adamts13 cDNA ORF clone, Danio rerio(zebrafish)

Gene
Clones
gRNAs

Summary

Gene Symbol	adamts13
Entrez Gene ID	100320289
Full Name	ADAM metallopeptidase with thrombospondin type 1 motif, 13
General protein information	Preferred Names ADAM metallopeptidase with thrombospondin type 1 motif, 13 Names A disintegrin and metalloproteinase with thrombospondin motifs 13
Gene Type	protein-coding
Organism	Danio rerio(zebrafish)

mRNA and Protein(s)

mRNA	Protein	Name
XM_021472136.1	XP_021327811.1	A disintegrin and metalloproteinase with thrombospondin motifs 13
XM_002663221.5	XP_002663267.4	A disintegrin and metalloproteinase with thrombospondin motifs 13
XM_002663221.6	XP_002663267.4	A disintegrin and metalloproteinase with thrombospondin motifs 13

Pathways from BioSystems

Homologies

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

Gene Ontology

The following adamts13 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the adamts13 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)
ODa145027	XM_021472136.1 Latest version!	Danio rerio ADAM metallopeptidase with thrombospondin type 1 motif, 13 (adamts13), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$797.30 $1139.00
ODa49142	XM_002663221.6 Latest version!	Danio rerio ADAM metallopeptidase with thrombospondin type 1 motif, 13 (adamts13), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$797.30 $1139.00
View Old Accession Versions >>
ODa49142	XM_002663221.5	Danio rerio ADAM metallopeptidase with thrombospondin type 1 motif, 13 (adamts13), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$797.30 $1139.00
Hide Old Accession Versions >>

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

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

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

Reference Sequences (Refseq)

adamts13 ( XM_021472136.1 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_021327811.1 Danio rerio ADAM metallopeptidase with thrombospondin type 1 motif, 13 (adamts13), mRNA.

Price & Availability↑

CloneID	ODa145027
Clone ID Related Accession (Same CDS sequence)	XM_021472136.1
Accession Version	XM_021472136.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4497bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2017-06-14
Organism	Danio rerio(zebrafish)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 13
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_018394741.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCAGCAGC CAAACATGGA AAACTTGTCC TGGCTCTTTC TAGTTCTAAG CTTGTTAACA 
GCTGTATTTA GTAAATCATC TGTATTGATT TCACAATGCA CTCTGCAGAA GGATTTTTTA 
GATTCACTGA AACCTCAAGA TTTATTTTAT TATTTTGATA CTATTTCTAC TAAATCAGTG 
CCTCCCTTTG AGATAGTGTG GGTGAACTGC TCAAGGAATG AGTTTATCAA AGGGCTGTGG 
AGGTGTTTGT TTCAGACCAA AGGAGAGAGC TTTGAGCTGG TCCAACACAG TGCTAAACAA 
GCAGTGTCCT GTCCCACAAG TCTAGAGATG ATAATAAATT CAACGGTCAG CATGGTGAAG 
AAAAGAGAGG ATATGTGTTG CGAGCAGCTG AAGTTACTAC GACCAACGCA TACAAGAACA 
CTTCTCCCTG TCTGCTATGG AAAATTACAA GGTTTGATTC AGTCAGGAGA AATGAGGCTG 
TATATTCGCC CAGTGCTCGA ACAGCACATA GACAATCTGA AGGACCTTAC TATGGATTTA 
CCTCCCGGTG TTCCTCATTT GCTAATAACT CAGACATTAC CAGTGAGGAC ACGTCTTAAA 
CAGCCCAAGA GTCAGTTCAG GTTACGGAGG TCACCTCTGA GGTCAGAGGT CACATATCTG 
GAGCTAGCAG TGGTTGTTGG TCCTGATGTC TACGAAGTTC ATCGGCAAGA CACTGAGAGA 
TACATCTTAA CCAACCTCAA CATTGCCTCT GAGCTTTTGA GAGATGTTAC CCTCGGTGCC 
AATATAAGGG TTCACCTTGT CCGTATGATC ATTCTTACAG AGCCAGAGCC AGACATCCAG 
ATCTCAGAAA ACATCACATC ATCTTTAAAA AGTGTTTGCG AATGGGGTCA GAAGGTCAAT 
CCTGATGCTG ACAGTGATCC TTTACATGCA GACCTACTGT TATATATTAC CAGGTTTGAT 
TTGGTGTTAC CCAATGGGAA TAAGCTTGTG AGAGGTGTAA CTCAATTTGG TGGAGTCTGT 
TCCACTCAAT GGAACTGTGT TATTACGGAG GATACAGGCT TTGATCTTGG CATCACTATT 
GCTCATGAGA TTGGCCACAG TTTTGGCATA AATCATGATG GAATAGATAA CACATGCAGT 
TCTAGTGGCT TCATGATGGC ATCTGATGGA GGTTATAACA GCGTGGATCT CACCTGGTCC 
CAATGCAGCA GGGCTCAGCT CTACAGCTTC TTCAGTGCTG GTAAGGCAGA GTGTGTTCAG 
GATGTGCCAG TGTTGGGTGG TTCAGTGCAG GACTGGAGGC CTGGTCTTTT CTATGGAGTG 
GACGATCAGT GCCGTATAGC ATTTGGCAGC TCAGCAACTG CTTGCTCTTT CACTAATGAA 
GACATGACAA CTTGCCGTGT TCTGTCCTGC CATATCAACC CTCAGGATCA TAGCTCATGC 
ACTCGTCTTC TTGTGCCACT CCTGGATGGA ACAGAGTGTG GGCCCAGTCA GTGGTGTTTA 
AAAGGTCGGT GTGTGTCCCC TTCTACTTCG GGCTCTTCCA TGATGGTGCA TGGCTCATGG 
TCTGCATGGT CTGACTTCTC TCCTTGCTCA CGAACATGTG GAGGAGGAAT CACTCACCGC 
AGGAGGCAAT GCAACAACCC TAGGCCAGCC TTTGGTGGAA CCATCTGTAA AGGACAGGAT 
ACAGAAGCTG AACTTTGTAA TCTTCAGCCT TGTGATTCAA CTCAGCTTGA GTTCATGGCT 
CGGCAGTGCT CAGCCACAGA CCAGCAGCCT CTGTCAGTAT CTACAGACTC TAAGTCAATG 
TATACCTGGA TCCCTGCTAT AAGCTACAGC TCAGGTGACT CTCAGTGTAA ACTGATGTGT 
CGTTCACGTG AGCAGGACTT CATGGTGAGT CGTGGGTCTC AGTTCATTGA TGGGACGCGG 
TGTGAATCTG ATAATACCAT ACCACATGGG TCAATCTCTG CATGTCTAAG TGGAAAATGC 
CAGCTGTTTG GCTGTGATGG AGTATTGCAT TCTGGAAAGG TGGAAGATGT GTGTGGGGTG 
TGTGGAGGCA ATGGCTCCAC CTGTCACTTA ATTTCTAACA CTTATTCAGG TGGAAAGGCT 
GGAGAGTATG TGACATTCCT CACCCTTCCC CTGAATGCCT CTCAGGTTCA TGTTTTCAAC 
ACACGGTCAA TTTTTACACA TCTTGCTGTG TTATTGAATG ATAAATATAT TGTTTCTGGA 
AATGGAAAGC CAGGGCTAAG CAATACATAC CCCTCACCTC TGGAAAAGAG CCTTATAACC 
TATAAACTAT ACCTCACACC TGAACACCTA CCTCAAACTG AAGAGCTCTA TATTTCTGGA 
CCAGTCACAG ACAAAATCCA CATACAGGTG TATCGGAAAT ATGGACAAGA GTATGGAGAC 
CTCACCAATC CAAATATCTC ATACCAGTAC TACTCAGATG ATGTTATAGT GGAAATAGCT 
TCAAAGGGCA AATGGTCCAC TACCATATCT GCCTGCTCAG TGACCTGTGG AAGAGGCATC 
CAGAAAATTT ATCAACACTG TGTGGATGTG GTCACACTTG AACACCTGAA AGATGAGCTC 
TGCAGTTCAC TACCTCGGTC GTCTGACCTG CTGCAGCCCT GCTTCCTGCC AGATTGCCCA 
CCCAGATGGC AGGTCTCTGA GCCTGGTGAG TGCTCCACTG TATGTGGTCC CGGGGAGGCC 
CAAAGAAAAG TCTTCTGTGT CCGCTTCCAT AATAAATCTT ATTTGGAGGT TGACCAAAAC 
CTGTGCTCTC AACCCAAACC CCCAGAATAC GTTCCCTGTG TGGTGGATGT TTGCCCTCTC 
AAATGGGACA CTGAAAATGA GACCCAGCTG ATCCATAGAG CTTCTCATGG AATGGTTCGC 
TCCAAAATTG TTCCAGTTTA CGTTTGGAGT CCCAGGACAG GCGAGTGCTC CAAGACTTGT 
GGAAATGGAT CTCAGCAGGT TCAGTTCTCT TGTGTTGATC ACAAATCACG TCTGGAAGTC 
CCAGAGACCC TTTGTGATCC AACCACCAAA CCAGCACAGG ACACTCAACC TTGTCGCATA 
TCACTATGCC TCCCTATCTG GCGCTACATA CAGGGGCCAT GCAGTGTGTC TTGTGGAGGT 
GGAATAGCAA AGAGAGTCCT GTTTTGTTCA CAGAGGATGG AGGAAAATGA TGGAAACAAT 
GATCTAGTGG TGGGAGAAAC TGCTTGTGAT TCTGTGCCCA AACCTCCAGA GGTAGTGGAA 
TGTAATACTG AAAAATGTAA AGCCAGGTGG CAGGTGGGAG ACCAGGGTGA CTGTTCCGTA 
ACTTGTGGGA TGGGTGTTGC TGTCAGGAGT GTGCAGTGTG TTCAGTATGA GGGCGGTGTA 
GAAAGGGATG TGGAGGAGGA AAAATGTGAA TCAGGAACCA AGCCTCCTGT CACTGTACCA 
TGCTTCACAC AAGTCTGTTC TTTCAACTGG GATGTGCACG ACTGGAGTAA GTGTTCAGTA 
TCATGTGGTT ATGGGATCCA GTCTCGGGCT GTGTCCTGCA TGGGCCCATC GAGTCCATTC 
CCTCTTAGTC CCTTTCTTTG CCTCCACTTG CCAAAACCTA TCACCATCCA GGCCTGTTAT 
AGCCCTGACT GCCCCTCAGT CAATACATCT GAATCAAAGC CCAACAGCAC TTACATCCAG 
TCAACTCTCC AAAGTATTGA GGGGATGTGG AAAAGTCCAA ACATGCAAAC CACACTAGCT 
CCAGCAATCA GACGTATCAA GATGAAGAAG AGTTTCCCAA CCATTGTTCC TACAGCAGAC 
ATGATGACGA GCACTATGAG TGTGCCAACA GAAACACCAC AGACCAGTAT CTGTGGGCAA 
CTCCTGCTTC AAGACTCAGG AAATATTGAT CTCCACAATG TCACTGAGAG GAGATGCATA 
TTTGCTATTG GCCGACCTCT TGATGAGGTT ATTCAAATCA GAATTATTTC CAGTACCCTT 
AACTGCCAGC AAAAGGAGAA TATAGCCCTG TATGACAGAC TTGTCCTTAT GCGTCTTTGT 
GAGAGGATGA CTGGTAAAAT GGTCAAATCA CGAACAAATG TTCTTTTGGT ACGCCAAAAC 
CGTCTCACCT CTGGCAATGG AGTGGTACTA TTTTATCAAA GTGTAAAGAC GAATAAAGGC 
TACAATAGAG TGTGTGATGT TCAACTGTTT GCTCCTTCCG GACTTATTGA GAATCCGATC 
AAGAGTCCAG CCACTTACCC CTCTAACACC CAGAGCTGTC GTGTGTTCAT TGATGCTCCT 
CCTGCTTTGA GAGTTCAAAT CAGAGCACTT TCTGTTCTCA ACAATACAGA CACAAACTCA 
ACATACATAT TGATTCGAGA TGTGGATGCT TTAAAGACAA CCATATTTAG AGGAACACAG 
CTCTTCCTGT GGAGATCTTC AGGAAGCAGG GCTGAAGTGG AATTTCATGG GGAGTATCAG 
CAAATCAAAG GAATGTTTAG AGCAGAGTAT TTGCATATTA ACCCTTCTGA AGAATAA

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

RefSeq	XP_021327811.1
CDS	129..4625
Translation	MQQPNMENLSWLFLVLSLLTAVFSKSSVLISQCTLQKDFLDSLKPQDLFYYFDTISTKSVPPFEIVWVNCSRNEFIKGLWRCLFQTKGESFELVQHSAKQAVSCPTSLEMIINSTVSMVKKREDMCCEQLKLLRPTHTRTLLPVCYGKLQGLIQSGEMRLYIRPVLEQHIDNLKDLTMDLPPGVPHLLITQTLPVRTRLKQPKSQFRLRRSPLRSEVTYLELAVVVGPDVYEVHRQDTERYILTNLNIASELLRDVTLGANIRVHLVRMIILTEPEPDIQISENITSSLKSVCEWGQKVNPDADSDPLHADLLLYITRFDLVLPNGNKLVRGVTQFGGVCSTQWNCVITEDTGFDLGITIAHEIGHSFGINHDGIDNTCSSSGFMMASDGGYNSVDLTWSQCSRAQLYSFFSAGKAECVQDVPVLGGSVQDWRPGLFYGVDDQCRIAFGSSATACSFTNEDMTTCRVLSCHINPQDHSSCTRLLVPLLDGTECGPSQWCLKGRCVSPSTSGSSMMVHGSWSAWSDFSPCSRTCGGGITHRRRQCNNPRPAFGGTICKGQDTEAELCNLQPCDSTQLEFMARQCSATDQQPLSVSTDSKSMYTWIPAISYSSGDSQCKLMCRSREQDFMVSRGSQFIDGTRCESDNTIPHGSISACLSGKCQLFGCDGVLHSGKVEDVCGVCGGNGSTCHLISNTYSGGKAGEYVTFLTLPLNASQVHVFNTRSIFTHLAVLLNDKYIVSGNGKPGLSNTYPSPLEKSLITYKLYLTPEHLPQTEELYISGPVTDKIHIQVYRKYGQEYGDLTNPNISYQYYSDDVIVEIASKGKWSTTISACSVTCGRGIQKIYQHCVDVVTLEHLKDELCSSLPRSSDLLQPCFLPDCPPRWQVSEPGECSTVCGPGEAQRKVFCVRFHNKSYLEVDQNLCSQPKPPEYVPCVVDVCPLKWDTENETQLIHRASHGMVRSKIVPVYVWSPRTGECSKTCGNGSQQVQFSCVDHKSRLEVPETLCDPTTKPAQDTQPCRISLCLPIWRYIQGPCSVSCGGGIAKRVLFCSQRMEENDGNNDLVVGETACDSVPKPPEVVECNTEKCKARWQVGDQGDCSVTCGMGVAVRSVQCVQYEGGVERDVEEEKCESGTKPPVTVPCFTQVCSFNWDVHDWSKCSVSCGYGIQSRAVSCMGPSSPFPLSPFLCLHLPKPITIQACYSPDCPSVNTSESKPNSTYIQSTLQSIEGMWKSPNMQTTLAPAIRRIKMKKSFPTIVPTADMMTSTMSVPTETPQTSICGQLLLQDSGNIDLHNVTERRCIFAIGRPLDEVIQIRIISSTLNCQQKENIALYDRLVLMRLCERMTGKMVKSRTNVLLVRQNRLTSGNGVVLFYQSVKTNKGYNRVCDVQLFAPSGLIENPIKSPATYPSNTQSCRVFIDAPPALRVQIRALSVLNNTDTNSTYILIRDVDALKTTIFRGTQLFLWRSSGSRAEVEFHGEYQQIKGMFRAEYLHINPSEE

Target ORF information:

RefSeq Version	XM_021472136.1
Organism	Danio rerio(zebrafish)
Definition	Danio rerio ADAM metallopeptidase with thrombospondin type 1 motif, 13 (adamts13), mRNA.

Target ORF information:

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

XM_021472136.1

ORF Insert Sequence:

ATGCAGCAGC CAAACATGGA AAACTTGTCC TGGCTCTTTC TAGTTCTAAG CTTGTTAACA 
GCTGTATTTA GTAAATCATC TGTATTGATT TCACAATGCA CTCTGCAGAA GGATTTTTTA 
GATTCACTGA AACCTCAAGA TTTATTTTAT TATTTTGATA CTATTTCTAC TAAATCAGTG 
CCTCCCTTTG AGATAGTGTG GGTGAACTGC TCAAGGAATG AGTTTATCAA AGGGCTGTGG 
AGGTGTTTGT TTCAGACCAA AGGAGAGAGC TTTGAGCTGG TCCAACACAG TGCTAAACAA 
GCAGTGTCCT GTCCCACAAG TCTAGAGATG ATAATAAATT CAACGGTCAG CATGGTGAAG 
AAAAGAGAGG ATATGTGTTG CGAGCAGCTG AAGTTACTAC GACCAACGCA TACAAGAACA 
CTTCTCCCTG TCTGCTATGG AAAATTACAA GGTTTGATTC AGTCAGGAGA AATGAGGCTG 
TATATTCGCC CAGTGCTCGA ACAGCACATA GACAATCTGA AGGACCTTAC TATGGATTTA 
CCTCCCGGTG TTCCTCATTT GCTAATAACT CAGACATTAC CAGTGAGGAC ACGTCTTAAA 
CAGCCCAAGA GTCAGTTCAG GTTACGGAGG TCACCTCTGA GGTCAGAGGT CACATATCTG 
GAGCTAGCAG TGGTTGTTGG TCCTGATGTC TACGAAGTTC ATCGGCAAGA CACTGAGAGA 
TACATCTTAA CCAACCTCAA CATTGCCTCT GAGCTTTTGA GAGATGTTAC CCTCGGTGCC 
AATATAAGGG TTCACCTTGT CCGTATGATC ATTCTTACAG AGCCAGAGCC AGACATCCAG 
ATCTCAGAAA ACATCACATC ATCTTTAAAA AGTGTTTGCG AATGGGGTCA GAAGGTCAAT 
CCTGATGCTG ACAGTGATCC TTTACATGCA GACCTACTGT TATATATTAC CAGGTTTGAT 
TTGGTGTTAC CCAATGGGAA TAAGCTTGTG AGAGGTGTAA CTCAATTTGG TGGAGTCTGT 
TCCACTCAAT GGAACTGTGT TATTACGGAG GATACAGGCT TTGATCTTGG CATCACTATT 
GCTCATGAGA TTGGCCACAG TTTTGGCATA AATCATGATG GAATAGATAA CACATGCAGT 
TCTAGTGGCT TCATGATGGC ATCTGATGGA GGTTATAACA GCGTGGATCT CACCTGGTCC 
CAATGCAGCA GGGCTCAGCT CTACAGCTTC TTCAGTGCTG GTAAGGCAGA GTGTGTTCAG 
GATGTGCCAG TGTTGGGTGG TTCAGTGCAG GACTGGAGGC CTGGTCTTTT CTATGGAGTG 
GACGATCAGT GCCGTATAGC ATTTGGCAGC TCAGCAACTG CTTGCTCTTT CACTAATGAA 
GACATGACAA CTTGCCGTGT TCTGTCCTGC CATATCAACC CTCAGGATCA TAGCTCATGC 
ACTCGTCTTC TTGTGCCACT CCTGGATGGA ACAGAGTGTG GGCCCAGTCA GTGGTGTTTA 
AAAGGTCGGT GTGTGTCCCC TTCTACTTCG GGCTCTTCCA TGATGGTGCA TGGCTCATGG 
TCTGCATGGT CTGACTTCTC TCCTTGCTCA CGAACATGTG GAGGAGGAAT CACTCACCGC 
AGGAGGCAAT GCAACAACCC TAGGCCAGCC TTTGGTGGAA CCATCTGTAA AGGACAGGAT 
ACAGAAGCTG AACTTTGTAA TCTTCAGCCT TGTGATTCAA CTCAGCTTGA GTTCATGGCT 
CGGCAGTGCT CAGCCACAGA CCAGCAGCCT CTGTCAGTAT CTACAGACTC TAAGTCAATG 
TATACCTGGA TCCCTGCTAT AAGCTACAGC TCAGGTGACT CTCAGTGTAA ACTGATGTGT 
CGTTCACGTG AGCAGGACTT CATGGTGAGT CGTGGGTCTC AGTTCATTGA TGGGACGCGG 
TGTGAATCTG ATAATACCAT ACCACATGGG TCAATCTCTG CATGTCTAAG TGGAAAATGC 
CAGCTGTTTG GCTGTGATGG AGTATTGCAT TCTGGAAAGG TGGAAGATGT GTGTGGGGTG 
TGTGGAGGCA ATGGCTCCAC CTGTCACTTA ATTTCTAACA CTTATTCAGG TGGAAAGGCT 
GGAGAGTATG TGACATTCCT CACCCTTCCC CTGAATGCCT CTCAGGTTCA TGTTTTCAAC 
ACACGGTCAA TTTTTACACA TCTTGCTGTG TTATTGAATG ATAAATATAT TGTTTCTGGA 
AATGGAAAGC CAGGGCTAAG CAATACATAC CCCTCACCTC TGGAAAAGAG CCTTATAACC 
TATAAACTAT ACCTCACACC TGAACACCTA CCTCAAACTG AAGAGCTCTA TATTTCTGGA 
CCAGTCACAG ACAAAATCCA CATACAGGTG TATCGGAAAT ATGGACAAGA GTATGGAGAC 
CTCACCAATC CAAATATCTC ATACCAGTAC TACTCAGATG ATGTTATAGT GGAAATAGCT 
TCAAAGGGCA AATGGTCCAC TACCATATCT GCCTGCTCAG TGACCTGTGG AAGAGGCATC 
CAGAAAATTT ATCAACACTG TGTGGATGTG GTCACACTTG AACACCTGAA AGATGAGCTC 
TGCAGTTCAC TACCTCGGTC GTCTGACCTG CTGCAGCCCT GCTTCCTGCC AGATTGCCCA 
CCCAGATGGC AGGTCTCTGA GCCTGGTGAG TGCTCCACTG TATGTGGTCC CGGGGAGGCC 
CAAAGAAAAG TCTTCTGTGT CCGCTTCCAT AATAAATCTT ATTTGGAGGT TGACCAAAAC 
CTGTGCTCTC AACCCAAACC CCCAGAATAC GTTCCCTGTG TGGTGGATGT TTGCCCTCTC 
AAATGGGACA CTGAAAATGA GACCCAGCTG ATCCATAGAG CTTCTCATGG AATGGTTCGC 
TCCAAAATTG TTCCAGTTTA CGTTTGGAGT CCCAGGACAG GCGAGTGCTC CAAGACTTGT 
GGAAATGGAT CTCAGCAGGT TCAGTTCTCT TGTGTTGATC ACAAATCACG TCTGGAAGTC 
CCAGAGACCC TTTGTGATCC AACCACCAAA CCAGCACAGG ACACTCAACC TTGTCGCATA 
TCACTATGCC TCCCTATCTG GCGCTACATA CAGGGGCCAT GCAGTGTGTC TTGTGGAGGT 
GGAATAGCAA AGAGAGTCCT GTTTTGTTCA CAGAGGATGG AGGAAAATGA TGGAAACAAT 
GATCTAGTGG TGGGAGAAAC TGCTTGTGAT TCTGTGCCCA AACCTCCAGA GGTAGTGGAA 
TGTAATACTG AAAAATGTAA AGCCAGGTGG CAGGTGGGAG ACCAGGGTGA CTGTTCCGTA 
ACTTGTGGGA TGGGTGTTGC TGTCAGGAGT GTGCAGTGTG TTCAGTATGA GGGCGGTGTA 
GAAAGGGATG TGGAGGAGGA AAAATGTGAA TCAGGAACCA AGCCTCCTGT CACTGTACCA 
TGCTTCACAC AAGTCTGTTC TTTCAACTGG GATGTGCACG ACTGGAGTAA GTGTTCAGTA 
TCATGTGGTT ATGGGATCCA GTCTCGGGCT GTGTCCTGCA TGGGCCCATC GAGTCCATTC 
CCTCTTAGTC CCTTTCTTTG CCTCCACTTG CCAAAACCTA TCACCATCCA GGCCTGTTAT 
AGCCCTGACT GCCCCTCAGT CAATACATCT GAATCAAAGC CCAACAGCAC TTACATCCAG 
TCAACTCTCC AAAGTATTGA GGGGATGTGG AAAAGTCCAA ACATGCAAAC CACACTAGCT 
CCAGCAATCA GACGTATCAA GATGAAGAAG AGTTTCCCAA CCATTGTTCC TACAGCAGAC 
ATGATGACGA GCACTATGAG TGTGCCAACA GAAACACCAC AGACCAGTAT CTGTGGGCAA 
CTCCTGCTTC AAGACTCAGG AAATATTGAT CTCCACAATG TCACTGAGAG GAGATGCATA 
TTTGCTATTG GCCGACCTCT TGATGAGGTT ATTCAAATCA GAATTATTTC CAGTACCCTT 
AACTGCCAGC AAAAGGAGAA TATAGCCCTG TATGACAGAC TTGTCCTTAT GCGTCTTTGT 
GAGAGGATGA CTGGTAAAAT GGTCAAATCA CGAACAAATG TTCTTTTGGT ACGCCAAAAC 
CGTCTCACCT CTGGCAATGG AGTGGTACTA TTTTATCAAA GTGTAAAGAC GAATAAAGGC 
TACAATAGAG TGTGTGATGT TCAACTGTTT GCTCCTTCCG GACTTATTGA GAATCCGATC 
AAGAGTCCAG CCACTTACCC CTCTAACACC CAGAGCTGTC GTGTGTTCAT TGATGCTCCT 
CCTGCTTTGA GAGTTCAAAT CAGAGCACTT TCTGTTCTCA ACAATACAGA CACAAACTCA 
ACATACATAT TGATTCGAGA TGTGGATGCT TTAAAGACAA CCATATTTAG AGGAACACAG 
CTCTTCCTGT GGAGATCTTC AGGAAGCAGG GCTGAAGTGG AATTTCATGG GGAGTATCAG 
CAAATCAAAG GAATGTTTAG AGCAGAGTAT TTGCATATTA ACCCTTCTGA AGAATAA

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

adamts13 ( XM_002663221.5 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_002663267.4 Danio rerio ADAM metallopeptidase with thrombospondin type 1 motif, 13 (adamts13), mRNA.

Price & Availability↑

CloneID	ODa49142
Clone ID Related Accession (Same CDS sequence)	XM_002663221.5 , XM_002663221.6
Accession Version	XM_002663221.5	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4497bp) 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	2016-06-23
Organism	Danio rerio(Zebrafish)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 13
Comment	MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007119.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_002663221.4. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCAGCAGC CAAACATGGA AAACGTGTTC TGGCTCTTTC TAGTTCTAAG CTTGTTAACA 
GCTGTATTTA GTAAATCATC TGTATTGATT TCACAATGCA CTCTGCAGAA GGATTTTTTA 
GATTCACTGA AACCTCAAGA TTTATTTTAT TATTTTGATA CTATTTCTAC TAAATCAGTG 
CCTCCCTTTG AGATAGTGTG GGTGAACTGC TCAAGGAATG AGTCTATCAA AGGACTGTGG 
AGGTGTTTGT TTCAGACCAA AGGAGAGAGC TTTGAGCTGG TCCAACACAG TGCTAAACAA 
GCAGTGTCCT GTCCCACAAG TCTAGAGATG ATAATAAATT CAACGGTCAG CATGGTGAAG 
AAAAGAGAGG ATATGTGTTG CGAGCAGCTG AAGTTACTAC GACCAACGCA TACAAGAACA 
CTTCTCCCTG TCTGCTATGG AAAATTACAA GGTTTGATTC AGTCAGGAGA AATGAGGCTG 
TATATTCGCC CAGTGCTCGA ACAGCACATA GACAATCTGA AGGACCTAAC TATGGATTTA 
CCTCCCGGTG TTCCTCATTT GCTAATAACT CAGACATTAC CAGTGAGGAC ACGTCTTAAA 
CAGCCCAAGA GTCAGTTCAG GTTACGGAGG TCACCTCTGA GGTCAGAGGT CACATATCTG 
GAGCTAGCAG TGGTTGTTGG TCCTGATGTC TACGAAGTTC ATCGGCAAGA CACTGAGAGA 
TACATCTTAA CCAACCTCAA CATTGCCTCT GAGCTTTTGA GAGATGTTAC CCTCGGTGCC 
AATATAAGGG TTCACCTTGT CCGTATGATC ATTCTTACAG AGCCAGAGCC AGACATCCAG 
ATCTCAGAAA ACATCACATC ATCTTTAAAA AGTGTTTGCG AATGGGGTCA GAAGGTCAAT 
CCTGATGCTG ACAGTGATCC TTTACATGCA GATCTACTGT TATATATTAC CAGGTTTGAT 
CTGGTGTTAC CCAATGGGAA TAAGCTTGTG AGAGGTGTAA CTCAATTTGG TGGAGTCTGT 
TCCACTCAAT GGAACTGTGT TATTACGGAG GATACAGGCT TTGATCTTGG CATCACTATT 
GCTCATGAGA TTGGCCACAG TTTTGGGATA AATCATGATG GAATAGATAA CACATGCAGC 
TCTAGTGGCT TTATGATGGC ATCTGATGGA GGTTATAACA GCGTCGATCT CACCTGGTCC 
CAATGCAGCA GGGCTCAGCT CTACAGCTTC TTCAGAGCTG GTAAGGCAGA GTGTGTTCAG 
GATGTGCCAG TGTTGGGTGG TTCAGTGCAG GACTGGAGGC CTGGTCTTTT CTATGGAGTG 
GACGATCAGT GCCGTATAGC GTTTGGCAGC TCAGCAACTG CTTGCTCTTT CACTAATGAA 
GACATGACAA CTTGCCGTGT TCTGTCCTGC CATATTAACC CTCAGGATCA TAGCTCATGC 
ACTCGTCTTC TTGTGCCACT CCTGGATGGA ACAGAGTGTG GGCCCAGTCA GTGGTGTTTA 
AAAGGTCGGT GTGTGTCCCC TTCTACTTCG GGCTCTTCCA TGATGGTGCA TGGCTCATGG 
TCTGCATGGT CTGACTTCTC TCCTTGCTCA CGAACATGTG GAGGAGGAAT CACTCACCGC 
AGGAGGCAAT GCAACAACCC TAGGTCAGCC TTTGGTGGAA CCATCTGTAA AGGACAGAAT 
ACAGAAGCTG AACTTTGTAA TCTTCAGCTT TGTGATTCAA CTCAGCTTGA GTTCATGGCT 
CGTCAGTGCT CAGCCACAGA CCAGCAGCCT CTGTCAGTAT CTACAGACTC TAAGTCAATG 
TATACCTGGA TCCCTGCTAT AAGCTACAGC TCAGGTGACT CTCAGTGTAA ACTGATGTGT 
CGTTCACGTG AGCAGGACTT CATGGTGAGT CGTGGGTCTC AGTTCATTGA TGGGACGCGG 
TGTGAATCTG ATAATCCCGT ACCACATGGG TCAATCTCTG CATGTCTAAG TGGAAAATGC 
CAGCTGTTTG GCTGCGATGG AGCATTGCAT TCTGGAAAGG TGGAAGATGT GTGTGGGGTG 
TGTGGAGGCA ATGGCTCCAC ATGTCACTTA ATTTCAAACA CTTATTCAGG TGGAAAGGCT 
GGAGAGTATG TGACATTCCT CACCCTTCCC CTGAATGCCT CTCAAGTTCA TGTTTTCAAC 
ACACGGTCAA TTTTTACACA TCTTGCTGTG TTATTAAATG ATAAATATGT TGTTTCTGGA 
AATGGAAAGC CAGGGCTAAG CAATACATAC CCCTCACCTC TGGAGAAGAG CCTTATAACG 
TATAAACTAT ACCTCACACC TGACCACCTA CCTCAAACTG AAGAGCTCTA TATTTCTGGA 
CCAGTCACAG ACAAAATCCA CTTACAGGTG TATCGGAAAT ATGGACAAGA GTATGGAGAC 
CTCACCAATC CAAATATCTC ATACCAGTAC TACTCAGATG ATGTTATAGT GGAAATAGCT 
TCAAAGGGCA AATGGTCCAC TACCATATCT GCCTGCTCAG TGACCTGTGG AAGAGGCATC 
CAGAAAATTT ATCAACACTG TGTGGATCTG GTCACACTTG AACACCTGAA AGATGAGCTC 
TGCAGTTCAC TACCTCGGTC GTCTGACCTG CTGCAGCCCT GCTTCCTGCC AGATTGCCCA 
CCCAGATGGC AGGTCTCTGA GCCTGGTGAG TGCTCCACTG TATGTGGTCC CGGGGAGGCC 
CAAAGAAAAG TCTTCTGTGT CCGCTTCCAT AATAAATCTT ATTTGGAGGT TGACCAAAAC 
CTGTGCTCTC AACCCAAACC CCCAGAATAC GTTCCCTGTG TGGTGGATGT TTGCCCTCTC 
AAATGGGACA CTGAAAATGA GACCCAGCTG ATCCATAGAG CTTCTCATGG AATGGTTCGC 
TCCAAAATTG TTCCAGTTTA CGTTTGGAGT CCCAGGACAG GCGAGTGCTC CAAGACTTGT 
GGAAATGGAT CTCAGCAGGT TCAGTTCTCT TGTGTTGATC ACAAATCACG TCTGGAAGTC 
CCAGAGACCC TTTGTGATCC AACCACCAAA CCAGCACAGG ACACTCAACC TTGTCGCATA 
TCACTATGCC TCCCTATCTG GCGCTACATA CAGGGGCCAT GCAGTGTGTC TTGTGGAGGT 
GGAATAGCAA AGAGAGTCCT GTTTTGTTCA CAGAGGATGG AGGAAAATGA TGGAAACAAT 
GATCTAGTGG TGGGAGAAAC TGCTTGTGAT TCTGTGCCCA AACCTCCAGA GGTAGTGGAA 
TGTAATACTG AAAAATGTAA AGCCAGGTGG CAGGTGGGAG ACCAGGGTGA CTGTTCCGTC 
ACTTGTGGGA TGGGTGTTGC TCTCAGGAGT GTGCAGTGTG TTCAGTATGA GGGCGGTGTA 
GAAAGGGATG TGGAGGAGGA AAAATGTGAA TCAGAAACCA AGCCTCCTGT CACTGTACCA 
TGCTTCACAC AAGTCTGTTC TTTCAACTGG GATGTGCACG ACTGGAGTAA GTGTTCAGTA 
TCATGTGGTT ATGGGATCCA GTCTCGGGCT GTGTCCTGCA TGGGCCCATC GAATCCATTC 
CCTCTTAGTC CCTTTCTTTG CCTCCACTTG CCAAAACCTA TCACCATCCA GGCCTGTTAT 
AGCCCTGACT GCTCCTCAGT CAATACATCT GAATCAAAGC CCAACAGCAC TTACATCCAG 
TCAACTCTCC AAAGTATTGA GGGGATGTGG AAAAGTCCAA ACATGCAAAC CACACCAGCT 
CCAGCAGTCA GACGTATCAA GATGAAGAAG AGTTTCCCAA CCATTGTTCC TACAGCAGAC 
ATGATGACGA GCACTATGAG CGTGCCAACA GAAACACCAC AGACCAGTAT CTGTGGGCAA 
CTCCTGCTTC AAGACTCAGG AAATATTGAT CTCCGCAATG TCACTGAGAG GAGATGCATA 
TTTGCTATTG GCCGACCTCT TGATGAGGTT ATTCAAATCA GAATTATTTC CAGTACCCTT 
AACTGCCAGC AAAAGGAGAA TATAGCCCTG TATGACAGAC TTGTCCTTAT GCGTCTTTGT 
GAGAGGATGA CTGGTAAAAT GGTCAAATCA CGAACAAATG TTCTTTTGGT ACGCCAAAAC 
CGTCTCACCT CTGGCAATGG AGTGGTACTA TTTTATCAAA GTGTAAAGAC GAATAAAGGC 
TACAATAGAG TGTGTGATGT TCAACTGTTT GCTCCTTCCG GACTTATTGA GAATCCGATC 
AAGAGTCCAG CCACTTACCC CTCTAACACC CAGAGCTGTC GTGTGTTCAT TGATGCTCCT 
CCTGCTTTGA GAGTTCAAAT CAGAGCACTT TCTGTTCTCA ACAATACAGA CACAAACTCA 
ACATACATAT TGATTCGAGA TGTGGATGCT TTAAAGACAA CCATATTTAG AGGAACACAG 
CTCTTCCTGT GGAGATCTTC AGGAAGCAGG GCTGAAGTGG AATTTCATGG GGAGTATCAG 
CAAATCAAAG GAATGTTTAG AGCAGAGTAT TTGCATATTA ACCCTTCTGA AGAATAA

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

RefSeq	XP_002663267.4
CDS	120..4616
Translation	MQQPNMENVFWLFLVLSLLTAVFSKSSVLISQCTLQKDFLDSLKPQDLFYYFDTISTKSVPPFEIVWVNCSRNESIKGLWRCLFQTKGESFELVQHSAKQAVSCPTSLEMIINSTVSMVKKREDMCCEQLKLLRPTHTRTLLPVCYGKLQGLIQSGEMRLYIRPVLEQHIDNLKDLTMDLPPGVPHLLITQTLPVRTRLKQPKSQFRLRRSPLRSEVTYLELAVVVGPDVYEVHRQDTERYILTNLNIASELLRDVTLGANIRVHLVRMIILTEPEPDIQISENITSSLKSVCEWGQKVNPDADSDPLHADLLLYITRFDLVLPNGNKLVRGVTQFGGVCSTQWNCVITEDTGFDLGITIAHEIGHSFGINHDGIDNTCSSSGFMMASDGGYNSVDLTWSQCSRAQLYSFFRAGKAECVQDVPVLGGSVQDWRPGLFYGVDDQCRIAFGSSATACSFTNEDMTTCRVLSCHINPQDHSSCTRLLVPLLDGTECGPSQWCLKGRCVSPSTSGSSMMVHGSWSAWSDFSPCSRTCGGGITHRRRQCNNPRSAFGGTICKGQNTEAELCNLQLCDSTQLEFMARQCSATDQQPLSVSTDSKSMYTWIPAISYSSGDSQCKLMCRSREQDFMVSRGSQFIDGTRCESDNPVPHGSISACLSGKCQLFGCDGALHSGKVEDVCGVCGGNGSTCHLISNTYSGGKAGEYVTFLTLPLNASQVHVFNTRSIFTHLAVLLNDKYVVSGNGKPGLSNTYPSPLEKSLITYKLYLTPDHLPQTEELYISGPVTDKIHLQVYRKYGQEYGDLTNPNISYQYYSDDVIVEIASKGKWSTTISACSVTCGRGIQKIYQHCVDLVTLEHLKDELCSSLPRSSDLLQPCFLPDCPPRWQVSEPGECSTVCGPGEAQRKVFCVRFHNKSYLEVDQNLCSQPKPPEYVPCVVDVCPLKWDTENETQLIHRASHGMVRSKIVPVYVWSPRTGECSKTCGNGSQQVQFSCVDHKSRLEVPETLCDPTTKPAQDTQPCRISLCLPIWRYIQGPCSVSCGGGIAKRVLFCSQRMEENDGNNDLVVGETACDSVPKPPEVVECNTEKCKARWQVGDQGDCSVTCGMGVALRSVQCVQYEGGVERDVEEEKCESETKPPVTVPCFTQVCSFNWDVHDWSKCSVSCGYGIQSRAVSCMGPSNPFPLSPFLCLHLPKPITIQACYSPDCSSVNTSESKPNSTYIQSTLQSIEGMWKSPNMQTTPAPAVRRIKMKKSFPTIVPTADMMTSTMSVPTETPQTSICGQLLLQDSGNIDLRNVTERRCIFAIGRPLDEVIQIRIISSTLNCQQKENIALYDRLVLMRLCERMTGKMVKSRTNVLLVRQNRLTSGNGVVLFYQSVKTNKGYNRVCDVQLFAPSGLIENPIKSPATYPSNTQSCRVFIDAPPALRVQIRALSVLNNTDTNSTYILIRDVDALKTTIFRGTQLFLWRSSGSRAEVEFHGEYQQIKGMFRAEYLHINPSEE

Target ORF information:

RefSeq Version	XM_002663221.5
Organism	Danio rerio(Zebrafish)
Definition	Danio rerio ADAM metallopeptidase with thrombospondin type 1 motif, 13 (adamts13), mRNA.

Target ORF information:

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

XM_002663221.5

ORF Insert Sequence:

ATGCAGCAGC CAAACATGGA AAACGTGTTC TGGCTCTTTC TAGTTCTAAG CTTGTTAACA 
GCTGTATTTA GTAAATCATC TGTATTGATT TCACAATGCA CTCTGCAGAA GGATTTTTTA 
GATTCACTGA AACCTCAAGA TTTATTTTAT TATTTTGATA CTATTTCTAC TAAATCAGTG 
CCTCCCTTTG AGATAGTGTG GGTGAACTGC TCAAGGAATG AGTCTATCAA AGGACTGTGG 
AGGTGTTTGT TTCAGACCAA AGGAGAGAGC TTTGAGCTGG TCCAACACAG TGCTAAACAA 
GCAGTGTCCT GTCCCACAAG TCTAGAGATG ATAATAAATT CAACGGTCAG CATGGTGAAG 
AAAAGAGAGG ATATGTGTTG CGAGCAGCTG AAGTTACTAC GACCAACGCA TACAAGAACA 
CTTCTCCCTG TCTGCTATGG AAAATTACAA GGTTTGATTC AGTCAGGAGA AATGAGGCTG 
TATATTCGCC CAGTGCTCGA ACAGCACATA GACAATCTGA AGGACCTAAC TATGGATTTA 
CCTCCCGGTG TTCCTCATTT GCTAATAACT CAGACATTAC CAGTGAGGAC ACGTCTTAAA 
CAGCCCAAGA GTCAGTTCAG GTTACGGAGG TCACCTCTGA GGTCAGAGGT CACATATCTG 
GAGCTAGCAG TGGTTGTTGG TCCTGATGTC TACGAAGTTC ATCGGCAAGA CACTGAGAGA 
TACATCTTAA CCAACCTCAA CATTGCCTCT GAGCTTTTGA GAGATGTTAC CCTCGGTGCC 
AATATAAGGG TTCACCTTGT CCGTATGATC ATTCTTACAG AGCCAGAGCC AGACATCCAG 
ATCTCAGAAA ACATCACATC ATCTTTAAAA AGTGTTTGCG AATGGGGTCA GAAGGTCAAT 
CCTGATGCTG ACAGTGATCC TTTACATGCA GATCTACTGT TATATATTAC CAGGTTTGAT 
CTGGTGTTAC CCAATGGGAA TAAGCTTGTG AGAGGTGTAA CTCAATTTGG TGGAGTCTGT 
TCCACTCAAT GGAACTGTGT TATTACGGAG GATACAGGCT TTGATCTTGG CATCACTATT 
GCTCATGAGA TTGGCCACAG TTTTGGGATA AATCATGATG GAATAGATAA CACATGCAGC 
TCTAGTGGCT TTATGATGGC ATCTGATGGA GGTTATAACA GCGTCGATCT CACCTGGTCC 
CAATGCAGCA GGGCTCAGCT CTACAGCTTC TTCAGAGCTG GTAAGGCAGA GTGTGTTCAG 
GATGTGCCAG TGTTGGGTGG TTCAGTGCAG GACTGGAGGC CTGGTCTTTT CTATGGAGTG 
GACGATCAGT GCCGTATAGC GTTTGGCAGC TCAGCAACTG CTTGCTCTTT CACTAATGAA 
GACATGACAA CTTGCCGTGT TCTGTCCTGC CATATTAACC CTCAGGATCA TAGCTCATGC 
ACTCGTCTTC TTGTGCCACT CCTGGATGGA ACAGAGTGTG GGCCCAGTCA GTGGTGTTTA 
AAAGGTCGGT GTGTGTCCCC TTCTACTTCG GGCTCTTCCA TGATGGTGCA TGGCTCATGG 
TCTGCATGGT CTGACTTCTC TCCTTGCTCA CGAACATGTG GAGGAGGAAT CACTCACCGC 
AGGAGGCAAT GCAACAACCC TAGGTCAGCC TTTGGTGGAA CCATCTGTAA AGGACAGAAT 
ACAGAAGCTG AACTTTGTAA TCTTCAGCTT TGTGATTCAA CTCAGCTTGA GTTCATGGCT 
CGTCAGTGCT CAGCCACAGA CCAGCAGCCT CTGTCAGTAT CTACAGACTC TAAGTCAATG 
TATACCTGGA TCCCTGCTAT AAGCTACAGC TCAGGTGACT CTCAGTGTAA ACTGATGTGT 
CGTTCACGTG AGCAGGACTT CATGGTGAGT CGTGGGTCTC AGTTCATTGA TGGGACGCGG 
TGTGAATCTG ATAATCCCGT ACCACATGGG TCAATCTCTG CATGTCTAAG TGGAAAATGC 
CAGCTGTTTG GCTGCGATGG AGCATTGCAT TCTGGAAAGG TGGAAGATGT GTGTGGGGTG 
TGTGGAGGCA ATGGCTCCAC ATGTCACTTA ATTTCAAACA CTTATTCAGG TGGAAAGGCT 
GGAGAGTATG TGACATTCCT CACCCTTCCC CTGAATGCCT CTCAAGTTCA TGTTTTCAAC 
ACACGGTCAA TTTTTACACA TCTTGCTGTG TTATTAAATG ATAAATATGT TGTTTCTGGA 
AATGGAAAGC CAGGGCTAAG CAATACATAC CCCTCACCTC TGGAGAAGAG CCTTATAACG 
TATAAACTAT ACCTCACACC TGACCACCTA CCTCAAACTG AAGAGCTCTA TATTTCTGGA 
CCAGTCACAG ACAAAATCCA CTTACAGGTG TATCGGAAAT ATGGACAAGA GTATGGAGAC 
CTCACCAATC CAAATATCTC ATACCAGTAC TACTCAGATG ATGTTATAGT GGAAATAGCT 
TCAAAGGGCA AATGGTCCAC TACCATATCT GCCTGCTCAG TGACCTGTGG AAGAGGCATC 
CAGAAAATTT ATCAACACTG TGTGGATCTG GTCACACTTG AACACCTGAA AGATGAGCTC 
TGCAGTTCAC TACCTCGGTC GTCTGACCTG CTGCAGCCCT GCTTCCTGCC AGATTGCCCA 
CCCAGATGGC AGGTCTCTGA GCCTGGTGAG TGCTCCACTG TATGTGGTCC CGGGGAGGCC 
CAAAGAAAAG TCTTCTGTGT CCGCTTCCAT AATAAATCTT ATTTGGAGGT TGACCAAAAC 
CTGTGCTCTC AACCCAAACC CCCAGAATAC GTTCCCTGTG TGGTGGATGT TTGCCCTCTC 
AAATGGGACA CTGAAAATGA GACCCAGCTG ATCCATAGAG CTTCTCATGG AATGGTTCGC 
TCCAAAATTG TTCCAGTTTA CGTTTGGAGT CCCAGGACAG GCGAGTGCTC CAAGACTTGT 
GGAAATGGAT CTCAGCAGGT TCAGTTCTCT TGTGTTGATC ACAAATCACG TCTGGAAGTC 
CCAGAGACCC TTTGTGATCC AACCACCAAA CCAGCACAGG ACACTCAACC TTGTCGCATA 
TCACTATGCC TCCCTATCTG GCGCTACATA CAGGGGCCAT GCAGTGTGTC TTGTGGAGGT 
GGAATAGCAA AGAGAGTCCT GTTTTGTTCA CAGAGGATGG AGGAAAATGA TGGAAACAAT 
GATCTAGTGG TGGGAGAAAC TGCTTGTGAT TCTGTGCCCA AACCTCCAGA GGTAGTGGAA 
TGTAATACTG AAAAATGTAA AGCCAGGTGG CAGGTGGGAG ACCAGGGTGA CTGTTCCGTC 
ACTTGTGGGA TGGGTGTTGC TCTCAGGAGT GTGCAGTGTG TTCAGTATGA GGGCGGTGTA 
GAAAGGGATG TGGAGGAGGA AAAATGTGAA TCAGAAACCA AGCCTCCTGT CACTGTACCA 
TGCTTCACAC AAGTCTGTTC TTTCAACTGG GATGTGCACG ACTGGAGTAA GTGTTCAGTA 
TCATGTGGTT ATGGGATCCA GTCTCGGGCT GTGTCCTGCA TGGGCCCATC GAATCCATTC 
CCTCTTAGTC CCTTTCTTTG CCTCCACTTG CCAAAACCTA TCACCATCCA GGCCTGTTAT 
AGCCCTGACT GCTCCTCAGT CAATACATCT GAATCAAAGC CCAACAGCAC TTACATCCAG 
TCAACTCTCC AAAGTATTGA GGGGATGTGG AAAAGTCCAA ACATGCAAAC CACACCAGCT 
CCAGCAGTCA GACGTATCAA GATGAAGAAG AGTTTCCCAA CCATTGTTCC TACAGCAGAC 
ATGATGACGA GCACTATGAG CGTGCCAACA GAAACACCAC AGACCAGTAT CTGTGGGCAA 
CTCCTGCTTC AAGACTCAGG AAATATTGAT CTCCGCAATG TCACTGAGAG GAGATGCATA 
TTTGCTATTG GCCGACCTCT TGATGAGGTT ATTCAAATCA GAATTATTTC CAGTACCCTT 
AACTGCCAGC AAAAGGAGAA TATAGCCCTG TATGACAGAC TTGTCCTTAT GCGTCTTTGT 
GAGAGGATGA CTGGTAAAAT GGTCAAATCA CGAACAAATG TTCTTTTGGT ACGCCAAAAC 
CGTCTCACCT CTGGCAATGG AGTGGTACTA TTTTATCAAA GTGTAAAGAC GAATAAAGGC 
TACAATAGAG TGTGTGATGT TCAACTGTTT GCTCCTTCCG GACTTATTGA GAATCCGATC 
AAGAGTCCAG CCACTTACCC CTCTAACACC CAGAGCTGTC GTGTGTTCAT TGATGCTCCT 
CCTGCTTTGA GAGTTCAAAT CAGAGCACTT TCTGTTCTCA ACAATACAGA CACAAACTCA 
ACATACATAT TGATTCGAGA TGTGGATGCT TTAAAGACAA CCATATTTAG AGGAACACAG 
CTCTTCCTGT GGAGATCTTC AGGAAGCAGG GCTGAAGTGG AATTTCATGG GGAGTATCAG 
CAAATCAAAG GAATGTTTAG AGCAGAGTAT TTGCATATTA ACCCTTCTGA AGAATAA

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

adamts13 ( XM_002663221.6 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_002663267.4 Danio rerio ADAM metallopeptidase with thrombospondin type 1 motif, 13 (adamts13), mRNA.

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CloneID	ODa49142
Clone ID Related Accession (Same CDS sequence)	XM_002663221.5 , XM_002663221.6
Accession Version	XM_002663221.6 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4497bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2017-06-14
Organism	Danio rerio(zebrafish)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 13
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007119.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_002663221.5. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCAGCAGC CAAACATGGA AAACGTGTTC TGGCTCTTTC TAGTTCTAAG CTTGTTAACA 
GCTGTATTTA GTAAATCATC TGTATTGATT TCACAATGCA CTCTGCAGAA GGATTTTTTA 
GATTCACTGA AACCTCAAGA TTTATTTTAT TATTTTGATA CTATTTCTAC TAAATCAGTG 
CCTCCCTTTG AGATAGTGTG GGTGAACTGC TCAAGGAATG AGTCTATCAA AGGACTGTGG 
AGGTGTTTGT TTCAGACCAA AGGAGAGAGC TTTGAGCTGG TCCAACACAG TGCTAAACAA 
GCAGTGTCCT GTCCCACAAG TCTAGAGATG ATAATAAATT CAACGGTCAG CATGGTGAAG 
AAAAGAGAGG ATATGTGTTG CGAGCAGCTG AAGTTACTAC GACCAACGCA TACAAGAACA 
CTTCTCCCTG TCTGCTATGG AAAATTACAA GGTTTGATTC AGTCAGGAGA AATGAGGCTG 
TATATTCGCC CAGTGCTCGA ACAGCACATA GACAATCTGA AGGACCTAAC TATGGATTTA 
CCTCCCGGTG TTCCTCATTT GCTAATAACT CAGACATTAC CAGTGAGGAC ACGTCTTAAA 
CAGCCCAAGA GTCAGTTCAG GTTACGGAGG TCACCTCTGA GGTCAGAGGT CACATATCTG 
GAGCTAGCAG TGGTTGTTGG TCCTGATGTC TACGAAGTTC ATCGGCAAGA CACTGAGAGA 
TACATCTTAA CCAACCTCAA CATTGCCTCT GAGCTTTTGA GAGATGTTAC CCTCGGTGCC 
AATATAAGGG TTCACCTTGT CCGTATGATC ATTCTTACAG AGCCAGAGCC AGACATCCAG 
ATCTCAGAAA ACATCACATC ATCTTTAAAA AGTGTTTGCG AATGGGGTCA GAAGGTCAAT 
CCTGATGCTG ACAGTGATCC TTTACATGCA GATCTACTGT TATATATTAC CAGGTTTGAT 
CTGGTGTTAC CCAATGGGAA TAAGCTTGTG AGAGGTGTAA CTCAATTTGG TGGAGTCTGT 
TCCACTCAAT GGAACTGTGT TATTACGGAG GATACAGGCT TTGATCTTGG CATCACTATT 
GCTCATGAGA TTGGCCACAG TTTTGGGATA AATCATGATG GAATAGATAA CACATGCAGC 
TCTAGTGGCT TTATGATGGC ATCTGATGGA GGTTATAACA GCGTCGATCT CACCTGGTCC 
CAATGCAGCA GGGCTCAGCT CTACAGCTTC TTCAGAGCTG GTAAGGCAGA GTGTGTTCAG 
GATGTGCCAG TGTTGGGTGG TTCAGTGCAG GACTGGAGGC CTGGTCTTTT CTATGGAGTG 
GACGATCAGT GCCGTATAGC GTTTGGCAGC TCAGCAACTG CTTGCTCTTT CACTAATGAA 
GACATGACAA CTTGCCGTGT TCTGTCCTGC CATATTAACC CTCAGGATCA TAGCTCATGC 
ACTCGTCTTC TTGTGCCACT CCTGGATGGA ACAGAGTGTG GGCCCAGTCA GTGGTGTTTA 
AAAGGTCGGT GTGTGTCCCC TTCTACTTCG GGCTCTTCCA TGATGGTGCA TGGCTCATGG 
TCTGCATGGT CTGACTTCTC TCCTTGCTCA CGAACATGTG GAGGAGGAAT CACTCACCGC 
AGGAGGCAAT GCAACAACCC TAGGTCAGCC TTTGGTGGAA CCATCTGTAA AGGACAGAAT 
ACAGAAGCTG AACTTTGTAA TCTTCAGCTT TGTGATTCAA CTCAGCTTGA GTTCATGGCT 
CGTCAGTGCT CAGCCACAGA CCAGCAGCCT CTGTCAGTAT CTACAGACTC TAAGTCAATG 
TATACCTGGA TCCCTGCTAT AAGCTACAGC TCAGGTGACT CTCAGTGTAA ACTGATGTGT 
CGTTCACGTG AGCAGGACTT CATGGTGAGT CGTGGGTCTC AGTTCATTGA TGGGACGCGG 
TGTGAATCTG ATAATCCCGT ACCACATGGG TCAATCTCTG CATGTCTAAG TGGAAAATGC 
CAGCTGTTTG GCTGCGATGG AGCATTGCAT TCTGGAAAGG TGGAAGATGT GTGTGGGGTG 
TGTGGAGGCA ATGGCTCCAC ATGTCACTTA ATTTCAAACA CTTATTCAGG TGGAAAGGCT 
GGAGAGTATG TGACATTCCT CACCCTTCCC CTGAATGCCT CTCAAGTTCA TGTTTTCAAC 
ACACGGTCAA TTTTTACACA TCTTGCTGTG TTATTAAATG ATAAATATGT TGTTTCTGGA 
AATGGAAAGC CAGGGCTAAG CAATACATAC CCCTCACCTC TGGAGAAGAG CCTTATAACG 
TATAAACTAT ACCTCACACC TGACCACCTA CCTCAAACTG AAGAGCTCTA TATTTCTGGA 
CCAGTCACAG ACAAAATCCA CTTACAGGTG TATCGGAAAT ATGGACAAGA GTATGGAGAC 
CTCACCAATC CAAATATCTC ATACCAGTAC TACTCAGATG ATGTTATAGT GGAAATAGCT 
TCAAAGGGCA AATGGTCCAC TACCATATCT GCCTGCTCAG TGACCTGTGG AAGAGGCATC 
CAGAAAATTT ATCAACACTG TGTGGATCTG GTCACACTTG AACACCTGAA AGATGAGCTC 
TGCAGTTCAC TACCTCGGTC GTCTGACCTG CTGCAGCCCT GCTTCCTGCC AGATTGCCCA 
CCCAGATGGC AGGTCTCTGA GCCTGGTGAG TGCTCCACTG TATGTGGTCC CGGGGAGGCC 
CAAAGAAAAG TCTTCTGTGT CCGCTTCCAT AATAAATCTT ATTTGGAGGT TGACCAAAAC 
CTGTGCTCTC AACCCAAACC CCCAGAATAC GTTCCCTGTG TGGTGGATGT TTGCCCTCTC 
AAATGGGACA CTGAAAATGA GACCCAGCTG ATCCATAGAG CTTCTCATGG AATGGTTCGC 
TCCAAAATTG TTCCAGTTTA CGTTTGGAGT CCCAGGACAG GCGAGTGCTC CAAGACTTGT 
GGAAATGGAT CTCAGCAGGT TCAGTTCTCT TGTGTTGATC ACAAATCACG TCTGGAAGTC 
CCAGAGACCC TTTGTGATCC AACCACCAAA CCAGCACAGG ACACTCAACC TTGTCGCATA 
TCACTATGCC TCCCTATCTG GCGCTACATA CAGGGGCCAT GCAGTGTGTC TTGTGGAGGT 
GGAATAGCAA AGAGAGTCCT GTTTTGTTCA CAGAGGATGG AGGAAAATGA TGGAAACAAT 
GATCTAGTGG TGGGAGAAAC TGCTTGTGAT TCTGTGCCCA AACCTCCAGA GGTAGTGGAA 
TGTAATACTG AAAAATGTAA AGCCAGGTGG CAGGTGGGAG ACCAGGGTGA CTGTTCCGTC 
ACTTGTGGGA TGGGTGTTGC TCTCAGGAGT GTGCAGTGTG TTCAGTATGA GGGCGGTGTA 
GAAAGGGATG TGGAGGAGGA AAAATGTGAA TCAGAAACCA AGCCTCCTGT CACTGTACCA 
TGCTTCACAC AAGTCTGTTC TTTCAACTGG GATGTGCACG ACTGGAGTAA GTGTTCAGTA 
TCATGTGGTT ATGGGATCCA GTCTCGGGCT GTGTCCTGCA TGGGCCCATC GAATCCATTC 
CCTCTTAGTC CCTTTCTTTG CCTCCACTTG CCAAAACCTA TCACCATCCA GGCCTGTTAT 
AGCCCTGACT GCTCCTCAGT CAATACATCT GAATCAAAGC CCAACAGCAC TTACATCCAG 
TCAACTCTCC AAAGTATTGA GGGGATGTGG AAAAGTCCAA ACATGCAAAC CACACCAGCT 
CCAGCAGTCA GACGTATCAA GATGAAGAAG AGTTTCCCAA CCATTGTTCC TACAGCAGAC 
ATGATGACGA GCACTATGAG CGTGCCAACA GAAACACCAC AGACCAGTAT CTGTGGGCAA 
CTCCTGCTTC AAGACTCAGG AAATATTGAT CTCCGCAATG TCACTGAGAG GAGATGCATA 
TTTGCTATTG GCCGACCTCT TGATGAGGTT ATTCAAATCA GAATTATTTC CAGTACCCTT 
AACTGCCAGC AAAAGGAGAA TATAGCCCTG TATGACAGAC TTGTCCTTAT GCGTCTTTGT 
GAGAGGATGA CTGGTAAAAT GGTCAAATCA CGAACAAATG TTCTTTTGGT ACGCCAAAAC 
CGTCTCACCT CTGGCAATGG AGTGGTACTA TTTTATCAAA GTGTAAAGAC GAATAAAGGC 
TACAATAGAG TGTGTGATGT TCAACTGTTT GCTCCTTCCG GACTTATTGA GAATCCGATC 
AAGAGTCCAG CCACTTACCC CTCTAACACC CAGAGCTGTC GTGTGTTCAT TGATGCTCCT 
CCTGCTTTGA GAGTTCAAAT CAGAGCACTT TCTGTTCTCA ACAATACAGA CACAAACTCA 
ACATACATAT TGATTCGAGA TGTGGATGCT TTAAAGACAA CCATATTTAG AGGAACACAG 
CTCTTCCTGT GGAGATCTTC AGGAAGCAGG GCTGAAGTGG AATTTCATGG GGAGTATCAG 
CAAATCAAAG GAATGTTTAG AGCAGAGTAT TTGCATATTA ACCCTTCTGA AGAATAA

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

RefSeq	XP_002663267.4
CDS	120..4616
Translation	MQQPNMENVFWLFLVLSLLTAVFSKSSVLISQCTLQKDFLDSLKPQDLFYYFDTISTKSVPPFEIVWVNCSRNESIKGLWRCLFQTKGESFELVQHSAKQAVSCPTSLEMIINSTVSMVKKREDMCCEQLKLLRPTHTRTLLPVCYGKLQGLIQSGEMRLYIRPVLEQHIDNLKDLTMDLPPGVPHLLITQTLPVRTRLKQPKSQFRLRRSPLRSEVTYLELAVVVGPDVYEVHRQDTERYILTNLNIASELLRDVTLGANIRVHLVRMIILTEPEPDIQISENITSSLKSVCEWGQKVNPDADSDPLHADLLLYITRFDLVLPNGNKLVRGVTQFGGVCSTQWNCVITEDTGFDLGITIAHEIGHSFGINHDGIDNTCSSSGFMMASDGGYNSVDLTWSQCSRAQLYSFFRAGKAECVQDVPVLGGSVQDWRPGLFYGVDDQCRIAFGSSATACSFTNEDMTTCRVLSCHINPQDHSSCTRLLVPLLDGTECGPSQWCLKGRCVSPSTSGSSMMVHGSWSAWSDFSPCSRTCGGGITHRRRQCNNPRSAFGGTICKGQNTEAELCNLQLCDSTQLEFMARQCSATDQQPLSVSTDSKSMYTWIPAISYSSGDSQCKLMCRSREQDFMVSRGSQFIDGTRCESDNPVPHGSISACLSGKCQLFGCDGALHSGKVEDVCGVCGGNGSTCHLISNTYSGGKAGEYVTFLTLPLNASQVHVFNTRSIFTHLAVLLNDKYVVSGNGKPGLSNTYPSPLEKSLITYKLYLTPDHLPQTEELYISGPVTDKIHLQVYRKYGQEYGDLTNPNISYQYYSDDVIVEIASKGKWSTTISACSVTCGRGIQKIYQHCVDLVTLEHLKDELCSSLPRSSDLLQPCFLPDCPPRWQVSEPGECSTVCGPGEAQRKVFCVRFHNKSYLEVDQNLCSQPKPPEYVPCVVDVCPLKWDTENETQLIHRASHGMVRSKIVPVYVWSPRTGECSKTCGNGSQQVQFSCVDHKSRLEVPETLCDPTTKPAQDTQPCRISLCLPIWRYIQGPCSVSCGGGIAKRVLFCSQRMEENDGNNDLVVGETACDSVPKPPEVVECNTEKCKARWQVGDQGDCSVTCGMGVALRSVQCVQYEGGVERDVEEEKCESETKPPVTVPCFTQVCSFNWDVHDWSKCSVSCGYGIQSRAVSCMGPSNPFPLSPFLCLHLPKPITIQACYSPDCSSVNTSESKPNSTYIQSTLQSIEGMWKSPNMQTTPAPAVRRIKMKKSFPTIVPTADMMTSTMSVPTETPQTSICGQLLLQDSGNIDLRNVTERRCIFAIGRPLDEVIQIRIISSTLNCQQKENIALYDRLVLMRLCERMTGKMVKSRTNVLLVRQNRLTSGNGVVLFYQSVKTNKGYNRVCDVQLFAPSGLIENPIKSPATYPSNTQSCRVFIDAPPALRVQIRALSVLNNTDTNSTYILIRDVDALKTTIFRGTQLFLWRSSGSRAEVEFHGEYQQIKGMFRAEYLHINPSEE

Target ORF information:

RefSeq Version	XM_002663221.6
Organism	Danio rerio(zebrafish)
Definition	Danio rerio ADAM metallopeptidase with thrombospondin type 1 motif, 13 (adamts13), mRNA.

Target ORF information:

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

XM_002663221.6

ORF Insert Sequence:

ATGCAGCAGC CAAACATGGA AAACGTGTTC TGGCTCTTTC TAGTTCTAAG CTTGTTAACA 
GCTGTATTTA GTAAATCATC TGTATTGATT TCACAATGCA CTCTGCAGAA GGATTTTTTA 
GATTCACTGA AACCTCAAGA TTTATTTTAT TATTTTGATA CTATTTCTAC TAAATCAGTG 
CCTCCCTTTG AGATAGTGTG GGTGAACTGC TCAAGGAATG AGTCTATCAA AGGACTGTGG 
AGGTGTTTGT TTCAGACCAA AGGAGAGAGC TTTGAGCTGG TCCAACACAG TGCTAAACAA 
GCAGTGTCCT GTCCCACAAG TCTAGAGATG ATAATAAATT CAACGGTCAG CATGGTGAAG 
AAAAGAGAGG ATATGTGTTG CGAGCAGCTG AAGTTACTAC GACCAACGCA TACAAGAACA 
CTTCTCCCTG TCTGCTATGG AAAATTACAA GGTTTGATTC AGTCAGGAGA AATGAGGCTG 
TATATTCGCC CAGTGCTCGA ACAGCACATA GACAATCTGA AGGACCTAAC TATGGATTTA 
CCTCCCGGTG TTCCTCATTT GCTAATAACT CAGACATTAC CAGTGAGGAC ACGTCTTAAA 
CAGCCCAAGA GTCAGTTCAG GTTACGGAGG TCACCTCTGA GGTCAGAGGT CACATATCTG 
GAGCTAGCAG TGGTTGTTGG TCCTGATGTC TACGAAGTTC ATCGGCAAGA CACTGAGAGA 
TACATCTTAA CCAACCTCAA CATTGCCTCT GAGCTTTTGA GAGATGTTAC CCTCGGTGCC 
AATATAAGGG TTCACCTTGT CCGTATGATC ATTCTTACAG AGCCAGAGCC AGACATCCAG 
ATCTCAGAAA ACATCACATC ATCTTTAAAA AGTGTTTGCG AATGGGGTCA GAAGGTCAAT 
CCTGATGCTG ACAGTGATCC TTTACATGCA GATCTACTGT TATATATTAC CAGGTTTGAT 
CTGGTGTTAC CCAATGGGAA TAAGCTTGTG AGAGGTGTAA CTCAATTTGG TGGAGTCTGT 
TCCACTCAAT GGAACTGTGT TATTACGGAG GATACAGGCT TTGATCTTGG CATCACTATT 
GCTCATGAGA TTGGCCACAG TTTTGGGATA AATCATGATG GAATAGATAA CACATGCAGC 
TCTAGTGGCT TTATGATGGC ATCTGATGGA GGTTATAACA GCGTCGATCT CACCTGGTCC 
CAATGCAGCA GGGCTCAGCT CTACAGCTTC TTCAGAGCTG GTAAGGCAGA GTGTGTTCAG 
GATGTGCCAG TGTTGGGTGG TTCAGTGCAG GACTGGAGGC CTGGTCTTTT CTATGGAGTG 
GACGATCAGT GCCGTATAGC GTTTGGCAGC TCAGCAACTG CTTGCTCTTT CACTAATGAA 
GACATGACAA CTTGCCGTGT TCTGTCCTGC CATATTAACC CTCAGGATCA TAGCTCATGC 
ACTCGTCTTC TTGTGCCACT CCTGGATGGA ACAGAGTGTG GGCCCAGTCA GTGGTGTTTA 
AAAGGTCGGT GTGTGTCCCC TTCTACTTCG GGCTCTTCCA TGATGGTGCA TGGCTCATGG 
TCTGCATGGT CTGACTTCTC TCCTTGCTCA CGAACATGTG GAGGAGGAAT CACTCACCGC 
AGGAGGCAAT GCAACAACCC TAGGTCAGCC TTTGGTGGAA CCATCTGTAA AGGACAGAAT 
ACAGAAGCTG AACTTTGTAA TCTTCAGCTT TGTGATTCAA CTCAGCTTGA GTTCATGGCT 
CGTCAGTGCT CAGCCACAGA CCAGCAGCCT CTGTCAGTAT CTACAGACTC TAAGTCAATG 
TATACCTGGA TCCCTGCTAT AAGCTACAGC TCAGGTGACT CTCAGTGTAA ACTGATGTGT 
CGTTCACGTG AGCAGGACTT CATGGTGAGT CGTGGGTCTC AGTTCATTGA TGGGACGCGG 
TGTGAATCTG ATAATCCCGT ACCACATGGG TCAATCTCTG CATGTCTAAG TGGAAAATGC 
CAGCTGTTTG GCTGCGATGG AGCATTGCAT TCTGGAAAGG TGGAAGATGT GTGTGGGGTG 
TGTGGAGGCA ATGGCTCCAC ATGTCACTTA ATTTCAAACA CTTATTCAGG TGGAAAGGCT 
GGAGAGTATG TGACATTCCT CACCCTTCCC CTGAATGCCT CTCAAGTTCA TGTTTTCAAC 
ACACGGTCAA TTTTTACACA TCTTGCTGTG TTATTAAATG ATAAATATGT TGTTTCTGGA 
AATGGAAAGC CAGGGCTAAG CAATACATAC CCCTCACCTC TGGAGAAGAG CCTTATAACG 
TATAAACTAT ACCTCACACC TGACCACCTA CCTCAAACTG AAGAGCTCTA TATTTCTGGA 
CCAGTCACAG ACAAAATCCA CTTACAGGTG TATCGGAAAT ATGGACAAGA GTATGGAGAC 
CTCACCAATC CAAATATCTC ATACCAGTAC TACTCAGATG ATGTTATAGT GGAAATAGCT 
TCAAAGGGCA AATGGTCCAC TACCATATCT GCCTGCTCAG TGACCTGTGG AAGAGGCATC 
CAGAAAATTT ATCAACACTG TGTGGATCTG GTCACACTTG AACACCTGAA AGATGAGCTC 
TGCAGTTCAC TACCTCGGTC GTCTGACCTG CTGCAGCCCT GCTTCCTGCC AGATTGCCCA 
CCCAGATGGC AGGTCTCTGA GCCTGGTGAG TGCTCCACTG TATGTGGTCC CGGGGAGGCC 
CAAAGAAAAG TCTTCTGTGT CCGCTTCCAT AATAAATCTT ATTTGGAGGT TGACCAAAAC 
CTGTGCTCTC AACCCAAACC CCCAGAATAC GTTCCCTGTG TGGTGGATGT TTGCCCTCTC 
AAATGGGACA CTGAAAATGA GACCCAGCTG ATCCATAGAG CTTCTCATGG AATGGTTCGC 
TCCAAAATTG TTCCAGTTTA CGTTTGGAGT CCCAGGACAG GCGAGTGCTC CAAGACTTGT 
GGAAATGGAT CTCAGCAGGT TCAGTTCTCT TGTGTTGATC ACAAATCACG TCTGGAAGTC 
CCAGAGACCC TTTGTGATCC AACCACCAAA CCAGCACAGG ACACTCAACC TTGTCGCATA 
TCACTATGCC TCCCTATCTG GCGCTACATA CAGGGGCCAT GCAGTGTGTC TTGTGGAGGT 
GGAATAGCAA AGAGAGTCCT GTTTTGTTCA CAGAGGATGG AGGAAAATGA TGGAAACAAT 
GATCTAGTGG TGGGAGAAAC TGCTTGTGAT TCTGTGCCCA AACCTCCAGA GGTAGTGGAA 
TGTAATACTG AAAAATGTAA AGCCAGGTGG CAGGTGGGAG ACCAGGGTGA CTGTTCCGTC 
ACTTGTGGGA TGGGTGTTGC TCTCAGGAGT GTGCAGTGTG TTCAGTATGA GGGCGGTGTA 
GAAAGGGATG TGGAGGAGGA AAAATGTGAA TCAGAAACCA AGCCTCCTGT CACTGTACCA 
TGCTTCACAC AAGTCTGTTC TTTCAACTGG GATGTGCACG ACTGGAGTAA GTGTTCAGTA 
TCATGTGGTT ATGGGATCCA GTCTCGGGCT GTGTCCTGCA TGGGCCCATC GAATCCATTC 
CCTCTTAGTC CCTTTCTTTG CCTCCACTTG CCAAAACCTA TCACCATCCA GGCCTGTTAT 
AGCCCTGACT GCTCCTCAGT CAATACATCT GAATCAAAGC CCAACAGCAC TTACATCCAG 
TCAACTCTCC AAAGTATTGA GGGGATGTGG AAAAGTCCAA ACATGCAAAC CACACCAGCT 
CCAGCAGTCA GACGTATCAA GATGAAGAAG AGTTTCCCAA CCATTGTTCC TACAGCAGAC 
ATGATGACGA GCACTATGAG CGTGCCAACA GAAACACCAC AGACCAGTAT CTGTGGGCAA 
CTCCTGCTTC AAGACTCAGG AAATATTGAT CTCCGCAATG TCACTGAGAG GAGATGCATA 
TTTGCTATTG GCCGACCTCT TGATGAGGTT ATTCAAATCA GAATTATTTC CAGTACCCTT 
AACTGCCAGC AAAAGGAGAA TATAGCCCTG TATGACAGAC TTGTCCTTAT GCGTCTTTGT 
GAGAGGATGA CTGGTAAAAT GGTCAAATCA CGAACAAATG TTCTTTTGGT ACGCCAAAAC 
CGTCTCACCT CTGGCAATGG AGTGGTACTA TTTTATCAAA GTGTAAAGAC GAATAAAGGC 
TACAATAGAG TGTGTGATGT TCAACTGTTT GCTCCTTCCG GACTTATTGA GAATCCGATC 
AAGAGTCCAG CCACTTACCC CTCTAACACC CAGAGCTGTC GTGTGTTCAT TGATGCTCCT 
CCTGCTTTGA GAGTTCAAAT CAGAGCACTT TCTGTTCTCA ACAATACAGA CACAAACTCA 
ACATACATAT TGATTCGAGA TGTGGATGCT TTAAAGACAA CCATATTTAG AGGAACACAG 
CTCTTCCTGT GGAGATCTTC AGGAAGCAGG GCTGAAGTGG AATTTCATGG GGAGTATCAG 
CAAATCAAAG GAATGTTTAG AGCAGAGTAT TTGCATATTA ACCCTTCTGA AGAATAA

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

PubMed

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adamts13 cDNA ORF clone, Danio rerio(zebrafish)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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FAX

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