTCGCG CACCTGTGGC 
ACAGGCGTGA AGTTCAGGAC CCGCCAGTGT GACAGCCCAC ATCCAGCCAA CGGGGGCCGC 
ACCTGCTCGG GCCTGGCCTA TGACTTCCAG CTCTGCAACC CCCAGGACTG TCCCAACTCC 
CTGGCTGACT TCCGGGAGGA GCAGTGTCGG CAGTGGGACC TGTACTTCGA GCACGGTGAT 
GCCCAGCACC ACTGGCTGCC TCATGAGCAC CGGGATGCCA AGGAGAGATG CCATCTCTAC 
TGCGAGTCCA AGGAGACAGG GGAGGTGGTC TCCATGAAGC GCATGGTGCA CGATGGGACA 
CGCTGCTCCT ACAAGGACGC CTTCAGCCTC TGTGTGCGTG GAGACTGCAG GAAAGTGGGC 
TGTGACGGGG TGATCGGCTC CCGCAAGCAG GAAGACAAGT GTGGTGTGTG TGGAGGTGAC 
AACACCCACT GTAAAGTGGT GAAGGGCACG TTCACAAGGT CACCCAGGAA GCAAGATTAC 
ATCAAGATGT TTGAGATCCC TGCAGGAGCC AGACACCTGC TCATCCAGGA AACTGACACC 
ACCAGCCACC ATCTGTCTGT CAAGAACCTG GAGACAGGCA AGTTCATCTT AAATGAAGAG 
AACCACTTGG ACCCCAATTC TAGATCCTTC ATCGCCATGG GTGTGGAGTG GGAGTACAGG 
AATGAGGATG AGAGGGAGAC GCTGCAGACC ATAGGCCCAC TCCACGGAAC CATCACCGTG 
CTGGTTATTC CCGAAGGAGA CGCCCGGATC TCACTGACAT ACAAATACAT GATCCACGAG 
GACTCCCTCA ATGTTGACGA CAACAATGTC CTGGAAGATG ACTCCGTACG CCACGAGTGG 
GCCCTGAAGA AGTGGTCTCC CTGCTCCAAG CCCTGCGGTG GAGGGTCCCA GTTCACTAAG 
TATGGCTGCC GCCGGAGGCT GGACAGCAAG ATGGTGCACC GAGCCTTCTG CAGTGCCCTC 
GCCAAGCCCA AAGCCATCCG CCGAGCTTGC AACCCTCAGG AGTGCTCCCA GCCTGTGTGG 
GTCACCGGGG AATGGGAGCC TTGTACTCAG AGCTGTGGGC GAACGGGCAT GCAGGTGCGC 
TCCGTCCGCT GTATTCAACC TCTGCACAAC AACACCACCC GCTCCGTGCA CACCAAACAC 
TGCAACGACC ACCGTCCTGA GAGCCGCCGG GCCTGCAACC GTGAGCTCTG CCCTGGGCGG 
TGGCGGGCTG GGTCCTGGTC CCAGTGTTCG GTAACCTGTG GCAACGGCAC CCAGGAACGG 
CCAGTGCTCT GCCGCACTGC AGATGATAAT TTTGGTGTCT GCCAGGAGGA ACGGCCGGAG 
ACGGCAAGGA TCTGCAGACT TGCACCTTGT CCCCGAAACA GCTCAGATCC CTCCAAGAAG 
AGCTACGTGG TTCAGTGGCT GTCCCGGCCT GATCCTGATT CGCCCATCCA GAAGATCTCG 
TCAAAGGACC AGTGCCAAGG CGACAAGTCA ATGTTCTGTA GGATGGAAGT CTTGTCCCGC 
TATTGCTCCA TCCCCAGTTA CAACAAGCTC TGTTGCAAGT CCTGCAGCCC GAACCTCGGC 
CACGCAGAAG ACAGAGGCTC GGAACCTCCT CCGGGGAAGC ACAACGACAT CGACGTGTTT 
ATGCCCACCC TCCCGGGGCC CACTGTGGCT ACGCAGGTGC AGCCTTCTCC AGGGCCTCCT 
CTGGAGGCCC CCCTCAATGT CTCCATCGCT AATGCCACTG AAGATCACCC AGAAACCAAT 
GCCGTGGATG TCCCCTACAA AATCCACGGC GTGGATGAAG AGGCCCAGTC TCCCAACCTG 
ATCCCTCGAC GGCCAAGCCC GTACGTAAAG ACAAGGAACC AAAGAATCCA GGAGCTCATT 
AACGCGGCGC AGAGAAAAGA GAAGCCGGGA AAGTTCTAA

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

RefSeq	XP_008765899.2
CDS	67..3705
Translation	MDPPAGAARCLLCPALLLLLLLPPPPLLLLPPPPASARLVAATETPGGPPGYGAERILAVPVRTDAQGRLVSHVVSLETARAGVRARRAAPVQTSGLPGGAEQDPGGRLFYNLTVFGRDLHLRLRPNARLVAPGATVEWQGETGDTRVEPLLGTCLYVGDVADLPKTSSVALSNCDGLAGLIRMEEEEFFIEPLEKGQTDQEAEQGRVHVVYRRPPTPKPPPVGGPQALDTGASQGNLDSLSRALGVLEERINSSRRRVRRHATDDDYNIEVLLGVDDSVVQFHGKEHVQKYLLTLMNIVNEIYHDESLGAHINVVLVRIILLSHAKSMSLIEIGNPSQSLENVCRWAYLQQKPDTDHDEYHDHAIFLTRQDFGPSGMQGYAPVTGMCHPVRSCTLNHEDGFSSAFVVAHETGHVLGMEHDGQGNRCGDEVRLGSIMAPLVQAAFHRFHWSRCSQQELSRYLHSYDCLRDDPFAHDWPALPQLPGLHYSMNEQCRFDFGLGYMMCTAFRTFDPCKQLWCSHPDNPYFCKTKKGPPLDGTMCAPGKHCFKGHCIWLTPDILKRDGNWGAWTPFGSCSRTCGTGVKFRTRQCDSPHPANGGRTCSGLAYDFQLCNPQDCPNSLADFREEQCRQWDLYFEHGDAQHHWLPHEHRDAKERCHLYCESKETGEVVSMKRMVHDGTRCSYKDAFSLCVRGDCRKVGCDGVIGSRKQEDKCGVCGGDNTHCKVVKGTFTRSPRKQDYIKMFEIPAGARHLLIQETDTTSHHLSVKNLETGKFILNEENHLDPNSRSFIAMGVEWEYRNEDERETLQTIGPLHGTITVLVIPEGDARISLTYKYMIHEDSLNVDDNNVLEDDSVRHEWALKKWSPCSKPCGGGSQFTKYGCRRRLDSKMVHRAFCSALAKPKAIRRACNPQECSQPVWVTGEWEPCTQSCGRTGMQVRSVRCIQPLHNNTTRSVHTKHCNDHRPESRRACNRELCPGRWRAGSWSQCSVTCGNGTQERPVLCRTADDNFGVCQEERPETARICRLAPCPRNSSDPSKKSYVVQWLSRPDPDSPIQKISSKDQCQGDKSMFCRMEVLSRYCSIPSYNKLCCKSCSPNLGHAEDRGSEPPPGKHNDIDVFMPTLPGPTVATQVQPSPGPPLEAPLNVSIANATEDHPETNAVDVPYKIHGVDEEAQSPNLIPRRPSPYVKTRNQRIQELINAAQRKEKPGKF

Target ORF information:

RefSeq Version	XM_008767677.2
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 2 (Adamts2), transcript variant X1, mRNA.

Target ORF information:

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

XM_008767677.2

ORF Insert Sequence:

ATGGATCCGC CGGCGGGAGC CGCTCGCTGC CTGCTCTGCC CCGCTCTACT GCTGCTGCTA 
CTGCTGCCGC CGCCGCCTCT CTTGCTGCTG CCGCCGCCGC CCGCGAGCGC CCGGCTCGTC 
GCTGCCACGG AGACCCCAGG CGGGCCCCCG GGGTACGGAG CCGAGCGCAT CCTGGCGGTG 
CCGGTGCGCA CTGACGCCCA GGGCCGCTTG GTGTCCCACG TGGTATCTTT GGAGACAGCC 
CGGGCGGGGG TACGTGCCCG CAGAGCTGCC CCGGTCCAGA CCTCCGGCTT GCCCGGAGGC 
GCTGAGCAGG ACCCTGGAGG ACGCCTCTTC TACAACCTCA CAGTATTCGG CCGAGACCTG 
CACCTGCGGC TGCGGCCCAA CGCTCGGCTC GTGGCTCCCG GTGCCACTGT GGAGTGGCAG 
GGTGAGACGG GTGACACCCG AGTGGAGCCT CTGCTTGGGA CCTGTCTCTA CGTTGGAGAC 
GTGGCAGACT TACCTAAAAC CTCCTCGGTG GCGCTCAGTA ACTGTGATGG GCTGGCTGGC 
CTGATCCGGA TGGAGGAGGA GGAGTTCTTT ATCGAGCCTC TGGAGAAGGG TCAGACGGAT 
CAGGAGGCTG AACAAGGCCG AGTGCATGTG GTATATCGCC GACCGCCCAC TCCCAAGCCC 
CCTCCTGTGG GCGGACCACA GGCTCTGGAC ACAGGAGCCT CCCAGGGCAA CCTGGACAGC 
CTCAGCAGAG CCCTAGGTGT CCTGGAGGAG CGCATCAACA GCTCACGGCG GAGGGTGCGC 
AGGCACGCTA CGGACGATGA CTACAACATT GAGGTCCTGC TGGGCGTGGA TGATTCCGTG 
GTCCAGTTCC ATGGAAAGGA GCACGTGCAG AAGTACCTGC TGACACTCAT GAACATTGTC 
AACGAAATCT ACCATGACGA GTCGTTGGGG GCCCACATCA ACGTTGTGCT GGTGAGGATT 
ATCCTGCTGA GTCACGCGAA GTCCATGAGC CTCATTGAGA TTGGAAACCC CTCTCAGAGT 
CTGGAGAACG TCTGCCGATG GGCCTACCTC CAGCAGAAGC CAGACACAGA CCACGATGAG 
TACCACGATC ATGCCATCTT CCTCACTAGA CAGGACTTCG GGCCCTCCGG CATGCAAGGC 
TATGCTCCCG TCACTGGGAT GTGCCATCCC GTCCGCAGCT GCACCCTGAA CCATGAGGAT 
GGCTTCTCCT CGGCATTTGT GGTGGCTCAT GAGACGGGCC ATGTGCTGGG CATGGAGCAC 
GATGGGCAAG GCAACCGCTG TGGTGACGAG GTACGGCTGG GCAGCATCAT GGCACCCCTG 
GTACAGGCTG CCTTCCATCG ATTCCACTGG TCCCGCTGCA GCCAGCAGGA GCTCAGCCGC 
TACCTGCATT CCTATGACTG CCTGCGGGAT GACCCCTTCG CCCACGACTG GCCGGCATTG 
CCTCAGCTCC CAGGGCTGCA CTACTCCATG AACGAGCAGT GTCGTTTCGA CTTTGGCCTG 
GGTTACATGA TGTGCACTGC GTTCCGGACC TTTGACCCCT GCAAACAGCT ATGGTGCAGC 
CACCCAGATA ACCCCTACTT TTGCAAGACA AAGAAGGGCC CACCTCTGGA TGGGACTATG 
TGTGCACCTG GCAAGCACTG CTTCAAAGGC CACTGCATCT GGCTGACACC AGATATCCTC 
AAACGGGATG GCAACTGGGG TGCCTGGACT CCGTTTGGCT CCTGCTCGCG CACCTGTGGC 
ACAGGCGTGA AGTTCAGGAC CCGCCAGTGT GACAGCCCAC ATCCAGCCAA CGGGGGCCGC 
ACCTGCTCGG GCCTGGCCTA TGACTTCCAG CTCTGCAACC CCCAGGACTG TCCCAACTCC 
CTGGCTGACT TCCGGGAGGA GCAGTGTCGG CAGTGGGACC TGTACTTCGA GCACGGTGAT 
GCCCAGCACC ACTGGCTGCC TCATGAGCAC CGGGATGCCA AGGAGAGATG CCATCTCTAC 
TGCGAGTCCA AGGAGACAGG GGAGGTGGTC TCCATGAAGC GCATGGTGCA CGATGGGACA 
CGCTGCTCCT ACAAGGACGC CTTCAGCCTC TGTGTGCGTG GAGACTGCAG GAAAGTGGGC 
TGTGACGGGG TGATCGGCTC CCGCAAGCAG GAAGACAAGT GTGGTGTGTG TGGAGGTGAC 
AACACCCACT GTAAAGTGGT GAAGGGCACG TTCACAAGGT CACCCAGGAA GCAAGATTAC 
ATCAAGATGT TTGAGATCCC TGCAGGAGCC AGACACCTGC TCATCCAGGA AACTGACACC 
ACCAGCCACC ATCTGTCTGT CAAGAACCTG GAGACAGGCA AGTTCATCTT AAATGAAGAG 
AACCACTTGG ACCCCAATTC TAGATCCTTC ATCGCCATGG GTGTGGAGTG GGAGTACAGG 
AATGAGGATG AGAGGGAGAC GCTGCAGACC ATAGGCCCAC TCCACGGAAC CATCACCGTG 
CTGGTTATTC CCGAAGGAGA CGCCCGGATC TCACTGACAT ACAAATACAT GATCCACGAG 
GACTCCCTCA ATGTTGACGA CAACAATGTC CTGGAAGATG ACTCCGTACG CCACGAGTGG 
GCCCTGAAGA AGTGGTCTCC CTGCTCCAAG CCCTGCGGTG GAGGGTCCCA GTTCACTAAG 
TATGGCTGCC GCCGGAGGCT GGACAGCAAG ATGGTGCACC GAGCCTTCTG CAGTGCCCTC 
GCCAAGCCCA AAGCCATCCG CCGAGCTTGC AACCCTCAGG AGTGCTCCCA GCCTGTGTGG 
GTCACCGGGG AATGGGAGCC TTGTACTCAG AGCTGTGGGC GAACGGGCAT GCAGGTGCGC 
TCCGTCCGCT GTATTCAACC TCTGCACAAC AACACCACCC GCTCCGTGCA CACCAAACAC 
TGCAACGACC ACCGTCCTGA GAGCCGCCGG GCCTGCAACC GTGAGCTCTG CCCTGGGCGG 
TGGCGGGCTG GGTCCTGGTC CCAGTGTTCG GTAACCTGTG GCAACGGCAC CCAGGAACGG 
CCAGTGCTCT GCCGCACTGC AGATGATAAT TTTGGTGTCT GCCAGGAGGA ACGGCCGGAG 
ACGGCAAGGA TCTGCAGACT TGCACCTTGT CCCCGAAACA GCTCAGATCC CTCCAAGAAG 
AGCTACGTGG TTCAGTGGCT GTCCCGGCCT GATCCTGATT CGCCCATCCA GAAGATCTCG 
TCAAAGGACC AGTGCCAAGG CGACAAGTCA ATGTTCTGTA GGATGGAAGT CTTGTCCCGC 
TATTGCTCCA TCCCCAGTTA CAACAAGCTC TGTTGCAAGT CCTGCAGCCC GAACCTCGGC 
CACGCAGAAG ACAGAGGCTC GGAACCTCCT CCGGGGAAGC ACAACGACAT CGACGTGTTT 
ATGCCCACCC TCCCGGGGCC CACTGTGGCT ACGCAGGTGC AGCCTTCTCC AGGGCCTCCT 
CTGGAGGCCC CCCTCAATGT CTCCATCGCT AATGCCACTG AAGATCACCC AGAAACCAAT 
GCCGTGGATG TCCCCTACAA AATCCACGGC GTGGATGAAG AGGCCCAGTC TCCCAACCTG 
ATCCCTCGAC GGCCAAGCCC GTACGTAAAG ACAAGGAACC AAAGAATCCA GGAGCTCATT 
AACGCGGCGC AGAGAAAAGA GAAGCCGGGA AAGTTCTAA

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

PubMed

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

A genome-wide association study identifies a gene network of ADAMTS genes in the predisposition to pediatric stroke.
Blood120(26)5231-6(2012 Dec)
Arning A,Hiersche M,Witten A,Kurlemann G,Kurnik K,Manner D,Stoll M,Nowak-G?ttl U

Regulation of procollagen amino-propeptide processing during mouse embryogenesis by specialization of homologous ADAMTS proteases: insights on collagen biosynthesis and dermatosparaxis.
Development (Cambridge, England)133(8)1587-96(2006 Apr)
Le Goff C,Somerville RP,Kesteloot F,Powell K,Birk DE,Colige AC,Apte SS

Novel types of mutation responsible for the dermatosparactic type of Ehlers-Danlos syndrome (Type VIIC) and common polymorphisms in the ADAMTS2 gene.
The Journal of investigative dermatology123(4)656-63(2004 Oct)
Colige A,Nuytinck L,Hausser I,van Essen AJ,Thiry M,Herens C,Ad?s LC,Malfait F,Paepe AD,Franck P,Wolff G,Oosterwijk JC,Smitt JH,Lapi?re CM,Nusgens BV

Transgenic mice with inactive alleles for procollagen N-proteinase (ADAMTS-2) develop fragile skin and male sterility.
The Biochemical journal355(Pt 2)271-8(2001 Apr)
Li SW,Arita M,Fertala A,Bao Y,Kopen GC,L?ngsj? TK,Hyttinen MM,Helminen HJ,Prockop DJ

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Adamts2 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:

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