adamts10 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

Gene
Clones
gRNAs

Summary

Gene Symbol	adamts10
Entrez Gene ID	100494667
Full Name	ADAM metallopeptidase with thrombospondin type 1 motif 10
General protein information	Preferred Names ADAM metallopeptidase with thrombospondin type 1 motif 10 Names A disintegrin and metalloproteinase with thrombospondin motifs 10
Gene Type	protein-coding
Organism	Xenopus tropicalis(tropical clawed frog)

mRNA and Protein(s)

mRNA	Protein	Name
XM_018096944.1	XP_017952433.1	A disintegrin and metalloproteinase with thrombospondin motifs 10 isoform X2
XM_031905008.1	XP_031760868.1	A disintegrin and metalloproteinase with thrombospondin motifs 10 isoform X1
XM_018096944.2	XP_017952433.2	A disintegrin and metalloproteinase with thrombospondin motifs 10 isoform X2
XM_018096948.1	XP_017952437.1	A disintegrin and metalloproteinase with thrombospondin motifs 10 isoform X3
XM_004910996.4	XP_004911053.2	A disintegrin and metalloproteinase with thrombospondin motifs 10 isoform X1
XM_004910996.3	XP_004911053.1	A disintegrin and metalloproteinase with thrombospondin motifs 10 isoform X1
XM_018096942.1	XP_017952431.1	A disintegrin and metalloproteinase with thrombospondin motifs 10 isoform X1

Pathways from BioSystems

Homologies

Homo sapiens (human)	ADAMTS10	NP_112219.3
Bos taurus (cattle)	ADAMTS10	NP_001192679.1
Gallus gallus (chicken)	ADAMTS10	XP_001232250.1
Canis lupus familiaris (dog)	ADAMTS10	XP_854320.1
	ADAMTS10	XP_001095217.1
Xenopus tropicalis (tropical clawed frog)	adamts10	XP_002938612.2
Pan troglodytes (chimpanzee)	ADAMTS10	XP_001159753.1
Mus musculus (house mouse)	Adamts10	NP_766207.2
Rattus norvegicus (Norway rat)	Adamts10	NP_001258374.1
Danio rerio (zebrafish)	adamts10	NP_001116746.1

Gene Ontology

The following adamts10 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the adamts10 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)
OXa42026	XM_018096948.1 Latest version!	Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 10 (adamts10), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
OXa48504	XM_004910996.4 Latest version!	Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 10 (adamts10), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OXa48504	XM_031905008.1 Latest version!	Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 10 (adamts10), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OXa48505	XM_018096944.2 Latest version!	Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 10 (adamts10), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OXa04301	XM_018096942.1 Latest version!	Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 10 (adamts10), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$629.30 $899.00
OXa04301	XM_004910996.3 Latest version!	Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 10 (adamts10), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$629.30 $899.00
OXa04303	XM_018096944.1 Latest version!	Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 10 (adamts10), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$629.30 $899.00

ORF Online Only Promotion

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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)

adamts10 ( XM_018096948.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_017952437.1 Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 10 (adamts10), transcript variant X4, mRNA.

Price & Availability↑

CloneID	OXa42026
Clone ID Related Accession (Same CDS sequence)	XM_018096948.1
Accession Version	XM_018096948.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3150bp) 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 10 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.1) 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 :: 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##

ATGGTGACAC CACGAGCTGA GAATAAGAGG ACTGAAAATC ATGGCAATAA TATGGGGCCT 
TCTGGCTTGG GCCTTTACCC TTATTGCAGC CAGGACTGTG AAAGCCAGAG TTCCCAAGCA 
GCATTCCAAA GCCCAAGTCA CTGCATCGTT GGGATGACAG CAGCCAGTGA AGTCCTCTCC 
TCTGACCCAG CAGATTTCCT CTCCAGTCTG AGCCATTATG AGATCGCATT CCCGGAACAG 
GTGGACCAGA ATGGGAACTT CCTGACCTAT GACCTCCGTC AAGCCCCAAC AAGTTTTCGA 
AGGCCCAGGA GGAGTCTTTC TGAAGAGACA GAGCACCAAC TCTTCTACCG ACTACAAGCA 
CAGAGTTCGA CATTTCTTCT TAATCTAACT CTACAGACAG AACTTCTGGG GCAGCACTTT 
ACTGTAGAGT ACTGGAAGAG TGGAGGTCTG GACTGGAAGC ATGAACTCTA TGAGGATTGT 
CACTATGTGG GTCACATTCA AGACCAGCAG CTAAGCTCCA GGGTGGCCAT CAGCAACTGC 
AATGGCCTGC TTGGAGTTAT AGTATCAGGG GATGAGGAGT ATCTCATTGA ACCACTACCC 
GTAGGGAGCA ACTTCACCCA CAATGGTGAG GGGACTCCAC ATGTGGTGTA CAAAAGGTCA 
TCTTTGCAAC GTCAACACTT GGAGGCTGCC TGTGGGGTGA TAGATGACAA GCCTTGGAAA 
GATCGCCATT GGTGGATGCG AAACCCAAGG CCACCACCTC TTCGGCCAGG AACCAACCAG 
ACACAGCAAG GGCCCTTTCC CCTTAAGCGA TCTGTTAGCA CAGAAAGATA TGTAGAGACC 
TTGGTTGTAG CAGATAAAAT GATGATTGGC TACCATGGGA GGAGAGACAT TGAACAATAT 
ATCCTTGCTA TCATGAACAT TGTTGCCAAA CTTTTCCAGG ACTCAAGTCT GGGGAACATT 
GTAAACATCA TGGTGACACG TTTAATTCTC TTGACAGAGG ACCAGCCAAC ACTGGAGCTC 
AATCATCATG CAGGGAAGTC ACTTGATAGC TTTTGCCGGT GGCAGAAATC TATTGTAAGT 
CGCAACGGTA ATGCAATTTC GGAGAGTGGC ATTGCTGATC ATGATACAGC AGTACTTATA 
ACCAGATATG ACATTTGCAT TTACAAAAAC AAGCCATGTG GAACACTAGG TTTGGCACCT 
GTGGGTGGGA TGTGTGAGCG AGAGAGAAGT TGCAGTATAA ATGAAGACAT TGGCCTAGCT 
ACTGCTTTCA CTATTGCACA CGAGGTGGGA CACACATTTG GCATGAATCA TGATGGGATT 
GGTAATGGCT GTGGTTCCCG AGGCCAGGAG ACAGCCAAGC TCATGGCAGC GCATATTACT 
ATGAAGACCA ACCCATTTGT GTGGTCAGCT TGCAGCCGGG ATTACATAAC TAGCTTTTTA 
GATTCAGGAC TGGGTCTGTG TTTAAACAAT GCTCCACCAC GTCAAGACTT TATATATCCC 
ACCCAAGCTC CTGGACAAGC GTATGATGCA GATGACCAAT GTCGCTTCCA ACATGGAGTT 
AAATCTCGCC AGTGTAAATA TGGGGAAGTT TGTAGCGAGC TGTGGTGTCT TAGCAAATCC 
GGCCGTTGCA TTACTAACAG CATCCCTGCA GCTGAGGGGA CCATTTGCCA GACAAACACA 
ATTGAAAAGG GGTGGTGTTA TAAAAGGGAA TGTGTTCCCT TTGGAACACG GCCAGAGGGA 
GTGGATGGAG CATGGGGGTC CTGGTCTTCA TGGGGAGAGT GCAGCAGGAC CTGTGGAGGA 
GGGGTATCTT CATCTGTCCG TCACTGTGAC AGCCCAAGGC CTACAATTGG AGGAAAGTAT 
TGTTTGGGTG AGAGGAAGAG ATATCGATCA TGCAATATTG ATGACTGCCC TGCTGGTTCA 
CAGGATTTCC GGGAGGTGCA GTGTGCAGAG TTTGATAATG TGCCGTTTCG GGGGAAATAT 
TACTCTTGGA AAAGCTACAG AGGAGGTGGT GTTAAGTCTT GCTCACTTAA CTGCCTAGCT 
GAGGGATTCA ACTTTTATAC TGAGCGAGCA GCTGCTGTTA TTGATGGGAC CCTCTGCAGA 
CAGGACTCCT ATGATATCTG TGTCAATGGC GAATGCAAGC ATGTAGGCTG TGACCGAATC 
TTGGGTTCTG ATACCAAAGA AGACAAATGT CGTGTATGTG GAGGAGACGG CAGCACTTGT 
GAGACGATTG AGGGTATCTT TAACCAGTCC CTGCCAGAGG GAGGATATGA GGAAGTGGTC 
TGGATCCCTA AAGGCTCAGT ACATATTGAT ATCCGTCAGC TTAACATATC ACTCAGTTAC 
ATAGCCTTGA AAGCAAAGGA AGGCAGTGAA TATTATATCA ACGGAAGGTT CCCTCCAGAT 
ACTCCTCAAA GATTCGATGT AGCTGGCACT ATCTTTCATT ACAGGAGGCC CCAGGAAGAG 
CCAGAATCAC TGGAGGCTTT AGGGCCTACT AATACTACAC TGATTGTTAT GGTGGCAGTA 
AGAGAGGAAA TACTGCCTGG AATACGATAC AAGTTTAATG CCCCAATCAA TCAAGTCACG 
CAGAACAGTT ATGCATGGTA TCTCAGTTCA TGGACCAAGT GCTCAGCCAT TTGTGCTGGA 
GGTGTGCAAC TTCAGCAGGT GCTCTGTAAA AAGTTTTCAG ATGGTTCCAC TGTCTCTGGT 
GACTTGTGTG ACCCAAGCTC CAGGATCCAG GAGAAGCAGC GGCCGTGCAA CACTGAACCC 
TGCCCCCCTG AGTGGGCAAT AGGTGCCTGG TCTGAGTGCA GTCGAAGCTG CAATTCTGGA 
GTACGCACTC GCAGTGTAAT ATGTCAGCGT CGGGTGTCAG GAACTGACAA GAAGTCCCTG 
GATGATGCCT CCTGCCCTCA GCCTCGCCCG TCCATGCTTG AACCCTGCAA CACAGACACA 
TGTCCACCTG AATGGGTGGC TTTGGACTGG TCTGAGTGCA CCCCAAGCTG TGGGCCTGGG 
TACAGACACC GAGTTGTTCT GTGTAAGATT GGTGACCAAG ATAGTACCTT ACCCCATTCT 
CACTGCCAAG CTAAGGATAA ACCTGCAACA ACTATGCGCT GCACCTTACA AAGATGCCCG 
CCATCACGCT GGATCACAGT GTTCAGCTAA

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

RefSeq	XP_017952437.1
CDS	588..3737
Translation	MVTPRAENKRTENHGNNMGPSGLGLYPYCSQDCESQSSQAAFQSPSHCIVGMTAASEVLSSDPADFLSSLSHYEIAFPEQVDQNGNFLTYDLRQAPTSFRRPRRSLSEETEHQLFYRLQAQSSTFLLNLTLQTELLGQHFTVEYWKSGGLDWKHELYEDCHYVGHIQDQQLSSRVAISNCNGLLGVIVSGDEEYLIEPLPVGSNFTHNGEGTPHVVYKRSSLQRQHLEAACGVIDDKPWKDRHWWMRNPRPPPLRPGTNQTQQGPFPLKRSVSTERYVETLVVADKMMIGYHGRRDIEQYILAIMNIVAKLFQDSSLGNIVNIMVTRLILLTEDQPTLELNHHAGKSLDSFCRWQKSIVSRNGNAISESGIADHDTAVLITRYDICIYKNKPCGTLGLAPVGGMCERERSCSINEDIGLATAFTIAHEVGHTFGMNHDGIGNGCGSRGQETAKLMAAHITMKTNPFVWSACSRDYITSFLDSGLGLCLNNAPPRQDFIYPTQAPGQAYDADDQCRFQHGVKSRQCKYGEVCSELWCLSKSGRCITNSIPAAEGTICQTNTIEKGWCYKRECVPFGTRPEGVDGAWGSWSSWGECSRTCGGGVSSSVRHCDSPRPTIGGKYCLGERKRYRSCNIDDCPAGSQDFREVQCAEFDNVPFRGKYYSWKSYRGGGVKSCSLNCLAEGFNFYTERAAAVIDGTLCRQDSYDICVNGECKHVGCDRILGSDTKEDKCRVCGGDGSTCETIEGIFNQSLPEGGYEEVVWIPKGSVHIDIRQLNISLSYIALKAKEGSEYYINGRFPPDTPQRFDVAGTIFHYRRPQEEPESLEALGPTNTTLIVMVAVREEILPGIRYKFNAPINQVTQNSYAWYLSSWTKCSAICAGGVQLQQVLCKKFSDGSTVSGDLCDPSSRIQEKQRPCNTEPCPPEWAIGAWSECSRSCNSGVRTRSVICQRRVSGTDKKSLDDASCPQPRPSMLEPCNTDTCPPEWVALDWSECTPSCGPGYRHRVVLCKIGDQDSTLPHSHCQAKDKPATTMRCTLQRCPPSRWITVFS

Target ORF information:

RefSeq Version	XM_018096948.1
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 10 (adamts10), transcript variant X4, mRNA.

Target ORF information:

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

XM_018096948.1

ORF Insert Sequence:

ATGGTGACAC CACGAGCTGA GAATAAGAGG ACTGAAAATC ATGGCAATAA TATGGGGCCT 
TCTGGCTTGG GCCTTTACCC TTATTGCAGC CAGGACTGTG AAAGCCAGAG TTCCCAAGCA 
GCATTCCAAA GCCCAAGTCA CTGCATCGTT GGGATGACAG CAGCCAGTGA AGTCCTCTCC 
TCTGACCCAG CAGATTTCCT CTCCAGTCTG AGCCATTATG AGATCGCATT CCCGGAACAG 
GTGGACCAGA ATGGGAACTT CCTGACCTAT GACCTCCGTC AAGCCCCAAC AAGTTTTCGA 
AGGCCCAGGA GGAGTCTTTC TGAAGAGACA GAGCACCAAC TCTTCTACCG ACTACAAGCA 
CAGAGTTCGA CATTTCTTCT TAATCTAACT CTACAGACAG AACTTCTGGG GCAGCACTTT 
ACTGTAGAGT ACTGGAAGAG TGGAGGTCTG GACTGGAAGC ATGAACTCTA TGAGGATTGT 
CACTATGTGG GTCACATTCA AGACCAGCAG CTAAGCTCCA GGGTGGCCAT CAGCAACTGC 
AATGGCCTGC TTGGAGTTAT AGTATCAGGG GATGAGGAGT ATCTCATTGA ACCACTACCC 
GTAGGGAGCA ACTTCACCCA CAATGGTGAG GGGACTCCAC ATGTGGTGTA CAAAAGGTCA 
TCTTTGCAAC GTCAACACTT GGAGGCTGCC TGTGGGGTGA TAGATGACAA GCCTTGGAAA 
GATCGCCATT GGTGGATGCG AAACCCAAGG CCACCACCTC TTCGGCCAGG AACCAACCAG 
ACACAGCAAG GGCCCTTTCC CCTTAAGCGA TCTGTTAGCA CAGAAAGATA TGTAGAGACC 
TTGGTTGTAG CAGATAAAAT GATGATTGGC TACCATGGGA GGAGAGACAT TGAACAATAT 
ATCCTTGCTA TCATGAACAT TGTTGCCAAA CTTTTCCAGG ACTCAAGTCT GGGGAACATT 
GTAAACATCA TGGTGACACG TTTAATTCTC TTGACAGAGG ACCAGCCAAC ACTGGAGCTC 
AATCATCATG CAGGGAAGTC ACTTGATAGC TTTTGCCGGT GGCAGAAATC TATTGTAAGT 
CGCAACGGTA ATGCAATTTC GGAGAGTGGC ATTGCTGATC ATGATACAGC AGTACTTATA 
ACCAGATATG ACATTTGCAT TTACAAAAAC AAGCCATGTG GAACACTAGG TTTGGCACCT 
GTGGGTGGGA TGTGTGAGCG AGAGAGAAGT TGCAGTATAA ATGAAGACAT TGGCCTAGCT 
ACTGCTTTCA CTATTGCACA CGAGGTGGGA CACACATTTG GCATGAATCA TGATGGGATT 
GGTAATGGCT GTGGTTCCCG AGGCCAGGAG ACAGCCAAGC TCATGGCAGC GCATATTACT 
ATGAAGACCA ACCCATTTGT GTGGTCAGCT TGCAGCCGGG ATTACATAAC TAGCTTTTTA 
GATTCAGGAC TGGGTCTGTG TTTAAACAAT GCTCCACCAC GTCAAGACTT TATATATCCC 
ACCCAAGCTC CTGGACAAGC GTATGATGCA GATGACCAAT GTCGCTTCCA ACATGGAGTT 
AAATCTCGCC AGTGTAAATA TGGGGAAGTT TGTAGCGAGC TGTGGTGTCT TAGCAAATCC 
GGCCGTTGCA TTACTAACAG CATCCCTGCA GCTGAGGGGA CCATTTGCCA GACAAACACA 
ATTGAAAAGG GGTGGTGTTA TAAAAGGGAA TGTGTTCCCT TTGGAACACG GCCAGAGGGA 
GTGGATGGAG CATGGGGGTC CTGGTCTTCA TGGGGAGAGT GCAGCAGGAC CTGTGGAGGA 
GGGGTATCTT CATCTGTCCG TCACTGTGAC AGCCCAAGGC CTACAATTGG AGGAAAGTAT 
TGTTTGGGTG AGAGGAAGAG ATATCGATCA TGCAATATTG ATGACTGCCC TGCTGGTTCA 
CAGGATTTCC GGGAGGTGCA GTGTGCAGAG TTTGATAATG TGCCGTTTCG GGGGAAATAT 
TACTCTTGGA AAAGCTACAG AGGAGGTGGT GTTAAGTCTT GCTCACTTAA CTGCCTAGCT 
GAGGGATTCA ACTTTTATAC TGAGCGAGCA GCTGCTGTTA TTGATGGGAC CCTCTGCAGA 
CAGGACTCCT ATGATATCTG TGTCAATGGC GAATGCAAGC ATGTAGGCTG TGACCGAATC 
TTGGGTTCTG ATACCAAAGA AGACAAATGT CGTGTATGTG GAGGAGACGG CAGCACTTGT 
GAGACGATTG AGGGTATCTT TAACCAGTCC CTGCCAGAGG GAGGATATGA GGAAGTGGTC 
TGGATCCCTA AAGGCTCAGT ACATATTGAT ATCCGTCAGC TTAACATATC ACTCAGTTAC 
ATAGCCTTGA AAGCAAAGGA AGGCAGTGAA TATTATATCA ACGGAAGGTT CCCTCCAGAT 
ACTCCTCAAA GATTCGATGT AGCTGGCACT ATCTTTCATT ACAGGAGGCC CCAGGAAGAG 
CCAGAATCAC TGGAGGCTTT AGGGCCTACT AATACTACAC TGATTGTTAT GGTGGCAGTA 
AGAGAGGAAA TACTGCCTGG AATACGATAC AAGTTTAATG CCCCAATCAA TCAAGTCACG 
CAGAACAGTT ATGCATGGTA TCTCAGTTCA TGGACCAAGT GCTCAGCCAT TTGTGCTGGA 
GGTGTGCAAC TTCAGCAGGT GCTCTGTAAA AAGTTTTCAG ATGGTTCCAC TGTCTCTGGT 
GACTTGTGTG ACCCAAGCTC CAGGATCCAG GAGAAGCAGC GGCCGTGCAA CACTGAACCC 
TGCCCCCCTG AGTGGGCAAT AGGTGCCTGG TCTGAGTGCA GTCGAAGCTG CAATTCTGGA 
GTACGCACTC GCAGTGTAAT ATGTCAGCGT CGGGTGTCAG GAACTGACAA GAAGTCCCTG 
GATGATGCCT CCTGCCCTCA GCCTCGCCCG TCCATGCTTG AACCCTGCAA CACAGACACA 
TGTCCACCTG AATGGGTGGC TTTGGACTGG TCTGAGTGCA CCCCAAGCTG TGGGCCTGGG 
TACAGACACC GAGTTGTTCT GTGTAAGATT GGTGACCAAG ATAGTACCTT ACCCCATTCT 
CACTGCCAAG CTAAGGATAA ACCTGCAACA ACTATGCGCT GCACCTTACA AAGATGCCCG 
CCATCACGCT GGATCACAGT GTTCAGCTAA

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

adamts10 ( XM_031905008.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031760868.1 Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 10 (adamts10), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OXa48504
Clone ID Related Accession (Same CDS sequence)	XM_031905008.1 , XM_004910996.4
Accession Version	XM_031905008.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3420bp) 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 10 isoform X1
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 ##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##

ATGGTGACAC CACGAGCTGA GAATAAGAGG ACTGAAAATC ATGGCAATAA TATGGGGCCT 
TCTGGCTTGG GCCTTTACCC TTATTGCAGC CAGGACTGTG AAAGCCAGAG TTCCCAAGCA 
GCATTCCAAA GCCCAAGTCA CTGCATCGTT GGGATGACAG CAGCCAGTGA AGTCCTCTCC 
TCTGACCCAG CAGATTTCCT CTCCAGTCTG AGCCATTATG AGATCGCATT CCCGGAACAG 
GTGGACCAGA ATGGGAACTT CCTGACCTAT GACCTCCGTC AAGCCCCAAC AAGTTTTCGA 
AGGCCCAGGA GGAGTCTTTC TGAAGAGACA GAGCACCAAC TCTTCTACCG ACTACAAGCA 
CAGAGTTCGA CATTTCTTCT TAATCTAACT CTACAGACAG AACTTCTGGG GCAGCACTTT 
ACTGTAGAGT ACTGGAAGAG TGGAGGTCTG GACTGGAAGC ATGAACTCTA TGAGGATTGT 
CACTATGTGG GTCACATTCA AGACCAGCAG CTAAGCTCCA GGGTGGCCAT CAGCAACTGC 
AATGGCCTGC TTGGAGTTAT AGTATCAGGG GATGAGGAGT ATCTCATTGA ACCACTACCC 
GTAGGGAGCA ACTTCACCCA CAATGGTGAG GGGACTCCAC ATGTGGTGTA CAAAAGGTCA 
TCTTTGCAAC GTCAACACTT GGAGGCTGCC TGTGGGGTGA TAGATGACAA GCCTTGGAAA 
GATCGCCATT GGTGGATGCG AAACCCAAGG CCACCACCTC TTCGGCCAGG AACCAACCAG 
ACACAGCAAG GGCCCTTTCC CCTTAAGCGA TCTGTTAGCA CAGAAAGATA TGTAGAGACC 
TTGGTTGTAG CAGATAAAAT GATGATTGGC TACCATGGGA GGAGAGACAT TGAACAATAT 
ATCCTTGCTA TCATGAACAT TGTTGCCAAA CTTTTCCAGG ACTCAAGTCT GGGGAACATT 
GTAAACATCA TGGTGACACG TTTAATTCTC TTGACAGAGG ACCAGCCAAC ACTGGAGCTC 
AATCATCATG CAGGGAAGTC ACTTGATAGC TTTTGCCGGT GGCAGAAATC TATTGTAAGT 
CGCAACGGTA ATGCAATTTC GGAGAGTGGC ATTGCTGATC ATGATACAGC AGTACTTATA 
ACCAGATATG ACATTTGCAT TTACAAAAAC AAGCCATGTG GAACACTAGG TTTGGCACCT 
GTGGGTGGGA TGTGTGAGCG AGAGAGAAGT TGCAGTATAA ATGAAGACAT TGGCCTAGCT 
ACTGCTTTCA CTATTGCACA CGAGGTGGGA CACACATTTG GCATGAATCA TGATGGGATT 
GGTAATGGCT GTGGTTCCCG AGGCCAGGAG ACAGCCAAGC TCATGGCAGC GCATATTACT 
ATGAAGACCA ACCCATTTGT GTGGTCAGCT TGCAGCCGGG ATTACATAAC TAGCTTTTTA 
GATTCAGGAC TGGGTCTGTG TTTAAACAAT GCTCCACCAC GTCAAGACTT TATATATCCC 
ACCCAAGCTC CTGGACAAGC GTATGATGCA GATGACCAAT GTCGCTTCCA ACATGGAGTT 
AAATCTCGCC AGTGTAAATA TGGGGAAGTT TGTAGCGAGC TGTGGTGTCT TAGCAAATCC 
GGCCGTTGCA TTACTAACAG CATCCCTGCA GCTGAGGGGA CCATTTGCCA GACAAACACA 
ATTGAAAAGG GGTGGTGTTA TAAAAGGGAA TGTGTTCCCT TTGGAACACG GCCAGAGGGA 
GTGGATGGAG CATGGGGGTC CTGGTCTTCA TGGGGAGAGT GCAGCAGGAC CTGTGGAGGA 
GGGGTATCTT CATCTGTCCG TCACTGTGAC AGCCCAAGGC CTACAATTGG AGGAAAGTAT 
TGTTTGGGTG AGAGGAAGAG ATATCGATCA TGCAATATTG ATGACTGCCC TGCTGGTTCA 
CAGGATTTCC GGGAGGTGCA GTGTGCAGAG TTTGATAATG TGCCGTTTCG GGGGAAATAT 
TACTCTTGGA AAAGCTACAG AGGAGGTGGT GTTAAGTCTT GCTCACTTAA CTGCCTAGCT 
GAGGGATTCA ACTTTTATAC TGAGCGAGCA GCTGCTGTTA TTGATGGGAC CCTCTGCAGA 
CAGGACTCCT ATGATATCTG TGTCAATGGC GAATGCAAGC ATGTAGGCTG TGACCGAATC 
TTGGGTTCTG ATACCAAAGA AGACAAATGT CGTGTATGTG GAGGAGACGG CAGCACTTGT 
GAGACGATTG AGGGTATCTT TAACCAGTCC CTGCCAGAGG GAGGATATGA GGAAGTGGTC 
TGGATCCCTA AAGGCTCAGT ACATATTGAT ATCCGTCAGC TTAACATATC ACTCAGTTAC 
CTAGCCTTGA AAGCAAAGGA AGGCAGTGAA TATTATATCA ACGGAAGGTT CCCTCCAGAT 
ACTCCTCAAA GATTCGATGT AGCTGGCACT ATCTTTCATT ACAGGAGGCC CCAGGAAGAG 
CCAGAATCAC TGGAGGCTTT AGGGCCTACT AATACTACAC TGATTGTTAT GGTGGCAGTA 
AGAGAGGAAA TACTGCCTGG AATACGATAC AAGTTTAATG CCCCAATCAA TCAAGTCACG 
CAGAACAGTT ATGCATGGTA TCTAAGTTCA TGGACCAAGT GCTCAGCCAT TTGTGCTGGA 
GGTGTGCAAC TTCAGCAGGT GCTCTGTAAA AAGTTTTCAG ATGGTTCCAC TGTCTCTGGT 
GACTTGTGTG ACCCAAGCTC CAGGATCCAG GAGAAACAGC GGCCGTGCAA CACTGAACCC 
TGCCCCCCTG AGTGGGCAAT AGGTGCCTGG TCTGAGTGCA GTCGAAGCTG CAATTCTGGA 
GTACGCACTC GCAGTGTAAT ATGTCAGCGT CGGGTGTCAG GAACTGACAA GAAGTCCCTG 
GATGATGCCT CCTGCCCTCA GCCTCGCCCG TCCATGCTTG AACCCTGCAA CACAGACACA 
TGTCCACCTG AATGGGTGGC TTTGGACTGG TCTGAGTGCA CCCCAAGCTG TGGGCCTGGG 
TACAGACACC GAGTTGTTCT GTGTAAGATT GGTGACCAAG ATAGTACCTT ACCCCATTCT 
CACTGCCAAG CTAAGGATAA ACCTGCAACA ACTATGCGCT GCACCTTACA AAGATGCCCG 
CCATCACGCT GGATCACAGG TGAATGGGGA GAGTGTTCAG CTAATTGTGG CCTTGGGCAA 
CAGAGACGGT CTGTGCAATG CCTGAGTCAT ATAGGGCAGC CATCGATAGA ATGCACAGAA 
TCTTTTCGGC CATCTGCAAT GCAGCAGTGC GAAAATAAAT GCCTGGCTGA TCCCTCTGAC 
AGTCCCGATG AATGTAAGGA TGTGAACAAG GTGGCGTACT GCCCTCTGGT GCTGAAGTTT 
AAATTCTGCA GCCGACCTTA CTTCAGACAG ATGTGTTGCA AAACCTGCCA AGGCCACTGA

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

RefSeq	XP_031760868.1
CDS	633..4052
Translation	MVTPRAENKRTENHGNNMGPSGLGLYPYCSQDCESQSSQAAFQSPSHCIVGMTAASEVLSSDPADFLSSLSHYEIAFPEQVDQNGNFLTYDLRQAPTSFRRPRRSLSEETEHQLFYRLQAQSSTFLLNLTLQTELLGQHFTVEYWKSGGLDWKHELYEDCHYVGHIQDQQLSSRVAISNCNGLLGVIVSGDEEYLIEPLPVGSNFTHNGEGTPHVVYKRSSLQRQHLEAACGVIDDKPWKDRHWWMRNPRPPPLRPGTNQTQQGPFPLKRSVSTERYVETLVVADKMMIGYHGRRDIEQYILAIMNIVAKLFQDSSLGNIVNIMVTRLILLTEDQPTLELNHHAGKSLDSFCRWQKSIVSRNGNAISESGIADHDTAVLITRYDICIYKNKPCGTLGLAPVGGMCERERSCSINEDIGLATAFTIAHEVGHTFGMNHDGIGNGCGSRGQETAKLMAAHITMKTNPFVWSACSRDYITSFLDSGLGLCLNNAPPRQDFIYPTQAPGQAYDADDQCRFQHGVKSRQCKYGEVCSELWCLSKSGRCITNSIPAAEGTICQTNTIEKGWCYKRECVPFGTRPEGVDGAWGSWSSWGECSRTCGGGVSSSVRHCDSPRPTIGGKYCLGERKRYRSCNIDDCPAGSQDFREVQCAEFDNVPFRGKYYSWKSYRGGGVKSCSLNCLAEGFNFYTERAAAVIDGTLCRQDSYDICVNGECKHVGCDRILGSDTKEDKCRVCGGDGSTCETIEGIFNQSLPEGGYEEVVWIPKGSVHIDIRQLNISLSYLALKAKEGSEYYINGRFPPDTPQRFDVAGTIFHYRRPQEEPESLEALGPTNTTLIVMVAVREEILPGIRYKFNAPINQVTQNSYAWYLSSWTKCSAICAGGVQLQQVLCKKFSDGSTVSGDLCDPSSRIQEKQRPCNTEPCPPEWAIGAWSECSRSCNSGVRTRSVICQRRVSGTDKKSLDDASCPQPRPSMLEPCNTDTCPPEWVALDWSECTPSCGPGYRHRVVLCKIGDQDSTLPHSHCQAKDKPATTMRCTLQRCPPSRWITGEWGECSANCGLGQQRRSVQCLSHIGQPSIECTESFRPSAMQQCENKCLADPSDSPDECKDVNKVAYCPLVLKFKFCSRPYFRQMCCKTCQGH

Target ORF information:

RefSeq Version	XM_031905008.1
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 10 (adamts10), transcript variant X2, mRNA.

Target ORF information:

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

XM_031905008.1

ORF Insert Sequence:

ATGGTGACAC CACGAGCTGA GAATAAGAGG ACTGAAAATC ATGGCAATAA TATGGGGCCT 
TCTGGCTTGG GCCTTTACCC TTATTGCAGC CAGGACTGTG AAAGCCAGAG TTCCCAAGCA 
GCATTCCAAA GCCCAAGTCA CTGCATCGTT GGGATGACAG CAGCCAGTGA AGTCCTCTCC 
TCTGACCCAG CAGATTTCCT CTCCAGTCTG AGCCATTATG AGATCGCATT CCCGGAACAG 
GTGGACCAGA ATGGGAACTT CCTGACCTAT GACCTCCGTC AAGCCCCAAC AAGTTTTCGA 
AGGCCCAGGA GGAGTCTTTC TGAAGAGACA GAGCACCAAC TCTTCTACCG ACTACAAGCA 
CAGAGTTCGA CATTTCTTCT TAATCTAACT CTACAGACAG AACTTCTGGG GCAGCACTTT 
ACTGTAGAGT ACTGGAAGAG TGGAGGTCTG GACTGGAAGC ATGAACTCTA TGAGGATTGT 
CACTATGTGG GTCACATTCA AGACCAGCAG CTAAGCTCCA GGGTGGCCAT CAGCAACTGC 
AATGGCCTGC TTGGAGTTAT AGTATCAGGG GATGAGGAGT ATCTCATTGA ACCACTACCC 
GTAGGGAGCA ACTTCACCCA CAATGGTGAG GGGACTCCAC ATGTGGTGTA CAAAAGGTCA 
TCTTTGCAAC GTCAACACTT GGAGGCTGCC TGTGGGGTGA TAGATGACAA GCCTTGGAAA 
GATCGCCATT GGTGGATGCG AAACCCAAGG CCACCACCTC TTCGGCCAGG AACCAACCAG 
ACACAGCAAG GGCCCTTTCC CCTTAAGCGA TCTGTTAGCA CAGAAAGATA TGTAGAGACC 
TTGGTTGTAG CAGATAAAAT GATGATTGGC TACCATGGGA GGAGAGACAT TGAACAATAT 
ATCCTTGCTA TCATGAACAT TGTTGCCAAA CTTTTCCAGG ACTCAAGTCT GGGGAACATT 
GTAAACATCA TGGTGACACG TTTAATTCTC TTGACAGAGG ACCAGCCAAC ACTGGAGCTC 
AATCATCATG CAGGGAAGTC ACTTGATAGC TTTTGCCGGT GGCAGAAATC TATTGTAAGT 
CGCAACGGTA ATGCAATTTC GGAGAGTGGC ATTGCTGATC ATGATACAGC AGTACTTATA 
ACCAGATATG ACATTTGCAT TTACAAAAAC AAGCCATGTG GAACACTAGG TTTGGCACCT 
GTGGGTGGGA TGTGTGAGCG AGAGAGAAGT TGCAGTATAA ATGAAGACAT TGGCCTAGCT 
ACTGCTTTCA CTATTGCACA CGAGGTGGGA CACACATTTG GCATGAATCA TGATGGGATT 
GGTAATGGCT GTGGTTCCCG AGGCCAGGAG ACAGCCAAGC TCATGGCAGC GCATATTACT 
ATGAAGACCA ACCCATTTGT GTGGTCAGCT TGCAGCCGGG ATTACATAAC TAGCTTTTTA 
GATTCAGGAC TGGGTCTGTG TTTAAACAAT GCTCCACCAC GTCAAGACTT TATATATCCC 
ACCCAAGCTC CTGGACAAGC GTATGATGCA GATGACCAAT GTCGCTTCCA ACATGGAGTT 
AAATCTCGCC AGTGTAAATA TGGGGAAGTT TGTAGCGAGC TGTGGTGTCT TAGCAAATCC 
GGCCGTTGCA TTACTAACAG CATCCCTGCA GCTGAGGGGA CCATTTGCCA GACAAACACA 
ATTGAAAAGG GGTGGTGTTA TAAAAGGGAA TGTGTTCCCT TTGGAACACG GCCAGAGGGA 
GTGGATGGAG CATGGGGGTC CTGGTCTTCA TGGGGAGAGT GCAGCAGGAC CTGTGGAGGA 
GGGGTATCTT CATCTGTCCG TCACTGTGAC AGCCCAAGGC CTACAATTGG AGGAAAGTAT 
TGTTTGGGTG AGAGGAAGAG ATATCGATCA TGCAATATTG ATGACTGCCC TGCTGGTTCA 
CAGGATTTCC GGGAGGTGCA GTGTGCAGAG TTTGATAATG TGCCGTTTCG GGGGAAATAT 
TACTCTTGGA AAAGCTACAG AGGAGGTGGT GTTAAGTCTT GCTCACTTAA CTGCCTAGCT 
GAGGGATTCA ACTTTTATAC TGAGCGAGCA GCTGCTGTTA TTGATGGGAC CCTCTGCAGA 
CAGGACTCCT ATGATATCTG TGTCAATGGC GAATGCAAGC ATGTAGGCTG TGACCGAATC 
TTGGGTTCTG ATACCAAAGA AGACAAATGT CGTGTATGTG GAGGAGACGG CAGCACTTGT 
GAGACGATTG AGGGTATCTT TAACCAGTCC CTGCCAGAGG GAGGATATGA GGAAGTGGTC 
TGGATCCCTA AAGGCTCAGT ACATATTGAT ATCCGTCAGC TTAACATATC ACTCAGTTAC 
CTAGCCTTGA AAGCAAAGGA AGGCAGTGAA TATTATATCA ACGGAAGGTT CCCTCCAGAT 
ACTCCTCAAA GATTCGATGT AGCTGGCACT ATCTTTCATT ACAGGAGGCC CCAGGAAGAG 
CCAGAATCAC TGGAGGCTTT AGGGCCTACT AATACTACAC TGATTGTTAT GGTGGCAGTA 
AGAGAGGAAA TACTGCCTGG AATACGATAC AAGTTTAATG CCCCAATCAA TCAAGTCACG 
CAGAACAGTT ATGCATGGTA TCTAAGTTCA TGGACCAAGT GCTCAGCCAT TTGTGCTGGA 
GGTGTGCAAC TTCAGCAGGT GCTCTGTAAA AAGTTTTCAG ATGGTTCCAC TGTCTCTGGT 
GACTTGTGTG ACCCAAGCTC CAGGATCCAG GAGAAACAGC GGCCGTGCAA CACTGAACCC 
TGCCCCCCTG AGTGGGCAAT AGGTGCCTGG TCTGAGTGCA GTCGAAGCTG CAATTCTGGA 
GTACGCACTC GCAGTGTAAT ATGTCAGCGT CGGGTGTCAG GAACTGACAA GAAGTCCCTG 
GATGATGCCT CCTGCCCTCA GCCTCGCCCG TCCATGCTTG AACCCTGCAA CACAGACACA 
TGTCCACCTG AATGGGTGGC TTTGGACTGG TCTGAGTGCA CCCCAAGCTG TGGGCCTGGG 
TACAGACACC GAGTTGTTCT GTGTAAGATT GGTGACCAAG ATAGTACCTT ACCCCATTCT 
CACTGCCAAG CTAAGGATAA ACCTGCAACA ACTATGCGCT GCACCTTACA AAGATGCCCG 
CCATCACGCT GGATCACAGG TGAATGGGGA GAGTGTTCAG CTAATTGTGG CCTTGGGCAA 
CAGAGACGGT CTGTGCAATG CCTGAGTCAT ATAGGGCAGC CATCGATAGA ATGCACAGAA 
TCTTTTCGGC CATCTGCAAT GCAGCAGTGC GAAAATAAAT GCCTGGCTGA TCCCTCTGAC 
AGTCCCGATG AATGTAAGGA TGTGAACAAG GTGGCGTACT GCCCTCTGGT GCTGAAGTTT 
AAATTCTGCA GCCGACCTTA CTTCAGACAG ATGTGTTGCA AAACCTGCCA AGGCCACTGA

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

adamts10 ( XM_004910996.4 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_004911053.2 Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 10 (adamts10), transcript variant X1, mRNA.

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CloneID	OXa48504
Clone ID Related Accession (Same CDS sequence)	XM_031905008.1 , XM_004910996.4
Accession Version	XM_004910996.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3420bp) 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 10 isoform X1
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_004910996.3. ##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##

ATGGTGACAC CACGAGCTGA GAATAAGAGG ACTGAAAATC ATGGCAATAA TATGGGGCCT 
TCTGGCTTGG GCCTTTACCC TTATTGCAGC CAGGACTGTG AAAGCCAGAG TTCCCAAGCA 
GCATTCCAAA GCCCAAGTCA CTGCATCGTT GGGATGACAG CAGCCAGTGA AGTCCTCTCC 
TCTGACCCAG CAGATTTCCT CTCCAGTCTG AGCCATTATG AGATCGCATT CCCGGAACAG 
GTGGACCAGA ATGGGAACTT CCTGACCTAT GACCTCCGTC AAGCCCCAAC AAGTTTTCGA 
AGGCCCAGGA GGAGTCTTTC TGAAGAGACA GAGCACCAAC TCTTCTACCG ACTACAAGCA 
CAGAGTTCGA CATTTCTTCT TAATCTAACT CTACAGACAG AACTTCTGGG GCAGCACTTT 
ACTGTAGAGT ACTGGAAGAG TGGAGGTCTG GACTGGAAGC ATGAACTCTA TGAGGATTGT 
CACTATGTGG GTCACATTCA AGACCAGCAG CTAAGCTCCA GGGTGGCCAT CAGCAACTGC 
AATGGCCTGC TTGGAGTTAT AGTATCAGGG GATGAGGAGT ATCTCATTGA ACCACTACCC 
GTAGGGAGCA ACTTCACCCA CAATGGTGAG GGGACTCCAC ATGTGGTGTA CAAAAGGTCA 
TCTTTGCAAC GTCAACACTT GGAGGCTGCC TGTGGGGTGA TAGATGACAA GCCTTGGAAA 
GATCGCCATT GGTGGATGCG AAACCCAAGG CCACCACCTC TTCGGCCAGG AACCAACCAG 
ACACAGCAAG GGCCCTTTCC CCTTAAGCGA TCTGTTAGCA CAGAAAGATA TGTAGAGACC 
TTGGTTGTAG CAGATAAAAT GATGATTGGC TACCATGGGA GGAGAGACAT TGAACAATAT 
ATCCTTGCTA TCATGAACAT TGTTGCCAAA CTTTTCCAGG ACTCAAGTCT GGGGAACATT 
GTAAACATCA TGGTGACACG TTTAATTCTC TTGACAGAGG ACCAGCCAAC ACTGGAGCTC 
AATCATCATG CAGGGAAGTC ACTTGATAGC TTTTGCCGGT GGCAGAAATC TATTGTAAGT 
CGCAACGGTA ATGCAATTTC GGAGAGTGGC ATTGCTGATC ATGATACAGC AGTACTTATA 
ACCAGATATG ACATTTGCAT TTACAAAAAC AAGCCATGTG GAACACTAGG TTTGGCACCT 
GTGGGTGGGA TGTGTGAGCG AGAGAGAAGT TGCAGTATAA ATGAAGACAT TGGCCTAGCT 
ACTGCTTTCA CTATTGCACA CGAGGTGGGA CACACATTTG GCATGAATCA TGATGGGATT 
GGTAATGGCT GTGGTTCCCG AGGCCAGGAG ACAGCCAAGC TCATGGCAGC GCATATTACT 
ATGAAGACCA ACCCATTTGT GTGGTCAGCT TGCAGCCGGG ATTACATAAC TAGCTTTTTA 
GATTCAGGAC TGGGTCTGTG TTTAAACAAT GCTCCACCAC GTCAAGACTT TATATATCCC 
ACCCAAGCTC CTGGACAAGC GTATGATGCA GATGACCAAT GTCGCTTCCA ACATGGAGTT 
AAATCTCGCC AGTGTAAATA TGGGGAAGTT TGTAGCGAGC TGTGGTGTCT TAGCAAATCC 
GGCCGTTGCA TTACTAACAG CATCCCTGCA GCTGAGGGGA CCATTTGCCA GACAAACACA 
ATTGAAAAGG GGTGGTGTTA TAAAAGGGAA TGTGTTCCCT TTGGAACACG GCCAGAGGGA 
GTGGATGGAG CATGGGGGTC CTGGTCTTCA TGGGGAGAGT GCAGCAGGAC CTGTGGAGGA 
GGGGTATCTT CATCTGTCCG TCACTGTGAC AGCCCAAGGC CTACAATTGG AGGAAAGTAT 
TGTTTGGGTG AGAGGAAGAG ATATCGATCA TGCAATATTG ATGACTGCCC TGCTGGTTCA 
CAGGATTTCC GGGAGGTGCA GTGTGCAGAG TTTGATAATG TGCCGTTTCG GGGGAAATAT 
TACTCTTGGA AAAGCTACAG AGGAGGTGGT GTTAAGTCTT GCTCACTTAA CTGCCTAGCT 
GAGGGATTCA ACTTTTATAC TGAGCGAGCA GCTGCTGTTA TTGATGGGAC CCTCTGCAGA 
CAGGACTCCT ATGATATCTG TGTCAATGGC GAATGCAAGC ATGTAGGCTG TGACCGAATC 
TTGGGTTCTG ATACCAAAGA AGACAAATGT CGTGTATGTG GAGGAGACGG CAGCACTTGT 
GAGACGATTG AGGGTATCTT TAACCAGTCC CTGCCAGAGG GAGGATATGA GGAAGTGGTC 
TGGATCCCTA AAGGCTCAGT ACATATTGAT ATCCGTCAGC TTAACATATC ACTCAGTTAC 
CTAGCCTTGA AAGCAAAGGA AGGCAGTGAA TATTATATCA ACGGAAGGTT CCCTCCAGAT 
ACTCCTCAAA GATTCGATGT AGCTGGCACT ATCTTTCATT ACAGGAGGCC CCAGGAAGAG 
CCAGAATCAC TGGAGGCTTT AGGGCCTACT AATACTACAC TGATTGTTAT GGTGGCAGTA 
AGAGAGGAAA TACTGCCTGG AATACGATAC AAGTTTAATG CCCCAATCAA TCAAGTCACG 
CAGAACAGTT ATGCATGGTA TCTAAGTTCA TGGACCAAGT GCTCAGCCAT TTGTGCTGGA 
GGTGTGCAAC TTCAGCAGGT GCTCTGTAAA AAGTTTTCAG ATGGTTCCAC TGTCTCTGGT 
GACTTGTGTG ACCCAAGCTC CAGGATCCAG GAGAAACAGC GGCCGTGCAA CACTGAACCC 
TGCCCCCCTG AGTGGGCAAT AGGTGCCTGG TCTGAGTGCA GTCGAAGCTG CAATTCTGGA 
GTACGCACTC GCAGTGTAAT ATGTCAGCGT CGGGTGTCAG GAACTGACAA GAAGTCCCTG 
GATGATGCCT CCTGCCCTCA GCCTCGCCCG TCCATGCTTG AACCCTGCAA CACAGACACA 
TGTCCACCTG AATGGGTGGC TTTGGACTGG TCTGAGTGCA CCCCAAGCTG TGGGCCTGGG 
TACAGACACC GAGTTGTTCT GTGTAAGATT GGTGACCAAG ATAGTACCTT ACCCCATTCT 
CACTGCCAAG CTAAGGATAA ACCTGCAACA ACTATGCGCT GCACCTTACA AAGATGCCCG 
CCATCACGCT GGATCACAGG TGAATGGGGA GAGTGTTCAG CTAATTGTGG CCTTGGGCAA 
CAGAGACGGT CTGTGCAATG CCTGAGTCAT ATAGGGCAGC CATCGATAGA ATGCACAGAA 
TCTTTTCGGC CATCTGCAAT GCAGCAGTGC GAAAATAAAT GCCTGGCTGA TCCCTCTGAC 
AGTCCCGATG AATGTAAGGA TGTGAACAAG GTGGCGTACT GCCCTCTGGT GCTGAAGTTT 
AAATTCTGCA GCCGACCTTA CTTCAGACAG ATGTGTTGCA AAACCTGCCA AGGCCACTGA

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

RefSeq	XP_004911053.2
CDS	555..3974
Translation	MVTPRAENKRTENHGNNMGPSGLGLYPYCSQDCESQSSQAAFQSPSHCIVGMTAASEVLSSDPADFLSSLSHYEIAFPEQVDQNGNFLTYDLRQAPTSFRRPRRSLSEETEHQLFYRLQAQSSTFLLNLTLQTELLGQHFTVEYWKSGGLDWKHELYEDCHYVGHIQDQQLSSRVAISNCNGLLGVIVSGDEEYLIEPLPVGSNFTHNGEGTPHVVYKRSSLQRQHLEAACGVIDDKPWKDRHWWMRNPRPPPLRPGTNQTQQGPFPLKRSVSTERYVETLVVADKMMIGYHGRRDIEQYILAIMNIVAKLFQDSSLGNIVNIMVTRLILLTEDQPTLELNHHAGKSLDSFCRWQKSIVSRNGNAISESGIADHDTAVLITRYDICIYKNKPCGTLGLAPVGGMCERERSCSINEDIGLATAFTIAHEVGHTFGMNHDGIGNGCGSRGQETAKLMAAHITMKTNPFVWSACSRDYITSFLDSGLGLCLNNAPPRQDFIYPTQAPGQAYDADDQCRFQHGVKSRQCKYGEVCSELWCLSKSGRCITNSIPAAEGTICQTNTIEKGWCYKRECVPFGTRPEGVDGAWGSWSSWGECSRTCGGGVSSSVRHCDSPRPTIGGKYCLGERKRYRSCNIDDCPAGSQDFREVQCAEFDNVPFRGKYYSWKSYRGGGVKSCSLNCLAEGFNFYTERAAAVIDGTLCRQDSYDICVNGECKHVGCDRILGSDTKEDKCRVCGGDGSTCETIEGIFNQSLPEGGYEEVVWIPKGSVHIDIRQLNISLSYLALKAKEGSEYYINGRFPPDTPQRFDVAGTIFHYRRPQEEPESLEALGPTNTTLIVMVAVREEILPGIRYKFNAPINQVTQNSYAWYLSSWTKCSAICAGGVQLQQVLCKKFSDGSTVSGDLCDPSSRIQEKQRPCNTEPCPPEWAIGAWSECSRSCNSGVRTRSVICQRRVSGTDKKSLDDASCPQPRPSMLEPCNTDTCPPEWVALDWSECTPSCGPGYRHRVVLCKIGDQDSTLPHSHCQAKDKPATTMRCTLQRCPPSRWITGEWGECSANCGLGQQRRSVQCLSHIGQPSIECTESFRPSAMQQCENKCLADPSDSPDECKDVNKVAYCPLVLKFKFCSRPYFRQMCCKTCQGH

Target ORF information:

RefSeq Version	XM_004910996.4
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 10 (adamts10), transcript variant X1, mRNA.

Target ORF information:

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

XM_004910996.4

ORF Insert Sequence:

ATGGTGACAC CACGAGCTGA GAATAAGAGG ACTGAAAATC ATGGCAATAA TATGGGGCCT 
TCTGGCTTGG GCCTTTACCC TTATTGCAGC CAGGACTGTG AAAGCCAGAG TTCCCAAGCA 
GCATTCCAAA GCCCAAGTCA CTGCATCGTT GGGATGACAG CAGCCAGTGA AGTCCTCTCC 
TCTGACCCAG CAGATTTCCT CTCCAGTCTG AGCCATTATG AGATCGCATT CCCGGAACAG 
GTGGACCAGA ATGGGAACTT CCTGACCTAT GACCTCCGTC AAGCCCCAAC AAGTTTTCGA 
AGGCCCAGGA GGAGTCTTTC TGAAGAGACA GAGCACCAAC TCTTCTACCG ACTACAAGCA 
CAGAGTTCGA CATTTCTTCT TAATCTAACT CTACAGACAG AACTTCTGGG GCAGCACTTT 
ACTGTAGAGT ACTGGAAGAG TGGAGGTCTG GACTGGAAGC ATGAACTCTA TGAGGATTGT 
CACTATGTGG GTCACATTCA AGACCAGCAG CTAAGCTCCA GGGTGGCCAT CAGCAACTGC 
AATGGCCTGC TTGGAGTTAT AGTATCAGGG GATGAGGAGT ATCTCATTGA ACCACTACCC 
GTAGGGAGCA ACTTCACCCA CAATGGTGAG GGGACTCCAC ATGTGGTGTA CAAAAGGTCA 
TCTTTGCAAC GTCAACACTT GGAGGCTGCC TGTGGGGTGA TAGATGACAA GCCTTGGAAA 
GATCGCCATT GGTGGATGCG AAACCCAAGG CCACCACCTC TTCGGCCAGG AACCAACCAG 
ACACAGCAAG GGCCCTTTCC CCTTAAGCGA TCTGTTAGCA CAGAAAGATA TGTAGAGACC 
TTGGTTGTAG CAGATAAAAT GATGATTGGC TACCATGGGA GGAGAGACAT TGAACAATAT 
ATCCTTGCTA TCATGAACAT TGTTGCCAAA CTTTTCCAGG ACTCAAGTCT GGGGAACATT 
GTAAACATCA TGGTGACACG TTTAATTCTC TTGACAGAGG ACCAGCCAAC ACTGGAGCTC 
AATCATCATG CAGGGAAGTC ACTTGATAGC TTTTGCCGGT GGCAGAAATC TATTGTAAGT 
CGCAACGGTA ATGCAATTTC GGAGAGTGGC ATTGCTGATC ATGATACAGC AGTACTTATA 
ACCAGATATG ACATTTGCAT TTACAAAAAC AAGCCATGTG GAACACTAGG TTTGGCACCT 
GTGGGTGGGA TGTGTGAGCG AGAGAGAAGT TGCAGTATAA ATGAAGACAT TGGCCTAGCT 
ACTGCTTTCA CTATTGCACA CGAGGTGGGA CACACATTTG GCATGAATCA TGATGGGATT 
GGTAATGGCT GTGGTTCCCG AGGCCAGGAG ACAGCCAAGC TCATGGCAGC GCATATTACT 
ATGAAGACCA ACCCATTTGT GTGGTCAGCT TGCAGCCGGG ATTACATAAC TAGCTTTTTA 
GATTCAGGAC TGGGTCTGTG TTTAAACAAT GCTCCACCAC GTCAAGACTT TATATATCCC 
ACCCAAGCTC CTGGACAAGC GTATGATGCA GATGACCAAT GTCGCTTCCA ACATGGAGTT 
AAATCTCGCC AGTGTAAATA TGGGGAAGTT TGTAGCGAGC TGTGGTGTCT TAGCAAATCC 
GGCCGTTGCA TTACTAACAG CATCCCTGCA GCTGAGGGGA CCATTTGCCA GACAAACACA 
ATTGAAAAGG GGTGGTGTTA TAAAAGGGAA TGTGTTCCCT TTGGAACACG GCCAGAGGGA 
GTGGATGGAG CATGGGGGTC CTGGTCTTCA TGGGGAGAGT GCAGCAGGAC CTGTGGAGGA 
GGGGTATCTT CATCTGTCCG TCACTGTGAC AGCCCAAGGC CTACAATTGG AGGAAAGTAT 
TGTTTGGGTG AGAGGAAGAG ATATCGATCA TGCAATATTG ATGACTGCCC TGCTGGTTCA 
CAGGATTTCC GGGAGGTGCA GTGTGCAGAG TTTGATAATG TGCCGTTTCG GGGGAAATAT 
TACTCTTGGA AAAGCTACAG AGGAGGTGGT GTTAAGTCTT GCTCACTTAA CTGCCTAGCT 
GAGGGATTCA ACTTTTATAC TGAGCGAGCA GCTGCTGTTA TTGATGGGAC CCTCTGCAGA 
CAGGACTCCT ATGATATCTG TGTCAATGGC GAATGCAAGC ATGTAGGCTG TGACCGAATC 
TTGGGTTCTG ATACCAAAGA AGACAAATGT CGTGTATGTG GAGGAGACGG CAGCACTTGT 
GAGACGATTG AGGGTATCTT TAACCAGTCC CTGCCAGAGG GAGGATATGA GGAAGTGGTC 
TGGATCCCTA AAGGCTCAGT ACATATTGAT ATCCGTCAGC TTAACATATC ACTCAGTTAC 
CTAGCCTTGA AAGCAAAGGA AGGCAGTGAA TATTATATCA ACGGAAGGTT CCCTCCAGAT 
ACTCCTCAAA GATTCGATGT AGCTGGCACT ATCTTTCATT ACAGGAGGCC CCAGGAAGAG 
CCAGAATCAC TGGAGGCTTT AGGGCCTACT AATACTACAC TGATTGTTAT GGTGGCAGTA 
AGAGAGGAAA TACTGCCTGG AATACGATAC AAGTTTAATG CCCCAATCAA TCAAGTCACG 
CAGAACAGTT ATGCATGGTA TCTAAGTTCA TGGACCAAGT GCTCAGCCAT TTGTGCTGGA 
GGTGTGCAAC TTCAGCAGGT GCTCTGTAAA AAGTTTTCAG ATGGTTCCAC TGTCTCTGGT 
GACTTGTGTG ACCCAAGCTC CAGGATCCAG GAGAAACAGC GGCCGTGCAA CACTGAACCC 
TGCCCCCCTG AGTGGGCAAT AGGTGCCTGG TCTGAGTGCA GTCGAAGCTG CAATTCTGGA 
GTACGCACTC GCAGTGTAAT ATGTCAGCGT CGGGTGTCAG GAACTGACAA GAAGTCCCTG 
GATGATGCCT CCTGCCCTCA GCCTCGCCCG TCCATGCTTG AACCCTGCAA CACAGACACA 
TGTCCACCTG AATGGGTGGC TTTGGACTGG TCTGAGTGCA CCCCAAGCTG TGGGCCTGGG 
TACAGACACC GAGTTGTTCT GTGTAAGATT GGTGACCAAG ATAGTACCTT ACCCCATTCT 
CACTGCCAAG CTAAGGATAA ACCTGCAACA ACTATGCGCT GCACCTTACA AAGATGCCCG 
CCATCACGCT GGATCACAGG TGAATGGGGA GAGTGTTCAG CTAATTGTGG CCTTGGGCAA 
CAGAGACGGT CTGTGCAATG CCTGAGTCAT ATAGGGCAGC CATCGATAGA ATGCACAGAA 
TCTTTTCGGC CATCTGCAAT GCAGCAGTGC GAAAATAAAT GCCTGGCTGA TCCCTCTGAC 
AGTCCCGATG AATGTAAGGA TGTGAACAAG GTGGCGTACT GCCCTCTGGT GCTGAAGTTT 
AAATTCTGCA GCCGACCTTA CTTCAGACAG ATGTGTTGCA AAACCTGCCA AGGCCACTGA

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

adamts10 ( XM_018096944.2 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_017952433.2 Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 10 (adamts10), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OXa48505
Clone ID Related Accession (Same CDS sequence)	XM_018096944.2
Accession Version	XM_018096944.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3318bp) 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 10 isoform X2
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_018096944.1. ##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##

ATGGCAATAA TATGGGGCCT TCTGGCTTGG GCCTTTACCC TTATTGCAGC CAGGACTGTG 
AAAGCCAGAG TTCCCAAGCA GCATTCCAAA GATTTCCTCT CCAGTCTGAG CCATTATGAG 
ATCGCATTCC CGGAACAGGT GGACCAGAAT GGGAACTTCC TGACCTATGA CCTCCGTCAA 
GCCCCAACAA GTTTTCGAAG GCCCAGGAGG AGTCTTTCTG AAGAGACAGA GCACCAACTC 
TTCTACCGAC TACAAGCACA GAGTTCGACA TTTCTTCTTA ATCTAACTCT ACAGACAGAA 
CTTCTGGGGC AGCACTTTAC TGTAGAGTAC TGGAAGAGTG GAGGTCTGGA CTGGAAGCAT 
GAACTCTATG AGGATTGTCA CTATGTGGGT CACATTCAAG ACCAGCAGCT AAGCTCCAGG 
GTGGCCATCA GCAACTGCAA TGGCCTGCTT GGAGTTATAG TATCAGGGGA TGAGGAGTAT 
CTCATTGAAC CACTACCCGT AGGGAGCAAC TTCACCCACA ATGGTGAGGG GACTCCACAT 
GTGGTGTACA AAAGGTCATC TTTGCAACGT CAACACTTGG AGGCTGCCTG TGGGGTGATA 
GATGACAAGC CTTGGAAAGA TCGCCATTGG TGGATGCGAA ACCCAAGGCC ACCACCTCTT 
CGGCCAGGAA CCAACCAGAC ACAGCAAGGG CCCTTTCCCC TTAAGCGATC TGTTAGCACA 
GAAAGATATG TAGAGACCTT GGTTGTAGCA GATAAAATGA TGATTGGCTA CCATGGGAGG 
AGAGACATTG AACAATATAT CCTTGCTATC ATGAACATTG TTGCCAAACT TTTCCAGGAC 
TCAAGTCTGG GGAACATTGT AAACATCATG GTGACACGTT TAATTCTCTT GACAGAGGAC 
CAGCCAACAC TGGAGCTCAA TCATCATGCA GGGAAGTCAC TTGATAGCTT TTGCCGGTGG 
CAGAAATCTA TTGTAAGTCG CAACGGTAAT GCAATTTCGG AGAGTGGCAT TGCTGATCAT 
GATACAGCAG TACTTATAAC CAGATATGAC ATTTGCATTT ACAAAAACAA GCCATGTGGA 
ACACTAGGTT TGGCACCTGT GGGTGGGATG TGTGAGCGAG AGAGAAGTTG CAGTATAAAT 
GAAGACATTG GCCTAGCTAC TGCTTTCACT ATTGCACACG AGGTGGGACA CACATTTGGC 
ATGAATCATG ATGGGATTGG TAATGGCTGT GGTTCCCGAG GCCAGGAGAC AGCCAAGCTC 
ATGGCAGCGC ATATTACTAT GAAGACCAAC CCATTTGTGT GGTCAGCTTG CAGCCGGGAT 
TACATAACTA GCTTTTTAGA TTCAGGACTG GGTCTGTGTT TAAACAATGC TCCACCACGT 
CAAGACTTTA TATATCCCAC CCAAGCTCCT GGACAAGCGT ATGATGCAGA TGACCAATGT 
CGCTTCCAAC ATGGAGTTAA ATCTCGCCAG TGTAAATATG GGGAAGTTTG TAGCGAGCTG 
TGGTGTCTTA GCAAATCCGG CCGTTGCATT ACTAACAGCA TCCCTGCAGC TGAGGGGACC 
ATTTGCCAGA CAAACACAAT TGAAAAGGGG TGGTGTTATA AAAGGGAATG TGTTCCCTTT 
GGAACACGGC CAGAGGGAGT GGATGGAGCA TGGGGGTCCT GGTCTTCATG GGGAGAGTGC 
AGCAGGACCT GTGGAGGAGG GGTATCTTCA TCTGTCCGTC ACTGTGACAG CCCAAGGCCT 
ACAATTGGAG GAAAGTATTG TTTGGGTGAG AGGAAGAGAT ATCGATCATG CAATATTGAT 
GACTGCCCTG CTGGTTCACA GGATTTCCGG GAGGTGCAGT GTGCAGAGTT TGATAATGTG 
CCGTTTCGGG GGAAATATTA CTCTTGGAAA AGCTACAGAG GAGGTGGTGT TAAGTCTTGC 
TCACTTAACT GCCTAGCTGA GGGATTCAAC TTTTATACTG AGCGAGCAGC TGCTGTTATT 
GATGGGACCC TCTGCAGACA GGACTCCTAT GATATCTGTG TCAATGGCGA ATGCAAGCAT 
GTAGGCTGTG ACCGAATCTT GGGTTCTGAT ACCAAAGAAG ACAAATGTCG TGTATGTGGA 
GGAGACGGCA GCACTTGTGA GACGATTGAG GGTATCTTTA ACCAGTCCCT GCCAGAGGGA 
GGATATGAGG AAGTGGTCTG GATCCCTAAA GGCTCAGTAC ATATTGATAT CCGTCAGCTT 
AACATATCAC TCAGTTACCT AGCCTTGAAA GCAAAGGAAG GCAGTGAATA TTATATCAAC 
GGAAGGTTCC CTCCAGATAC TCCTCAAAGA TTCGATGTAG CTGGCACTAT CTTTCATTAC 
AGGAGGCCCC AGGAAGAGCC AGAATCACTG GAGGCTTTAG GGCCTACTAA TACTACACTG 
ATTGTTATGG TGGCAGTAAG AGAGGAAATA CTGCCTGGAA TACGATACAA GTTTAATGCC 
CCAATCAATC AAGTCACGCA GAACAGTTAT GCATGGTATC TAAGTTCATG GACCAAGTGC 
TCAGCCATTT GTGCTGGAGG TGTGCAACTT CAGCAGGTGC TCTGTAAAAA GTTTTCAGAT 
GGTTCCACTG TCTCTGGTGA CTTGTGTGAC CCAAGCTCCA GGATCCAGGA GAAACAGCGG 
CCGTGCAACA CTGAACCCTG CCCCCCTGAG TGGGCAATAG GTGCCTGGTC TGAGTGCAGT 
CGAAGCTGCA ATTCTGGAGT ACGCACTCGC AGTGTAATAT GTCAGCGTCG GGTGTCAGGA 
ACTGACAAGA AGTCCCTGGA TGATGCCTCC TGCCCTCAGC CTCGCCCGTC CATGCTTGAA 
CCCTGCAACA CAGACACATG TCCACCTGAA TGGGTGGCTT TGGACTGGTC TGAGTGCACC 
CCAAGCTGTG GGCCTGGGTA CAGACACCGA GTTGTTCTGT GTAAGATTGG TGACCAAGAT 
AGTACCTTAC CCCATTCTCA CTGCCAAGCT AAGGATAAAC CTGCAACAAC TATGCGCTGC 
ACCTTACAAA GATGCCCGCC ATCACGCTGG ATCACAGGTG AATGGGGAGA GTGTTCAGCT 
AATTGTGGCC TTGGGCAACA GAGACGGTCT GTGCAATGCC TGAGTCATAT AGGGCAGCCA 
TCGATAGAAT GCACAGAATC TTTTCGGCCA TCTGCAATGC AGCAGTGCGA AAATAAATGC 
CTGGCTGATC CCTCTGACAG TCCCGATGAA TGTAAGGATG TGAACAAGGT GGCGTACTGC 
CCTCTGGTGC TGAAGTTTAA ATTCTGCAGC CGACCTTACT TCAGACAGAT GTGTTGCAAA 
ACCTGCCAAG GCCACTGA

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

RefSeq	XP_017952433.2
CDS	594..3911
Translation	MAIIWGLLAWAFTLIAARTVKARVPKQHSKDFLSSLSHYEIAFPEQVDQNGNFLTYDLRQAPTSFRRPRRSLSEETEHQLFYRLQAQSSTFLLNLTLQTELLGQHFTVEYWKSGGLDWKHELYEDCHYVGHIQDQQLSSRVAISNCNGLLGVIVSGDEEYLIEPLPVGSNFTHNGEGTPHVVYKRSSLQRQHLEAACGVIDDKPWKDRHWWMRNPRPPPLRPGTNQTQQGPFPLKRSVSTERYVETLVVADKMMIGYHGRRDIEQYILAIMNIVAKLFQDSSLGNIVNIMVTRLILLTEDQPTLELNHHAGKSLDSFCRWQKSIVSRNGNAISESGIADHDTAVLITRYDICIYKNKPCGTLGLAPVGGMCERERSCSINEDIGLATAFTIAHEVGHTFGMNHDGIGNGCGSRGQETAKLMAAHITMKTNPFVWSACSRDYITSFLDSGLGLCLNNAPPRQDFIYPTQAPGQAYDADDQCRFQHGVKSRQCKYGEVCSELWCLSKSGRCITNSIPAAEGTICQTNTIEKGWCYKRECVPFGTRPEGVDGAWGSWSSWGECSRTCGGGVSSSVRHCDSPRPTIGGKYCLGERKRYRSCNIDDCPAGSQDFREVQCAEFDNVPFRGKYYSWKSYRGGGVKSCSLNCLAEGFNFYTERAAAVIDGTLCRQDSYDICVNGECKHVGCDRILGSDTKEDKCRVCGGDGSTCETIEGIFNQSLPEGGYEEVVWIPKGSVHIDIRQLNISLSYLALKAKEGSEYYINGRFPPDTPQRFDVAGTIFHYRRPQEEPESLEALGPTNTTLIVMVAVREEILPGIRYKFNAPINQVTQNSYAWYLSSWTKCSAICAGGVQLQQVLCKKFSDGSTVSGDLCDPSSRIQEKQRPCNTEPCPPEWAIGAWSECSRSCNSGVRTRSVICQRRVSGTDKKSLDDASCPQPRPSMLEPCNTDTCPPEWVALDWSECTPSCGPGYRHRVVLCKIGDQDSTLPHSHCQAKDKPATTMRCTLQRCPPSRWITGEWGECSANCGLGQQRRSVQCLSHIGQPSIECTESFRPSAMQQCENKCLADPSDSPDECKDVNKVAYCPLVLKFKFCSRPYFRQMCCKTCQGH

Target ORF information:

RefSeq Version	XM_018096944.2
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 10 (adamts10), transcript variant X3, mRNA.

Target ORF information:

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

XM_018096944.2

ORF Insert Sequence:

ATGGCAATAA TATGGGGCCT TCTGGCTTGG GCCTTTACCC TTATTGCAGC CAGGACTGTG 
AAAGCCAGAG TTCCCAAGCA GCATTCCAAA GATTTCCTCT CCAGTCTGAG CCATTATGAG 
ATCGCATTCC CGGAACAGGT GGACCAGAAT GGGAACTTCC TGACCTATGA CCTCCGTCAA 
GCCCCAACAA GTTTTCGAAG GCCCAGGAGG AGTCTTTCTG AAGAGACAGA GCACCAACTC 
TTCTACCGAC TACAAGCACA GAGTTCGACA TTTCTTCTTA ATCTAACTCT ACAGACAGAA 
CTTCTGGGGC AGCACTTTAC TGTAGAGTAC TGGAAGAGTG GAGGTCTGGA CTGGAAGCAT 
GAACTCTATG AGGATTGTCA CTATGTGGGT CACATTCAAG ACCAGCAGCT AAGCTCCAGG 
GTGGCCATCA GCAACTGCAA TGGCCTGCTT GGAGTTATAG TATCAGGGGA TGAGGAGTAT 
CTCATTGAAC CACTACCCGT AGGGAGCAAC TTCACCCACA ATGGTGAGGG GACTCCACAT 
GTGGTGTACA AAAGGTCATC TTTGCAACGT CAACACTTGG AGGCTGCCTG TGGGGTGATA 
GATGACAAGC CTTGGAAAGA TCGCCATTGG TGGATGCGAA ACCCAAGGCC ACCACCTCTT 
CGGCCAGGAA CCAACCAGAC ACAGCAAGGG CCCTTTCCCC TTAAGCGATC TGTTAGCACA 
GAAAGATATG TAGAGACCTT GGTTGTAGCA GATAAAATGA TGATTGGCTA CCATGGGAGG 
AGAGACATTG AACAATATAT CCTTGCTATC ATGAACATTG TTGCCAAACT TTTCCAGGAC 
TCAAGTCTGG GGAACATTGT AAACATCATG GTGACACGTT TAATTCTCTT GACAGAGGAC 
CAGCCAACAC TGGAGCTCAA TCATCATGCA GGGAAGTCAC TTGATAGCTT TTGCCGGTGG 
CAGAAATCTA TTGTAAGTCG CAACGGTAAT GCAATTTCGG AGAGTGGCAT TGCTGATCAT 
GATACAGCAG TACTTATAAC CAGATATGAC ATTTGCATTT ACAAAAACAA GCCATGTGGA 
ACACTAGGTT TGGCACCTGT GGGTGGGATG TGTGAGCGAG AGAGAAGTTG CAGTATAAAT 
GAAGACATTG GCCTAGCTAC TGCTTTCACT ATTGCACACG AGGTGGGACA CACATTTGGC 
ATGAATCATG ATGGGATTGG TAATGGCTGT GGTTCCCGAG GCCAGGAGAC AGCCAAGCTC 
ATGGCAGCGC ATATTACTAT GAAGACCAAC CCATTTGTGT GGTCAGCTTG CAGCCGGGAT 
TACATAACTA GCTTTTTAGA TTCAGGACTG GGTCTGTGTT TAAACAATGC TCCACCACGT 
CAAGACTTTA TATATCCCAC CCAAGCTCCT GGACAAGCGT ATGATGCAGA TGACCAATGT 
CGCTTCCAAC ATGGAGTTAA ATCTCGCCAG TGTAAATATG GGGAAGTTTG TAGCGAGCTG 
TGGTGTCTTA GCAAATCCGG CCGTTGCATT ACTAACAGCA TCCCTGCAGC TGAGGGGACC 
ATTTGCCAGA CAAACACAAT TGAAAAGGGG TGGTGTTATA AAAGGGAATG TGTTCCCTTT 
GGAACACGGC CAGAGGGAGT GGATGGAGCA TGGGGGTCCT GGTCTTCATG GGGAGAGTGC 
AGCAGGACCT GTGGAGGAGG GGTATCTTCA TCTGTCCGTC ACTGTGACAG CCCAAGGCCT 
ACAATTGGAG GAAAGTATTG TTTGGGTGAG AGGAAGAGAT ATCGATCATG CAATATTGAT 
GACTGCCCTG CTGGTTCACA GGATTTCCGG GAGGTGCAGT GTGCAGAGTT TGATAATGTG 
CCGTTTCGGG GGAAATATTA CTCTTGGAAA AGCTACAGAG GAGGTGGTGT TAAGTCTTGC 
TCACTTAACT GCCTAGCTGA GGGATTCAAC TTTTATACTG AGCGAGCAGC TGCTGTTATT 
GATGGGACCC TCTGCAGACA GGACTCCTAT GATATCTGTG TCAATGGCGA ATGCAAGCAT 
GTAGGCTGTG ACCGAATCTT GGGTTCTGAT ACCAAAGAAG ACAAATGTCG TGTATGTGGA 
GGAGACGGCA GCACTTGTGA GACGATTGAG GGTATCTTTA ACCAGTCCCT GCCAGAGGGA 
GGATATGAGG AAGTGGTCTG GATCCCTAAA GGCTCAGTAC ATATTGATAT CCGTCAGCTT 
AACATATCAC TCAGTTACCT AGCCTTGAAA GCAAAGGAAG GCAGTGAATA TTATATCAAC 
GGAAGGTTCC CTCCAGATAC TCCTCAAAGA TTCGATGTAG CTGGCACTAT CTTTCATTAC 
AGGAGGCCCC AGGAAGAGCC AGAATCACTG GAGGCTTTAG GGCCTACTAA TACTACACTG 
ATTGTTATGG TGGCAGTAAG AGAGGAAATA CTGCCTGGAA TACGATACAA GTTTAATGCC 
CCAATCAATC AAGTCACGCA GAACAGTTAT GCATGGTATC TAAGTTCATG GACCAAGTGC 
TCAGCCATTT GTGCTGGAGG TGTGCAACTT CAGCAGGTGC TCTGTAAAAA GTTTTCAGAT 
GGTTCCACTG TCTCTGGTGA CTTGTGTGAC CCAAGCTCCA GGATCCAGGA GAAACAGCGG 
CCGTGCAACA CTGAACCCTG CCCCCCTGAG TGGGCAATAG GTGCCTGGTC TGAGTGCAGT 
CGAAGCTGCA ATTCTGGAGT ACGCACTCGC AGTGTAATAT GTCAGCGTCG GGTGTCAGGA 
ACTGACAAGA AGTCCCTGGA TGATGCCTCC TGCCCTCAGC CTCGCCCGTC CATGCTTGAA 
CCCTGCAACA CAGACACATG TCCACCTGAA TGGGTGGCTT TGGACTGGTC TGAGTGCACC 
CCAAGCTGTG GGCCTGGGTA CAGACACCGA GTTGTTCTGT GTAAGATTGG TGACCAAGAT 
AGTACCTTAC CCCATTCTCA CTGCCAAGCT AAGGATAAAC CTGCAACAAC TATGCGCTGC 
ACCTTACAAA GATGCCCGCC ATCACGCTGG ATCACAGGTG AATGGGGAGA GTGTTCAGCT 
AATTGTGGCC TTGGGCAACA GAGACGGTCT GTGCAATGCC TGAGTCATAT AGGGCAGCCA 
TCGATAGAAT GCACAGAATC TTTTCGGCCA TCTGCAATGC AGCAGTGCGA AAATAAATGC 
CTGGCTGATC CCTCTGACAG TCCCGATGAA TGTAAGGATG TGAACAAGGT GGCGTACTGC 
CCTCTGGTGC TGAAGTTTAA ATTCTGCAGC CGACCTTACT TCAGACAGAT GTGTTGCAAA 
ACCTGCCAAG GCCACTGA

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

adamts10 ( XM_004910996.3 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_004911053.1 Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 10 (adamts10), transcript variant X1, mRNA.

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CloneID	OXa04301
Clone ID Related Accession (Same CDS sequence)	XM_004910996.3 , XM_018096942.1
Accession Version	XM_004910996.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3420bp) 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 10 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.1) 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_004910996.2. ##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##

ATGGTGACAC CACGAGCTGA GAATAAGAGG ACTGAAAATC ATGGCAATAA TATGGGGCCT 
TCTGGCTTGG GCCTTTACCC TTATTGCAGC CAGGACTGTG AAAGCCAGAG TTCCCAAGCA 
GCATTCCAAA GCCCAAGTCA CTGCATCGTT GGGATGACAG CAGCCAGTGA AGTCCTCTCC 
TCTGACCCAG CAGATTTCCT CTCCAGTCTG AGCCATTATG AGATCGCATT CCCGGAACAG 
GTGGACCAGA ATGGGAACTT CCTGACCTAT GACCTCCGTC AAGCCCCAAC AAGTTTTCGA 
AGGCCCAGGA GGAGTCTTTC TGAAGAGACA GAGCACCAAC TCTTCTACCG ACTACAAGCA 
CAGAGTTCGA CATTTCTTCT TAATCTAACT CTACAGACAG AACTTCTGGG GCAGCACTTT 
ACTGTAGAGT ACTGGAAGAG TGGAGGTCTG GACTGGAAGC ATGAACTCTA TGAGGATTGT 
CACTATGTGG GTCACATTCA AGACCAGCAG CTAAGCTCCA GGGTGGCCAT CAGCAACTGC 
AATGGCCTGC TTGGAGTTAT AGTATCAGGG GATGAGGAGT ATCTCATTGA ACCACTACCC 
GTAGGGAGCA ACTTCACCCA CAATGGTGAG GGGACTCCAC ATGTGGTGTA CAAAAGGTCA 
TCTTTGCAAC GTCAACACTT GGAGGCTGCC TGTGGGGTGA TAGATGACAA GCCTTGGAAA 
GATCGCCATT GGTGGATGCG AAACCCAAGG CCACCACCTC TTCGGCCAGG AACCAACCAG 
ACACAGCAAG GGCCCTTTCC CCTTAAGCGA TCTGTTAGCA CAGAAAGATA TGTAGAGACC 
TTGGTTGTAG CAGATAAAAT GATGATTGGC TACCATGGGA GGAGAGACAT TGAACAATAT 
ATCCTTGCTA TCATGAACAT TGTTGCCAAA CTTTTCCAGG ACTCAAGTCT GGGGAACATT 
GTAAACATCA TGGTGACACG TTTAATTCTC TTGACAGAGG ACCAGCCAAC ACTGGAGCTC 
AATCATCATG CAGGGAAGTC ACTTGATAGC TTTTGCCGGT GGCAGAAATC TATTGTAAGT 
CGCAACGGTA ATGCAATTTC GGAGAGTGGC ATTGCTGATC ATGATACAGC AGTACTTATA 
ACCAGATATG ACATTTGCAT TTACAAAAAC AAGCCATGTG GAACACTAGG TTTGGCACCT 
GTGGGTGGGA TGTGTGAGCG AGAGAGAAGT TGCAGTATAA ATGAAGACAT TGGCCTAGCT 
ACTGCTTTCA CTATTGCACA CGAGGTGGGA CACACATTTG GCATGAATCA TGATGGGATT 
GGTAATGGCT GTGGTTCCCG AGGCCAGGAG ACAGCCAAGC TCATGGCAGC GCATATTACT 
ATGAAGACCA ACCCATTTGT GTGGTCAGCT TGCAGCCGGG ATTACATAAC TAGCTTTTTA 
GATTCAGGAC TGGGTCTGTG TTTAAACAAT GCTCCACCAC GTCAAGACTT TATATATCCC 
ACCCAAGCTC CTGGACAAGC GTATGATGCA GATGACCAAT GTCGCTTCCA ACATGGAGTT 
AAATCTCGCC AGTGTAAATA TGGGGAAGTT TGTAGCGAGC TGTGGTGTCT TAGCAAATCC 
GGCCGTTGCA TTACTAACAG CATCCCTGCA GCTGAGGGGA CCATTTGCCA GACAAACACA 
ATTGAAAAGG GGTGGTGTTA TAAAAGGGAA TGTGTTCCCT TTGGAACACG GCCAGAGGGA 
GTGGATGGAG CATGGGGGTC CTGGTCTTCA TGGGGAGAGT GCAGCAGGAC CTGTGGAGGA 
GGGGTATCTT CATCTGTCCG TCACTGTGAC AGCCCAAGGC CTACAATTGG AGGAAAGTAT 
TGTTTGGGTG AGAGGAAGAG ATATCGATCA TGCAATATTG ATGACTGCCC TGCTGGTTCA 
CAGGATTTCC GGGAGGTGCA GTGTGCAGAG TTTGATAATG TGCCGTTTCG GGGGAAATAT 
TACTCTTGGA AAAGCTACAG AGGAGGTGGT GTTAAGTCTT GCTCACTTAA CTGCCTAGCT 
GAGGGATTCA ACTTTTATAC TGAGCGAGCA GCTGCTGTTA TTGATGGGAC CCTCTGCAGA 
CAGGACTCCT ATGATATCTG TGTCAATGGC GAATGCAAGC ATGTAGGCTG TGACCGAATC 
TTGGGTTCTG ATACCAAAGA AGACAAATGT CGTGTATGTG GAGGAGACGG CAGCACTTGT 
GAGACGATTG AGGGTATCTT TAACCAGTCC CTGCCAGAGG GAGGATATGA GGAAGTGGTC 
TGGATCCCTA AAGGCTCAGT ACATATTGAT ATCCGTCAGC TTAACATATC ACTCAGTTAC 
ATAGCCTTGA AAGCAAAGGA AGGCAGTGAA TATTATATCA ACGGAAGGTT CCCTCCAGAT 
ACTCCTCAAA GATTCGATGT AGCTGGCACT ATCTTTCATT ACAGGAGGCC CCAGGAAGAG 
CCAGAATCAC TGGAGGCTTT AGGGCCTACT AATACTACAC TGATTGTTAT GGTGGCAGTA 
AGAGAGGAAA TACTGCCTGG AATACGATAC AAGTTTAATG CCCCAATCAA TCAAGTCACG 
CAGAACAGTT ATGCATGGTA TCTCAGTTCA TGGACCAAGT GCTCAGCCAT TTGTGCTGGA 
GGTGTGCAAC TTCAGCAGGT GCTCTGTAAA AAGTTTTCAG ATGGTTCCAC TGTCTCTGGT 
GACTTGTGTG ACCCAAGCTC CAGGATCCAG GAGAAGCAGC GGCCGTGCAA CACTGAACCC 
TGCCCCCCTG AGTGGGCAAT AGGTGCCTGG TCTGAGTGCA GTCGAAGCTG CAATTCTGGA 
GTACGCACTC GCAGTGTAAT ATGTCAGCGT CGGGTGTCAG GAACTGACAA GAAGTCCCTG 
GATGATGCCT CCTGCCCTCA GCCTCGCCCG TCCATGCTTG AACCCTGCAA CACAGACACA 
TGTCCACCTG AATGGGTGGC TTTGGACTGG TCTGAGTGCA CCCCAAGCTG TGGGCCTGGG 
TACAGACACC GAGTTGTTCT GTGTAAGATT GGTGACCAAG ATAGTACCTT ACCCCATTCT 
CACTGCCAAG CTAAGGATAA ACCTGCAACA ACTATGCGCT GCACCTTACA AAGATGCCCG 
CCATCACGCT GGATCACAGG TGAATGGGGA GAGTGTTCAG CTAATTGTGG CCTTGGGCAA 
CAGAGACGGT CTGTGCAATG CCTGAGTCAT ATAGGGCAGC CATCGATAGA ATGCACAGAA 
TCTTTTCGGC CATCTGCAAT GCAGCAGTGC GAAAATAAAT GCCTGGCTGA TCCCTCTGAC 
AGTCCCGATG AATGTAAGGA TGTGAACAAG GTGGCGTACT GCCCTCTGGT GCTGAAGTTT 
AAATTCTGCA GCCGACCTTA CTTCAGACAG ATGTGTTGCA AAACCTGCCA AGGCCACTGA

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

RefSeq	XP_004911053.1
CDS	586..4005
Translation	MVTPRAENKRTENHGNNMGPSGLGLYPYCSQDCESQSSQAAFQSPSHCIVGMTAASEVLSSDPADFLSSLSHYEIAFPEQVDQNGNFLTYDLRQAPTSFRRPRRSLSEETEHQLFYRLQAQSSTFLLNLTLQTELLGQHFTVEYWKSGGLDWKHELYEDCHYVGHIQDQQLSSRVAISNCNGLLGVIVSGDEEYLIEPLPVGSNFTHNGEGTPHVVYKRSSLQRQHLEAACGVIDDKPWKDRHWWMRNPRPPPLRPGTNQTQQGPFPLKRSVSTERYVETLVVADKMMIGYHGRRDIEQYILAIMNIVAKLFQDSSLGNIVNIMVTRLILLTEDQPTLELNHHAGKSLDSFCRWQKSIVSRNGNAISESGIADHDTAVLITRYDICIYKNKPCGTLGLAPVGGMCERERSCSINEDIGLATAFTIAHEVGHTFGMNHDGIGNGCGSRGQETAKLMAAHITMKTNPFVWSACSRDYITSFLDSGLGLCLNNAPPRQDFIYPTQAPGQAYDADDQCRFQHGVKSRQCKYGEVCSELWCLSKSGRCITNSIPAAEGTICQTNTIEKGWCYKRECVPFGTRPEGVDGAWGSWSSWGECSRTCGGGVSSSVRHCDSPRPTIGGKYCLGERKRYRSCNIDDCPAGSQDFREVQCAEFDNVPFRGKYYSWKSYRGGGVKSCSLNCLAEGFNFYTERAAAVIDGTLCRQDSYDICVNGECKHVGCDRILGSDTKEDKCRVCGGDGSTCETIEGIFNQSLPEGGYEEVVWIPKGSVHIDIRQLNISLSYIALKAKEGSEYYINGRFPPDTPQRFDVAGTIFHYRRPQEEPESLEALGPTNTTLIVMVAVREEILPGIRYKFNAPINQVTQNSYAWYLSSWTKCSAICAGGVQLQQVLCKKFSDGSTVSGDLCDPSSRIQEKQRPCNTEPCPPEWAIGAWSECSRSCNSGVRTRSVICQRRVSGTDKKSLDDASCPQPRPSMLEPCNTDTCPPEWVALDWSECTPSCGPGYRHRVVLCKIGDQDSTLPHSHCQAKDKPATTMRCTLQRCPPSRWITGEWGECSANCGLGQQRRSVQCLSHIGQPSIECTESFRPSAMQQCENKCLADPSDSPDECKDVNKVAYCPLVLKFKFCSRPYFRQMCCKTCQGH

Target ORF information:

RefSeq Version	XM_004910996.3
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 10 (adamts10), transcript variant X1, mRNA.

Target ORF information:

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

XM_004910996.3

ORF Insert Sequence:

ATGGTGACAC CACGAGCTGA GAATAAGAGG ACTGAAAATC ATGGCAATAA TATGGGGCCT 
TCTGGCTTGG GCCTTTACCC TTATTGCAGC CAGGACTGTG AAAGCCAGAG TTCCCAAGCA 
GCATTCCAAA GCCCAAGTCA CTGCATCGTT GGGATGACAG CAGCCAGTGA AGTCCTCTCC 
TCTGACCCAG CAGATTTCCT CTCCAGTCTG AGCCATTATG AGATCGCATT CCCGGAACAG 
GTGGACCAGA ATGGGAACTT CCTGACCTAT GACCTCCGTC AAGCCCCAAC AAGTTTTCGA 
AGGCCCAGGA GGAGTCTTTC TGAAGAGACA GAGCACCAAC TCTTCTACCG ACTACAAGCA 
CAGAGTTCGA CATTTCTTCT TAATCTAACT CTACAGACAG AACTTCTGGG GCAGCACTTT 
ACTGTAGAGT ACTGGAAGAG TGGAGGTCTG GACTGGAAGC ATGAACTCTA TGAGGATTGT 
CACTATGTGG GTCACATTCA AGACCAGCAG CTAAGCTCCA GGGTGGCCAT CAGCAACTGC 
AATGGCCTGC TTGGAGTTAT AGTATCAGGG GATGAGGAGT ATCTCATTGA ACCACTACCC 
GTAGGGAGCA ACTTCACCCA CAATGGTGAG GGGACTCCAC ATGTGGTGTA CAAAAGGTCA 
TCTTTGCAAC GTCAACACTT GGAGGCTGCC TGTGGGGTGA TAGATGACAA GCCTTGGAAA 
GATCGCCATT GGTGGATGCG AAACCCAAGG CCACCACCTC TTCGGCCAGG AACCAACCAG 
ACACAGCAAG GGCCCTTTCC CCTTAAGCGA TCTGTTAGCA CAGAAAGATA TGTAGAGACC 
TTGGTTGTAG CAGATAAAAT GATGATTGGC TACCATGGGA GGAGAGACAT TGAACAATAT 
ATCCTTGCTA TCATGAACAT TGTTGCCAAA CTTTTCCAGG ACTCAAGTCT GGGGAACATT 
GTAAACATCA TGGTGACACG TTTAATTCTC TTGACAGAGG ACCAGCCAAC ACTGGAGCTC 
AATCATCATG CAGGGAAGTC ACTTGATAGC TTTTGCCGGT GGCAGAAATC TATTGTAAGT 
CGCAACGGTA ATGCAATTTC GGAGAGTGGC ATTGCTGATC ATGATACAGC AGTACTTATA 
ACCAGATATG ACATTTGCAT TTACAAAAAC AAGCCATGTG GAACACTAGG TTTGGCACCT 
GTGGGTGGGA TGTGTGAGCG AGAGAGAAGT TGCAGTATAA ATGAAGACAT TGGCCTAGCT 
ACTGCTTTCA CTATTGCACA CGAGGTGGGA CACACATTTG GCATGAATCA TGATGGGATT 
GGTAATGGCT GTGGTTCCCG AGGCCAGGAG ACAGCCAAGC TCATGGCAGC GCATATTACT 
ATGAAGACCA ACCCATTTGT GTGGTCAGCT TGCAGCCGGG ATTACATAAC TAGCTTTTTA 
GATTCAGGAC TGGGTCTGTG TTTAAACAAT GCTCCACCAC GTCAAGACTT TATATATCCC 
ACCCAAGCTC CTGGACAAGC GTATGATGCA GATGACCAAT GTCGCTTCCA ACATGGAGTT 
AAATCTCGCC AGTGTAAATA TGGGGAAGTT TGTAGCGAGC TGTGGTGTCT TAGCAAATCC 
GGCCGTTGCA TTACTAACAG CATCCCTGCA GCTGAGGGGA CCATTTGCCA GACAAACACA 
ATTGAAAAGG GGTGGTGTTA TAAAAGGGAA TGTGTTCCCT TTGGAACACG GCCAGAGGGA 
GTGGATGGAG CATGGGGGTC CTGGTCTTCA TGGGGAGAGT GCAGCAGGAC CTGTGGAGGA 
GGGGTATCTT CATCTGTCCG TCACTGTGAC AGCCCAAGGC CTACAATTGG AGGAAAGTAT 
TGTTTGGGTG AGAGGAAGAG ATATCGATCA TGCAATATTG ATGACTGCCC TGCTGGTTCA 
CAGGATTTCC GGGAGGTGCA GTGTGCAGAG TTTGATAATG TGCCGTTTCG GGGGAAATAT 
TACTCTTGGA AAAGCTACAG AGGAGGTGGT GTTAAGTCTT GCTCACTTAA CTGCCTAGCT 
GAGGGATTCA ACTTTTATAC TGAGCGAGCA GCTGCTGTTA TTGATGGGAC CCTCTGCAGA 
CAGGACTCCT ATGATATCTG TGTCAATGGC GAATGCAAGC ATGTAGGCTG TGACCGAATC 
TTGGGTTCTG ATACCAAAGA AGACAAATGT CGTGTATGTG GAGGAGACGG CAGCACTTGT 
GAGACGATTG AGGGTATCTT TAACCAGTCC CTGCCAGAGG GAGGATATGA GGAAGTGGTC 
TGGATCCCTA AAGGCTCAGT ACATATTGAT ATCCGTCAGC TTAACATATC ACTCAGTTAC 
ATAGCCTTGA AAGCAAAGGA AGGCAGTGAA TATTATATCA ACGGAAGGTT CCCTCCAGAT 
ACTCCTCAAA GATTCGATGT AGCTGGCACT ATCTTTCATT ACAGGAGGCC CCAGGAAGAG 
CCAGAATCAC TGGAGGCTTT AGGGCCTACT AATACTACAC TGATTGTTAT GGTGGCAGTA 
AGAGAGGAAA TACTGCCTGG AATACGATAC AAGTTTAATG CCCCAATCAA TCAAGTCACG 
CAGAACAGTT ATGCATGGTA TCTCAGTTCA TGGACCAAGT GCTCAGCCAT TTGTGCTGGA 
GGTGTGCAAC TTCAGCAGGT GCTCTGTAAA AAGTTTTCAG ATGGTTCCAC TGTCTCTGGT 
GACTTGTGTG ACCCAAGCTC CAGGATCCAG GAGAAGCAGC GGCCGTGCAA CACTGAACCC 
TGCCCCCCTG AGTGGGCAAT AGGTGCCTGG TCTGAGTGCA GTCGAAGCTG CAATTCTGGA 
GTACGCACTC GCAGTGTAAT ATGTCAGCGT CGGGTGTCAG GAACTGACAA GAAGTCCCTG 
GATGATGCCT CCTGCCCTCA GCCTCGCCCG TCCATGCTTG AACCCTGCAA CACAGACACA 
TGTCCACCTG AATGGGTGGC TTTGGACTGG TCTGAGTGCA CCCCAAGCTG TGGGCCTGGG 
TACAGACACC GAGTTGTTCT GTGTAAGATT GGTGACCAAG ATAGTACCTT ACCCCATTCT 
CACTGCCAAG CTAAGGATAA ACCTGCAACA ACTATGCGCT GCACCTTACA AAGATGCCCG 
CCATCACGCT GGATCACAGG TGAATGGGGA GAGTGTTCAG CTAATTGTGG CCTTGGGCAA 
CAGAGACGGT CTGTGCAATG CCTGAGTCAT ATAGGGCAGC CATCGATAGA ATGCACAGAA 
TCTTTTCGGC CATCTGCAAT GCAGCAGTGC GAAAATAAAT GCCTGGCTGA TCCCTCTGAC 
AGTCCCGATG AATGTAAGGA TGTGAACAAG GTGGCGTACT GCCCTCTGGT GCTGAAGTTT 
AAATTCTGCA GCCGACCTTA CTTCAGACAG ATGTGTTGCA AAACCTGCCA AGGCCACTGA

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

adamts10 ( XM_018096942.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_017952431.1 Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 10 (adamts10), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OXa04301
Clone ID Related Accession (Same CDS sequence)	XM_004910996.3 , XM_018096942.1
Accession Version	XM_018096942.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3420bp) 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 10 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.1) 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 :: 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##

ATGGTGACAC CACGAGCTGA GAATAAGAGG ACTGAAAATC ATGGCAATAA TATGGGGCCT 
TCTGGCTTGG GCCTTTACCC TTATTGCAGC CAGGACTGTG AAAGCCAGAG TTCCCAAGCA 
GCATTCCAAA GCCCAAGTCA CTGCATCGTT GGGATGACAG CAGCCAGTGA AGTCCTCTCC 
TCTGACCCAG CAGATTTCCT CTCCAGTCTG AGCCATTATG AGATCGCATT CCCGGAACAG 
GTGGACCAGA ATGGGAACTT CCTGACCTAT GACCTCCGTC AAGCCCCAAC AAGTTTTCGA 
AGGCCCAGGA GGAGTCTTTC TGAAGAGACA GAGCACCAAC TCTTCTACCG ACTACAAGCA 
CAGAGTTCGA CATTTCTTCT TAATCTAACT CTACAGACAG AACTTCTGGG GCAGCACTTT 
ACTGTAGAGT ACTGGAAGAG TGGAGGTCTG GACTGGAAGC ATGAACTCTA TGAGGATTGT 
CACTATGTGG GTCACATTCA AGACCAGCAG CTAAGCTCCA GGGTGGCCAT CAGCAACTGC 
AATGGCCTGC TTGGAGTTAT AGTATCAGGG GATGAGGAGT ATCTCATTGA ACCACTACCC 
GTAGGGAGCA ACTTCACCCA CAATGGTGAG GGGACTCCAC ATGTGGTGTA CAAAAGGTCA 
TCTTTGCAAC GTCAACACTT GGAGGCTGCC TGTGGGGTGA TAGATGACAA GCCTTGGAAA 
GATCGCCATT GGTGGATGCG AAACCCAAGG CCACCACCTC TTCGGCCAGG AACCAACCAG 
ACACAGCAAG GGCCCTTTCC CCTTAAGCGA TCTGTTAGCA CAGAAAGATA TGTAGAGACC 
TTGGTTGTAG CAGATAAAAT GATGATTGGC TACCATGGGA GGAGAGACAT TGAACAATAT 
ATCCTTGCTA TCATGAACAT TGTTGCCAAA CTTTTCCAGG ACTCAAGTCT GGGGAACATT 
GTAAACATCA TGGTGACACG TTTAATTCTC TTGACAGAGG ACCAGCCAAC ACTGGAGCTC 
AATCATCATG CAGGGAAGTC ACTTGATAGC TTTTGCCGGT GGCAGAAATC TATTGTAAGT 
CGCAACGGTA ATGCAATTTC GGAGAGTGGC ATTGCTGATC ATGATACAGC AGTACTTATA 
ACCAGATATG ACATTTGCAT TTACAAAAAC AAGCCATGTG GAACACTAGG TTTGGCACCT 
GTGGGTGGGA TGTGTGAGCG AGAGAGAAGT TGCAGTATAA ATGAAGACAT TGGCCTAGCT 
ACTGCTTTCA CTATTGCACA CGAGGTGGGA CACACATTTG GCATGAATCA TGATGGGATT 
GGTAATGGCT GTGGTTCCCG AGGCCAGGAG ACAGCCAAGC TCATGGCAGC GCATATTACT 
ATGAAGACCA ACCCATTTGT GTGGTCAGCT TGCAGCCGGG ATTACATAAC TAGCTTTTTA 
GATTCAGGAC TGGGTCTGTG TTTAAACAAT GCTCCACCAC GTCAAGACTT TATATATCCC 
ACCCAAGCTC CTGGACAAGC GTATGATGCA GATGACCAAT GTCGCTTCCA ACATGGAGTT 
AAATCTCGCC AGTGTAAATA TGGGGAAGTT TGTAGCGAGC TGTGGTGTCT TAGCAAATCC 
GGCCGTTGCA TTACTAACAG CATCCCTGCA GCTGAGGGGA CCATTTGCCA GACAAACACA 
ATTGAAAAGG GGTGGTGTTA TAAAAGGGAA TGTGTTCCCT TTGGAACACG GCCAGAGGGA 
GTGGATGGAG CATGGGGGTC CTGGTCTTCA TGGGGAGAGT GCAGCAGGAC CTGTGGAGGA 
GGGGTATCTT CATCTGTCCG TCACTGTGAC AGCCCAAGGC CTACAATTGG AGGAAAGTAT 
TGTTTGGGTG AGAGGAAGAG ATATCGATCA TGCAATATTG ATGACTGCCC TGCTGGTTCA 
CAGGATTTCC GGGAGGTGCA GTGTGCAGAG TTTGATAATG TGCCGTTTCG GGGGAAATAT 
TACTCTTGGA AAAGCTACAG AGGAGGTGGT GTTAAGTCTT GCTCACTTAA CTGCCTAGCT 
GAGGGATTCA ACTTTTATAC TGAGCGAGCA GCTGCTGTTA TTGATGGGAC CCTCTGCAGA 
CAGGACTCCT ATGATATCTG TGTCAATGGC GAATGCAAGC ATGTAGGCTG TGACCGAATC 
TTGGGTTCTG ATACCAAAGA AGACAAATGT CGTGTATGTG GAGGAGACGG CAGCACTTGT 
GAGACGATTG AGGGTATCTT TAACCAGTCC CTGCCAGAGG GAGGATATGA GGAAGTGGTC 
TGGATCCCTA AAGGCTCAGT ACATATTGAT ATCCGTCAGC TTAACATATC ACTCAGTTAC 
ATAGCCTTGA AAGCAAAGGA AGGCAGTGAA TATTATATCA ACGGAAGGTT CCCTCCAGAT 
ACTCCTCAAA GATTCGATGT AGCTGGCACT ATCTTTCATT ACAGGAGGCC CCAGGAAGAG 
CCAGAATCAC TGGAGGCTTT AGGGCCTACT AATACTACAC TGATTGTTAT GGTGGCAGTA 
AGAGAGGAAA TACTGCCTGG AATACGATAC AAGTTTAATG CCCCAATCAA TCAAGTCACG 
CAGAACAGTT ATGCATGGTA TCTCAGTTCA TGGACCAAGT GCTCAGCCAT TTGTGCTGGA 
GGTGTGCAAC TTCAGCAGGT GCTCTGTAAA AAGTTTTCAG ATGGTTCCAC TGTCTCTGGT 
GACTTGTGTG ACCCAAGCTC CAGGATCCAG GAGAAGCAGC GGCCGTGCAA CACTGAACCC 
TGCCCCCCTG AGTGGGCAAT AGGTGCCTGG TCTGAGTGCA GTCGAAGCTG CAATTCTGGA 
GTACGCACTC GCAGTGTAAT ATGTCAGCGT CGGGTGTCAG GAACTGACAA GAAGTCCCTG 
GATGATGCCT CCTGCCCTCA GCCTCGCCCG TCCATGCTTG AACCCTGCAA CACAGACACA 
TGTCCACCTG AATGGGTGGC TTTGGACTGG TCTGAGTGCA CCCCAAGCTG TGGGCCTGGG 
TACAGACACC GAGTTGTTCT GTGTAAGATT GGTGACCAAG ATAGTACCTT ACCCCATTCT 
CACTGCCAAG CTAAGGATAA ACCTGCAACA ACTATGCGCT GCACCTTACA AAGATGCCCG 
CCATCACGCT GGATCACAGG TGAATGGGGA GAGTGTTCAG CTAATTGTGG CCTTGGGCAA 
CAGAGACGGT CTGTGCAATG CCTGAGTCAT ATAGGGCAGC CATCGATAGA ATGCACAGAA 
TCTTTTCGGC CATCTGCAAT GCAGCAGTGC GAAAATAAAT GCCTGGCTGA TCCCTCTGAC 
AGTCCCGATG AATGTAAGGA TGTGAACAAG GTGGCGTACT GCCCTCTGGT GCTGAAGTTT 
AAATTCTGCA GCCGACCTTA CTTCAGACAG ATGTGTTGCA AAACCTGCCA AGGCCACTGA

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

RefSeq	XP_017952431.1
CDS	284..3703
Translation	MVTPRAENKRTENHGNNMGPSGLGLYPYCSQDCESQSSQAAFQSPSHCIVGMTAASEVLSSDPADFLSSLSHYEIAFPEQVDQNGNFLTYDLRQAPTSFRRPRRSLSEETEHQLFYRLQAQSSTFLLNLTLQTELLGQHFTVEYWKSGGLDWKHELYEDCHYVGHIQDQQLSSRVAISNCNGLLGVIVSGDEEYLIEPLPVGSNFTHNGEGTPHVVYKRSSLQRQHLEAACGVIDDKPWKDRHWWMRNPRPPPLRPGTNQTQQGPFPLKRSVSTERYVETLVVADKMMIGYHGRRDIEQYILAIMNIVAKLFQDSSLGNIVNIMVTRLILLTEDQPTLELNHHAGKSLDSFCRWQKSIVSRNGNAISESGIADHDTAVLITRYDICIYKNKPCGTLGLAPVGGMCERERSCSINEDIGLATAFTIAHEVGHTFGMNHDGIGNGCGSRGQETAKLMAAHITMKTNPFVWSACSRDYITSFLDSGLGLCLNNAPPRQDFIYPTQAPGQAYDADDQCRFQHGVKSRQCKYGEVCSELWCLSKSGRCITNSIPAAEGTICQTNTIEKGWCYKRECVPFGTRPEGVDGAWGSWSSWGECSRTCGGGVSSSVRHCDSPRPTIGGKYCLGERKRYRSCNIDDCPAGSQDFREVQCAEFDNVPFRGKYYSWKSYRGGGVKSCSLNCLAEGFNFYTERAAAVIDGTLCRQDSYDICVNGECKHVGCDRILGSDTKEDKCRVCGGDGSTCETIEGIFNQSLPEGGYEEVVWIPKGSVHIDIRQLNISLSYIALKAKEGSEYYINGRFPPDTPQRFDVAGTIFHYRRPQEEPESLEALGPTNTTLIVMVAVREEILPGIRYKFNAPINQVTQNSYAWYLSSWTKCSAICAGGVQLQQVLCKKFSDGSTVSGDLCDPSSRIQEKQRPCNTEPCPPEWAIGAWSECSRSCNSGVRTRSVICQRRVSGTDKKSLDDASCPQPRPSMLEPCNTDTCPPEWVALDWSECTPSCGPGYRHRVVLCKIGDQDSTLPHSHCQAKDKPATTMRCTLQRCPPSRWITGEWGECSANCGLGQQRRSVQCLSHIGQPSIECTESFRPSAMQQCENKCLADPSDSPDECKDVNKVAYCPLVLKFKFCSRPYFRQMCCKTCQGH

Target ORF information:

RefSeq Version	XM_018096942.1
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 10 (adamts10), transcript variant X2, mRNA.

Target ORF information:

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

XM_018096942.1

ORF Insert Sequence:

ATGGTGACAC CACGAGCTGA GAATAAGAGG ACTGAAAATC ATGGCAATAA TATGGGGCCT 
TCTGGCTTGG GCCTTTACCC TTATTGCAGC CAGGACTGTG AAAGCCAGAG TTCCCAAGCA 
GCATTCCAAA GCCCAAGTCA CTGCATCGTT GGGATGACAG CAGCCAGTGA AGTCCTCTCC 
TCTGACCCAG CAGATTTCCT CTCCAGTCTG AGCCATTATG AGATCGCATT CCCGGAACAG 
GTGGACCAGA ATGGGAACTT CCTGACCTAT GACCTCCGTC AAGCCCCAAC AAGTTTTCGA 
AGGCCCAGGA GGAGTCTTTC TGAAGAGACA GAGCACCAAC TCTTCTACCG ACTACAAGCA 
CAGAGTTCGA CATTTCTTCT TAATCTAACT CTACAGACAG AACTTCTGGG GCAGCACTTT 
ACTGTAGAGT ACTGGAAGAG TGGAGGTCTG GACTGGAAGC ATGAACTCTA TGAGGATTGT 
CACTATGTGG GTCACATTCA AGACCAGCAG CTAAGCTCCA GGGTGGCCAT CAGCAACTGC 
AATGGCCTGC TTGGAGTTAT AGTATCAGGG GATGAGGAGT ATCTCATTGA ACCACTACCC 
GTAGGGAGCA ACTTCACCCA CAATGGTGAG GGGACTCCAC ATGTGGTGTA CAAAAGGTCA 
TCTTTGCAAC GTCAACACTT GGAGGCTGCC TGTGGGGTGA TAGATGACAA GCCTTGGAAA 
GATCGCCATT GGTGGATGCG AAACCCAAGG CCACCACCTC TTCGGCCAGG AACCAACCAG 
ACACAGCAAG GGCCCTTTCC CCTTAAGCGA TCTGTTAGCA CAGAAAGATA TGTAGAGACC 
TTGGTTGTAG CAGATAAAAT GATGATTGGC TACCATGGGA GGAGAGACAT TGAACAATAT 
ATCCTTGCTA TCATGAACAT TGTTGCCAAA CTTTTCCAGG ACTCAAGTCT GGGGAACATT 
GTAAACATCA TGGTGACACG TTTAATTCTC TTGACAGAGG ACCAGCCAAC ACTGGAGCTC 
AATCATCATG CAGGGAAGTC ACTTGATAGC TTTTGCCGGT GGCAGAAATC TATTGTAAGT 
CGCAACGGTA ATGCAATTTC GGAGAGTGGC ATTGCTGATC ATGATACAGC AGTACTTATA 
ACCAGATATG ACATTTGCAT TTACAAAAAC AAGCCATGTG GAACACTAGG TTTGGCACCT 
GTGGGTGGGA TGTGTGAGCG AGAGAGAAGT TGCAGTATAA ATGAAGACAT TGGCCTAGCT 
ACTGCTTTCA CTATTGCACA CGAGGTGGGA CACACATTTG GCATGAATCA TGATGGGATT 
GGTAATGGCT GTGGTTCCCG AGGCCAGGAG ACAGCCAAGC TCATGGCAGC GCATATTACT 
ATGAAGACCA ACCCATTTGT GTGGTCAGCT TGCAGCCGGG ATTACATAAC TAGCTTTTTA 
GATTCAGGAC TGGGTCTGTG TTTAAACAAT GCTCCACCAC GTCAAGACTT TATATATCCC 
ACCCAAGCTC CTGGACAAGC GTATGATGCA GATGACCAAT GTCGCTTCCA ACATGGAGTT 
AAATCTCGCC AGTGTAAATA TGGGGAAGTT TGTAGCGAGC TGTGGTGTCT TAGCAAATCC 
GGCCGTTGCA TTACTAACAG CATCCCTGCA GCTGAGGGGA CCATTTGCCA GACAAACACA 
ATTGAAAAGG GGTGGTGTTA TAAAAGGGAA TGTGTTCCCT TTGGAACACG GCCAGAGGGA 
GTGGATGGAG CATGGGGGTC CTGGTCTTCA TGGGGAGAGT GCAGCAGGAC CTGTGGAGGA 
GGGGTATCTT CATCTGTCCG TCACTGTGAC AGCCCAAGGC CTACAATTGG AGGAAAGTAT 
TGTTTGGGTG AGAGGAAGAG ATATCGATCA TGCAATATTG ATGACTGCCC TGCTGGTTCA 
CAGGATTTCC GGGAGGTGCA GTGTGCAGAG TTTGATAATG TGCCGTTTCG GGGGAAATAT 
TACTCTTGGA AAAGCTACAG AGGAGGTGGT GTTAAGTCTT GCTCACTTAA CTGCCTAGCT 
GAGGGATTCA ACTTTTATAC TGAGCGAGCA GCTGCTGTTA TTGATGGGAC CCTCTGCAGA 
CAGGACTCCT ATGATATCTG TGTCAATGGC GAATGCAAGC ATGTAGGCTG TGACCGAATC 
TTGGGTTCTG ATACCAAAGA AGACAAATGT CGTGTATGTG GAGGAGACGG CAGCACTTGT 
GAGACGATTG AGGGTATCTT TAACCAGTCC CTGCCAGAGG GAGGATATGA GGAAGTGGTC 
TGGATCCCTA AAGGCTCAGT ACATATTGAT ATCCGTCAGC TTAACATATC ACTCAGTTAC 
ATAGCCTTGA AAGCAAAGGA AGGCAGTGAA TATTATATCA ACGGAAGGTT CCCTCCAGAT 
ACTCCTCAAA GATTCGATGT AGCTGGCACT ATCTTTCATT ACAGGAGGCC CCAGGAAGAG 
CCAGAATCAC TGGAGGCTTT AGGGCCTACT AATACTACAC TGATTGTTAT GGTGGCAGTA 
AGAGAGGAAA TACTGCCTGG AATACGATAC AAGTTTAATG CCCCAATCAA TCAAGTCACG 
CAGAACAGTT ATGCATGGTA TCTCAGTTCA TGGACCAAGT GCTCAGCCAT TTGTGCTGGA 
GGTGTGCAAC TTCAGCAGGT GCTCTGTAAA AAGTTTTCAG ATGGTTCCAC TGTCTCTGGT 
GACTTGTGTG ACCCAAGCTC CAGGATCCAG GAGAAGCAGC GGCCGTGCAA CACTGAACCC 
TGCCCCCCTG AGTGGGCAAT AGGTGCCTGG TCTGAGTGCA GTCGAAGCTG CAATTCTGGA 
GTACGCACTC GCAGTGTAAT ATGTCAGCGT CGGGTGTCAG GAACTGACAA GAAGTCCCTG 
GATGATGCCT CCTGCCCTCA GCCTCGCCCG TCCATGCTTG AACCCTGCAA CACAGACACA 
TGTCCACCTG AATGGGTGGC TTTGGACTGG TCTGAGTGCA CCCCAAGCTG TGGGCCTGGG 
TACAGACACC GAGTTGTTCT GTGTAAGATT GGTGACCAAG ATAGTACCTT ACCCCATTCT 
CACTGCCAAG CTAAGGATAA ACCTGCAACA ACTATGCGCT GCACCTTACA AAGATGCCCG 
CCATCACGCT GGATCACAGG TGAATGGGGA GAGTGTTCAG CTAATTGTGG CCTTGGGCAA 
CAGAGACGGT CTGTGCAATG CCTGAGTCAT ATAGGGCAGC CATCGATAGA ATGCACAGAA 
TCTTTTCGGC CATCTGCAAT GCAGCAGTGC GAAAATAAAT GCCTGGCTGA TCCCTCTGAC 
AGTCCCGATG AATGTAAGGA TGTGAACAAG GTGGCGTACT GCCCTCTGGT GCTGAAGTTT 
AAATTCTGCA GCCGACCTTA CTTCAGACAG ATGTGTTGCA AAACCTGCCA AGGCCACTGA

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

adamts10 ( XM_018096944.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_017952433.1 Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 10 (adamts10), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OXa04303
Clone ID Related Accession (Same CDS sequence)	XM_018096944.1
Accession Version	XM_018096944.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3318bp) 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 10 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.1) 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 :: 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##

ATGGCAATAA TATGGGGCCT TCTGGCTTGG GCCTTTACCC TTATTGCAGC CAGGACTGTG 
AAAGCCAGAG TTCCCAAGCA GCATTCCAAA GATTTCCTCT CCAGTCTGAG CCATTATGAG 
ATCGCATTCC CGGAACAGGT GGACCAGAAT GGGAACTTCC TGACCTATGA CCTCCGTCAA 
GCCCCAACAA GTTTTCGAAG GCCCAGGAGG AGTCTTTCTG AAGAGACAGA GCACCAACTC 
TTCTACCGAC TACAAGCACA GAGTTCGACA TTTCTTCTTA ATCTAACTCT ACAGACAGAA 
CTTCTGGGGC AGCACTTTAC TGTAGAGTAC TGGAAGAGTG GAGGTCTGGA CTGGAAGCAT 
GAACTCTATG AGGATTGTCA CTATGTGGGT CACATTCAAG ACCAGCAGCT AAGCTCCAGG 
GTGGCCATCA GCAACTGCAA TGGCCTGCTT GGAGTTATAG TATCAGGGGA TGAGGAGTAT 
CTCATTGAAC CACTACCCGT AGGGAGCAAC TTCACCCACA ATGGTGAGGG GACTCCACAT 
GTGGTGTACA AAAGGTCATC TTTGCAACGT CAACACTTGG AGGCTGCCTG TGGGGTGATA 
GATGACAAGC CTTGGAAAGA TCGCCATTGG TGGATGCGAA ACCCAAGGCC ACCACCTCTT 
CGGCCAGGAA CCAACCAGAC ACAGCAAGGG CCCTTTCCCC TTAAGCGATC TGTTAGCACA 
GAAAGATATG TAGAGACCTT GGTTGTAGCA GATAAAATGA TGATTGGCTA CCATGGGAGG 
AGAGACATTG AACAATATAT CCTTGCTATC ATGAACATTG TTGCCAAACT TTTCCAGGAC 
TCAAGTCTGG GGAACATTGT AAACATCATG GTGACACGTT TAATTCTCTT GACAGAGGAC 
CAGCCAACAC TGGAGCTCAA TCATCATGCA GGGAAGTCAC TTGATAGCTT TTGCCGGTGG 
CAGAAATCTA TTGTAAGTCG CAACGGTAAT GCAATTTCGG AGAGTGGCAT TGCTGATCAT 
GATACAGCAG TACTTATAAC CAGATATGAC ATTTGCATTT ACAAAAACAA GCCATGTGGA 
ACACTAGGTT TGGCACCTGT GGGTGGGATG TGTGAGCGAG AGAGAAGTTG CAGTATAAAT 
GAAGACATTG GCCTAGCTAC TGCTTTCACT ATTGCACACG AGGTGGGACA CACATTTGGC 
ATGAATCATG ATGGGATTGG TAATGGCTGT GGTTCCCGAG GCCAGGAGAC AGCCAAGCTC 
ATGGCAGCGC ATATTACTAT GAAGACCAAC CCATTTGTGT GGTCAGCTTG CAGCCGGGAT 
TACATAACTA GCTTTTTAGA TTCAGGACTG GGTCTGTGTT TAAACAATGC TCCACCACGT 
CAAGACTTTA TATATCCCAC CCAAGCTCCT GGACAAGCGT ATGATGCAGA TGACCAATGT 
CGCTTCCAAC ATGGAGTTAA ATCTCGCCAG TGTAAATATG GGGAAGTTTG TAGCGAGCTG 
TGGTGTCTTA GCAAATCCGG CCGTTGCATT ACTAACAGCA TCCCTGCAGC TGAGGGGACC 
ATTTGCCAGA CAAACACAAT TGAAAAGGGG TGGTGTTATA AAAGGGAATG TGTTCCCTTT 
GGAACACGGC CAGAGGGAGT GGATGGAGCA TGGGGGTCCT GGTCTTCATG GGGAGAGTGC 
AGCAGGACCT GTGGAGGAGG GGTATCTTCA TCTGTCCGTC ACTGTGACAG CCCAAGGCCT 
ACAATTGGAG GAAAGTATTG TTTGGGTGAG AGGAAGAGAT ATCGATCATG CAATATTGAT 
GACTGCCCTG CTGGTTCACA GGATTTCCGG GAGGTGCAGT GTGCAGAGTT TGATAATGTG 
CCGTTTCGGG GGAAATATTA CTCTTGGAAA AGCTACAGAG GAGGTGGTGT TAAGTCTTGC 
TCACTTAACT GCCTAGCTGA GGGATTCAAC TTTTATACTG AGCGAGCAGC TGCTGTTATT 
GATGGGACCC TCTGCAGACA GGACTCCTAT GATATCTGTG TCAATGGCGA ATGCAAGCAT 
GTAGGCTGTG ACCGAATCTT GGGTTCTGAT ACCAAAGAAG ACAAATGTCG TGTATGTGGA 
GGAGACGGCA GCACTTGTGA GACGATTGAG GGTATCTTTA ACCAGTCCCT GCCAGAGGGA 
GGATATGAGG AAGTGGTCTG GATCCCTAAA GGCTCAGTAC ATATTGATAT CCGTCAGCTT 
AACATATCAC TCAGTTACAT AGCCTTGAAA GCAAAGGAAG GCAGTGAATA TTATATCAAC 
GGAAGGTTCC CTCCAGATAC TCCTCAAAGA TTCGATGTAG CTGGCACTAT CTTTCATTAC 
AGGAGGCCCC AGGAAGAGCC AGAATCACTG GAGGCTTTAG GGCCTACTAA TACTACACTG 
ATTGTTATGG TGGCAGTAAG AGAGGAAATA CTGCCTGGAA TACGATACAA GTTTAATGCC 
CCAATCAATC AAGTCACGCA GAACAGTTAT GCATGGTATC TCAGTTCATG GACCAAGTGC 
TCAGCCATTT GTGCTGGAGG TGTGCAACTT CAGCAGGTGC TCTGTAAAAA GTTTTCAGAT 
GGTTCCACTG TCTCTGGTGA CTTGTGTGAC CCAAGCTCCA GGATCCAGGA GAAGCAGCGG 
CCGTGCAACA CTGAACCCTG CCCCCCTGAG TGGGCAATAG GTGCCTGGTC TGAGTGCAGT 
CGAAGCTGCA ATTCTGGAGT ACGCACTCGC AGTGTAATAT GTCAGCGTCG GGTGTCAGGA 
ACTGACAAGA AGTCCCTGGA TGATGCCTCC TGCCCTCAGC CTCGCCCGTC CATGCTTGAA 
CCCTGCAACA CAGACACATG TCCACCTGAA TGGGTGGCTT TGGACTGGTC TGAGTGCACC 
CCAAGCTGTG GGCCTGGGTA CAGACACCGA GTTGTTCTGT GTAAGATTGG TGACCAAGAT 
AGTACCTTAC CCCATTCTCA CTGCCAAGCT AAGGATAAAC CTGCAACAAC TATGCGCTGC 
ACCTTACAAA GATGCCCGCC ATCACGCTGG ATCACAGGTG AATGGGGAGA GTGTTCAGCT 
AATTGTGGCC TTGGGCAACA GAGACGGTCT GTGCAATGCC TGAGTCATAT AGGGCAGCCA 
TCGATAGAAT GCACAGAATC TTTTCGGCCA TCTGCAATGC AGCAGTGCGA AAATAAATGC 
CTGGCTGATC CCTCTGACAG TCCCGATGAA TGTAAGGATG TGAACAAGGT GGCGTACTGC 
CCTCTGGTGC TGAAGTTTAA ATTCTGCAGC CGACCTTACT TCAGACAGAT GTGTTGCAAA 
ACCTGCCAAG GCCACTGA

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

RefSeq	XP_017952433.1
CDS	626..3943
Translation	MAIIWGLLAWAFTLIAARTVKARVPKQHSKDFLSSLSHYEIAFPEQVDQNGNFLTYDLRQAPTSFRRPRRSLSEETEHQLFYRLQAQSSTFLLNLTLQTELLGQHFTVEYWKSGGLDWKHELYEDCHYVGHIQDQQLSSRVAISNCNGLLGVIVSGDEEYLIEPLPVGSNFTHNGEGTPHVVYKRSSLQRQHLEAACGVIDDKPWKDRHWWMRNPRPPPLRPGTNQTQQGPFPLKRSVSTERYVETLVVADKMMIGYHGRRDIEQYILAIMNIVAKLFQDSSLGNIVNIMVTRLILLTEDQPTLELNHHAGKSLDSFCRWQKSIVSRNGNAISESGIADHDTAVLITRYDICIYKNKPCGTLGLAPVGGMCERERSCSINEDIGLATAFTIAHEVGHTFGMNHDGIGNGCGSRGQETAKLMAAHITMKTNPFVWSACSRDYITSFLDSGLGLCLNNAPPRQDFIYPTQAPGQAYDADDQCRFQHGVKSRQCKYGEVCSELWCLSKSGRCITNSIPAAEGTICQTNTIEKGWCYKRECVPFGTRPEGVDGAWGSWSSWGECSRTCGGGVSSSVRHCDSPRPTIGGKYCLGERKRYRSCNIDDCPAGSQDFREVQCAEFDNVPFRGKYYSWKSYRGGGVKSCSLNCLAEGFNFYTERAAAVIDGTLCRQDSYDICVNGECKHVGCDRILGSDTKEDKCRVCGGDGSTCETIEGIFNQSLPEGGYEEVVWIPKGSVHIDIRQLNISLSYIALKAKEGSEYYINGRFPPDTPQRFDVAGTIFHYRRPQEEPESLEALGPTNTTLIVMVAVREEILPGIRYKFNAPINQVTQNSYAWYLSSWTKCSAICAGGVQLQQVLCKKFSDGSTVSGDLCDPSSRIQEKQRPCNTEPCPPEWAIGAWSECSRSCNSGVRTRSVICQRRVSGTDKKSLDDASCPQPRPSMLEPCNTDTCPPEWVALDWSECTPSCGPGYRHRVVLCKIGDQDSTLPHSHCQAKDKPATTMRCTLQRCPPSRWITGEWGECSANCGLGQQRRSVQCLSHIGQPSIECTESFRPSAMQQCENKCLADPSDSPDECKDVNKVAYCPLVLKFKFCSRPYFRQMCCKTCQGH

Target ORF information:

RefSeq Version	XM_018096944.1
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 10 (adamts10), transcript variant X3, mRNA.

Target ORF information:

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

XM_018096944.1

ORF Insert Sequence:

ATGGCAATAA TATGGGGCCT TCTGGCTTGG GCCTTTACCC TTATTGCAGC CAGGACTGTG 
AAAGCCAGAG TTCCCAAGCA GCATTCCAAA GATTTCCTCT CCAGTCTGAG CCATTATGAG 
ATCGCATTCC CGGAACAGGT GGACCAGAAT GGGAACTTCC TGACCTATGA CCTCCGTCAA 
GCCCCAACAA GTTTTCGAAG GCCCAGGAGG AGTCTTTCTG AAGAGACAGA GCACCAACTC 
TTCTACCGAC TACAAGCACA GAGTTCGACA TTTCTTCTTA ATCTAACTCT ACAGACAGAA 
CTTCTGGGGC AGCACTTTAC TGTAGAGTAC TGGAAGAGTG GAGGTCTGGA CTGGAAGCAT 
GAACTCTATG AGGATTGTCA CTATGTGGGT CACATTCAAG ACCAGCAGCT AAGCTCCAGG 
GTGGCCATCA GCAACTGCAA TGGCCTGCTT GGAGTTATAG TATCAGGGGA TGAGGAGTAT 
CTCATTGAAC CACTACCCGT AGGGAGCAAC TTCACCCACA ATGGTGAGGG GACTCCACAT 
GTGGTGTACA AAAGGTCATC TTTGCAACGT CAACACTTGG AGGCTGCCTG TGGGGTGATA 
GATGACAAGC CTTGGAAAGA TCGCCATTGG TGGATGCGAA ACCCAAGGCC ACCACCTCTT 
CGGCCAGGAA CCAACCAGAC ACAGCAAGGG CCCTTTCCCC TTAAGCGATC TGTTAGCACA 
GAAAGATATG TAGAGACCTT GGTTGTAGCA GATAAAATGA TGATTGGCTA CCATGGGAGG 
AGAGACATTG AACAATATAT CCTTGCTATC ATGAACATTG TTGCCAAACT TTTCCAGGAC 
TCAAGTCTGG GGAACATTGT AAACATCATG GTGACACGTT TAATTCTCTT GACAGAGGAC 
CAGCCAACAC TGGAGCTCAA TCATCATGCA GGGAAGTCAC TTGATAGCTT TTGCCGGTGG 
CAGAAATCTA TTGTAAGTCG CAACGGTAAT GCAATTTCGG AGAGTGGCAT TGCTGATCAT 
GATACAGCAG TACTTATAAC CAGATATGAC ATTTGCATTT ACAAAAACAA GCCATGTGGA 
ACACTAGGTT TGGCACCTGT GGGTGGGATG TGTGAGCGAG AGAGAAGTTG CAGTATAAAT 
GAAGACATTG GCCTAGCTAC TGCTTTCACT ATTGCACACG AGGTGGGACA CACATTTGGC 
ATGAATCATG ATGGGATTGG TAATGGCTGT GGTTCCCGAG GCCAGGAGAC AGCCAAGCTC 
ATGGCAGCGC ATATTACTAT GAAGACCAAC CCATTTGTGT GGTCAGCTTG CAGCCGGGAT 
TACATAACTA GCTTTTTAGA TTCAGGACTG GGTCTGTGTT TAAACAATGC TCCACCACGT 
CAAGACTTTA TATATCCCAC CCAAGCTCCT GGACAAGCGT ATGATGCAGA TGACCAATGT 
CGCTTCCAAC ATGGAGTTAA ATCTCGCCAG TGTAAATATG GGGAAGTTTG TAGCGAGCTG 
TGGTGTCTTA GCAAATCCGG CCGTTGCATT ACTAACAGCA TCCCTGCAGC TGAGGGGACC 
ATTTGCCAGA CAAACACAAT TGAAAAGGGG TGGTGTTATA AAAGGGAATG TGTTCCCTTT 
GGAACACGGC CAGAGGGAGT GGATGGAGCA TGGGGGTCCT GGTCTTCATG GGGAGAGTGC 
AGCAGGACCT GTGGAGGAGG GGTATCTTCA TCTGTCCGTC ACTGTGACAG CCCAAGGCCT 
ACAATTGGAG GAAAGTATTG TTTGGGTGAG AGGAAGAGAT ATCGATCATG CAATATTGAT 
GACTGCCCTG CTGGTTCACA GGATTTCCGG GAGGTGCAGT GTGCAGAGTT TGATAATGTG 
CCGTTTCGGG GGAAATATTA CTCTTGGAAA AGCTACAGAG GAGGTGGTGT TAAGTCTTGC 
TCACTTAACT GCCTAGCTGA GGGATTCAAC TTTTATACTG AGCGAGCAGC TGCTGTTATT 
GATGGGACCC TCTGCAGACA GGACTCCTAT GATATCTGTG TCAATGGCGA ATGCAAGCAT 
GTAGGCTGTG ACCGAATCTT GGGTTCTGAT ACCAAAGAAG ACAAATGTCG TGTATGTGGA 
GGAGACGGCA GCACTTGTGA GACGATTGAG GGTATCTTTA ACCAGTCCCT GCCAGAGGGA 
GGATATGAGG AAGTGGTCTG GATCCCTAAA GGCTCAGTAC ATATTGATAT CCGTCAGCTT 
AACATATCAC TCAGTTACAT AGCCTTGAAA GCAAAGGAAG GCAGTGAATA TTATATCAAC 
GGAAGGTTCC CTCCAGATAC TCCTCAAAGA TTCGATGTAG CTGGCACTAT CTTTCATTAC 
AGGAGGCCCC AGGAAGAGCC AGAATCACTG GAGGCTTTAG GGCCTACTAA TACTACACTG 
ATTGTTATGG TGGCAGTAAG AGAGGAAATA CTGCCTGGAA TACGATACAA GTTTAATGCC 
CCAATCAATC AAGTCACGCA GAACAGTTAT GCATGGTATC TCAGTTCATG GACCAAGTGC 
TCAGCCATTT GTGCTGGAGG TGTGCAACTT CAGCAGGTGC TCTGTAAAAA GTTTTCAGAT 
GGTTCCACTG TCTCTGGTGA CTTGTGTGAC CCAAGCTCCA GGATCCAGGA GAAGCAGCGG 
CCGTGCAACA CTGAACCCTG CCCCCCTGAG TGGGCAATAG GTGCCTGGTC TGAGTGCAGT 
CGAAGCTGCA ATTCTGGAGT ACGCACTCGC AGTGTAATAT GTCAGCGTCG GGTGTCAGGA 
ACTGACAAGA AGTCCCTGGA TGATGCCTCC TGCCCTCAGC CTCGCCCGTC CATGCTTGAA 
CCCTGCAACA CAGACACATG TCCACCTGAA TGGGTGGCTT TGGACTGGTC TGAGTGCACC 
CCAAGCTGTG GGCCTGGGTA CAGACACCGA GTTGTTCTGT GTAAGATTGG TGACCAAGAT 
AGTACCTTAC CCCATTCTCA CTGCCAAGCT AAGGATAAAC CTGCAACAAC TATGCGCTGC 
ACCTTACAAA GATGCCCGCC ATCACGCTGG ATCACAGGTG AATGGGGAGA GTGTTCAGCT 
AATTGTGGCC TTGGGCAACA GAGACGGTCT GTGCAATGCC TGAGTCATAT AGGGCAGCCA 
TCGATAGAAT GCACAGAATC TTTTCGGCCA TCTGCAATGC AGCAGTGCGA AAATAAATGC 
CTGGCTGATC CCTCTGACAG TCCCGATGAA TGTAAGGATG TGAACAAGGT GGCGTACTGC 
CCTCTGGTGC TGAAGTTTAA ATTCTGCAGC CGACCTTACT TCAGACAGAT GTGTTGCAAA 
ACCTGCCAAG GCCACTGA

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

PubMed

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adamts10 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:

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:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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