ADAMTS13 gene cDNA ORF clone, Homo sapiens(human)

mRNA	Protein	Name
XM_011518178.1	XP_011516480.1	A disintegrin and metalloproteinase with thrombospondin motifs 13 isoform X5
XM_017014234.2	XP_016869723.1	A disintegrin and metalloproteinase with thrombospondin motifs 13 isoform X4
NM_139026.5	NP_620595.1	A disintegrin and metalloproteinase with thrombospondin motifs 13 isoform 3 preproprotein
XM_011518178.2	XP_011516480.1	A disintegrin and metalloproteinase with thrombospondin motifs 13 isoform X5
NM_139026.4	NP_620595.1	A disintegrin and metalloproteinase with thrombospondin motifs 13 isoform 3 preproprotein
NM_139027.4	NP_620596.2	A disintegrin and metalloproteinase with thrombospondin motifs 13 isoform 2 preproprotein
XM_011518176.3	XP_011516478.1	A disintegrin and metalloproteinase with thrombospondin motifs 13 isoform X3
XM_011518176.2	XP_011516478.1	A disintegrin and metalloproteinase with thrombospondin motifs 13 isoform X3
XM_017014233.1	XP_016869722.1	A disintegrin and metalloproteinase with thrombospondin motifs 13 isoform X2
XM_011518179.1	XP_011516481.1	A disintegrin and metalloproteinase with thrombospondin motifs 13 isoform X6
NM_139025.4	NP_620594.1	A disintegrin and metalloproteinase with thrombospondin motifs 13 isoform 1 preproprotein
XM_017014234.1	XP_016869723.1	A disintegrin and metalloproteinase with thrombospondin motifs 13 isoform X4
NM_139027.5	NP_620596.2	A disintegrin and metalloproteinase with thrombospondin motifs 13 isoform 2 preproprotein
XM_017014232.1	XP_016869721.1	A disintegrin and metalloproteinase with thrombospondin motifs 13 isoform X1
XM_017014235.1	XP_016869724.1	A disintegrin and metalloproteinase with thrombospondin motifs 13 isoform X7

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)
OHu27537	NM_139025.4 Latest version!	Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant 1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	in pcDNA3.1-C-(k)DYK	$659.50-$923.30 $1319.00
OHu64704	XM_011518178.2 Latest version!	Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant X5, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$475.30 $679.00
OHu64705	XM_011518179.1 Latest version!	Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant X6, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$475.30 $679.00
OHu64702	XM_011518176.3 Latest version!	Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$559.30 $799.00
OHu64703	XM_017014234.2 Latest version!	Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$559.30 $799.00
OHu23357	NM_139027.5 Latest version!	Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant 2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$923.30 $1319.00
OHu27548	NM_139026.5 Latest version!	Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant 3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$727.30 $1039.00
OHu64700	XM_017014233.1 Latest version!	Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$643.30 $919.00
OHu98416	XM_017014232.1 Latest version!	Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$727.30 $1039.00
OHu98417	XM_017014235.1 Latest version!	Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant X7, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$391.30 $559.00
View Old Accession Versions >>
OHu64704	XM_011518178.1	Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant X5, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$475.30 $679.00
OHu27548	NM_139026.4	Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant 3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$727.30 $1039.00
OHu64702	XM_011518176.2	Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$559.30 $799.00
OHu64703	XM_017014234.1	Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$559.30 $799.00
OHu23357	NM_139027.4	Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant 2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$923.30 $1319.00
Hide Old Accession Versions >>

ADAMTS13 ( NM_139025.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_620594.1 Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant 1, mRNA.

Price & Availability↑

CloneID	OHu27537
Clone ID Related Accession (Same CDS sequence)	NM_139025.4
Accession Version	NM_139025.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4284bp) 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	2019-12-27
Organism	Homo sapiens(human)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 13 isoform 1 preproprotein
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AB069698.2, AF414401.1 and AV655072.1. This sequence is a reference standard in the RefSeqGene project. On Jul 18, 2013 this sequence version replaced NM_139025.3. Transcript Variant: This variant (1) represents the longest transcript and encodes the longest isoform (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 :: AB069698.2, AY055376.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMN04284274 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## RefSeq Select criteria :: based on conservation, expression, longest protein ##RefSeq-Attributes-END## COMPLETENESS: full length.

ATGCACCAGC GTCACCCCCG GGCAAGATGC CCTCCCCTCT GTGTGGCCGG AATCCTTGCC 
TGTGGCTTTC TCCTGGGCTG CTGGGGACCC TCCCATTTCC AGCAGAGTTG TCTTCAGGCT 
TTGGAGCCAC AGGCCGTGTC TTCTTACTTG AGCCCTGGTG CTCCCTTAAA AGGCCGCCCT 
CCTTCCCCTG GCTTCCAGAG GCAGAGGCAG AGGCAGAGGC GGGCTGCAGG CGGCATCCTA 
CACCTGGAGC TGCTGGTGGC CGTGGGCCCC GATGTCTTCC AGGCTCACCA GGAGGACACA 
GAGCGCTATG TGCTCACCAA CCTCAACATC GGGGCAGAAC TGCTTCGGGA CCCGTCCCTG 
GGGGCTCAGT TTCGGGTGCA CCTGGTGAAG ATGGTCATTC TGACAGAGCC TGAGGGTGCT 
CCAAATATCA CAGCCAACCT CACCTCGTCC CTGCTGAGCG TCTGTGGGTG GAGCCAGACC 
ATCAACCCTG AGGACGACAC GGATCCTGGC CATGCTGACC TGGTCCTCTA TATCACTAGG 
TTTGACCTGG AGTTGCCTGA TGGTAACCGG CAGGTGCGGG GCGTCACCCA GCTGGGCGGT 
GCCTGCTCCC CAACCTGGAG CTGCCTCATT ACCGAGGACA CTGGCTTCGA CCTGGGAGTC 
ACCATTGCCC ATGAGATTGG GCACAGCTTC GGCCTGGAGC ACGACGGCGC GCCCGGCAGC 
GGCTGCGGCC CCAGCGGACA CGTGATGGCT TCGGACGGCG CCGCGCCCCG CGCCGGCCTC 
GCCTGGTCCC CCTGCAGCCG CCGGCAGCTG CTGAGCCTGC TCAGCGCAGG ACGGGCGCGC 
TGCGTGTGGG ACCCGCCGCG GCCTCAACCC GGGTCCGCGG GGCACCCGCC GGATGCGCAG 
CCTGGCCTCT ACTACAGCGC CAACGAGCAG TGCCGCGTGG CCTTCGGCCC CAAGGCTGTC 
GCCTGCACCT TCGCCAGGGA GCACCTGGAT ATGTGCCAGG CCCTCTCCTG CCACACAGAC 
CCGCTGGACC AAAGCAGCTG CAGCCGCCTC CTCGTTCCTC TCCTGGATGG GACAGAATGT 
GGCGTGGAGA AGTGGTGCTC CAAGGGTCGC TGCCGCTCCC TGGTGGAGCT GACCCCCATA 
GCAGCAGTGC ATGGGCGCTG GTCTAGCTGG GGTCCCCGAA GTCCTTGCTC CCGCTCCTGC 
GGAGGAGGTG TGGTCACCAG GAGGCGGCAG TGCAACAACC CCAGACCTGC CTTTGGGGGG 
CGTGCATGTG TTGGTGCTGA CCTCCAGGCC GAGATGTGCA ACACTCAGGC CTGCGAGAAG 
ACCCAGCTGG AGTTCATGTC GCAACAGTGC GCCAGGACCG ACGGCCAGCC GCTGCGCTCC 
TCCCCTGGCG GCGCCTCCTT CTACCACTGG GGTGCTGCTG TACCACACAG CCAAGGGGAT 
GCTCTGTGCA GACACATGTG CCGGGCCATT GGCGAGAGCT TCATCATGAA GCGTGGAGAC 
AGCTTCCTCG ATGGGACCCG GTGTATGCCA AGTGGCCCCC GGGAGGACGG GACCCTGAGC 
CTGTGTGTGT CGGGCAGCTG CAGGACATTT GGCTGTGATG GTAGGATGGA CTCCCAGCAG 
GTATGGGACA GGTGCCAGGT GTGTGGTGGG GACAACAGCA CGTGCAGCCC ACGGAAGGGC 
TCTTTCACAG CTGGCAGAGC GAGAGAATAT GTCACGTTTC TGACAGTTAC CCCCAACCTG 
ACCAGTGTCT ACATTGCCAA CCACAGGCCT CTCTTCACAC ACTTGGCGGT GAGGATCGGA 
GGGCGCTATG TCGTGGCTGG GAAGATGAGC ATCTCCCCTA ACACCACCTA CCCCTCCCTC 
CTGGAGGATG GTCGTGTCGA GTACAGAGTG GCCCTCACCG AGGACCGGCT GCCCCGCCTG 
GAGGAGATCC GCATCTGGGG ACCCCTCCAG GAAGATGCTG ACATCCAGGT TTACAGGCGG 
TATGGCGAGG AGTATGGCAA CCTCACCCGC CCAGACATCA CCTTCACCTA CTTCCAGCCT 
AAGCCACGGC AGGCCTGGGT GTGGGCCGCT GTGCGTGGGC CCTGCTCGGT GAGCTGTGGG 
GCAGGGCTGC GCTGGGTAAA CTACAGCTGC CTGGACCAGG CCAGGAAGGA GTTGGTGGAG 
ACTGTCCAGT GCCAAGGGAG CCAGCAGCCA CCAGCGTGGC CAGAGGCCTG CGTGCTCGAA 
CCCTGCCCTC CCTACTGGGC GGTGGGAGAC TTCGGCCCAT GCAGCGCCTC CTGTGGGGGT 
GGCCTGCGGG AGCGGCCAGT GCGCTGCGTG GAGGCCCAGG GCAGCCTCCT GAAGACATTG 
CCCCCAGCCC GGTGCAGAGC AGGGGCCCAG CAGCCAGCTG TGGCGCTGGA AACCTGCAAC 
CCCCAGCCCT GCCCTGCCAG GTGGGAGGTG TCAGAGCCCA GCTCATGCAC ATCAGCTGGT 
GGAGCAGGCC TGGCCTTGGA GAACGAGACC TGTGTGCCAG GGGCAGATGG CCTGGAGGCT 
CCAGTGACTG AGGGGCCTGG CTCCGTAGAT GAGAAGCTGC CTGCCCCTGA GCCCTGTGTC 
GGGATGTCAT GTCCTCCAGG CTGGGGCCAT CTGGATGCCA CCTCTGCAGG GGAGAAGGCT 
CCCTCCCCAT GGGGCAGCAT CAGGACGGGG GCTCAAGCTG CACACGTGTG GACCCCTGCG 
GCAGGGTCGT GCTCCGTCTC CTGCGGGCGA GGTCTGATGG AGCTGCGTTT CCTGTGCATG 
GACTCTGCCC TCAGGGTGCC TGTCCAGGAA GAGCTGTGTG GCCTGGCAAG CAAGCCTGGG 
AGCCGGCGGG AGGTCTGCCA GGCTGTCCCG TGCCCTGCTC GGTGGCAGTA CAAGCTGGCG 
GCCTGCAGCG TGAGCTGTGG GAGAGGGGTC GTGCGGAGGA TCCTGTATTG TGCCCGGGCC 
CATGGGGAGG ACGATGGTGA GGAGATCCTG TTGGACACCC AGTGCCAGGG GCTGCCTCGC 
CCGGAACCCC AGGAGGCCTG CAGCCTGGAG CCCTGCCCAC CTAGGTGGAA AGTCATGTCC 
CTTGGCCCAT GTTCGGCCAG CTGTGGCCTT GGCACTGCTA GACGCTCGGT GGCCTGTGTG 
CAGCTCGACC AAGGCCAGGA CGTGGAGGTG GACGAGGCGG CCTGTGCGGC GCTGGTGCGG 
CCCGAGGCCA GTGTCCCCTG TCTCATTGCC GACTGCACCT ACCGCTGGCA TGTTGGCACC 
TGGATGGAGT GCTCTGTTTC CTGTGGGGAT GGCATCCAGC GCCGGCGTGA CACCTGCCTC 
GGACCCCAGG CCCAGGCGCC TGTGCCAGCT GATTTCTGCC AGCACTTGCC CAAGCCGGTG 
ACTGTGCGTG GCTGCTGGGC TGGGCCCTGT GTGGGACAGG GTACGCCCAG CCTGGTGCCC 
CACGAAGAAG CCGCTGCTCC AGGACGGACC ACAGCCACCC CTGCTGGTGC CTCCCTGGAG 
TGGTCCCAGG CCCGGGGCCT GCTCTTCTCC CCGGCTCCCC AGCCTCGGCG GCTCCTGCCC 
GGGCCCCAGG AAAACTCAGT GCAGTCCAGT GCCTGTGGCA GGCAGCACCT TGAGCCAACA 
GGAACCATTG ACATGCGAGG CCCAGGGCAG GCAGACTGTG CAGTGGCCAT TGGGCGGCCC 
CTCGGGGAGG TGGTGACCCT CCGCGTCCTT GAGAGTTCTC TCAACTGCAG TGCGGGGGAC 
ATGTTGCTGC TTTGGGGCCG GCTCACCTGG AGGAAGATGT GCAGGAAGCT GTTGGACATG 
ACTTTCAGCT CCAAGACCAA CACGCTGGTG GTGAGGCAGC GCTGCGGGCG GCCAGGAGGT 
GGGGTGCTGC TGCGGTATGG GAGCCAGCTT GCTCCTGAAA CCTTCTACAG AGAATGTGAC 
ATGCAGCTCT TTGGGCCCTG GGGTGAAATC GTGAGCCCCT CGCTGAGTCC AGCCACGAGT 
AATGCAGGGG GCTGCCGGCT CTTCATTAAT GTGGCTCCGC ACGCACGGAT TGCCATCCAT 
GCCCTGGCCA CCAACATGGG CGCTGGGACC GAGGGAGCCA ATGCCAGCTA CATCTTGATC 
CGGGACACCC ACAGCTTGAG GACCACAGCG TTCCATGGGC AGCAGGTGCT CTACTGGGAG 
TCAGAGAGCA GCCAGGCTGA GATGGAGTTC AGCGAGGGCT TCCTGAAGGC TCAGGCCAGC 
CTGCGGGGCC AGTACTGGAC CCTCCAATCA TGGGTACCGG AGATGCAGGA CCCTCAGTCC 
TGGAAGGGAA AGGAAGGAAC CTGA

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

RefSeq	NP_620594.1
CDS	445..4728
Translation	MHQRHPRARCPPLCVAGILACGFLLGCWGPSHFQQSCLQALEPQAVSSYLSPGAPLKGRPPSPGFQRQRQRQRRAAGGILHLELLVAVGPDVFQAHQEDTERYVLTNLNIGAELLRDPSLGAQFRVHLVKMVILTEPEGAPNITANLTSSLLSVCGWSQTINPEDDTDPGHADLVLYITRFDLELPDGNRQVRGVTQLGGACSPTWSCLITEDTGFDLGVTIAHEIGHSFGLEHDGAPGSGCGPSGHVMASDGAAPRAGLAWSPCSRRQLLSLLSAGRARCVWDPPRPQPGSAGHPPDAQPGLYYSANEQCRVAFGPKAVACTFAREHLDMCQALSCHTDPLDQSSCSRLLVPLLDGTECGVEKWCSKGRCRSLVELTPIAAVHGRWSSWGPRSPCSRSCGGGVVTRRRQCNNPRPAFGGRACVGADLQAEMCNTQACEKTQLEFMSQQCARTDGQPLRSSPGGASFYHWGAAVPHSQGDALCRHMCRAIGESFIMKRGDSFLDGTRCMPSGPREDGTLSLCVSGSCRTFGCDGRMDSQQVWDRCQVCGGDNSTCSPRKGSFTAGRAREYVTFLTVTPNLTSVYIANHRPLFTHLAVRIGGRYVVAGKMSISPNTTYPSLLEDGRVEYRVALTEDRLPRLEEIRIWGPLQEDADIQVYRRYGEEYGNLTRPDITFTYFQPKPRQAWVWAAVRGPCSVSCGAGLRWVNYSCLDQARKELVETVQCQGSQQPPAWPEACVLEPCPPYWAVGDFGPCSASCGGGLRERPVRCVEAQGSLLKTLPPARCRAGAQQPAVALETCNPQPCPARWEVSEPSSCTSAGGAGLALENETCVPGADGLEAPVTEGPGSVDEKLPAPEPCVGMSCPPGWGHLDATSAGEKAPSPWGSIRTGAQAAHVWTPAAGSCSVSCGRGLMELRFLCMDSALRVPVQEELCGLASKPGSRREVCQAVPCPARWQYKLAACSVSCGRGVVRRILYCARAHGEDDGEEILLDTQCQGLPRPEPQEACSLEPCPPRWKVMSLGPCSASCGLGTARRSVACVQLDQGQDVEVDEAACAALVRPEASVPCLIADCTYRWHVGTWMECSVSCGDGIQRRRDTCLGPQAQAPVPADFCQHLPKPVTVRGCWAGPCVGQGTPSLVPHEEAAAPGRTTATPAGASLEWSQARGLLFSPAPQPRRLLPGPQENSVQSSACGRQHLEPTGTIDMRGPGQADCAVAIGRPLGEVVTLRVLESSLNCSAGDMLLLWGRLTWRKMCRKLLDMTFSSKTNTLVVRQRCGRPGGGVLLRYGSQLAPETFYRECDMQLFGPWGEIVSPSLSPATSNAGGCRLFINVAPHARIAIHALATNMGAGTEGANASYILIRDTHSLRTTAFHGQQVLYWESESSQAEMEFSEGFLKAQASLRGQYWTLQSWVPEMQDPQSWKGKEGT

Target ORF information:

RefSeq Version	NM_139025.4
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant 1, mRNA.

Target ORF information:

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

NM_139025.4

ORF Insert Sequence:

ATGCACCAGC GTCACCCCCG GGCAAGATGC CCTCCCCTCT GTGTGGCCGG AATCCTTGCC 
TGTGGCTTTC TCCTGGGCTG CTGGGGACCC TCCCATTTCC AGCAGAGTTG TCTTCAGGCT 
TTGGAGCCAC AGGCCGTGTC TTCTTACTTG AGCCCTGGTG CTCCCTTAAA AGGCCGCCCT 
CCTTCCCCTG GCTTCCAGAG GCAGAGGCAG AGGCAGAGGC GGGCTGCAGG CGGCATCCTA 
CACCTGGAGC TGCTGGTGGC CGTGGGCCCC GATGTCTTCC AGGCTCACCA GGAGGACACA 
GAGCGCTATG TGCTCACCAA CCTCAACATC GGGGCAGAAC TGCTTCGGGA CCCGTCCCTG 
GGGGCTCAGT TTCGGGTGCA CCTGGTGAAG ATGGTCATTC TGACAGAGCC TGAGGGTGCT 
CCAAATATCA CAGCCAACCT CACCTCGTCC CTGCTGAGCG TCTGTGGGTG GAGCCAGACC 
ATCAACCCTG AGGACGACAC GGATCCTGGC CATGCTGACC TGGTCCTCTA TATCACTAGG 
TTTGACCTGG AGTTGCCTGA TGGTAACCGG CAGGTGCGGG GCGTCACCCA GCTGGGCGGT 
GCCTGCTCCC CAACCTGGAG CTGCCTCATT ACCGAGGACA CTGGCTTCGA CCTGGGAGTC 
ACCATTGCCC ATGAGATTGG GCACAGCTTC GGCCTGGAGC ACGACGGCGC GCCCGGCAGC 
GGCTGCGGCC CCAGCGGACA CGTGATGGCT TCGGACGGCG CCGCGCCCCG CGCCGGCCTC 
GCCTGGTCCC CCTGCAGCCG CCGGCAGCTG CTGAGCCTGC TCAGCGCAGG ACGGGCGCGC 
TGCGTGTGGG ACCCGCCGCG GCCTCAACCC GGGTCCGCGG GGCACCCGCC GGATGCGCAG 
CCTGGCCTCT ACTACAGCGC CAACGAGCAG TGCCGCGTGG CCTTCGGCCC CAAGGCTGTC 
GCCTGCACCT TCGCCAGGGA GCACCTGGAT ATGTGCCAGG CCCTCTCCTG CCACACAGAC 
CCGCTGGACC AAAGCAGCTG CAGCCGCCTC CTCGTTCCTC TCCTGGATGG GACAGAATGT 
GGCGTGGAGA AGTGGTGCTC CAAGGGTCGC TGCCGCTCCC TGGTGGAGCT GACCCCCATA 
GCAGCAGTGC ATGGGCGCTG GTCTAGCTGG GGTCCCCGAA GTCCTTGCTC CCGCTCCTGC 
GGAGGAGGTG TGGTCACCAG GAGGCGGCAG TGCAACAACC CCAGACCTGC CTTTGGGGGG 
CGTGCATGTG TTGGTGCTGA CCTCCAGGCC GAGATGTGCA ACACTCAGGC CTGCGAGAAG 
ACCCAGCTGG AGTTCATGTC GCAACAGTGC GCCAGGACCG ACGGCCAGCC GCTGCGCTCC 
TCCCCTGGCG GCGCCTCCTT CTACCACTGG GGTGCTGCTG TACCACACAG CCAAGGGGAT 
GCTCTGTGCA GACACATGTG CCGGGCCATT GGCGAGAGCT TCATCATGAA GCGTGGAGAC 
AGCTTCCTCG ATGGGACCCG GTGTATGCCA AGTGGCCCCC GGGAGGACGG GACCCTGAGC 
CTGTGTGTGT CGGGCAGCTG CAGGACATTT GGCTGTGATG GTAGGATGGA CTCCCAGCAG 
GTATGGGACA GGTGCCAGGT GTGTGGTGGG GACAACAGCA CGTGCAGCCC ACGGAAGGGC 
TCTTTCACAG CTGGCAGAGC GAGAGAATAT GTCACGTTTC TGACAGTTAC CCCCAACCTG 
ACCAGTGTCT ACATTGCCAA CCACAGGCCT CTCTTCACAC ACTTGGCGGT GAGGATCGGA 
GGGCGCTATG TCGTGGCTGG GAAGATGAGC ATCTCCCCTA ACACCACCTA CCCCTCCCTC 
CTGGAGGATG GTCGTGTCGA GTACAGAGTG GCCCTCACCG AGGACCGGCT GCCCCGCCTG 
GAGGAGATCC GCATCTGGGG ACCCCTCCAG GAAGATGCTG ACATCCAGGT TTACAGGCGG 
TATGGCGAGG AGTATGGCAA CCTCACCCGC CCAGACATCA CCTTCACCTA CTTCCAGCCT 
AAGCCACGGC AGGCCTGGGT GTGGGCCGCT GTGCGTGGGC CCTGCTCGGT GAGCTGTGGG 
GCAGGGCTGC GCTGGGTAAA CTACAGCTGC CTGGACCAGG CCAGGAAGGA GTTGGTGGAG 
ACTGTCCAGT GCCAAGGGAG CCAGCAGCCA CCAGCGTGGC CAGAGGCCTG CGTGCTCGAA 
CCCTGCCCTC CCTACTGGGC GGTGGGAGAC TTCGGCCCAT GCAGCGCCTC CTGTGGGGGT 
GGCCTGCGGG AGCGGCCAGT GCGCTGCGTG GAGGCCCAGG GCAGCCTCCT GAAGACATTG 
CCCCCAGCCC GGTGCAGAGC AGGGGCCCAG CAGCCAGCTG TGGCGCTGGA AACCTGCAAC 
CCCCAGCCCT GCCCTGCCAG GTGGGAGGTG TCAGAGCCCA GCTCATGCAC ATCAGCTGGT 
GGAGCAGGCC TGGCCTTGGA GAACGAGACC TGTGTGCCAG GGGCAGATGG CCTGGAGGCT 
CCAGTGACTG AGGGGCCTGG CTCCGTAGAT GAGAAGCTGC CTGCCCCTGA GCCCTGTGTC 
GGGATGTCAT GTCCTCCAGG CTGGGGCCAT CTGGATGCCA CCTCTGCAGG GGAGAAGGCT 
CCCTCCCCAT GGGGCAGCAT CAGGACGGGG GCTCAAGCTG CACACGTGTG GACCCCTGCG 
GCAGGGTCGT GCTCCGTCTC CTGCGGGCGA GGTCTGATGG AGCTGCGTTT CCTGTGCATG 
GACTCTGCCC TCAGGGTGCC TGTCCAGGAA GAGCTGTGTG GCCTGGCAAG CAAGCCTGGG 
AGCCGGCGGG AGGTCTGCCA GGCTGTCCCG TGCCCTGCTC GGTGGCAGTA CAAGCTGGCG 
GCCTGCAGCG TGAGCTGTGG GAGAGGGGTC GTGCGGAGGA TCCTGTATTG TGCCCGGGCC 
CATGGGGAGG ACGATGGTGA GGAGATCCTG TTGGACACCC AGTGCCAGGG GCTGCCTCGC 
CCGGAACCCC AGGAGGCCTG CAGCCTGGAG CCCTGCCCAC CTAGGTGGAA AGTCATGTCC 
CTTGGCCCAT GTTCGGCCAG CTGTGGCCTT GGCACTGCTA GACGCTCGGT GGCCTGTGTG 
CAGCTCGACC AAGGCCAGGA CGTGGAGGTG GACGAGGCGG CCTGTGCGGC GCTGGTGCGG 
CCCGAGGCCA GTGTCCCCTG TCTCATTGCC GACTGCACCT ACCGCTGGCA TGTTGGCACC 
TGGATGGAGT GCTCTGTTTC CTGTGGGGAT GGCATCCAGC GCCGGCGTGA CACCTGCCTC 
GGACCCCAGG CCCAGGCGCC TGTGCCAGCT GATTTCTGCC AGCACTTGCC CAAGCCGGTG 
ACTGTGCGTG GCTGCTGGGC TGGGCCCTGT GTGGGACAGG GTACGCCCAG CCTGGTGCCC 
CACGAAGAAG CCGCTGCTCC AGGACGGACC ACAGCCACCC CTGCTGGTGC CTCCCTGGAG 
TGGTCCCAGG CCCGGGGCCT GCTCTTCTCC CCGGCTCCCC AGCCTCGGCG GCTCCTGCCC 
GGGCCCCAGG AAAACTCAGT GCAGTCCAGT GCCTGTGGCA GGCAGCACCT TGAGCCAACA 
GGAACCATTG ACATGCGAGG CCCAGGGCAG GCAGACTGTG CAGTGGCCAT TGGGCGGCCC 
CTCGGGGAGG TGGTGACCCT CCGCGTCCTT GAGAGTTCTC TCAACTGCAG TGCGGGGGAC 
ATGTTGCTGC TTTGGGGCCG GCTCACCTGG AGGAAGATGT GCAGGAAGCT GTTGGACATG 
ACTTTCAGCT CCAAGACCAA CACGCTGGTG GTGAGGCAGC GCTGCGGGCG GCCAGGAGGT 
GGGGTGCTGC TGCGGTATGG GAGCCAGCTT GCTCCTGAAA CCTTCTACAG AGAATGTGAC 
ATGCAGCTCT TTGGGCCCTG GGGTGAAATC GTGAGCCCCT CGCTGAGTCC AGCCACGAGT 
AATGCAGGGG GCTGCCGGCT CTTCATTAAT GTGGCTCCGC ACGCACGGAT TGCCATCCAT 
GCCCTGGCCA CCAACATGGG CGCTGGGACC GAGGGAGCCA ATGCCAGCTA CATCTTGATC 
CGGGACACCC ACAGCTTGAG GACCACAGCG TTCCATGGGC AGCAGGTGCT CTACTGGGAG 
TCAGAGAGCA GCCAGGCTGA GATGGAGTTC AGCGAGGGCT TCCTGAAGGC TCAGGCCAGC 
CTGCGGGGCC AGTACTGGAC CCTCCAATCA TGGGTACCGG AGATGCAGGA CCCTCAGTCC 
TGGAAGGGAA AGGAAGGAAC CTGA

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

ADAMTS13 ( XM_011518178.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011516480.1 Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant X5, mRNA.

Price & Availability↑

CloneID	OHu64704
Clone ID Related Accession (Same CDS sequence)	XM_011518178.1 , XM_011518178.2
Accession Version	XM_011518178.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2949bp) 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	2016-06-05
Organism	Homo sapiens(human)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 13 isoform X5
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) 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 :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCGCAAC AGTGCGCCAG GACCGACGGC CAGCCGCTGC GCTCCTCCCC TGGCGGCGCC 
TCCTTCTACC ACTGGGGTGC TGCTGTACCA CACAGCCAAG GGGATGCTCT GTGCAGACAC 
ATGTGCCGGG CCATTGGCGA GAGCTTCATC ATGAAGCGTG GAGACAGCTT CCTCGATGGG 
ACCCGGTGTA TGCCAAGTGG CCCCCGGGAG GACGGGACCC TGAGCCTGTG TGTGTCGGGC 
AGCTGCAGGA CATTTGGCTG TGATGGTAGG ATGGACTCCC AGCAGGTATG GGACAGGTGC 
CAGGTGTGTG GTGGGGACAA CAGCACGTGC AGCCCACGGA AGGGCTCTTT CACAGCTGGC 
AGAGCGAGAG AATATGTCAC GTTTCTGACA GTTACCCCCA ACCTGACCAG TGTCTACATT 
GCCAACCACA GGCCTCTCTT CACACACTTG GCGGTGAGGA TCGGAGGGCG CTATGTCGTG 
GCTGGGAAGA TGAGCATCTC CCCTAACACC ACCTACCCCT CCCTCCTGGA GGATGGTCGT 
GTCGAGTACA GAGTGGCCCT CACCGAGGAC CGGCTGCCCC GCCTGGAGGA GATCCGCATC 
TGGGGACCCC TCCAGGAAGA TGCTGACATC CAGGTTTACA GGCGGTATGG CGAGGAGTAT 
GGCAACCTCA CCCGCCCAGA CATCACCTTC ACCTACTTCC AGCCTAAGCC ACGGCAGGCC 
TGGGTGTGGG CCGCTGTGCG TGGGCCCTGC TCGGTGAGCT GTGGGGCAGG GCTGCGCTGG 
GTAAACTACA GCTGCCTGGA CCAGGCCAGG AAGGAGTTGG TGGAGACTGT CCAGTGCCAA 
GGGAGCCAGC AGCCACCAGC GTGGCCAGAG GCCTGCGTGC TCGAACCCTG CCCTCCCTAC 
TGGGCGGTGG GAGACTTCGG CCCATGCAGC GCCTCCTGTG GGGGTGGCCT GCGGGAGCGG 
CCAGTGCGCT GCGTGGAGGC CCAGGGCAGC CTCCTGAAGA CATTGCCCCC AGCCCGGTGC 
AGAGCAGGGG CCCAGCAGCC AGCTGTGGCG CTGGAAACCT GCAACCCCCA GCCCTGCCCT 
GCCAGGTGGG AGGTGTCAGA GCCCAGCTCA TGCACATCAG CTGGTGGAGC AGGCCTGGCC 
TTGGAGAACG AGACCTGTGT GCCAGGGGCA GATGGCCTGG AGGCTCCAGT GACTGAGGGG 
CCTGGCTCCG TAGATGAGAA GCTGCCTGCC CCTGAGCCCT GTGTCGGGAT GTCATGTCCT 
CCAGGCTGGG GCCATCTGGA TGCCACCTCT GCAGGGGAGA AGGCTCCCTC CCCATGGGGC 
AGCATCAGGA CGGGGGCTCA AGCTGCACAC GTGTGGACCC CTGCGGCAGG GTCGTGCTCC 
GTCTCCTGCG GGCGAGGTCT GATGGAGCTG CGTTTCCTGT GCATGGACTC TGCCCTCAGG 
GTGCCTGTCC AGGAAGAGCT GTGTGGCCTG GCAAGCAAGC CTGGGAGCCG GCGGGAGGTC 
TGCCAGGCTG TCCCGTGCCC TGCTCGGTGG CAGTACAAGC TGGCGGCCTG CAGCGTGAGC 
TGTGGGAGAG GGGTCGTGCG GAGGATCCTG TATTGTGCCC GGGCCCATGG GGAGGACGAT 
GGTGAGGAGA TCCTGTTGGA CACCCAGTGC CAGGGGCTGC CTCGCCCGGA ACCCCAGGAG 
GCCTGCAGCC TGGAGCCCTG CCCACCTAGG TGGAAAGTCA TGTCCCTTGG CCCATGTTCG 
GCCAGCTGTG GCCTTGGCAC TGCTAGACGC TCGGTGGCCT GTGTGCAGCT CGACCAAGGC 
CAGGACGTGG AGGTGGACGA GGCGGCCTGT GCGGCGCTGG TGCGGCCCGA GGCCAGTGTC 
CCCTGTCTCA TTGCCGACTG CACCTACCGC TGGCATGTTG GCACCTGGAT GGAGTGCTCT 
GTTTCCTGTG GGGATGGCAT CCAGCGCCGG CGTGACACCT GCCTCGGACC CCAGGCCCAG 
GCGCCTGTGC CAGCTGATTT CTGCCAGCAC TTGCCCAAGC CGGTGACTGT GCGTGGCTGC 
TGGGCTGGGC CCTGTGTGGG ACAGGGTACG CCCAGCCTGG TGCCCCACGA AGAAGCCGCT 
GCTCCAGGAC GGACCACAGC CACCCCTGCT GGTGCCTCCC TGGAGTGGTC CCAGGCCCGG 
GGCCTGCTCT TCTCCCCGGC TCCCCAGCCT CGGCGGCTCC TGCCCGGGCC CCAGGAAAAC 
TCAGTGCAGT CCAGTGCCTG TGGCAGGCAG CACCTTGAGC CAACAGGAAC CATTGACATG 
CGAGGCCCAG GGCAGGCAGA CTGTGCAGTG GCCATTGGGC GGCCCCTCGG GGAGGTGGTG 
ACCCTCCGCG TCCTTGAGAG TTCTCTCAAC TGCAGTGCGG GGGACATGTT GCTGCTTTGG 
GGCCGGCTCA CCTGGAGGAA GATGTGCAGG AAGCTGTTGG ACATGACTTT CAGCTCCAAG 
ACCAACACGC TGGTGGTGAG GCAGCGCTGC GGGCGGCCAG GAGGTGGGGT GCTGCTGCGG 
TATGGGAGCC AGCTTGCTCC TGAAACCTTC TACAGAGAAT GTGACATGCA GCTCTTTGGG 
CCCTGGGGTG AAATCGTGAG CCCCTCGCTG AGTCCAGCCA CGAGTAATGC AGGGGGCTGC 
CGGCTCTTCA TTAATGTGGC TCCGCACGCA CGGATTGCCA TCCATGCCCT GGCCACCAAC 
ATGGGCGCTG GGACCGAGGG AGCCAATGCC AGCTACATCT TGATCCGGGA CACCCACAGC 
TTGAGGACCA CAGCGTTCCA TGGGCAGCAG GTGCTCTACT GGGAGTCAGA GAGCAGCCAG 
GCTGAGATGG AGTTCAGCGA GGGCTTCCTG AAGGCTCAGG CCAGCCTGCG GGGCCAGTAC 
TGGACCCTCC AATCATGGGT ACCGGAGATG CAGGACCCTC AGTCCTGGAA GGGAAAGGAA 
GGAACCTGA

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

RefSeq	XP_011516480.1
CDS	106..3054
Translation	MSQQCARTDGQPLRSSPGGASFYHWGAAVPHSQGDALCRHMCRAIGESFIMKRGDSFLDGTRCMPSGPREDGTLSLCVSGSCRTFGCDGRMDSQQVWDRCQVCGGDNSTCSPRKGSFTAGRAREYVTFLTVTPNLTSVYIANHRPLFTHLAVRIGGRYVVAGKMSISPNTTYPSLLEDGRVEYRVALTEDRLPRLEEIRIWGPLQEDADIQVYRRYGEEYGNLTRPDITFTYFQPKPRQAWVWAAVRGPCSVSCGAGLRWVNYSCLDQARKELVETVQCQGSQQPPAWPEACVLEPCPPYWAVGDFGPCSASCGGGLRERPVRCVEAQGSLLKTLPPARCRAGAQQPAVALETCNPQPCPARWEVSEPSSCTSAGGAGLALENETCVPGADGLEAPVTEGPGSVDEKLPAPEPCVGMSCPPGWGHLDATSAGEKAPSPWGSIRTGAQAAHVWTPAAGSCSVSCGRGLMELRFLCMDSALRVPVQEELCGLASKPGSRREVCQAVPCPARWQYKLAACSVSCGRGVVRRILYCARAHGEDDGEEILLDTQCQGLPRPEPQEACSLEPCPPRWKVMSLGPCSASCGLGTARRSVACVQLDQGQDVEVDEAACAALVRPEASVPCLIADCTYRWHVGTWMECSVSCGDGIQRRRDTCLGPQAQAPVPADFCQHLPKPVTVRGCWAGPCVGQGTPSLVPHEEAAAPGRTTATPAGASLEWSQARGLLFSPAPQPRRLLPGPQENSVQSSACGRQHLEPTGTIDMRGPGQADCAVAIGRPLGEVVTLRVLESSLNCSAGDMLLLWGRLTWRKMCRKLLDMTFSSKTNTLVVRQRCGRPGGGVLLRYGSQLAPETFYRECDMQLFGPWGEIVSPSLSPATSNAGGCRLFINVAPHARIAIHALATNMGAGTEGANASYILIRDTHSLRTTAFHGQQVLYWESESSQAEMEFSEGFLKAQASLRGQYWTLQSWVPEMQDPQSWKGKEGT

Target ORF information:

RefSeq Version	XM_011518178.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant X5, mRNA.

Target ORF information:

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

XM_011518178.1

ORF Insert Sequence:

ATGTCGCAAC AGTGCGCCAG GACCGACGGC CAGCCGCTGC GCTCCTCCCC TGGCGGCGCC 
TCCTTCTACC ACTGGGGTGC TGCTGTACCA CACAGCCAAG GGGATGCTCT GTGCAGACAC 
ATGTGCCGGG CCATTGGCGA GAGCTTCATC ATGAAGCGTG GAGACAGCTT CCTCGATGGG 
ACCCGGTGTA TGCCAAGTGG CCCCCGGGAG GACGGGACCC TGAGCCTGTG TGTGTCGGGC 
AGCTGCAGGA CATTTGGCTG TGATGGTAGG ATGGACTCCC AGCAGGTATG GGACAGGTGC 
CAGGTGTGTG GTGGGGACAA CAGCACGTGC AGCCCACGGA AGGGCTCTTT CACAGCTGGC 
AGAGCGAGAG AATATGTCAC GTTTCTGACA GTTACCCCCA ACCTGACCAG TGTCTACATT 
GCCAACCACA GGCCTCTCTT CACACACTTG GCGGTGAGGA TCGGAGGGCG CTATGTCGTG 
GCTGGGAAGA TGAGCATCTC CCCTAACACC ACCTACCCCT CCCTCCTGGA GGATGGTCGT 
GTCGAGTACA GAGTGGCCCT CACCGAGGAC CGGCTGCCCC GCCTGGAGGA GATCCGCATC 
TGGGGACCCC TCCAGGAAGA TGCTGACATC CAGGTTTACA GGCGGTATGG CGAGGAGTAT 
GGCAACCTCA CCCGCCCAGA CATCACCTTC ACCTACTTCC AGCCTAAGCC ACGGCAGGCC 
TGGGTGTGGG CCGCTGTGCG TGGGCCCTGC TCGGTGAGCT GTGGGGCAGG GCTGCGCTGG 
GTAAACTACA GCTGCCTGGA CCAGGCCAGG AAGGAGTTGG TGGAGACTGT CCAGTGCCAA 
GGGAGCCAGC AGCCACCAGC GTGGCCAGAG GCCTGCGTGC TCGAACCCTG CCCTCCCTAC 
TGGGCGGTGG GAGACTTCGG CCCATGCAGC GCCTCCTGTG GGGGTGGCCT GCGGGAGCGG 
CCAGTGCGCT GCGTGGAGGC CCAGGGCAGC CTCCTGAAGA CATTGCCCCC AGCCCGGTGC 
AGAGCAGGGG CCCAGCAGCC AGCTGTGGCG CTGGAAACCT GCAACCCCCA GCCCTGCCCT 
GCCAGGTGGG AGGTGTCAGA GCCCAGCTCA TGCACATCAG CTGGTGGAGC AGGCCTGGCC 
TTGGAGAACG AGACCTGTGT GCCAGGGGCA GATGGCCTGG AGGCTCCAGT GACTGAGGGG 
CCTGGCTCCG TAGATGAGAA GCTGCCTGCC CCTGAGCCCT GTGTCGGGAT GTCATGTCCT 
CCAGGCTGGG GCCATCTGGA TGCCACCTCT GCAGGGGAGA AGGCTCCCTC CCCATGGGGC 
AGCATCAGGA CGGGGGCTCA AGCTGCACAC GTGTGGACCC CTGCGGCAGG GTCGTGCTCC 
GTCTCCTGCG GGCGAGGTCT GATGGAGCTG CGTTTCCTGT GCATGGACTC TGCCCTCAGG 
GTGCCTGTCC AGGAAGAGCT GTGTGGCCTG GCAAGCAAGC CTGGGAGCCG GCGGGAGGTC 
TGCCAGGCTG TCCCGTGCCC TGCTCGGTGG CAGTACAAGC TGGCGGCCTG CAGCGTGAGC 
TGTGGGAGAG GGGTCGTGCG GAGGATCCTG TATTGTGCCC GGGCCCATGG GGAGGACGAT 
GGTGAGGAGA TCCTGTTGGA CACCCAGTGC CAGGGGCTGC CTCGCCCGGA ACCCCAGGAG 
GCCTGCAGCC TGGAGCCCTG CCCACCTAGG TGGAAAGTCA TGTCCCTTGG CCCATGTTCG 
GCCAGCTGTG GCCTTGGCAC TGCTAGACGC TCGGTGGCCT GTGTGCAGCT CGACCAAGGC 
CAGGACGTGG AGGTGGACGA GGCGGCCTGT GCGGCGCTGG TGCGGCCCGA GGCCAGTGTC 
CCCTGTCTCA TTGCCGACTG CACCTACCGC TGGCATGTTG GCACCTGGAT GGAGTGCTCT 
GTTTCCTGTG GGGATGGCAT CCAGCGCCGG CGTGACACCT GCCTCGGACC CCAGGCCCAG 
GCGCCTGTGC CAGCTGATTT CTGCCAGCAC TTGCCCAAGC CGGTGACTGT GCGTGGCTGC 
TGGGCTGGGC CCTGTGTGGG ACAGGGTACG CCCAGCCTGG TGCCCCACGA AGAAGCCGCT 
GCTCCAGGAC GGACCACAGC CACCCCTGCT GGTGCCTCCC TGGAGTGGTC CCAGGCCCGG 
GGCCTGCTCT TCTCCCCGGC TCCCCAGCCT CGGCGGCTCC TGCCCGGGCC CCAGGAAAAC 
TCAGTGCAGT CCAGTGCCTG TGGCAGGCAG CACCTTGAGC CAACAGGAAC CATTGACATG 
CGAGGCCCAG GGCAGGCAGA CTGTGCAGTG GCCATTGGGC GGCCCCTCGG GGAGGTGGTG 
ACCCTCCGCG TCCTTGAGAG TTCTCTCAAC TGCAGTGCGG GGGACATGTT GCTGCTTTGG 
GGCCGGCTCA CCTGGAGGAA GATGTGCAGG AAGCTGTTGG ACATGACTTT CAGCTCCAAG 
ACCAACACGC TGGTGGTGAG GCAGCGCTGC GGGCGGCCAG GAGGTGGGGT GCTGCTGCGG 
TATGGGAGCC AGCTTGCTCC TGAAACCTTC TACAGAGAAT GTGACATGCA GCTCTTTGGG 
CCCTGGGGTG AAATCGTGAG CCCCTCGCTG AGTCCAGCCA CGAGTAATGC AGGGGGCTGC 
CGGCTCTTCA TTAATGTGGC TCCGCACGCA CGGATTGCCA TCCATGCCCT GGCCACCAAC 
ATGGGCGCTG GGACCGAGGG AGCCAATGCC AGCTACATCT TGATCCGGGA CACCCACAGC 
TTGAGGACCA CAGCGTTCCA TGGGCAGCAG GTGCTCTACT GGGAGTCAGA GAGCAGCCAG 
GCTGAGATGG AGTTCAGCGA GGGCTTCCTG AAGGCTCAGG CCAGCCTGCG GGGCCAGTAC 
TGGACCCTCC AATCATGGGT ACCGGAGATG CAGGACCCTC AGTCCTGGAA GGGAAAGGAA 
GGAACCTGA

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

ADAMTS13 ( XM_011518178.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011516480.1 Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant X5, mRNA.

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CloneID	OHu64704
Clone ID Related Accession (Same CDS sequence)	XM_011518178.1 , XM_011518178.2
Accession Version	XM_011518178.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2949bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 13 isoform X5
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011518178.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCGCAAC AGTGCGCCAG GACCGACGGC CAGCCGCTGC GCTCCTCCCC TGGCGGCGCC 
TCCTTCTACC ACTGGGGTGC TGCTGTACCA CACAGCCAAG GGGATGCTCT GTGCAGACAC 
ATGTGCCGGG CCATTGGCGA GAGCTTCATC ATGAAGCGTG GAGACAGCTT CCTCGATGGG 
ACCCGGTGTA TGCCAAGTGG CCCCCGGGAG GACGGGACCC TGAGCCTGTG TGTGTCGGGC 
AGCTGCAGGA CATTTGGCTG TGATGGTAGG ATGGACTCCC AGCAGGTATG GGACAGGTGC 
CAGGTGTGTG GTGGGGACAA CAGCACGTGC AGCCCACGGA AGGGCTCTTT CACAGCTGGC 
AGAGCGAGAG AATATGTCAC GTTTCTGACA GTTACCCCCA ACCTGACCAG TGTCTACATT 
GCCAACCACA GGCCTCTCTT CACACACTTG GCGGTGAGGA TCGGAGGGCG CTATGTCGTG 
GCTGGGAAGA TGAGCATCTC CCCTAACACC ACCTACCCCT CCCTCCTGGA GGATGGTCGT 
GTCGAGTACA GAGTGGCCCT CACCGAGGAC CGGCTGCCCC GCCTGGAGGA GATCCGCATC 
TGGGGACCCC TCCAGGAAGA TGCTGACATC CAGGTTTACA GGCGGTATGG CGAGGAGTAT 
GGCAACCTCA CCCGCCCAGA CATCACCTTC ACCTACTTCC AGCCTAAGCC ACGGCAGGCC 
TGGGTGTGGG CCGCTGTGCG TGGGCCCTGC TCGGTGAGCT GTGGGGCAGG GCTGCGCTGG 
GTAAACTACA GCTGCCTGGA CCAGGCCAGG AAGGAGTTGG TGGAGACTGT CCAGTGCCAA 
GGGAGCCAGC AGCCACCAGC GTGGCCAGAG GCCTGCGTGC TCGAACCCTG CCCTCCCTAC 
TGGGCGGTGG GAGACTTCGG CCCATGCAGC GCCTCCTGTG GGGGTGGCCT GCGGGAGCGG 
CCAGTGCGCT GCGTGGAGGC CCAGGGCAGC CTCCTGAAGA CATTGCCCCC AGCCCGGTGC 
AGAGCAGGGG CCCAGCAGCC AGCTGTGGCG CTGGAAACCT GCAACCCCCA GCCCTGCCCT 
GCCAGGTGGG AGGTGTCAGA GCCCAGCTCA TGCACATCAG CTGGTGGAGC AGGCCTGGCC 
TTGGAGAACG AGACCTGTGT GCCAGGGGCA GATGGCCTGG AGGCTCCAGT GACTGAGGGG 
CCTGGCTCCG TAGATGAGAA GCTGCCTGCC CCTGAGCCCT GTGTCGGGAT GTCATGTCCT 
CCAGGCTGGG GCCATCTGGA TGCCACCTCT GCAGGGGAGA AGGCTCCCTC CCCATGGGGC 
AGCATCAGGA CGGGGGCTCA AGCTGCACAC GTGTGGACCC CTGCGGCAGG GTCGTGCTCC 
GTCTCCTGCG GGCGAGGTCT GATGGAGCTG CGTTTCCTGT GCATGGACTC TGCCCTCAGG 
GTGCCTGTCC AGGAAGAGCT GTGTGGCCTG GCAAGCAAGC CTGGGAGCCG GCGGGAGGTC 
TGCCAGGCTG TCCCGTGCCC TGCTCGGTGG CAGTACAAGC TGGCGGCCTG CAGCGTGAGC 
TGTGGGAGAG GGGTCGTGCG GAGGATCCTG TATTGTGCCC GGGCCCATGG GGAGGACGAT 
GGTGAGGAGA TCCTGTTGGA CACCCAGTGC CAGGGGCTGC CTCGCCCGGA ACCCCAGGAG 
GCCTGCAGCC TGGAGCCCTG CCCACCTAGG TGGAAAGTCA TGTCCCTTGG CCCATGTTCG 
GCCAGCTGTG GCCTTGGCAC TGCTAGACGC TCGGTGGCCT GTGTGCAGCT CGACCAAGGC 
CAGGACGTGG AGGTGGACGA GGCGGCCTGT GCGGCGCTGG TGCGGCCCGA GGCCAGTGTC 
CCCTGTCTCA TTGCCGACTG CACCTACCGC TGGCATGTTG GCACCTGGAT GGAGTGCTCT 
GTTTCCTGTG GGGATGGCAT CCAGCGCCGG CGTGACACCT GCCTCGGACC CCAGGCCCAG 
GCGCCTGTGC CAGCTGATTT CTGCCAGCAC TTGCCCAAGC CGGTGACTGT GCGTGGCTGC 
TGGGCTGGGC CCTGTGTGGG ACAGGGTACG CCCAGCCTGG TGCCCCACGA AGAAGCCGCT 
GCTCCAGGAC GGACCACAGC CACCCCTGCT GGTGCCTCCC TGGAGTGGTC CCAGGCCCGG 
GGCCTGCTCT TCTCCCCGGC TCCCCAGCCT CGGCGGCTCC TGCCCGGGCC CCAGGAAAAC 
TCAGTGCAGT CCAGTGCCTG TGGCAGGCAG CACCTTGAGC CAACAGGAAC CATTGACATG 
CGAGGCCCAG GGCAGGCAGA CTGTGCAGTG GCCATTGGGC GGCCCCTCGG GGAGGTGGTG 
ACCCTCCGCG TCCTTGAGAG TTCTCTCAAC TGCAGTGCGG GGGACATGTT GCTGCTTTGG 
GGCCGGCTCA CCTGGAGGAA GATGTGCAGG AAGCTGTTGG ACATGACTTT CAGCTCCAAG 
ACCAACACGC TGGTGGTGAG GCAGCGCTGC GGGCGGCCAG GAGGTGGGGT GCTGCTGCGG 
TATGGGAGCC AGCTTGCTCC TGAAACCTTC TACAGAGAAT GTGACATGCA GCTCTTTGGG 
CCCTGGGGTG AAATCGTGAG CCCCTCGCTG AGTCCAGCCA CGAGTAATGC AGGGGGCTGC 
CGGCTCTTCA TTAATGTGGC TCCGCACGCA CGGATTGCCA TCCATGCCCT GGCCACCAAC 
ATGGGCGCTG GGACCGAGGG AGCCAATGCC AGCTACATCT TGATCCGGGA CACCCACAGC 
TTGAGGACCA CAGCGTTCCA TGGGCAGCAG GTGCTCTACT GGGAGTCAGA GAGCAGCCAG 
GCTGAGATGG AGTTCAGCGA GGGCTTCCTG AAGGCTCAGG CCAGCCTGCG GGGCCAGTAC 
TGGACCCTCC AATCATGGGT ACCGGAGATG CAGGACCCTC AGTCCTGGAA GGGAAAGGAA 
GGAACCTGA

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

RefSeq	XP_011516480.1
CDS	106..3054
Translation	MSQQCARTDGQPLRSSPGGASFYHWGAAVPHSQGDALCRHMCRAIGESFIMKRGDSFLDGTRCMPSGPREDGTLSLCVSGSCRTFGCDGRMDSQQVWDRCQVCGGDNSTCSPRKGSFTAGRAREYVTFLTVTPNLTSVYIANHRPLFTHLAVRIGGRYVVAGKMSISPNTTYPSLLEDGRVEYRVALTEDRLPRLEEIRIWGPLQEDADIQVYRRYGEEYGNLTRPDITFTYFQPKPRQAWVWAAVRGPCSVSCGAGLRWVNYSCLDQARKELVETVQCQGSQQPPAWPEACVLEPCPPYWAVGDFGPCSASCGGGLRERPVRCVEAQGSLLKTLPPARCRAGAQQPAVALETCNPQPCPARWEVSEPSSCTSAGGAGLALENETCVPGADGLEAPVTEGPGSVDEKLPAPEPCVGMSCPPGWGHLDATSAGEKAPSPWGSIRTGAQAAHVWTPAAGSCSVSCGRGLMELRFLCMDSALRVPVQEELCGLASKPGSRREVCQAVPCPARWQYKLAACSVSCGRGVVRRILYCARAHGEDDGEEILLDTQCQGLPRPEPQEACSLEPCPPRWKVMSLGPCSASCGLGTARRSVACVQLDQGQDVEVDEAACAALVRPEASVPCLIADCTYRWHVGTWMECSVSCGDGIQRRRDTCLGPQAQAPVPADFCQHLPKPVTVRGCWAGPCVGQGTPSLVPHEEAAAPGRTTATPAGASLEWSQARGLLFSPAPQPRRLLPGPQENSVQSSACGRQHLEPTGTIDMRGPGQADCAVAIGRPLGEVVTLRVLESSLNCSAGDMLLLWGRLTWRKMCRKLLDMTFSSKTNTLVVRQRCGRPGGGVLLRYGSQLAPETFYRECDMQLFGPWGEIVSPSLSPATSNAGGCRLFINVAPHARIAIHALATNMGAGTEGANASYILIRDTHSLRTTAFHGQQVLYWESESSQAEMEFSEGFLKAQASLRGQYWTLQSWVPEMQDPQSWKGKEGT

Target ORF information:

RefSeq Version	XM_011518178.2
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant X5, mRNA.

Target ORF information:

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

XM_011518178.2

ORF Insert Sequence:

ATGTCGCAAC AGTGCGCCAG GACCGACGGC CAGCCGCTGC GCTCCTCCCC TGGCGGCGCC 
TCCTTCTACC ACTGGGGTGC TGCTGTACCA CACAGCCAAG GGGATGCTCT GTGCAGACAC 
ATGTGCCGGG CCATTGGCGA GAGCTTCATC ATGAAGCGTG GAGACAGCTT CCTCGATGGG 
ACCCGGTGTA TGCCAAGTGG CCCCCGGGAG GACGGGACCC TGAGCCTGTG TGTGTCGGGC 
AGCTGCAGGA CATTTGGCTG TGATGGTAGG ATGGACTCCC AGCAGGTATG GGACAGGTGC 
CAGGTGTGTG GTGGGGACAA CAGCACGTGC AGCCCACGGA AGGGCTCTTT CACAGCTGGC 
AGAGCGAGAG AATATGTCAC GTTTCTGACA GTTACCCCCA ACCTGACCAG TGTCTACATT 
GCCAACCACA GGCCTCTCTT CACACACTTG GCGGTGAGGA TCGGAGGGCG CTATGTCGTG 
GCTGGGAAGA TGAGCATCTC CCCTAACACC ACCTACCCCT CCCTCCTGGA GGATGGTCGT 
GTCGAGTACA GAGTGGCCCT CACCGAGGAC CGGCTGCCCC GCCTGGAGGA GATCCGCATC 
TGGGGACCCC TCCAGGAAGA TGCTGACATC CAGGTTTACA GGCGGTATGG CGAGGAGTAT 
GGCAACCTCA CCCGCCCAGA CATCACCTTC ACCTACTTCC AGCCTAAGCC ACGGCAGGCC 
TGGGTGTGGG CCGCTGTGCG TGGGCCCTGC TCGGTGAGCT GTGGGGCAGG GCTGCGCTGG 
GTAAACTACA GCTGCCTGGA CCAGGCCAGG AAGGAGTTGG TGGAGACTGT CCAGTGCCAA 
GGGAGCCAGC AGCCACCAGC GTGGCCAGAG GCCTGCGTGC TCGAACCCTG CCCTCCCTAC 
TGGGCGGTGG GAGACTTCGG CCCATGCAGC GCCTCCTGTG GGGGTGGCCT GCGGGAGCGG 
CCAGTGCGCT GCGTGGAGGC CCAGGGCAGC CTCCTGAAGA CATTGCCCCC AGCCCGGTGC 
AGAGCAGGGG CCCAGCAGCC AGCTGTGGCG CTGGAAACCT GCAACCCCCA GCCCTGCCCT 
GCCAGGTGGG AGGTGTCAGA GCCCAGCTCA TGCACATCAG CTGGTGGAGC AGGCCTGGCC 
TTGGAGAACG AGACCTGTGT GCCAGGGGCA GATGGCCTGG AGGCTCCAGT GACTGAGGGG 
CCTGGCTCCG TAGATGAGAA GCTGCCTGCC CCTGAGCCCT GTGTCGGGAT GTCATGTCCT 
CCAGGCTGGG GCCATCTGGA TGCCACCTCT GCAGGGGAGA AGGCTCCCTC CCCATGGGGC 
AGCATCAGGA CGGGGGCTCA AGCTGCACAC GTGTGGACCC CTGCGGCAGG GTCGTGCTCC 
GTCTCCTGCG GGCGAGGTCT GATGGAGCTG CGTTTCCTGT GCATGGACTC TGCCCTCAGG 
GTGCCTGTCC AGGAAGAGCT GTGTGGCCTG GCAAGCAAGC CTGGGAGCCG GCGGGAGGTC 
TGCCAGGCTG TCCCGTGCCC TGCTCGGTGG CAGTACAAGC TGGCGGCCTG CAGCGTGAGC 
TGTGGGAGAG GGGTCGTGCG GAGGATCCTG TATTGTGCCC GGGCCCATGG GGAGGACGAT 
GGTGAGGAGA TCCTGTTGGA CACCCAGTGC CAGGGGCTGC CTCGCCCGGA ACCCCAGGAG 
GCCTGCAGCC TGGAGCCCTG CCCACCTAGG TGGAAAGTCA TGTCCCTTGG CCCATGTTCG 
GCCAGCTGTG GCCTTGGCAC TGCTAGACGC TCGGTGGCCT GTGTGCAGCT CGACCAAGGC 
CAGGACGTGG AGGTGGACGA GGCGGCCTGT GCGGCGCTGG TGCGGCCCGA GGCCAGTGTC 
CCCTGTCTCA TTGCCGACTG CACCTACCGC TGGCATGTTG GCACCTGGAT GGAGTGCTCT 
GTTTCCTGTG GGGATGGCAT CCAGCGCCGG CGTGACACCT GCCTCGGACC CCAGGCCCAG 
GCGCCTGTGC CAGCTGATTT CTGCCAGCAC TTGCCCAAGC CGGTGACTGT GCGTGGCTGC 
TGGGCTGGGC CCTGTGTGGG ACAGGGTACG CCCAGCCTGG TGCCCCACGA AGAAGCCGCT 
GCTCCAGGAC GGACCACAGC CACCCCTGCT GGTGCCTCCC TGGAGTGGTC CCAGGCCCGG 
GGCCTGCTCT TCTCCCCGGC TCCCCAGCCT CGGCGGCTCC TGCCCGGGCC CCAGGAAAAC 
TCAGTGCAGT CCAGTGCCTG TGGCAGGCAG CACCTTGAGC CAACAGGAAC CATTGACATG 
CGAGGCCCAG GGCAGGCAGA CTGTGCAGTG GCCATTGGGC GGCCCCTCGG GGAGGTGGTG 
ACCCTCCGCG TCCTTGAGAG TTCTCTCAAC TGCAGTGCGG GGGACATGTT GCTGCTTTGG 
GGCCGGCTCA CCTGGAGGAA GATGTGCAGG AAGCTGTTGG ACATGACTTT CAGCTCCAAG 
ACCAACACGC TGGTGGTGAG GCAGCGCTGC GGGCGGCCAG GAGGTGGGGT GCTGCTGCGG 
TATGGGAGCC AGCTTGCTCC TGAAACCTTC TACAGAGAAT GTGACATGCA GCTCTTTGGG 
CCCTGGGGTG AAATCGTGAG CCCCTCGCTG AGTCCAGCCA CGAGTAATGC AGGGGGCTGC 
CGGCTCTTCA TTAATGTGGC TCCGCACGCA CGGATTGCCA TCCATGCCCT GGCCACCAAC 
ATGGGCGCTG GGACCGAGGG AGCCAATGCC AGCTACATCT TGATCCGGGA CACCCACAGC 
TTGAGGACCA CAGCGTTCCA TGGGCAGCAG GTGCTCTACT GGGAGTCAGA GAGCAGCCAG 
GCTGAGATGG AGTTCAGCGA GGGCTTCCTG AAGGCTCAGG CCAGCCTGCG GGGCCAGTAC 
TGGACCCTCC AATCATGGGT ACCGGAGATG CAGGACCCTC AGTCCTGGAA GGGAAAGGAA 
GGAACCTGA

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

ADAMTS13 ( XM_011518179.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011516481.1 Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant X6, mRNA.

Price & Availability↑

CloneID	OHu64705
Clone ID Related Accession (Same CDS sequence)	XM_011518179.1
Accession Version	XM_011518179.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2949bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 13 isoform X6
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGCGCTG GTCTAGCTGG GGTCCCCGAA GTCCTTGCTC CCGCTCCTGC GGAGGAGGTG 
TGGTCACCAG GAGGCGGCAG TGCAACAACC CCAGGCCTGC GAGAAGACCC AGCTGGAGTT 
CATGTCGCAA CAGTGCGCCA GGACCGACGG CCAGCCGCTG CGCTCCTCCC CTGGCGGCGC 
CTCCTTCTAC CACTGGGGTG CTGCTGTACC ACACAGCCAA GGGGATGCTC TGTGCAGACA 
CATGTGCCGG GCCATTGGCG AGAGCTTCAT CATGAAGCGT GGAGACAGCT TCCTCGATGG 
GACCCGGTGT ATGCCAAGTG GCCCCCGGGA GGACGGGACC CTGAGCCTGT GTGTGTCGGG 
CAGCTGCAGG AATATGTCAC GTTTCTGACA GTTACCCCCA ACCTGACCAG TGTCTACATT 
GCCAACCACA GGCCTCTCTT CACACACTTG GCGGTGAGGA TCGGAGGGCG CTATGTCGTG 
GCTGGGAAGA TGAGCATCTC CCCTAACACC ACCTACCCCT CCCTCCTGGA GGATGGTCGT 
GTCGAGTACA GAGTGGCCCT CACCGAGGAC CGGCTGCCCC GCCTGGAGGA GATCCGCATC 
TGGGGACCCC TCCAGGAAGA TGCTGACATC CAGGTTTACA GGCGGTATGG CGAGGAGTAT 
GGCAACCTCA CCCGCCCAGA CATCACCTTC ACCTACTTCC AGCCTAAGCC ACGGCAGGCC 
TGGGTGTGGG CCGCTGTGCG TGGGCCCTGC TCGGTGAGCT GTGGGGCAGG GCTGCGCTGG 
GTAAACTACA GCTGCCTGGA CCAGGCCAGG AAGGAGTTGG TGGAGACTGT CCAGTGCCAA 
GGGAGCCAGC AGCCACCAGC GTGGCCAGAG GCCTGCGTGC TCGAACCCTG CCCTCCCTAC 
TGGGCGGTGG GAGACTTCGG CCCATGCAGC GCCTCCTGTG GGGGTGGCCT GCGGGAGCGG 
CCAGTGCGCT GCGTGGAGGC CCAGGGCAGC CTCCTGAAGA CATTGCCCCC AGCCCGGTGC 
AGAGCAGGGG CCCAGCAGCC AGCTGTGGCG CTGGAAACCT GCAACCCCCA GCCCTGCCCT 
GCCAGGTGGG AGGTGTCAGA GCCCAGCTCA TGCACATCAG CTGGTGGAGC AGGCCTGGCC 
TTGGAGAACG AGACCTGTGT GCCAGGGGCA GATGGCCTGG AGGCTCCAGT GACTGAGGGG 
CCTGGCTCCG TAGATGAGAA GCTGCCTGCC CCTGAGCCCT GTGTCGGGAT GTCATGTCCT 
CCAGGCTGGG GCCATCTGGA TGCCACCTCT GCAGGGGAGA AGGCTCCCTC CCCATGGGGC 
AGCATCAGGA CGGGGGCTCA AGCTGCACAC GTGTGGACCC CTGCGGCAGG GTCGTGCTCC 
GTCTCCTGCG GGCGAGGTCT GATGGAGCTG CGTTTCCTGT GCATGGACTC TGCCCTCAGG 
GTGCCTGTCC AGGAAGAGCT GTGTGGCCTG GCAAGCAAGC CTGGGAGCCG GCGGGAGGTC 
TGCCAGGCTG TCCCGTGCCC TGCTCGGTGG CAGTACAAGC TGGCGGCCTG CAGCGTGAGC 
TGTGGGAGAG GGGTCGTGCG GAGGATCCTG TATTGTGCCC GGGCCCATGG GGAGGACGAT 
GGTGAGGAGA TCCTGTTGGA CACCCAGTGC CAGGGGCTGC CTCGCCCGGA ACCCCAGGAG 
GCCTGCAGCC TGGAGCCCTG CCCACCTAGG TGGAAAGTCA TGTCCCTTGG CCCATGTTCG 
GCCAGCTGTG GCCTTGGCAC TGCTAGACGC TCGGTGGCCT GTGTGCAGCT CGACCAAGGC 
CAGGACGTGG AGGTGGACGA GGCGGCCTGT GCGGCGCTGG TGCGGCCCGA GGCCAGTGTC 
CCCTGTCTCA TTGCCGACTG CACCTACCGC TGGCATGTTG GCACCTGGAT GGAGTGCTCT 
GTTTCCTGTG GGGATGGCAT CCAGCGCCGG CGTGACACCT GCCTCGGACC CCAGGCCCAG 
GCGCCTGTGC CAGCTGATTT CTGCCAGCAC TTGCCCAAGC CGGTGACTGT GCGTGGCTGC 
TGGGCTGGGC CCTGTGTGGG ACAGGGTACG CCCAGCCTGG TGCCCCACGA AGAAGCCGCT 
GCTCCAGGAC GGACCACAGC CACCCCTGCT GGTGCCTCCC TGGAGTGGTC CCAGGCCCGG 
GGCCTGCTCT TCTCCCCGGC TCCCCAGCCT CGGCGGCTCC TGCCCGGGCC CCAGGAAAAC 
TCAGTGCAGT CCAGTGCCTG TGGCAGGCAG CACCTTGAGC CAACAGGAAC CATTGACATG 
CGAGGCCCAG GGCAGGCAGA CTGTGCAGTG GCCATTGGGC GGCCCCTCGG GGAGGTGGTG 
ACCCTCCGCG TCCTTGAGAG TTCTCTCAAC TGCAGTGCGG GGGACATGTT GCTGCTTTGG 
GGCCGGCTCA CCTGGAGGAA GATGTGCAGG AAGCTGTTGG ACATGACTTT CAGCTCCAAG 
ACCAACACGC TGGTGGTGAG GCAGCGCTGC GGGCGGCCAG GAGGTGGGGT GCTGCTGCGG 
TATGGGAGCC AGCTTGCTCC TGAAACCTTC TACAGAGAAT GTGACATGCA GCTCTTTGGG 
CCCTGGGGTG AAATCGTGAG CCCCTCGCTG AGTCCAGCCA CGAGTAATGC AGGGGGCTGC 
CGGCTCTTCA TTAATGTGGC TCCGCACGCA CGGATTGCCA TCCATGCCCT GGCCACCAAC 
ATGGGCGCTG GGACCGAGGG AGCCAATGCC AGCTACATCT TGATCCGGGA CACCCACAGC 
TTGAGGACCA CAGCGTTCCA TGGGCAGCAG GTGCTCTACT GGGAGTCAGA GAGCAGCCAG 
GCTGAGATGG AGTTCAGCGA GGGCTTCCTG AAGGCTCAGG CCAGCCTGCG GGGCCAGTAC 
TGGACCCTCC AATCATGGGT ACCGGAGATG CAGGACCCTC AGTCCTGGAA GGGAAAGGAA 
GGAACCTGA

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

RefSeq	XP_011516481.1
CDS	149..3097
Translation	MGAGLAGVPEVLAPAPAEEVWSPGGGSATTPGLREDPAGVHVATVRQDRRPAAALLPWRRLLLPLGCCCTTQPRGCSVQTHVPGHWRELHHEAWRQLPRWDPVYAKWPPGGRDPEPVCVGQLQEYVTFLTVTPNLTSVYIANHRPLFTHLAVRIGGRYVVAGKMSISPNTTYPSLLEDGRVEYRVALTEDRLPRLEEIRIWGPLQEDADIQVYRRYGEEYGNLTRPDITFTYFQPKPRQAWVWAAVRGPCSVSCGAGLRWVNYSCLDQARKELVETVQCQGSQQPPAWPEACVLEPCPPYWAVGDFGPCSASCGGGLRERPVRCVEAQGSLLKTLPPARCRAGAQQPAVALETCNPQPCPARWEVSEPSSCTSAGGAGLALENETCVPGADGLEAPVTEGPGSVDEKLPAPEPCVGMSCPPGWGHLDATSAGEKAPSPWGSIRTGAQAAHVWTPAAGSCSVSCGRGLMELRFLCMDSALRVPVQEELCGLASKPGSRREVCQAVPCPARWQYKLAACSVSCGRGVVRRILYCARAHGEDDGEEILLDTQCQGLPRPEPQEACSLEPCPPRWKVMSLGPCSASCGLGTARRSVACVQLDQGQDVEVDEAACAALVRPEASVPCLIADCTYRWHVGTWMECSVSCGDGIQRRRDTCLGPQAQAPVPADFCQHLPKPVTVRGCWAGPCVGQGTPSLVPHEEAAAPGRTTATPAGASLEWSQARGLLFSPAPQPRRLLPGPQENSVQSSACGRQHLEPTGTIDMRGPGQADCAVAIGRPLGEVVTLRVLESSLNCSAGDMLLLWGRLTWRKMCRKLLDMTFSSKTNTLVVRQRCGRPGGGVLLRYGSQLAPETFYRECDMQLFGPWGEIVSPSLSPATSNAGGCRLFINVAPHARIAIHALATNMGAGTEGANASYILIRDTHSLRTTAFHGQQVLYWESESSQAEMEFSEGFLKAQASLRGQYWTLQSWVPEMQDPQSWKGKEGT

Target ORF information:

RefSeq Version	XM_011518179.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant X6, mRNA.

Target ORF information:

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

XM_011518179.1

ORF Insert Sequence:

ATGGGCGCTG GTCTAGCTGG GGTCCCCGAA GTCCTTGCTC CCGCTCCTGC GGAGGAGGTG 
TGGTCACCAG GAGGCGGCAG TGCAACAACC CCAGGCCTGC GAGAAGACCC AGCTGGAGTT 
CATGTCGCAA CAGTGCGCCA GGACCGACGG CCAGCCGCTG CGCTCCTCCC CTGGCGGCGC 
CTCCTTCTAC CACTGGGGTG CTGCTGTACC ACACAGCCAA GGGGATGCTC TGTGCAGACA 
CATGTGCCGG GCCATTGGCG AGAGCTTCAT CATGAAGCGT GGAGACAGCT TCCTCGATGG 
GACCCGGTGT ATGCCAAGTG GCCCCCGGGA GGACGGGACC CTGAGCCTGT GTGTGTCGGG 
CAGCTGCAGG AATATGTCAC GTTTCTGACA GTTACCCCCA ACCTGACCAG TGTCTACATT 
GCCAACCACA GGCCTCTCTT CACACACTTG GCGGTGAGGA TCGGAGGGCG CTATGTCGTG 
GCTGGGAAGA TGAGCATCTC CCCTAACACC ACCTACCCCT CCCTCCTGGA GGATGGTCGT 
GTCGAGTACA GAGTGGCCCT CACCGAGGAC CGGCTGCCCC GCCTGGAGGA GATCCGCATC 
TGGGGACCCC TCCAGGAAGA TGCTGACATC CAGGTTTACA GGCGGTATGG CGAGGAGTAT 
GGCAACCTCA CCCGCCCAGA CATCACCTTC ACCTACTTCC AGCCTAAGCC ACGGCAGGCC 
TGGGTGTGGG CCGCTGTGCG TGGGCCCTGC TCGGTGAGCT GTGGGGCAGG GCTGCGCTGG 
GTAAACTACA GCTGCCTGGA CCAGGCCAGG AAGGAGTTGG TGGAGACTGT CCAGTGCCAA 
GGGAGCCAGC AGCCACCAGC GTGGCCAGAG GCCTGCGTGC TCGAACCCTG CCCTCCCTAC 
TGGGCGGTGG GAGACTTCGG CCCATGCAGC GCCTCCTGTG GGGGTGGCCT GCGGGAGCGG 
CCAGTGCGCT GCGTGGAGGC CCAGGGCAGC CTCCTGAAGA CATTGCCCCC AGCCCGGTGC 
AGAGCAGGGG CCCAGCAGCC AGCTGTGGCG CTGGAAACCT GCAACCCCCA GCCCTGCCCT 
GCCAGGTGGG AGGTGTCAGA GCCCAGCTCA TGCACATCAG CTGGTGGAGC AGGCCTGGCC 
TTGGAGAACG AGACCTGTGT GCCAGGGGCA GATGGCCTGG AGGCTCCAGT GACTGAGGGG 
CCTGGCTCCG TAGATGAGAA GCTGCCTGCC CCTGAGCCCT GTGTCGGGAT GTCATGTCCT 
CCAGGCTGGG GCCATCTGGA TGCCACCTCT GCAGGGGAGA AGGCTCCCTC CCCATGGGGC 
AGCATCAGGA CGGGGGCTCA AGCTGCACAC GTGTGGACCC CTGCGGCAGG GTCGTGCTCC 
GTCTCCTGCG GGCGAGGTCT GATGGAGCTG CGTTTCCTGT GCATGGACTC TGCCCTCAGG 
GTGCCTGTCC AGGAAGAGCT GTGTGGCCTG GCAAGCAAGC CTGGGAGCCG GCGGGAGGTC 
TGCCAGGCTG TCCCGTGCCC TGCTCGGTGG CAGTACAAGC TGGCGGCCTG CAGCGTGAGC 
TGTGGGAGAG GGGTCGTGCG GAGGATCCTG TATTGTGCCC GGGCCCATGG GGAGGACGAT 
GGTGAGGAGA TCCTGTTGGA CACCCAGTGC CAGGGGCTGC CTCGCCCGGA ACCCCAGGAG 
GCCTGCAGCC TGGAGCCCTG CCCACCTAGG TGGAAAGTCA TGTCCCTTGG CCCATGTTCG 
GCCAGCTGTG GCCTTGGCAC TGCTAGACGC TCGGTGGCCT GTGTGCAGCT CGACCAAGGC 
CAGGACGTGG AGGTGGACGA GGCGGCCTGT GCGGCGCTGG TGCGGCCCGA GGCCAGTGTC 
CCCTGTCTCA TTGCCGACTG CACCTACCGC TGGCATGTTG GCACCTGGAT GGAGTGCTCT 
GTTTCCTGTG GGGATGGCAT CCAGCGCCGG CGTGACACCT GCCTCGGACC CCAGGCCCAG 
GCGCCTGTGC CAGCTGATTT CTGCCAGCAC TTGCCCAAGC CGGTGACTGT GCGTGGCTGC 
TGGGCTGGGC CCTGTGTGGG ACAGGGTACG CCCAGCCTGG TGCCCCACGA AGAAGCCGCT 
GCTCCAGGAC GGACCACAGC CACCCCTGCT GGTGCCTCCC TGGAGTGGTC CCAGGCCCGG 
GGCCTGCTCT TCTCCCCGGC TCCCCAGCCT CGGCGGCTCC TGCCCGGGCC CCAGGAAAAC 
TCAGTGCAGT CCAGTGCCTG TGGCAGGCAG CACCTTGAGC CAACAGGAAC CATTGACATG 
CGAGGCCCAG GGCAGGCAGA CTGTGCAGTG GCCATTGGGC GGCCCCTCGG GGAGGTGGTG 
ACCCTCCGCG TCCTTGAGAG TTCTCTCAAC TGCAGTGCGG GGGACATGTT GCTGCTTTGG 
GGCCGGCTCA CCTGGAGGAA GATGTGCAGG AAGCTGTTGG ACATGACTTT CAGCTCCAAG 
ACCAACACGC TGGTGGTGAG GCAGCGCTGC GGGCGGCCAG GAGGTGGGGT GCTGCTGCGG 
TATGGGAGCC AGCTTGCTCC TGAAACCTTC TACAGAGAAT GTGACATGCA GCTCTTTGGG 
CCCTGGGGTG AAATCGTGAG CCCCTCGCTG AGTCCAGCCA CGAGTAATGC AGGGGGCTGC 
CGGCTCTTCA TTAATGTGGC TCCGCACGCA CGGATTGCCA TCCATGCCCT GGCCACCAAC 
ATGGGCGCTG GGACCGAGGG AGCCAATGCC AGCTACATCT TGATCCGGGA CACCCACAGC 
TTGAGGACCA CAGCGTTCCA TGGGCAGCAG GTGCTCTACT GGGAGTCAGA GAGCAGCCAG 
GCTGAGATGG AGTTCAGCGA GGGCTTCCTG AAGGCTCAGG CCAGCCTGCG GGGCCAGTAC 
TGGACCCTCC AATCATGGGT ACCGGAGATG CAGGACCCTC AGTCCTGGAA GGGAAAGGAA 
GGAACCTGA

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

ADAMTS13 ( XM_011518176.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011516478.1 Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OHu64702
Clone ID Related Accession (Same CDS sequence)	XM_011518176.3 , XM_011518176.2
Accession Version	XM_011518176.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3300bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 13 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011518176.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGATATGT GCCAGGCCCT CTCCTGCCAC ACAGACCCGC TGGACCAAAG CAGCTGCAGC 
CGCCTCCTCG TTCCTCTCCT GGATGGGACA GAATGTGGCG TGGAGAAGTG GTGCTCCAAG 
GGTCGCTGCC GCTCCCTGGT GGAGCTGACC CCCATAGCAG CAGTGCATGG GCGCTGGTCT 
AGCTGGGGTC CCCGAAGTCC TTGCTCCCGC TCCTGCGGAG GAGGTGTGGT CACCAGGAGG 
CGGCAGTGCA ACAACCCCAG ACCTGCCTTT GGGGGGCGTG CATGTGTTGG TGCTGACCTC 
CAGGCCGAGA TGTGCAACAC TCAGGCCTGC GAGAAGACCC AGCTGGAGTT CATGTCGCAA 
CAGTGCGCCA GGACCGACGG CCAGCCGCTG CGCTCCTCCC CTGGCGGCGC CTCCTTCTAC 
CACTGGGGTG CTGCTGTACC ACACAGCCAA GGGGATGCTC TGTGCAGACA CATGTGCCGG 
GCCATTGGCG AGAGCTTCAT CATGAAGCGT GGAGACAGCT TCCTCGATGG GACCCGGTGT 
ATGCCAAGTG GCCCCCGGGA GGACGGGACC CTGAGCCTGT GTGTGTCGGG CAGCTGCAGG 
ACATTTGGCT GTGATGGTAG GATGGACTCC CAGCAGGTAT GGGACAGGTG CCAGGTGTGT 
GGTGGGGACA ACAGCACGTG CAGCCCACGG AAGGGCTCTT TCACAGCTGG CAGAGCGAGA 
GAATATGTCA CGTTTCTGAC AGTTACCCCC AACCTGACCA GTGTCTACAT TGCCAACCAC 
AGGCCTCTCT TCACACACTT GGCGGTGAGG ATCGGAGGGC GCTATGTCGT GGCTGGGAAG 
ATGAGCATCT CCCCTAACAC CACCTACCCC TCCCTCCTGG AGGATGGTCG TGTCGAGTAC 
AGAGTGGCCC TCACCGAGGA CCGGCTGCCC CGCCTGGAGG AGATCCGCAT CTGGGGACCC 
CTCCAGGAAG ATGCTGACAT CCAGGTTTAC AGGCGGTATG GCGAGGAGTA TGGCAACCTC 
ACCCGCCCAG ACATCACCTT CACCTACTTC CAGCCTAAGC CACGGCAGGC CTGGGTGTGG 
GCCGCTGTGC GTGGGCCCTG CTCGGTGAGC TGTGGGGCAG GGCTGCGCTG GGTAAACTAC 
AGCTGCCTGG ACCAGGCCAG GAAGGAGTTG GTGGAGACTG TCCAGTGCCA AGGGAGCCAG 
CAGCCACCAG CGTGGCCAGA GGCCTGCGTG CTCGAACCCT GCCCTCCCTA CTGGGCGGTG 
GGAGACTTCG GCCCATGCAG CGCCTCCTGT GGGGGTGGCC TGCGGGAGCG GCCAGTGCGC 
TGCGTGGAGG CCCAGGGCAG CCTCCTGAAG ACATTGCCCC CAGCCCGGTG CAGAGCAGGG 
GCCCAGCAGC CAGCTGTGGC GCTGGAAACC TGCAACCCCC AGCCCTGCCC TGCCAGGTGG 
GAGGTGTCAG AGCCCAGCTC ATGCACATCA GCTGGTGGAG CAGGCCTGGC CTTGGAGAAC 
GAGACCTGTG TGCCAGGGGC AGATGGCCTG GAGGCTCCAG TGACTGAGGG GCCTGGCTCC 
GTAGATGAGA AGCTGCCTGC CCCTGAGCCC TGTGTCGGGA TGTCATGTCC TCCAGGCTGG 
GGCCATCTGG ATGCCACCTC TGCAGGGGAG AAGGCTCCCT CCCCATGGGG CAGCATCAGG 
ACGGGGGCTC AAGCTGCACA CGTGTGGACC CCTGCGGCAG GGTCGTGCTC CGTCTCCTGC 
GGGCGAGGTC TGATGGAGCT GCGTTTCCTG TGCATGGACT CTGCCCTCAG GGTGCCTGTC 
CAGGAAGAGC TGTGTGGCCT GGCAAGCAAG CCTGGGAGCC GGCGGGAGGT CTGCCAGGCT 
GTCCCGTGCC CTGCTCGGTG GCAGTACAAG CTGGCGGCCT GCAGCGTGAG CTGTGGGAGA 
GGGGTCGTGC GGAGGATCCT GTATTGTGCC CGGGCCCATG GGGAGGACGA TGGTGAGGAG 
ATCCTGTTGG ACACCCAGTG CCAGGGGCTG CCTCGCCCGG AACCCCAGGA GGCCTGCAGC 
CTGGAGCCCT GCCCACCTAG GTGGAAAGTC ATGTCCCTTG GCCCATGTTC GGCCAGCTGT 
GGCCTTGGCA CTGCTAGACG CTCGGTGGCC TGTGTGCAGC TCGACCAAGG CCAGGACGTG 
GAGGTGGACG AGGCGGCCTG TGCGGCGCTG GTGCGGCCCG AGGCCAGTGT CCCCTGTCTC 
ATTGCCGACT GCACCTACCG CTGGCATGTT GGCACCTGGA TGGAGTGCTC TGTTTCCTGT 
GGGGATGGCA TCCAGCGCCG GCGTGACACC TGCCTCGGAC CCCAGGCCCA GGCGCCTGTG 
CCAGCTGATT TCTGCCAGCA CTTGCCCAAG CCGGTGACTG TGCGTGGCTG CTGGGCTGGG 
CCCTGTGTGG GACAGGGTAC GCCCAGCCTG GTGCCCCACG AAGAAGCCGC TGCTCCAGGA 
CGGACCACAG CCACCCCTGC TGGTGCCTCC CTGGAGTGGT CCCAGGCCCG GGGCCTGCTC 
TTCTCCCCGG CTCCCCAGCC TCGGCGGCTC CTGCCCGGGC CCCAGGAAAA CTCAGTGCAG 
TCCAGTGCCT GTGGCAGGCA GCACCTTGAG CCAACAGGAA CCATTGACAT GCGAGGCCCA 
GGGCAGGCAG ACTGTGCAGT GGCCATTGGG CGGCCCCTCG GGGAGGTGGT GACCCTCCGC 
GTCCTTGAGA GTTCTCTCAA CTGCAGTGCG GGGGACATGT TGCTGCTTTG GGGCCGGCTC 
ACCTGGAGGA AGATGTGCAG GAAGCTGTTG GACATGACTT TCAGCTCCAA GACCAACACG 
CTGGTGGTGA GGCAGCGCTG CGGGCGGCCA GGAGGTGGGG TGCTGCTGCG GTATGGGAGC 
CAGCTTGCTC CTGAAACCTT CTACAGAGAA TGTGACATGC AGCTCTTTGG GCCCTGGGGT 
GAAATCGTGA GCCCCTCGCT GAGTCCAGCC ACGAGTAATG CAGGGGGCTG CCGGCTCTTC 
ATTAATGTGG CTCCGCACGC ACGGATTGCC ATCCATGCCC TGGCCACCAA CATGGGCGCT 
GGGACCGAGG GAGCCAATGC CAGCTACATC TTGATCCGGG ACACCCACAG CTTGAGGACC 
ACAGCGTTCC ATGGGCAGCA GGTGCTCTAC TGGGAGTCAG AGAGCAGCCA GGCTGAGATG 
GAGTTCAGCG AGGGCTTCCT GAAGGCTCAG GCCAGCCTGC GGGGCCAGTA CTGGACCCTC 
CAATCATGGG TACCGGAGAT GCAGGACCCT CAGTCCTGGA AGGGAAAGGA AGGAACCTGA

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

RefSeq	XP_011516478.1
CDS	81..3380
Translation	MDMCQALSCHTDPLDQSSCSRLLVPLLDGTECGVEKWCSKGRCRSLVELTPIAAVHGRWSSWGPRSPCSRSCGGGVVTRRRQCNNPRPAFGGRACVGADLQAEMCNTQACEKTQLEFMSQQCARTDGQPLRSSPGGASFYHWGAAVPHSQGDALCRHMCRAIGESFIMKRGDSFLDGTRCMPSGPREDGTLSLCVSGSCRTFGCDGRMDSQQVWDRCQVCGGDNSTCSPRKGSFTAGRAREYVTFLTVTPNLTSVYIANHRPLFTHLAVRIGGRYVVAGKMSISPNTTYPSLLEDGRVEYRVALTEDRLPRLEEIRIWGPLQEDADIQVYRRYGEEYGNLTRPDITFTYFQPKPRQAWVWAAVRGPCSVSCGAGLRWVNYSCLDQARKELVETVQCQGSQQPPAWPEACVLEPCPPYWAVGDFGPCSASCGGGLRERPVRCVEAQGSLLKTLPPARCRAGAQQPAVALETCNPQPCPARWEVSEPSSCTSAGGAGLALENETCVPGADGLEAPVTEGPGSVDEKLPAPEPCVGMSCPPGWGHLDATSAGEKAPSPWGSIRTGAQAAHVWTPAAGSCSVSCGRGLMELRFLCMDSALRVPVQEELCGLASKPGSRREVCQAVPCPARWQYKLAACSVSCGRGVVRRILYCARAHGEDDGEEILLDTQCQGLPRPEPQEACSLEPCPPRWKVMSLGPCSASCGLGTARRSVACVQLDQGQDVEVDEAACAALVRPEASVPCLIADCTYRWHVGTWMECSVSCGDGIQRRRDTCLGPQAQAPVPADFCQHLPKPVTVRGCWAGPCVGQGTPSLVPHEEAAAPGRTTATPAGASLEWSQARGLLFSPAPQPRRLLPGPQENSVQSSACGRQHLEPTGTIDMRGPGQADCAVAIGRPLGEVVTLRVLESSLNCSAGDMLLLWGRLTWRKMCRKLLDMTFSSKTNTLVVRQRCGRPGGGVLLRYGSQLAPETFYRECDMQLFGPWGEIVSPSLSPATSNAGGCRLFINVAPHARIAIHALATNMGAGTEGANASYILIRDTHSLRTTAFHGQQVLYWESESSQAEMEFSEGFLKAQASLRGQYWTLQSWVPEMQDPQSWKGKEGT

Target ORF information:

RefSeq Version	XM_011518176.3
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant X3, mRNA.

Target ORF information:

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

XM_011518176.3

ORF Insert Sequence:

ATGGATATGT GCCAGGCCCT CTCCTGCCAC ACAGACCCGC TGGACCAAAG CAGCTGCAGC 
CGCCTCCTCG TTCCTCTCCT GGATGGGACA GAATGTGGCG TGGAGAAGTG GTGCTCCAAG 
GGTCGCTGCC GCTCCCTGGT GGAGCTGACC CCCATAGCAG CAGTGCATGG GCGCTGGTCT 
AGCTGGGGTC CCCGAAGTCC TTGCTCCCGC TCCTGCGGAG GAGGTGTGGT CACCAGGAGG 
CGGCAGTGCA ACAACCCCAG ACCTGCCTTT GGGGGGCGTG CATGTGTTGG TGCTGACCTC 
CAGGCCGAGA TGTGCAACAC TCAGGCCTGC GAGAAGACCC AGCTGGAGTT CATGTCGCAA 
CAGTGCGCCA GGACCGACGG CCAGCCGCTG CGCTCCTCCC CTGGCGGCGC CTCCTTCTAC 
CACTGGGGTG CTGCTGTACC ACACAGCCAA GGGGATGCTC TGTGCAGACA CATGTGCCGG 
GCCATTGGCG AGAGCTTCAT CATGAAGCGT GGAGACAGCT TCCTCGATGG GACCCGGTGT 
ATGCCAAGTG GCCCCCGGGA GGACGGGACC CTGAGCCTGT GTGTGTCGGG CAGCTGCAGG 
ACATTTGGCT GTGATGGTAG GATGGACTCC CAGCAGGTAT GGGACAGGTG CCAGGTGTGT 
GGTGGGGACA ACAGCACGTG CAGCCCACGG AAGGGCTCTT TCACAGCTGG CAGAGCGAGA 
GAATATGTCA CGTTTCTGAC AGTTACCCCC AACCTGACCA GTGTCTACAT TGCCAACCAC 
AGGCCTCTCT TCACACACTT GGCGGTGAGG ATCGGAGGGC GCTATGTCGT GGCTGGGAAG 
ATGAGCATCT CCCCTAACAC CACCTACCCC TCCCTCCTGG AGGATGGTCG TGTCGAGTAC 
AGAGTGGCCC TCACCGAGGA CCGGCTGCCC CGCCTGGAGG AGATCCGCAT CTGGGGACCC 
CTCCAGGAAG ATGCTGACAT CCAGGTTTAC AGGCGGTATG GCGAGGAGTA TGGCAACCTC 
ACCCGCCCAG ACATCACCTT CACCTACTTC CAGCCTAAGC CACGGCAGGC CTGGGTGTGG 
GCCGCTGTGC GTGGGCCCTG CTCGGTGAGC TGTGGGGCAG GGCTGCGCTG GGTAAACTAC 
AGCTGCCTGG ACCAGGCCAG GAAGGAGTTG GTGGAGACTG TCCAGTGCCA AGGGAGCCAG 
CAGCCACCAG CGTGGCCAGA GGCCTGCGTG CTCGAACCCT GCCCTCCCTA CTGGGCGGTG 
GGAGACTTCG GCCCATGCAG CGCCTCCTGT GGGGGTGGCC TGCGGGAGCG GCCAGTGCGC 
TGCGTGGAGG CCCAGGGCAG CCTCCTGAAG ACATTGCCCC CAGCCCGGTG CAGAGCAGGG 
GCCCAGCAGC CAGCTGTGGC GCTGGAAACC TGCAACCCCC AGCCCTGCCC TGCCAGGTGG 
GAGGTGTCAG AGCCCAGCTC ATGCACATCA GCTGGTGGAG CAGGCCTGGC CTTGGAGAAC 
GAGACCTGTG TGCCAGGGGC AGATGGCCTG GAGGCTCCAG TGACTGAGGG GCCTGGCTCC 
GTAGATGAGA AGCTGCCTGC CCCTGAGCCC TGTGTCGGGA TGTCATGTCC TCCAGGCTGG 
GGCCATCTGG ATGCCACCTC TGCAGGGGAG AAGGCTCCCT CCCCATGGGG CAGCATCAGG 
ACGGGGGCTC AAGCTGCACA CGTGTGGACC CCTGCGGCAG GGTCGTGCTC CGTCTCCTGC 
GGGCGAGGTC TGATGGAGCT GCGTTTCCTG TGCATGGACT CTGCCCTCAG GGTGCCTGTC 
CAGGAAGAGC TGTGTGGCCT GGCAAGCAAG CCTGGGAGCC GGCGGGAGGT CTGCCAGGCT 
GTCCCGTGCC CTGCTCGGTG GCAGTACAAG CTGGCGGCCT GCAGCGTGAG CTGTGGGAGA 
GGGGTCGTGC GGAGGATCCT GTATTGTGCC CGGGCCCATG GGGAGGACGA TGGTGAGGAG 
ATCCTGTTGG ACACCCAGTG CCAGGGGCTG CCTCGCCCGG AACCCCAGGA GGCCTGCAGC 
CTGGAGCCCT GCCCACCTAG GTGGAAAGTC ATGTCCCTTG GCCCATGTTC GGCCAGCTGT 
GGCCTTGGCA CTGCTAGACG CTCGGTGGCC TGTGTGCAGC TCGACCAAGG CCAGGACGTG 
GAGGTGGACG AGGCGGCCTG TGCGGCGCTG GTGCGGCCCG AGGCCAGTGT CCCCTGTCTC 
ATTGCCGACT GCACCTACCG CTGGCATGTT GGCACCTGGA TGGAGTGCTC TGTTTCCTGT 
GGGGATGGCA TCCAGCGCCG GCGTGACACC TGCCTCGGAC CCCAGGCCCA GGCGCCTGTG 
CCAGCTGATT TCTGCCAGCA CTTGCCCAAG CCGGTGACTG TGCGTGGCTG CTGGGCTGGG 
CCCTGTGTGG GACAGGGTAC GCCCAGCCTG GTGCCCCACG AAGAAGCCGC TGCTCCAGGA 
CGGACCACAG CCACCCCTGC TGGTGCCTCC CTGGAGTGGT CCCAGGCCCG GGGCCTGCTC 
TTCTCCCCGG CTCCCCAGCC TCGGCGGCTC CTGCCCGGGC CCCAGGAAAA CTCAGTGCAG 
TCCAGTGCCT GTGGCAGGCA GCACCTTGAG CCAACAGGAA CCATTGACAT GCGAGGCCCA 
GGGCAGGCAG ACTGTGCAGT GGCCATTGGG CGGCCCCTCG GGGAGGTGGT GACCCTCCGC 
GTCCTTGAGA GTTCTCTCAA CTGCAGTGCG GGGGACATGT TGCTGCTTTG GGGCCGGCTC 
ACCTGGAGGA AGATGTGCAG GAAGCTGTTG GACATGACTT TCAGCTCCAA GACCAACACG 
CTGGTGGTGA GGCAGCGCTG CGGGCGGCCA GGAGGTGGGG TGCTGCTGCG GTATGGGAGC 
CAGCTTGCTC CTGAAACCTT CTACAGAGAA TGTGACATGC AGCTCTTTGG GCCCTGGGGT 
GAAATCGTGA GCCCCTCGCT GAGTCCAGCC ACGAGTAATG CAGGGGGCTG CCGGCTCTTC 
ATTAATGTGG CTCCGCACGC ACGGATTGCC ATCCATGCCC TGGCCACCAA CATGGGCGCT 
GGGACCGAGG GAGCCAATGC CAGCTACATC TTGATCCGGG ACACCCACAG CTTGAGGACC 
ACAGCGTTCC ATGGGCAGCA GGTGCTCTAC TGGGAGTCAG AGAGCAGCCA GGCTGAGATG 
GAGTTCAGCG AGGGCTTCCT GAAGGCTCAG GCCAGCCTGC GGGGCCAGTA CTGGACCCTC 
CAATCATGGG TACCGGAGAT GCAGGACCCT CAGTCCTGGA AGGGAAAGGA AGGAACCTGA

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

ADAMTS13 ( XM_011518176.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011516478.1 Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OHu64702
Clone ID Related Accession (Same CDS sequence)	XM_011518176.3 , XM_011518176.2
Accession Version	XM_011518176.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3300bp) 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	2016-06-05
Organism	Homo sapiens(human)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 13 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011518176.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGATATGT GCCAGGCCCT CTCCTGCCAC ACAGACCCGC TGGACCAAAG CAGCTGCAGC 
CGCCTCCTCG TTCCTCTCCT GGATGGGACA GAATGTGGCG TGGAGAAGTG GTGCTCCAAG 
GGTCGCTGCC GCTCCCTGGT GGAGCTGACC CCCATAGCAG CAGTGCATGG GCGCTGGTCT 
AGCTGGGGTC CCCGAAGTCC TTGCTCCCGC TCCTGCGGAG GAGGTGTGGT CACCAGGAGG 
CGGCAGTGCA ACAACCCCAG ACCTGCCTTT GGGGGGCGTG CATGTGTTGG TGCTGACCTC 
CAGGCCGAGA TGTGCAACAC TCAGGCCTGC GAGAAGACCC AGCTGGAGTT CATGTCGCAA 
CAGTGCGCCA GGACCGACGG CCAGCCGCTG CGCTCCTCCC CTGGCGGCGC CTCCTTCTAC 
CACTGGGGTG CTGCTGTACC ACACAGCCAA GGGGATGCTC TGTGCAGACA CATGTGCCGG 
GCCATTGGCG AGAGCTTCAT CATGAAGCGT GGAGACAGCT TCCTCGATGG GACCCGGTGT 
ATGCCAAGTG GCCCCCGGGA GGACGGGACC CTGAGCCTGT GTGTGTCGGG CAGCTGCAGG 
ACATTTGGCT GTGATGGTAG GATGGACTCC CAGCAGGTAT GGGACAGGTG CCAGGTGTGT 
GGTGGGGACA ACAGCACGTG CAGCCCACGG AAGGGCTCTT TCACAGCTGG CAGAGCGAGA 
GAATATGTCA CGTTTCTGAC AGTTACCCCC AACCTGACCA GTGTCTACAT TGCCAACCAC 
AGGCCTCTCT TCACACACTT GGCGGTGAGG ATCGGAGGGC GCTATGTCGT GGCTGGGAAG 
ATGAGCATCT CCCCTAACAC CACCTACCCC TCCCTCCTGG AGGATGGTCG TGTCGAGTAC 
AGAGTGGCCC TCACCGAGGA CCGGCTGCCC CGCCTGGAGG AGATCCGCAT CTGGGGACCC 
CTCCAGGAAG ATGCTGACAT CCAGGTTTAC AGGCGGTATG GCGAGGAGTA TGGCAACCTC 
ACCCGCCCAG ACATCACCTT CACCTACTTC CAGCCTAAGC CACGGCAGGC CTGGGTGTGG 
GCCGCTGTGC GTGGGCCCTG CTCGGTGAGC TGTGGGGCAG GGCTGCGCTG GGTAAACTAC 
AGCTGCCTGG ACCAGGCCAG GAAGGAGTTG GTGGAGACTG TCCAGTGCCA AGGGAGCCAG 
CAGCCACCAG CGTGGCCAGA GGCCTGCGTG CTCGAACCCT GCCCTCCCTA CTGGGCGGTG 
GGAGACTTCG GCCCATGCAG CGCCTCCTGT GGGGGTGGCC TGCGGGAGCG GCCAGTGCGC 
TGCGTGGAGG CCCAGGGCAG CCTCCTGAAG ACATTGCCCC CAGCCCGGTG CAGAGCAGGG 
GCCCAGCAGC CAGCTGTGGC GCTGGAAACC TGCAACCCCC AGCCCTGCCC TGCCAGGTGG 
GAGGTGTCAG AGCCCAGCTC ATGCACATCA GCTGGTGGAG CAGGCCTGGC CTTGGAGAAC 
GAGACCTGTG TGCCAGGGGC AGATGGCCTG GAGGCTCCAG TGACTGAGGG GCCTGGCTCC 
GTAGATGAGA AGCTGCCTGC CCCTGAGCCC TGTGTCGGGA TGTCATGTCC TCCAGGCTGG 
GGCCATCTGG ATGCCACCTC TGCAGGGGAG AAGGCTCCCT CCCCATGGGG CAGCATCAGG 
ACGGGGGCTC AAGCTGCACA CGTGTGGACC CCTGCGGCAG GGTCGTGCTC CGTCTCCTGC 
GGGCGAGGTC TGATGGAGCT GCGTTTCCTG TGCATGGACT CTGCCCTCAG GGTGCCTGTC 
CAGGAAGAGC TGTGTGGCCT GGCAAGCAAG CCTGGGAGCC GGCGGGAGGT CTGCCAGGCT 
GTCCCGTGCC CTGCTCGGTG GCAGTACAAG CTGGCGGCCT GCAGCGTGAG CTGTGGGAGA 
GGGGTCGTGC GGAGGATCCT GTATTGTGCC CGGGCCCATG GGGAGGACGA TGGTGAGGAG 
ATCCTGTTGG ACACCCAGTG CCAGGGGCTG CCTCGCCCGG AACCCCAGGA GGCCTGCAGC 
CTGGAGCCCT GCCCACCTAG GTGGAAAGTC ATGTCCCTTG GCCCATGTTC GGCCAGCTGT 
GGCCTTGGCA CTGCTAGACG CTCGGTGGCC TGTGTGCAGC TCGACCAAGG CCAGGACGTG 
GAGGTGGACG AGGCGGCCTG TGCGGCGCTG GTGCGGCCCG AGGCCAGTGT CCCCTGTCTC 
ATTGCCGACT GCACCTACCG CTGGCATGTT GGCACCTGGA TGGAGTGCTC TGTTTCCTGT 
GGGGATGGCA TCCAGCGCCG GCGTGACACC TGCCTCGGAC CCCAGGCCCA GGCGCCTGTG 
CCAGCTGATT TCTGCCAGCA CTTGCCCAAG CCGGTGACTG TGCGTGGCTG CTGGGCTGGG 
CCCTGTGTGG GACAGGGTAC GCCCAGCCTG GTGCCCCACG AAGAAGCCGC TGCTCCAGGA 
CGGACCACAG CCACCCCTGC TGGTGCCTCC CTGGAGTGGT CCCAGGCCCG GGGCCTGCTC 
TTCTCCCCGG CTCCCCAGCC TCGGCGGCTC CTGCCCGGGC CCCAGGAAAA CTCAGTGCAG 
TCCAGTGCCT GTGGCAGGCA GCACCTTGAG CCAACAGGAA CCATTGACAT GCGAGGCCCA 
GGGCAGGCAG ACTGTGCAGT GGCCATTGGG CGGCCCCTCG GGGAGGTGGT GACCCTCCGC 
GTCCTTGAGA GTTCTCTCAA CTGCAGTGCG GGGGACATGT TGCTGCTTTG GGGCCGGCTC 
ACCTGGAGGA AGATGTGCAG GAAGCTGTTG GACATGACTT TCAGCTCCAA GACCAACACG 
CTGGTGGTGA GGCAGCGCTG CGGGCGGCCA GGAGGTGGGG TGCTGCTGCG GTATGGGAGC 
CAGCTTGCTC CTGAAACCTT CTACAGAGAA TGTGACATGC AGCTCTTTGG GCCCTGGGGT 
GAAATCGTGA GCCCCTCGCT GAGTCCAGCC ACGAGTAATG CAGGGGGCTG CCGGCTCTTC 
ATTAATGTGG CTCCGCACGC ACGGATTGCC ATCCATGCCC TGGCCACCAA CATGGGCGCT 
GGGACCGAGG GAGCCAATGC CAGCTACATC TTGATCCGGG ACACCCACAG CTTGAGGACC 
ACAGCGTTCC ATGGGCAGCA GGTGCTCTAC TGGGAGTCAG AGAGCAGCCA GGCTGAGATG 
GAGTTCAGCG AGGGCTTCCT GAAGGCTCAG GCCAGCCTGC GGGGCCAGTA CTGGACCCTC 
CAATCATGGG TACCGGAGAT GCAGGACCCT CAGTCCTGGA AGGGAAAGGA AGGAACCTGA

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

RefSeq	XP_011516478.1
CDS	81..3380
Translation	MDMCQALSCHTDPLDQSSCSRLLVPLLDGTECGVEKWCSKGRCRSLVELTPIAAVHGRWSSWGPRSPCSRSCGGGVVTRRRQCNNPRPAFGGRACVGADLQAEMCNTQACEKTQLEFMSQQCARTDGQPLRSSPGGASFYHWGAAVPHSQGDALCRHMCRAIGESFIMKRGDSFLDGTRCMPSGPREDGTLSLCVSGSCRTFGCDGRMDSQQVWDRCQVCGGDNSTCSPRKGSFTAGRAREYVTFLTVTPNLTSVYIANHRPLFTHLAVRIGGRYVVAGKMSISPNTTYPSLLEDGRVEYRVALTEDRLPRLEEIRIWGPLQEDADIQVYRRYGEEYGNLTRPDITFTYFQPKPRQAWVWAAVRGPCSVSCGAGLRWVNYSCLDQARKELVETVQCQGSQQPPAWPEACVLEPCPPYWAVGDFGPCSASCGGGLRERPVRCVEAQGSLLKTLPPARCRAGAQQPAVALETCNPQPCPARWEVSEPSSCTSAGGAGLALENETCVPGADGLEAPVTEGPGSVDEKLPAPEPCVGMSCPPGWGHLDATSAGEKAPSPWGSIRTGAQAAHVWTPAAGSCSVSCGRGLMELRFLCMDSALRVPVQEELCGLASKPGSRREVCQAVPCPARWQYKLAACSVSCGRGVVRRILYCARAHGEDDGEEILLDTQCQGLPRPEPQEACSLEPCPPRWKVMSLGPCSASCGLGTARRSVACVQLDQGQDVEVDEAACAALVRPEASVPCLIADCTYRWHVGTWMECSVSCGDGIQRRRDTCLGPQAQAPVPADFCQHLPKPVTVRGCWAGPCVGQGTPSLVPHEEAAAPGRTTATPAGASLEWSQARGLLFSPAPQPRRLLPGPQENSVQSSACGRQHLEPTGTIDMRGPGQADCAVAIGRPLGEVVTLRVLESSLNCSAGDMLLLWGRLTWRKMCRKLLDMTFSSKTNTLVVRQRCGRPGGGVLLRYGSQLAPETFYRECDMQLFGPWGEIVSPSLSPATSNAGGCRLFINVAPHARIAIHALATNMGAGTEGANASYILIRDTHSLRTTAFHGQQVLYWESESSQAEMEFSEGFLKAQASLRGQYWTLQSWVPEMQDPQSWKGKEGT

Target ORF information:

RefSeq Version	XM_011518176.2
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant X3, mRNA.

Target ORF information:

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

XM_011518176.2

ORF Insert Sequence:

ATGGATATGT GCCAGGCCCT CTCCTGCCAC ACAGACCCGC TGGACCAAAG CAGCTGCAGC 
CGCCTCCTCG TTCCTCTCCT GGATGGGACA GAATGTGGCG TGGAGAAGTG GTGCTCCAAG 
GGTCGCTGCC GCTCCCTGGT GGAGCTGACC CCCATAGCAG CAGTGCATGG GCGCTGGTCT 
AGCTGGGGTC CCCGAAGTCC TTGCTCCCGC TCCTGCGGAG GAGGTGTGGT CACCAGGAGG 
CGGCAGTGCA ACAACCCCAG ACCTGCCTTT GGGGGGCGTG CATGTGTTGG TGCTGACCTC 
CAGGCCGAGA TGTGCAACAC TCAGGCCTGC GAGAAGACCC AGCTGGAGTT CATGTCGCAA 
CAGTGCGCCA GGACCGACGG CCAGCCGCTG CGCTCCTCCC CTGGCGGCGC CTCCTTCTAC 
CACTGGGGTG CTGCTGTACC ACACAGCCAA GGGGATGCTC TGTGCAGACA CATGTGCCGG 
GCCATTGGCG AGAGCTTCAT CATGAAGCGT GGAGACAGCT TCCTCGATGG GACCCGGTGT 
ATGCCAAGTG GCCCCCGGGA GGACGGGACC CTGAGCCTGT GTGTGTCGGG CAGCTGCAGG 
ACATTTGGCT GTGATGGTAG GATGGACTCC CAGCAGGTAT GGGACAGGTG CCAGGTGTGT 
GGTGGGGACA ACAGCACGTG CAGCCCACGG AAGGGCTCTT TCACAGCTGG CAGAGCGAGA 
GAATATGTCA CGTTTCTGAC AGTTACCCCC AACCTGACCA GTGTCTACAT TGCCAACCAC 
AGGCCTCTCT TCACACACTT GGCGGTGAGG ATCGGAGGGC GCTATGTCGT GGCTGGGAAG 
ATGAGCATCT CCCCTAACAC CACCTACCCC TCCCTCCTGG AGGATGGTCG TGTCGAGTAC 
AGAGTGGCCC TCACCGAGGA CCGGCTGCCC CGCCTGGAGG AGATCCGCAT CTGGGGACCC 
CTCCAGGAAG ATGCTGACAT CCAGGTTTAC AGGCGGTATG GCGAGGAGTA TGGCAACCTC 
ACCCGCCCAG ACATCACCTT CACCTACTTC CAGCCTAAGC CACGGCAGGC CTGGGTGTGG 
GCCGCTGTGC GTGGGCCCTG CTCGGTGAGC TGTGGGGCAG GGCTGCGCTG GGTAAACTAC 
AGCTGCCTGG ACCAGGCCAG GAAGGAGTTG GTGGAGACTG TCCAGTGCCA AGGGAGCCAG 
CAGCCACCAG CGTGGCCAGA GGCCTGCGTG CTCGAACCCT GCCCTCCCTA CTGGGCGGTG 
GGAGACTTCG GCCCATGCAG CGCCTCCTGT GGGGGTGGCC TGCGGGAGCG GCCAGTGCGC 
TGCGTGGAGG CCCAGGGCAG CCTCCTGAAG ACATTGCCCC CAGCCCGGTG CAGAGCAGGG 
GCCCAGCAGC CAGCTGTGGC GCTGGAAACC TGCAACCCCC AGCCCTGCCC TGCCAGGTGG 
GAGGTGTCAG AGCCCAGCTC ATGCACATCA GCTGGTGGAG CAGGCCTGGC CTTGGAGAAC 
GAGACCTGTG TGCCAGGGGC AGATGGCCTG GAGGCTCCAG TGACTGAGGG GCCTGGCTCC 
GTAGATGAGA AGCTGCCTGC CCCTGAGCCC TGTGTCGGGA TGTCATGTCC TCCAGGCTGG 
GGCCATCTGG ATGCCACCTC TGCAGGGGAG AAGGCTCCCT CCCCATGGGG CAGCATCAGG 
ACGGGGGCTC AAGCTGCACA CGTGTGGACC CCTGCGGCAG GGTCGTGCTC CGTCTCCTGC 
GGGCGAGGTC TGATGGAGCT GCGTTTCCTG TGCATGGACT CTGCCCTCAG GGTGCCTGTC 
CAGGAAGAGC TGTGTGGCCT GGCAAGCAAG CCTGGGAGCC GGCGGGAGGT CTGCCAGGCT 
GTCCCGTGCC CTGCTCGGTG GCAGTACAAG CTGGCGGCCT GCAGCGTGAG CTGTGGGAGA 
GGGGTCGTGC GGAGGATCCT GTATTGTGCC CGGGCCCATG GGGAGGACGA TGGTGAGGAG 
ATCCTGTTGG ACACCCAGTG CCAGGGGCTG CCTCGCCCGG AACCCCAGGA GGCCTGCAGC 
CTGGAGCCCT GCCCACCTAG GTGGAAAGTC ATGTCCCTTG GCCCATGTTC GGCCAGCTGT 
GGCCTTGGCA CTGCTAGACG CTCGGTGGCC TGTGTGCAGC TCGACCAAGG CCAGGACGTG 
GAGGTGGACG AGGCGGCCTG TGCGGCGCTG GTGCGGCCCG AGGCCAGTGT CCCCTGTCTC 
ATTGCCGACT GCACCTACCG CTGGCATGTT GGCACCTGGA TGGAGTGCTC TGTTTCCTGT 
GGGGATGGCA TCCAGCGCCG GCGTGACACC TGCCTCGGAC CCCAGGCCCA GGCGCCTGTG 
CCAGCTGATT TCTGCCAGCA CTTGCCCAAG CCGGTGACTG TGCGTGGCTG CTGGGCTGGG 
CCCTGTGTGG GACAGGGTAC GCCCAGCCTG GTGCCCCACG AAGAAGCCGC TGCTCCAGGA 
CGGACCACAG CCACCCCTGC TGGTGCCTCC CTGGAGTGGT CCCAGGCCCG GGGCCTGCTC 
TTCTCCCCGG CTCCCCAGCC TCGGCGGCTC CTGCCCGGGC CCCAGGAAAA CTCAGTGCAG 
TCCAGTGCCT GTGGCAGGCA GCACCTTGAG CCAACAGGAA CCATTGACAT GCGAGGCCCA 
GGGCAGGCAG ACTGTGCAGT GGCCATTGGG CGGCCCCTCG GGGAGGTGGT GACCCTCCGC 
GTCCTTGAGA GTTCTCTCAA CTGCAGTGCG GGGGACATGT TGCTGCTTTG GGGCCGGCTC 
ACCTGGAGGA AGATGTGCAG GAAGCTGTTG GACATGACTT TCAGCTCCAA GACCAACACG 
CTGGTGGTGA GGCAGCGCTG CGGGCGGCCA GGAGGTGGGG TGCTGCTGCG GTATGGGAGC 
CAGCTTGCTC CTGAAACCTT CTACAGAGAA TGTGACATGC AGCTCTTTGG GCCCTGGGGT 
GAAATCGTGA GCCCCTCGCT GAGTCCAGCC ACGAGTAATG CAGGGGGCTG CCGGCTCTTC 
ATTAATGTGG CTCCGCACGC ACGGATTGCC ATCCATGCCC TGGCCACCAA CATGGGCGCT 
GGGACCGAGG GAGCCAATGC CAGCTACATC TTGATCCGGG ACACCCACAG CTTGAGGACC 
ACAGCGTTCC ATGGGCAGCA GGTGCTCTAC TGGGAGTCAG AGAGCAGCCA GGCTGAGATG 
GAGTTCAGCG AGGGCTTCCT GAAGGCTCAG GCCAGCCTGC GGGGCCAGTA CTGGACCCTC 
CAATCATGGG TACCGGAGAT GCAGGACCCT CAGTCCTGGA AGGGAAAGGA AGGAACCTGA

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

ADAMTS13 ( XM_017014234.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016869723.1 Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant X4, mRNA.

Price & Availability↑

CloneID	OHu64703
Clone ID Related Accession (Same CDS sequence)	XM_017014234.2 , XM_017014234.1
Accession Version	XM_017014234.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3294bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 13 isoform X4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017014234.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTGCCAGG CCCTCTCCTG CCACACAGAC CCGCTGGACC AAAGCAGCTG CAGCCGCCTC 
CTCGTTCCTC TCCTGGATGG GACAGAATGT GGCGTGGAGA AGTGGTGCTC CAAGGGTCGC 
TGCCGCTCCC TGGTGGAGCT GACCCCCATA GCAGCAGTGC ATGGGCGCTG GTCTAGCTGG 
GGTCCCCGAA GTCCTTGCTC CCGCTCCTGC GGAGGAGGTG TGGTCACCAG GAGGCGGCAG 
TGCAACAACC CCAGACCTGC CTTTGGGGGG CGTGCATGTG TTGGTGCTGA CCTCCAGGCC 
GAGATGTGCA ACACTCAGGC CTGCGAGAAG ACCCAGCTGG AGTTCATGTC GCAACAGTGC 
GCCAGGACCG ACGGCCAGCC GCTGCGCTCC TCCCCTGGCG GCGCCTCCTT CTACCACTGG 
GGTGCTGCTG TACCACACAG CCAAGGGGAT GCTCTGTGCA GACACATGTG CCGGGCCATT 
GGCGAGAGCT TCATCATGAA GCGTGGAGAC AGCTTCCTCG ATGGGACCCG GTGTATGCCA 
AGTGGCCCCC GGGAGGACGG GACCCTGAGC CTGTGTGTGT CGGGCAGCTG CAGGACATTT 
GGCTGTGATG GTAGGATGGA CTCCCAGCAG GTATGGGACA GGTGCCAGGT GTGTGGTGGG 
GACAACAGCA CGTGCAGCCC ACGGAAGGGC TCTTTCACAG CTGGCAGAGC GAGAGAATAT 
GTCACGTTTC TGACAGTTAC CCCCAACCTG ACCAGTGTCT ACATTGCCAA CCACAGGCCT 
CTCTTCACAC ACTTGGCGGT GAGGATCGGA GGGCGCTATG TCGTGGCTGG GAAGATGAGC 
ATCTCCCCTA ACACCACCTA CCCCTCCCTC CTGGAGGATG GTCGTGTCGA GTACAGAGTG 
GCCCTCACCG AGGACCGGCT GCCCCGCCTG GAGGAGATCC GCATCTGGGG ACCCCTCCAG 
GAAGATGCTG ACATCCAGGT TTACAGGCGG TATGGCGAGG AGTATGGCAA CCTCACCCGC 
CCAGACATCA CCTTCACCTA CTTCCAGCCT AAGCCACGGC AGGCCTGGGT GTGGGCCGCT 
GTGCGTGGGC CCTGCTCGGT GAGCTGTGGG GCAGGGCTGC GCTGGGTAAA CTACAGCTGC 
CTGGACCAGG CCAGGAAGGA GTTGGTGGAG ACTGTCCAGT GCCAAGGGAG CCAGCAGCCA 
CCAGCGTGGC CAGAGGCCTG CGTGCTCGAA CCCTGCCCTC CCTACTGGGC GGTGGGAGAC 
TTCGGCCCAT GCAGCGCCTC CTGTGGGGGT GGCCTGCGGG AGCGGCCAGT GCGCTGCGTG 
GAGGCCCAGG GCAGCCTCCT GAAGACATTG CCCCCAGCCC GGTGCAGAGC AGGGGCCCAG 
CAGCCAGCTG TGGCGCTGGA AACCTGCAAC CCCCAGCCCT GCCCTGCCAG GTGGGAGGTG 
TCAGAGCCCA GCTCATGCAC ATCAGCTGGT GGAGCAGGCC TGGCCTTGGA GAACGAGACC 
TGTGTGCCAG GGGCAGATGG CCTGGAGGCT CCAGTGACTG AGGGGCCTGG CTCCGTAGAT 
GAGAAGCTGC CTGCCCCTGA GCCCTGTGTC GGGATGTCAT GTCCTCCAGG CTGGGGCCAT 
CTGGATGCCA CCTCTGCAGG GGAGAAGGCT CCCTCCCCAT GGGGCAGCAT CAGGACGGGG 
GCTCAAGCTG CACACGTGTG GACCCCTGCG GCAGGGTCGT GCTCCGTCTC CTGCGGGCGA 
GGTCTGATGG AGCTGCGTTT CCTGTGCATG GACTCTGCCC TCAGGGTGCC TGTCCAGGAA 
GAGCTGTGTG GCCTGGCAAG CAAGCCTGGG AGCCGGCGGG AGGTCTGCCA GGCTGTCCCG 
TGCCCTGCTC GGTGGCAGTA CAAGCTGGCG GCCTGCAGCG TGAGCTGTGG GAGAGGGGTC 
GTGCGGAGGA TCCTGTATTG TGCCCGGGCC CATGGGGAGG ACGATGGTGA GGAGATCCTG 
TTGGACACCC AGTGCCAGGG GCTGCCTCGC CCGGAACCCC AGGAGGCCTG CAGCCTGGAG 
CCCTGCCCAC CTAGGTGGAA AGTCATGTCC CTTGGCCCAT GTTCGGCCAG CTGTGGCCTT 
GGCACTGCTA GACGCTCGGT GGCCTGTGTG CAGCTCGACC AAGGCCAGGA CGTGGAGGTG 
GACGAGGCGG CCTGTGCGGC GCTGGTGCGG CCCGAGGCCA GTGTCCCCTG TCTCATTGCC 
GACTGCACCT ACCGCTGGCA TGTTGGCACC TGGATGGAGT GCTCTGTTTC CTGTGGGGAT 
GGCATCCAGC GCCGGCGTGA CACCTGCCTC GGACCCCAGG CCCAGGCGCC TGTGCCAGCT 
GATTTCTGCC AGCACTTGCC CAAGCCGGTG ACTGTGCGTG GCTGCTGGGC TGGGCCCTGT 
GTGGGACAGG GTACGCCCAG CCTGGTGCCC CACGAAGAAG CCGCTGCTCC AGGACGGACC 
ACAGCCACCC CTGCTGGTGC CTCCCTGGAG TGGTCCCAGG CCCGGGGCCT GCTCTTCTCC 
CCGGCTCCCC AGCCTCGGCG GCTCCTGCCC GGGCCCCAGG AAAACTCAGT GCAGTCCAGT 
GCCTGTGGCA GGCAGCACCT TGAGCCAACA GGAACCATTG ACATGCGAGG CCCAGGGCAG 
GCAGACTGTG CAGTGGCCAT TGGGCGGCCC CTCGGGGAGG TGGTGACCCT CCGCGTCCTT 
GAGAGTTCTC TCAACTGCAG TGCGGGGGAC ATGTTGCTGC TTTGGGGCCG GCTCACCTGG 
AGGAAGATGT GCAGGAAGCT GTTGGACATG ACTTTCAGCT CCAAGACCAA CACGCTGGTG 
GTGAGGCAGC GCTGCGGGCG GCCAGGAGGT GGGGTGCTGC TGCGGTATGG GAGCCAGCTT 
GCTCCTGAAA CCTTCTACAG AGAATGTGAC ATGCAGCTCT TTGGGCCCTG GGGTGAAATC 
GTGAGCCCCT CGCTGAGTCC AGCCACGAGT AATGCAGGGG GCTGCCGGCT CTTCATTAAT 
GTGGCTCCGC ACGCACGGAT TGCCATCCAT GCCCTGGCCA CCAACATGGG CGCTGGGACC 
GAGGGAGCCA ATGCCAGCTA CATCTTGATC CGGGACACCC ACAGCTTGAG GACCACAGCG 
TTCCATGGGC AGCAGGTGCT CTACTGGGAG TCAGAGAGCA GCCAGGCTGA GATGGAGTTC 
AGCGAGGGCT TCCTGAAGGC TCAGGCCAGC CTGCGGGGCC AGTACTGGAC CCTCCAATCA 
TGGGTACCGG AGATGCAGGA CCCTCAGTCC TGGAAGGGAA AGGAAGGAAC CTGA

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

RefSeq	XP_016869723.1
CDS	235..3528
Translation	MCQALSCHTDPLDQSSCSRLLVPLLDGTECGVEKWCSKGRCRSLVELTPIAAVHGRWSSWGPRSPCSRSCGGGVVTRRRQCNNPRPAFGGRACVGADLQAEMCNTQACEKTQLEFMSQQCARTDGQPLRSSPGGASFYHWGAAVPHSQGDALCRHMCRAIGESFIMKRGDSFLDGTRCMPSGPREDGTLSLCVSGSCRTFGCDGRMDSQQVWDRCQVCGGDNSTCSPRKGSFTAGRAREYVTFLTVTPNLTSVYIANHRPLFTHLAVRIGGRYVVAGKMSISPNTTYPSLLEDGRVEYRVALTEDRLPRLEEIRIWGPLQEDADIQVYRRYGEEYGNLTRPDITFTYFQPKPRQAWVWAAVRGPCSVSCGAGLRWVNYSCLDQARKELVETVQCQGSQQPPAWPEACVLEPCPPYWAVGDFGPCSASCGGGLRERPVRCVEAQGSLLKTLPPARCRAGAQQPAVALETCNPQPCPARWEVSEPSSCTSAGGAGLALENETCVPGADGLEAPVTEGPGSVDEKLPAPEPCVGMSCPPGWGHLDATSAGEKAPSPWGSIRTGAQAAHVWTPAAGSCSVSCGRGLMELRFLCMDSALRVPVQEELCGLASKPGSRREVCQAVPCPARWQYKLAACSVSCGRGVVRRILYCARAHGEDDGEEILLDTQCQGLPRPEPQEACSLEPCPPRWKVMSLGPCSASCGLGTARRSVACVQLDQGQDVEVDEAACAALVRPEASVPCLIADCTYRWHVGTWMECSVSCGDGIQRRRDTCLGPQAQAPVPADFCQHLPKPVTVRGCWAGPCVGQGTPSLVPHEEAAAPGRTTATPAGASLEWSQARGLLFSPAPQPRRLLPGPQENSVQSSACGRQHLEPTGTIDMRGPGQADCAVAIGRPLGEVVTLRVLESSLNCSAGDMLLLWGRLTWRKMCRKLLDMTFSSKTNTLVVRQRCGRPGGGVLLRYGSQLAPETFYRECDMQLFGPWGEIVSPSLSPATSNAGGCRLFINVAPHARIAIHALATNMGAGTEGANASYILIRDTHSLRTTAFHGQQVLYWESESSQAEMEFSEGFLKAQASLRGQYWTLQSWVPEMQDPQSWKGKEGT

Target ORF information:

RefSeq Version	XM_017014234.2
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant X4, mRNA.

Target ORF information:

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

XM_017014234.2

ORF Insert Sequence:

ATGTGCCAGG CCCTCTCCTG CCACACAGAC CCGCTGGACC AAAGCAGCTG CAGCCGCCTC 
CTCGTTCCTC TCCTGGATGG GACAGAATGT GGCGTGGAGA AGTGGTGCTC CAAGGGTCGC 
TGCCGCTCCC TGGTGGAGCT GACCCCCATA GCAGCAGTGC ATGGGCGCTG GTCTAGCTGG 
GGTCCCCGAA GTCCTTGCTC CCGCTCCTGC GGAGGAGGTG TGGTCACCAG GAGGCGGCAG 
TGCAACAACC CCAGACCTGC CTTTGGGGGG CGTGCATGTG TTGGTGCTGA CCTCCAGGCC 
GAGATGTGCA ACACTCAGGC CTGCGAGAAG ACCCAGCTGG AGTTCATGTC GCAACAGTGC 
GCCAGGACCG ACGGCCAGCC GCTGCGCTCC TCCCCTGGCG GCGCCTCCTT CTACCACTGG 
GGTGCTGCTG TACCACACAG CCAAGGGGAT GCTCTGTGCA GACACATGTG CCGGGCCATT 
GGCGAGAGCT TCATCATGAA GCGTGGAGAC AGCTTCCTCG ATGGGACCCG GTGTATGCCA 
AGTGGCCCCC GGGAGGACGG GACCCTGAGC CTGTGTGTGT CGGGCAGCTG CAGGACATTT 
GGCTGTGATG GTAGGATGGA CTCCCAGCAG GTATGGGACA GGTGCCAGGT GTGTGGTGGG 
GACAACAGCA CGTGCAGCCC ACGGAAGGGC TCTTTCACAG CTGGCAGAGC GAGAGAATAT 
GTCACGTTTC TGACAGTTAC CCCCAACCTG ACCAGTGTCT ACATTGCCAA CCACAGGCCT 
CTCTTCACAC ACTTGGCGGT GAGGATCGGA GGGCGCTATG TCGTGGCTGG GAAGATGAGC 
ATCTCCCCTA ACACCACCTA CCCCTCCCTC CTGGAGGATG GTCGTGTCGA GTACAGAGTG 
GCCCTCACCG AGGACCGGCT GCCCCGCCTG GAGGAGATCC GCATCTGGGG ACCCCTCCAG 
GAAGATGCTG ACATCCAGGT TTACAGGCGG TATGGCGAGG AGTATGGCAA CCTCACCCGC 
CCAGACATCA CCTTCACCTA CTTCCAGCCT AAGCCACGGC AGGCCTGGGT GTGGGCCGCT 
GTGCGTGGGC CCTGCTCGGT GAGCTGTGGG GCAGGGCTGC GCTGGGTAAA CTACAGCTGC 
CTGGACCAGG CCAGGAAGGA GTTGGTGGAG ACTGTCCAGT GCCAAGGGAG CCAGCAGCCA 
CCAGCGTGGC CAGAGGCCTG CGTGCTCGAA CCCTGCCCTC CCTACTGGGC GGTGGGAGAC 
TTCGGCCCAT GCAGCGCCTC CTGTGGGGGT GGCCTGCGGG AGCGGCCAGT GCGCTGCGTG 
GAGGCCCAGG GCAGCCTCCT GAAGACATTG CCCCCAGCCC GGTGCAGAGC AGGGGCCCAG 
CAGCCAGCTG TGGCGCTGGA AACCTGCAAC CCCCAGCCCT GCCCTGCCAG GTGGGAGGTG 
TCAGAGCCCA GCTCATGCAC ATCAGCTGGT GGAGCAGGCC TGGCCTTGGA GAACGAGACC 
TGTGTGCCAG GGGCAGATGG CCTGGAGGCT CCAGTGACTG AGGGGCCTGG CTCCGTAGAT 
GAGAAGCTGC CTGCCCCTGA GCCCTGTGTC GGGATGTCAT GTCCTCCAGG CTGGGGCCAT 
CTGGATGCCA CCTCTGCAGG GGAGAAGGCT CCCTCCCCAT GGGGCAGCAT CAGGACGGGG 
GCTCAAGCTG CACACGTGTG GACCCCTGCG GCAGGGTCGT GCTCCGTCTC CTGCGGGCGA 
GGTCTGATGG AGCTGCGTTT CCTGTGCATG GACTCTGCCC TCAGGGTGCC TGTCCAGGAA 
GAGCTGTGTG GCCTGGCAAG CAAGCCTGGG AGCCGGCGGG AGGTCTGCCA GGCTGTCCCG 
TGCCCTGCTC GGTGGCAGTA CAAGCTGGCG GCCTGCAGCG TGAGCTGTGG GAGAGGGGTC 
GTGCGGAGGA TCCTGTATTG TGCCCGGGCC CATGGGGAGG ACGATGGTGA GGAGATCCTG 
TTGGACACCC AGTGCCAGGG GCTGCCTCGC CCGGAACCCC AGGAGGCCTG CAGCCTGGAG 
CCCTGCCCAC CTAGGTGGAA AGTCATGTCC CTTGGCCCAT GTTCGGCCAG CTGTGGCCTT 
GGCACTGCTA GACGCTCGGT GGCCTGTGTG CAGCTCGACC AAGGCCAGGA CGTGGAGGTG 
GACGAGGCGG CCTGTGCGGC GCTGGTGCGG CCCGAGGCCA GTGTCCCCTG TCTCATTGCC 
GACTGCACCT ACCGCTGGCA TGTTGGCACC TGGATGGAGT GCTCTGTTTC CTGTGGGGAT 
GGCATCCAGC GCCGGCGTGA CACCTGCCTC GGACCCCAGG CCCAGGCGCC TGTGCCAGCT 
GATTTCTGCC AGCACTTGCC CAAGCCGGTG ACTGTGCGTG GCTGCTGGGC TGGGCCCTGT 
GTGGGACAGG GTACGCCCAG CCTGGTGCCC CACGAAGAAG CCGCTGCTCC AGGACGGACC 
ACAGCCACCC CTGCTGGTGC CTCCCTGGAG TGGTCCCAGG CCCGGGGCCT GCTCTTCTCC 
CCGGCTCCCC AGCCTCGGCG GCTCCTGCCC GGGCCCCAGG AAAACTCAGT GCAGTCCAGT 
GCCTGTGGCA GGCAGCACCT TGAGCCAACA GGAACCATTG ACATGCGAGG CCCAGGGCAG 
GCAGACTGTG CAGTGGCCAT TGGGCGGCCC CTCGGGGAGG TGGTGACCCT CCGCGTCCTT 
GAGAGTTCTC TCAACTGCAG TGCGGGGGAC ATGTTGCTGC TTTGGGGCCG GCTCACCTGG 
AGGAAGATGT GCAGGAAGCT GTTGGACATG ACTTTCAGCT CCAAGACCAA CACGCTGGTG 
GTGAGGCAGC GCTGCGGGCG GCCAGGAGGT GGGGTGCTGC TGCGGTATGG GAGCCAGCTT 
GCTCCTGAAA CCTTCTACAG AGAATGTGAC ATGCAGCTCT TTGGGCCCTG GGGTGAAATC 
GTGAGCCCCT CGCTGAGTCC AGCCACGAGT AATGCAGGGG GCTGCCGGCT CTTCATTAAT 
GTGGCTCCGC ACGCACGGAT TGCCATCCAT GCCCTGGCCA CCAACATGGG CGCTGGGACC 
GAGGGAGCCA ATGCCAGCTA CATCTTGATC CGGGACACCC ACAGCTTGAG GACCACAGCG 
TTCCATGGGC AGCAGGTGCT CTACTGGGAG TCAGAGAGCA GCCAGGCTGA GATGGAGTTC 
AGCGAGGGCT TCCTGAAGGC TCAGGCCAGC CTGCGGGGCC AGTACTGGAC CCTCCAATCA 
TGGGTACCGG AGATGCAGGA CCCTCAGTCC TGGAAGGGAA AGGAAGGAAC CTGA

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

ADAMTS13 ( XM_017014234.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016869723.1 Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant X4, mRNA.

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CloneID	OHu64703
Clone ID Related Accession (Same CDS sequence)	XM_017014234.2 , XM_017014234.1
Accession Version	XM_017014234.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3294bp) 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	2016-06-05
Organism	Homo sapiens(human)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 13 isoform X4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) 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 :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTGCCAGG CCCTCTCCTG CCACACAGAC CCGCTGGACC AAAGCAGCTG CAGCCGCCTC 
CTCGTTCCTC TCCTGGATGG GACAGAATGT GGCGTGGAGA AGTGGTGCTC CAAGGGTCGC 
TGCCGCTCCC TGGTGGAGCT GACCCCCATA GCAGCAGTGC ATGGGCGCTG GTCTAGCTGG 
GGTCCCCGAA GTCCTTGCTC CCGCTCCTGC GGAGGAGGTG TGGTCACCAG GAGGCGGCAG 
TGCAACAACC CCAGACCTGC CTTTGGGGGG CGTGCATGTG TTGGTGCTGA CCTCCAGGCC 
GAGATGTGCA ACACTCAGGC CTGCGAGAAG ACCCAGCTGG AGTTCATGTC GCAACAGTGC 
GCCAGGACCG ACGGCCAGCC GCTGCGCTCC TCCCCTGGCG GCGCCTCCTT CTACCACTGG 
GGTGCTGCTG TACCACACAG CCAAGGGGAT GCTCTGTGCA GACACATGTG CCGGGCCATT 
GGCGAGAGCT TCATCATGAA GCGTGGAGAC AGCTTCCTCG ATGGGACCCG GTGTATGCCA 
AGTGGCCCCC GGGAGGACGG GACCCTGAGC CTGTGTGTGT CGGGCAGCTG CAGGACATTT 
GGCTGTGATG GTAGGATGGA CTCCCAGCAG GTATGGGACA GGTGCCAGGT GTGTGGTGGG 
GACAACAGCA CGTGCAGCCC ACGGAAGGGC TCTTTCACAG CTGGCAGAGC GAGAGAATAT 
GTCACGTTTC TGACAGTTAC CCCCAACCTG ACCAGTGTCT ACATTGCCAA CCACAGGCCT 
CTCTTCACAC ACTTGGCGGT GAGGATCGGA GGGCGCTATG TCGTGGCTGG GAAGATGAGC 
ATCTCCCCTA ACACCACCTA CCCCTCCCTC CTGGAGGATG GTCGTGTCGA GTACAGAGTG 
GCCCTCACCG AGGACCGGCT GCCCCGCCTG GAGGAGATCC GCATCTGGGG ACCCCTCCAG 
GAAGATGCTG ACATCCAGGT TTACAGGCGG TATGGCGAGG AGTATGGCAA CCTCACCCGC 
CCAGACATCA CCTTCACCTA CTTCCAGCCT AAGCCACGGC AGGCCTGGGT GTGGGCCGCT 
GTGCGTGGGC CCTGCTCGGT GAGCTGTGGG GCAGGGCTGC GCTGGGTAAA CTACAGCTGC 
CTGGACCAGG CCAGGAAGGA GTTGGTGGAG ACTGTCCAGT GCCAAGGGAG CCAGCAGCCA 
CCAGCGTGGC CAGAGGCCTG CGTGCTCGAA CCCTGCCCTC CCTACTGGGC GGTGGGAGAC 
TTCGGCCCAT GCAGCGCCTC CTGTGGGGGT GGCCTGCGGG AGCGGCCAGT GCGCTGCGTG 
GAGGCCCAGG GCAGCCTCCT GAAGACATTG CCCCCAGCCC GGTGCAGAGC AGGGGCCCAG 
CAGCCAGCTG TGGCGCTGGA AACCTGCAAC CCCCAGCCCT GCCCTGCCAG GTGGGAGGTG 
TCAGAGCCCA GCTCATGCAC ATCAGCTGGT GGAGCAGGCC TGGCCTTGGA GAACGAGACC 
TGTGTGCCAG GGGCAGATGG CCTGGAGGCT CCAGTGACTG AGGGGCCTGG CTCCGTAGAT 
GAGAAGCTGC CTGCCCCTGA GCCCTGTGTC GGGATGTCAT GTCCTCCAGG CTGGGGCCAT 
CTGGATGCCA CCTCTGCAGG GGAGAAGGCT CCCTCCCCAT GGGGCAGCAT CAGGACGGGG 
GCTCAAGCTG CACACGTGTG GACCCCTGCG GCAGGGTCGT GCTCCGTCTC CTGCGGGCGA 
GGTCTGATGG AGCTGCGTTT CCTGTGCATG GACTCTGCCC TCAGGGTGCC TGTCCAGGAA 
GAGCTGTGTG GCCTGGCAAG CAAGCCTGGG AGCCGGCGGG AGGTCTGCCA GGCTGTCCCG 
TGCCCTGCTC GGTGGCAGTA CAAGCTGGCG GCCTGCAGCG TGAGCTGTGG GAGAGGGGTC 
GTGCGGAGGA TCCTGTATTG TGCCCGGGCC CATGGGGAGG ACGATGGTGA GGAGATCCTG 
TTGGACACCC AGTGCCAGGG GCTGCCTCGC CCGGAACCCC AGGAGGCCTG CAGCCTGGAG 
CCCTGCCCAC CTAGGTGGAA AGTCATGTCC CTTGGCCCAT GTTCGGCCAG CTGTGGCCTT 
GGCACTGCTA GACGCTCGGT GGCCTGTGTG CAGCTCGACC AAGGCCAGGA CGTGGAGGTG 
GACGAGGCGG CCTGTGCGGC GCTGGTGCGG CCCGAGGCCA GTGTCCCCTG TCTCATTGCC 
GACTGCACCT ACCGCTGGCA TGTTGGCACC TGGATGGAGT GCTCTGTTTC CTGTGGGGAT 
GGCATCCAGC GCCGGCGTGA CACCTGCCTC GGACCCCAGG CCCAGGCGCC TGTGCCAGCT 
GATTTCTGCC AGCACTTGCC CAAGCCGGTG ACTGTGCGTG GCTGCTGGGC TGGGCCCTGT 
GTGGGACAGG GTACGCCCAG CCTGGTGCCC CACGAAGAAG CCGCTGCTCC AGGACGGACC 
ACAGCCACCC CTGCTGGTGC CTCCCTGGAG TGGTCCCAGG CCCGGGGCCT GCTCTTCTCC 
CCGGCTCCCC AGCCTCGGCG GCTCCTGCCC GGGCCCCAGG AAAACTCAGT GCAGTCCAGT 
GCCTGTGGCA GGCAGCACCT TGAGCCAACA GGAACCATTG ACATGCGAGG CCCAGGGCAG 
GCAGACTGTG CAGTGGCCAT TGGGCGGCCC CTCGGGGAGG TGGTGACCCT CCGCGTCCTT 
GAGAGTTCTC TCAACTGCAG TGCGGGGGAC ATGTTGCTGC TTTGGGGCCG GCTCACCTGG 
AGGAAGATGT GCAGGAAGCT GTTGGACATG ACTTTCAGCT CCAAGACCAA CACGCTGGTG 
GTGAGGCAGC GCTGCGGGCG GCCAGGAGGT GGGGTGCTGC TGCGGTATGG GAGCCAGCTT 
GCTCCTGAAA CCTTCTACAG AGAATGTGAC ATGCAGCTCT TTGGGCCCTG GGGTGAAATC 
GTGAGCCCCT CGCTGAGTCC AGCCACGAGT AATGCAGGGG GCTGCCGGCT CTTCATTAAT 
GTGGCTCCGC ACGCACGGAT TGCCATCCAT GCCCTGGCCA CCAACATGGG CGCTGGGACC 
GAGGGAGCCA ATGCCAGCTA CATCTTGATC CGGGACACCC ACAGCTTGAG GACCACAGCG 
TTCCATGGGC AGCAGGTGCT CTACTGGGAG TCAGAGAGCA GCCAGGCTGA GATGGAGTTC 
AGCGAGGGCT TCCTGAAGGC TCAGGCCAGC CTGCGGGGCC AGTACTGGAC CCTCCAATCA 
TGGGTACCGG AGATGCAGGA CCCTCAGTCC TGGAAGGGAA AGGAAGGAAC CTGA

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

RefSeq	XP_016869723.1
CDS	235..3528
Translation	MCQALSCHTDPLDQSSCSRLLVPLLDGTECGVEKWCSKGRCRSLVELTPIAAVHGRWSSWGPRSPCSRSCGGGVVTRRRQCNNPRPAFGGRACVGADLQAEMCNTQACEKTQLEFMSQQCARTDGQPLRSSPGGASFYHWGAAVPHSQGDALCRHMCRAIGESFIMKRGDSFLDGTRCMPSGPREDGTLSLCVSGSCRTFGCDGRMDSQQVWDRCQVCGGDNSTCSPRKGSFTAGRAREYVTFLTVTPNLTSVYIANHRPLFTHLAVRIGGRYVVAGKMSISPNTTYPSLLEDGRVEYRVALTEDRLPRLEEIRIWGPLQEDADIQVYRRYGEEYGNLTRPDITFTYFQPKPRQAWVWAAVRGPCSVSCGAGLRWVNYSCLDQARKELVETVQCQGSQQPPAWPEACVLEPCPPYWAVGDFGPCSASCGGGLRERPVRCVEAQGSLLKTLPPARCRAGAQQPAVALETCNPQPCPARWEVSEPSSCTSAGGAGLALENETCVPGADGLEAPVTEGPGSVDEKLPAPEPCVGMSCPPGWGHLDATSAGEKAPSPWGSIRTGAQAAHVWTPAAGSCSVSCGRGLMELRFLCMDSALRVPVQEELCGLASKPGSRREVCQAVPCPARWQYKLAACSVSCGRGVVRRILYCARAHGEDDGEEILLDTQCQGLPRPEPQEACSLEPCPPRWKVMSLGPCSASCGLGTARRSVACVQLDQGQDVEVDEAACAALVRPEASVPCLIADCTYRWHVGTWMECSVSCGDGIQRRRDTCLGPQAQAPVPADFCQHLPKPVTVRGCWAGPCVGQGTPSLVPHEEAAAPGRTTATPAGASLEWSQARGLLFSPAPQPRRLLPGPQENSVQSSACGRQHLEPTGTIDMRGPGQADCAVAIGRPLGEVVTLRVLESSLNCSAGDMLLLWGRLTWRKMCRKLLDMTFSSKTNTLVVRQRCGRPGGGVLLRYGSQLAPETFYRECDMQLFGPWGEIVSPSLSPATSNAGGCRLFINVAPHARIAIHALATNMGAGTEGANASYILIRDTHSLRTTAFHGQQVLYWESESSQAEMEFSEGFLKAQASLRGQYWTLQSWVPEMQDPQSWKGKEGT

Target ORF information:

RefSeq Version	XM_017014234.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant X4, mRNA.

Target ORF information:

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

XM_017014234.1

ORF Insert Sequence:

ATGTGCCAGG CCCTCTCCTG CCACACAGAC CCGCTGGACC AAAGCAGCTG CAGCCGCCTC 
CTCGTTCCTC TCCTGGATGG GACAGAATGT GGCGTGGAGA AGTGGTGCTC CAAGGGTCGC 
TGCCGCTCCC TGGTGGAGCT GACCCCCATA GCAGCAGTGC ATGGGCGCTG GTCTAGCTGG 
GGTCCCCGAA GTCCTTGCTC CCGCTCCTGC GGAGGAGGTG TGGTCACCAG GAGGCGGCAG 
TGCAACAACC CCAGACCTGC CTTTGGGGGG CGTGCATGTG TTGGTGCTGA CCTCCAGGCC 
GAGATGTGCA ACACTCAGGC CTGCGAGAAG ACCCAGCTGG AGTTCATGTC GCAACAGTGC 
GCCAGGACCG ACGGCCAGCC GCTGCGCTCC TCCCCTGGCG GCGCCTCCTT CTACCACTGG 
GGTGCTGCTG TACCACACAG CCAAGGGGAT GCTCTGTGCA GACACATGTG CCGGGCCATT 
GGCGAGAGCT TCATCATGAA GCGTGGAGAC AGCTTCCTCG ATGGGACCCG GTGTATGCCA 
AGTGGCCCCC GGGAGGACGG GACCCTGAGC CTGTGTGTGT CGGGCAGCTG CAGGACATTT 
GGCTGTGATG GTAGGATGGA CTCCCAGCAG GTATGGGACA GGTGCCAGGT GTGTGGTGGG 
GACAACAGCA CGTGCAGCCC ACGGAAGGGC TCTTTCACAG CTGGCAGAGC GAGAGAATAT 
GTCACGTTTC TGACAGTTAC CCCCAACCTG ACCAGTGTCT ACATTGCCAA CCACAGGCCT 
CTCTTCACAC ACTTGGCGGT GAGGATCGGA GGGCGCTATG TCGTGGCTGG GAAGATGAGC 
ATCTCCCCTA ACACCACCTA CCCCTCCCTC CTGGAGGATG GTCGTGTCGA GTACAGAGTG 
GCCCTCACCG AGGACCGGCT GCCCCGCCTG GAGGAGATCC GCATCTGGGG ACCCCTCCAG 
GAAGATGCTG ACATCCAGGT TTACAGGCGG TATGGCGAGG AGTATGGCAA CCTCACCCGC 
CCAGACATCA CCTTCACCTA CTTCCAGCCT AAGCCACGGC AGGCCTGGGT GTGGGCCGCT 
GTGCGTGGGC CCTGCTCGGT GAGCTGTGGG GCAGGGCTGC GCTGGGTAAA CTACAGCTGC 
CTGGACCAGG CCAGGAAGGA GTTGGTGGAG ACTGTCCAGT GCCAAGGGAG CCAGCAGCCA 
CCAGCGTGGC CAGAGGCCTG CGTGCTCGAA CCCTGCCCTC CCTACTGGGC GGTGGGAGAC 
TTCGGCCCAT GCAGCGCCTC CTGTGGGGGT GGCCTGCGGG AGCGGCCAGT GCGCTGCGTG 
GAGGCCCAGG GCAGCCTCCT GAAGACATTG CCCCCAGCCC GGTGCAGAGC AGGGGCCCAG 
CAGCCAGCTG TGGCGCTGGA AACCTGCAAC CCCCAGCCCT GCCCTGCCAG GTGGGAGGTG 
TCAGAGCCCA GCTCATGCAC ATCAGCTGGT GGAGCAGGCC TGGCCTTGGA GAACGAGACC 
TGTGTGCCAG GGGCAGATGG CCTGGAGGCT CCAGTGACTG AGGGGCCTGG CTCCGTAGAT 
GAGAAGCTGC CTGCCCCTGA GCCCTGTGTC GGGATGTCAT GTCCTCCAGG CTGGGGCCAT 
CTGGATGCCA CCTCTGCAGG GGAGAAGGCT CCCTCCCCAT GGGGCAGCAT CAGGACGGGG 
GCTCAAGCTG CACACGTGTG GACCCCTGCG GCAGGGTCGT GCTCCGTCTC CTGCGGGCGA 
GGTCTGATGG AGCTGCGTTT CCTGTGCATG GACTCTGCCC TCAGGGTGCC TGTCCAGGAA 
GAGCTGTGTG GCCTGGCAAG CAAGCCTGGG AGCCGGCGGG AGGTCTGCCA GGCTGTCCCG 
TGCCCTGCTC GGTGGCAGTA CAAGCTGGCG GCCTGCAGCG TGAGCTGTGG GAGAGGGGTC 
GTGCGGAGGA TCCTGTATTG TGCCCGGGCC CATGGGGAGG ACGATGGTGA GGAGATCCTG 
TTGGACACCC AGTGCCAGGG GCTGCCTCGC CCGGAACCCC AGGAGGCCTG CAGCCTGGAG 
CCCTGCCCAC CTAGGTGGAA AGTCATGTCC CTTGGCCCAT GTTCGGCCAG CTGTGGCCTT 
GGCACTGCTA GACGCTCGGT GGCCTGTGTG CAGCTCGACC AAGGCCAGGA CGTGGAGGTG 
GACGAGGCGG CCTGTGCGGC GCTGGTGCGG CCCGAGGCCA GTGTCCCCTG TCTCATTGCC 
GACTGCACCT ACCGCTGGCA TGTTGGCACC TGGATGGAGT GCTCTGTTTC CTGTGGGGAT 
GGCATCCAGC GCCGGCGTGA CACCTGCCTC GGACCCCAGG CCCAGGCGCC TGTGCCAGCT 
GATTTCTGCC AGCACTTGCC CAAGCCGGTG ACTGTGCGTG GCTGCTGGGC TGGGCCCTGT 
GTGGGACAGG GTACGCCCAG CCTGGTGCCC CACGAAGAAG CCGCTGCTCC AGGACGGACC 
ACAGCCACCC CTGCTGGTGC CTCCCTGGAG TGGTCCCAGG CCCGGGGCCT GCTCTTCTCC 
CCGGCTCCCC AGCCTCGGCG GCTCCTGCCC GGGCCCCAGG AAAACTCAGT GCAGTCCAGT 
GCCTGTGGCA GGCAGCACCT TGAGCCAACA GGAACCATTG ACATGCGAGG CCCAGGGCAG 
GCAGACTGTG CAGTGGCCAT TGGGCGGCCC CTCGGGGAGG TGGTGACCCT CCGCGTCCTT 
GAGAGTTCTC TCAACTGCAG TGCGGGGGAC ATGTTGCTGC TTTGGGGCCG GCTCACCTGG 
AGGAAGATGT GCAGGAAGCT GTTGGACATG ACTTTCAGCT CCAAGACCAA CACGCTGGTG 
GTGAGGCAGC GCTGCGGGCG GCCAGGAGGT GGGGTGCTGC TGCGGTATGG GAGCCAGCTT 
GCTCCTGAAA CCTTCTACAG AGAATGTGAC ATGCAGCTCT TTGGGCCCTG GGGTGAAATC 
GTGAGCCCCT CGCTGAGTCC AGCCACGAGT AATGCAGGGG GCTGCCGGCT CTTCATTAAT 
GTGGCTCCGC ACGCACGGAT TGCCATCCAT GCCCTGGCCA CCAACATGGG CGCTGGGACC 
GAGGGAGCCA ATGCCAGCTA CATCTTGATC CGGGACACCC ACAGCTTGAG GACCACAGCG 
TTCCATGGGC AGCAGGTGCT CTACTGGGAG TCAGAGAGCA GCCAGGCTGA GATGGAGTTC 
AGCGAGGGCT TCCTGAAGGC TCAGGCCAGC CTGCGGGGCC AGTACTGGAC CCTCCAATCA 
TGGGTACCGG AGATGCAGGA CCCTCAGTCC TGGAAGGGAA AGGAAGGAAC CTGA

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

ADAMTS13 ( NM_139027.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_620596.2 Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant 2, mRNA.

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CloneID	OHu23357
Clone ID Related Accession (Same CDS sequence)	NM_139027.4 , NM_139027.5
Accession Version	NM_139027.4	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4116bp) 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	2018-12-22
Organism	Homo sapiens(human)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 13 isoform 2 preproprotein
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AB069698.2, AJ420810.1, AF414401.1 and AV655072.1. On Jul 18, 2013 this sequence version replaced NM_139027.3. Transcript Variant: This variant (2) uses an alternate in-frame splice site in the 3' coding region, compared to variant 1. The encoded isoform (2) is shorter than isoform 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 :: AJ420810.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMN04284274 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: full length.

ATGCACCAGC GTCACCCCCG GGCAAGATGC CCTCCCCTCT GTGTGGCCGG AATCCTTGCC 
TGTGGCTTTC TCCTGGGCTG CTGGGGACCC TCCCATTTCC AGCAGAGTTG TCTTCAGGCT 
TTGGAGCCAC AGGCCGTGTC TTCTTACTTG AGCCCTGGTG CTCCCTTAAA AGGCCGCCCT 
CCTTCCCCTG GCTTCCAGAG GCAGAGGCAG AGGCAGAGGC GGGCTGCAGG CGGCATCCTA 
CACCTGGAGC TGCTGGTGGC CGTGGGCCCC GATGTCTTCC AGGCTCACCA GGAGGACACA 
GAGCGCTATG TGCTCACCAA CCTCAACATC GGGGCAGAAC TGCTTCGGGA CCCGTCCCTG 
GGGGCTCAGT TTCGGGTGCA CCTGGTGAAG ATGGTCATTC TGACAGAGCC TGAGGGTGCT 
CCAAATATCA CAGCCAACCT CACCTCGTCC CTGCTGAGCG TCTGTGGGTG GAGCCAGACC 
ATCAACCCTG AGGACGACAC GGATCCTGGC CATGCTGACC TGGTCCTCTA TATCACTAGG 
TTTGACCTGG AGTTGCCTGA TGGTAACCGG CAGGTGCGGG GCGTCACCCA GCTGGGCGGT 
GCCTGCTCCC CAACCTGGAG CTGCCTCATT ACCGAGGACA CTGGCTTCGA CCTGGGAGTC 
ACCATTGCCC ATGAGATTGG GCACAGCTTC GGCCTGGAGC ACGACGGCGC GCCCGGCAGC 
GGCTGCGGCC CCAGCGGACA CGTGATGGCT TCGGACGGCG CCGCGCCCCG CGCCGGCCTC 
GCCTGGTCCC CCTGCAGCCG CCGGCAGCTG CTGAGCCTGC TCAGCGCAGG ACGGGCGCGC 
TGCGTGTGGG ACCCGCCGCG GCCTCAACCC GGGTCCGCGG GGCACCCGCC GGATGCGCAG 
CCTGGCCTCT ACTACAGCGC CAACGAGCAG TGCCGCGTGG CCTTCGGCCC CAAGGCTGTC 
GCCTGCACCT TCGCCAGGGA GCACCTGGAT ATGTGCCAGG CCCTCTCCTG CCACACAGAC 
CCGCTGGACC AAAGCAGCTG CAGCCGCCTC CTCGTTCCTC TCCTGGATGG GACAGAATGT 
GGCGTGGAGA AGTGGTGCTC CAAGGGTCGC TGCCGCTCCC TGGTGGAGCT GACCCCCATA 
GCAGCAGTGC ATGGGCGCTG GTCTAGCTGG GGTCCCCGAA GTCCTTGCTC CCGCTCCTGC 
GGAGGAGGTG TGGTCACCAG GAGGCGGCAG TGCAACAACC CCAGACCTGC CTTTGGGGGG 
CGTGCATGTG TTGGTGCTGA CCTCCAGGCC GAGATGTGCA ACACTCAGGC CTGCGAGAAG 
ACCCAGCTGG AGTTCATGTC GCAACAGTGC GCCAGGACCG ACGGCCAGCC GCTGCGCTCC 
TCCCCTGGCG GCGCCTCCTT CTACCACTGG GGTGCTGCTG TACCACACAG CCAAGGGGAT 
GCTCTGTGCA GACACATGTG CCGGGCCATT GGCGAGAGCT TCATCATGAA GCGTGGAGAC 
AGCTTCCTCG ATGGGACCCG GTGTATGCCA AGTGGCCCCC GGGAGGACGG GACCCTGAGC 
CTGTGTGTGT CGGGCAGCTG CAGGACATTT GGCTGTGATG GTAGGATGGA CTCCCAGCAG 
GTATGGGACA GGTGCCAGGT GTGTGGTGGG GACAACAGCA CGTGCAGCCC ACGGAAGGGC 
TCTTTCACAG CTGGCAGAGC GAGAGAATAT GTCACGTTTC TGACAGTTAC CCCCAACCTG 
ACCAGTGTCT ACATTGCCAA CCACAGGCCT CTCTTCACAC ACTTGGCGGT GAGGATCGGA 
GGGCGCTATG TCGTGGCTGG GAAGATGAGC ATCTCCCCTA ACACCACCTA CCCCTCCCTC 
CTGGAGGATG GTCGTGTCGA GTACAGAGTG GCCCTCACCG AGGACCGGCT GCCCCGCCTG 
GAGGAGATCC GCATCTGGGG ACCCCTCCAG GAAGATGCTG ACATCCAGGT TTACAGGCGG 
TATGGCGAGG AGTATGGCAA CCTCACCCGC CCAGACATCA CCTTCACCTA CTTCCAGCCT 
AAGCCACGGC AGGCCTGGGT GTGGGCCGCT GTGCGTGGGC CCTGCTCGGT GAGCTGTGGG 
GCAGGGCTGC GCTGGGTAAA CTACAGCTGC CTGGACCAGG CCAGGAAGGA GTTGGTGGAG 
ACTGTCCAGT GCCAAGGGAG CCAGCAGCCA CCAGCGTGGC CAGAGGCCTG CGTGCTCGAA 
CCCTGCCCTC CCTACTGGGC GGTGGGAGAC TTCGGCCCAT GCAGCGCCTC CTGTGGGGGT 
GGCCTGCGGG AGCGGCCAGT GCGCTGCGTG GAGGCCCAGG GCAGCCTCCT GAAGACATTG 
CCCCCAGCCC GGTGCAGAGC AGGGGCCCAG CAGCCAGCTG TGGCGCTGGA AACCTGCAAC 
CCCCAGCCCT GCCCTGCCAG GTGGGAGGTG TCAGAGCCCA GCTCATGCAC ATCAGCTGGT 
GGAGCAGGCC TGGCCTTGGA GAACGAGACC TGTGTGCCAG GGGCAGATGG CCTGGAGGCT 
CCAGTGACTG AGGGGCCTGG CTCCGTAGAT GAGAAGCTGC CTGCCCCTGA GCCCTGTGTC 
GGGATGTCAT GTCCTCCAGG CTGGGGCCAT CTGGATGCCA CCTCTGCAGG GGAGAAGGCT 
CCCTCCCCAT GGGGCAGCAT CAGGACGGGG GCTCAAGCTG CACACGTGTG GACCCCTGCG 
GCAGGGTCGT GCTCCGTCTC CTGCGGGCGA GGTCTGATGG AGCTGCGTTT CCTGTGCATG 
GACTCTGCCC TCAGGGTGCC TGTCCAGGAA GAGCTGTGTG GCCTGGCAAG CAAGCCTGGG 
AGCCGGCGGG AGGTCTGCCA GGCTGTCCCG TGCCCTGCTC GGTGGCAGTA CAAGCTGGCG 
GCCTGCAGCG TGAGCTGTGG GAGAGGGGTC GTGCGGAGGA TCCTGTATTG TGCCCGGGCC 
CATGGGGAGG ACGATGGTGA GGAGATCCTG TTGGACACCC AGTGCCAGGG GCTGCCTCGC 
CCGGAACCCC AGGAGGCCTG CAGCCTGGAG CCCTGCCCAC CTAGGTGGAA AGTCATGTCC 
CTTGGCCCAT GTTCGGCCAG CTGTGGCCTT GGCACTGCTA GACGCTCGGT GGCCTGTGTG 
CAGCTCGACC AAGGCCAGGA CGTGGAGGTG GACGAGGCGG CCTGTGCGGC GCTGGTGCGG 
CCCGAGGCCA GTGTCCCCTG TCTCATTGCC GACTGCACCT ACCGCTGGCA TGTTGGCACC 
TGGATGGAGT GCTCTGTTTC CTGTGGGGAT GGCATCCAGC GCCGGCGTGA CACCTGCCTC 
GGACCCCAGG CCCAGGCGCC TGTGCCAGCT GATTTCTGCC AGCACTTGCC CAAGCCGGTG 
ACTGTGCGTG GCTGCTGGGC TGGGCCCTGT GTGGGACAGG GTGCCTGTGG CAGGCAGCAC 
CTTGAGCCAA CAGGAACCAT TGACATGCGA GGCCCAGGGC AGGCAGACTG TGCAGTGGCC 
ATTGGGCGGC CCCTCGGGGA GGTGGTGACC CTCCGCGTCC TTGAGAGTTC TCTCAACTGC 
AGTGCGGGGG ACATGTTGCT GCTTTGGGGC CGGCTCACCT GGAGGAAGAT GTGCAGGAAG 
CTGTTGGACA TGACTTTCAG CTCCAAGACC AACACGCTGG TGGTGAGGCA GCGCTGCGGG 
CGGCCAGGAG GTGGGGTGCT GCTGCGGTAT GGGAGCCAGC TTGCTCCTGA AACCTTCTAC 
AGAGAATGTG ACATGCAGCT CTTTGGGCCC TGGGGTGAAA TCGTGAGCCC CTCGCTGAGT 
CCAGCCACGA GTAATGCAGG GGGCTGCCGG CTCTTCATTA ATGTGGCTCC GCACGCACGG 
ATTGCCATCC ATGCCCTGGC CACCAACATG GGCGCTGGGA CCGAGGGAGC CAATGCCAGC 
TACATCTTGA TCCGGGACAC CCACAGCTTG AGGACCACAG CGTTCCATGG GCAGCAGGTG 
CTCTACTGGG AGTCAGAGAG CAGCCAGGCT GAGATGGAGT TCAGCGAGGG CTTCCTGAAG 
GCTCAGGCCA GCCTGCGGGG CCAGTACTGG ACCCTCCAAT CATGGGTACC GGAGATGCAG 
GACCCTCAGT CCTGGAAGGG AAAGGAAGGA ACCTGA

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

RefSeq	NP_620596.2
CDS	445..4560
Translation	MHQRHPRARCPPLCVAGILACGFLLGCWGPSHFQQSCLQALEPQAVSSYLSPGAPLKGRPPSPGFQRQRQRQRRAAGGILHLELLVAVGPDVFQAHQEDTERYVLTNLNIGAELLRDPSLGAQFRVHLVKMVILTEPEGAPNITANLTSSLLSVCGWSQTINPEDDTDPGHADLVLYITRFDLELPDGNRQVRGVTQLGGACSPTWSCLITEDTGFDLGVTIAHEIGHSFGLEHDGAPGSGCGPSGHVMASDGAAPRAGLAWSPCSRRQLLSLLSAGRARCVWDPPRPQPGSAGHPPDAQPGLYYSANEQCRVAFGPKAVACTFAREHLDMCQALSCHTDPLDQSSCSRLLVPLLDGTECGVEKWCSKGRCRSLVELTPIAAVHGRWSSWGPRSPCSRSCGGGVVTRRRQCNNPRPAFGGRACVGADLQAEMCNTQACEKTQLEFMSQQCARTDGQPLRSSPGGASFYHWGAAVPHSQGDALCRHMCRAIGESFIMKRGDSFLDGTRCMPSGPREDGTLSLCVSGSCRTFGCDGRMDSQQVWDRCQVCGGDNSTCSPRKGSFTAGRAREYVTFLTVTPNLTSVYIANHRPLFTHLAVRIGGRYVVAGKMSISPNTTYPSLLEDGRVEYRVALTEDRLPRLEEIRIWGPLQEDADIQVYRRYGEEYGNLTRPDITFTYFQPKPRQAWVWAAVRGPCSVSCGAGLRWVNYSCLDQARKELVETVQCQGSQQPPAWPEACVLEPCPPYWAVGDFGPCSASCGGGLRERPVRCVEAQGSLLKTLPPARCRAGAQQPAVALETCNPQPCPARWEVSEPSSCTSAGGAGLALENETCVPGADGLEAPVTEGPGSVDEKLPAPEPCVGMSCPPGWGHLDATSAGEKAPSPWGSIRTGAQAAHVWTPAAGSCSVSCGRGLMELRFLCMDSALRVPVQEELCGLASKPGSRREVCQAVPCPARWQYKLAACSVSCGRGVVRRILYCARAHGEDDGEEILLDTQCQGLPRPEPQEACSLEPCPPRWKVMSLGPCSASCGLGTARRSVACVQLDQGQDVEVDEAACAALVRPEASVPCLIADCTYRWHVGTWMECSVSCGDGIQRRRDTCLGPQAQAPVPADFCQHLPKPVTVRGCWAGPCVGQGACGRQHLEPTGTIDMRGPGQADCAVAIGRPLGEVVTLRVLESSLNCSAGDMLLLWGRLTWRKMCRKLLDMTFSSKTNTLVVRQRCGRPGGGVLLRYGSQLAPETFYRECDMQLFGPWGEIVSPSLSPATSNAGGCRLFINVAPHARIAIHALATNMGAGTEGANASYILIRDTHSLRTTAFHGQQVLYWESESSQAEMEFSEGFLKAQASLRGQYWTLQSWVPEMQDPQSWKGKEGT

Target ORF information:

RefSeq Version	NM_139027.4
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant 2, mRNA.

Target ORF information:

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

NM_139027.4

ORF Insert Sequence:

ATGCACCAGC GTCACCCCCG GGCAAGATGC CCTCCCCTCT GTGTGGCCGG AATCCTTGCC 
TGTGGCTTTC TCCTGGGCTG CTGGGGACCC TCCCATTTCC AGCAGAGTTG TCTTCAGGCT 
TTGGAGCCAC AGGCCGTGTC TTCTTACTTG AGCCCTGGTG CTCCCTTAAA AGGCCGCCCT 
CCTTCCCCTG GCTTCCAGAG GCAGAGGCAG AGGCAGAGGC GGGCTGCAGG CGGCATCCTA 
CACCTGGAGC TGCTGGTGGC CGTGGGCCCC GATGTCTTCC AGGCTCACCA GGAGGACACA 
GAGCGCTATG TGCTCACCAA CCTCAACATC GGGGCAGAAC TGCTTCGGGA CCCGTCCCTG 
GGGGCTCAGT TTCGGGTGCA CCTGGTGAAG ATGGTCATTC TGACAGAGCC TGAGGGTGCT 
CCAAATATCA CAGCCAACCT CACCTCGTCC CTGCTGAGCG TCTGTGGGTG GAGCCAGACC 
ATCAACCCTG AGGACGACAC GGATCCTGGC CATGCTGACC TGGTCCTCTA TATCACTAGG 
TTTGACCTGG AGTTGCCTGA TGGTAACCGG CAGGTGCGGG GCGTCACCCA GCTGGGCGGT 
GCCTGCTCCC CAACCTGGAG CTGCCTCATT ACCGAGGACA CTGGCTTCGA CCTGGGAGTC 
ACCATTGCCC ATGAGATTGG GCACAGCTTC GGCCTGGAGC ACGACGGCGC GCCCGGCAGC 
GGCTGCGGCC CCAGCGGACA CGTGATGGCT TCGGACGGCG CCGCGCCCCG CGCCGGCCTC 
GCCTGGTCCC CCTGCAGCCG CCGGCAGCTG CTGAGCCTGC TCAGCGCAGG ACGGGCGCGC 
TGCGTGTGGG ACCCGCCGCG GCCTCAACCC GGGTCCGCGG GGCACCCGCC GGATGCGCAG 
CCTGGCCTCT ACTACAGCGC CAACGAGCAG TGCCGCGTGG CCTTCGGCCC CAAGGCTGTC 
GCCTGCACCT TCGCCAGGGA GCACCTGGAT ATGTGCCAGG CCCTCTCCTG CCACACAGAC 
CCGCTGGACC AAAGCAGCTG CAGCCGCCTC CTCGTTCCTC TCCTGGATGG GACAGAATGT 
GGCGTGGAGA AGTGGTGCTC CAAGGGTCGC TGCCGCTCCC TGGTGGAGCT GACCCCCATA 
GCAGCAGTGC ATGGGCGCTG GTCTAGCTGG GGTCCCCGAA GTCCTTGCTC CCGCTCCTGC 
GGAGGAGGTG TGGTCACCAG GAGGCGGCAG TGCAACAACC CCAGACCTGC CTTTGGGGGG 
CGTGCATGTG TTGGTGCTGA CCTCCAGGCC GAGATGTGCA ACACTCAGGC CTGCGAGAAG 
ACCCAGCTGG AGTTCATGTC GCAACAGTGC GCCAGGACCG ACGGCCAGCC GCTGCGCTCC 
TCCCCTGGCG GCGCCTCCTT CTACCACTGG GGTGCTGCTG TACCACACAG CCAAGGGGAT 
GCTCTGTGCA GACACATGTG CCGGGCCATT GGCGAGAGCT TCATCATGAA GCGTGGAGAC 
AGCTTCCTCG ATGGGACCCG GTGTATGCCA AGTGGCCCCC GGGAGGACGG GACCCTGAGC 
CTGTGTGTGT CGGGCAGCTG CAGGACATTT GGCTGTGATG GTAGGATGGA CTCCCAGCAG 
GTATGGGACA GGTGCCAGGT GTGTGGTGGG GACAACAGCA CGTGCAGCCC ACGGAAGGGC 
TCTTTCACAG CTGGCAGAGC GAGAGAATAT GTCACGTTTC TGACAGTTAC CCCCAACCTG 
ACCAGTGTCT ACATTGCCAA CCACAGGCCT CTCTTCACAC ACTTGGCGGT GAGGATCGGA 
GGGCGCTATG TCGTGGCTGG GAAGATGAGC ATCTCCCCTA ACACCACCTA CCCCTCCCTC 
CTGGAGGATG GTCGTGTCGA GTACAGAGTG GCCCTCACCG AGGACCGGCT GCCCCGCCTG 
GAGGAGATCC GCATCTGGGG ACCCCTCCAG GAAGATGCTG ACATCCAGGT TTACAGGCGG 
TATGGCGAGG AGTATGGCAA CCTCACCCGC CCAGACATCA CCTTCACCTA CTTCCAGCCT 
AAGCCACGGC AGGCCTGGGT GTGGGCCGCT GTGCGTGGGC CCTGCTCGGT GAGCTGTGGG 
GCAGGGCTGC GCTGGGTAAA CTACAGCTGC CTGGACCAGG CCAGGAAGGA GTTGGTGGAG 
ACTGTCCAGT GCCAAGGGAG CCAGCAGCCA CCAGCGTGGC CAGAGGCCTG CGTGCTCGAA 
CCCTGCCCTC CCTACTGGGC GGTGGGAGAC TTCGGCCCAT GCAGCGCCTC CTGTGGGGGT 
GGCCTGCGGG AGCGGCCAGT GCGCTGCGTG GAGGCCCAGG GCAGCCTCCT GAAGACATTG 
CCCCCAGCCC GGTGCAGAGC AGGGGCCCAG CAGCCAGCTG TGGCGCTGGA AACCTGCAAC 
CCCCAGCCCT GCCCTGCCAG GTGGGAGGTG TCAGAGCCCA GCTCATGCAC ATCAGCTGGT 
GGAGCAGGCC TGGCCTTGGA GAACGAGACC TGTGTGCCAG GGGCAGATGG CCTGGAGGCT 
CCAGTGACTG AGGGGCCTGG CTCCGTAGAT GAGAAGCTGC CTGCCCCTGA GCCCTGTGTC 
GGGATGTCAT GTCCTCCAGG CTGGGGCCAT CTGGATGCCA CCTCTGCAGG GGAGAAGGCT 
CCCTCCCCAT GGGGCAGCAT CAGGACGGGG GCTCAAGCTG CACACGTGTG GACCCCTGCG 
GCAGGGTCGT GCTCCGTCTC CTGCGGGCGA GGTCTGATGG AGCTGCGTTT CCTGTGCATG 
GACTCTGCCC TCAGGGTGCC TGTCCAGGAA GAGCTGTGTG GCCTGGCAAG CAAGCCTGGG 
AGCCGGCGGG AGGTCTGCCA GGCTGTCCCG TGCCCTGCTC GGTGGCAGTA CAAGCTGGCG 
GCCTGCAGCG TGAGCTGTGG GAGAGGGGTC GTGCGGAGGA TCCTGTATTG TGCCCGGGCC 
CATGGGGAGG ACGATGGTGA GGAGATCCTG TTGGACACCC AGTGCCAGGG GCTGCCTCGC 
CCGGAACCCC AGGAGGCCTG CAGCCTGGAG CCCTGCCCAC CTAGGTGGAA AGTCATGTCC 
CTTGGCCCAT GTTCGGCCAG CTGTGGCCTT GGCACTGCTA GACGCTCGGT GGCCTGTGTG 
CAGCTCGACC AAGGCCAGGA CGTGGAGGTG GACGAGGCGG CCTGTGCGGC GCTGGTGCGG 
CCCGAGGCCA GTGTCCCCTG TCTCATTGCC GACTGCACCT ACCGCTGGCA TGTTGGCACC 
TGGATGGAGT GCTCTGTTTC CTGTGGGGAT GGCATCCAGC GCCGGCGTGA CACCTGCCTC 
GGACCCCAGG CCCAGGCGCC TGTGCCAGCT GATTTCTGCC AGCACTTGCC CAAGCCGGTG 
ACTGTGCGTG GCTGCTGGGC TGGGCCCTGT GTGGGACAGG GTGCCTGTGG CAGGCAGCAC 
CTTGAGCCAA CAGGAACCAT TGACATGCGA GGCCCAGGGC AGGCAGACTG TGCAGTGGCC 
ATTGGGCGGC CCCTCGGGGA GGTGGTGACC CTCCGCGTCC TTGAGAGTTC TCTCAACTGC 
AGTGCGGGGG ACATGTTGCT GCTTTGGGGC CGGCTCACCT GGAGGAAGAT GTGCAGGAAG 
CTGTTGGACA TGACTTTCAG CTCCAAGACC AACACGCTGG TGGTGAGGCA GCGCTGCGGG 
CGGCCAGGAG GTGGGGTGCT GCTGCGGTAT GGGAGCCAGC TTGCTCCTGA AACCTTCTAC 
AGAGAATGTG ACATGCAGCT CTTTGGGCCC TGGGGTGAAA TCGTGAGCCC CTCGCTGAGT 
CCAGCCACGA GTAATGCAGG GGGCTGCCGG CTCTTCATTA ATGTGGCTCC GCACGCACGG 
ATTGCCATCC ATGCCCTGGC CACCAACATG GGCGCTGGGA CCGAGGGAGC CAATGCCAGC 
TACATCTTGA TCCGGGACAC CCACAGCTTG AGGACCACAG CGTTCCATGG GCAGCAGGTG 
CTCTACTGGG AGTCAGAGAG CAGCCAGGCT GAGATGGAGT TCAGCGAGGG CTTCCTGAAG 
GCTCAGGCCA GCCTGCGGGG CCAGTACTGG ACCCTCCAAT CATGGGTACC GGAGATGCAG 
GACCCTCAGT CCTGGAAGGG AAAGGAAGGA ACCTGA

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

ADAMTS13 ( NM_139027.5 ) cDNA ORF clone, Homo sapiens(human) -> NP_620596.2 Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant 2, mRNA.

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CloneID	OHu23357
Clone ID Related Accession (Same CDS sequence)	NM_139027.4 , NM_139027.5
Accession Version	NM_139027.5 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4116bp) 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	2019-10-26
Organism	Homo sapiens(human)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 13 isoform 2 preproprotein
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AB069698.2, AJ420810.1, AF414401.1 and AV655072.1. On Jun 2, 2019 this sequence version replaced NM_139027.4. Transcript Variant: This variant (2) uses an alternate in-frame splice site in the 3' coding region, compared to variant 1. The encoded isoform (2) is shorter than isoform 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 :: AJ420810.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMN04284274 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: full length.

ATGCACCAGC GTCACCCCCG GGCAAGATGC CCTCCCCTCT GTGTGGCCGG AATCCTTGCC 
TGTGGCTTTC TCCTGGGCTG CTGGGGACCC TCCCATTTCC AGCAGAGTTG TCTTCAGGCT 
TTGGAGCCAC AGGCCGTGTC TTCTTACTTG AGCCCTGGTG CTCCCTTAAA AGGCCGCCCT 
CCTTCCCCTG GCTTCCAGAG GCAGAGGCAG AGGCAGAGGC GGGCTGCAGG CGGCATCCTA 
CACCTGGAGC TGCTGGTGGC CGTGGGCCCC GATGTCTTCC AGGCTCACCA GGAGGACACA 
GAGCGCTATG TGCTCACCAA CCTCAACATC GGGGCAGAAC TGCTTCGGGA CCCGTCCCTG 
GGGGCTCAGT TTCGGGTGCA CCTGGTGAAG ATGGTCATTC TGACAGAGCC TGAGGGTGCT 
CCAAATATCA CAGCCAACCT CACCTCGTCC CTGCTGAGCG TCTGTGGGTG GAGCCAGACC 
ATCAACCCTG AGGACGACAC GGATCCTGGC CATGCTGACC TGGTCCTCTA TATCACTAGG 
TTTGACCTGG AGTTGCCTGA TGGTAACCGG CAGGTGCGGG GCGTCACCCA GCTGGGCGGT 
GCCTGCTCCC CAACCTGGAG CTGCCTCATT ACCGAGGACA CTGGCTTCGA CCTGGGAGTC 
ACCATTGCCC ATGAGATTGG GCACAGCTTC GGCCTGGAGC ACGACGGCGC GCCCGGCAGC 
GGCTGCGGCC CCAGCGGACA CGTGATGGCT TCGGACGGCG CCGCGCCCCG CGCCGGCCTC 
GCCTGGTCCC CCTGCAGCCG CCGGCAGCTG CTGAGCCTGC TCAGCGCAGG ACGGGCGCGC 
TGCGTGTGGG ACCCGCCGCG GCCTCAACCC GGGTCCGCGG GGCACCCGCC GGATGCGCAG 
CCTGGCCTCT ACTACAGCGC CAACGAGCAG TGCCGCGTGG CCTTCGGCCC CAAGGCTGTC 
GCCTGCACCT TCGCCAGGGA GCACCTGGAT ATGTGCCAGG CCCTCTCCTG CCACACAGAC 
CCGCTGGACC AAAGCAGCTG CAGCCGCCTC CTCGTTCCTC TCCTGGATGG GACAGAATGT 
GGCGTGGAGA AGTGGTGCTC CAAGGGTCGC TGCCGCTCCC TGGTGGAGCT GACCCCCATA 
GCAGCAGTGC ATGGGCGCTG GTCTAGCTGG GGTCCCCGAA GTCCTTGCTC CCGCTCCTGC 
GGAGGAGGTG TGGTCACCAG GAGGCGGCAG TGCAACAACC CCAGACCTGC CTTTGGGGGG 
CGTGCATGTG TTGGTGCTGA CCTCCAGGCC GAGATGTGCA ACACTCAGGC CTGCGAGAAG 
ACCCAGCTGG AGTTCATGTC GCAACAGTGC GCCAGGACCG ACGGCCAGCC GCTGCGCTCC 
TCCCCTGGCG GCGCCTCCTT CTACCACTGG GGTGCTGCTG TACCACACAG CCAAGGGGAT 
GCTCTGTGCA GACACATGTG CCGGGCCATT GGCGAGAGCT TCATCATGAA GCGTGGAGAC 
AGCTTCCTCG ATGGGACCCG GTGTATGCCA AGTGGCCCCC GGGAGGACGG GACCCTGAGC 
CTGTGTGTGT CGGGCAGCTG CAGGACATTT GGCTGTGATG GTAGGATGGA CTCCCAGCAG 
GTATGGGACA GGTGCCAGGT GTGTGGTGGG GACAACAGCA CGTGCAGCCC ACGGAAGGGC 
TCTTTCACAG CTGGCAGAGC GAGAGAATAT GTCACGTTTC TGACAGTTAC CCCCAACCTG 
ACCAGTGTCT ACATTGCCAA CCACAGGCCT CTCTTCACAC ACTTGGCGGT GAGGATCGGA 
GGGCGCTATG TCGTGGCTGG GAAGATGAGC ATCTCCCCTA ACACCACCTA CCCCTCCCTC 
CTGGAGGATG GTCGTGTCGA GTACAGAGTG GCCCTCACCG AGGACCGGCT GCCCCGCCTG 
GAGGAGATCC GCATCTGGGG ACCCCTCCAG GAAGATGCTG ACATCCAGGT TTACAGGCGG 
TATGGCGAGG AGTATGGCAA CCTCACCCGC CCAGACATCA CCTTCACCTA CTTCCAGCCT 
AAGCCACGGC AGGCCTGGGT GTGGGCCGCT GTGCGTGGGC CCTGCTCGGT GAGCTGTGGG 
GCAGGGCTGC GCTGGGTAAA CTACAGCTGC CTGGACCAGG CCAGGAAGGA GTTGGTGGAG 
ACTGTCCAGT GCCAAGGGAG CCAGCAGCCA CCAGCGTGGC CAGAGGCCTG CGTGCTCGAA 
CCCTGCCCTC CCTACTGGGC GGTGGGAGAC TTCGGCCCAT GCAGCGCCTC CTGTGGGGGT 
GGCCTGCGGG AGCGGCCAGT GCGCTGCGTG GAGGCCCAGG GCAGCCTCCT GAAGACATTG 
CCCCCAGCCC GGTGCAGAGC AGGGGCCCAG CAGCCAGCTG TGGCGCTGGA AACCTGCAAC 
CCCCAGCCCT GCCCTGCCAG GTGGGAGGTG TCAGAGCCCA GCTCATGCAC ATCAGCTGGT 
GGAGCAGGCC TGGCCTTGGA GAACGAGACC TGTGTGCCAG GGGCAGATGG CCTGGAGGCT 
CCAGTGACTG AGGGGCCTGG CTCCGTAGAT GAGAAGCTGC CTGCCCCTGA GCCCTGTGTC 
GGGATGTCAT GTCCTCCAGG CTGGGGCCAT CTGGATGCCA CCTCTGCAGG GGAGAAGGCT 
CCCTCCCCAT GGGGCAGCAT CAGGACGGGG GCTCAAGCTG CACACGTGTG GACCCCTGCG 
GCAGGGTCGT GCTCCGTCTC CTGCGGGCGA GGTCTGATGG AGCTGCGTTT CCTGTGCATG 
GACTCTGCCC TCAGGGTGCC TGTCCAGGAA GAGCTGTGTG GCCTGGCAAG CAAGCCTGGG 
AGCCGGCGGG AGGTCTGCCA GGCTGTCCCG TGCCCTGCTC GGTGGCAGTA CAAGCTGGCG 
GCCTGCAGCG TGAGCTGTGG GAGAGGGGTC GTGCGGAGGA TCCTGTATTG TGCCCGGGCC 
CATGGGGAGG ACGATGGTGA GGAGATCCTG TTGGACACCC AGTGCCAGGG GCTGCCTCGC 
CCGGAACCCC AGGAGGCCTG CAGCCTGGAG CCCTGCCCAC CTAGGTGGAA AGTCATGTCC 
CTTGGCCCAT GTTCGGCCAG CTGTGGCCTT GGCACTGCTA GACGCTCGGT GGCCTGTGTG 
CAGCTCGACC AAGGCCAGGA CGTGGAGGTG GACGAGGCGG CCTGTGCGGC GCTGGTGCGG 
CCCGAGGCCA GTGTCCCCTG TCTCATTGCC GACTGCACCT ACCGCTGGCA TGTTGGCACC 
TGGATGGAGT GCTCTGTTTC CTGTGGGGAT GGCATCCAGC GCCGGCGTGA CACCTGCCTC 
GGACCCCAGG CCCAGGCGCC TGTGCCAGCT GATTTCTGCC AGCACTTGCC CAAGCCGGTG 
ACTGTGCGTG GCTGCTGGGC TGGGCCCTGT GTGGGACAGG GTGCCTGTGG CAGGCAGCAC 
CTTGAGCCAA CAGGAACCAT TGACATGCGA GGCCCAGGGC AGGCAGACTG TGCAGTGGCC 
ATTGGGCGGC CCCTCGGGGA GGTGGTGACC CTCCGCGTCC TTGAGAGTTC TCTCAACTGC 
AGTGCGGGGG ACATGTTGCT GCTTTGGGGC CGGCTCACCT GGAGGAAGAT GTGCAGGAAG 
CTGTTGGACA TGACTTTCAG CTCCAAGACC AACACGCTGG TGGTGAGGCA GCGCTGCGGG 
CGGCCAGGAG GTGGGGTGCT GCTGCGGTAT GGGAGCCAGC TTGCTCCTGA AACCTTCTAC 
AGAGAATGTG ACATGCAGCT CTTTGGGCCC TGGGGTGAAA TCGTGAGCCC CTCGCTGAGT 
CCAGCCACGA GTAATGCAGG GGGCTGCCGG CTCTTCATTA ATGTGGCTCC GCACGCACGG 
ATTGCCATCC ATGCCCTGGC CACCAACATG GGCGCTGGGA CCGAGGGAGC CAATGCCAGC 
TACATCTTGA TCCGGGACAC CCACAGCTTG AGGACCACAG CGTTCCATGG GCAGCAGGTG 
CTCTACTGGG AGTCAGAGAG CAGCCAGGCT GAGATGGAGT TCAGCGAGGG CTTCCTGAAG 
GCTCAGGCCA GCCTGCGGGG CCAGTACTGG ACCCTCCAAT CATGGGTACC GGAGATGCAG 
GACCCTCAGT CCTGGAAGGG AAAGGAAGGA ACCTGA

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

RefSeq	NP_620596.2
CDS	78..4193
Translation	MHQRHPRARCPPLCVAGILACGFLLGCWGPSHFQQSCLQALEPQAVSSYLSPGAPLKGRPPSPGFQRQRQRQRRAAGGILHLELLVAVGPDVFQAHQEDTERYVLTNLNIGAELLRDPSLGAQFRVHLVKMVILTEPEGAPNITANLTSSLLSVCGWSQTINPEDDTDPGHADLVLYITRFDLELPDGNRQVRGVTQLGGACSPTWSCLITEDTGFDLGVTIAHEIGHSFGLEHDGAPGSGCGPSGHVMASDGAAPRAGLAWSPCSRRQLLSLLSAGRARCVWDPPRPQPGSAGHPPDAQPGLYYSANEQCRVAFGPKAVACTFAREHLDMCQALSCHTDPLDQSSCSRLLVPLLDGTECGVEKWCSKGRCRSLVELTPIAAVHGRWSSWGPRSPCSRSCGGGVVTRRRQCNNPRPAFGGRACVGADLQAEMCNTQACEKTQLEFMSQQCARTDGQPLRSSPGGASFYHWGAAVPHSQGDALCRHMCRAIGESFIMKRGDSFLDGTRCMPSGPREDGTLSLCVSGSCRTFGCDGRMDSQQVWDRCQVCGGDNSTCSPRKGSFTAGRAREYVTFLTVTPNLTSVYIANHRPLFTHLAVRIGGRYVVAGKMSISPNTTYPSLLEDGRVEYRVALTEDRLPRLEEIRIWGPLQEDADIQVYRRYGEEYGNLTRPDITFTYFQPKPRQAWVWAAVRGPCSVSCGAGLRWVNYSCLDQARKELVETVQCQGSQQPPAWPEACVLEPCPPYWAVGDFGPCSASCGGGLRERPVRCVEAQGSLLKTLPPARCRAGAQQPAVALETCNPQPCPARWEVSEPSSCTSAGGAGLALENETCVPGADGLEAPVTEGPGSVDEKLPAPEPCVGMSCPPGWGHLDATSAGEKAPSPWGSIRTGAQAAHVWTPAAGSCSVSCGRGLMELRFLCMDSALRVPVQEELCGLASKPGSRREVCQAVPCPARWQYKLAACSVSCGRGVVRRILYCARAHGEDDGEEILLDTQCQGLPRPEPQEACSLEPCPPRWKVMSLGPCSASCGLGTARRSVACVQLDQGQDVEVDEAACAALVRPEASVPCLIADCTYRWHVGTWMECSVSCGDGIQRRRDTCLGPQAQAPVPADFCQHLPKPVTVRGCWAGPCVGQGACGRQHLEPTGTIDMRGPGQADCAVAIGRPLGEVVTLRVLESSLNCSAGDMLLLWGRLTWRKMCRKLLDMTFSSKTNTLVVRQRCGRPGGGVLLRYGSQLAPETFYRECDMQLFGPWGEIVSPSLSPATSNAGGCRLFINVAPHARIAIHALATNMGAGTEGANASYILIRDTHSLRTTAFHGQQVLYWESESSQAEMEFSEGFLKAQASLRGQYWTLQSWVPEMQDPQSWKGKEGT

Target ORF information:

RefSeq Version	NM_139027.5
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant 2, mRNA.

Target ORF information:

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

NM_139027.5

ORF Insert Sequence:

ATGCACCAGC GTCACCCCCG GGCAAGATGC CCTCCCCTCT GTGTGGCCGG AATCCTTGCC 
TGTGGCTTTC TCCTGGGCTG CTGGGGACCC TCCCATTTCC AGCAGAGTTG TCTTCAGGCT 
TTGGAGCCAC AGGCCGTGTC TTCTTACTTG AGCCCTGGTG CTCCCTTAAA AGGCCGCCCT 
CCTTCCCCTG GCTTCCAGAG GCAGAGGCAG AGGCAGAGGC GGGCTGCAGG CGGCATCCTA 
CACCTGGAGC TGCTGGTGGC CGTGGGCCCC GATGTCTTCC AGGCTCACCA GGAGGACACA 
GAGCGCTATG TGCTCACCAA CCTCAACATC GGGGCAGAAC TGCTTCGGGA CCCGTCCCTG 
GGGGCTCAGT TTCGGGTGCA CCTGGTGAAG ATGGTCATTC TGACAGAGCC TGAGGGTGCT 
CCAAATATCA CAGCCAACCT CACCTCGTCC CTGCTGAGCG TCTGTGGGTG GAGCCAGACC 
ATCAACCCTG AGGACGACAC GGATCCTGGC CATGCTGACC TGGTCCTCTA TATCACTAGG 
TTTGACCTGG AGTTGCCTGA TGGTAACCGG CAGGTGCGGG GCGTCACCCA GCTGGGCGGT 
GCCTGCTCCC CAACCTGGAG CTGCCTCATT ACCGAGGACA CTGGCTTCGA CCTGGGAGTC 
ACCATTGCCC ATGAGATTGG GCACAGCTTC GGCCTGGAGC ACGACGGCGC GCCCGGCAGC 
GGCTGCGGCC CCAGCGGACA CGTGATGGCT TCGGACGGCG CCGCGCCCCG CGCCGGCCTC 
GCCTGGTCCC CCTGCAGCCG CCGGCAGCTG CTGAGCCTGC TCAGCGCAGG ACGGGCGCGC 
TGCGTGTGGG ACCCGCCGCG GCCTCAACCC GGGTCCGCGG GGCACCCGCC GGATGCGCAG 
CCTGGCCTCT ACTACAGCGC CAACGAGCAG TGCCGCGTGG CCTTCGGCCC CAAGGCTGTC 
GCCTGCACCT TCGCCAGGGA GCACCTGGAT ATGTGCCAGG CCCTCTCCTG CCACACAGAC 
CCGCTGGACC AAAGCAGCTG CAGCCGCCTC CTCGTTCCTC TCCTGGATGG GACAGAATGT 
GGCGTGGAGA AGTGGTGCTC CAAGGGTCGC TGCCGCTCCC TGGTGGAGCT GACCCCCATA 
GCAGCAGTGC ATGGGCGCTG GTCTAGCTGG GGTCCCCGAA GTCCTTGCTC CCGCTCCTGC 
GGAGGAGGTG TGGTCACCAG GAGGCGGCAG TGCAACAACC CCAGACCTGC CTTTGGGGGG 
CGTGCATGTG TTGGTGCTGA CCTCCAGGCC GAGATGTGCA ACACTCAGGC CTGCGAGAAG 
ACCCAGCTGG AGTTCATGTC GCAACAGTGC GCCAGGACCG ACGGCCAGCC GCTGCGCTCC 
TCCCCTGGCG GCGCCTCCTT CTACCACTGG GGTGCTGCTG TACCACACAG CCAAGGGGAT 
GCTCTGTGCA GACACATGTG CCGGGCCATT GGCGAGAGCT TCATCATGAA GCGTGGAGAC 
AGCTTCCTCG ATGGGACCCG GTGTATGCCA AGTGGCCCCC GGGAGGACGG GACCCTGAGC 
CTGTGTGTGT CGGGCAGCTG CAGGACATTT GGCTGTGATG GTAGGATGGA CTCCCAGCAG 
GTATGGGACA GGTGCCAGGT GTGTGGTGGG GACAACAGCA CGTGCAGCCC ACGGAAGGGC 
TCTTTCACAG CTGGCAGAGC GAGAGAATAT GTCACGTTTC TGACAGTTAC CCCCAACCTG 
ACCAGTGTCT ACATTGCCAA CCACAGGCCT CTCTTCACAC ACTTGGCGGT GAGGATCGGA 
GGGCGCTATG TCGTGGCTGG GAAGATGAGC ATCTCCCCTA ACACCACCTA CCCCTCCCTC 
CTGGAGGATG GTCGTGTCGA GTACAGAGTG GCCCTCACCG AGGACCGGCT GCCCCGCCTG 
GAGGAGATCC GCATCTGGGG ACCCCTCCAG GAAGATGCTG ACATCCAGGT TTACAGGCGG 
TATGGCGAGG AGTATGGCAA CCTCACCCGC CCAGACATCA CCTTCACCTA CTTCCAGCCT 
AAGCCACGGC AGGCCTGGGT GTGGGCCGCT GTGCGTGGGC CCTGCTCGGT GAGCTGTGGG 
GCAGGGCTGC GCTGGGTAAA CTACAGCTGC CTGGACCAGG CCAGGAAGGA GTTGGTGGAG 
ACTGTCCAGT GCCAAGGGAG CCAGCAGCCA CCAGCGTGGC CAGAGGCCTG CGTGCTCGAA 
CCCTGCCCTC CCTACTGGGC GGTGGGAGAC TTCGGCCCAT GCAGCGCCTC CTGTGGGGGT 
GGCCTGCGGG AGCGGCCAGT GCGCTGCGTG GAGGCCCAGG GCAGCCTCCT GAAGACATTG 
CCCCCAGCCC GGTGCAGAGC AGGGGCCCAG CAGCCAGCTG TGGCGCTGGA AACCTGCAAC 
CCCCAGCCCT GCCCTGCCAG GTGGGAGGTG TCAGAGCCCA GCTCATGCAC ATCAGCTGGT 
GGAGCAGGCC TGGCCTTGGA GAACGAGACC TGTGTGCCAG GGGCAGATGG CCTGGAGGCT 
CCAGTGACTG AGGGGCCTGG CTCCGTAGAT GAGAAGCTGC CTGCCCCTGA GCCCTGTGTC 
GGGATGTCAT GTCCTCCAGG CTGGGGCCAT CTGGATGCCA CCTCTGCAGG GGAGAAGGCT 
CCCTCCCCAT GGGGCAGCAT CAGGACGGGG GCTCAAGCTG CACACGTGTG GACCCCTGCG 
GCAGGGTCGT GCTCCGTCTC CTGCGGGCGA GGTCTGATGG AGCTGCGTTT CCTGTGCATG 
GACTCTGCCC TCAGGGTGCC TGTCCAGGAA GAGCTGTGTG GCCTGGCAAG CAAGCCTGGG 
AGCCGGCGGG AGGTCTGCCA GGCTGTCCCG TGCCCTGCTC GGTGGCAGTA CAAGCTGGCG 
GCCTGCAGCG TGAGCTGTGG GAGAGGGGTC GTGCGGAGGA TCCTGTATTG TGCCCGGGCC 
CATGGGGAGG ACGATGGTGA GGAGATCCTG TTGGACACCC AGTGCCAGGG GCTGCCTCGC 
CCGGAACCCC AGGAGGCCTG CAGCCTGGAG CCCTGCCCAC CTAGGTGGAA AGTCATGTCC 
CTTGGCCCAT GTTCGGCCAG CTGTGGCCTT GGCACTGCTA GACGCTCGGT GGCCTGTGTG 
CAGCTCGACC AAGGCCAGGA CGTGGAGGTG GACGAGGCGG CCTGTGCGGC GCTGGTGCGG 
CCCGAGGCCA GTGTCCCCTG TCTCATTGCC GACTGCACCT ACCGCTGGCA TGTTGGCACC 
TGGATGGAGT GCTCTGTTTC CTGTGGGGAT GGCATCCAGC GCCGGCGTGA CACCTGCCTC 
GGACCCCAGG CCCAGGCGCC TGTGCCAGCT GATTTCTGCC AGCACTTGCC CAAGCCGGTG 
ACTGTGCGTG GCTGCTGGGC TGGGCCCTGT GTGGGACAGG GTGCCTGTGG CAGGCAGCAC 
CTTGAGCCAA CAGGAACCAT TGACATGCGA GGCCCAGGGC AGGCAGACTG TGCAGTGGCC 
ATTGGGCGGC CCCTCGGGGA GGTGGTGACC CTCCGCGTCC TTGAGAGTTC TCTCAACTGC 
AGTGCGGGGG ACATGTTGCT GCTTTGGGGC CGGCTCACCT GGAGGAAGAT GTGCAGGAAG 
CTGTTGGACA TGACTTTCAG CTCCAAGACC AACACGCTGG TGGTGAGGCA GCGCTGCGGG 
CGGCCAGGAG GTGGGGTGCT GCTGCGGTAT GGGAGCCAGC TTGCTCCTGA AACCTTCTAC 
AGAGAATGTG ACATGCAGCT CTTTGGGCCC TGGGGTGAAA TCGTGAGCCC CTCGCTGAGT 
CCAGCCACGA GTAATGCAGG GGGCTGCCGG CTCTTCATTA ATGTGGCTCC GCACGCACGG 
ATTGCCATCC ATGCCCTGGC CACCAACATG GGCGCTGGGA CCGAGGGAGC CAATGCCAGC 
TACATCTTGA TCCGGGACAC CCACAGCTTG AGGACCACAG CGTTCCATGG GCAGCAGGTG 
CTCTACTGGG AGTCAGAGAG CAGCCAGGCT GAGATGGAGT TCAGCGAGGG CTTCCTGAAG 
GCTCAGGCCA GCCTGCGGGG CCAGTACTGG ACCCTCCAAT CATGGGTACC GGAGATGCAG 
GACCCTCAGT CCTGGAAGGG AAAGGAAGGA ACCTGA

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

ADAMTS13 ( NM_139026.5 ) cDNA ORF clone, Homo sapiens(human) -> NP_620595.1 Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant 3, mRNA.

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CloneID	OHu27548
Clone ID Related Accession (Same CDS sequence)	NM_139026.5 , NM_139026.4
Accession Version	NM_139026.5 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4023bp) 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	2019-10-26
Organism	Homo sapiens(human)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 13 isoform 3 preproprotein
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AB069698.2, AJ305314.1, AF414401.1 and AV655072.1. On Jun 2, 2019 this sequence version replaced NM_139026.4. Transcript Variant: This variant (3) uses alternate in-frame splice sites at two exons, compared to variant 1. The encoded isoform (3) is shorter than isoform 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 :: AJ305314.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1968968, SAMEA2142348 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: full length.

ATGCACCAGC GTCACCCCCG GGCAAGATGC CCTCCCCTCT GTGTGGCCGG AATCCTTGCC 
TGTGGCTTTC TCCTGGGCTG CTGGGGACCC TCCCATTTCC AGCAGAGTTG TCTTCAGGCT 
TTGGAGCCAC AGGCCGTGTC TTCTTACTTG AGCCCTGGTG CTCCCTTAAA AGGCCGCCCT 
CCTTCCCCTG GCTTCCAGAG GCAGAGGCAG AGGCAGAGGC GGGCTGCAGG CGGCATCCTA 
CACCTGGAGC TGCTGGTGGC CGTGGGCCCC GATGTCTTCC AGGCTCACCA GGAGGACACA 
GAGCGCTATG TGCTCACCAA CCTCAACATC GGGGCAGAAC TGCTTCGGGA CCCGTCCCTG 
GGGGCTCAGT TTCGGGTGCA CCTGGTGAAG ATGGTCATTC TGACAGAGCC TGAGGGTGCT 
CCAAATATCA CAGCCAACCT CACCTCGTCC CTGCTGAGCG TCTGTGGGTG GAGCCAGACC 
ATCAACCCTG AGGACGACAC GGATCCTGGC CATGCTGACC TGGTCCTCTA TATCACTAGG 
TTTGACCTGG AGTTGCCTGA TGGTAACCGG CAGGTGCGGG GCGTCACCCA GCTGGGCGGT 
GCCTGCTCCC CAACCTGGAG CTGCCTCATT ACCGAGGACA CTGGCTTCGA CCTGGGAGTC 
ACCATTGCCC ATGAGATTGG GCACAGCTTC GGCCTGGAGC ACGACGGCGC GCCCGGCAGC 
GGCTGCGGCC CCAGCGGACA CGTGATGGCT TCGGACGGCG CCGCGCCCCG CGCCGGCCTC 
GCCTGGTCCC CCTGCAGCCG CCGGCAGCTG CTGAGCCTGC TCAGCGCCAA CGAGCAGTGC 
CGCGTGGCCT TCGGCCCCAA GGCTGTCGCC TGCACCTTCG CCAGGGAGCA CCTGGATATG 
TGCCAGGCCC TCTCCTGCCA CACAGACCCG CTGGACCAAA GCAGCTGCAG CCGCCTCCTC 
GTTCCTCTCC TGGATGGGAC AGAATGTGGC GTGGAGAAGT GGTGCTCCAA GGGTCGCTGC 
CGCTCCCTGG TGGAGCTGAC CCCCATAGCA GCAGTGCATG GGCGCTGGTC TAGCTGGGGT 
CCCCGAAGTC CTTGCTCCCG CTCCTGCGGA GGAGGTGTGG TCACCAGGAG GCGGCAGTGC 
AACAACCCCA GACCTGCCTT TGGGGGGCGT GCATGTGTTG GTGCTGACCT CCAGGCCGAG 
ATGTGCAACA CTCAGGCCTG CGAGAAGACC CAGCTGGAGT TCATGTCGCA ACAGTGCGCC 
AGGACCGACG GCCAGCCGCT GCGCTCCTCC CCTGGCGGCG CCTCCTTCTA CCACTGGGGT 
GCTGCTGTAC CACACAGCCA AGGGGATGCT CTGTGCAGAC ACATGTGCCG GGCCATTGGC 
GAGAGCTTCA TCATGAAGCG TGGAGACAGC TTCCTCGATG GGACCCGGTG TATGCCAAGT 
GGCCCCCGGG AGGACGGGAC CCTGAGCCTG TGTGTGTCGG GCAGCTGCAG GACATTTGGC 
TGTGATGGTA GGATGGACTC CCAGCAGGTA TGGGACAGGT GCCAGGTGTG TGGTGGGGAC 
AACAGCACGT GCAGCCCACG GAAGGGCTCT TTCACAGCTG GCAGAGCGAG AGAATATGTC 
ACGTTTCTGA CAGTTACCCC CAACCTGACC AGTGTCTACA TTGCCAACCA CAGGCCTCTC 
TTCACACACT TGGCGGTGAG GATCGGAGGG CGCTATGTCG TGGCTGGGAA GATGAGCATC 
TCCCCTAACA CCACCTACCC CTCCCTCCTG GAGGATGGTC GTGTCGAGTA CAGAGTGGCC 
CTCACCGAGG ACCGGCTGCC CCGCCTGGAG GAGATCCGCA TCTGGGGACC CCTCCAGGAA 
GATGCTGACA TCCAGGTTTA CAGGCGGTAT GGCGAGGAGT ATGGCAACCT CACCCGCCCA 
GACATCACCT TCACCTACTT CCAGCCTAAG CCACGGCAGG CCTGGGTGTG GGCCGCTGTG 
CGTGGGCCCT GCTCGGTGAG CTGTGGGGCA GGGCTGCGCT GGGTAAACTA CAGCTGCCTG 
GACCAGGCCA GGAAGGAGTT GGTGGAGACT GTCCAGTGCC AAGGGAGCCA GCAGCCACCA 
GCGTGGCCAG AGGCCTGCGT GCTCGAACCC TGCCCTCCCT ACTGGGCGGT GGGAGACTTC 
GGCCCATGCA GCGCCTCCTG TGGGGGTGGC CTGCGGGAGC GGCCAGTGCG CTGCGTGGAG 
GCCCAGGGCA GCCTCCTGAA GACATTGCCC CCAGCCCGGT GCAGAGCAGG GGCCCAGCAG 
CCAGCTGTGG CGCTGGAAAC CTGCAACCCC CAGCCCTGCC CTGCCAGGTG GGAGGTGTCA 
GAGCCCAGCT CATGCACATC AGCTGGTGGA GCAGGCCTGG CCTTGGAGAA CGAGACCTGT 
GTGCCAGGGG CAGATGGCCT GGAGGCTCCA GTGACTGAGG GGCCTGGCTC CGTAGATGAG 
AAGCTGCCTG CCCCTGAGCC CTGTGTCGGG ATGTCATGTC CTCCAGGCTG GGGCCATCTG 
GATGCCACCT CTGCAGGGGA GAAGGCTCCC TCCCCATGGG GCAGCATCAG GACGGGGGCT 
CAAGCTGCAC ACGTGTGGAC CCCTGCGGCA GGGTCGTGCT CCGTCTCCTG CGGGCGAGGT 
CTGATGGAGC TGCGTTTCCT GTGCATGGAC TCTGCCCTCA GGGTGCCTGT CCAGGAAGAG 
CTGTGTGGCC TGGCAAGCAA GCCTGGGAGC CGGCGGGAGG TCTGCCAGGC TGTCCCGTGC 
CCTGCTCGGT GGCAGTACAA GCTGGCGGCC TGCAGCGTGA GCTGTGGGAG AGGGGTCGTG 
CGGAGGATCC TGTATTGTGC CCGGGCCCAT GGGGAGGACG ATGGTGAGGA GATCCTGTTG 
GACACCCAGT GCCAGGGGCT GCCTCGCCCG GAACCCCAGG AGGCCTGCAG CCTGGAGCCC 
TGCCCACCTA GGTGGAAAGT CATGTCCCTT GGCCCATGTT CGGCCAGCTG TGGCCTTGGC 
ACTGCTAGAC GCTCGGTGGC CTGTGTGCAG CTCGACCAAG GCCAGGACGT GGAGGTGGAC 
GAGGCGGCCT GTGCGGCGCT GGTGCGGCCC GAGGCCAGTG TCCCCTGTCT CATTGCCGAC 
TGCACCTACC GCTGGCATGT TGGCACCTGG ATGGAGTGCT CTGTTTCCTG TGGGGATGGC 
ATCCAGCGCC GGCGTGACAC CTGCCTCGGA CCCCAGGCCC AGGCGCCTGT GCCAGCTGAT 
TTCTGCCAGC ACTTGCCCAA GCCGGTGACT GTGCGTGGCT GCTGGGCTGG GCCCTGTGTG 
GGACAGGGTG CCTGTGGCAG GCAGCACCTT GAGCCAACAG GAACCATTGA CATGCGAGGC 
CCAGGGCAGG CAGACTGTGC AGTGGCCATT GGGCGGCCCC TCGGGGAGGT GGTGACCCTC 
CGCGTCCTTG AGAGTTCTCT CAACTGCAGT GCGGGGGACA TGTTGCTGCT TTGGGGCCGG 
CTCACCTGGA GGAAGATGTG CAGGAAGCTG TTGGACATGA CTTTCAGCTC CAAGACCAAC 
ACGCTGGTGG TGAGGCAGCG CTGCGGGCGG CCAGGAGGTG GGGTGCTGCT GCGGTATGGG 
AGCCAGCTTG CTCCTGAAAC CTTCTACAGA GAATGTGACA TGCAGCTCTT TGGGCCCTGG 
GGTGAAATCG TGAGCCCCTC GCTGAGTCCA GCCACGAGTA ATGCAGGGGG CTGCCGGCTC 
TTCATTAATG TGGCTCCGCA CGCACGGATT GCCATCCATG CCCTGGCCAC CAACATGGGC 
GCTGGGACCG AGGGAGCCAA TGCCAGCTAC ATCTTGATCC GGGACACCCA CAGCTTGAGG 
ACCACAGCGT TCCATGGGCA GCAGGTGCTC TACTGGGAGT CAGAGAGCAG CCAGGCTGAG 
ATGGAGTTCA GCGAGGGCTT CCTGAAGGCT CAGGCCAGCC TGCGGGGCCA GTACTGGACC 
CTCCAATCAT GGGTACCGGA GATGCAGGAC CCTCAGTCCT GGAAGGGAAA GGAAGGAACC 
TGA

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

RefSeq	NP_620595.1
CDS	78..4100
Translation	MHQRHPRARCPPLCVAGILACGFLLGCWGPSHFQQSCLQALEPQAVSSYLSPGAPLKGRPPSPGFQRQRQRQRRAAGGILHLELLVAVGPDVFQAHQEDTERYVLTNLNIGAELLRDPSLGAQFRVHLVKMVILTEPEGAPNITANLTSSLLSVCGWSQTINPEDDTDPGHADLVLYITRFDLELPDGNRQVRGVTQLGGACSPTWSCLITEDTGFDLGVTIAHEIGHSFGLEHDGAPGSGCGPSGHVMASDGAAPRAGLAWSPCSRRQLLSLLSANEQCRVAFGPKAVACTFAREHLDMCQALSCHTDPLDQSSCSRLLVPLLDGTECGVEKWCSKGRCRSLVELTPIAAVHGRWSSWGPRSPCSRSCGGGVVTRRRQCNNPRPAFGGRACVGADLQAEMCNTQACEKTQLEFMSQQCARTDGQPLRSSPGGASFYHWGAAVPHSQGDALCRHMCRAIGESFIMKRGDSFLDGTRCMPSGPREDGTLSLCVSGSCRTFGCDGRMDSQQVWDRCQVCGGDNSTCSPRKGSFTAGRAREYVTFLTVTPNLTSVYIANHRPLFTHLAVRIGGRYVVAGKMSISPNTTYPSLLEDGRVEYRVALTEDRLPRLEEIRIWGPLQEDADIQVYRRYGEEYGNLTRPDITFTYFQPKPRQAWVWAAVRGPCSVSCGAGLRWVNYSCLDQARKELVETVQCQGSQQPPAWPEACVLEPCPPYWAVGDFGPCSASCGGGLRERPVRCVEAQGSLLKTLPPARCRAGAQQPAVALETCNPQPCPARWEVSEPSSCTSAGGAGLALENETCVPGADGLEAPVTEGPGSVDEKLPAPEPCVGMSCPPGWGHLDATSAGEKAPSPWGSIRTGAQAAHVWTPAAGSCSVSCGRGLMELRFLCMDSALRVPVQEELCGLASKPGSRREVCQAVPCPARWQYKLAACSVSCGRGVVRRILYCARAHGEDDGEEILLDTQCQGLPRPEPQEACSLEPCPPRWKVMSLGPCSASCGLGTARRSVACVQLDQGQDVEVDEAACAALVRPEASVPCLIADCTYRWHVGTWMECSVSCGDGIQRRRDTCLGPQAQAPVPADFCQHLPKPVTVRGCWAGPCVGQGACGRQHLEPTGTIDMRGPGQADCAVAIGRPLGEVVTLRVLESSLNCSAGDMLLLWGRLTWRKMCRKLLDMTFSSKTNTLVVRQRCGRPGGGVLLRYGSQLAPETFYRECDMQLFGPWGEIVSPSLSPATSNAGGCRLFINVAPHARIAIHALATNMGAGTEGANASYILIRDTHSLRTTAFHGQQVLYWESESSQAEMEFSEGFLKAQASLRGQYWTLQSWVPEMQDPQSWKGKEGT

Target ORF information:

RefSeq Version	NM_139026.5
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant 3, mRNA.

Target ORF information:

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

NM_139026.5

ORF Insert Sequence:

ATGCACCAGC GTCACCCCCG GGCAAGATGC CCTCCCCTCT GTGTGGCCGG AATCCTTGCC 
TGTGGCTTTC TCCTGGGCTG CTGGGGACCC TCCCATTTCC AGCAGAGTTG TCTTCAGGCT 
TTGGAGCCAC AGGCCGTGTC TTCTTACTTG AGCCCTGGTG CTCCCTTAAA AGGCCGCCCT 
CCTTCCCCTG GCTTCCAGAG GCAGAGGCAG AGGCAGAGGC GGGCTGCAGG CGGCATCCTA 
CACCTGGAGC TGCTGGTGGC CGTGGGCCCC GATGTCTTCC AGGCTCACCA GGAGGACACA 
GAGCGCTATG TGCTCACCAA CCTCAACATC GGGGCAGAAC TGCTTCGGGA CCCGTCCCTG 
GGGGCTCAGT TTCGGGTGCA CCTGGTGAAG ATGGTCATTC TGACAGAGCC TGAGGGTGCT 
CCAAATATCA CAGCCAACCT CACCTCGTCC CTGCTGAGCG TCTGTGGGTG GAGCCAGACC 
ATCAACCCTG AGGACGACAC GGATCCTGGC CATGCTGACC TGGTCCTCTA TATCACTAGG 
TTTGACCTGG AGTTGCCTGA TGGTAACCGG CAGGTGCGGG GCGTCACCCA GCTGGGCGGT 
GCCTGCTCCC CAACCTGGAG CTGCCTCATT ACCGAGGACA CTGGCTTCGA CCTGGGAGTC 
ACCATTGCCC ATGAGATTGG GCACAGCTTC GGCCTGGAGC ACGACGGCGC GCCCGGCAGC 
GGCTGCGGCC CCAGCGGACA CGTGATGGCT TCGGACGGCG CCGCGCCCCG CGCCGGCCTC 
GCCTGGTCCC CCTGCAGCCG CCGGCAGCTG CTGAGCCTGC TCAGCGCCAA CGAGCAGTGC 
CGCGTGGCCT TCGGCCCCAA GGCTGTCGCC TGCACCTTCG CCAGGGAGCA CCTGGATATG 
TGCCAGGCCC TCTCCTGCCA CACAGACCCG CTGGACCAAA GCAGCTGCAG CCGCCTCCTC 
GTTCCTCTCC TGGATGGGAC AGAATGTGGC GTGGAGAAGT GGTGCTCCAA GGGTCGCTGC 
CGCTCCCTGG TGGAGCTGAC CCCCATAGCA GCAGTGCATG GGCGCTGGTC TAGCTGGGGT 
CCCCGAAGTC CTTGCTCCCG CTCCTGCGGA GGAGGTGTGG TCACCAGGAG GCGGCAGTGC 
AACAACCCCA GACCTGCCTT TGGGGGGCGT GCATGTGTTG GTGCTGACCT CCAGGCCGAG 
ATGTGCAACA CTCAGGCCTG CGAGAAGACC CAGCTGGAGT TCATGTCGCA ACAGTGCGCC 
AGGACCGACG GCCAGCCGCT GCGCTCCTCC CCTGGCGGCG CCTCCTTCTA CCACTGGGGT 
GCTGCTGTAC CACACAGCCA AGGGGATGCT CTGTGCAGAC ACATGTGCCG GGCCATTGGC 
GAGAGCTTCA TCATGAAGCG TGGAGACAGC TTCCTCGATG GGACCCGGTG TATGCCAAGT 
GGCCCCCGGG AGGACGGGAC CCTGAGCCTG TGTGTGTCGG GCAGCTGCAG GACATTTGGC 
TGTGATGGTA GGATGGACTC CCAGCAGGTA TGGGACAGGT GCCAGGTGTG TGGTGGGGAC 
AACAGCACGT GCAGCCCACG GAAGGGCTCT TTCACAGCTG GCAGAGCGAG AGAATATGTC 
ACGTTTCTGA CAGTTACCCC CAACCTGACC AGTGTCTACA TTGCCAACCA CAGGCCTCTC 
TTCACACACT TGGCGGTGAG GATCGGAGGG CGCTATGTCG TGGCTGGGAA GATGAGCATC 
TCCCCTAACA CCACCTACCC CTCCCTCCTG GAGGATGGTC GTGTCGAGTA CAGAGTGGCC 
CTCACCGAGG ACCGGCTGCC CCGCCTGGAG GAGATCCGCA TCTGGGGACC CCTCCAGGAA 
GATGCTGACA TCCAGGTTTA CAGGCGGTAT GGCGAGGAGT ATGGCAACCT CACCCGCCCA 
GACATCACCT TCACCTACTT CCAGCCTAAG CCACGGCAGG CCTGGGTGTG GGCCGCTGTG 
CGTGGGCCCT GCTCGGTGAG CTGTGGGGCA GGGCTGCGCT GGGTAAACTA CAGCTGCCTG 
GACCAGGCCA GGAAGGAGTT GGTGGAGACT GTCCAGTGCC AAGGGAGCCA GCAGCCACCA 
GCGTGGCCAG AGGCCTGCGT GCTCGAACCC TGCCCTCCCT ACTGGGCGGT GGGAGACTTC 
GGCCCATGCA GCGCCTCCTG TGGGGGTGGC CTGCGGGAGC GGCCAGTGCG CTGCGTGGAG 
GCCCAGGGCA GCCTCCTGAA GACATTGCCC CCAGCCCGGT GCAGAGCAGG GGCCCAGCAG 
CCAGCTGTGG CGCTGGAAAC CTGCAACCCC CAGCCCTGCC CTGCCAGGTG GGAGGTGTCA 
GAGCCCAGCT CATGCACATC AGCTGGTGGA GCAGGCCTGG CCTTGGAGAA CGAGACCTGT 
GTGCCAGGGG CAGATGGCCT GGAGGCTCCA GTGACTGAGG GGCCTGGCTC CGTAGATGAG 
AAGCTGCCTG CCCCTGAGCC CTGTGTCGGG ATGTCATGTC CTCCAGGCTG GGGCCATCTG 
GATGCCACCT CTGCAGGGGA GAAGGCTCCC TCCCCATGGG GCAGCATCAG GACGGGGGCT 
CAAGCTGCAC ACGTGTGGAC CCCTGCGGCA GGGTCGTGCT CCGTCTCCTG CGGGCGAGGT 
CTGATGGAGC TGCGTTTCCT GTGCATGGAC TCTGCCCTCA GGGTGCCTGT CCAGGAAGAG 
CTGTGTGGCC TGGCAAGCAA GCCTGGGAGC CGGCGGGAGG TCTGCCAGGC TGTCCCGTGC 
CCTGCTCGGT GGCAGTACAA GCTGGCGGCC TGCAGCGTGA GCTGTGGGAG AGGGGTCGTG 
CGGAGGATCC TGTATTGTGC CCGGGCCCAT GGGGAGGACG ATGGTGAGGA GATCCTGTTG 
GACACCCAGT GCCAGGGGCT GCCTCGCCCG GAACCCCAGG AGGCCTGCAG CCTGGAGCCC 
TGCCCACCTA GGTGGAAAGT CATGTCCCTT GGCCCATGTT CGGCCAGCTG TGGCCTTGGC 
ACTGCTAGAC GCTCGGTGGC CTGTGTGCAG CTCGACCAAG GCCAGGACGT GGAGGTGGAC 
GAGGCGGCCT GTGCGGCGCT GGTGCGGCCC GAGGCCAGTG TCCCCTGTCT CATTGCCGAC 
TGCACCTACC GCTGGCATGT TGGCACCTGG ATGGAGTGCT CTGTTTCCTG TGGGGATGGC 
ATCCAGCGCC GGCGTGACAC CTGCCTCGGA CCCCAGGCCC AGGCGCCTGT GCCAGCTGAT 
TTCTGCCAGC ACTTGCCCAA GCCGGTGACT GTGCGTGGCT GCTGGGCTGG GCCCTGTGTG 
GGACAGGGTG CCTGTGGCAG GCAGCACCTT GAGCCAACAG GAACCATTGA CATGCGAGGC 
CCAGGGCAGG CAGACTGTGC AGTGGCCATT GGGCGGCCCC TCGGGGAGGT GGTGACCCTC 
CGCGTCCTTG AGAGTTCTCT CAACTGCAGT GCGGGGGACA TGTTGCTGCT TTGGGGCCGG 
CTCACCTGGA GGAAGATGTG CAGGAAGCTG TTGGACATGA CTTTCAGCTC CAAGACCAAC 
ACGCTGGTGG TGAGGCAGCG CTGCGGGCGG CCAGGAGGTG GGGTGCTGCT GCGGTATGGG 
AGCCAGCTTG CTCCTGAAAC CTTCTACAGA GAATGTGACA TGCAGCTCTT TGGGCCCTGG 
GGTGAAATCG TGAGCCCCTC GCTGAGTCCA GCCACGAGTA ATGCAGGGGG CTGCCGGCTC 
TTCATTAATG TGGCTCCGCA CGCACGGATT GCCATCCATG CCCTGGCCAC CAACATGGGC 
GCTGGGACCG AGGGAGCCAA TGCCAGCTAC ATCTTGATCC GGGACACCCA CAGCTTGAGG 
ACCACAGCGT TCCATGGGCA GCAGGTGCTC TACTGGGAGT CAGAGAGCAG CCAGGCTGAG 
ATGGAGTTCA GCGAGGGCTT CCTGAAGGCT CAGGCCAGCC TGCGGGGCCA GTACTGGACC 
CTCCAATCAT GGGTACCGGA GATGCAGGAC CCTCAGTCCT GGAAGGGAAA GGAAGGAACC 
TGA

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

ADAMTS13 ( NM_139026.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_620595.1 Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant 3, mRNA.

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CloneID	OHu27548
Clone ID Related Accession (Same CDS sequence)	NM_139026.5 , NM_139026.4
Accession Version	NM_139026.4	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4023bp) 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	2018-12-22
Organism	Homo sapiens(human)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 13 isoform 3 preproprotein
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AB069698.2, AJ305314.1, AF414401.1 and AV655072.1. On Jul 18, 2013 this sequence version replaced NM_139026.3. Transcript Variant: This variant (3) uses alternate in-frame splice sites at two exons, compared to variant 1. The encoded isoform (3) is shorter than isoform 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 :: AJ305314.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1968968, SAMEA2142348 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: full length.

ATGCACCAGC GTCACCCCCG GGCAAGATGC CCTCCCCTCT GTGTGGCCGG AATCCTTGCC 
TGTGGCTTTC TCCTGGGCTG CTGGGGACCC TCCCATTTCC AGCAGAGTTG TCTTCAGGCT 
TTGGAGCCAC AGGCCGTGTC TTCTTACTTG AGCCCTGGTG CTCCCTTAAA AGGCCGCCCT 
CCTTCCCCTG GCTTCCAGAG GCAGAGGCAG AGGCAGAGGC GGGCTGCAGG CGGCATCCTA 
CACCTGGAGC TGCTGGTGGC CGTGGGCCCC GATGTCTTCC AGGCTCACCA GGAGGACACA 
GAGCGCTATG TGCTCACCAA CCTCAACATC GGGGCAGAAC TGCTTCGGGA CCCGTCCCTG 
GGGGCTCAGT TTCGGGTGCA CCTGGTGAAG ATGGTCATTC TGACAGAGCC TGAGGGTGCT 
CCAAATATCA CAGCCAACCT CACCTCGTCC CTGCTGAGCG TCTGTGGGTG GAGCCAGACC 
ATCAACCCTG AGGACGACAC GGATCCTGGC CATGCTGACC TGGTCCTCTA TATCACTAGG 
TTTGACCTGG AGTTGCCTGA TGGTAACCGG CAGGTGCGGG GCGTCACCCA GCTGGGCGGT 
GCCTGCTCCC CAACCTGGAG CTGCCTCATT ACCGAGGACA CTGGCTTCGA CCTGGGAGTC 
ACCATTGCCC ATGAGATTGG GCACAGCTTC GGCCTGGAGC ACGACGGCGC GCCCGGCAGC 
GGCTGCGGCC CCAGCGGACA CGTGATGGCT TCGGACGGCG CCGCGCCCCG CGCCGGCCTC 
GCCTGGTCCC CCTGCAGCCG CCGGCAGCTG CTGAGCCTGC TCAGCGCCAA CGAGCAGTGC 
CGCGTGGCCT TCGGCCCCAA GGCTGTCGCC TGCACCTTCG CCAGGGAGCA CCTGGATATG 
TGCCAGGCCC TCTCCTGCCA CACAGACCCG CTGGACCAAA GCAGCTGCAG CCGCCTCCTC 
GTTCCTCTCC TGGATGGGAC AGAATGTGGC GTGGAGAAGT GGTGCTCCAA GGGTCGCTGC 
CGCTCCCTGG TGGAGCTGAC CCCCATAGCA GCAGTGCATG GGCGCTGGTC TAGCTGGGGT 
CCCCGAAGTC CTTGCTCCCG CTCCTGCGGA GGAGGTGTGG TCACCAGGAG GCGGCAGTGC 
AACAACCCCA GACCTGCCTT TGGGGGGCGT GCATGTGTTG GTGCTGACCT CCAGGCCGAG 
ATGTGCAACA CTCAGGCCTG CGAGAAGACC CAGCTGGAGT TCATGTCGCA ACAGTGCGCC 
AGGACCGACG GCCAGCCGCT GCGCTCCTCC CCTGGCGGCG CCTCCTTCTA CCACTGGGGT 
GCTGCTGTAC CACACAGCCA AGGGGATGCT CTGTGCAGAC ACATGTGCCG GGCCATTGGC 
GAGAGCTTCA TCATGAAGCG TGGAGACAGC TTCCTCGATG GGACCCGGTG TATGCCAAGT 
GGCCCCCGGG AGGACGGGAC CCTGAGCCTG TGTGTGTCGG GCAGCTGCAG GACATTTGGC 
TGTGATGGTA GGATGGACTC CCAGCAGGTA TGGGACAGGT GCCAGGTGTG TGGTGGGGAC 
AACAGCACGT GCAGCCCACG GAAGGGCTCT TTCACAGCTG GCAGAGCGAG AGAATATGTC 
ACGTTTCTGA CAGTTACCCC CAACCTGACC AGTGTCTACA TTGCCAACCA CAGGCCTCTC 
TTCACACACT TGGCGGTGAG GATCGGAGGG CGCTATGTCG TGGCTGGGAA GATGAGCATC 
TCCCCTAACA CCACCTACCC CTCCCTCCTG GAGGATGGTC GTGTCGAGTA CAGAGTGGCC 
CTCACCGAGG ACCGGCTGCC CCGCCTGGAG GAGATCCGCA TCTGGGGACC CCTCCAGGAA 
GATGCTGACA TCCAGGTTTA CAGGCGGTAT GGCGAGGAGT ATGGCAACCT CACCCGCCCA 
GACATCACCT TCACCTACTT CCAGCCTAAG CCACGGCAGG CCTGGGTGTG GGCCGCTGTG 
CGTGGGCCCT GCTCGGTGAG CTGTGGGGCA GGGCTGCGCT GGGTAAACTA CAGCTGCCTG 
GACCAGGCCA GGAAGGAGTT GGTGGAGACT GTCCAGTGCC AAGGGAGCCA GCAGCCACCA 
GCGTGGCCAG AGGCCTGCGT GCTCGAACCC TGCCCTCCCT ACTGGGCGGT GGGAGACTTC 
GGCCCATGCA GCGCCTCCTG TGGGGGTGGC CTGCGGGAGC GGCCAGTGCG CTGCGTGGAG 
GCCCAGGGCA GCCTCCTGAA GACATTGCCC CCAGCCCGGT GCAGAGCAGG GGCCCAGCAG 
CCAGCTGTGG CGCTGGAAAC CTGCAACCCC CAGCCCTGCC CTGCCAGGTG GGAGGTGTCA 
GAGCCCAGCT CATGCACATC AGCTGGTGGA GCAGGCCTGG CCTTGGAGAA CGAGACCTGT 
GTGCCAGGGG CAGATGGCCT GGAGGCTCCA GTGACTGAGG GGCCTGGCTC CGTAGATGAG 
AAGCTGCCTG CCCCTGAGCC CTGTGTCGGG ATGTCATGTC CTCCAGGCTG GGGCCATCTG 
GATGCCACCT CTGCAGGGGA GAAGGCTCCC TCCCCATGGG GCAGCATCAG GACGGGGGCT 
CAAGCTGCAC ACGTGTGGAC CCCTGCGGCA GGGTCGTGCT CCGTCTCCTG CGGGCGAGGT 
CTGATGGAGC TGCGTTTCCT GTGCATGGAC TCTGCCCTCA GGGTGCCTGT CCAGGAAGAG 
CTGTGTGGCC TGGCAAGCAA GCCTGGGAGC CGGCGGGAGG TCTGCCAGGC TGTCCCGTGC 
CCTGCTCGGT GGCAGTACAA GCTGGCGGCC TGCAGCGTGA GCTGTGGGAG AGGGGTCGTG 
CGGAGGATCC TGTATTGTGC CCGGGCCCAT GGGGAGGACG ATGGTGAGGA GATCCTGTTG 
GACACCCAGT GCCAGGGGCT GCCTCGCCCG GAACCCCAGG AGGCCTGCAG CCTGGAGCCC 
TGCCCACCTA GGTGGAAAGT CATGTCCCTT GGCCCATGTT CGGCCAGCTG TGGCCTTGGC 
ACTGCTAGAC GCTCGGTGGC CTGTGTGCAG CTCGACCAAG GCCAGGACGT GGAGGTGGAC 
GAGGCGGCCT GTGCGGCGCT GGTGCGGCCC GAGGCCAGTG TCCCCTGTCT CATTGCCGAC 
TGCACCTACC GCTGGCATGT TGGCACCTGG ATGGAGTGCT CTGTTTCCTG TGGGGATGGC 
ATCCAGCGCC GGCGTGACAC CTGCCTCGGA CCCCAGGCCC AGGCGCCTGT GCCAGCTGAT 
TTCTGCCAGC ACTTGCCCAA GCCGGTGACT GTGCGTGGCT GCTGGGCTGG GCCCTGTGTG 
GGACAGGGTG CCTGTGGCAG GCAGCACCTT GAGCCAACAG GAACCATTGA CATGCGAGGC 
CCAGGGCAGG CAGACTGTGC AGTGGCCATT GGGCGGCCCC TCGGGGAGGT GGTGACCCTC 
CGCGTCCTTG AGAGTTCTCT CAACTGCAGT GCGGGGGACA TGTTGCTGCT TTGGGGCCGG 
CTCACCTGGA GGAAGATGTG CAGGAAGCTG TTGGACATGA CTTTCAGCTC CAAGACCAAC 
ACGCTGGTGG TGAGGCAGCG CTGCGGGCGG CCAGGAGGTG GGGTGCTGCT GCGGTATGGG 
AGCCAGCTTG CTCCTGAAAC CTTCTACAGA GAATGTGACA TGCAGCTCTT TGGGCCCTGG 
GGTGAAATCG TGAGCCCCTC GCTGAGTCCA GCCACGAGTA ATGCAGGGGG CTGCCGGCTC 
TTCATTAATG TGGCTCCGCA CGCACGGATT GCCATCCATG CCCTGGCCAC CAACATGGGC 
GCTGGGACCG AGGGAGCCAA TGCCAGCTAC ATCTTGATCC GGGACACCCA CAGCTTGAGG 
ACCACAGCGT TCCATGGGCA GCAGGTGCTC TACTGGGAGT CAGAGAGCAG CCAGGCTGAG 
ATGGAGTTCA GCGAGGGCTT CCTGAAGGCT CAGGCCAGCC TGCGGGGCCA GTACTGGACC 
CTCCAATCAT GGGTACCGGA GATGCAGGAC CCTCAGTCCT GGAAGGGAAA GGAAGGAACC 
TGA

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

RefSeq	NP_620595.1
CDS	445..4467
Translation	MHQRHPRARCPPLCVAGILACGFLLGCWGPSHFQQSCLQALEPQAVSSYLSPGAPLKGRPPSPGFQRQRQRQRRAAGGILHLELLVAVGPDVFQAHQEDTERYVLTNLNIGAELLRDPSLGAQFRVHLVKMVILTEPEGAPNITANLTSSLLSVCGWSQTINPEDDTDPGHADLVLYITRFDLELPDGNRQVRGVTQLGGACSPTWSCLITEDTGFDLGVTIAHEIGHSFGLEHDGAPGSGCGPSGHVMASDGAAPRAGLAWSPCSRRQLLSLLSANEQCRVAFGPKAVACTFAREHLDMCQALSCHTDPLDQSSCSRLLVPLLDGTECGVEKWCSKGRCRSLVELTPIAAVHGRWSSWGPRSPCSRSCGGGVVTRRRQCNNPRPAFGGRACVGADLQAEMCNTQACEKTQLEFMSQQCARTDGQPLRSSPGGASFYHWGAAVPHSQGDALCRHMCRAIGESFIMKRGDSFLDGTRCMPSGPREDGTLSLCVSGSCRTFGCDGRMDSQQVWDRCQVCGGDNSTCSPRKGSFTAGRAREYVTFLTVTPNLTSVYIANHRPLFTHLAVRIGGRYVVAGKMSISPNTTYPSLLEDGRVEYRVALTEDRLPRLEEIRIWGPLQEDADIQVYRRYGEEYGNLTRPDITFTYFQPKPRQAWVWAAVRGPCSVSCGAGLRWVNYSCLDQARKELVETVQCQGSQQPPAWPEACVLEPCPPYWAVGDFGPCSASCGGGLRERPVRCVEAQGSLLKTLPPARCRAGAQQPAVALETCNPQPCPARWEVSEPSSCTSAGGAGLALENETCVPGADGLEAPVTEGPGSVDEKLPAPEPCVGMSCPPGWGHLDATSAGEKAPSPWGSIRTGAQAAHVWTPAAGSCSVSCGRGLMELRFLCMDSALRVPVQEELCGLASKPGSRREVCQAVPCPARWQYKLAACSVSCGRGVVRRILYCARAHGEDDGEEILLDTQCQGLPRPEPQEACSLEPCPPRWKVMSLGPCSASCGLGTARRSVACVQLDQGQDVEVDEAACAALVRPEASVPCLIADCTYRWHVGTWMECSVSCGDGIQRRRDTCLGPQAQAPVPADFCQHLPKPVTVRGCWAGPCVGQGACGRQHLEPTGTIDMRGPGQADCAVAIGRPLGEVVTLRVLESSLNCSAGDMLLLWGRLTWRKMCRKLLDMTFSSKTNTLVVRQRCGRPGGGVLLRYGSQLAPETFYRECDMQLFGPWGEIVSPSLSPATSNAGGCRLFINVAPHARIAIHALATNMGAGTEGANASYILIRDTHSLRTTAFHGQQVLYWESESSQAEMEFSEGFLKAQASLRGQYWTLQSWVPEMQDPQSWKGKEGT

Target ORF information:

RefSeq Version	NM_139026.4
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant 3, mRNA.

Target ORF information:

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

NM_139026.4

ORF Insert Sequence:

ATGCACCAGC GTCACCCCCG GGCAAGATGC CCTCCCCTCT GTGTGGCCGG AATCCTTGCC 
TGTGGCTTTC TCCTGGGCTG CTGGGGACCC TCCCATTTCC AGCAGAGTTG TCTTCAGGCT 
TTGGAGCCAC AGGCCGTGTC TTCTTACTTG AGCCCTGGTG CTCCCTTAAA AGGCCGCCCT 
CCTTCCCCTG GCTTCCAGAG GCAGAGGCAG AGGCAGAGGC GGGCTGCAGG CGGCATCCTA 
CACCTGGAGC TGCTGGTGGC CGTGGGCCCC GATGTCTTCC AGGCTCACCA GGAGGACACA 
GAGCGCTATG TGCTCACCAA CCTCAACATC GGGGCAGAAC TGCTTCGGGA CCCGTCCCTG 
GGGGCTCAGT TTCGGGTGCA CCTGGTGAAG ATGGTCATTC TGACAGAGCC TGAGGGTGCT 
CCAAATATCA CAGCCAACCT CACCTCGTCC CTGCTGAGCG TCTGTGGGTG GAGCCAGACC 
ATCAACCCTG AGGACGACAC GGATCCTGGC CATGCTGACC TGGTCCTCTA TATCACTAGG 
TTTGACCTGG AGTTGCCTGA TGGTAACCGG CAGGTGCGGG GCGTCACCCA GCTGGGCGGT 
GCCTGCTCCC CAACCTGGAG CTGCCTCATT ACCGAGGACA CTGGCTTCGA CCTGGGAGTC 
ACCATTGCCC ATGAGATTGG GCACAGCTTC GGCCTGGAGC ACGACGGCGC GCCCGGCAGC 
GGCTGCGGCC CCAGCGGACA CGTGATGGCT TCGGACGGCG CCGCGCCCCG CGCCGGCCTC 
GCCTGGTCCC CCTGCAGCCG CCGGCAGCTG CTGAGCCTGC TCAGCGCCAA CGAGCAGTGC 
CGCGTGGCCT TCGGCCCCAA GGCTGTCGCC TGCACCTTCG CCAGGGAGCA CCTGGATATG 
TGCCAGGCCC TCTCCTGCCA CACAGACCCG CTGGACCAAA GCAGCTGCAG CCGCCTCCTC 
GTTCCTCTCC TGGATGGGAC AGAATGTGGC GTGGAGAAGT GGTGCTCCAA GGGTCGCTGC 
CGCTCCCTGG TGGAGCTGAC CCCCATAGCA GCAGTGCATG GGCGCTGGTC TAGCTGGGGT 
CCCCGAAGTC CTTGCTCCCG CTCCTGCGGA GGAGGTGTGG TCACCAGGAG GCGGCAGTGC 
AACAACCCCA GACCTGCCTT TGGGGGGCGT GCATGTGTTG GTGCTGACCT CCAGGCCGAG 
ATGTGCAACA CTCAGGCCTG CGAGAAGACC CAGCTGGAGT TCATGTCGCA ACAGTGCGCC 
AGGACCGACG GCCAGCCGCT GCGCTCCTCC CCTGGCGGCG CCTCCTTCTA CCACTGGGGT 
GCTGCTGTAC CACACAGCCA AGGGGATGCT CTGTGCAGAC ACATGTGCCG GGCCATTGGC 
GAGAGCTTCA TCATGAAGCG TGGAGACAGC TTCCTCGATG GGACCCGGTG TATGCCAAGT 
GGCCCCCGGG AGGACGGGAC CCTGAGCCTG TGTGTGTCGG GCAGCTGCAG GACATTTGGC 
TGTGATGGTA GGATGGACTC CCAGCAGGTA TGGGACAGGT GCCAGGTGTG TGGTGGGGAC 
AACAGCACGT GCAGCCCACG GAAGGGCTCT TTCACAGCTG GCAGAGCGAG AGAATATGTC 
ACGTTTCTGA CAGTTACCCC CAACCTGACC AGTGTCTACA TTGCCAACCA CAGGCCTCTC 
TTCACACACT TGGCGGTGAG GATCGGAGGG CGCTATGTCG TGGCTGGGAA GATGAGCATC 
TCCCCTAACA CCACCTACCC CTCCCTCCTG GAGGATGGTC GTGTCGAGTA CAGAGTGGCC 
CTCACCGAGG ACCGGCTGCC CCGCCTGGAG GAGATCCGCA TCTGGGGACC CCTCCAGGAA 
GATGCTGACA TCCAGGTTTA CAGGCGGTAT GGCGAGGAGT ATGGCAACCT CACCCGCCCA 
GACATCACCT TCACCTACTT CCAGCCTAAG CCACGGCAGG CCTGGGTGTG GGCCGCTGTG 
CGTGGGCCCT GCTCGGTGAG CTGTGGGGCA GGGCTGCGCT GGGTAAACTA CAGCTGCCTG 
GACCAGGCCA GGAAGGAGTT GGTGGAGACT GTCCAGTGCC AAGGGAGCCA GCAGCCACCA 
GCGTGGCCAG AGGCCTGCGT GCTCGAACCC TGCCCTCCCT ACTGGGCGGT GGGAGACTTC 
GGCCCATGCA GCGCCTCCTG TGGGGGTGGC CTGCGGGAGC GGCCAGTGCG CTGCGTGGAG 
GCCCAGGGCA GCCTCCTGAA GACATTGCCC CCAGCCCGGT GCAGAGCAGG GGCCCAGCAG 
CCAGCTGTGG CGCTGGAAAC CTGCAACCCC CAGCCCTGCC CTGCCAGGTG GGAGGTGTCA 
GAGCCCAGCT CATGCACATC AGCTGGTGGA GCAGGCCTGG CCTTGGAGAA CGAGACCTGT 
GTGCCAGGGG CAGATGGCCT GGAGGCTCCA GTGACTGAGG GGCCTGGCTC CGTAGATGAG 
AAGCTGCCTG CCCCTGAGCC CTGTGTCGGG ATGTCATGTC CTCCAGGCTG GGGCCATCTG 
GATGCCACCT CTGCAGGGGA GAAGGCTCCC TCCCCATGGG GCAGCATCAG GACGGGGGCT 
CAAGCTGCAC ACGTGTGGAC CCCTGCGGCA GGGTCGTGCT CCGTCTCCTG CGGGCGAGGT 
CTGATGGAGC TGCGTTTCCT GTGCATGGAC TCTGCCCTCA GGGTGCCTGT CCAGGAAGAG 
CTGTGTGGCC TGGCAAGCAA GCCTGGGAGC CGGCGGGAGG TCTGCCAGGC TGTCCCGTGC 
CCTGCTCGGT GGCAGTACAA GCTGGCGGCC TGCAGCGTGA GCTGTGGGAG AGGGGTCGTG 
CGGAGGATCC TGTATTGTGC CCGGGCCCAT GGGGAGGACG ATGGTGAGGA GATCCTGTTG 
GACACCCAGT GCCAGGGGCT GCCTCGCCCG GAACCCCAGG AGGCCTGCAG CCTGGAGCCC 
TGCCCACCTA GGTGGAAAGT CATGTCCCTT GGCCCATGTT CGGCCAGCTG TGGCCTTGGC 
ACTGCTAGAC GCTCGGTGGC CTGTGTGCAG CTCGACCAAG GCCAGGACGT GGAGGTGGAC 
GAGGCGGCCT GTGCGGCGCT GGTGCGGCCC GAGGCCAGTG TCCCCTGTCT CATTGCCGAC 
TGCACCTACC GCTGGCATGT TGGCACCTGG ATGGAGTGCT CTGTTTCCTG TGGGGATGGC 
ATCCAGCGCC GGCGTGACAC CTGCCTCGGA CCCCAGGCCC AGGCGCCTGT GCCAGCTGAT 
TTCTGCCAGC ACTTGCCCAA GCCGGTGACT GTGCGTGGCT GCTGGGCTGG GCCCTGTGTG 
GGACAGGGTG CCTGTGGCAG GCAGCACCTT GAGCCAACAG GAACCATTGA CATGCGAGGC 
CCAGGGCAGG CAGACTGTGC AGTGGCCATT GGGCGGCCCC TCGGGGAGGT GGTGACCCTC 
CGCGTCCTTG AGAGTTCTCT CAACTGCAGT GCGGGGGACA TGTTGCTGCT TTGGGGCCGG 
CTCACCTGGA GGAAGATGTG CAGGAAGCTG TTGGACATGA CTTTCAGCTC CAAGACCAAC 
ACGCTGGTGG TGAGGCAGCG CTGCGGGCGG CCAGGAGGTG GGGTGCTGCT GCGGTATGGG 
AGCCAGCTTG CTCCTGAAAC CTTCTACAGA GAATGTGACA TGCAGCTCTT TGGGCCCTGG 
GGTGAAATCG TGAGCCCCTC GCTGAGTCCA GCCACGAGTA ATGCAGGGGG CTGCCGGCTC 
TTCATTAATG TGGCTCCGCA CGCACGGATT GCCATCCATG CCCTGGCCAC CAACATGGGC 
GCTGGGACCG AGGGAGCCAA TGCCAGCTAC ATCTTGATCC GGGACACCCA CAGCTTGAGG 
ACCACAGCGT TCCATGGGCA GCAGGTGCTC TACTGGGAGT CAGAGAGCAG CCAGGCTGAG 
ATGGAGTTCA GCGAGGGCTT CCTGAAGGCT CAGGCCAGCC TGCGGGGCCA GTACTGGACC 
CTCCAATCAT GGGTACCGGA GATGCAGGAC CCTCAGTCCT GGAAGGGAAA GGAAGGAACC 
TGA

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

ADAMTS13 ( XM_017014233.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016869722.1 Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant X2, mRNA.

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CloneID	OHu64700
Clone ID Related Accession (Same CDS sequence)	XM_017014233.1
Accession Version	XM_017014233.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3894bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 13 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGTCATTC TGACAGAGCC TGAGGGTGCT CCAAATATCA CAGCCAACCT CACCTCGTCC 
CTGCTGAGCG TCTGTGGGTG GAGCCAGACC ATCAACCCTG AGGACGACAC GGATCCTGGC 
CATGCTGACC TGGTCCTCTA TATCACTAGG TTTGACCTGG AGTTGCCTGA TGGTAACCGG 
CAGGTGCGGG GCGTCACCCA GCTGGGCGGT GCCTGCTCCC CAACCTGGAG CTGCCTCATT 
ACCGAGGACA CTGGCTTCGA CCTGGGAGTC ACCATTGCCC ATGAGATTGG GCACAGCTTC 
GGCCTGGAGC ACGACGGCGC GCCCGGCAGC GGCTGCGGCC CCAGCGGACA CGTGATGGCT 
TCGGACGGCG CCGCGCCCCG CGCCGGCCTC GCCTGGTCCC CCTGCAGCCG CCGGCAGCTG 
CTGAGCCTGC TCAGCGCAGG ACGGGCGCGC TGCGTGTGGG ACCCGCCGCG GCCTCAACCC 
GGGTCCGCGG GGCACCCGCC GGATGCGCAG CCTGGCCTCT ACTACAGCGC CAACGAGCAG 
TGCCGCGTGG CCTTCGGCCC CAAGGCTGTC GCCTGCACCT TCGCCAGGGA GCACCTGGAT 
ATGTGCCAGG CCCTCTCCTG CCACACAGAC CCGCTGGACC AAAGCAGCTG CAGCCGCCTC 
CTCGTTCCTC TCCTGGATGG GACAGAATGT GGCGTGGAGA AGTGGTGCTC CAAGGGTCGC 
TGCCGCTCCC TGGTGGAGCT GACCCCCATA GCAGCAGTGC ATGGGCGCTG GTCTAGCTGG 
GGTCCCCGAA GTCCTTGCTC CCGCTCCTGC GGAGGAGGTG TGGTCACCAG GAGGCGGCAG 
TGCAACAACC CCAGACCTGC CTTTGGGGGG CGTGCATGTG TTGGTGCTGA CCTCCAGGCC 
GAGATGTGCA ACACTCAGGC CTGCGAGAAG ACCCAGCTGG AGTTCATGTC GCAACAGTGC 
GCCAGGACCG ACGGCCAGCC GCTGCGCTCC TCCCCTGGCG GCGCCTCCTT CTACCACTGG 
GGTGCTGCTG TACCACACAG CCAAGGGGAT GCTCTGTGCA GACACATGTG CCGGGCCATT 
GGCGAGAGCT TCATCATGAA GCGTGGAGAC AGCTTCCTCG ATGGGACCCG GTGTATGCCA 
AGTGGCCCCC GGGAGGACGG GACCCTGAGC CTGTGTGTGT CGGGCAGCTG CAGGACATTT 
GGCTGTGATG GTAGGATGGA CTCCCAGCAG GTATGGGACA GGTGCCAGGT GTGTGGTGGG 
GACAACAGCA CGTGCAGCCC ACGGAAGGGC TCTTTCACAG CTGGCAGAGC GAGAGAATAT 
GTCACGTTTC TGACAGTTAC CCCCAACCTG ACCAGTGTCT ACATTGCCAA CCACAGGCCT 
CTCTTCACAC ACTTGGCGGT GAGGATCGGA GGGCGCTATG TCGTGGCTGG GAAGATGAGC 
ATCTCCCCTA ACACCACCTA CCCCTCCCTC CTGGAGGATG GTCGTGTCGA GTACAGAGTG 
GCCCTCACCG AGGACCGGCT GCCCCGCCTG GAGGAGATCC GCATCTGGGG ACCCCTCCAG 
GAAGATGCTG ACATCCAGGT TTACAGGCGG TATGGCGAGG AGTATGGCAA CCTCACCCGC 
CCAGACATCA CCTTCACCTA CTTCCAGCCT AAGCCACGGC AGGCCTGGGT GTGGGCCGCT 
GTGCGTGGGC CCTGCTCGGT GAGCTGTGGG GCAGGGCTGC GCTGGGTAAA CTACAGCTGC 
CTGGACCAGG CCAGGAAGGA GTTGGTGGAG ACTGTCCAGT GCCAAGGGAG CCAGCAGCCA 
CCAGCGTGGC CAGAGGCCTG CGTGCTCGAA CCCTGCCCTC CCTACTGGGC GGTGGGAGAC 
TTCGGCCCAT GCAGCGCCTC CTGTGGGGGT GGCCTGCGGG AGCGGCCAGT GCGCTGCGTG 
GAGGCCCAGG GCAGCCTCCT GAAGACATTG CCCCCAGCCC GGTGCAGAGC AGGGGCCCAG 
CAGCCAGCTG TGGCGCTGGA AACCTGCAAC CCCCAGCCCT GCCCTGCCAG GTGGGAGGTG 
TCAGAGCCCA GCTCATGCAC ATCAGCTGGT GGAGCAGGCC TGGCCTTGGA GAACGAGACC 
TGTGTGCCAG GGGCAGATGG CCTGGAGGCT CCAGTGACTG AGGGGCCTGG CTCCGTAGAT 
GAGAAGCTGC CTGCCCCTGA GCCCTGTGTC GGGATGTCAT GTCCTCCAGG CTGGGGCCAT 
CTGGATGCCA CCTCTGCAGG GGAGAAGGCT CCCTCCCCAT GGGGCAGCAT CAGGACGGGG 
GCTCAAGCTG CACACGTGTG GACCCCTGCG GCAGGGTCGT GCTCCGTCTC CTGCGGGCGA 
GGTCTGATGG AGCTGCGTTT CCTGTGCATG GACTCTGCCC TCAGGGTGCC TGTCCAGGAA 
GAGCTGTGTG GCCTGGCAAG CAAGCCTGGG AGCCGGCGGG AGGTCTGCCA GGCTGTCCCG 
TGCCCTGCTC GGTGGCAGTA CAAGCTGGCG GCCTGCAGCG TGAGCTGTGG GAGAGGGGTC 
GTGCGGAGGA TCCTGTATTG TGCCCGGGCC CATGGGGAGG ACGATGGTGA GGAGATCCTG 
TTGGACACCC AGTGCCAGGG GCTGCCTCGC CCGGAACCCC AGGAGGCCTG CAGCCTGGAG 
CCCTGCCCAC CTAGGTGGAA AGTCATGTCC CTTGGCCCAT GTTCGGCCAG CTGTGGCCTT 
GGCACTGCTA GACGCTCGGT GGCCTGTGTG CAGCTCGACC AAGGCCAGGA CGTGGAGGTG 
GACGAGGCGG CCTGTGCGGC GCTGGTGCGG CCCGAGGCCA GTGTCCCCTG TCTCATTGCC 
GACTGCACCT ACCGCTGGCA TGTTGGCACC TGGATGGAGT GCTCTGTTTC CTGTGGGGAT 
GGCATCCAGC GCCGGCGTGA CACCTGCCTC GGACCCCAGG CCCAGGCGCC TGTGCCAGCT 
GATTTCTGCC AGCACTTGCC CAAGCCGGTG ACTGTGCGTG GCTGCTGGGC TGGGCCCTGT 
GTGGGACAGG GTACGCCCAG CCTGGTGCCC CACGAAGAAG CCGCTGCTCC AGGACGGACC 
ACAGCCACCC CTGCTGGTGC CTCCCTGGAG TGGTCCCAGG CCCGGGGCCT GCTCTTCTCC 
CCGGCTCCCC AGCCTCGGCG GCTCCTGCCC GGGCCCCAGG AAAACTCAGT GCAGTCCAGT 
GCCTGTGGCA GGCAGCACCT TGAGCCAACA GGAACCATTG ACATGCGAGG CCCAGGGCAG 
GCAGACTGTG CAGTGGCCAT TGGGCGGCCC CTCGGGGAGG TGGTGACCCT CCGCGTCCTT 
GAGAGTTCTC TCAACTGCAG TGCGGGGGAC ATGTTGCTGC TTTGGGGCCG GCTCACCTGG 
AGGAAGATGT GCAGGAAGCT GTTGGACATG ACTTTCAGCT CCAAGACCAA CACGCTGGTG 
GTGAGGCAGC GCTGCGGGCG GCCAGGAGGT GGGGTGCTGC TGCGGTATGG GAGCCAGCTT 
GCTCCTGAAA CCTTCTACAG AGAATGTGAC ATGCAGCTCT TTGGGCCCTG GGGTGAAATC 
GTGAGCCCCT CGCTGAGTCC AGCCACGAGT AATGCAGGGG GCTGCCGGCT CTTCATTAAT 
GTGGCTCCGC ACGCACGGAT TGCCATCCAT GCCCTGGCCA CCAACATGGG CGCTGGGACC 
GAGGGAGCCA ATGCCAGCTA CATCTTGATC CGGGACACCC ACAGCTTGAG GACCACAGCG 
TTCCATGGGC AGCAGGTGCT CTACTGGGAG TCAGAGAGCA GCCAGGCTGA GATGGAGTTC 
AGCGAGGGCT TCCTGAAGGC TCAGGCCAGC CTGCGGGGCC AGTACTGGAC CCTCCAATCA 
TGGGTACCGG AGATGCAGGA CCCTCAGTCC TGGAAGGGAA AGGAAGGAAC CTGA

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

RefSeq	XP_016869722.1
CDS	447..4340
Translation	MVILTEPEGAPNITANLTSSLLSVCGWSQTINPEDDTDPGHADLVLYITRFDLELPDGNRQVRGVTQLGGACSPTWSCLITEDTGFDLGVTIAHEIGHSFGLEHDGAPGSGCGPSGHVMASDGAAPRAGLAWSPCSRRQLLSLLSAGRARCVWDPPRPQPGSAGHPPDAQPGLYYSANEQCRVAFGPKAVACTFAREHLDMCQALSCHTDPLDQSSCSRLLVPLLDGTECGVEKWCSKGRCRSLVELTPIAAVHGRWSSWGPRSPCSRSCGGGVVTRRRQCNNPRPAFGGRACVGADLQAEMCNTQACEKTQLEFMSQQCARTDGQPLRSSPGGASFYHWGAAVPHSQGDALCRHMCRAIGESFIMKRGDSFLDGTRCMPSGPREDGTLSLCVSGSCRTFGCDGRMDSQQVWDRCQVCGGDNSTCSPRKGSFTAGRAREYVTFLTVTPNLTSVYIANHRPLFTHLAVRIGGRYVVAGKMSISPNTTYPSLLEDGRVEYRVALTEDRLPRLEEIRIWGPLQEDADIQVYRRYGEEYGNLTRPDITFTYFQPKPRQAWVWAAVRGPCSVSCGAGLRWVNYSCLDQARKELVETVQCQGSQQPPAWPEACVLEPCPPYWAVGDFGPCSASCGGGLRERPVRCVEAQGSLLKTLPPARCRAGAQQPAVALETCNPQPCPARWEVSEPSSCTSAGGAGLALENETCVPGADGLEAPVTEGPGSVDEKLPAPEPCVGMSCPPGWGHLDATSAGEKAPSPWGSIRTGAQAAHVWTPAAGSCSVSCGRGLMELRFLCMDSALRVPVQEELCGLASKPGSRREVCQAVPCPARWQYKLAACSVSCGRGVVRRILYCARAHGEDDGEEILLDTQCQGLPRPEPQEACSLEPCPPRWKVMSLGPCSASCGLGTARRSVACVQLDQGQDVEVDEAACAALVRPEASVPCLIADCTYRWHVGTWMECSVSCGDGIQRRRDTCLGPQAQAPVPADFCQHLPKPVTVRGCWAGPCVGQGTPSLVPHEEAAAPGRTTATPAGASLEWSQARGLLFSPAPQPRRLLPGPQENSVQSSACGRQHLEPTGTIDMRGPGQADCAVAIGRPLGEVVTLRVLESSLNCSAGDMLLLWGRLTWRKMCRKLLDMTFSSKTNTLVVRQRCGRPGGGVLLRYGSQLAPETFYRECDMQLFGPWGEIVSPSLSPATSNAGGCRLFINVAPHARIAIHALATNMGAGTEGANASYILIRDTHSLRTTAFHGQQVLYWESESSQAEMEFSEGFLKAQASLRGQYWTLQSWVPEMQDPQSWKGKEGT

Target ORF information:

RefSeq Version	XM_017014233.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant X2, mRNA.

Target ORF information:

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

XM_017014233.1

ORF Insert Sequence:

ATGGTCATTC TGACAGAGCC TGAGGGTGCT CCAAATATCA CAGCCAACCT CACCTCGTCC 
CTGCTGAGCG TCTGTGGGTG GAGCCAGACC ATCAACCCTG AGGACGACAC GGATCCTGGC 
CATGCTGACC TGGTCCTCTA TATCACTAGG TTTGACCTGG AGTTGCCTGA TGGTAACCGG 
CAGGTGCGGG GCGTCACCCA GCTGGGCGGT GCCTGCTCCC CAACCTGGAG CTGCCTCATT 
ACCGAGGACA CTGGCTTCGA CCTGGGAGTC ACCATTGCCC ATGAGATTGG GCACAGCTTC 
GGCCTGGAGC ACGACGGCGC GCCCGGCAGC GGCTGCGGCC CCAGCGGACA CGTGATGGCT 
TCGGACGGCG CCGCGCCCCG CGCCGGCCTC GCCTGGTCCC CCTGCAGCCG CCGGCAGCTG 
CTGAGCCTGC TCAGCGCAGG ACGGGCGCGC TGCGTGTGGG ACCCGCCGCG GCCTCAACCC 
GGGTCCGCGG GGCACCCGCC GGATGCGCAG CCTGGCCTCT ACTACAGCGC CAACGAGCAG 
TGCCGCGTGG CCTTCGGCCC CAAGGCTGTC GCCTGCACCT TCGCCAGGGA GCACCTGGAT 
ATGTGCCAGG CCCTCTCCTG CCACACAGAC CCGCTGGACC AAAGCAGCTG CAGCCGCCTC 
CTCGTTCCTC TCCTGGATGG GACAGAATGT GGCGTGGAGA AGTGGTGCTC CAAGGGTCGC 
TGCCGCTCCC TGGTGGAGCT GACCCCCATA GCAGCAGTGC ATGGGCGCTG GTCTAGCTGG 
GGTCCCCGAA GTCCTTGCTC CCGCTCCTGC GGAGGAGGTG TGGTCACCAG GAGGCGGCAG 
TGCAACAACC CCAGACCTGC CTTTGGGGGG CGTGCATGTG TTGGTGCTGA CCTCCAGGCC 
GAGATGTGCA ACACTCAGGC CTGCGAGAAG ACCCAGCTGG AGTTCATGTC GCAACAGTGC 
GCCAGGACCG ACGGCCAGCC GCTGCGCTCC TCCCCTGGCG GCGCCTCCTT CTACCACTGG 
GGTGCTGCTG TACCACACAG CCAAGGGGAT GCTCTGTGCA GACACATGTG CCGGGCCATT 
GGCGAGAGCT TCATCATGAA GCGTGGAGAC AGCTTCCTCG ATGGGACCCG GTGTATGCCA 
AGTGGCCCCC GGGAGGACGG GACCCTGAGC CTGTGTGTGT CGGGCAGCTG CAGGACATTT 
GGCTGTGATG GTAGGATGGA CTCCCAGCAG GTATGGGACA GGTGCCAGGT GTGTGGTGGG 
GACAACAGCA CGTGCAGCCC ACGGAAGGGC TCTTTCACAG CTGGCAGAGC GAGAGAATAT 
GTCACGTTTC TGACAGTTAC CCCCAACCTG ACCAGTGTCT ACATTGCCAA CCACAGGCCT 
CTCTTCACAC ACTTGGCGGT GAGGATCGGA GGGCGCTATG TCGTGGCTGG GAAGATGAGC 
ATCTCCCCTA ACACCACCTA CCCCTCCCTC CTGGAGGATG GTCGTGTCGA GTACAGAGTG 
GCCCTCACCG AGGACCGGCT GCCCCGCCTG GAGGAGATCC GCATCTGGGG ACCCCTCCAG 
GAAGATGCTG ACATCCAGGT TTACAGGCGG TATGGCGAGG AGTATGGCAA CCTCACCCGC 
CCAGACATCA CCTTCACCTA CTTCCAGCCT AAGCCACGGC AGGCCTGGGT GTGGGCCGCT 
GTGCGTGGGC CCTGCTCGGT GAGCTGTGGG GCAGGGCTGC GCTGGGTAAA CTACAGCTGC 
CTGGACCAGG CCAGGAAGGA GTTGGTGGAG ACTGTCCAGT GCCAAGGGAG CCAGCAGCCA 
CCAGCGTGGC CAGAGGCCTG CGTGCTCGAA CCCTGCCCTC CCTACTGGGC GGTGGGAGAC 
TTCGGCCCAT GCAGCGCCTC CTGTGGGGGT GGCCTGCGGG AGCGGCCAGT GCGCTGCGTG 
GAGGCCCAGG GCAGCCTCCT GAAGACATTG CCCCCAGCCC GGTGCAGAGC AGGGGCCCAG 
CAGCCAGCTG TGGCGCTGGA AACCTGCAAC CCCCAGCCCT GCCCTGCCAG GTGGGAGGTG 
TCAGAGCCCA GCTCATGCAC ATCAGCTGGT GGAGCAGGCC TGGCCTTGGA GAACGAGACC 
TGTGTGCCAG GGGCAGATGG CCTGGAGGCT CCAGTGACTG AGGGGCCTGG CTCCGTAGAT 
GAGAAGCTGC CTGCCCCTGA GCCCTGTGTC GGGATGTCAT GTCCTCCAGG CTGGGGCCAT 
CTGGATGCCA CCTCTGCAGG GGAGAAGGCT CCCTCCCCAT GGGGCAGCAT CAGGACGGGG 
GCTCAAGCTG CACACGTGTG GACCCCTGCG GCAGGGTCGT GCTCCGTCTC CTGCGGGCGA 
GGTCTGATGG AGCTGCGTTT CCTGTGCATG GACTCTGCCC TCAGGGTGCC TGTCCAGGAA 
GAGCTGTGTG GCCTGGCAAG CAAGCCTGGG AGCCGGCGGG AGGTCTGCCA GGCTGTCCCG 
TGCCCTGCTC GGTGGCAGTA CAAGCTGGCG GCCTGCAGCG TGAGCTGTGG GAGAGGGGTC 
GTGCGGAGGA TCCTGTATTG TGCCCGGGCC CATGGGGAGG ACGATGGTGA GGAGATCCTG 
TTGGACACCC AGTGCCAGGG GCTGCCTCGC CCGGAACCCC AGGAGGCCTG CAGCCTGGAG 
CCCTGCCCAC CTAGGTGGAA AGTCATGTCC CTTGGCCCAT GTTCGGCCAG CTGTGGCCTT 
GGCACTGCTA GACGCTCGGT GGCCTGTGTG CAGCTCGACC AAGGCCAGGA CGTGGAGGTG 
GACGAGGCGG CCTGTGCGGC GCTGGTGCGG CCCGAGGCCA GTGTCCCCTG TCTCATTGCC 
GACTGCACCT ACCGCTGGCA TGTTGGCACC TGGATGGAGT GCTCTGTTTC CTGTGGGGAT 
GGCATCCAGC GCCGGCGTGA CACCTGCCTC GGACCCCAGG CCCAGGCGCC TGTGCCAGCT 
GATTTCTGCC AGCACTTGCC CAAGCCGGTG ACTGTGCGTG GCTGCTGGGC TGGGCCCTGT 
GTGGGACAGG GTACGCCCAG CCTGGTGCCC CACGAAGAAG CCGCTGCTCC AGGACGGACC 
ACAGCCACCC CTGCTGGTGC CTCCCTGGAG TGGTCCCAGG CCCGGGGCCT GCTCTTCTCC 
CCGGCTCCCC AGCCTCGGCG GCTCCTGCCC GGGCCCCAGG AAAACTCAGT GCAGTCCAGT 
GCCTGTGGCA GGCAGCACCT TGAGCCAACA GGAACCATTG ACATGCGAGG CCCAGGGCAG 
GCAGACTGTG CAGTGGCCAT TGGGCGGCCC CTCGGGGAGG TGGTGACCCT CCGCGTCCTT 
GAGAGTTCTC TCAACTGCAG TGCGGGGGAC ATGTTGCTGC TTTGGGGCCG GCTCACCTGG 
AGGAAGATGT GCAGGAAGCT GTTGGACATG ACTTTCAGCT CCAAGACCAA CACGCTGGTG 
GTGAGGCAGC GCTGCGGGCG GCCAGGAGGT GGGGTGCTGC TGCGGTATGG GAGCCAGCTT 
GCTCCTGAAA CCTTCTACAG AGAATGTGAC ATGCAGCTCT TTGGGCCCTG GGGTGAAATC 
GTGAGCCCCT CGCTGAGTCC AGCCACGAGT AATGCAGGGG GCTGCCGGCT CTTCATTAAT 
GTGGCTCCGC ACGCACGGAT TGCCATCCAT GCCCTGGCCA CCAACATGGG CGCTGGGACC 
GAGGGAGCCA ATGCCAGCTA CATCTTGATC CGGGACACCC ACAGCTTGAG GACCACAGCG 
TTCCATGGGC AGCAGGTGCT CTACTGGGAG TCAGAGAGCA GCCAGGCTGA GATGGAGTTC 
AGCGAGGGCT TCCTGAAGGC TCAGGCCAGC CTGCGGGGCC AGTACTGGAC CCTCCAATCA 
TGGGTACCGG AGATGCAGGA CCCTCAGTCC TGGAAGGGAA AGGAAGGAAC CTGA

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

ADAMTS13 ( XM_017014232.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016869721.1 Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant X1, mRNA.

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CloneID	OHu98416
Clone ID Related Accession (Same CDS sequence)	XM_017014232.1
Accession Version	XM_017014232.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4272bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 13 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAAGGGGA TTGCCAGGCC GTTTGTGATG ATGCTGAGAT CTGGTGCCGT GCAGCCTGCT 
TCTGCGACTC TCCTCATCAG GCGCAGGCAC AGAAGTTGTC TTCAGGCTTT GGAGCCACAG 
GCCGTGTCTT CTTACTTGAG CCCTGGTGCT CCCTTAAAAG GCCGCCCTCC TTCCCCTGGC 
TTCCAGAGGC AGAGGCAGAG GCAGAGGCGG GCTGCAGGCG GCATCCTACA CCTGGAGCTG 
CTGGTGGCCG TGGGCCCCGA TGTCTTCCAG GCTCACCAGG AGGACACAGA GCGCTATGTG 
CTCACCAACC TCAACATCGG GGCAGAACTG CTTCGGGACC CGTCCCTGGG GGCTCAGTTT 
CGGGTGCACC TGGTGAAGAT GGTCATTCTG ACAGAGCCTG AGGGTGCTCC AAATATCACA 
GCCAACCTCA CCTCGTCCCT GCTGAGCGTC TGTGGGTGGA GCCAGACCAT CAACCCTGAG 
GACGACACGG ATCCTGGCCA TGCTGACCTG GTCCTCTATA TCACTAGGTT TGACCTGGAG 
TTGCCTGATG GTAACCGGCA GGTGCGGGGC GTCACCCAGC TGGGCGGTGC CTGCTCCCCA 
ACCTGGAGCT GCCTCATTAC CGAGGACACT GGCTTCGACC TGGGAGTCAC CATTGCCCAT 
GAGATTGGGC ACAGCTTCGG CCTGGAGCAC GACGGCGCGC CCGGCAGCGG CTGCGGCCCC 
AGCGGACACG TGATGGCTTC GGACGGCGCC GCGCCCCGCG CCGGCCTCGC CTGGTCCCCC 
TGCAGCCGCC GGCAGCTGCT GAGCCTGCTC AGCGCAGGAC GGGCGCGCTG CGTGTGGGAC 
CCGCCGCGGC CTCAACCCGG GTCCGCGGGG CACCCGCCGG ATGCGCAGCC TGGCCTCTAC 
TACAGCGCCA ACGAGCAGTG CCGCGTGGCC TTCGGCCCCA AGGCTGTCGC CTGCACCTTC 
GCCAGGGAGC ACCTGGATAT GTGCCAGGCC CTCTCCTGCC ACACAGACCC GCTGGACCAA 
AGCAGCTGCA GCCGCCTCCT CGTTCCTCTC CTGGATGGGA CAGAATGTGG CGTGGAGAAG 
TGGTGCTCCA AGGGTCGCTG CCGCTCCCTG GTGGAGCTGA CCCCCATAGC AGCAGTGCAT 
GGGCGCTGGT CTAGCTGGGG TCCCCGAAGT CCTTGCTCCC GCTCCTGCGG AGGAGGTGTG 
GTCACCAGGA GGCGGCAGTG CAACAACCCC AGACCTGCCT TTGGGGGGCG TGCATGTGTT 
GGTGCTGACC TCCAGGCCGA GATGTGCAAC ACTCAGGCCT GCGAGAAGAC CCAGCTGGAG 
TTCATGTCGC AACAGTGCGC CAGGACCGAC GGCCAGCCGC TGCGCTCCTC CCCTGGCGGC 
GCCTCCTTCT ACCACTGGGG TGCTGCTGTA CCACACAGCC AAGGGGATGC TCTGTGCAGA 
CACATGTGCC GGGCCATTGG CGAGAGCTTC ATCATGAAGC GTGGAGACAG CTTCCTCGAT 
GGGACCCGGT GTATGCCAAG TGGCCCCCGG GAGGACGGGA CCCTGAGCCT GTGTGTGTCG 
GGCAGCTGCA GGACATTTGG CTGTGATGGT AGGATGGACT CCCAGCAGGT ATGGGACAGG 
TGCCAGGTGT GTGGTGGGGA CAACAGCACG TGCAGCCCAC GGAAGGGCTC TTTCACAGCT 
GGCAGAGCGA GAGAATATGT CACGTTTCTG ACAGTTACCC CCAACCTGAC CAGTGTCTAC 
ATTGCCAACC ACAGGCCTCT CTTCACACAC TTGGCGGTGA GGATCGGAGG GCGCTATGTC 
GTGGCTGGGA AGATGAGCAT CTCCCCTAAC ACCACCTACC CCTCCCTCCT GGAGGATGGT 
CGTGTCGAGT ACAGAGTGGC CCTCACCGAG GACCGGCTGC CCCGCCTGGA GGAGATCCGC 
ATCTGGGGAC CCCTCCAGGA AGATGCTGAC ATCCAGGTTT ACAGGCGGTA TGGCGAGGAG 
TATGGCAACC TCACCCGCCC AGACATCACC TTCACCTACT TCCAGCCTAA GCCACGGCAG 
GCCTGGGTGT GGGCCGCTGT GCGTGGGCCC TGCTCGGTGA GCTGTGGGGC AGGGCTGCGC 
TGGGTAAACT ACAGCTGCCT GGACCAGGCC AGGAAGGAGT TGGTGGAGAC TGTCCAGTGC 
CAAGGGAGCC AGCAGCCACC AGCGTGGCCA GAGGCCTGCG TGCTCGAACC CTGCCCTCCC 
TACTGGGCGG TGGGAGACTT CGGCCCATGC AGCGCCTCCT GTGGGGGTGG CCTGCGGGAG 
CGGCCAGTGC GCTGCGTGGA GGCCCAGGGC AGCCTCCTGA AGACATTGCC CCCAGCCCGG 
TGCAGAGCAG GGGCCCAGCA GCCAGCTGTG GCGCTGGAAA CCTGCAACCC CCAGCCCTGC 
CCTGCCAGGT GGGAGGTGTC AGAGCCCAGC TCATGCACAT CAGCTGGTGG AGCAGGCCTG 
GCCTTGGAGA ACGAGACCTG TGTGCCAGGG GCAGATGGCC TGGAGGCTCC AGTGACTGAG 
GGGCCTGGCT CCGTAGATGA GAAGCTGCCT GCCCCTGAGC CCTGTGTCGG GATGTCATGT 
CCTCCAGGCT GGGGCCATCT GGATGCCACC TCTGCAGGGG AGAAGGCTCC CTCCCCATGG 
GGCAGCATCA GGACGGGGGC TCAAGCTGCA CACGTGTGGA CCCCTGCGGC AGGGTCGTGC 
TCCGTCTCCT GCGGGCGAGG TCTGATGGAG CTGCGTTTCC TGTGCATGGA CTCTGCCCTC 
AGGGTGCCTG TCCAGGAAGA GCTGTGTGGC CTGGCAAGCA AGCCTGGGAG CCGGCGGGAG 
GTCTGCCAGG CTGTCCCGTG CCCTGCTCGG TGGCAGTACA AGCTGGCGGC CTGCAGCGTG 
AGCTGTGGGA GAGGGGTCGT GCGGAGGATC CTGTATTGTG CCCGGGCCCA TGGGGAGGAC 
GATGGTGAGG AGATCCTGTT GGACACCCAG TGCCAGGGGC TGCCTCGCCC GGAACCCCAG 
GAGGCCTGCA GCCTGGAGCC CTGCCCACCT AGGTGGAAAG TCATGTCCCT TGGCCCATGT 
TCGGCCAGCT GTGGCCTTGG CACTGCTAGA CGCTCGGTGG CCTGTGTGCA GCTCGACCAA 
GGCCAGGACG TGGAGGTGGA CGAGGCGGCC TGTGCGGCGC TGGTGCGGCC CGAGGCCAGT 
GTCCCCTGTC TCATTGCCGA CTGCACCTAC CGCTGGCATG TTGGCACCTG GATGGAGTGC 
TCTGTTTCCT GTGGGGATGG CATCCAGCGC CGGCGTGACA CCTGCCTCGG ACCCCAGGCC 
CAGGCGCCTG TGCCAGCTGA TTTCTGCCAG CACTTGCCCA AGCCGGTGAC TGTGCGTGGC 
TGCTGGGCTG GGCCCTGTGT GGGACAGGGT ACGCCCAGCC TGGTGCCCCA CGAAGAAGCC 
GCTGCTCCAG GACGGACCAC AGCCACCCCT GCTGGTGCCT CCCTGGAGTG GTCCCAGGCC 
CGGGGCCTGC TCTTCTCCCC GGCTCCCCAG CCTCGGCGGC TCCTGCCCGG GCCCCAGGAA 
AACTCAGTGC AGTCCAGTGC CTGTGGCAGG CAGCACCTTG AGCCAACAGG AACCATTGAC 
ATGCGAGGCC CAGGGCAGGC AGACTGTGCA GTGGCCATTG GGCGGCCCCT CGGGGAGGTG 
GTGACCCTCC GCGTCCTTGA GAGTTCTCTC AACTGCAGTG CGGGGGACAT GTTGCTGCTT 
TGGGGCCGGC TCACCTGGAG GAAGATGTGC AGGAAGCTGT TGGACATGAC TTTCAGCTCC 
AAGACCAACA CGCTGGTGGT GAGGCAGCGC TGCGGGCGGC CAGGAGGTGG GGTGCTGCTG 
CGGTATGGGA GCCAGCTTGC TCCTGAAACC TTCTACAGAG AATGTGACAT GCAGCTCTTT 
GGGCCCTGGG GTGAAATCGT GAGCCCCTCG CTGAGTCCAG CCACGAGTAA TGCAGGGGGC 
TGCCGGCTCT TCATTAATGT GGCTCCGCAC GCACGGATTG CCATCCATGC CCTGGCCACC 
AACATGGGCG CTGGGACCGA GGGAGCCAAT GCCAGCTACA TCTTGATCCG GGACACCCAC 
AGCTTGAGGA CCACAGCGTT CCATGGGCAG CAGGTGCTCT ACTGGGAGTC AGAGAGCAGC 
CAGGCTGAGA TGGAGTTCAG CGAGGGCTTC CTGAAGGCTC AGGCCAGCCT GCGGGGCCAG 
TACTGGACCC TCCAATCATG GGTACCGGAG ATGCAGGACC CTCAGTCCTG GAAGGGAAAG 
GAAGGAACCT GA

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

RefSeq	XP_016869721.1
CDS	668..4939
Translation	MKGIARPFVMMLRSGAVQPASATLLIRRRHRSCLQALEPQAVSSYLSPGAPLKGRPPSPGFQRQRQRQRRAAGGILHLELLVAVGPDVFQAHQEDTERYVLTNLNIGAELLRDPSLGAQFRVHLVKMVILTEPEGAPNITANLTSSLLSVCGWSQTINPEDDTDPGHADLVLYITRFDLELPDGNRQVRGVTQLGGACSPTWSCLITEDTGFDLGVTIAHEIGHSFGLEHDGAPGSGCGPSGHVMASDGAAPRAGLAWSPCSRRQLLSLLSAGRARCVWDPPRPQPGSAGHPPDAQPGLYYSANEQCRVAFGPKAVACTFAREHLDMCQALSCHTDPLDQSSCSRLLVPLLDGTECGVEKWCSKGRCRSLVELTPIAAVHGRWSSWGPRSPCSRSCGGGVVTRRRQCNNPRPAFGGRACVGADLQAEMCNTQACEKTQLEFMSQQCARTDGQPLRSSPGGASFYHWGAAVPHSQGDALCRHMCRAIGESFIMKRGDSFLDGTRCMPSGPREDGTLSLCVSGSCRTFGCDGRMDSQQVWDRCQVCGGDNSTCSPRKGSFTAGRAREYVTFLTVTPNLTSVYIANHRPLFTHLAVRIGGRYVVAGKMSISPNTTYPSLLEDGRVEYRVALTEDRLPRLEEIRIWGPLQEDADIQVYRRYGEEYGNLTRPDITFTYFQPKPRQAWVWAAVRGPCSVSCGAGLRWVNYSCLDQARKELVETVQCQGSQQPPAWPEACVLEPCPPYWAVGDFGPCSASCGGGLRERPVRCVEAQGSLLKTLPPARCRAGAQQPAVALETCNPQPCPARWEVSEPSSCTSAGGAGLALENETCVPGADGLEAPVTEGPGSVDEKLPAPEPCVGMSCPPGWGHLDATSAGEKAPSPWGSIRTGAQAAHVWTPAAGSCSVSCGRGLMELRFLCMDSALRVPVQEELCGLASKPGSRREVCQAVPCPARWQYKLAACSVSCGRGVVRRILYCARAHGEDDGEEILLDTQCQGLPRPEPQEACSLEPCPPRWKVMSLGPCSASCGLGTARRSVACVQLDQGQDVEVDEAACAALVRPEASVPCLIADCTYRWHVGTWMECSVSCGDGIQRRRDTCLGPQAQAPVPADFCQHLPKPVTVRGCWAGPCVGQGTPSLVPHEEAAAPGRTTATPAGASLEWSQARGLLFSPAPQPRRLLPGPQENSVQSSACGRQHLEPTGTIDMRGPGQADCAVAIGRPLGEVVTLRVLESSLNCSAGDMLLLWGRLTWRKMCRKLLDMTFSSKTNTLVVRQRCGRPGGGVLLRYGSQLAPETFYRECDMQLFGPWGEIVSPSLSPATSNAGGCRLFINVAPHARIAIHALATNMGAGTEGANASYILIRDTHSLRTTAFHGQQVLYWESESSQAEMEFSEGFLKAQASLRGQYWTLQSWVPEMQDPQSWKGKEGT

Target ORF information:

RefSeq Version	XM_017014232.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant X1, mRNA.

Target ORF information:

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

XM_017014232.1

ORF Insert Sequence:

ATGAAGGGGA TTGCCAGGCC GTTTGTGATG ATGCTGAGAT CTGGTGCCGT GCAGCCTGCT 
TCTGCGACTC TCCTCATCAG GCGCAGGCAC AGAAGTTGTC TTCAGGCTTT GGAGCCACAG 
GCCGTGTCTT CTTACTTGAG CCCTGGTGCT CCCTTAAAAG GCCGCCCTCC TTCCCCTGGC 
TTCCAGAGGC AGAGGCAGAG GCAGAGGCGG GCTGCAGGCG GCATCCTACA CCTGGAGCTG 
CTGGTGGCCG TGGGCCCCGA TGTCTTCCAG GCTCACCAGG AGGACACAGA GCGCTATGTG 
CTCACCAACC TCAACATCGG GGCAGAACTG CTTCGGGACC CGTCCCTGGG GGCTCAGTTT 
CGGGTGCACC TGGTGAAGAT GGTCATTCTG ACAGAGCCTG AGGGTGCTCC AAATATCACA 
GCCAACCTCA CCTCGTCCCT GCTGAGCGTC TGTGGGTGGA GCCAGACCAT CAACCCTGAG 
GACGACACGG ATCCTGGCCA TGCTGACCTG GTCCTCTATA TCACTAGGTT TGACCTGGAG 
TTGCCTGATG GTAACCGGCA GGTGCGGGGC GTCACCCAGC TGGGCGGTGC CTGCTCCCCA 
ACCTGGAGCT GCCTCATTAC CGAGGACACT GGCTTCGACC TGGGAGTCAC CATTGCCCAT 
GAGATTGGGC ACAGCTTCGG CCTGGAGCAC GACGGCGCGC CCGGCAGCGG CTGCGGCCCC 
AGCGGACACG TGATGGCTTC GGACGGCGCC GCGCCCCGCG CCGGCCTCGC CTGGTCCCCC 
TGCAGCCGCC GGCAGCTGCT GAGCCTGCTC AGCGCAGGAC GGGCGCGCTG CGTGTGGGAC 
CCGCCGCGGC CTCAACCCGG GTCCGCGGGG CACCCGCCGG ATGCGCAGCC TGGCCTCTAC 
TACAGCGCCA ACGAGCAGTG CCGCGTGGCC TTCGGCCCCA AGGCTGTCGC CTGCACCTTC 
GCCAGGGAGC ACCTGGATAT GTGCCAGGCC CTCTCCTGCC ACACAGACCC GCTGGACCAA 
AGCAGCTGCA GCCGCCTCCT CGTTCCTCTC CTGGATGGGA CAGAATGTGG CGTGGAGAAG 
TGGTGCTCCA AGGGTCGCTG CCGCTCCCTG GTGGAGCTGA CCCCCATAGC AGCAGTGCAT 
GGGCGCTGGT CTAGCTGGGG TCCCCGAAGT CCTTGCTCCC GCTCCTGCGG AGGAGGTGTG 
GTCACCAGGA GGCGGCAGTG CAACAACCCC AGACCTGCCT TTGGGGGGCG TGCATGTGTT 
GGTGCTGACC TCCAGGCCGA GATGTGCAAC ACTCAGGCCT GCGAGAAGAC CCAGCTGGAG 
TTCATGTCGC AACAGTGCGC CAGGACCGAC GGCCAGCCGC TGCGCTCCTC CCCTGGCGGC 
GCCTCCTTCT ACCACTGGGG TGCTGCTGTA CCACACAGCC AAGGGGATGC TCTGTGCAGA 
CACATGTGCC GGGCCATTGG CGAGAGCTTC ATCATGAAGC GTGGAGACAG CTTCCTCGAT 
GGGACCCGGT GTATGCCAAG TGGCCCCCGG GAGGACGGGA CCCTGAGCCT GTGTGTGTCG 
GGCAGCTGCA GGACATTTGG CTGTGATGGT AGGATGGACT CCCAGCAGGT ATGGGACAGG 
TGCCAGGTGT GTGGTGGGGA CAACAGCACG TGCAGCCCAC GGAAGGGCTC TTTCACAGCT 
GGCAGAGCGA GAGAATATGT CACGTTTCTG ACAGTTACCC CCAACCTGAC CAGTGTCTAC 
ATTGCCAACC ACAGGCCTCT CTTCACACAC TTGGCGGTGA GGATCGGAGG GCGCTATGTC 
GTGGCTGGGA AGATGAGCAT CTCCCCTAAC ACCACCTACC CCTCCCTCCT GGAGGATGGT 
CGTGTCGAGT ACAGAGTGGC CCTCACCGAG GACCGGCTGC CCCGCCTGGA GGAGATCCGC 
ATCTGGGGAC CCCTCCAGGA AGATGCTGAC ATCCAGGTTT ACAGGCGGTA TGGCGAGGAG 
TATGGCAACC TCACCCGCCC AGACATCACC TTCACCTACT TCCAGCCTAA GCCACGGCAG 
GCCTGGGTGT GGGCCGCTGT GCGTGGGCCC TGCTCGGTGA GCTGTGGGGC AGGGCTGCGC 
TGGGTAAACT ACAGCTGCCT GGACCAGGCC AGGAAGGAGT TGGTGGAGAC TGTCCAGTGC 
CAAGGGAGCC AGCAGCCACC AGCGTGGCCA GAGGCCTGCG TGCTCGAACC CTGCCCTCCC 
TACTGGGCGG TGGGAGACTT CGGCCCATGC AGCGCCTCCT GTGGGGGTGG CCTGCGGGAG 
CGGCCAGTGC GCTGCGTGGA GGCCCAGGGC AGCCTCCTGA AGACATTGCC CCCAGCCCGG 
TGCAGAGCAG GGGCCCAGCA GCCAGCTGTG GCGCTGGAAA CCTGCAACCC CCAGCCCTGC 
CCTGCCAGGT GGGAGGTGTC AGAGCCCAGC TCATGCACAT CAGCTGGTGG AGCAGGCCTG 
GCCTTGGAGA ACGAGACCTG TGTGCCAGGG GCAGATGGCC TGGAGGCTCC AGTGACTGAG 
GGGCCTGGCT CCGTAGATGA GAAGCTGCCT GCCCCTGAGC CCTGTGTCGG GATGTCATGT 
CCTCCAGGCT GGGGCCATCT GGATGCCACC TCTGCAGGGG AGAAGGCTCC CTCCCCATGG 
GGCAGCATCA GGACGGGGGC TCAAGCTGCA CACGTGTGGA CCCCTGCGGC AGGGTCGTGC 
TCCGTCTCCT GCGGGCGAGG TCTGATGGAG CTGCGTTTCC TGTGCATGGA CTCTGCCCTC 
AGGGTGCCTG TCCAGGAAGA GCTGTGTGGC CTGGCAAGCA AGCCTGGGAG CCGGCGGGAG 
GTCTGCCAGG CTGTCCCGTG CCCTGCTCGG TGGCAGTACA AGCTGGCGGC CTGCAGCGTG 
AGCTGTGGGA GAGGGGTCGT GCGGAGGATC CTGTATTGTG CCCGGGCCCA TGGGGAGGAC 
GATGGTGAGG AGATCCTGTT GGACACCCAG TGCCAGGGGC TGCCTCGCCC GGAACCCCAG 
GAGGCCTGCA GCCTGGAGCC CTGCCCACCT AGGTGGAAAG TCATGTCCCT TGGCCCATGT 
TCGGCCAGCT GTGGCCTTGG CACTGCTAGA CGCTCGGTGG CCTGTGTGCA GCTCGACCAA 
GGCCAGGACG TGGAGGTGGA CGAGGCGGCC TGTGCGGCGC TGGTGCGGCC CGAGGCCAGT 
GTCCCCTGTC TCATTGCCGA CTGCACCTAC CGCTGGCATG TTGGCACCTG GATGGAGTGC 
TCTGTTTCCT GTGGGGATGG CATCCAGCGC CGGCGTGACA CCTGCCTCGG ACCCCAGGCC 
CAGGCGCCTG TGCCAGCTGA TTTCTGCCAG CACTTGCCCA AGCCGGTGAC TGTGCGTGGC 
TGCTGGGCTG GGCCCTGTGT GGGACAGGGT ACGCCCAGCC TGGTGCCCCA CGAAGAAGCC 
GCTGCTCCAG GACGGACCAC AGCCACCCCT GCTGGTGCCT CCCTGGAGTG GTCCCAGGCC 
CGGGGCCTGC TCTTCTCCCC GGCTCCCCAG CCTCGGCGGC TCCTGCCCGG GCCCCAGGAA 
AACTCAGTGC AGTCCAGTGC CTGTGGCAGG CAGCACCTTG AGCCAACAGG AACCATTGAC 
ATGCGAGGCC CAGGGCAGGC AGACTGTGCA GTGGCCATTG GGCGGCCCCT CGGGGAGGTG 
GTGACCCTCC GCGTCCTTGA GAGTTCTCTC AACTGCAGTG CGGGGGACAT GTTGCTGCTT 
TGGGGCCGGC TCACCTGGAG GAAGATGTGC AGGAAGCTGT TGGACATGAC TTTCAGCTCC 
AAGACCAACA CGCTGGTGGT GAGGCAGCGC TGCGGGCGGC CAGGAGGTGG GGTGCTGCTG 
CGGTATGGGA GCCAGCTTGC TCCTGAAACC TTCTACAGAG AATGTGACAT GCAGCTCTTT 
GGGCCCTGGG GTGAAATCGT GAGCCCCTCG CTGAGTCCAG CCACGAGTAA TGCAGGGGGC 
TGCCGGCTCT TCATTAATGT GGCTCCGCAC GCACGGATTG CCATCCATGC CCTGGCCACC 
AACATGGGCG CTGGGACCGA GGGAGCCAAT GCCAGCTACA TCTTGATCCG GGACACCCAC 
AGCTTGAGGA CCACAGCGTT CCATGGGCAG CAGGTGCTCT ACTGGGAGTC AGAGAGCAGC 
CAGGCTGAGA TGGAGTTCAG CGAGGGCTTC CTGAAGGCTC AGGCCAGCCT GCGGGGCCAG 
TACTGGACCC TCCAATCATG GGTACCGGAG ATGCAGGACC CTCAGTCCTG GAAGGGAAAG 
GAAGGAACCT GA

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

ADAMTS13 ( XM_017014235.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016869724.1 Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant X7, mRNA.

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CloneID	OHu98417
Clone ID Related Accession (Same CDS sequence)	XM_017014235.1
Accession Version	XM_017014235.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2235bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 13 isoform X7
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCACCAGC GTCACCCCCG GGCAAGATGC CCTCCCCTCT GTGTGGCCGG AATCCTTGCC 
TGTGGCTTTC TCCTGGGCTG CTGGGGACCC TCCCATTTCC AGCAGAGTTG TCTTCAGGCT 
TTGGAGCCAC AGGCCGTGTC TTCTTACTTG AGCCCTGGTG CTCCCTTAAA AGGCCGCCCT 
CCTTCCCCTG GCTTCCAGAG GCAGAGGCAG AGGCAGAGGC GGGCTGCAGG CGGCATCCTA 
CACCTGGAGC TGCTGGTGGC CGTGGGCCCC GATGTCTTCC AGGCTCACCA GGAGGACACA 
GAGCGCTATG TGCTCACCAA CCTCAACATC GGGGCAGAAC TGCTTCGGGA CCCGTCCCTG 
GGGGCTCAGT TTCGGGTGCA CCTGGTGAAG ATGGTCATTC TGACAGAGCC TGAGGGTGCT 
CCAAATATCA CAGCCAACCT CACCTCGTCC CTGCTGAGCG TCTGTGGGTG GAGCCAGACC 
ATCAACCCTG AGGACGACAC GGATCCTGGC CATGCTGACC TGGTCCTCTA TATCACTAGG 
TTTGACCTGG AGTTGCCTGA TGGTAACCGG CAGGTGCGGG GCGTCACCCA GCTGGGCGGT 
GCCTGCTCCC CAACCTGGAG CTGCCTCATT ACCGAGGACA CTGGCTTCGA CCTGGGAGTC 
ACCATTGCCC ATGAGATTGG GCACAGCTTC GGCCTGGAGC ACGACGGCGC GCCCGGCAGC 
GGCTGCGGCC CCAGCGGACA CGTGATGGCT TCGGACGGCG CCGCGCCCCG CGCCGGCCTC 
GCCTGGTCCC CCTGCAGCCG CCGGCAGCTG CTGAGCCTGC TCAGCGCAGG ACGGGCGCGC 
TGCGTGTGGG ACCCGCCGCG GCCTCAACCC GGGTCCGCGG GGCACCCGCC GGATGCGCAG 
CCTGGCCTCT ACTACAGCGC CAACGAGCAG TGCCGCGTGG CCTTCGGCCC CAAGGCTGTC 
GCCTGCACCT TCGCCAGGGA GCACCTGGAT ATGTGCCAGG CCCTCTCCTG CCACACAGAC 
CCGCTGGACC AAAGCAGCTG CAGCCGCCTC CTCGTTCCTC TCCTGGATGG GACAGAATGT 
GGCGTGGAGA AGTGGTGCTC CAAGGGTCGC TGCCGCTCCC TGGTGGAGCT GACCCCCATA 
GCAGCAGTGC ATGGGCGCTG GTCTAGCTGG GGTCCCCGAA GTCCTTGCTC CCGCTCCTGC 
GGAGGAGGTG TGGTCACCAG GAGGCGGCAG TGCAACAACC CCAGACCTGC CTTTGGGGGG 
CGTGCATGTG TTGGTGCTGA CCTCCAGGCC GAGATGTGCA ACACTCAGGC CTGCGAGAAG 
ACCCAGCTGG AGTTCATGTC GCAACAGTGC GCCAGGACCG ACGGCCAGCC GCTGCGCTCC 
TCCCCTGGCG GCGCCTCCTT CTACCACTGG GGTGCTGCTG TACCACACAG CCAAGGGGAT 
GCTCTGTGCA GACACATGTG CCGGGCCATT GGCGAGAGCT TCATCATGAA GCGTGGAGAC 
AGCTTCCTCG ATGGGACCCG GTGTATGCCA AGTGGCCCCC GGGAGGACGG GACCCTGAGC 
CTGTGTGTGT CGGGCAGCTG CAGGACATTT GGCTGTGATG GTAGGATGGA CTCCCAGCAG 
GTATGGGACA GGTGCCAGGT GTGTGGTGGG GACAACAGCA CGTGCAGCCC ACGGAAGGGC 
TCTTTCACAG CTGGCAGAGC GAGAGAATAT GTCACGTTTC TGACAGTTAC CCCCAACCTG 
ACCAGTGTCT ACATTGCCAA CCACAGGCCT CTCTTCACAC ACTTGGCGGT GAGGATCGGA 
GGGCGCTATG TCGTGGCTGG GAAGATGAGC ATCTCCCCTA ACACCACCTA CCCCTCCCTC 
CTGGAGGATG GTCGTGTCGA GTACAGAGTG GCCCTCACCG AGGACCGGCT GCCCCGCCTG 
GAGGAGATCC GCATCTGGGG ACCCCTCCAG GAAGATGCTG ACATCCAGGT TTACAGGCGG 
TATGGCGAGG AGTATGGCAA CCTCACCCGC CCAGACATCA CCTTCACCTA CTTCCAGCCT 
AAGCCACGGC AGGCCTGGGT GTGGGCCGCT GTGCGTGGGC CCTGCTCGGT GAGCTGTGGG 
GCAGGGCTGC GCTGGGTAAA CTACAGCTGC CTGGACCAGG CCAGGAAGGA GTTGGTGGAG 
ACTGTCCAGT GCCAAGGGAG CCAGCAGCCA CCAGCGTGGC CAGAGGCCTG CGTGCTCGAA 
CCCTGCCCTC CCTAG

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

RefSeq	XP_016869724.1
CDS	1226..3460
Translation	MHQRHPRARCPPLCVAGILACGFLLGCWGPSHFQQSCLQALEPQAVSSYLSPGAPLKGRPPSPGFQRQRQRQRRAAGGILHLELLVAVGPDVFQAHQEDTERYVLTNLNIGAELLRDPSLGAQFRVHLVKMVILTEPEGAPNITANLTSSLLSVCGWSQTINPEDDTDPGHADLVLYITRFDLELPDGNRQVRGVTQLGGACSPTWSCLITEDTGFDLGVTIAHEIGHSFGLEHDGAPGSGCGPSGHVMASDGAAPRAGLAWSPCSRRQLLSLLSAGRARCVWDPPRPQPGSAGHPPDAQPGLYYSANEQCRVAFGPKAVACTFAREHLDMCQALSCHTDPLDQSSCSRLLVPLLDGTECGVEKWCSKGRCRSLVELTPIAAVHGRWSSWGPRSPCSRSCGGGVVTRRRQCNNPRPAFGGRACVGADLQAEMCNTQACEKTQLEFMSQQCARTDGQPLRSSPGGASFYHWGAAVPHSQGDALCRHMCRAIGESFIMKRGDSFLDGTRCMPSGPREDGTLSLCVSGSCRTFGCDGRMDSQQVWDRCQVCGGDNSTCSPRKGSFTAGRAREYVTFLTVTPNLTSVYIANHRPLFTHLAVRIGGRYVVAGKMSISPNTTYPSLLEDGRVEYRVALTEDRLPRLEEIRIWGPLQEDADIQVYRRYGEEYGNLTRPDITFTYFQPKPRQAWVWAAVRGPCSVSCGAGLRWVNYSCLDQARKELVETVQCQGSQQPPAWPEACVLEPCPP

Target ORF information:

RefSeq Version	XM_017014235.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant X7, mRNA.

Target ORF information:

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

XM_017014235.1

ORF Insert Sequence:

ATGCACCAGC GTCACCCCCG GGCAAGATGC CCTCCCCTCT GTGTGGCCGG AATCCTTGCC 
TGTGGCTTTC TCCTGGGCTG CTGGGGACCC TCCCATTTCC AGCAGAGTTG TCTTCAGGCT 
TTGGAGCCAC AGGCCGTGTC TTCTTACTTG AGCCCTGGTG CTCCCTTAAA AGGCCGCCCT 
CCTTCCCCTG GCTTCCAGAG GCAGAGGCAG AGGCAGAGGC GGGCTGCAGG CGGCATCCTA 
CACCTGGAGC TGCTGGTGGC CGTGGGCCCC GATGTCTTCC AGGCTCACCA GGAGGACACA 
GAGCGCTATG TGCTCACCAA CCTCAACATC GGGGCAGAAC TGCTTCGGGA CCCGTCCCTG 
GGGGCTCAGT TTCGGGTGCA CCTGGTGAAG ATGGTCATTC TGACAGAGCC TGAGGGTGCT 
CCAAATATCA CAGCCAACCT CACCTCGTCC CTGCTGAGCG TCTGTGGGTG GAGCCAGACC 
ATCAACCCTG AGGACGACAC GGATCCTGGC CATGCTGACC TGGTCCTCTA TATCACTAGG 
TTTGACCTGG AGTTGCCTGA TGGTAACCGG CAGGTGCGGG GCGTCACCCA GCTGGGCGGT 
GCCTGCTCCC CAACCTGGAG CTGCCTCATT ACCGAGGACA CTGGCTTCGA CCTGGGAGTC 
ACCATTGCCC ATGAGATTGG GCACAGCTTC GGCCTGGAGC ACGACGGCGC GCCCGGCAGC 
GGCTGCGGCC CCAGCGGACA CGTGATGGCT TCGGACGGCG CCGCGCCCCG CGCCGGCCTC 
GCCTGGTCCC CCTGCAGCCG CCGGCAGCTG CTGAGCCTGC TCAGCGCAGG ACGGGCGCGC 
TGCGTGTGGG ACCCGCCGCG GCCTCAACCC GGGTCCGCGG GGCACCCGCC GGATGCGCAG 
CCTGGCCTCT ACTACAGCGC CAACGAGCAG TGCCGCGTGG CCTTCGGCCC CAAGGCTGTC 
GCCTGCACCT TCGCCAGGGA GCACCTGGAT ATGTGCCAGG CCCTCTCCTG CCACACAGAC 
CCGCTGGACC AAAGCAGCTG CAGCCGCCTC CTCGTTCCTC TCCTGGATGG GACAGAATGT 
GGCGTGGAGA AGTGGTGCTC CAAGGGTCGC TGCCGCTCCC TGGTGGAGCT GACCCCCATA 
GCAGCAGTGC ATGGGCGCTG GTCTAGCTGG GGTCCCCGAA GTCCTTGCTC CCGCTCCTGC 
GGAGGAGGTG TGGTCACCAG GAGGCGGCAG TGCAACAACC CCAGACCTGC CTTTGGGGGG 
CGTGCATGTG TTGGTGCTGA CCTCCAGGCC GAGATGTGCA ACACTCAGGC CTGCGAGAAG 
ACCCAGCTGG AGTTCATGTC GCAACAGTGC GCCAGGACCG ACGGCCAGCC GCTGCGCTCC 
TCCCCTGGCG GCGCCTCCTT CTACCACTGG GGTGCTGCTG TACCACACAG CCAAGGGGAT 
GCTCTGTGCA GACACATGTG CCGGGCCATT GGCGAGAGCT TCATCATGAA GCGTGGAGAC 
AGCTTCCTCG ATGGGACCCG GTGTATGCCA AGTGGCCCCC GGGAGGACGG GACCCTGAGC 
CTGTGTGTGT CGGGCAGCTG CAGGACATTT GGCTGTGATG GTAGGATGGA CTCCCAGCAG 
GTATGGGACA GGTGCCAGGT GTGTGGTGGG GACAACAGCA CGTGCAGCCC ACGGAAGGGC 
TCTTTCACAG CTGGCAGAGC GAGAGAATAT GTCACGTTTC TGACAGTTAC CCCCAACCTG 
ACCAGTGTCT ACATTGCCAA CCACAGGCCT CTCTTCACAC ACTTGGCGGT GAGGATCGGA 
GGGCGCTATG TCGTGGCTGG GAAGATGAGC ATCTCCCCTA ACACCACCTA CCCCTCCCTC 
CTGGAGGATG GTCGTGTCGA GTACAGAGTG GCCCTCACCG AGGACCGGCT GCCCCGCCTG 
GAGGAGATCC GCATCTGGGG ACCCCTCCAG GAAGATGCTG ACATCCAGGT TTACAGGCGG 
TATGGCGAGG AGTATGGCAA CCTCACCCGC CCAGACATCA CCTTCACCTA CTTCCAGCCT 
AAGCCACGGC AGGCCTGGGT GTGGGCCGCT GTGCGTGGGC CCTGCTCGGT GAGCTGTGGG 
GCAGGGCTGC GCTGGGTAAA CTACAGCTGC CTGGACCAGG CCAGGAAGGA GTTGGTGGAG 
ACTGTCCAGT GCCAAGGGAG CCAGCAGCCA CCAGCGTGGC CAGAGGCCTG CGTGCTCGAA 
CCCTGCCCTC CCTAG

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

Gene Symbol	ADAMTS13
Entrez Gene ID	11093
Full Name	ADAM metallopeptidase with thrombospondin type 1 motif 13
Synonyms	ADAM-TS13,ADAMTS-13,C9orf8,VWFCP,vWF-CP
General protein information	Preferred Names ADAM metallopeptidase with thrombospondin type 1 motif 13 Names A disintegrin and metalloproteinase with thrombospondin motifs 13 a disintegrin-like and metalloprotease (reprolysin type) with thrombospondin type 1 motif, 13 vWF-cleaving protease von Willebrand factor-cleaving protease
Gene Type	protein-coding
Organism	Homo sapiens(human)
Genome	Chromosome: 9 Map Location: 9q34.2
Summary	This gene encodes a member of a family of proteins containing several distinct regions, including a metalloproteinase domain, a disintegrin-like domain, and a thrombospondin type 1 (TS) motif. The enzyme encoded by this gene specifically cleaves von Willebrand Factor (vWF). Defects in this gene are associated with thrombotic thrombocytopenic purpura. Alternative splicing results in multiple transcript variants. [provided by RefSeq, Jul 2013].
Disorder MIM:	604134
Disorder Html:	Thrombotic thrombocytopenic purpura, familial, 274150 (3)

Homo sapiens (human)	ADAMTS13	NP_620594.1
Danio rerio (zebrafish)	adamts13	XP_002663267.3
Canis lupus familiaris (dog)	ADAMTS13	NP_001229641.1
Mus musculus (house mouse)	Adamts13	NP_001001322.1
Bos taurus (cattle)	ADAMTS13	XP_002691670.2
Rattus norvegicus (Norway rat)	LOC102554393	XP_006233941.1
Pan troglodytes (chimpanzee)	ADAMTS13	XP_003312433.1
Gallus gallus (chicken)	ADAMTS13	XP_415435.4
Xenopus tropicalis (tropical clawed frog)	adamts13	XP_002942962.2

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone	30% OFF
2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
30% OFF

ADAMTS13 cDNA ORF clone, Homo sapiens(human)

Gene

Clones

gRNAs

Related articles in PubMed

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