adamts3 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

Gene
Clones
gRNAs

Summary

Gene Symbol	adamts3
Entrez Gene ID	100498276
Full Name	ADAM metallopeptidase with thrombospondin type 1 motif 3
General protein information	Preferred Names ADAM metallopeptidase with thrombospondin type 1 motif 3 Names A disintegrin and metalloproteinase with thrombospondin motifs 3
Gene Type	protein-coding
Organism	Xenopus tropicalis(tropical clawed frog)

mRNA and Protein(s)

mRNA	Protein	Name
XM_012955366.3	XP_012810820.2	A disintegrin and metalloproteinase with thrombospondin motifs 3
XM_012955366.2	XP_012810820.1	A disintegrin and metalloproteinase with thrombospondin motifs 3

Pathways from BioSystems

Homologies

Pan troglodytes (chimpanzee)	ADAMTS3	XP_517240.2
	ADAMTS3	XP_001104686.2
Canis lupus familiaris (dog)	ADAMTS3	XP_539311.3
Homo sapiens (human)	ADAMTS3	NP_055058.2
Danio rerio (zebrafish)	LOC568788	XP_005165504.1
Mus musculus (house mouse)	Adamts3	NP_808540.2
Rattus norvegicus (Norway rat)	Adamts3	NP_001100682.1
Xenopus tropicalis (tropical clawed frog)	adamts3	XP_002940398.2
Bos taurus (cattle)	ADAMTS3	NP_001179726.1
Gallus gallus (chicken)	ADAMTS3	XP_426316.4

Gene Ontology

The following adamts3 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the adamts3 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)	Select
OXa48273	XM_012955366.3 Latest version!	Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 3 (adamts3), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OXa37169	XM_012955366.2 Latest version!	Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 3 (adamts3), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$713.30 $1019.00

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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)

adamts3 ( XM_012955366.3 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_012810820.2 Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 3 (adamts3), mRNA.

Price & Availability↑

CloneID	OXa48273
Clone ID Related Accession (Same CDS sequence)	XM_012955366.3
Accession Version	XM_012955366.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3600bp) 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	2019-12-17
Organism	Xenopus tropicalis(tropical clawed frog)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_012955366.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGTTCTCC CGTCACTTTG CCTGGTAGTA GCGGTGGCGC TAGTGGCAGC GTGTGAGACT 
GCGGCTGAGC AAGCTGGAAA TGTAGGACTC ACCCATATAG ACTTATTACA GAAAAAACTA 
GGAGAATATG AAGTAATAAC ACCTGTGAGC ACTGATGCTG AGGGACGTCT TATGTCAACT 
ATTGTTTCAG TCAACCACAA GAAAAGGTTT ACAAGAGATA CCTCCCAAGT GCAACACACA 
CTTTATTTCA ATGTTACTGC TTTTGGAAGA GAATTTCACC TTAAGCTGAG ACCAAATACA 
AAACTCATAG CTCCAGGAGC TGTTATAGAA TGGCATGAAG ACCAAGTAAA TCTGACTAAT 
GGATTCCATA CTGGGAATCA GAACCCTGAT AATGATACCG CACATCAAAT ATGGAGAAAG 
GAATCTCTTT GGACTAATTG TGCTTATGTT GGAGAAATAA CTGACAGTCC GGGGGCTTTA 
GTTGCTCTTA GCAACTGTGA TGGTCTGGCT GGAATGATAA GAACAAAGGA AGATGAATAT 
TTTATTGAAC CACTGGAACG AGGCAAACAA AAGGATGAAG AAAATGGAAG ATTACATGTT 
GTGTACAAAA GATCCACTGC AAAGCAGATT CCTACTGGTG ACTCTCACAA TTTCTCAGAG 
GCAGATTTTG CTGGCCTTGA TAATGTGGAC AGCATATTCA GTAATATCGA AAAGCAAGTA 
AATGAAACTC TTAGACGACG CAGACATGCT GGTGAAAATG ATTACAACAT TGAAGTACTC 
CTGGGAGTGG ATGATTCGGT TGTGAGGTTT CATGGAAAAG AGCACGTTCA AAACTACCTG 
CTTACCCTGA TGAACATTGT TAATGAAATT TACCATGATG ATTCAATTGG GGTCCATATC 
AATATAGTTC TGGTCCGTAT GATAATGTTG GGTTATGCAA AGTCTATTAG CTTGATTGAA 
AGAGGCAGCC CATCAAGGAG TTTAGACAAT GTGTGCCGCT GGGCAAGCCA ACAACAGAAA 
GCAGATCCCA ACCATTCTGA ACACCACGAT CATGCCATTT TTCTGACCAG ACAAGATTTT 
GGCCCAGCTG GAATGCAAGG ATATGCCCCA GTGACAGGTA TGTGCCATCC AATGAGAAGT 
TGTACTCTGA ATCATGAAGA TGGATTTTCA TCAGCTTTTG TGGTTGCCCA TGAAACTGGC 
CATGTACTGG GAATGGAACA TGATGGCCAA GGAAACAGAT GTGGGGATGA AACAGCTATG 
GGCAGTGTTA TGGCTCCCCT GGTACAAGCA GCATTTCATC GATATCATTG GTCTCGGTGT 
AGTGGTCAGG AACTAAAAAG ATACATACAT TCATATGATT GCCTTCTGGA CGACCCTTTT 
GAACATGATT GGCCTAAACT TCCAGATCTC CCTGGGATTA ACTATTCTAT GGATGAACAA 
TGTCGATTCG ACTTTGGCGT TGGCTACAAA ATGTGCACTG CATTCAGAAC ATTCGAGCCT 
TGTAAACAGT TGTGGTGCAA CCATCCTGAT AATCCTTATT TCTGTAAAAC CAAGAAGGGA 
CCCCCTCTTG ATGGAACTGA GTGTGCTCCT GGAAAGTGGT GCTACAAGGG TCACTGCATG 
TGGAAGACTA CTAACCAAGT AAAACAAGAT GGAAATTGGG GATCTTGGAC AAAATTTGGC 
TCCTGTTCGA GGACTTGTGG TATAGGTGTC CGTTTCAGAA CACGGCAGTG TAACAACCCA 
ATGCCAGTCA ATGGTGGCCA GGACTGCTCT GGTTTGAACT ATGAATATCA ACTTTGTAAT 
ACTGAAGAAT GCCCTAAGCA CTTTGAAGAC TTCAGAGCCC AACAGTGTCA ACAACGAAAC 
TCAAACTTTG AGTACCAAAA CGCCAAACAC CACTGGCTTC CATATGAACA TCCTGATGCC 
AACAAACGAT GTCAACTCTA CTGTCAGTCT AAAGAAACTG GAAGCATTGC ATCAATGAAA 
CAACTTGTTC ATGATGGGAC TCGCTGCTCC TACAAAGACC CACATAGCAT TTGTGTGAGA 
GGGGAATGCA TTAAAGTTGG CTGTGACAAG GAAATAGGTT CCAATAAGGT GGATGACAAA 
TGTGGTGTTT GTGGAGGAGA CAATGCCCAT TGTCGTACTG TGAAGGGAAC ATTCACAAGA 
ACACCTAAAA AATCTGGGTA CCTAAAGATG TTTGACATCC CCCCTGGTGC TAGACATGTG 
TTTATCCAAG AAGACGAGGC CTCTCCTCAT GTTCTTGCTA TTAAAAATCA GGCTACAGGA 
CATTACATAC TAAATGGAAA AGGGGAAGAA GCAAAGTCCC GCTCATTCAT TGACCTTGGC 
GTAGAGTGGG AGTACATAAT TGAAGATGAC ATTGAAACAG TGCACACAGA CGGACCTTTG 
CATGATGCCA TTGTGGTGCT GGTTATTCCT CAGGAGAATG ACACAAAGTC CAGTTTAACA 
TATAAATATA TAATTCATGA AGATTCTGTT CCAACAATAA GCCACAACAA TGTACTGCAA 
GAGGAATCGG ACACTTATGA GTGGGCCTTA AAGAGCTGGT CTCAGTGCTC AAAACCATGT 
GGTGGAGGCT TTCAATACAC AAAATACGGA TGCCGTAGGA AAAGCGATAA CAAAATGGTT 
CACCGCAGCT TCTGTGAAGC AAATAAGAAG CCTAAGCCAA TTCGCAGAAT GTGCAATCTT 
CAAGAATGCA CCCAGCCAAT CTGGATAACA GATGCATGGG AACACTGCAC AAAAAGCTGT 
GGAAGTTCTG GCTACCAAAT TCGTTCTGTA CGATGCATCC AGCCCCTCCA TGATGGTACC 
AATCGTTCAG TTCACAGCAA GTACTGCAAT GGAGATCGCC CAGAAAGCAG AAGGCCTTGC 
AATAGAGTGC CTTGTCTGGC CCAGTGGAAA ACAGGGGCAT GGTCTGAGTG CTCCGTGACA 
TGTGGCGAAG GGATCGAAGT GAGACAAGTT CTGTGTCGAG CTGGTGATCA GTGTGATGGA 
GAGAAACCAG AGTCTATGAG GGACTGTAAA CTGACTCCTT GCAGTGATGA ACCATGCCTT 
GGAGACAAAT CTATATTTTG TCAAATGGAG GTGCTAGCTC GGTATTGCTC CATACCAGGA 
TACAACAAAC TTTGCTGTGA ATCCTGTAGC AAGCGTGGCA CCCAACAACC ACCGTATTTC 
ACTGAAGCTG CTGAAACTGA AGATGAACTC TTTTTTGACC CTAGTGATTT GTCCAAGGCC 
GGCATGACTC CGACAGCTTT AGCACCTCTT GATGCAGAAG CTACATCTGA AAGAAAGAAA 
GCATTAGCAG CCCTTTCCTT TGCTGAAAGT GATGCAGATC TAGGCATTTT ATCTGTACCG 
GAAAGCAGGC CAAAATTTTC AGATCAAGCC CAGAGAAGAT CACATGTAGC TGCAGGCAAA 
AACCTTGCTA GGATTGTCGG TATCCCACCA CCAACTCCAA ATAGCAACAT TCATTTACAT 
AGACCTTCCA TGCCAGACAT GGACACAGGT CATCTCAGCT CTCCAGGCAG AACCTCAAGG 
AGAAATGATA AATCCTTTGA GAAAAGACGT TCTTTGCAGT CATCTACAAC AGAACGATGA

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

RefSeq	XP_012810820.2
CDS	715..4314
Translation	MVLPSLCLVVAVALVAACETAAEQAGNVGLTHIDLLQKKLGEYEVITPVSTDAEGRLMSTIVSVNHKKRFTRDTSQVQHTLYFNVTAFGREFHLKLRPNTKLIAPGAVIEWHEDQVNLTNGFHTGNQNPDNDTAHQIWRKESLWTNCAYVGEITDSPGALVALSNCDGLAGMIRTKEDEYFIEPLERGKQKDEENGRLHVVYKRSTAKQIPTGDSHNFSEADFAGLDNVDSIFSNIEKQVNETLRRRRHAGENDYNIEVLLGVDDSVVRFHGKEHVQNYLLTLMNIVNEIYHDDSIGVHINIVLVRMIMLGYAKSISLIERGSPSRSLDNVCRWASQQQKADPNHSEHHDHAIFLTRQDFGPAGMQGYAPVTGMCHPMRSCTLNHEDGFSSAFVVAHETGHVLGMEHDGQGNRCGDETAMGSVMAPLVQAAFHRYHWSRCSGQELKRYIHSYDCLLDDPFEHDWPKLPDLPGINYSMDEQCRFDFGVGYKMCTAFRTFEPCKQLWCNHPDNPYFCKTKKGPPLDGTECAPGKWCYKGHCMWKTTNQVKQDGNWGSWTKFGSCSRTCGIGVRFRTRQCNNPMPVNGGQDCSGLNYEYQLCNTEECPKHFEDFRAQQCQQRNSNFEYQNAKHHWLPYEHPDANKRCQLYCQSKETGSIASMKQLVHDGTRCSYKDPHSICVRGECIKVGCDKEIGSNKVDDKCGVCGGDNAHCRTVKGTFTRTPKKSGYLKMFDIPPGARHVFIQEDEASPHVLAIKNQATGHYILNGKGEEAKSRSFIDLGVEWEYIIEDDIETVHTDGPLHDAIVVLVIPQENDTKSSLTYKYIIHEDSVPTISHNNVLQEESDTYEWALKSWSQCSKPCGGGFQYTKYGCRRKSDNKMVHRSFCEANKKPKPIRRMCNLQECTQPIWITDAWEHCTKSCGSSGYQIRSVRCIQPLHDGTNRSVHSKYCNGDRPESRRPCNRVPCLAQWKTGAWSECSVTCGEGIEVRQVLCRAGDQCDGEKPESMRDCKLTPCSDEPCLGDKSIFCQMEVLARYCSIPGYNKLCCESCSKRGTQQPPYFTEAAETEDELFFDPSDLSKAGMTPTALAPLDAEATSERKKALAALSFAESDADLGILSVPESRPKFSDQAQRRSHVAAGKNLARIVGIPPPTPNSNIHLHRPSMPDMDTGHLSSPGRTSRRNDKSFEKRRSLQSSTTER

Target ORF information:

RefSeq Version	XM_012955366.3
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 3 (adamts3), mRNA.

Target ORF information:

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

XM_012955366.3

ORF Insert Sequence:

ATGGTTCTCC CGTCACTTTG CCTGGTAGTA GCGGTGGCGC TAGTGGCAGC GTGTGAGACT 
GCGGCTGAGC AAGCTGGAAA TGTAGGACTC ACCCATATAG ACTTATTACA GAAAAAACTA 
GGAGAATATG AAGTAATAAC ACCTGTGAGC ACTGATGCTG AGGGACGTCT TATGTCAACT 
ATTGTTTCAG TCAACCACAA GAAAAGGTTT ACAAGAGATA CCTCCCAAGT GCAACACACA 
CTTTATTTCA ATGTTACTGC TTTTGGAAGA GAATTTCACC TTAAGCTGAG ACCAAATACA 
AAACTCATAG CTCCAGGAGC TGTTATAGAA TGGCATGAAG ACCAAGTAAA TCTGACTAAT 
GGATTCCATA CTGGGAATCA GAACCCTGAT AATGATACCG CACATCAAAT ATGGAGAAAG 
GAATCTCTTT GGACTAATTG TGCTTATGTT GGAGAAATAA CTGACAGTCC GGGGGCTTTA 
GTTGCTCTTA GCAACTGTGA TGGTCTGGCT GGAATGATAA GAACAAAGGA AGATGAATAT 
TTTATTGAAC CACTGGAACG AGGCAAACAA AAGGATGAAG AAAATGGAAG ATTACATGTT 
GTGTACAAAA GATCCACTGC AAAGCAGATT CCTACTGGTG ACTCTCACAA TTTCTCAGAG 
GCAGATTTTG CTGGCCTTGA TAATGTGGAC AGCATATTCA GTAATATCGA AAAGCAAGTA 
AATGAAACTC TTAGACGACG CAGACATGCT GGTGAAAATG ATTACAACAT TGAAGTACTC 
CTGGGAGTGG ATGATTCGGT TGTGAGGTTT CATGGAAAAG AGCACGTTCA AAACTACCTG 
CTTACCCTGA TGAACATTGT TAATGAAATT TACCATGATG ATTCAATTGG GGTCCATATC 
AATATAGTTC TGGTCCGTAT GATAATGTTG GGTTATGCAA AGTCTATTAG CTTGATTGAA 
AGAGGCAGCC CATCAAGGAG TTTAGACAAT GTGTGCCGCT GGGCAAGCCA ACAACAGAAA 
GCAGATCCCA ACCATTCTGA ACACCACGAT CATGCCATTT TTCTGACCAG ACAAGATTTT 
GGCCCAGCTG GAATGCAAGG ATATGCCCCA GTGACAGGTA TGTGCCATCC AATGAGAAGT 
TGTACTCTGA ATCATGAAGA TGGATTTTCA TCAGCTTTTG TGGTTGCCCA TGAAACTGGC 
CATGTACTGG GAATGGAACA TGATGGCCAA GGAAACAGAT GTGGGGATGA AACAGCTATG 
GGCAGTGTTA TGGCTCCCCT GGTACAAGCA GCATTTCATC GATATCATTG GTCTCGGTGT 
AGTGGTCAGG AACTAAAAAG ATACATACAT TCATATGATT GCCTTCTGGA CGACCCTTTT 
GAACATGATT GGCCTAAACT TCCAGATCTC CCTGGGATTA ACTATTCTAT GGATGAACAA 
TGTCGATTCG ACTTTGGCGT TGGCTACAAA ATGTGCACTG CATTCAGAAC ATTCGAGCCT 
TGTAAACAGT TGTGGTGCAA CCATCCTGAT AATCCTTATT TCTGTAAAAC CAAGAAGGGA 
CCCCCTCTTG ATGGAACTGA GTGTGCTCCT GGAAAGTGGT GCTACAAGGG TCACTGCATG 
TGGAAGACTA CTAACCAAGT AAAACAAGAT GGAAATTGGG GATCTTGGAC AAAATTTGGC 
TCCTGTTCGA GGACTTGTGG TATAGGTGTC CGTTTCAGAA CACGGCAGTG TAACAACCCA 
ATGCCAGTCA ATGGTGGCCA GGACTGCTCT GGTTTGAACT ATGAATATCA ACTTTGTAAT 
ACTGAAGAAT GCCCTAAGCA CTTTGAAGAC TTCAGAGCCC AACAGTGTCA ACAACGAAAC 
TCAAACTTTG AGTACCAAAA CGCCAAACAC CACTGGCTTC CATATGAACA TCCTGATGCC 
AACAAACGAT GTCAACTCTA CTGTCAGTCT AAAGAAACTG GAAGCATTGC ATCAATGAAA 
CAACTTGTTC ATGATGGGAC TCGCTGCTCC TACAAAGACC CACATAGCAT TTGTGTGAGA 
GGGGAATGCA TTAAAGTTGG CTGTGACAAG GAAATAGGTT CCAATAAGGT GGATGACAAA 
TGTGGTGTTT GTGGAGGAGA CAATGCCCAT TGTCGTACTG TGAAGGGAAC ATTCACAAGA 
ACACCTAAAA AATCTGGGTA CCTAAAGATG TTTGACATCC CCCCTGGTGC TAGACATGTG 
TTTATCCAAG AAGACGAGGC CTCTCCTCAT GTTCTTGCTA TTAAAAATCA GGCTACAGGA 
CATTACATAC TAAATGGAAA AGGGGAAGAA GCAAAGTCCC GCTCATTCAT TGACCTTGGC 
GTAGAGTGGG AGTACATAAT TGAAGATGAC ATTGAAACAG TGCACACAGA CGGACCTTTG 
CATGATGCCA TTGTGGTGCT GGTTATTCCT CAGGAGAATG ACACAAAGTC CAGTTTAACA 
TATAAATATA TAATTCATGA AGATTCTGTT CCAACAATAA GCCACAACAA TGTACTGCAA 
GAGGAATCGG ACACTTATGA GTGGGCCTTA AAGAGCTGGT CTCAGTGCTC AAAACCATGT 
GGTGGAGGCT TTCAATACAC AAAATACGGA TGCCGTAGGA AAAGCGATAA CAAAATGGTT 
CACCGCAGCT TCTGTGAAGC AAATAAGAAG CCTAAGCCAA TTCGCAGAAT GTGCAATCTT 
CAAGAATGCA CCCAGCCAAT CTGGATAACA GATGCATGGG AACACTGCAC AAAAAGCTGT 
GGAAGTTCTG GCTACCAAAT TCGTTCTGTA CGATGCATCC AGCCCCTCCA TGATGGTACC 
AATCGTTCAG TTCACAGCAA GTACTGCAAT GGAGATCGCC CAGAAAGCAG AAGGCCTTGC 
AATAGAGTGC CTTGTCTGGC CCAGTGGAAA ACAGGGGCAT GGTCTGAGTG CTCCGTGACA 
TGTGGCGAAG GGATCGAAGT GAGACAAGTT CTGTGTCGAG CTGGTGATCA GTGTGATGGA 
GAGAAACCAG AGTCTATGAG GGACTGTAAA CTGACTCCTT GCAGTGATGA ACCATGCCTT 
GGAGACAAAT CTATATTTTG TCAAATGGAG GTGCTAGCTC GGTATTGCTC CATACCAGGA 
TACAACAAAC TTTGCTGTGA ATCCTGTAGC AAGCGTGGCA CCCAACAACC ACCGTATTTC 
ACTGAAGCTG CTGAAACTGA AGATGAACTC TTTTTTGACC CTAGTGATTT GTCCAAGGCC 
GGCATGACTC CGACAGCTTT AGCACCTCTT GATGCAGAAG CTACATCTGA AAGAAAGAAA 
GCATTAGCAG CCCTTTCCTT TGCTGAAAGT GATGCAGATC TAGGCATTTT ATCTGTACCG 
GAAAGCAGGC CAAAATTTTC AGATCAAGCC CAGAGAAGAT CACATGTAGC TGCAGGCAAA 
AACCTTGCTA GGATTGTCGG TATCCCACCA CCAACTCCAA ATAGCAACAT TCATTTACAT 
AGACCTTCCA TGCCAGACAT GGACACAGGT CATCTCAGCT CTCCAGGCAG AACCTCAAGG 
AGAAATGATA AATCCTTTGA GAAAAGACGT TCTTTGCAGT CATCTACAAC AGAACGATGA

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

adamts3 ( XM_012955366.2 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_012810820.1 Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 3 (adamts3), mRNA.

Price & Availability↑

CloneID	OXa37169
Clone ID Related Accession (Same CDS sequence)	XM_012955366.2
Accession Version	XM_012955366.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3600bp) 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	2016-09-07
Organism	Xenopus tropicalis(tropical clawed frog)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_016683393.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012955366.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 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##

ATGGTTCTCC CGTCACTTTG CCTGGTAGTA GCGGTGGCGC TAGTGGCAGC GTGTGAGACT 
GCGGCTGAGC AAGCTGGAAA TGTAGGACTC ACCCATATAG ACTTATTACA GAAAAAACTA 
GGAGAATATG AAGTAATAAC ACCTGTGAGC ACTGATGCTG AGGGACGTCT TATGTCAACT 
ATTGTTTCAG TCAACCACAA GAAAAGGTTT ACAAGAGATA CCTCCCAAGT GCAACACACA 
CTTTATTTCA ATGTTACTGC TTTTGGAAGA GAATTTCACC TTAAGCTGAG ACCAAATACA 
AAACTCATAG CTCCAGGAGC TGTTATAGAA TGGCATGAAG ACCAAGTAAA TCTGACTAAT 
GGATTCCATT CTGGGAATCA GAACCCTGAT AATGACACCG CACATCAAAT ATGGAGAAAG 
GAATCTCTTT GGACTAATTG TGCTTATGTT GGAGAAATAA CTGACAGTCC GGGGGCTTTA 
GTTGCTCTTA GCAACTGTGA TGGTCTGGCT GGAATGATAA GAACAAAGGA AGATGAATAT 
TTTATTGAAC CACTGGAACG AGGCAAACAA AAGGATGAAG AAAATGGAAG ATTACATGTT 
GTGTACAAAA GATCCACTGC AAAGCAGATT CCTACTGGTG ACTCTCACAA TTTCTCAGAG 
GCAGATTTTG CTGGCCTTGA TAATGTGGAC AGCATATTCA GTAATATCGA AAAACAAGTA 
AATGAAACTC TTAGACGACG CAGACATGCT GGTGAAAATG ATTACAACAT TGAAGTACTC 
CTGGGAGTGG ATGATTCGGT TGTGAGGTTT CATGGAAAAG AGCACGTTCA AAACTACCTG 
CTTACCCTGA TGAACATTGT TAATGAAATT TACCATGATG ATTCAATTGG GGTCCATATC 
AATATAGTTC TGGTCCGTAT GATAATGTTG GGTTATGCAA AGTCTATTAG CTTGATTGAA 
AGAGGCAGCC CATCAAGGAG TTTAGACAAT GTGTGCCGCT GGGCAAGCCA ACAACAGAAA 
GCAGATCCCA ACCATTCTGA ACACCACGAT CATGCCATTT TTCTGACCAG ACAAGATTTT 
GGCCCAGCTG GAATGCAAGG ATATGCCCCA GTGACAGGTA TGTGCCATCC AATGAGAAGT 
TGTACTCTGA ATCATGAAGA TGGATTTTCA TCAGCTTTTG TGGTTGCCCA TGAAACTGGC 
CATGTACTGG GAATGGAACA TGATGGCCAA GGAAACAGAT GTGGGGATGA AACAGCTATG 
GGCAGTGTTA TGGCTCCCCT GGTACAAGCA GCATTTCATC GATATCATTG GTCTCGGTGT 
AGTGGTCAGG AACTAAAAAG ATACATACAT TCATATGATT GCCTTCTGGA CGACCCTTTT 
GAACATGATT GGCCTAAACT TCCAGATCTC CCTGGGATTA ACTATTCTAT GGATGAACAA 
TGTCGATTCG ACTTTGGCGT TGGCTACAAA ATGTGCACTG CATTCAGAAC ATTCGAGCCT 
TGTAAACAGT TGTGGTGCAA CCATCCTGAT AATCCTTATT TCTGTAAAAC CAAGAAGGGA 
CCCCCTCTTG ATGGAACTGA GTGTGCTCCT GGAAAGTGGT GCTACAAGGG TCACTGCATG 
TGGAAGACTA CTAACCAAGT AAAACAAGAT GGAAATTGGG GATCTTGGAC AAAATTTGGC 
TCCTGTTCGA GGACTTGTGG TATAGGTGTC CGTTTCAGAA CACGGCAGTG TAACAACCCA 
ATGCCAGTCA ATGGTGGCCA GGACTGCTCT GGTTTGAACT ATGAATATCA ACTTTGTAAT 
ACTGAAGAAT GCCCTAAGCA CTTTGAAGAC TTCAGAGCCC AACAGTGTCA ACAACGAAAC 
TCAAACTTTG AGTACCAAAA CGCCAAACAC CACTGGCTTC CATATGAACA TCCTGATGCC 
AACAAACGAT GTCAACTCTA CTGTCAGTCT AAAGAAACTG GAAGCATTGC ATCAATGAAA 
CAACTTGTTC ATGATGGGAC TCGCTGCTCC TACAAAGACC CACATAGCAT TTGTGTGAGA 
GGGGAATGCA TTAAAGTTGG CTGTGACAAG GAAATAGGTT CCAATAAGGT GGATGACAAA 
TGTGGTGTTT GTGGAGGAGA CAATGCCCAT TGTCGTACTG TGAAGGGAAC ATTCACAAGA 
ACACCTAAAA AATCTGGGTA CCTAAAGATG TTTGACATCC CCCCTGGTGC TAGACATGTG 
TTTATCCAAG AAGACGAGGC CTCTCCTCAT GTTCTTGCTA TTAAAAATCA GGCTACAGGA 
CATTACATAC TAAATGGAAA AGGGGAAGAA GCAAAGTCCC GCTCATTCAT TGACCTTGGC 
GTAGAGTGGG AGTACATAAT TGAAGATGAC ATTGAAACAG TGCACACAGA CGGACCTTTG 
CATGATGCCA TTGTGGTGCT GGTTATTCCT CAGGAGAATG ACACAAAGTC CAGTTTAACA 
TATAAATATA TAATTCATGA AGATTCTGTT CCAACAATAA GCCACAACAA TGTACTGCAA 
GAGGAATCGG ACACTTATGA GTGGGCCTTA AAGAGCTGGT CTCAGTGCTC AAAACCATGT 
GGTGGAGGCT TTCAATACAC AAAATACGGA TGCCGTAGGA AAAGCGATAA CAAAATGGTT 
CACCGCAGCT TCTGTGAAGC AAATAAGAAG CCTAAGCCAA TTCGCAGAAT GTGCAATCTT 
CAAGAATGCA CCCAGCCAAT CTGGATAACA GATGCATGGG AACACTGCAC AAAAAGCTGT 
GGAAGTTCTG GCTACCAAAT TCGTTCTGTA CGATGCATCC AGCCCCTCCA TGATGGTACC 
AATCGTTCAG TTCACAGCAA GTACTGCAAT GGAGATCGCC CAGAAAGCAG AAGGCCTTGC 
AATAGAGTGC CTTGTCTGGC CCAGTGGAAA ACAGGGGCAT GGTCTGAGTG CTCCGTGACA 
TGTGGCGAAG GGATCGAAGT GAGACAAGTT CTGTGTCGAG CTGGTGATCA GTGTGATGGA 
GAGAAACCAG AGTCTATGAG GGACTGTAAA CTGACTCCTT GCAGTGATGA ACCATGCCTT 
GGAGACAAAT CTATATTTTG TCAAATGGAG GTGCTAGCTC GGTATTGCTC CATACCAGGA 
TACAACAAAC TTTGCTGTGA ATCCTGTAGC AAGCGTGGCA CCCAACAACC ACCGTATTTC 
ACTGAAGCTG CTGAAACTGA AGATGAACTC TTTTTTGACC CTAGTGATTT GTCCAAGGCC 
GGCATGACTC CGACAGCTTT AGCACCTCTT GATGCAGAAG CTACATCTGA AAGAAAGAAA 
GCATTAGCAG CCCTTTCCTT TGCTGAAAGT GATGCAGATC TAGGCATTTT ATCTGTACCG 
GAAAGCAGGC CAAAATTTTC AGATCAAGCC CAGAGAAGAT CACATGTAGC TGCAGGCAAA 
AACCTTGCTA GGATTGTCGG TATCCCACCA CCAACTCCAA ATAGCAACAT TCATTTACAT 
AGACCTTCCA TGCCAGACAT GGACACAGGT CATCTCAGCT CTCCAGGCAG AACCTCAAGG 
AGAAATGATA AATCCTTTGA GAAAAGACGT TCTTTGCAGT CATCTACAAC AGAACGATGA

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

RefSeq	XP_012810820.1
CDS	742..4341
Translation	MVLPSLCLVVAVALVAACETAAEQAGNVGLTHIDLLQKKLGEYEVITPVSTDAEGRLMSTIVSVNHKKRFTRDTSQVQHTLYFNVTAFGREFHLKLRPNTKLIAPGAVIEWHEDQVNLTNGFHSGNQNPDNDTAHQIWRKESLWTNCAYVGEITDSPGALVALSNCDGLAGMIRTKEDEYFIEPLERGKQKDEENGRLHVVYKRSTAKQIPTGDSHNFSEADFAGLDNVDSIFSNIEKQVNETLRRRRHAGENDYNIEVLLGVDDSVVRFHGKEHVQNYLLTLMNIVNEIYHDDSIGVHINIVLVRMIMLGYAKSISLIERGSPSRSLDNVCRWASQQQKADPNHSEHHDHAIFLTRQDFGPAGMQGYAPVTGMCHPMRSCTLNHEDGFSSAFVVAHETGHVLGMEHDGQGNRCGDETAMGSVMAPLVQAAFHRYHWSRCSGQELKRYIHSYDCLLDDPFEHDWPKLPDLPGINYSMDEQCRFDFGVGYKMCTAFRTFEPCKQLWCNHPDNPYFCKTKKGPPLDGTECAPGKWCYKGHCMWKTTNQVKQDGNWGSWTKFGSCSRTCGIGVRFRTRQCNNPMPVNGGQDCSGLNYEYQLCNTEECPKHFEDFRAQQCQQRNSNFEYQNAKHHWLPYEHPDANKRCQLYCQSKETGSIASMKQLVHDGTRCSYKDPHSICVRGECIKVGCDKEIGSNKVDDKCGVCGGDNAHCRTVKGTFTRTPKKSGYLKMFDIPPGARHVFIQEDEASPHVLAIKNQATGHYILNGKGEEAKSRSFIDLGVEWEYIIEDDIETVHTDGPLHDAIVVLVIPQENDTKSSLTYKYIIHEDSVPTISHNNVLQEESDTYEWALKSWSQCSKPCGGGFQYTKYGCRRKSDNKMVHRSFCEANKKPKPIRRMCNLQECTQPIWITDAWEHCTKSCGSSGYQIRSVRCIQPLHDGTNRSVHSKYCNGDRPESRRPCNRVPCLAQWKTGAWSECSVTCGEGIEVRQVLCRAGDQCDGEKPESMRDCKLTPCSDEPCLGDKSIFCQMEVLARYCSIPGYNKLCCESCSKRGTQQPPYFTEAAETEDELFFDPSDLSKAGMTPTALAPLDAEATSERKKALAALSFAESDADLGILSVPESRPKFSDQAQRRSHVAAGKNLARIVGIPPPTPNSNIHLHRPSMPDMDTGHLSSPGRTSRRNDKSFEKRRSLQSSTTER

Target ORF information:

RefSeq Version	XM_012955366.2
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 3 (adamts3), mRNA.

Target ORF information:

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

XM_012955366.2

ORF Insert Sequence:

ATGGTTCTCC CGTCACTTTG CCTGGTAGTA GCGGTGGCGC TAGTGGCAGC GTGTGAGACT 
GCGGCTGAGC AAGCTGGAAA TGTAGGACTC ACCCATATAG ACTTATTACA GAAAAAACTA 
GGAGAATATG AAGTAATAAC ACCTGTGAGC ACTGATGCTG AGGGACGTCT TATGTCAACT 
ATTGTTTCAG TCAACCACAA GAAAAGGTTT ACAAGAGATA CCTCCCAAGT GCAACACACA 
CTTTATTTCA ATGTTACTGC TTTTGGAAGA GAATTTCACC TTAAGCTGAG ACCAAATACA 
AAACTCATAG CTCCAGGAGC TGTTATAGAA TGGCATGAAG ACCAAGTAAA TCTGACTAAT 
GGATTCCATT CTGGGAATCA GAACCCTGAT AATGACACCG CACATCAAAT ATGGAGAAAG 
GAATCTCTTT GGACTAATTG TGCTTATGTT GGAGAAATAA CTGACAGTCC GGGGGCTTTA 
GTTGCTCTTA GCAACTGTGA TGGTCTGGCT GGAATGATAA GAACAAAGGA AGATGAATAT 
TTTATTGAAC CACTGGAACG AGGCAAACAA AAGGATGAAG AAAATGGAAG ATTACATGTT 
GTGTACAAAA GATCCACTGC AAAGCAGATT CCTACTGGTG ACTCTCACAA TTTCTCAGAG 
GCAGATTTTG CTGGCCTTGA TAATGTGGAC AGCATATTCA GTAATATCGA AAAACAAGTA 
AATGAAACTC TTAGACGACG CAGACATGCT GGTGAAAATG ATTACAACAT TGAAGTACTC 
CTGGGAGTGG ATGATTCGGT TGTGAGGTTT CATGGAAAAG AGCACGTTCA AAACTACCTG 
CTTACCCTGA TGAACATTGT TAATGAAATT TACCATGATG ATTCAATTGG GGTCCATATC 
AATATAGTTC TGGTCCGTAT GATAATGTTG GGTTATGCAA AGTCTATTAG CTTGATTGAA 
AGAGGCAGCC CATCAAGGAG TTTAGACAAT GTGTGCCGCT GGGCAAGCCA ACAACAGAAA 
GCAGATCCCA ACCATTCTGA ACACCACGAT CATGCCATTT TTCTGACCAG ACAAGATTTT 
GGCCCAGCTG GAATGCAAGG ATATGCCCCA GTGACAGGTA TGTGCCATCC AATGAGAAGT 
TGTACTCTGA ATCATGAAGA TGGATTTTCA TCAGCTTTTG TGGTTGCCCA TGAAACTGGC 
CATGTACTGG GAATGGAACA TGATGGCCAA GGAAACAGAT GTGGGGATGA AACAGCTATG 
GGCAGTGTTA TGGCTCCCCT GGTACAAGCA GCATTTCATC GATATCATTG GTCTCGGTGT 
AGTGGTCAGG AACTAAAAAG ATACATACAT TCATATGATT GCCTTCTGGA CGACCCTTTT 
GAACATGATT GGCCTAAACT TCCAGATCTC CCTGGGATTA ACTATTCTAT GGATGAACAA 
TGTCGATTCG ACTTTGGCGT TGGCTACAAA ATGTGCACTG CATTCAGAAC ATTCGAGCCT 
TGTAAACAGT TGTGGTGCAA CCATCCTGAT AATCCTTATT TCTGTAAAAC CAAGAAGGGA 
CCCCCTCTTG ATGGAACTGA GTGTGCTCCT GGAAAGTGGT GCTACAAGGG TCACTGCATG 
TGGAAGACTA CTAACCAAGT AAAACAAGAT GGAAATTGGG GATCTTGGAC AAAATTTGGC 
TCCTGTTCGA GGACTTGTGG TATAGGTGTC CGTTTCAGAA CACGGCAGTG TAACAACCCA 
ATGCCAGTCA ATGGTGGCCA GGACTGCTCT GGTTTGAACT ATGAATATCA ACTTTGTAAT 
ACTGAAGAAT GCCCTAAGCA CTTTGAAGAC TTCAGAGCCC AACAGTGTCA ACAACGAAAC 
TCAAACTTTG AGTACCAAAA CGCCAAACAC CACTGGCTTC CATATGAACA TCCTGATGCC 
AACAAACGAT GTCAACTCTA CTGTCAGTCT AAAGAAACTG GAAGCATTGC ATCAATGAAA 
CAACTTGTTC ATGATGGGAC TCGCTGCTCC TACAAAGACC CACATAGCAT TTGTGTGAGA 
GGGGAATGCA TTAAAGTTGG CTGTGACAAG GAAATAGGTT CCAATAAGGT GGATGACAAA 
TGTGGTGTTT GTGGAGGAGA CAATGCCCAT TGTCGTACTG TGAAGGGAAC ATTCACAAGA 
ACACCTAAAA AATCTGGGTA CCTAAAGATG TTTGACATCC CCCCTGGTGC TAGACATGTG 
TTTATCCAAG AAGACGAGGC CTCTCCTCAT GTTCTTGCTA TTAAAAATCA GGCTACAGGA 
CATTACATAC TAAATGGAAA AGGGGAAGAA GCAAAGTCCC GCTCATTCAT TGACCTTGGC 
GTAGAGTGGG AGTACATAAT TGAAGATGAC ATTGAAACAG TGCACACAGA CGGACCTTTG 
CATGATGCCA TTGTGGTGCT GGTTATTCCT CAGGAGAATG ACACAAAGTC CAGTTTAACA 
TATAAATATA TAATTCATGA AGATTCTGTT CCAACAATAA GCCACAACAA TGTACTGCAA 
GAGGAATCGG ACACTTATGA GTGGGCCTTA AAGAGCTGGT CTCAGTGCTC AAAACCATGT 
GGTGGAGGCT TTCAATACAC AAAATACGGA TGCCGTAGGA AAAGCGATAA CAAAATGGTT 
CACCGCAGCT TCTGTGAAGC AAATAAGAAG CCTAAGCCAA TTCGCAGAAT GTGCAATCTT 
CAAGAATGCA CCCAGCCAAT CTGGATAACA GATGCATGGG AACACTGCAC AAAAAGCTGT 
GGAAGTTCTG GCTACCAAAT TCGTTCTGTA CGATGCATCC AGCCCCTCCA TGATGGTACC 
AATCGTTCAG TTCACAGCAA GTACTGCAAT GGAGATCGCC CAGAAAGCAG AAGGCCTTGC 
AATAGAGTGC CTTGTCTGGC CCAGTGGAAA ACAGGGGCAT GGTCTGAGTG CTCCGTGACA 
TGTGGCGAAG GGATCGAAGT GAGACAAGTT CTGTGTCGAG CTGGTGATCA GTGTGATGGA 
GAGAAACCAG AGTCTATGAG GGACTGTAAA CTGACTCCTT GCAGTGATGA ACCATGCCTT 
GGAGACAAAT CTATATTTTG TCAAATGGAG GTGCTAGCTC GGTATTGCTC CATACCAGGA 
TACAACAAAC TTTGCTGTGA ATCCTGTAGC AAGCGTGGCA CCCAACAACC ACCGTATTTC 
ACTGAAGCTG CTGAAACTGA AGATGAACTC TTTTTTGACC CTAGTGATTT GTCCAAGGCC 
GGCATGACTC CGACAGCTTT AGCACCTCTT GATGCAGAAG CTACATCTGA AAGAAAGAAA 
GCATTAGCAG CCCTTTCCTT TGCTGAAAGT GATGCAGATC TAGGCATTTT ATCTGTACCG 
GAAAGCAGGC CAAAATTTTC AGATCAAGCC CAGAGAAGAT CACATGTAGC TGCAGGCAAA 
AACCTTGCTA GGATTGTCGG TATCCCACCA CCAACTCCAA ATAGCAACAT TCATTTACAT 
AGACCTTCCA TGCCAGACAT GGACACAGGT CATCTCAGCT CTCCAGGCAG AACCTCAAGG 
AGAAATGATA AATCCTTTGA GAAAAGACGT TCTTTGCAGT CATCTACAAC AGAACGATGA

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

PubMed

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adamts3 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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