Adamts12 cDNA ORF clone, Rattus norvegicus(Norway rat)

Gene
Clones
gRNAs

Summary

Gene Symbol	Adamts12
Entrez Gene ID	294809
Full Name	ADAM metallopeptidase with thrombospondin type 1 motif, 12
General protein information	Preferred Names ADAM metallopeptidase with thrombospondin type 1 motif, 12 Names A disintegrin and metalloproteinase with thrombospondin motifs 12 a disintegrin-like and metallopeptidase (reprolysin type) with thrombospondin type 1 motif, 12
Gene Type	protein-coding
Organism	Rattus norvegicus(Norway rat)
Genome	Chromosome: 2 Map Location: 2q16

mRNA and Protein(s)

mRNA	Protein	Name
NM_001106420.3	NP_001099890.2	A disintegrin and metalloproteinase with thrombospondin motifs 12 precursor

Pathways from BioSystems

Homologies

Homo sapiens (human)	ADAMTS12	NP_112217.2
Mus musculus (house mouse)	Adamts12	NP_780710.2
Danio rerio (zebrafish)	LOC100003937	XP_001343371.4
	ADAMTS12	XP_001090049.1
Gallus gallus (chicken)	ADAMTS12	XP_003643023.2
Canis lupus familiaris (dog)	ADAMTS12	XP_536508.5
Rattus norvegicus (Norway rat)	Adamts12	NP_001099890.2
Pan troglodytes (chimpanzee)	ADAMTS12	XP_517836.3
Bos taurus (cattle)	ADAMTS12	NP_001179538.1
Xenopus tropicalis (tropical clawed frog)	adamts12	XP_002942490.2

Gene Ontology
Bibliography

Related articles in PubMed

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)

ADAMTS-12 metalloprotease is necessary for normal inflammatory response.
Moncada-Pazos A, Obaya AJ, Llamazares M, Heljasvaara R, Su?rez MF, Colado E, No?l A, Cal S, L?pez-Ot?n C
The Journal of biological chemistry287(47)39554-63(2012 Nov)

Negative effects of ADAMTS-7 and ADAMTS-12 on endplate cartilage differentiation.
Zhang Q, Huang M, Wang X, Xu X, Ni M, Wang Y
Journal of orthopaedic research : official publication of the Orthopaedic Research Society30(8)1238-43(2012 Aug)

Expression of ADAMTS-7 and ADAMTS-12 in the nucleus pulposus during degeneration of rat caudal intervetebral disc.
Yu H, Zhu Y
The Journal of veterinary medical science74(1)9-15(2012 Jan)

Regulated expression of ADAMTS-12 in human trophoblastic cells: a role for ADAMTS-12 in epithelial cell invasion?
Beristain AG, Zhu H, Leung PC
PloS one6(4)e18473(2011 Apr)

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

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 Adamts12 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Adamts12 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
ORa40410	NM_001106420.3 Latest version!	Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 12 (Adamts12), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00

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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)

Adamts12 ( NM_001106420.3 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> NP_001099890.2 Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 12 (Adamts12), mRNA.

Price & Availability↑

CloneID	ORa40410
Clone ID Related Accession (Same CDS sequence)	NM_001106420.3
Accession Version	NM_001106420.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4800bp) 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	2019-03-03
Organism	Rattus norvegicus(Norway rat)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 12 precursor
Comment	Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from AABR07008485.1, AABR07008487.1 and AABR07008488.1. On Sep 4, 2014 this sequence version replaced NM_001106420.2. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMD00052297, SAMEA2689601 [ECO:0000348] ##Evidence-Data-END##

ATGCCATGTG CTCAGGGGAA CTGGATGGCA AAGCTCTCCA TGGTGGCCCA GCTTCTTAAC 
TTTGGGGCTT TTTGCCATGG GAGACAAGCT CAGCCCTGGC CGGTTCGCTT CCCAGACCCG 
AAGCAAGAAC ATTTTATCAA GTCCCTGCCA GAATACCACA TAGTGAGTCC TGTCCAAGTA 
GATGCCAGTG GCCACTTTCT GTCCTATGGC CTGCATCACC CTGTCACTGG CAGCAGGAAG 
AAGAGAGCTG CAGGTGGTTC TGGGGACCAG GTGTACTACA GGATTTCACA CGAAGAAAAA 
AACCTGTTTT TCAATCTGAC AGTCAACTGG GAATTTCTTT CCAATGGCTA TGTCGTGGAG 
AGGAGATATG GGAACCTTTC CCATGTGAAG ATGGCGGCTT CCTCAGGGCA GCCCTGCCAT 
CTCAGGGGCA CAGTTCTGCA ACAGGGCCCC ACAATCAGGA TGGGGACAGC AGCTCTTAGT 
GCCTGCCAAG GACTGACTGG ATTTTTCCAT CTACCACATG GAGACTTTTT CATTGAGCCT 
GTTAAAAAGC ATCCACTGAC CGAGGAAGGT TACCAGCCTC ATGTCATATA CAGGAGGCAG 
AGCTACAGAG TTCCAGAGAC AAAGGAGCCC ACCTGCGGAT TAAAGGACAG CCTTGATAAC 
TCTGTGAAGC AAGAGCTCCA GCGGGAGAAG TGGGAGAGGA AGAACTGGCC AAGCAGAAGC 
CTCTCCCGAC GCTCCATAAG CAAGGAGAGA TGGGTGGAGA CCCTCGTGGT AGCTGACACG 
AAGATGGTAG AGTACCATGG AAGTGAGAAC GTGGAGTCGT ACATCCTCAC TATCATGAAT 
ATGGTCACTG GGTTGTTTCA TAACCCAAGC ATTGGAAACG CAGTGCACAT TGTTGTGGTT 
CGGCTCATTC TACTTGAAGA AGAGGAGCAA GGATTGAAAA TAGTTCACCA TGCAGAGAAG 
ACACTGTCCA GCTTCTGCAA GTGGCAGAAG AGCATCAATC CCAAGAGTGA CCTCAACCCT 
GTCCATCATG ATGTGGCTGT CCTTATCACC AGAAAGGACA TCTGTGCTGG TGTCAATCGC 
CCTTGTGAGA CTCTGGGGCT GTCCCAGCTG TCAGGAATGT GCCAGCCTCA CAGGAGCTGT 
AACATCAACG AAGACTCCGG TCTCCCCCTG GCTTTCACCA TTGCGCATGA ACTTGGGCAC 
AGCTTCGGCA TCCAACATGA TGGGAAGGAA AATGACTGTG AGCCCGTGGG CAGACACCCA 
TACATCATGT CCCAACAAAT TCAGTATGAC CCAACTCCAC TGACATGGTC GAAATGCAGC 
AAGGAGTACA TCACTCGCTT CTTGGACCGA GGCAGGGGGT TCTGTCTTGA TGACGTCCCC 
AGAAAGAAAG GCTTAAAGTC CAATGTCATT GCCCCTGGAG TGATTTATGA TGTTCATCAC 
CAGTGCCAGC TCCAATACGG CCCAAATGCT ACATTCTGCC AGGAAGTGGA AAATGTTTGC 
CAGACACTGT GGTGCTCAGT GAAAGGCTTC TGTCGCTCTA AGCTGGATGC TGCTGCAGAT 
GGGACACGTT GTGGTGAGAA GAAGTGGTGT ATGGCTGGAA AGTGTATCAC AGTGGGGAAG 
AAACCAGAGA GCATCCCTGG AGGCTGGGGA CGCTGGTCAC CCTGGTCACA CTGTTCGAGG 
ACATGTGGGG CAGGAGCTCA GAGCGCAGAG AGGCTCTGCA ACAACCCAGA ACCAAAGTTT 
GGAGGGAAAT ACTGCACCGG AGAAAGAAAA CGCTATCGCT TATGCAATGT CCACCCCTGC 
CGCTCAGACA CTCCAACTTT CCGACAGATG CAGTGCAGTG AATTTGACAC AGTCCCCTAC 
AAAAACCAAT TCTACCGCTG GTTCCCAGTG TTTAATCCAG CACATCCTTG TGAGCTGTAC 
TGCAGACCCA TAGATGAACA GTTTTCTGAG AGAATGCTGG AAGCCGTCAT TGATGGCACC 
CCGTGCTTTG AAGGTGGCAA CAGCAGAAAT GTCTGTATTA ATGGCATATG TAAGAGGGTT 
GGCTGTGACT ATGAGATTGA TTCCAATGCT ACAGAGGATC GCTGTGGCGT GTGCCTTGGA 
GATGGCTCTG CCTGCCAGAC TGTGAAGAAG GTGTTTAGAC AGAAGGAAGG ATCCGGTTAC 
ATTGACATCG GACTTATTCC CAAAGGTGCA AGGGATATAA GAGTGATGGA AATCAAGGCA 
GCCGGCAATT TCCTGGCCAT TAGGAGTGAA GATCCAGAAA AATATTACCT CAACGGAGGA 
TTTATCATCC AGTGGAATGG AAACTATAAA CTGGCAGGGA CCGTCTTCCA GTATGACAGG 
AAAGGAGATC TGGAGAGACT TATGGCTCCA GGCCCCACCA ACGAGTCAGT GTGGCTCCAG 
CTACTATTCC AGGTGACTAA CCCCGGTATC AAGTATGAGT ACACAGTCCG GAAAGATGGC 
CTTGACAATG ATGTGGAGAA GTTGCTGTAC TTCTGGCAAT TTGGCCGCTG GACAGAGTGC 
AGTGTAACAT GTGGAACAGG TATCCGCCGG CAGACTGCTC ATTGTGTCAA GAAGGGCCAT 
GGGATAGTGA AAACTACCTT CTGCAACCCA GAAACACAGC CCAGCGTGAG ACAGAAAAAG 
TGCTATGAAA AGGACTGTCC ACCCAGGTGG TGGGCCGGAG AGTGGGAAGC ATGTTCAATG 
ACATGTGGGC CGTACGGAGA AAAAAAGAGA ACAGTGCTGT GCATCCAGAC CATGGGCTCT 
GATGAGCAGG CTCTCCCAGC TACAGACTGC CAGCACCTGC TGAAGCCCAA GACACTGGTT 
TCCTGCAACA GAGACATTCT GTGTCCATCA GATTGGACAG TAGGCAACTG GAGTGAGTGC 
TCTGTTTCCT GTGGTGGTGG AGTGCGGATT CGCAGTGTCA CATGTGCCAA GAACCTTAAT 
GAACCCTGTG ACAAGACACG GAAACCCAAC AGTCGAGCTC TGTGTGGCCT CCAGCAGTGC 
CCATTCAGCC GTAGAGTTCT GAAACCCAAT AAAGATACAG TTCCCAGTGG GAAAAATCCA 
ACAACATCAG AACATGACCA CTTCAAGCCC ATCCCAGCAT CTACATCCAG GCCCACGCCA 
CTGTCCACAC CCACAGTGCC TGAGTCTGTG AGCACAAGTA CCCCCACAAT CAACAGCCTT 
GGCTCCACCA TAACATCCCA AGAAGAACCA GATGGGATAG GATGGCAGAA TAATTCAACC 
CAAGCTGAAG AGGACTCCCA CATCCCTACT TCTGTTGGAA GCACTTCCCA GACTCCCCTC 
ACTTCCTGGT CTTGGAGTAT GCAGCCTGAT GATGAAAACG TTTCCAGTTC AGCTATAGGT 
CCAACTTCAG AGAGTGACTT TTGGGCAACC ACAAGTGATT CTGGCTTATC ATCTAGCAAT 
GCTATGACTT GGCAGGTAAC TCCATTTTAT AGCACTGCGA CCACAGAACC GGAAGTGGAG 
ATACATAGTG GCTCAGGGGA AGACAGTGAC CAGCCTTTGA ACAAGGAGGA AAACAACTCT 
GTGCTATGGA ACAAGATCAG AGTACCTGAA CGTGATGCTC CCATGGAGAT GGATGCAGAA 
ATACCACTTG GACCTCCACC AACATCTTAT GTGACAGAAG AGTCCTCATG GCCTCCCTTC 
AGTACAATGA TGAAAAGCTC ACTACCTGCC TGGTCCTTCA AAAATGAGAC ACCCAGGGAT 
GAGGGGATGA TCACTGAAAA ATCAGGGAAT ATTCCACTCC CTCTTGGAGG AGACCACCAG 
ACAACATCCC CAGAGAAGTT AGGAAACAAT GACCAACTGG CATCAGCAAA TAGTACAAAT 
CCAACCCAAG GCTCTGGGCC TGTCCTGACT GAGGAAGATG CCTCCACTCT GATTGAGGAG 
GGATTTTTGC TAAATGCTTC CAATTACAAG CATCTCATGA AGGACCACAG CCCTGCACAC 
TGGATTGTTG GAAATTGGAG TAAATGCTCT ACCACCTGTG GGCTGGGGGC CTACTGGAGG 
AGTGTGGAGT GTAGCACCGG GATGAACGCT GACTGCGCCG CCATTCAGAG GCCAGACCCT 
GCTAAGAAGT GCCACCTGCG CCCCTGTGCT GGCTGGCGAG TGGGAAACTG GAGCAAGTGC 
TCTCGAAACT GCAGTGGAGG TTTCAAGATT CGTGAGGTTC AGTGCATGGA CGGCGTGGAC 
CATCACCGGA GCCTGAGGCC ATTTCACTGT CAGTTCCTGG CCGGCGTTCC TCCTCCGCTG 
AGTATGAGCT GTAATCTGGA GCCTTGCGAA GAGTGGAAAG TGGAACCCTG GAGCCAGTGT 
TCTAGGTCCT GTGGAGGCGG TGTTCAGGAG AGAGGAGTGT TTTGCCCAGG AGGTCTCTGC 
GACTGGACAA AAAGACCTGC ATCCACTGTG CCCTGCAACA GACACCTTTG CTGTCACTGG 
GCCACTGGGA ACTGGGAACT GTGCACCACT TCCTGTGGTG GTGGCTCTCA GAAGAGGACC 
GTTCATTGCA TCCCTTCAGA AAACAGTACA ACTGAAGATC AAGACCAGTG TTTCTGTGAC 
CACCAAGCCA GACCCCCAGA ATTCCAAAAC TGCAACCAGC AAGCCTGCCG GAAGAGTGCT 
GATTTAACTT GCACGAAGGA CAGACTTTCA ACCAGCTTCT GCCAGACACT AAAATCCATG 
AAGAAGTGCT CGGTGCCATC AGTACGAGTC CAGTGCTGTC TCTCGTGTCC ACAGACACAG 
AGCATCCACA CCCAGAGGCA AAGAAAACAG CAGATGCTCC AAAATCATGA CACGCTCTAG

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

RefSeq	NP_001099890.2
CDS	240..5039
Translation	MPCAQGNWMAKLSMVAQLLNFGAFCHGRQAQPWPVRFPDPKQEHFIKSLPEYHIVSPVQVDASGHFLSYGLHHPVTGSRKKRAAGGSGDQVYYRISHEEKNLFFNLTVNWEFLSNGYVVERRYGNLSHVKMAASSGQPCHLRGTVLQQGPTIRMGTAALSACQGLTGFFHLPHGDFFIEPVKKHPLTEEGYQPHVIYRRQSYRVPETKEPTCGLKDSLDNSVKQELQREKWERKNWPSRSLSRRSISKERWVETLVVADTKMVEYHGSENVESYILTIMNMVTGLFHNPSIGNAVHIVVVRLILLEEEEQGLKIVHHAEKTLSSFCKWQKSINPKSDLNPVHHDVAVLITRKDICAGVNRPCETLGLSQLSGMCQPHRSCNINEDSGLPLAFTIAHELGHSFGIQHDGKENDCEPVGRHPYIMSQQIQYDPTPLTWSKCSKEYITRFLDRGRGFCLDDVPRKKGLKSNVIAPGVIYDVHHQCQLQYGPNATFCQEVENVCQTLWCSVKGFCRSKLDAAADGTRCGEKKWCMAGKCITVGKKPESIPGGWGRWSPWSHCSRTCGAGAQSAERLCNNPEPKFGGKYCTGERKRYRLCNVHPCRSDTPTFRQMQCSEFDTVPYKNQFYRWFPVFNPAHPCELYCRPIDEQFSERMLEAVIDGTPCFEGGNSRNVCINGICKRVGCDYEIDSNATEDRCGVCLGDGSACQTVKKVFRQKEGSGYIDIGLIPKGARDIRVMEIKAAGNFLAIRSEDPEKYYLNGGFIIQWNGNYKLAGTVFQYDRKGDLERLMAPGPTNESVWLQLLFQVTNPGIKYEYTVRKDGLDNDVEKLLYFWQFGRWTECSVTCGTGIRRQTAHCVKKGHGIVKTTFCNPETQPSVRQKKCYEKDCPPRWWAGEWEACSMTCGPYGEKKRTVLCIQTMGSDEQALPATDCQHLLKPKTLVSCNRDILCPSDWTVGNWSECSVSCGGGVRIRSVTCAKNLNEPCDKTRKPNSRALCGLQQCPFSRRVLKPNKDTVPSGKNPTTSEHDHFKPIPASTSRPTPLSTPTVPESVSTSTPTINSLGSTITSQEEPDGIGWQNNSTQAEEDSHIPTSVGSTSQTPLTSWSWSMQPDDENVSSSAIGPTSESDFWATTSDSGLSSSNAMTWQVTPFYSTATTEPEVEIHSGSGEDSDQPLNKEENNSVLWNKIRVPERDAPMEMDAEIPLGPPPTSYVTEESSWPPFSTMMKSSLPAWSFKNETPRDEGMITEKSGNIPLPLGGDHQTTSPEKLGNNDQLASANSTNPTQGSGPVLTEEDASTLIEEGFLLNASNYKHLMKDHSPAHWIVGNWSKCSTTCGLGAYWRSVECSTGMNADCAAIQRPDPAKKCHLRPCAGWRVGNWSKCSRNCSGGFKIREVQCMDGVDHHRSLRPFHCQFLAGVPPPLSMSCNLEPCEEWKVEPWSQCSRSCGGGVQERGVFCPGGLCDWTKRPASTVPCNRHLCCHWATGNWELCTTSCGGGSQKRTVHCIPSENSTTEDQDQCFCDHQARPPEFQNCNQQACRKSADLTCTKDRLSTSFCQTLKSMKKCSVPSVRVQCCLSCPQTQSIHTQRQRKQQMLQNHDTL

Target ORF information:

RefSeq Version	NM_001106420.3
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 12 (Adamts12), mRNA.

Target ORF information:

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

NM_001106420.3

ORF Insert Sequence:

ATGCCATGTG CTCAGGGGAA CTGGATGGCA AAGCTCTCCA TGGTGGCCCA GCTTCTTAAC 
TTTGGGGCTT TTTGCCATGG GAGACAAGCT CAGCCCTGGC CGGTTCGCTT CCCAGACCCG 
AAGCAAGAAC ATTTTATCAA GTCCCTGCCA GAATACCACA TAGTGAGTCC TGTCCAAGTA 
GATGCCAGTG GCCACTTTCT GTCCTATGGC CTGCATCACC CTGTCACTGG CAGCAGGAAG 
AAGAGAGCTG CAGGTGGTTC TGGGGACCAG GTGTACTACA GGATTTCACA CGAAGAAAAA 
AACCTGTTTT TCAATCTGAC AGTCAACTGG GAATTTCTTT CCAATGGCTA TGTCGTGGAG 
AGGAGATATG GGAACCTTTC CCATGTGAAG ATGGCGGCTT CCTCAGGGCA GCCCTGCCAT 
CTCAGGGGCA CAGTTCTGCA ACAGGGCCCC ACAATCAGGA TGGGGACAGC AGCTCTTAGT 
GCCTGCCAAG GACTGACTGG ATTTTTCCAT CTACCACATG GAGACTTTTT CATTGAGCCT 
GTTAAAAAGC ATCCACTGAC CGAGGAAGGT TACCAGCCTC ATGTCATATA CAGGAGGCAG 
AGCTACAGAG TTCCAGAGAC AAAGGAGCCC ACCTGCGGAT TAAAGGACAG CCTTGATAAC 
TCTGTGAAGC AAGAGCTCCA GCGGGAGAAG TGGGAGAGGA AGAACTGGCC AAGCAGAAGC 
CTCTCCCGAC GCTCCATAAG CAAGGAGAGA TGGGTGGAGA CCCTCGTGGT AGCTGACACG 
AAGATGGTAG AGTACCATGG AAGTGAGAAC GTGGAGTCGT ACATCCTCAC TATCATGAAT 
ATGGTCACTG GGTTGTTTCA TAACCCAAGC ATTGGAAACG CAGTGCACAT TGTTGTGGTT 
CGGCTCATTC TACTTGAAGA AGAGGAGCAA GGATTGAAAA TAGTTCACCA TGCAGAGAAG 
ACACTGTCCA GCTTCTGCAA GTGGCAGAAG AGCATCAATC CCAAGAGTGA CCTCAACCCT 
GTCCATCATG ATGTGGCTGT CCTTATCACC AGAAAGGACA TCTGTGCTGG TGTCAATCGC 
CCTTGTGAGA CTCTGGGGCT GTCCCAGCTG TCAGGAATGT GCCAGCCTCA CAGGAGCTGT 
AACATCAACG AAGACTCCGG TCTCCCCCTG GCTTTCACCA TTGCGCATGA ACTTGGGCAC 
AGCTTCGGCA TCCAACATGA TGGGAAGGAA AATGACTGTG AGCCCGTGGG CAGACACCCA 
TACATCATGT CCCAACAAAT TCAGTATGAC CCAACTCCAC TGACATGGTC GAAATGCAGC 
AAGGAGTACA TCACTCGCTT CTTGGACCGA GGCAGGGGGT TCTGTCTTGA TGACGTCCCC 
AGAAAGAAAG GCTTAAAGTC CAATGTCATT GCCCCTGGAG TGATTTATGA TGTTCATCAC 
CAGTGCCAGC TCCAATACGG CCCAAATGCT ACATTCTGCC AGGAAGTGGA AAATGTTTGC 
CAGACACTGT GGTGCTCAGT GAAAGGCTTC TGTCGCTCTA AGCTGGATGC TGCTGCAGAT 
GGGACACGTT GTGGTGAGAA GAAGTGGTGT ATGGCTGGAA AGTGTATCAC AGTGGGGAAG 
AAACCAGAGA GCATCCCTGG AGGCTGGGGA CGCTGGTCAC CCTGGTCACA CTGTTCGAGG 
ACATGTGGGG CAGGAGCTCA GAGCGCAGAG AGGCTCTGCA ACAACCCAGA ACCAAAGTTT 
GGAGGGAAAT ACTGCACCGG AGAAAGAAAA CGCTATCGCT TATGCAATGT CCACCCCTGC 
CGCTCAGACA CTCCAACTTT CCGACAGATG CAGTGCAGTG AATTTGACAC AGTCCCCTAC 
AAAAACCAAT TCTACCGCTG GTTCCCAGTG TTTAATCCAG CACATCCTTG TGAGCTGTAC 
TGCAGACCCA TAGATGAACA GTTTTCTGAG AGAATGCTGG AAGCCGTCAT TGATGGCACC 
CCGTGCTTTG AAGGTGGCAA CAGCAGAAAT GTCTGTATTA ATGGCATATG TAAGAGGGTT 
GGCTGTGACT ATGAGATTGA TTCCAATGCT ACAGAGGATC GCTGTGGCGT GTGCCTTGGA 
GATGGCTCTG CCTGCCAGAC TGTGAAGAAG GTGTTTAGAC AGAAGGAAGG ATCCGGTTAC 
ATTGACATCG GACTTATTCC CAAAGGTGCA AGGGATATAA GAGTGATGGA AATCAAGGCA 
GCCGGCAATT TCCTGGCCAT TAGGAGTGAA GATCCAGAAA AATATTACCT CAACGGAGGA 
TTTATCATCC AGTGGAATGG AAACTATAAA CTGGCAGGGA CCGTCTTCCA GTATGACAGG 
AAAGGAGATC TGGAGAGACT TATGGCTCCA GGCCCCACCA ACGAGTCAGT GTGGCTCCAG 
CTACTATTCC AGGTGACTAA CCCCGGTATC AAGTATGAGT ACACAGTCCG GAAAGATGGC 
CTTGACAATG ATGTGGAGAA GTTGCTGTAC TTCTGGCAAT TTGGCCGCTG GACAGAGTGC 
AGTGTAACAT GTGGAACAGG TATCCGCCGG CAGACTGCTC ATTGTGTCAA GAAGGGCCAT 
GGGATAGTGA AAACTACCTT CTGCAACCCA GAAACACAGC CCAGCGTGAG ACAGAAAAAG 
TGCTATGAAA AGGACTGTCC ACCCAGGTGG TGGGCCGGAG AGTGGGAAGC ATGTTCAATG 
ACATGTGGGC CGTACGGAGA AAAAAAGAGA ACAGTGCTGT GCATCCAGAC CATGGGCTCT 
GATGAGCAGG CTCTCCCAGC TACAGACTGC CAGCACCTGC TGAAGCCCAA GACACTGGTT 
TCCTGCAACA GAGACATTCT GTGTCCATCA GATTGGACAG TAGGCAACTG GAGTGAGTGC 
TCTGTTTCCT GTGGTGGTGG AGTGCGGATT CGCAGTGTCA CATGTGCCAA GAACCTTAAT 
GAACCCTGTG ACAAGACACG GAAACCCAAC AGTCGAGCTC TGTGTGGCCT CCAGCAGTGC 
CCATTCAGCC GTAGAGTTCT GAAACCCAAT AAAGATACAG TTCCCAGTGG GAAAAATCCA 
ACAACATCAG AACATGACCA CTTCAAGCCC ATCCCAGCAT CTACATCCAG GCCCACGCCA 
CTGTCCACAC CCACAGTGCC TGAGTCTGTG AGCACAAGTA CCCCCACAAT CAACAGCCTT 
GGCTCCACCA TAACATCCCA AGAAGAACCA GATGGGATAG GATGGCAGAA TAATTCAACC 
CAAGCTGAAG AGGACTCCCA CATCCCTACT TCTGTTGGAA GCACTTCCCA GACTCCCCTC 
ACTTCCTGGT CTTGGAGTAT GCAGCCTGAT GATGAAAACG TTTCCAGTTC AGCTATAGGT 
CCAACTTCAG AGAGTGACTT TTGGGCAACC ACAAGTGATT CTGGCTTATC ATCTAGCAAT 
GCTATGACTT GGCAGGTAAC TCCATTTTAT AGCACTGCGA CCACAGAACC GGAAGTGGAG 
ATACATAGTG GCTCAGGGGA AGACAGTGAC CAGCCTTTGA ACAAGGAGGA AAACAACTCT 
GTGCTATGGA ACAAGATCAG AGTACCTGAA CGTGATGCTC CCATGGAGAT GGATGCAGAA 
ATACCACTTG GACCTCCACC AACATCTTAT GTGACAGAAG AGTCCTCATG GCCTCCCTTC 
AGTACAATGA TGAAAAGCTC ACTACCTGCC TGGTCCTTCA AAAATGAGAC ACCCAGGGAT 
GAGGGGATGA TCACTGAAAA ATCAGGGAAT ATTCCACTCC CTCTTGGAGG AGACCACCAG 
ACAACATCCC CAGAGAAGTT AGGAAACAAT GACCAACTGG CATCAGCAAA TAGTACAAAT 
CCAACCCAAG GCTCTGGGCC TGTCCTGACT GAGGAAGATG CCTCCACTCT GATTGAGGAG 
GGATTTTTGC TAAATGCTTC CAATTACAAG CATCTCATGA AGGACCACAG CCCTGCACAC 
TGGATTGTTG GAAATTGGAG TAAATGCTCT ACCACCTGTG GGCTGGGGGC CTACTGGAGG 
AGTGTGGAGT GTAGCACCGG GATGAACGCT GACTGCGCCG CCATTCAGAG GCCAGACCCT 
GCTAAGAAGT GCCACCTGCG CCCCTGTGCT GGCTGGCGAG TGGGAAACTG GAGCAAGTGC 
TCTCGAAACT GCAGTGGAGG TTTCAAGATT CGTGAGGTTC AGTGCATGGA CGGCGTGGAC 
CATCACCGGA GCCTGAGGCC ATTTCACTGT CAGTTCCTGG CCGGCGTTCC TCCTCCGCTG 
AGTATGAGCT GTAATCTGGA GCCTTGCGAA GAGTGGAAAG TGGAACCCTG GAGCCAGTGT 
TCTAGGTCCT GTGGAGGCGG TGTTCAGGAG AGAGGAGTGT TTTGCCCAGG AGGTCTCTGC 
GACTGGACAA AAAGACCTGC ATCCACTGTG CCCTGCAACA GACACCTTTG CTGTCACTGG 
GCCACTGGGA ACTGGGAACT GTGCACCACT TCCTGTGGTG GTGGCTCTCA GAAGAGGACC 
GTTCATTGCA TCCCTTCAGA AAACAGTACA ACTGAAGATC AAGACCAGTG TTTCTGTGAC 
CACCAAGCCA GACCCCCAGA ATTCCAAAAC TGCAACCAGC AAGCCTGCCG GAAGAGTGCT 
GATTTAACTT GCACGAAGGA CAGACTTTCA ACCAGCTTCT GCCAGACACT AAAATCCATG 
AAGAAGTGCT CGGTGCCATC AGTACGAGTC CAGTGCTGTC TCTCGTGTCC ACAGACACAG 
AGCATCCACA CCCAGAGGCA AAGAAAACAG CAGATGCTCC AAAATCATGA CACGCTCTAG

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

PubMed

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

ADAMTS-12 metalloprotease is necessary for normal inflammatory response.
The Journal of biological chemistry287(47)39554-63(2012 Nov)
Moncada-Pazos A,Obaya AJ,Llamazares M,Heljasvaara R,Su?rez MF,Colado E,No?l A,Cal S,L?pez-Ot?n C

Negative effects of ADAMTS-7 and ADAMTS-12 on endplate cartilage differentiation.
Journal of orthopaedic research : official publication of the Orthopaedic Research Society30(8)1238-43(2012 Aug)
Zhang Q,Huang M,Wang X,Xu X,Ni M,Wang Y

Expression of ADAMTS-7 and ADAMTS-12 in the nucleus pulposus during degeneration of rat caudal intervetebral disc.
The Journal of veterinary medical science74(1)9-15(2012 Jan)
Yu H,Zhu Y

Regulated expression of ADAMTS-12 in human trophoblastic cells: a role for ADAMTS-12 in epithelial cell invasion?
PloS one6(4)e18473(2011 Apr)
Beristain AG,Zhu H,Leung PC

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Adamts12 cDNA ORF clone, Rattus norvegicus(Norway rat)

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