THSD7B cDNA ORF clone, Taeniopygia guttata(zebra finch)

Gene
Clones
gRNAs

Summary

Gene Symbol	THSD7B
Entrez Gene ID	100221327
Full Name	thrombospondin type 1 domain containing 7B
Gene Type	protein-coding
Organism	Taeniopygia guttata(zebra finch)

mRNA and Protein(s)

mRNA	Protein	Name
XM_012575018.1	XP_012430472.1	thrombospondin type-1 domain-containing protein 7B
XM_030278109.1	XP_030133969.1	thrombospondin type-1 domain-containing protein 7B isoform X2
XM_030278108.1	XP_030133968.1	thrombospondin type-1 domain-containing protein 7B isoform X1
XM_030278107.1	XP_030133967.1	thrombospondin type-1 domain-containing protein 7B isoform X1

Pathways from BioSystems
Gene Ontology

The following THSD7B gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the THSD7B 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)
OTd15724	XM_012575018.1 Latest version!	Taeniopygia guttata thrombospondin, type I, domain containing 7B (THSD7B), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00
OTd50130	XM_030278108.1 Latest version!	Taeniopygia guttata thrombospondin type 1 domain containing 7B (THSD7B), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$811.30 $1159.00
OTd50130	XM_030278107.1 Latest version!	Taeniopygia guttata thrombospondin type 1 domain containing 7B (THSD7B), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$811.30 $1159.00
OTd50131	XM_030278109.1 Latest version!	Taeniopygia guttata thrombospondin type 1 domain containing 7B (THSD7B), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$811.30 $1159.00

ORF Online Only Promotion

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

*Business Day

** 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)

THSD7B ( XM_012575018.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_012430472.1 Taeniopygia guttata thrombospondin, type I, domain containing 7B (THSD7B), mRNA.

Price & Availability↑

CloneID	OTd15724
Clone ID Related Accession (Same CDS sequence)	XM_012575018.1
Accession Version	XM_012575018.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4173bp) 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	1432483200000
Organism	Taeniopygia guttata(zebra finch)
Product	thrombospondin type-1 domain-containing protein 7B
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198920.1) 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 :: Taeniopygia guttata Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGGTATTTT GGCTACTGAT AAAGAAGACG AAGTCCAGGG CCTGCGGAGC CCCTGCCTGT 
CCCTTCGGCG AGGAGCAGCA CACCTACAGC CTCCGCCTGG GCCCCTGGGG CCAATGCCGC 
CTGCCCCATC CTAGAGACGT GGAGCTGGCG GGGAGGACTA TGCTGGATTT GGGGTCGGAC 
TCCGGAGAGC GAAGCACCGC CGGCCTTGCC GGGGAGGTGG AGATCGGCTA CCAGACGCGG 
CAGGTCAGGT GCGTGAGGAG CGATGGGAAG CACGCGGCGC TCAGCCTCTG CCTGCAAGAC 
CCCGTGGCCG CCGTGACCTC CAGGTCCTGT GTGATGCCCA AGGACTGCGC CACGTCCGAG 
TGGTCCCCGT GGAGCCCCTG CTCGCGCAGC TGCGGCTGGG CCAGCGTGGC CGCGGGGCTG 
CGCAGCCGCC GCCGCCGCGT GCGCAGCGTG GCCGTGGGCG CCGGAGAACC CTGCCCGCAG 
CTGGAGGAGA GGGAAGCGTG CAGTGGAGGA GGGAAGGCAC CGCTGCAGCC CTGCCCCAGG 
TTTGCCTGGA GGACCTCTGA ATGGAAAGCT TGCCAAGTGT CTCTGCTCCT GGACCAGCAG 
GACCCTCAGC AGCAGAAGCA GGCAGGGCTC TGTGGAGGTG GGATCCAAAC CCGGGTGGTC 
TACTGTGCCC AGATCGTCGT GGAGCTGGGG ACACACCGGC CGAAGGAGGT TGCCAGACCA 
GTGGATGGGA AGCTTTGCCC GGGTCCTGCC CCTGCCAGCT CCCAGCTGTG TCACCTGCCG 
TGCCTGGCTG AGTGTGCTGT GTCCCCGTGG TCACCGTGGG GTCCCTGCCT GCCCGAGAGC 
TGCCAGCACC ACCACGGAGG GAGAGGCTTT AGGATGAGAC AGAGGCAGGT GGTGGTGGAT 
CCTGTGGGCA CCCTGGCGGG TTGTCCTCAT TTGGTGGAGT CCATTCCTTG TGAAGACGCG 
CGGTGTCACG AGTGGGAGGT GTCAGAGGGG ACCTGTGTGA CCGACCGAGG GAAGTGTGGG 
CCTGGTCACC GTGTCCTGAA GGCTGTCTGC AAGAGCAGGA AAGGTGAAGA AGTTCCACAT 
CACCTCTGCT CAGAGCTCCC CCGTCCCGAG GTGGTGGCTT GTGAAGTCCC CTGTGCCAGG 
GACTGTGTGC TCAGCGAGTG GTCCCCGTGG TCCCCCTGCT CCCACTCCTG CTCCAGCAAA 
AACGCCGAGG GCACTCAAAG CAGGAGCAGG TCCATCCTGG CCCTTCCAGC TGAGGGTGGA 
AAAGCCTGTC CCCCTGAGCG AGCCCTGCAG GAGCAGCGTG CCTGCAACGA GCACCTGTGT 
GTGCATTTCT TCTGGGAAGT GTCCCCCTGG AGCTCCTGCT CCGAGGACGT GCTGGGCACC 
GCTCTCAATG CCACCTCCAG CTGGAGCGGG GATGCCGCCT GCGGGGTGGG CATCCAGACA 
CGGAGAGTCT CCTGCAGGAA GAGCAGCTCT GGCCAGGTCA CTCCCAAAAG GTGTCCGGAG 
TCCATCCGGC CTGAGGCGGT GCGGCCGTGT CTCCTCCCCT GCAGGAAGGA CTGTGTTGTT 
ACACTGTTCA GTGAGTGGAC ACCCTGCCCC ACAGCCTGCC AGCCTGGCAA TGCCACTGCA 
GTTAAGCAGT CCCGGTACAG GATTATCCTT CAGGATTCTG CCAGTGGGGG ACAGGCATGT 
CCAGACACCT TGTATGAGGA AAGAGAATGT GAAGATGTTC CCATCTGTCC AGTGTATAGG 
TGGAGGAGCC ACCGCTGGAG CCCCTGTGTG CTGGTGCCAG CCTCGGTGCG CCAGGGCCAG 
CCGGGGCAGA GCGAGCCGTG TGGGCACGGG CTGCAGTCCA GGGCTGTGAC GTGCCTGTCG 
GAGCAGGGGG GCTCTGCCAC CGTCGGGGAC TGCGTGCAGT GGGCAGGAGC GATGCCAGCC 
CTCGTCCAGG AGTGCCTCAT TCCCTGCAAG GACGACTGCA CTTTCACCCC CTGGTCAAAA 
TTCACAGCCT GCTCCTCTGA CTGTGACACA ACCAGGAGCA GGAGGCGGTC ACTCACAGGG 
CGAAGCAGAA AGCGAGACAA ATGCCAGAAC ACGGAAGTTT ATCCCCAAGT TGAGACAGAG 
CCGTGCCCCT GCGAGGCCTT CACCTCCCAG CCCCATGGAA ATTGGTCTGA CTGCATCCTC 
AGGGGGGCTC CATCCGAGCT GCAGCCGGGA ATGCCGGCCC GGGCAGGGGC CAGGGAGTGT 
GGCCAGGGCG TGCGGCTGCG AGCCATCGCC TGCTACGACA GCGCCGGCAC ACTGGTCGAG 
CCATCTCGCT GTAGCACTTC GGGTTACATT GAAGAGCCTT GCACGGTCCC GTGCCCGTTT 
GATTGCAAAT TAAGCGATTG GTCCAGTTGG TCTCCTTGCA GCTCTTCCTG TGGCCCGGGG 
GTGAGAGTCC GATCCAAGTG GCTCAAGGAG AAGCCCTACA ATGGAGGTCG TCCCTGCCCC 
AAGCTGGACC TCAGGAATCA GGCTCAGGTG CACGAGGCAG TCCCATGCTA CAGTGAGTGC 
AATCTGTATT CCTGGGAAGT AGGACCATGG TCTCCATGCA AAATCAACAG TGAACAAAAT 
TCCCTCCACT GTGGAGAAGG AATACAAACG AGGGAAGTCA GGTGTGTGAG CACTGCTGAG 
GACCACGGTG TGGAGACTGT GCCCAACACT CTGTGCAGTC AGGCTGAGGT CCCAGAGGCA 
GTGCAGAAGT GTACCTTGTA CTGTCCCAGT GAGTGTGCAG TGTCTGACTG GGGACAGTGG 
AGCCCGTGCC CACAGGTGTG TGACCCCAAC ATTATGCAAA TCCGAACCCG ACAAGTGCTG 
AGGCCTCCTG TCAGTTCCAA GCCCTGCCCT GAAGTTTCAC AAATGAAGCC ATGTATTCTT 
AATCAAAATT GCTTCCAATA CCAGTACAAC CTAACAGGCT GGAGCGGGTG CCAGCTGGGT 
GCCAATGCCA CCTGCGGTCA CGGGCAGCGC CGCCGCCTCC TGAGCTGCCG GCGCAGCGAC 
GGGGCCACCG TCAGCATGCA GCTGTGCCAG CGGCTGCACC TGGAGAAGCC CGTGCCCACG 
AGCAGCCGGT GCGTGGTGGG GTGTGCCGTG GACTGCCAGC TCTCGCCGTG GTCAGCCTGG 
TCGCAGTGCT CCCACACGTG TGGCGCCGGC GGCCAGATGG TGCGTGGGCG CTCCGTGGTG 
CTGCGGGCAG CGGGCGAGGG CAGAGCCTGC CCAGAGCAGC TCACCCAGCA CAGGAGCTGC 
CCAGTGAAGC CCTGCTACAG CTGGCTGCTG GGGCCCTGGT CTCCCTGCAC TGTCCAGGGT 
GGACAGTGTG GAGATGGATT GCAAGTCCGC AACCTCACGT GTGTAGTGCA CGATGCATCA 
GCTTCTGCTA CATCCAAACC AGTAGAAAAT GCATTGTGTG GTGAGCTACC ATTGAAAGAA 
AGTGTGCTGC AGTTACCCTG CTCTGTGCCT TGCCCAGGCG ACTGCCACCT GACAGAGTGG 
TCAGAGTGGA GCTCCTGTGA GCTCACCTGC ATCAGTGGCA GGAGCTTTGA GAGCACCGGG 
CGCCAGTCTC GGTCCAGGGC CTTCATCGTG CAGGCTGCAG AGAACCAGGA GAGCTGCTCG 
GGACAGGAGA TGGAGACACG GCCCTGCTCA GGAGGGAAAT GTTACGACTA CGTGTGGCAA 
AGCAGCCTTT GGCGGGACAA CGTGCGCACG GTGTGGTGTC AGCGCTCGGA TGGAGTGAAT 
GTCACAGGAG GGTGTTCTCT TCGGACAAAA CCTGCCGAAG TCCGGCACTG CAGCCCGCCG 
TGCAGAAAAC CCTTCTCCTA CTGCACACAG AGAGGAGTCT GCAGCTGTGA GCGGGGATAC 
ACAGAAGTAA TGAGATCAAA TGGGCTCCTG GATTACTGCG TGAAGGTACC AGGTTTAGAA 
GATAAGAAAG CTGATGTTAA GACCATTGCC GGAAAAAATA AACCTGTCAA CTCCAAAATG 
CATGACATTT TCAAAGGATG GTCTATTCAA CCTTTTAATC CAGATGGTAA ACTGAAGATA 
TGGGTATATG GAGTATCAGC TGGAGGGTTC TTCATCATCA TTTTCCTGAT TTTTACATCC 
TACCTGATGT GCAAAAAAAC AAAACAGCAT CAAAGCCCTC CACCACAGCA GAAGCCTCTA 
ACCCTGGCCT ATGATGGAGA CATTGATATG TAA

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

RefSeq	XP_012430472.1
CDS	1..4173
Translation	MVFWLLIKKTKSRACGAPACPFGEEQHTYSLRLGPWGQCRLPHPRDVELAGRTMLDLGSDSGERSTAGLAGEVEIGYQTRQVRCVRSDGKHAALSLCLQDPVAAVTSRSCVMPKDCATSEWSPWSPCSRSCGWASVAAGLRSRRRRVRSVAVGAGEPCPQLEEREACSGGGKAPLQPCPRFAWRTSEWKACQVSLLLDQQDPQQQKQAGLCGGGIQTRVVYCAQIVVELGTHRPKEVARPVDGKLCPGPAPASSQLCHLPCLAECAVSPWSPWGPCLPESCQHHHGGRGFRMRQRQVVVDPVGTLAGCPHLVESIPCEDARCHEWEVSEGTCVTDRGKCGPGHRVLKAVCKSRKGEEVPHHLCSELPRPEVVACEVPCARDCVLSEWSPWSPCSHSCSSKNAEGTQSRSRSILALPAEGGKACPPERALQEQRACNEHLCVHFFWEVSPWSSCSEDVLGTALNATSSWSGDAACGVGIQTRRVSCRKSSSGQVTPKRCPESIRPEAVRPCLLPCRKDCVVTLFSEWTPCPTACQPGNATAVKQSRYRIILQDSASGGQACPDTLYEERECEDVPICPVYRWRSHRWSPCVLVPASVRQGQPGQSEPCGHGLQSRAVTCLSEQGGSATVGDCVQWAGAMPALVQECLIPCKDDCTFTPWSKFTACSSDCDTTRSRRRSLTGRSRKRDKCQNTEVYPQVETEPCPCEAFTSQPHGNWSDCILRGAPSELQPGMPARAGARECGQGVRLRAIACYDSAGTLVEPSRCSTSGYIEEPCTVPCPFDCKLSDWSSWSPCSSSCGPGVRVRSKWLKEKPYNGGRPCPKLDLRNQAQVHEAVPCYSECNLYSWEVGPWSPCKINSEQNSLHCGEGIQTREVRCVSTAEDHGVETVPNTLCSQAEVPEAVQKCTLYCPSECAVSDWGQWSPCPQVCDPNIMQIRTRQVLRPPVSSKPCPEVSQMKPCILNQNCFQYQYNLTGWSGCQLGANATCGHGQRRRLLSCRRSDGATVSMQLCQRLHLEKPVPTSSRCVVGCAVDCQLSPWSAWSQCSHTCGAGGQMVRGRSVVLRAAGEGRACPEQLTQHRSCPVKPCYSWLLGPWSPCTVQGGQCGDGLQVRNLTCVVHDASASATSKPVENALCGELPLKESVLQLPCSVPCPGDCHLTEWSEWSSCELTCISGRSFESTGRQSRSRAFIVQAAENQESCSGQEMETRPCSGGKCYDYVWQSSLWRDNVRTVWCQRSDGVNVTGGCSLRTKPAEVRHCSPPCRKPFSYCTQRGVCSCERGYTEVMRSNGLLDYCVKVPGLEDKKADVKTIAGKNKPVNSKMHDIFKGWSIQPFNPDGKLKIWVYGVSAGGFFIIIFLIFTSYLMCKKTKQHQSPPPQQKPLTLAYDGDIDM

Target ORF information:

RefSeq Version	XM_012575018.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata thrombospondin, type I, domain containing 7B (THSD7B), mRNA.

Target ORF information:

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

XM_012575018.1

ORF Insert Sequence:

ATGGTATTTT GGCTACTGAT AAAGAAGACG AAGTCCAGGG CCTGCGGAGC CCCTGCCTGT 
CCCTTCGGCG AGGAGCAGCA CACCTACAGC CTCCGCCTGG GCCCCTGGGG CCAATGCCGC 
CTGCCCCATC CTAGAGACGT GGAGCTGGCG GGGAGGACTA TGCTGGATTT GGGGTCGGAC 
TCCGGAGAGC GAAGCACCGC CGGCCTTGCC GGGGAGGTGG AGATCGGCTA CCAGACGCGG 
CAGGTCAGGT GCGTGAGGAG CGATGGGAAG CACGCGGCGC TCAGCCTCTG CCTGCAAGAC 
CCCGTGGCCG CCGTGACCTC CAGGTCCTGT GTGATGCCCA AGGACTGCGC CACGTCCGAG 
TGGTCCCCGT GGAGCCCCTG CTCGCGCAGC TGCGGCTGGG CCAGCGTGGC CGCGGGGCTG 
CGCAGCCGCC GCCGCCGCGT GCGCAGCGTG GCCGTGGGCG CCGGAGAACC CTGCCCGCAG 
CTGGAGGAGA GGGAAGCGTG CAGTGGAGGA GGGAAGGCAC CGCTGCAGCC CTGCCCCAGG 
TTTGCCTGGA GGACCTCTGA ATGGAAAGCT TGCCAAGTGT CTCTGCTCCT GGACCAGCAG 
GACCCTCAGC AGCAGAAGCA GGCAGGGCTC TGTGGAGGTG GGATCCAAAC CCGGGTGGTC 
TACTGTGCCC AGATCGTCGT GGAGCTGGGG ACACACCGGC CGAAGGAGGT TGCCAGACCA 
GTGGATGGGA AGCTTTGCCC GGGTCCTGCC CCTGCCAGCT CCCAGCTGTG TCACCTGCCG 
TGCCTGGCTG AGTGTGCTGT GTCCCCGTGG TCACCGTGGG GTCCCTGCCT GCCCGAGAGC 
TGCCAGCACC ACCACGGAGG GAGAGGCTTT AGGATGAGAC AGAGGCAGGT GGTGGTGGAT 
CCTGTGGGCA CCCTGGCGGG TTGTCCTCAT TTGGTGGAGT CCATTCCTTG TGAAGACGCG 
CGGTGTCACG AGTGGGAGGT GTCAGAGGGG ACCTGTGTGA CCGACCGAGG GAAGTGTGGG 
CCTGGTCACC GTGTCCTGAA GGCTGTCTGC AAGAGCAGGA AAGGTGAAGA AGTTCCACAT 
CACCTCTGCT CAGAGCTCCC CCGTCCCGAG GTGGTGGCTT GTGAAGTCCC CTGTGCCAGG 
GACTGTGTGC TCAGCGAGTG GTCCCCGTGG TCCCCCTGCT CCCACTCCTG CTCCAGCAAA 
AACGCCGAGG GCACTCAAAG CAGGAGCAGG TCCATCCTGG CCCTTCCAGC TGAGGGTGGA 
AAAGCCTGTC CCCCTGAGCG AGCCCTGCAG GAGCAGCGTG CCTGCAACGA GCACCTGTGT 
GTGCATTTCT TCTGGGAAGT GTCCCCCTGG AGCTCCTGCT CCGAGGACGT GCTGGGCACC 
GCTCTCAATG CCACCTCCAG CTGGAGCGGG GATGCCGCCT GCGGGGTGGG CATCCAGACA 
CGGAGAGTCT CCTGCAGGAA GAGCAGCTCT GGCCAGGTCA CTCCCAAAAG GTGTCCGGAG 
TCCATCCGGC CTGAGGCGGT GCGGCCGTGT CTCCTCCCCT GCAGGAAGGA CTGTGTTGTT 
ACACTGTTCA GTGAGTGGAC ACCCTGCCCC ACAGCCTGCC AGCCTGGCAA TGCCACTGCA 
GTTAAGCAGT CCCGGTACAG GATTATCCTT CAGGATTCTG CCAGTGGGGG ACAGGCATGT 
CCAGACACCT TGTATGAGGA AAGAGAATGT GAAGATGTTC CCATCTGTCC AGTGTATAGG 
TGGAGGAGCC ACCGCTGGAG CCCCTGTGTG CTGGTGCCAG CCTCGGTGCG CCAGGGCCAG 
CCGGGGCAGA GCGAGCCGTG TGGGCACGGG CTGCAGTCCA GGGCTGTGAC GTGCCTGTCG 
GAGCAGGGGG GCTCTGCCAC CGTCGGGGAC TGCGTGCAGT GGGCAGGAGC GATGCCAGCC 
CTCGTCCAGG AGTGCCTCAT TCCCTGCAAG GACGACTGCA CTTTCACCCC CTGGTCAAAA 
TTCACAGCCT GCTCCTCTGA CTGTGACACA ACCAGGAGCA GGAGGCGGTC ACTCACAGGG 
CGAAGCAGAA AGCGAGACAA ATGCCAGAAC ACGGAAGTTT ATCCCCAAGT TGAGACAGAG 
CCGTGCCCCT GCGAGGCCTT CACCTCCCAG CCCCATGGAA ATTGGTCTGA CTGCATCCTC 
AGGGGGGCTC CATCCGAGCT GCAGCCGGGA ATGCCGGCCC GGGCAGGGGC CAGGGAGTGT 
GGCCAGGGCG TGCGGCTGCG AGCCATCGCC TGCTACGACA GCGCCGGCAC ACTGGTCGAG 
CCATCTCGCT GTAGCACTTC GGGTTACATT GAAGAGCCTT GCACGGTCCC GTGCCCGTTT 
GATTGCAAAT TAAGCGATTG GTCCAGTTGG TCTCCTTGCA GCTCTTCCTG TGGCCCGGGG 
GTGAGAGTCC GATCCAAGTG GCTCAAGGAG AAGCCCTACA ATGGAGGTCG TCCCTGCCCC 
AAGCTGGACC TCAGGAATCA GGCTCAGGTG CACGAGGCAG TCCCATGCTA CAGTGAGTGC 
AATCTGTATT CCTGGGAAGT AGGACCATGG TCTCCATGCA AAATCAACAG TGAACAAAAT 
TCCCTCCACT GTGGAGAAGG AATACAAACG AGGGAAGTCA GGTGTGTGAG CACTGCTGAG 
GACCACGGTG TGGAGACTGT GCCCAACACT CTGTGCAGTC AGGCTGAGGT CCCAGAGGCA 
GTGCAGAAGT GTACCTTGTA CTGTCCCAGT GAGTGTGCAG TGTCTGACTG GGGACAGTGG 
AGCCCGTGCC CACAGGTGTG TGACCCCAAC ATTATGCAAA TCCGAACCCG ACAAGTGCTG 
AGGCCTCCTG TCAGTTCCAA GCCCTGCCCT GAAGTTTCAC AAATGAAGCC ATGTATTCTT 
AATCAAAATT GCTTCCAATA CCAGTACAAC CTAACAGGCT GGAGCGGGTG CCAGCTGGGT 
GCCAATGCCA CCTGCGGTCA CGGGCAGCGC CGCCGCCTCC TGAGCTGCCG GCGCAGCGAC 
GGGGCCACCG TCAGCATGCA GCTGTGCCAG CGGCTGCACC TGGAGAAGCC CGTGCCCACG 
AGCAGCCGGT GCGTGGTGGG GTGTGCCGTG GACTGCCAGC TCTCGCCGTG GTCAGCCTGG 
TCGCAGTGCT CCCACACGTG TGGCGCCGGC GGCCAGATGG TGCGTGGGCG CTCCGTGGTG 
CTGCGGGCAG CGGGCGAGGG CAGAGCCTGC CCAGAGCAGC TCACCCAGCA CAGGAGCTGC 
CCAGTGAAGC CCTGCTACAG CTGGCTGCTG GGGCCCTGGT CTCCCTGCAC TGTCCAGGGT 
GGACAGTGTG GAGATGGATT GCAAGTCCGC AACCTCACGT GTGTAGTGCA CGATGCATCA 
GCTTCTGCTA CATCCAAACC AGTAGAAAAT GCATTGTGTG GTGAGCTACC ATTGAAAGAA 
AGTGTGCTGC AGTTACCCTG CTCTGTGCCT TGCCCAGGCG ACTGCCACCT GACAGAGTGG 
TCAGAGTGGA GCTCCTGTGA GCTCACCTGC ATCAGTGGCA GGAGCTTTGA GAGCACCGGG 
CGCCAGTCTC GGTCCAGGGC CTTCATCGTG CAGGCTGCAG AGAACCAGGA GAGCTGCTCG 
GGACAGGAGA TGGAGACACG GCCCTGCTCA GGAGGGAAAT GTTACGACTA CGTGTGGCAA 
AGCAGCCTTT GGCGGGACAA CGTGCGCACG GTGTGGTGTC AGCGCTCGGA TGGAGTGAAT 
GTCACAGGAG GGTGTTCTCT TCGGACAAAA CCTGCCGAAG TCCGGCACTG CAGCCCGCCG 
TGCAGAAAAC CCTTCTCCTA CTGCACACAG AGAGGAGTCT GCAGCTGTGA GCGGGGATAC 
ACAGAAGTAA TGAGATCAAA TGGGCTCCTG GATTACTGCG TGAAGGTACC AGGTTTAGAA 
GATAAGAAAG CTGATGTTAA GACCATTGCC GGAAAAAATA AACCTGTCAA CTCCAAAATG 
CATGACATTT TCAAAGGATG GTCTATTCAA CCTTTTAATC CAGATGGTAA ACTGAAGATA 
TGGGTATATG GAGTATCAGC TGGAGGGTTC TTCATCATCA TTTTCCTGAT TTTTACATCC 
TACCTGATGT GCAAAAAAAC AAAACAGCAT CAAAGCCCTC CACCACAGCA GAAGCCTCTA 
ACCCTGGCCT ATGATGGAGA CATTGATATG TAA

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

THSD7B ( XM_030278108.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030133968.1 Taeniopygia guttata thrombospondin type 1 domain containing 7B (THSD7B), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OTd50130
Clone ID Related Accession (Same CDS sequence)	XM_030278108.1 , XM_030278107.1
Accession Version	XM_030278108.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4800bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	1565193600000
Organism	Taeniopygia guttata(zebra finch)
Product	thrombospondin type-1 domain-containing protein 7B isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044219.1) 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 Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCTTCTAC AACAGAACTG GGTTTCTCCT CATAGGGCAT GGCAGAGCCT GGGGAAGCCC 
TTCCTTTTGT TTGTTTTCTT AATGTTGCAA ACAGCTGATC TGCAAGCCAG GAGAGGTCAC 
CAGTTTGTCT GGAAAACAGG TCACTGGGGC CGCTGCATCG GGGACTGCGG CTCGGGCGGC 
GTTCGCAGCC GGGCCGTCTG GTGCACCCAC GCCGAGGGCT GGACCACGTT CCACGCCAAC 
TGCGACCAGC AGGACAAGCC CGAGAGCCAG CGGAGGTGCT TTAAAGTCTG CGACTGGCAC 
CTGGAGCTGT TCGAGTGGGA GGTTTCGGGA TGGGACAGGT GCGGGCTGGT CCCGGCTGCG 
GGCGCTGAGG CCGGAGCCGA GGTTTGTGTG ACGGCTCAGC ACGGGCTGCA GCGCCGCAGC 
GTCCGCTGCC TGCACAAGCT GAACGGGACG GCGGTGTCCG GCGAGATCTG TGAGTATTTC 
ACGCCGCAGC CGCCGGCCGA GCAGGCCTGC CTGGTGCCGT GCCCGCGGGA CTGCGTGGTG 
TCGCAGTTCT CGGCCTGGTC CCCGTGCGGC GCGGGCTGCG CCCGGGGCCT GCAGCACCGC 
ACGCGGGCCG TCCTCGCCCC GCCGCTCTAC GGCGGAGCGC CCTGCCCCAG CCTGAGCGAG 
TCCAGGGCCT GCGGAGCCCC TGCCTGTCCC CTCGGCGAGG AGCAGCACAC CTACAGCCTC 
CGCCTGGGCC CCTGGGGCCA ATGCCGCCTG CCCCATCCTA GAGACGCGGA GCTGGCGGGG 
AGGACTATGC TGGATTTGGG GTCGGACTCT GGAGAGCGAA GCACCGCCGG CCTTGCCGGG 
GAGGTGGAGA TCGGCTACCA GACGCGGCAG GTCAGGTGCG TGAGGAGCGA TGGAAAGCAC 
GCGGCGCTCA GCCTCTGCCT GCAAGACCCC GTGGCCGCCG TGACCTCCAG GTCCTGTGTG 
ATGCCCAAGG ACTGCGCCAC GTCCGAGTGG TCCCCGTGGA GCCCCTGCTC GCGCAGCTGC 
GGCTGGGCCA GCGTGGCCGC GGGGCTGCGC AGCCGCCGCC GCCGCGTGCG CAGCGTGGCC 
GTGGGCGCCG GAGAACCCTG CCCGCAGCTG GAGGAGAGGG AAGCGTGCAG TGGAGGAGGG 
AAGGCACCGC TGCAGCCCTG CCCCAGGTTT GCCTGGAGGA CCTCTGAATG GAAAGCTTGC 
CAAGTGTCTC TGCTCCTGGA CCAGCAGGAC CCTCAGCAGC AGAAGCAGGC AGGGCTCTGT 
GGAGGTGGGA TCCAAACCCG GGTGGTCTAC TGTGCCCAGA TCGTCGTGGA GCTGGGGACA 
CACCGGCCGA AGGAGGTTGC CAGACCAGTG GATGGGAAGC TTTGCCCGGG TCCTGCCCCT 
GCCAGCTCCC AGCTGTGTCA CCTGCCGTGC CTGGCTGAGT GTGCTGTGTC CCCGTGGTCA 
CCGTGGGGTC CCTGCCTGCC CGAGAGCTGC CAGCACCACC ACGGAGGGAG AGGCTTTAGG 
ATGAGACAGA GGCAGGTGGT GGTGGATCCT GTGGGCACCC TGGCAGGTTG TCCTCATTTG 
GTGGAGTCCA TTCCTTGTGA AGACGCGCGG TGCCACGAGT GGGAGGTGTC AGAGGGGACC 
TGTGTGACCG ACCGAGGGAA GTGTGGGCCT GGTCACCGTG TCCTGAAGGC TGTCTGTAAG 
AGCAGGAAAG GTGAAGAAGT TCCACATCAC CTCTGCTCAG AGCTCCCCCG TCCCGAGGTG 
GTGGCTTGTG AAGTCCCCTG TGCCAGGGAC TGTGTGCTCA GCGAGTGGTC CCCGTGGTCC 
CCCTGCTCCC ACTCCTGCTC CAGCAAAAAC GCCGAGGGCA CTCAAAGCAG GAGCAGGTCC 
ATCCTGGCCC TTCCAGCTGA GGGTGGAAAA GCCTGTCCCC CTGAGCGAGC CCTGCAGGAG 
CAGCGTGCCT GCAACGAGCA CCTGTGTGTG CATTTCTTCT GGGAAGTGTC CCCCTGGAGC 
TCCTGCTCCG AGGACGTGCT GGGCACCGCT CTCAATGCCA CCTCCAGCTG GAACGGGGAT 
GCCACCTGCG GGGTGGGCAT CCAGACACGG AGAGTCTCCT GCAGGAAGAG CAGCTCTGGC 
CAGGTCACTC CCAAAAGGTG TCCGGAGTCC ATCCGGCCCG AGGCGGTGCG GCCGTGTCTC 
CTCCCCTGCA GGAAGGACTG TGTTGTTACA CTGTTCAGTG AGTGGACACC CTGCCCCACA 
GCCTGCCAGC CTGGCAATGC CACTGCAGTT AAGCAGTCCC GGTACAGGAT TATCCTTCAG 
GATCCTGCCA GTGGGGGACA GGCATGTCCA GACACCTTGT ATGAGGAAAG AGAATGTGAA 
GATGTTCCCA TCTGTCCAGT GTATAGGTGG AGGAGCCACC GCTGGAGCCC CTGTGTGCTG 
GTGCCAGCCT CGGTGCGCCA GGGCCAGCCG GGGCAGAGCG AGCCGTGTGG GCACGGGCTG 
CAGTCCAGGG CTGTGACGTG CCTGTCGGAG CAGGGGGGCT CTGCCACCGT CGGGGACTGC 
GTGCAGTGGG CAGGAGCGAT GCCAGCCCTC GTCCAGGAGT GCCTCATTCC CTGCAAGGAC 
GACTGCACTT TCACCCCCTG GTCTAAATTC ACAGCCTGCT CCTCTGACTG TGACACAACC 
AGGAGCAGGA GGCGGTCACT CACAGGGCGA AGCAGAAAGC GAGACAAATG CCAGAACACG 
GAAGTTTATC CCCAAGTTGA GACAGAGCCG TGCCCCTGCG AGGCCTTCAC CTCCCAGCCC 
CATGGAAATT GGTCTGAGTG CATCATCAGG GGGGCTCCAT CCGAGCTGCA GCCGGGAATG 
CCGGCCCGGG CAGGGGCCAG GGAGTGTGGC CAGGGCGTGC GGCTGCGAGC CATCGCCTGC 
TACGACAGCG CCGGCACACT GGTCGAGCCA TCTCGCTGTA GCAGTTCGGG TTACATTGAA 
GAGCCTTGCA CGGTCCCGTG CCCGTTTGAT TGCAAATTAA GCGATTGGTC CAGTTGGTCT 
CCTTGCAGCT CTTCCTGTGG CCCGGGGGTG AGAGTCCGAT CCAAGTGGCT CAAGGAGAAG 
CCCTACAATG GAGGTCGTCC CTGCCCCAAG CTGGACCTCA GGAATCAGGC TCAGGTGCAC 
GAGGCAGTCC CATGCTACAG TGAGTGCAAT CTGTATTCCT GGGAAGTAGG ACCATGGTCT 
CCATGCAAAA TCAACAGTGA ACAAAATTCC CTCCACTGTG GAGAAGGAAT ACAAACGAGG 
GAAGTCAGGT GTGTGAGCAC TGCTGAGGAC CACGGTGTGG AGACTGTGCC CAACACTCTG 
TGCAGTCAGG CTGAGGTCCC AGAGGCAGTG CAGAAGTGTA CCTTGTACTG TCCCAGTGAG 
TGTGCAGTGT CTGACTGGGG ACAGTGGAGC CCGTGCCCAC AGGTGTGTGA CCCCAACATT 
ATGCAAATCC GAACCCGACA AGTGCTGAGG CCTCCTGTCA GTTCCAAGCC CTGCCCTGAA 
GTTTCACAAA TGAAGCCATG TATTCTTAAT CAAAACTGCT TCCAATACCA GTACAACCTA 
ACAGGCTGGA GCGGGTGCCA GCTGGGTGCC AATGCCACCT GCGGTCACGG GCAGCGCCGC 
CGCCTCCTGA GCTGCCGGCG CAGCGACGGG GCCACCGTCA GCATGCAGCT GTGCCAGCGG 
CTGCACCTGG AGAAGCCCGT GCCCACGAGC AGCCGGTGCG TGGTGGGGTG TGCCGTGGAC 
TGCCAGCTCT CGCCGTGGTC AGCCTGGTCG CAGTGCTCCC ACACGTGTGG CGCCGGCGGC 
CAGATGGTGC GTGGGCGCTC CGTGGTGCTG CGGGCAGCGG GCGAGGGCAG AGCCTGCCCA 
GAGCAGCTCA CCCAGCACAG GAGCTGCCCA GTGAAGCCCT GCTACAGCTG GCTGCTGGGG 
CCCTGGTCTC CCTGCACTGT CCAGGGTGGA CAGTGTGGAG ATGGATTGCA AGTCCGCAAC 
CTCACGTGTG TAGTGCACGA TGCATCAGCT TCTGCTACAT CCAAACCAGT AGAAAATGCA 
TTGTGTGGTG AGCTACCATT GAAAGAAAGT GTGCTGCAGT TACCCTGCTC TGTGCCTTGC 
CCAGGCGACT GCCACCTGAC AGAGTGGTCA GAGTGGAGCT CCTGTGAGCT CACCTGCATC 
AGTGGCAGGA GCTTTGAGAG CACCGGGCGC CAGTCTCGGT CCAGGGCCTT CATCGTGCAG 
GCTGCAGAGA ACCAGGAGAG CTGCTCGGGA CAGGAGATGG AGACACGGCC CTGCTCAGGA 
GGGAAATGTT ACGACTACGT GTGGCAAAGC AGCCTTTGGC GGGACAACGT GCGCACGGTG 
TGGTGTCAGC GCTCGGATGG AGTGAATGTC ACAGGAGGGT GTTCTCTTCG GACAAAACCT 
GCCGAAGTCC GGCACTGCAG CCCGCCGTGC AGAAAACCCT TCTCCTACTG CACACAGAGA 
GGAGTCTGCA GCTGTGAGCG GGGATACACA GAAGTAATGA GATCAAATGG GCTCCTGGAT 
TACTGCGTGA AGGTACCAGG TTTAGAAGAT AAGAAAGCTG ATGTTAAGAC CATTGCCGGA 
AAAAATAAAC CTGTCAACTC CAAAATGCAT GACATTTTCA AAGGATGGTC TATTCAACCT 
TTTAATCCAG ATGGTAAACT GAAGATATGG GTATATGGAG TATCAGCTGG AGGGTTCTTC 
ATCATCATTT TCCTGATTTT TACATCCTAC CTGATGTGCA AAAAAACAAA ACAGCATCAA 
AGCCCTCCAC CACAGCAGAA GCCTCTAACC CTGGCCTATG ATGGAGACAT TGATATGTAA

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

RefSeq	XP_030133968.1
CDS	246..5045
Translation	MLLQQNWVSPHRAWQSLGKPFLLFVFLMLQTADLQARRGHQFVWKTGHWGRCIGDCGSGGVRSRAVWCTHAEGWTTFHANCDQQDKPESQRRCFKVCDWHLELFEWEVSGWDRCGLVPAAGAEAGAEVCVTAQHGLQRRSVRCLHKLNGTAVSGEICEYFTPQPPAEQACLVPCPRDCVVSQFSAWSPCGAGCARGLQHRTRAVLAPPLYGGAPCPSLSESRACGAPACPLGEEQHTYSLRLGPWGQCRLPHPRDAELAGRTMLDLGSDSGERSTAGLAGEVEIGYQTRQVRCVRSDGKHAALSLCLQDPVAAVTSRSCVMPKDCATSEWSPWSPCSRSCGWASVAAGLRSRRRRVRSVAVGAGEPCPQLEEREACSGGGKAPLQPCPRFAWRTSEWKACQVSLLLDQQDPQQQKQAGLCGGGIQTRVVYCAQIVVELGTHRPKEVARPVDGKLCPGPAPASSQLCHLPCLAECAVSPWSPWGPCLPESCQHHHGGRGFRMRQRQVVVDPVGTLAGCPHLVESIPCEDARCHEWEVSEGTCVTDRGKCGPGHRVLKAVCKSRKGEEVPHHLCSELPRPEVVACEVPCARDCVLSEWSPWSPCSHSCSSKNAEGTQSRSRSILALPAEGGKACPPERALQEQRACNEHLCVHFFWEVSPWSSCSEDVLGTALNATSSWNGDATCGVGIQTRRVSCRKSSSGQVTPKRCPESIRPEAVRPCLLPCRKDCVVTLFSEWTPCPTACQPGNATAVKQSRYRIILQDPASGGQACPDTLYEERECEDVPICPVYRWRSHRWSPCVLVPASVRQGQPGQSEPCGHGLQSRAVTCLSEQGGSATVGDCVQWAGAMPALVQECLIPCKDDCTFTPWSKFTACSSDCDTTRSRRRSLTGRSRKRDKCQNTEVYPQVETEPCPCEAFTSQPHGNWSECIIRGAPSELQPGMPARAGARECGQGVRLRAIACYDSAGTLVEPSRCSSSGYIEEPCTVPCPFDCKLSDWSSWSPCSSSCGPGVRVRSKWLKEKPYNGGRPCPKLDLRNQAQVHEAVPCYSECNLYSWEVGPWSPCKINSEQNSLHCGEGIQTREVRCVSTAEDHGVETVPNTLCSQAEVPEAVQKCTLYCPSECAVSDWGQWSPCPQVCDPNIMQIRTRQVLRPPVSSKPCPEVSQMKPCILNQNCFQYQYNLTGWSGCQLGANATCGHGQRRRLLSCRRSDGATVSMQLCQRLHLEKPVPTSSRCVVGCAVDCQLSPWSAWSQCSHTCGAGGQMVRGRSVVLRAAGEGRACPEQLTQHRSCPVKPCYSWLLGPWSPCTVQGGQCGDGLQVRNLTCVVHDASASATSKPVENALCGELPLKESVLQLPCSVPCPGDCHLTEWSEWSSCELTCISGRSFESTGRQSRSRAFIVQAAENQESCSGQEMETRPCSGGKCYDYVWQSSLWRDNVRTVWCQRSDGVNVTGGCSLRTKPAEVRHCSPPCRKPFSYCTQRGVCSCERGYTEVMRSNGLLDYCVKVPGLEDKKADVKTIAGKNKPVNSKMHDIFKGWSIQPFNPDGKLKIWVYGVSAGGFFIIIFLIFTSYLMCKKTKQHQSPPPQQKPLTLAYDGDIDM

Target ORF information:

RefSeq Version	XM_030278108.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata thrombospondin type 1 domain containing 7B (THSD7B), transcript variant X2, mRNA.

Target ORF information:

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

XM_030278108.1

ORF Insert Sequence:

ATGCTTCTAC AACAGAACTG GGTTTCTCCT CATAGGGCAT GGCAGAGCCT GGGGAAGCCC 
TTCCTTTTGT TTGTTTTCTT AATGTTGCAA ACAGCTGATC TGCAAGCCAG GAGAGGTCAC 
CAGTTTGTCT GGAAAACAGG TCACTGGGGC CGCTGCATCG GGGACTGCGG CTCGGGCGGC 
GTTCGCAGCC GGGCCGTCTG GTGCACCCAC GCCGAGGGCT GGACCACGTT CCACGCCAAC 
TGCGACCAGC AGGACAAGCC CGAGAGCCAG CGGAGGTGCT TTAAAGTCTG CGACTGGCAC 
CTGGAGCTGT TCGAGTGGGA GGTTTCGGGA TGGGACAGGT GCGGGCTGGT CCCGGCTGCG 
GGCGCTGAGG CCGGAGCCGA GGTTTGTGTG ACGGCTCAGC ACGGGCTGCA GCGCCGCAGC 
GTCCGCTGCC TGCACAAGCT GAACGGGACG GCGGTGTCCG GCGAGATCTG TGAGTATTTC 
ACGCCGCAGC CGCCGGCCGA GCAGGCCTGC CTGGTGCCGT GCCCGCGGGA CTGCGTGGTG 
TCGCAGTTCT CGGCCTGGTC CCCGTGCGGC GCGGGCTGCG CCCGGGGCCT GCAGCACCGC 
ACGCGGGCCG TCCTCGCCCC GCCGCTCTAC GGCGGAGCGC CCTGCCCCAG CCTGAGCGAG 
TCCAGGGCCT GCGGAGCCCC TGCCTGTCCC CTCGGCGAGG AGCAGCACAC CTACAGCCTC 
CGCCTGGGCC CCTGGGGCCA ATGCCGCCTG CCCCATCCTA GAGACGCGGA GCTGGCGGGG 
AGGACTATGC TGGATTTGGG GTCGGACTCT GGAGAGCGAA GCACCGCCGG CCTTGCCGGG 
GAGGTGGAGA TCGGCTACCA GACGCGGCAG GTCAGGTGCG TGAGGAGCGA TGGAAAGCAC 
GCGGCGCTCA GCCTCTGCCT GCAAGACCCC GTGGCCGCCG TGACCTCCAG GTCCTGTGTG 
ATGCCCAAGG ACTGCGCCAC GTCCGAGTGG TCCCCGTGGA GCCCCTGCTC GCGCAGCTGC 
GGCTGGGCCA GCGTGGCCGC GGGGCTGCGC AGCCGCCGCC GCCGCGTGCG CAGCGTGGCC 
GTGGGCGCCG GAGAACCCTG CCCGCAGCTG GAGGAGAGGG AAGCGTGCAG TGGAGGAGGG 
AAGGCACCGC TGCAGCCCTG CCCCAGGTTT GCCTGGAGGA CCTCTGAATG GAAAGCTTGC 
CAAGTGTCTC TGCTCCTGGA CCAGCAGGAC CCTCAGCAGC AGAAGCAGGC AGGGCTCTGT 
GGAGGTGGGA TCCAAACCCG GGTGGTCTAC TGTGCCCAGA TCGTCGTGGA GCTGGGGACA 
CACCGGCCGA AGGAGGTTGC CAGACCAGTG GATGGGAAGC TTTGCCCGGG TCCTGCCCCT 
GCCAGCTCCC AGCTGTGTCA CCTGCCGTGC CTGGCTGAGT GTGCTGTGTC CCCGTGGTCA 
CCGTGGGGTC CCTGCCTGCC CGAGAGCTGC CAGCACCACC ACGGAGGGAG AGGCTTTAGG 
ATGAGACAGA GGCAGGTGGT GGTGGATCCT GTGGGCACCC TGGCAGGTTG TCCTCATTTG 
GTGGAGTCCA TTCCTTGTGA AGACGCGCGG TGCCACGAGT GGGAGGTGTC AGAGGGGACC 
TGTGTGACCG ACCGAGGGAA GTGTGGGCCT GGTCACCGTG TCCTGAAGGC TGTCTGTAAG 
AGCAGGAAAG GTGAAGAAGT TCCACATCAC CTCTGCTCAG AGCTCCCCCG TCCCGAGGTG 
GTGGCTTGTG AAGTCCCCTG TGCCAGGGAC TGTGTGCTCA GCGAGTGGTC CCCGTGGTCC 
CCCTGCTCCC ACTCCTGCTC CAGCAAAAAC GCCGAGGGCA CTCAAAGCAG GAGCAGGTCC 
ATCCTGGCCC TTCCAGCTGA GGGTGGAAAA GCCTGTCCCC CTGAGCGAGC CCTGCAGGAG 
CAGCGTGCCT GCAACGAGCA CCTGTGTGTG CATTTCTTCT GGGAAGTGTC CCCCTGGAGC 
TCCTGCTCCG AGGACGTGCT GGGCACCGCT CTCAATGCCA CCTCCAGCTG GAACGGGGAT 
GCCACCTGCG GGGTGGGCAT CCAGACACGG AGAGTCTCCT GCAGGAAGAG CAGCTCTGGC 
CAGGTCACTC CCAAAAGGTG TCCGGAGTCC ATCCGGCCCG AGGCGGTGCG GCCGTGTCTC 
CTCCCCTGCA GGAAGGACTG TGTTGTTACA CTGTTCAGTG AGTGGACACC CTGCCCCACA 
GCCTGCCAGC CTGGCAATGC CACTGCAGTT AAGCAGTCCC GGTACAGGAT TATCCTTCAG 
GATCCTGCCA GTGGGGGACA GGCATGTCCA GACACCTTGT ATGAGGAAAG AGAATGTGAA 
GATGTTCCCA TCTGTCCAGT GTATAGGTGG AGGAGCCACC GCTGGAGCCC CTGTGTGCTG 
GTGCCAGCCT CGGTGCGCCA GGGCCAGCCG GGGCAGAGCG AGCCGTGTGG GCACGGGCTG 
CAGTCCAGGG CTGTGACGTG CCTGTCGGAG CAGGGGGGCT CTGCCACCGT CGGGGACTGC 
GTGCAGTGGG CAGGAGCGAT GCCAGCCCTC GTCCAGGAGT GCCTCATTCC CTGCAAGGAC 
GACTGCACTT TCACCCCCTG GTCTAAATTC ACAGCCTGCT CCTCTGACTG TGACACAACC 
AGGAGCAGGA GGCGGTCACT CACAGGGCGA AGCAGAAAGC GAGACAAATG CCAGAACACG 
GAAGTTTATC CCCAAGTTGA GACAGAGCCG TGCCCCTGCG AGGCCTTCAC CTCCCAGCCC 
CATGGAAATT GGTCTGAGTG CATCATCAGG GGGGCTCCAT CCGAGCTGCA GCCGGGAATG 
CCGGCCCGGG CAGGGGCCAG GGAGTGTGGC CAGGGCGTGC GGCTGCGAGC CATCGCCTGC 
TACGACAGCG CCGGCACACT GGTCGAGCCA TCTCGCTGTA GCAGTTCGGG TTACATTGAA 
GAGCCTTGCA CGGTCCCGTG CCCGTTTGAT TGCAAATTAA GCGATTGGTC CAGTTGGTCT 
CCTTGCAGCT CTTCCTGTGG CCCGGGGGTG AGAGTCCGAT CCAAGTGGCT CAAGGAGAAG 
CCCTACAATG GAGGTCGTCC CTGCCCCAAG CTGGACCTCA GGAATCAGGC TCAGGTGCAC 
GAGGCAGTCC CATGCTACAG TGAGTGCAAT CTGTATTCCT GGGAAGTAGG ACCATGGTCT 
CCATGCAAAA TCAACAGTGA ACAAAATTCC CTCCACTGTG GAGAAGGAAT ACAAACGAGG 
GAAGTCAGGT GTGTGAGCAC TGCTGAGGAC CACGGTGTGG AGACTGTGCC CAACACTCTG 
TGCAGTCAGG CTGAGGTCCC AGAGGCAGTG CAGAAGTGTA CCTTGTACTG TCCCAGTGAG 
TGTGCAGTGT CTGACTGGGG ACAGTGGAGC CCGTGCCCAC AGGTGTGTGA CCCCAACATT 
ATGCAAATCC GAACCCGACA AGTGCTGAGG CCTCCTGTCA GTTCCAAGCC CTGCCCTGAA 
GTTTCACAAA TGAAGCCATG TATTCTTAAT CAAAACTGCT TCCAATACCA GTACAACCTA 
ACAGGCTGGA GCGGGTGCCA GCTGGGTGCC AATGCCACCT GCGGTCACGG GCAGCGCCGC 
CGCCTCCTGA GCTGCCGGCG CAGCGACGGG GCCACCGTCA GCATGCAGCT GTGCCAGCGG 
CTGCACCTGG AGAAGCCCGT GCCCACGAGC AGCCGGTGCG TGGTGGGGTG TGCCGTGGAC 
TGCCAGCTCT CGCCGTGGTC AGCCTGGTCG CAGTGCTCCC ACACGTGTGG CGCCGGCGGC 
CAGATGGTGC GTGGGCGCTC CGTGGTGCTG CGGGCAGCGG GCGAGGGCAG AGCCTGCCCA 
GAGCAGCTCA CCCAGCACAG GAGCTGCCCA GTGAAGCCCT GCTACAGCTG GCTGCTGGGG 
CCCTGGTCTC CCTGCACTGT CCAGGGTGGA CAGTGTGGAG ATGGATTGCA AGTCCGCAAC 
CTCACGTGTG TAGTGCACGA TGCATCAGCT TCTGCTACAT CCAAACCAGT AGAAAATGCA 
TTGTGTGGTG AGCTACCATT GAAAGAAAGT GTGCTGCAGT TACCCTGCTC TGTGCCTTGC 
CCAGGCGACT GCCACCTGAC AGAGTGGTCA GAGTGGAGCT CCTGTGAGCT CACCTGCATC 
AGTGGCAGGA GCTTTGAGAG CACCGGGCGC CAGTCTCGGT CCAGGGCCTT CATCGTGCAG 
GCTGCAGAGA ACCAGGAGAG CTGCTCGGGA CAGGAGATGG AGACACGGCC CTGCTCAGGA 
GGGAAATGTT ACGACTACGT GTGGCAAAGC AGCCTTTGGC GGGACAACGT GCGCACGGTG 
TGGTGTCAGC GCTCGGATGG AGTGAATGTC ACAGGAGGGT GTTCTCTTCG GACAAAACCT 
GCCGAAGTCC GGCACTGCAG CCCGCCGTGC AGAAAACCCT TCTCCTACTG CACACAGAGA 
GGAGTCTGCA GCTGTGAGCG GGGATACACA GAAGTAATGA GATCAAATGG GCTCCTGGAT 
TACTGCGTGA AGGTACCAGG TTTAGAAGAT AAGAAAGCTG ATGTTAAGAC CATTGCCGGA 
AAAAATAAAC CTGTCAACTC CAAAATGCAT GACATTTTCA AAGGATGGTC TATTCAACCT 
TTTAATCCAG ATGGTAAACT GAAGATATGG GTATATGGAG TATCAGCTGG AGGGTTCTTC 
ATCATCATTT TCCTGATTTT TACATCCTAC CTGATGTGCA AAAAAACAAA ACAGCATCAA 
AGCCCTCCAC CACAGCAGAA GCCTCTAACC CTGGCCTATG ATGGAGACAT TGATATGTAA

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

THSD7B ( XM_030278107.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030133967.1 Taeniopygia guttata thrombospondin type 1 domain containing 7B (THSD7B), transcript variant X1, mRNA.

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CloneID	OTd50130
Clone ID Related Accession (Same CDS sequence)	XM_030278108.1 , XM_030278107.1
Accession Version	XM_030278107.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4800bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	1565193600000
Organism	Taeniopygia guttata(zebra finch)
Product	thrombospondin type-1 domain-containing protein 7B isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044219.1) 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 Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCTTCTAC AACAGAACTG GGTTTCTCCT CATAGGGCAT GGCAGAGCCT GGGGAAGCCC 
TTCCTTTTGT TTGTTTTCTT AATGTTGCAA ACAGCTGATC TGCAAGCCAG GAGAGGTCAC 
CAGTTTGTCT GGAAAACAGG TCACTGGGGC CGCTGCATCG GGGACTGCGG CTCGGGCGGC 
GTTCGCAGCC GGGCCGTCTG GTGCACCCAC GCCGAGGGCT GGACCACGTT CCACGCCAAC 
TGCGACCAGC AGGACAAGCC CGAGAGCCAG CGGAGGTGCT TTAAAGTCTG CGACTGGCAC 
CTGGAGCTGT TCGAGTGGGA GGTTTCGGGA TGGGACAGGT GCGGGCTGGT CCCGGCTGCG 
GGCGCTGAGG CCGGAGCCGA GGTTTGTGTG ACGGCTCAGC ACGGGCTGCA GCGCCGCAGC 
GTCCGCTGCC TGCACAAGCT GAACGGGACG GCGGTGTCCG GCGAGATCTG TGAGTATTTC 
ACGCCGCAGC CGCCGGCCGA GCAGGCCTGC CTGGTGCCGT GCCCGCGGGA CTGCGTGGTG 
TCGCAGTTCT CGGCCTGGTC CCCGTGCGGC GCGGGCTGCG CCCGGGGCCT GCAGCACCGC 
ACGCGGGCCG TCCTCGCCCC GCCGCTCTAC GGCGGAGCGC CCTGCCCCAG CCTGAGCGAG 
TCCAGGGCCT GCGGAGCCCC TGCCTGTCCC CTCGGCGAGG AGCAGCACAC CTACAGCCTC 
CGCCTGGGCC CCTGGGGCCA ATGCCGCCTG CCCCATCCTA GAGACGCGGA GCTGGCGGGG 
AGGACTATGC TGGATTTGGG GTCGGACTCT GGAGAGCGAA GCACCGCCGG CCTTGCCGGG 
GAGGTGGAGA TCGGCTACCA GACGCGGCAG GTCAGGTGCG TGAGGAGCGA TGGAAAGCAC 
GCGGCGCTCA GCCTCTGCCT GCAAGACCCC GTGGCCGCCG TGACCTCCAG GTCCTGTGTG 
ATGCCCAAGG ACTGCGCCAC GTCCGAGTGG TCCCCGTGGA GCCCCTGCTC GCGCAGCTGC 
GGCTGGGCCA GCGTGGCCGC GGGGCTGCGC AGCCGCCGCC GCCGCGTGCG CAGCGTGGCC 
GTGGGCGCCG GAGAACCCTG CCCGCAGCTG GAGGAGAGGG AAGCGTGCAG TGGAGGAGGG 
AAGGCACCGC TGCAGCCCTG CCCCAGGTTT GCCTGGAGGA CCTCTGAATG GAAAGCTTGC 
CAAGTGTCTC TGCTCCTGGA CCAGCAGGAC CCTCAGCAGC AGAAGCAGGC AGGGCTCTGT 
GGAGGTGGGA TCCAAACCCG GGTGGTCTAC TGTGCCCAGA TCGTCGTGGA GCTGGGGACA 
CACCGGCCGA AGGAGGTTGC CAGACCAGTG GATGGGAAGC TTTGCCCGGG TCCTGCCCCT 
GCCAGCTCCC AGCTGTGTCA CCTGCCGTGC CTGGCTGAGT GTGCTGTGTC CCCGTGGTCA 
CCGTGGGGTC CCTGCCTGCC CGAGAGCTGC CAGCACCACC ACGGAGGGAG AGGCTTTAGG 
ATGAGACAGA GGCAGGTGGT GGTGGATCCT GTGGGCACCC TGGCAGGTTG TCCTCATTTG 
GTGGAGTCCA TTCCTTGTGA AGACGCGCGG TGCCACGAGT GGGAGGTGTC AGAGGGGACC 
TGTGTGACCG ACCGAGGGAA GTGTGGGCCT GGTCACCGTG TCCTGAAGGC TGTCTGTAAG 
AGCAGGAAAG GTGAAGAAGT TCCACATCAC CTCTGCTCAG AGCTCCCCCG TCCCGAGGTG 
GTGGCTTGTG AAGTCCCCTG TGCCAGGGAC TGTGTGCTCA GCGAGTGGTC CCCGTGGTCC 
CCCTGCTCCC ACTCCTGCTC CAGCAAAAAC GCCGAGGGCA CTCAAAGCAG GAGCAGGTCC 
ATCCTGGCCC TTCCAGCTGA GGGTGGAAAA GCCTGTCCCC CTGAGCGAGC CCTGCAGGAG 
CAGCGTGCCT GCAACGAGCA CCTGTGTGTG CATTTCTTCT GGGAAGTGTC CCCCTGGAGC 
TCCTGCTCCG AGGACGTGCT GGGCACCGCT CTCAATGCCA CCTCCAGCTG GAACGGGGAT 
GCCACCTGCG GGGTGGGCAT CCAGACACGG AGAGTCTCCT GCAGGAAGAG CAGCTCTGGC 
CAGGTCACTC CCAAAAGGTG TCCGGAGTCC ATCCGGCCCG AGGCGGTGCG GCCGTGTCTC 
CTCCCCTGCA GGAAGGACTG TGTTGTTACA CTGTTCAGTG AGTGGACACC CTGCCCCACA 
GCCTGCCAGC CTGGCAATGC CACTGCAGTT AAGCAGTCCC GGTACAGGAT TATCCTTCAG 
GATCCTGCCA GTGGGGGACA GGCATGTCCA GACACCTTGT ATGAGGAAAG AGAATGTGAA 
GATGTTCCCA TCTGTCCAGT GTATAGGTGG AGGAGCCACC GCTGGAGCCC CTGTGTGCTG 
GTGCCAGCCT CGGTGCGCCA GGGCCAGCCG GGGCAGAGCG AGCCGTGTGG GCACGGGCTG 
CAGTCCAGGG CTGTGACGTG CCTGTCGGAG CAGGGGGGCT CTGCCACCGT CGGGGACTGC 
GTGCAGTGGG CAGGAGCGAT GCCAGCCCTC GTCCAGGAGT GCCTCATTCC CTGCAAGGAC 
GACTGCACTT TCACCCCCTG GTCTAAATTC ACAGCCTGCT CCTCTGACTG TGACACAACC 
AGGAGCAGGA GGCGGTCACT CACAGGGCGA AGCAGAAAGC GAGACAAATG CCAGAACACG 
GAAGTTTATC CCCAAGTTGA GACAGAGCCG TGCCCCTGCG AGGCCTTCAC CTCCCAGCCC 
CATGGAAATT GGTCTGAGTG CATCATCAGG GGGGCTCCAT CCGAGCTGCA GCCGGGAATG 
CCGGCCCGGG CAGGGGCCAG GGAGTGTGGC CAGGGCGTGC GGCTGCGAGC CATCGCCTGC 
TACGACAGCG CCGGCACACT GGTCGAGCCA TCTCGCTGTA GCAGTTCGGG TTACATTGAA 
GAGCCTTGCA CGGTCCCGTG CCCGTTTGAT TGCAAATTAA GCGATTGGTC CAGTTGGTCT 
CCTTGCAGCT CTTCCTGTGG CCCGGGGGTG AGAGTCCGAT CCAAGTGGCT CAAGGAGAAG 
CCCTACAATG GAGGTCGTCC CTGCCCCAAG CTGGACCTCA GGAATCAGGC TCAGGTGCAC 
GAGGCAGTCC CATGCTACAG TGAGTGCAAT CTGTATTCCT GGGAAGTAGG ACCATGGTCT 
CCATGCAAAA TCAACAGTGA ACAAAATTCC CTCCACTGTG GAGAAGGAAT ACAAACGAGG 
GAAGTCAGGT GTGTGAGCAC TGCTGAGGAC CACGGTGTGG AGACTGTGCC CAACACTCTG 
TGCAGTCAGG CTGAGGTCCC AGAGGCAGTG CAGAAGTGTA CCTTGTACTG TCCCAGTGAG 
TGTGCAGTGT CTGACTGGGG ACAGTGGAGC CCGTGCCCAC AGGTGTGTGA CCCCAACATT 
ATGCAAATCC GAACCCGACA AGTGCTGAGG CCTCCTGTCA GTTCCAAGCC CTGCCCTGAA 
GTTTCACAAA TGAAGCCATG TATTCTTAAT CAAAACTGCT TCCAATACCA GTACAACCTA 
ACAGGCTGGA GCGGGTGCCA GCTGGGTGCC AATGCCACCT GCGGTCACGG GCAGCGCCGC 
CGCCTCCTGA GCTGCCGGCG CAGCGACGGG GCCACCGTCA GCATGCAGCT GTGCCAGCGG 
CTGCACCTGG AGAAGCCCGT GCCCACGAGC AGCCGGTGCG TGGTGGGGTG TGCCGTGGAC 
TGCCAGCTCT CGCCGTGGTC AGCCTGGTCG CAGTGCTCCC ACACGTGTGG CGCCGGCGGC 
CAGATGGTGC GTGGGCGCTC CGTGGTGCTG CGGGCAGCGG GCGAGGGCAG AGCCTGCCCA 
GAGCAGCTCA CCCAGCACAG GAGCTGCCCA GTGAAGCCCT GCTACAGCTG GCTGCTGGGG 
CCCTGGTCTC CCTGCACTGT CCAGGGTGGA CAGTGTGGAG ATGGATTGCA AGTCCGCAAC 
CTCACGTGTG TAGTGCACGA TGCATCAGCT TCTGCTACAT CCAAACCAGT AGAAAATGCA 
TTGTGTGGTG AGCTACCATT GAAAGAAAGT GTGCTGCAGT TACCCTGCTC TGTGCCTTGC 
CCAGGCGACT GCCACCTGAC AGAGTGGTCA GAGTGGAGCT CCTGTGAGCT CACCTGCATC 
AGTGGCAGGA GCTTTGAGAG CACCGGGCGC CAGTCTCGGT CCAGGGCCTT CATCGTGCAG 
GCTGCAGAGA ACCAGGAGAG CTGCTCGGGA CAGGAGATGG AGACACGGCC CTGCTCAGGA 
GGGAAATGTT ACGACTACGT GTGGCAAAGC AGCCTTTGGC GGGACAACGT GCGCACGGTG 
TGGTGTCAGC GCTCGGATGG AGTGAATGTC ACAGGAGGGT GTTCTCTTCG GACAAAACCT 
GCCGAAGTCC GGCACTGCAG CCCGCCGTGC AGAAAACCCT TCTCCTACTG CACACAGAGA 
GGAGTCTGCA GCTGTGAGCG GGGATACACA GAAGTAATGA GATCAAATGG GCTCCTGGAT 
TACTGCGTGA AGGTACCAGG TTTAGAAGAT AAGAAAGCTG ATGTTAAGAC CATTGCCGGA 
AAAAATAAAC CTGTCAACTC CAAAATGCAT GACATTTTCA AAGGATGGTC TATTCAACCT 
TTTAATCCAG ATGGTAAACT GAAGATATGG GTATATGGAG TATCAGCTGG AGGGTTCTTC 
ATCATCATTT TCCTGATTTT TACATCCTAC CTGATGTGCA AAAAAACAAA ACAGCATCAA 
AGCCCTCCAC CACAGCAGAA GCCTCTAACC CTGGCCTATG ATGGAGACAT TGATATGTAA

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

RefSeq	XP_030133967.1
CDS	275..5074
Translation	MLLQQNWVSPHRAWQSLGKPFLLFVFLMLQTADLQARRGHQFVWKTGHWGRCIGDCGSGGVRSRAVWCTHAEGWTTFHANCDQQDKPESQRRCFKVCDWHLELFEWEVSGWDRCGLVPAAGAEAGAEVCVTAQHGLQRRSVRCLHKLNGTAVSGEICEYFTPQPPAEQACLVPCPRDCVVSQFSAWSPCGAGCARGLQHRTRAVLAPPLYGGAPCPSLSESRACGAPACPLGEEQHTYSLRLGPWGQCRLPHPRDAELAGRTMLDLGSDSGERSTAGLAGEVEIGYQTRQVRCVRSDGKHAALSLCLQDPVAAVTSRSCVMPKDCATSEWSPWSPCSRSCGWASVAAGLRSRRRRVRSVAVGAGEPCPQLEEREACSGGGKAPLQPCPRFAWRTSEWKACQVSLLLDQQDPQQQKQAGLCGGGIQTRVVYCAQIVVELGTHRPKEVARPVDGKLCPGPAPASSQLCHLPCLAECAVSPWSPWGPCLPESCQHHHGGRGFRMRQRQVVVDPVGTLAGCPHLVESIPCEDARCHEWEVSEGTCVTDRGKCGPGHRVLKAVCKSRKGEEVPHHLCSELPRPEVVACEVPCARDCVLSEWSPWSPCSHSCSSKNAEGTQSRSRSILALPAEGGKACPPERALQEQRACNEHLCVHFFWEVSPWSSCSEDVLGTALNATSSWNGDATCGVGIQTRRVSCRKSSSGQVTPKRCPESIRPEAVRPCLLPCRKDCVVTLFSEWTPCPTACQPGNATAVKQSRYRIILQDPASGGQACPDTLYEERECEDVPICPVYRWRSHRWSPCVLVPASVRQGQPGQSEPCGHGLQSRAVTCLSEQGGSATVGDCVQWAGAMPALVQECLIPCKDDCTFTPWSKFTACSSDCDTTRSRRRSLTGRSRKRDKCQNTEVYPQVETEPCPCEAFTSQPHGNWSECIIRGAPSELQPGMPARAGARECGQGVRLRAIACYDSAGTLVEPSRCSSSGYIEEPCTVPCPFDCKLSDWSSWSPCSSSCGPGVRVRSKWLKEKPYNGGRPCPKLDLRNQAQVHEAVPCYSECNLYSWEVGPWSPCKINSEQNSLHCGEGIQTREVRCVSTAEDHGVETVPNTLCSQAEVPEAVQKCTLYCPSECAVSDWGQWSPCPQVCDPNIMQIRTRQVLRPPVSSKPCPEVSQMKPCILNQNCFQYQYNLTGWSGCQLGANATCGHGQRRRLLSCRRSDGATVSMQLCQRLHLEKPVPTSSRCVVGCAVDCQLSPWSAWSQCSHTCGAGGQMVRGRSVVLRAAGEGRACPEQLTQHRSCPVKPCYSWLLGPWSPCTVQGGQCGDGLQVRNLTCVVHDASASATSKPVENALCGELPLKESVLQLPCSVPCPGDCHLTEWSEWSSCELTCISGRSFESTGRQSRSRAFIVQAAENQESCSGQEMETRPCSGGKCYDYVWQSSLWRDNVRTVWCQRSDGVNVTGGCSLRTKPAEVRHCSPPCRKPFSYCTQRGVCSCERGYTEVMRSNGLLDYCVKVPGLEDKKADVKTIAGKNKPVNSKMHDIFKGWSIQPFNPDGKLKIWVYGVSAGGFFIIIFLIFTSYLMCKKTKQHQSPPPQQKPLTLAYDGDIDM

Target ORF information:

RefSeq Version	XM_030278107.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata thrombospondin type 1 domain containing 7B (THSD7B), transcript variant X1, mRNA.

Target ORF information:

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

XM_030278107.1

ORF Insert Sequence:

ATGCTTCTAC AACAGAACTG GGTTTCTCCT CATAGGGCAT GGCAGAGCCT GGGGAAGCCC 
TTCCTTTTGT TTGTTTTCTT AATGTTGCAA ACAGCTGATC TGCAAGCCAG GAGAGGTCAC 
CAGTTTGTCT GGAAAACAGG TCACTGGGGC CGCTGCATCG GGGACTGCGG CTCGGGCGGC 
GTTCGCAGCC GGGCCGTCTG GTGCACCCAC GCCGAGGGCT GGACCACGTT CCACGCCAAC 
TGCGACCAGC AGGACAAGCC CGAGAGCCAG CGGAGGTGCT TTAAAGTCTG CGACTGGCAC 
CTGGAGCTGT TCGAGTGGGA GGTTTCGGGA TGGGACAGGT GCGGGCTGGT CCCGGCTGCG 
GGCGCTGAGG CCGGAGCCGA GGTTTGTGTG ACGGCTCAGC ACGGGCTGCA GCGCCGCAGC 
GTCCGCTGCC TGCACAAGCT GAACGGGACG GCGGTGTCCG GCGAGATCTG TGAGTATTTC 
ACGCCGCAGC CGCCGGCCGA GCAGGCCTGC CTGGTGCCGT GCCCGCGGGA CTGCGTGGTG 
TCGCAGTTCT CGGCCTGGTC CCCGTGCGGC GCGGGCTGCG CCCGGGGCCT GCAGCACCGC 
ACGCGGGCCG TCCTCGCCCC GCCGCTCTAC GGCGGAGCGC CCTGCCCCAG CCTGAGCGAG 
TCCAGGGCCT GCGGAGCCCC TGCCTGTCCC CTCGGCGAGG AGCAGCACAC CTACAGCCTC 
CGCCTGGGCC CCTGGGGCCA ATGCCGCCTG CCCCATCCTA GAGACGCGGA GCTGGCGGGG 
AGGACTATGC TGGATTTGGG GTCGGACTCT GGAGAGCGAA GCACCGCCGG CCTTGCCGGG 
GAGGTGGAGA TCGGCTACCA GACGCGGCAG GTCAGGTGCG TGAGGAGCGA TGGAAAGCAC 
GCGGCGCTCA GCCTCTGCCT GCAAGACCCC GTGGCCGCCG TGACCTCCAG GTCCTGTGTG 
ATGCCCAAGG ACTGCGCCAC GTCCGAGTGG TCCCCGTGGA GCCCCTGCTC GCGCAGCTGC 
GGCTGGGCCA GCGTGGCCGC GGGGCTGCGC AGCCGCCGCC GCCGCGTGCG CAGCGTGGCC 
GTGGGCGCCG GAGAACCCTG CCCGCAGCTG GAGGAGAGGG AAGCGTGCAG TGGAGGAGGG 
AAGGCACCGC TGCAGCCCTG CCCCAGGTTT GCCTGGAGGA CCTCTGAATG GAAAGCTTGC 
CAAGTGTCTC TGCTCCTGGA CCAGCAGGAC CCTCAGCAGC AGAAGCAGGC AGGGCTCTGT 
GGAGGTGGGA TCCAAACCCG GGTGGTCTAC TGTGCCCAGA TCGTCGTGGA GCTGGGGACA 
CACCGGCCGA AGGAGGTTGC CAGACCAGTG GATGGGAAGC TTTGCCCGGG TCCTGCCCCT 
GCCAGCTCCC AGCTGTGTCA CCTGCCGTGC CTGGCTGAGT GTGCTGTGTC CCCGTGGTCA 
CCGTGGGGTC CCTGCCTGCC CGAGAGCTGC CAGCACCACC ACGGAGGGAG AGGCTTTAGG 
ATGAGACAGA GGCAGGTGGT GGTGGATCCT GTGGGCACCC TGGCAGGTTG TCCTCATTTG 
GTGGAGTCCA TTCCTTGTGA AGACGCGCGG TGCCACGAGT GGGAGGTGTC AGAGGGGACC 
TGTGTGACCG ACCGAGGGAA GTGTGGGCCT GGTCACCGTG TCCTGAAGGC TGTCTGTAAG 
AGCAGGAAAG GTGAAGAAGT TCCACATCAC CTCTGCTCAG AGCTCCCCCG TCCCGAGGTG 
GTGGCTTGTG AAGTCCCCTG TGCCAGGGAC TGTGTGCTCA GCGAGTGGTC CCCGTGGTCC 
CCCTGCTCCC ACTCCTGCTC CAGCAAAAAC GCCGAGGGCA CTCAAAGCAG GAGCAGGTCC 
ATCCTGGCCC TTCCAGCTGA GGGTGGAAAA GCCTGTCCCC CTGAGCGAGC CCTGCAGGAG 
CAGCGTGCCT GCAACGAGCA CCTGTGTGTG CATTTCTTCT GGGAAGTGTC CCCCTGGAGC 
TCCTGCTCCG AGGACGTGCT GGGCACCGCT CTCAATGCCA CCTCCAGCTG GAACGGGGAT 
GCCACCTGCG GGGTGGGCAT CCAGACACGG AGAGTCTCCT GCAGGAAGAG CAGCTCTGGC 
CAGGTCACTC CCAAAAGGTG TCCGGAGTCC ATCCGGCCCG AGGCGGTGCG GCCGTGTCTC 
CTCCCCTGCA GGAAGGACTG TGTTGTTACA CTGTTCAGTG AGTGGACACC CTGCCCCACA 
GCCTGCCAGC CTGGCAATGC CACTGCAGTT AAGCAGTCCC GGTACAGGAT TATCCTTCAG 
GATCCTGCCA GTGGGGGACA GGCATGTCCA GACACCTTGT ATGAGGAAAG AGAATGTGAA 
GATGTTCCCA TCTGTCCAGT GTATAGGTGG AGGAGCCACC GCTGGAGCCC CTGTGTGCTG 
GTGCCAGCCT CGGTGCGCCA GGGCCAGCCG GGGCAGAGCG AGCCGTGTGG GCACGGGCTG 
CAGTCCAGGG CTGTGACGTG CCTGTCGGAG CAGGGGGGCT CTGCCACCGT CGGGGACTGC 
GTGCAGTGGG CAGGAGCGAT GCCAGCCCTC GTCCAGGAGT GCCTCATTCC CTGCAAGGAC 
GACTGCACTT TCACCCCCTG GTCTAAATTC ACAGCCTGCT CCTCTGACTG TGACACAACC 
AGGAGCAGGA GGCGGTCACT CACAGGGCGA AGCAGAAAGC GAGACAAATG CCAGAACACG 
GAAGTTTATC CCCAAGTTGA GACAGAGCCG TGCCCCTGCG AGGCCTTCAC CTCCCAGCCC 
CATGGAAATT GGTCTGAGTG CATCATCAGG GGGGCTCCAT CCGAGCTGCA GCCGGGAATG 
CCGGCCCGGG CAGGGGCCAG GGAGTGTGGC CAGGGCGTGC GGCTGCGAGC CATCGCCTGC 
TACGACAGCG CCGGCACACT GGTCGAGCCA TCTCGCTGTA GCAGTTCGGG TTACATTGAA 
GAGCCTTGCA CGGTCCCGTG CCCGTTTGAT TGCAAATTAA GCGATTGGTC CAGTTGGTCT 
CCTTGCAGCT CTTCCTGTGG CCCGGGGGTG AGAGTCCGAT CCAAGTGGCT CAAGGAGAAG 
CCCTACAATG GAGGTCGTCC CTGCCCCAAG CTGGACCTCA GGAATCAGGC TCAGGTGCAC 
GAGGCAGTCC CATGCTACAG TGAGTGCAAT CTGTATTCCT GGGAAGTAGG ACCATGGTCT 
CCATGCAAAA TCAACAGTGA ACAAAATTCC CTCCACTGTG GAGAAGGAAT ACAAACGAGG 
GAAGTCAGGT GTGTGAGCAC TGCTGAGGAC CACGGTGTGG AGACTGTGCC CAACACTCTG 
TGCAGTCAGG CTGAGGTCCC AGAGGCAGTG CAGAAGTGTA CCTTGTACTG TCCCAGTGAG 
TGTGCAGTGT CTGACTGGGG ACAGTGGAGC CCGTGCCCAC AGGTGTGTGA CCCCAACATT 
ATGCAAATCC GAACCCGACA AGTGCTGAGG CCTCCTGTCA GTTCCAAGCC CTGCCCTGAA 
GTTTCACAAA TGAAGCCATG TATTCTTAAT CAAAACTGCT TCCAATACCA GTACAACCTA 
ACAGGCTGGA GCGGGTGCCA GCTGGGTGCC AATGCCACCT GCGGTCACGG GCAGCGCCGC 
CGCCTCCTGA GCTGCCGGCG CAGCGACGGG GCCACCGTCA GCATGCAGCT GTGCCAGCGG 
CTGCACCTGG AGAAGCCCGT GCCCACGAGC AGCCGGTGCG TGGTGGGGTG TGCCGTGGAC 
TGCCAGCTCT CGCCGTGGTC AGCCTGGTCG CAGTGCTCCC ACACGTGTGG CGCCGGCGGC 
CAGATGGTGC GTGGGCGCTC CGTGGTGCTG CGGGCAGCGG GCGAGGGCAG AGCCTGCCCA 
GAGCAGCTCA CCCAGCACAG GAGCTGCCCA GTGAAGCCCT GCTACAGCTG GCTGCTGGGG 
CCCTGGTCTC CCTGCACTGT CCAGGGTGGA CAGTGTGGAG ATGGATTGCA AGTCCGCAAC 
CTCACGTGTG TAGTGCACGA TGCATCAGCT TCTGCTACAT CCAAACCAGT AGAAAATGCA 
TTGTGTGGTG AGCTACCATT GAAAGAAAGT GTGCTGCAGT TACCCTGCTC TGTGCCTTGC 
CCAGGCGACT GCCACCTGAC AGAGTGGTCA GAGTGGAGCT CCTGTGAGCT CACCTGCATC 
AGTGGCAGGA GCTTTGAGAG CACCGGGCGC CAGTCTCGGT CCAGGGCCTT CATCGTGCAG 
GCTGCAGAGA ACCAGGAGAG CTGCTCGGGA CAGGAGATGG AGACACGGCC CTGCTCAGGA 
GGGAAATGTT ACGACTACGT GTGGCAAAGC AGCCTTTGGC GGGACAACGT GCGCACGGTG 
TGGTGTCAGC GCTCGGATGG AGTGAATGTC ACAGGAGGGT GTTCTCTTCG GACAAAACCT 
GCCGAAGTCC GGCACTGCAG CCCGCCGTGC AGAAAACCCT TCTCCTACTG CACACAGAGA 
GGAGTCTGCA GCTGTGAGCG GGGATACACA GAAGTAATGA GATCAAATGG GCTCCTGGAT 
TACTGCGTGA AGGTACCAGG TTTAGAAGAT AAGAAAGCTG ATGTTAAGAC CATTGCCGGA 
AAAAATAAAC CTGTCAACTC CAAAATGCAT GACATTTTCA AAGGATGGTC TATTCAACCT 
TTTAATCCAG ATGGTAAACT GAAGATATGG GTATATGGAG TATCAGCTGG AGGGTTCTTC 
ATCATCATTT TCCTGATTTT TACATCCTAC CTGATGTGCA AAAAAACAAA ACAGCATCAA 
AGCCCTCCAC CACAGCAGAA GCCTCTAACC CTGGCCTATG ATGGAGACAT TGATATGTAA

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

THSD7B ( XM_030278109.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030133969.1 Taeniopygia guttata thrombospondin type 1 domain containing 7B (THSD7B), transcript variant X3, mRNA.

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CloneID	OTd50131
Clone ID Related Accession (Same CDS sequence)	XM_030278109.1
Accession Version	XM_030278109.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4794bp) 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	1565193600000
Organism	Taeniopygia guttata(zebra finch)
Product	thrombospondin type-1 domain-containing protein 7B isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044219.1) 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 Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCTTCTAC AACAGAACTG GGTTTCTCCT CATAGGGCAT GGCAGAGCCT GGGGAAGCCC 
TTCCTTTTGT TTGTTTTCTT AATGTTGCAA ACAGCTGATC TGCAAGCCAG GAGAGGTCAC 
CAGTTTGTCT GGAAAACAGG TCACTGGGGC CGCTGCATCG GGGACTGCGG CTCGGGCGGC 
GTTCGCAGCC GGGCCGTCTG GTGCACCCAC GCCGAGGGCT GGACCACGTT CCACGCCAAC 
TGCGACCAGC AGGACAAGCC CGAGAGCCAG CGGAGGTGCT TTAAAGTCTG CGACTGGCAC 
CTGGAGCTGT TCGAGTGGGA GGTTTCGGGA TGGGACAGGT GCGGGCTGGT CCCGGCTGCG 
GGCGCTGAGG CCGGAGCCGA GGTTTGTGTG ACGGCTCAGC ACGGGCTGCA GCGCCGCAGC 
GTCCGCTGCC TGCACAAGCT GAACGGGACG GCGGTGTCCG GCGAGATCTG TGAGTATTTC 
ACGCCGCAGC CGCCGGCCGA GCAGGCCTGC CTGGTGCCGT GCCCGCGGGA CTGCGTGGTG 
TCGCAGTTCT CGGCCTGGTC CCCGTGCGGC GCGGGCTGCG CCCGGGGCCT GCAGCACCGC 
ACGCGGGCCG TCCTCGCCCC GCCGCTCTAC GGCGGAGCGC CCTGCCCCAG CCTGAGCGAG 
TCCAGGGCCT GCGGAGCCCC TGCCTGTCCC CTCGGCGAGG AGCAGCACAC CTACAGCCTC 
CGCCTGGGCC CCTGGGGCCA ATGCCGCCTG CCCCATCCTA GAGACGCGGA GCTGGCGGGG 
AGGACTATGC TGGATTTGGG GTCGGACTCT GGAGAGCGAA GCACCGCCGG CCTTGCCGGG 
GAGGTGGAGA TCGGCTACCA GACGCGGCAG GTCAGGTGCG TGAGGAGCGA TGGAAAGCAC 
GCGGCGCTCA GCCTCTGCCT GCAAGACCCC GTGGCCGCCG TGACCTCCAG GTCCTGTGTG 
ATGCCCAAGG ACTGCGCCAC GTCCGAGTGG TCCCCGTGGA GCCCCTGCTC GCGCAGCTGC 
GGCTGGGCCA GCGTGGCCGC GGGGCTGCGC AGCCGCCGCC GCCGCGTGCG CAGCGTGGCC 
GTGGGCGCCG GAGAACCCTG CCCGCAGCTG GAGGAGAGGG AAGCGTGCAG TGGAGGAGGG 
AAGGCACCGC TGCAGCCCTG CCCCAGGTTT GCCTGGAGGA CCTCTGAATG GAAAGCTTGC 
CAAGTGTCTC TGCTCCTGGA CCAGCAGGAC CCTCAGCAGC AGAAGCAGGC AGGGCTCTGT 
GGAGGTGGGA TCCAAACCCG GGTGGTCTAC TGTGCCCAGA TCGTCGTGGA GCTGGGGACA 
CACCGGCCGA AGGAGGTTGC CAGACCAGTG GATGGGAAGC TTTGCCCGGG TCCTGCCCCT 
GCCAGCTCCC AGCTGTGTCA CCTGCCGTGC CTGGCTGAGT GTGCTGTGTC CCCGTGGTCA 
CCGTGGGGTC CCTGCCTGCC CGAGAGCTGC CAGCACCACC ACGGAGGGAG AGGCTTTAGG 
ATGAGACAGA GGCAGGTGGT GGTGGATCCT GTGGGCACCC TGGCAGGTTG TCCTCATTTG 
GTGGAGTCCA TTCCTTGTGA AGACGCGCGG TGCCACGAGT GGGAGGTGTC AGAGGGGACC 
TGTGTGACCG ACCGAGGGAA GTGTGGGCCT GGTCACCGTG TCCTGAAGGC TGTCTGTAAG 
AGCAGGAAAG GTGAAGAAGT TCCACATCAC CTCTGCTCAG AGCTCCCCCG TCCCGAGGTG 
GTGGCTTGTG AAGTCCCCTG TGCCAGGGAC TGTGTGCTCA GCGAGTGGTC CCCGTGGTCC 
CCCTGCTCCC ACTCCTGCTC CAGCAAAAAC GCCGAGGGCA CTCAAAGCAG GAGCAGGTCC 
ATCCTGGCCC TTCCAGCTGA GGGTGGAAAA GCCTGTCCCC CTGAGCGAGC CCTGCAGGAG 
CAGCGTGCCT GCAACGAGCA CCTGTGTGTG CATTTCTTCT GGGAAGTGTC CCCCTGGAGC 
TCCTGCTCCG AGGACGTGCT GGGCACCGCT CTCAATGCCA CCTCCAGCTG GAACGGGGAT 
GCCACCTGCG GGGTGGGCAT CCAGACACGG AGAGTCTCCT GCAGGAAGAG CAGCTCTGGC 
CAGGTCACTC CCAAAAGGTG TCCGGAGTCC ATCCGGCCCG AGGCGGTGCG GCCGTGTCTC 
CTCCCCTGCA GGAAGGACTG TGTTGTTACA CTGTTCAGTG AGTGGACACC CTGCCCCACA 
GCCTGCCAGC CTGGCAATGC CACTGCAGTT AAGCAGTCCC GGTACAGGAT TATCCTTCAG 
GATCCTGCCA GTGGGGGACA GGCATGTCCA GACACCTTGT ATGAGGAAAG AGAATGTGAA 
GATGTTCCCA TCTGTCCAGT GTATAGGTGG AGGAGCCACC GCTGGAGCCC CTGTGTGCTG 
GTGCCAGCCT CGGTGCGCCA GGGCCAGCCG GGGCAGAGCG AGCCGTGTGG GCACGGGCTG 
CAGTCCAGGG CTGTGACGTG CCTGTCGGAG CAGGGGGGCT CTGCCACCGT CGGGGACTGC 
GTGCAGTGGG CAGGAGCGAT GCCAGCCCTC GTCCAGGAGT GCCTCATTCC CTGCAAGGAC 
GACTGCACTT TCACCCCCTG GTCTAAATTC ACAGCCTGCT CCTCTGACTG TGACACAACC 
AGGAGCAGGA GGCGGTCACT CACAGGGCGA AGCAGAAAGC GAGACAAATG CCAGAACACG 
GAAGTTTATC CCCAAGTTGA GACAGAGCCG TGCCCCTGCG AGGCCTTCAC CTCCCAGCCC 
CATGGAAATT GGTCTGAGTG CATCATCAGG GGGGCTCCAT CCGAGCTGCA GCCGGGAATG 
CCGGCCCGGG CAGGGGCCAG GGAGTGTGGC CAGGGCGTGC GGCTGCGAGC CATCGCCTGC 
TACGACAGCG CCGGCACACT GGTCGAGCCA TCTCGCTGTA GCAGTTCGGG TTACATTGAA 
GAGCCTTGCA CGGTCCCGTG CCCGTTTGAT TGCAAATTAA GCGATTGGTC CAGTTGGTCT 
CCTTGCAGCT CTTCCTGTGG CCCGGGGGTG AGAGTCCGAT CCAAGTGGCT CAAGGAGAAG 
CCCTACAATG GAGGTCGTCC CTGCCCCAAG CTGGACCTCA GGAATCAGGT GCACGAGGCA 
GTCCCATGCT ACAGTGAGTG CAATCTGTAT TCCTGGGAAG TAGGACCATG GTCTCCATGC 
AAAATCAACA GTGAACAAAA TTCCCTCCAC TGTGGAGAAG GAATACAAAC GAGGGAAGTC 
AGGTGTGTGA GCACTGCTGA GGACCACGGT GTGGAGACTG TGCCCAACAC TCTGTGCAGT 
CAGGCTGAGG TCCCAGAGGC AGTGCAGAAG TGTACCTTGT ACTGTCCCAG TGAGTGTGCA 
GTGTCTGACT GGGGACAGTG GAGCCCGTGC CCACAGGTGT GTGACCCCAA CATTATGCAA 
ATCCGAACCC GACAAGTGCT GAGGCCTCCT GTCAGTTCCA AGCCCTGCCC TGAAGTTTCA 
CAAATGAAGC CATGTATTCT TAATCAAAAC TGCTTCCAAT ACCAGTACAA CCTAACAGGC 
TGGAGCGGGT GCCAGCTGGG TGCCAATGCC ACCTGCGGTC ACGGGCAGCG CCGCCGCCTC 
CTGAGCTGCC GGCGCAGCGA CGGGGCCACC GTCAGCATGC AGCTGTGCCA GCGGCTGCAC 
CTGGAGAAGC CCGTGCCCAC GAGCAGCCGG TGCGTGGTGG GGTGTGCCGT GGACTGCCAG 
CTCTCGCCGT GGTCAGCCTG GTCGCAGTGC TCCCACACGT GTGGCGCCGG CGGCCAGATG 
GTGCGTGGGC GCTCCGTGGT GCTGCGGGCA GCGGGCGAGG GCAGAGCCTG CCCAGAGCAG 
CTCACCCAGC ACAGGAGCTG CCCAGTGAAG CCCTGCTACA GCTGGCTGCT GGGGCCCTGG 
TCTCCCTGCA CTGTCCAGGG TGGACAGTGT GGAGATGGAT TGCAAGTCCG CAACCTCACG 
TGTGTAGTGC ACGATGCATC AGCTTCTGCT ACATCCAAAC CAGTAGAAAA TGCATTGTGT 
GGTGAGCTAC CATTGAAAGA AAGTGTGCTG CAGTTACCCT GCTCTGTGCC TTGCCCAGGC 
GACTGCCACC TGACAGAGTG GTCAGAGTGG AGCTCCTGTG AGCTCACCTG CATCAGTGGC 
AGGAGCTTTG AGAGCACCGG GCGCCAGTCT CGGTCCAGGG CCTTCATCGT GCAGGCTGCA 
GAGAACCAGG AGAGCTGCTC GGGACAGGAG ATGGAGACAC GGCCCTGCTC AGGAGGGAAA 
TGTTACGACT ACGTGTGGCA AAGCAGCCTT TGGCGGGACA ACGTGCGCAC GGTGTGGTGT 
CAGCGCTCGG ATGGAGTGAA TGTCACAGGA GGGTGTTCTC TTCGGACAAA ACCTGCCGAA 
GTCCGGCACT GCAGCCCGCC GTGCAGAAAA CCCTTCTCCT ACTGCACACA GAGAGGAGTC 
TGCAGCTGTG AGCGGGGATA CACAGAAGTA ATGAGATCAA ATGGGCTCCT GGATTACTGC 
GTGAAGGTAC CAGGTTTAGA AGATAAGAAA GCTGATGTTA AGACCATTGC CGGAAAAAAT 
AAACCTGTCA ACTCCAAAAT GCATGACATT TTCAAAGGAT GGTCTATTCA ACCTTTTAAT 
CCAGATGGTA AACTGAAGAT ATGGGTATAT GGAGTATCAG CTGGAGGGTT CTTCATCATC 
ATTTTCCTGA TTTTTACATC CTACCTGATG TGCAAAAAAA CAAAACAGCA TCAAAGCCCT 
CCACCACAGC AGAAGCCTCT AACCCTGGCC TATGATGGAG ACATTGATAT GTAA

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

RefSeq	XP_030133969.1
CDS	275..5068
Translation	MLLQQNWVSPHRAWQSLGKPFLLFVFLMLQTADLQARRGHQFVWKTGHWGRCIGDCGSGGVRSRAVWCTHAEGWTTFHANCDQQDKPESQRRCFKVCDWHLELFEWEVSGWDRCGLVPAAGAEAGAEVCVTAQHGLQRRSVRCLHKLNGTAVSGEICEYFTPQPPAEQACLVPCPRDCVVSQFSAWSPCGAGCARGLQHRTRAVLAPPLYGGAPCPSLSESRACGAPACPLGEEQHTYSLRLGPWGQCRLPHPRDAELAGRTMLDLGSDSGERSTAGLAGEVEIGYQTRQVRCVRSDGKHAALSLCLQDPVAAVTSRSCVMPKDCATSEWSPWSPCSRSCGWASVAAGLRSRRRRVRSVAVGAGEPCPQLEEREACSGGGKAPLQPCPRFAWRTSEWKACQVSLLLDQQDPQQQKQAGLCGGGIQTRVVYCAQIVVELGTHRPKEVARPVDGKLCPGPAPASSQLCHLPCLAECAVSPWSPWGPCLPESCQHHHGGRGFRMRQRQVVVDPVGTLAGCPHLVESIPCEDARCHEWEVSEGTCVTDRGKCGPGHRVLKAVCKSRKGEEVPHHLCSELPRPEVVACEVPCARDCVLSEWSPWSPCSHSCSSKNAEGTQSRSRSILALPAEGGKACPPERALQEQRACNEHLCVHFFWEVSPWSSCSEDVLGTALNATSSWNGDATCGVGIQTRRVSCRKSSSGQVTPKRCPESIRPEAVRPCLLPCRKDCVVTLFSEWTPCPTACQPGNATAVKQSRYRIILQDPASGGQACPDTLYEERECEDVPICPVYRWRSHRWSPCVLVPASVRQGQPGQSEPCGHGLQSRAVTCLSEQGGSATVGDCVQWAGAMPALVQECLIPCKDDCTFTPWSKFTACSSDCDTTRSRRRSLTGRSRKRDKCQNTEVYPQVETEPCPCEAFTSQPHGNWSECIIRGAPSELQPGMPARAGARECGQGVRLRAIACYDSAGTLVEPSRCSSSGYIEEPCTVPCPFDCKLSDWSSWSPCSSSCGPGVRVRSKWLKEKPYNGGRPCPKLDLRNQVHEAVPCYSECNLYSWEVGPWSPCKINSEQNSLHCGEGIQTREVRCVSTAEDHGVETVPNTLCSQAEVPEAVQKCTLYCPSECAVSDWGQWSPCPQVCDPNIMQIRTRQVLRPPVSSKPCPEVSQMKPCILNQNCFQYQYNLTGWSGCQLGANATCGHGQRRRLLSCRRSDGATVSMQLCQRLHLEKPVPTSSRCVVGCAVDCQLSPWSAWSQCSHTCGAGGQMVRGRSVVLRAAGEGRACPEQLTQHRSCPVKPCYSWLLGPWSPCTVQGGQCGDGLQVRNLTCVVHDASASATSKPVENALCGELPLKESVLQLPCSVPCPGDCHLTEWSEWSSCELTCISGRSFESTGRQSRSRAFIVQAAENQESCSGQEMETRPCSGGKCYDYVWQSSLWRDNVRTVWCQRSDGVNVTGGCSLRTKPAEVRHCSPPCRKPFSYCTQRGVCSCERGYTEVMRSNGLLDYCVKVPGLEDKKADVKTIAGKNKPVNSKMHDIFKGWSIQPFNPDGKLKIWVYGVSAGGFFIIIFLIFTSYLMCKKTKQHQSPPPQQKPLTLAYDGDIDM

Target ORF information:

RefSeq Version	XM_030278109.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata thrombospondin type 1 domain containing 7B (THSD7B), transcript variant X3, mRNA.

Target ORF information:

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

XM_030278109.1

ORF Insert Sequence:

ATGCTTCTAC AACAGAACTG GGTTTCTCCT CATAGGGCAT GGCAGAGCCT GGGGAAGCCC 
TTCCTTTTGT TTGTTTTCTT AATGTTGCAA ACAGCTGATC TGCAAGCCAG GAGAGGTCAC 
CAGTTTGTCT GGAAAACAGG TCACTGGGGC CGCTGCATCG GGGACTGCGG CTCGGGCGGC 
GTTCGCAGCC GGGCCGTCTG GTGCACCCAC GCCGAGGGCT GGACCACGTT CCACGCCAAC 
TGCGACCAGC AGGACAAGCC CGAGAGCCAG CGGAGGTGCT TTAAAGTCTG CGACTGGCAC 
CTGGAGCTGT TCGAGTGGGA GGTTTCGGGA TGGGACAGGT GCGGGCTGGT CCCGGCTGCG 
GGCGCTGAGG CCGGAGCCGA GGTTTGTGTG ACGGCTCAGC ACGGGCTGCA GCGCCGCAGC 
GTCCGCTGCC TGCACAAGCT GAACGGGACG GCGGTGTCCG GCGAGATCTG TGAGTATTTC 
ACGCCGCAGC CGCCGGCCGA GCAGGCCTGC CTGGTGCCGT GCCCGCGGGA CTGCGTGGTG 
TCGCAGTTCT CGGCCTGGTC CCCGTGCGGC GCGGGCTGCG CCCGGGGCCT GCAGCACCGC 
ACGCGGGCCG TCCTCGCCCC GCCGCTCTAC GGCGGAGCGC CCTGCCCCAG CCTGAGCGAG 
TCCAGGGCCT GCGGAGCCCC TGCCTGTCCC CTCGGCGAGG AGCAGCACAC CTACAGCCTC 
CGCCTGGGCC CCTGGGGCCA ATGCCGCCTG CCCCATCCTA GAGACGCGGA GCTGGCGGGG 
AGGACTATGC TGGATTTGGG GTCGGACTCT GGAGAGCGAA GCACCGCCGG CCTTGCCGGG 
GAGGTGGAGA TCGGCTACCA GACGCGGCAG GTCAGGTGCG TGAGGAGCGA TGGAAAGCAC 
GCGGCGCTCA GCCTCTGCCT GCAAGACCCC GTGGCCGCCG TGACCTCCAG GTCCTGTGTG 
ATGCCCAAGG ACTGCGCCAC GTCCGAGTGG TCCCCGTGGA GCCCCTGCTC GCGCAGCTGC 
GGCTGGGCCA GCGTGGCCGC GGGGCTGCGC AGCCGCCGCC GCCGCGTGCG CAGCGTGGCC 
GTGGGCGCCG GAGAACCCTG CCCGCAGCTG GAGGAGAGGG AAGCGTGCAG TGGAGGAGGG 
AAGGCACCGC TGCAGCCCTG CCCCAGGTTT GCCTGGAGGA CCTCTGAATG GAAAGCTTGC 
CAAGTGTCTC TGCTCCTGGA CCAGCAGGAC CCTCAGCAGC AGAAGCAGGC AGGGCTCTGT 
GGAGGTGGGA TCCAAACCCG GGTGGTCTAC TGTGCCCAGA TCGTCGTGGA GCTGGGGACA 
CACCGGCCGA AGGAGGTTGC CAGACCAGTG GATGGGAAGC TTTGCCCGGG TCCTGCCCCT 
GCCAGCTCCC AGCTGTGTCA CCTGCCGTGC CTGGCTGAGT GTGCTGTGTC CCCGTGGTCA 
CCGTGGGGTC CCTGCCTGCC CGAGAGCTGC CAGCACCACC ACGGAGGGAG AGGCTTTAGG 
ATGAGACAGA GGCAGGTGGT GGTGGATCCT GTGGGCACCC TGGCAGGTTG TCCTCATTTG 
GTGGAGTCCA TTCCTTGTGA AGACGCGCGG TGCCACGAGT GGGAGGTGTC AGAGGGGACC 
TGTGTGACCG ACCGAGGGAA GTGTGGGCCT GGTCACCGTG TCCTGAAGGC TGTCTGTAAG 
AGCAGGAAAG GTGAAGAAGT TCCACATCAC CTCTGCTCAG AGCTCCCCCG TCCCGAGGTG 
GTGGCTTGTG AAGTCCCCTG TGCCAGGGAC TGTGTGCTCA GCGAGTGGTC CCCGTGGTCC 
CCCTGCTCCC ACTCCTGCTC CAGCAAAAAC GCCGAGGGCA CTCAAAGCAG GAGCAGGTCC 
ATCCTGGCCC TTCCAGCTGA GGGTGGAAAA GCCTGTCCCC CTGAGCGAGC CCTGCAGGAG 
CAGCGTGCCT GCAACGAGCA CCTGTGTGTG CATTTCTTCT GGGAAGTGTC CCCCTGGAGC 
TCCTGCTCCG AGGACGTGCT GGGCACCGCT CTCAATGCCA CCTCCAGCTG GAACGGGGAT 
GCCACCTGCG GGGTGGGCAT CCAGACACGG AGAGTCTCCT GCAGGAAGAG CAGCTCTGGC 
CAGGTCACTC CCAAAAGGTG TCCGGAGTCC ATCCGGCCCG AGGCGGTGCG GCCGTGTCTC 
CTCCCCTGCA GGAAGGACTG TGTTGTTACA CTGTTCAGTG AGTGGACACC CTGCCCCACA 
GCCTGCCAGC CTGGCAATGC CACTGCAGTT AAGCAGTCCC GGTACAGGAT TATCCTTCAG 
GATCCTGCCA GTGGGGGACA GGCATGTCCA GACACCTTGT ATGAGGAAAG AGAATGTGAA 
GATGTTCCCA TCTGTCCAGT GTATAGGTGG AGGAGCCACC GCTGGAGCCC CTGTGTGCTG 
GTGCCAGCCT CGGTGCGCCA GGGCCAGCCG GGGCAGAGCG AGCCGTGTGG GCACGGGCTG 
CAGTCCAGGG CTGTGACGTG CCTGTCGGAG CAGGGGGGCT CTGCCACCGT CGGGGACTGC 
GTGCAGTGGG CAGGAGCGAT GCCAGCCCTC GTCCAGGAGT GCCTCATTCC CTGCAAGGAC 
GACTGCACTT TCACCCCCTG GTCTAAATTC ACAGCCTGCT CCTCTGACTG TGACACAACC 
AGGAGCAGGA GGCGGTCACT CACAGGGCGA AGCAGAAAGC GAGACAAATG CCAGAACACG 
GAAGTTTATC CCCAAGTTGA GACAGAGCCG TGCCCCTGCG AGGCCTTCAC CTCCCAGCCC 
CATGGAAATT GGTCTGAGTG CATCATCAGG GGGGCTCCAT CCGAGCTGCA GCCGGGAATG 
CCGGCCCGGG CAGGGGCCAG GGAGTGTGGC CAGGGCGTGC GGCTGCGAGC CATCGCCTGC 
TACGACAGCG CCGGCACACT GGTCGAGCCA TCTCGCTGTA GCAGTTCGGG TTACATTGAA 
GAGCCTTGCA CGGTCCCGTG CCCGTTTGAT TGCAAATTAA GCGATTGGTC CAGTTGGTCT 
CCTTGCAGCT CTTCCTGTGG CCCGGGGGTG AGAGTCCGAT CCAAGTGGCT CAAGGAGAAG 
CCCTACAATG GAGGTCGTCC CTGCCCCAAG CTGGACCTCA GGAATCAGGT GCACGAGGCA 
GTCCCATGCT ACAGTGAGTG CAATCTGTAT TCCTGGGAAG TAGGACCATG GTCTCCATGC 
AAAATCAACA GTGAACAAAA TTCCCTCCAC TGTGGAGAAG GAATACAAAC GAGGGAAGTC 
AGGTGTGTGA GCACTGCTGA GGACCACGGT GTGGAGACTG TGCCCAACAC TCTGTGCAGT 
CAGGCTGAGG TCCCAGAGGC AGTGCAGAAG TGTACCTTGT ACTGTCCCAG TGAGTGTGCA 
GTGTCTGACT GGGGACAGTG GAGCCCGTGC CCACAGGTGT GTGACCCCAA CATTATGCAA 
ATCCGAACCC GACAAGTGCT GAGGCCTCCT GTCAGTTCCA AGCCCTGCCC TGAAGTTTCA 
CAAATGAAGC CATGTATTCT TAATCAAAAC TGCTTCCAAT ACCAGTACAA CCTAACAGGC 
TGGAGCGGGT GCCAGCTGGG TGCCAATGCC ACCTGCGGTC ACGGGCAGCG CCGCCGCCTC 
CTGAGCTGCC GGCGCAGCGA CGGGGCCACC GTCAGCATGC AGCTGTGCCA GCGGCTGCAC 
CTGGAGAAGC CCGTGCCCAC GAGCAGCCGG TGCGTGGTGG GGTGTGCCGT GGACTGCCAG 
CTCTCGCCGT GGTCAGCCTG GTCGCAGTGC TCCCACACGT GTGGCGCCGG CGGCCAGATG 
GTGCGTGGGC GCTCCGTGGT GCTGCGGGCA GCGGGCGAGG GCAGAGCCTG CCCAGAGCAG 
CTCACCCAGC ACAGGAGCTG CCCAGTGAAG CCCTGCTACA GCTGGCTGCT GGGGCCCTGG 
TCTCCCTGCA CTGTCCAGGG TGGACAGTGT GGAGATGGAT TGCAAGTCCG CAACCTCACG 
TGTGTAGTGC ACGATGCATC AGCTTCTGCT ACATCCAAAC CAGTAGAAAA TGCATTGTGT 
GGTGAGCTAC CATTGAAAGA AAGTGTGCTG CAGTTACCCT GCTCTGTGCC TTGCCCAGGC 
GACTGCCACC TGACAGAGTG GTCAGAGTGG AGCTCCTGTG AGCTCACCTG CATCAGTGGC 
AGGAGCTTTG AGAGCACCGG GCGCCAGTCT CGGTCCAGGG CCTTCATCGT GCAGGCTGCA 
GAGAACCAGG AGAGCTGCTC GGGACAGGAG ATGGAGACAC GGCCCTGCTC AGGAGGGAAA 
TGTTACGACT ACGTGTGGCA AAGCAGCCTT TGGCGGGACA ACGTGCGCAC GGTGTGGTGT 
CAGCGCTCGG ATGGAGTGAA TGTCACAGGA GGGTGTTCTC TTCGGACAAA ACCTGCCGAA 
GTCCGGCACT GCAGCCCGCC GTGCAGAAAA CCCTTCTCCT ACTGCACACA GAGAGGAGTC 
TGCAGCTGTG AGCGGGGATA CACAGAAGTA ATGAGATCAA ATGGGCTCCT GGATTACTGC 
GTGAAGGTAC CAGGTTTAGA AGATAAGAAA GCTGATGTTA AGACCATTGC CGGAAAAAAT 
AAACCTGTCA ACTCCAAAAT GCATGACATT TTCAAAGGAT GGTCTATTCA ACCTTTTAAT 
CCAGATGGTA AACTGAAGAT ATGGGTATAT GGAGTATCAG CTGGAGGGTT CTTCATCATC 
ATTTTCCTGA TTTTTACATC CTACCTGATG TGCAAAAAAA CAAAACAGCA TCAAAGCCCT 
CCACCACAGC AGAAGCCTCT AACCCTGGCC TATGATGGAG ACATTGATAT GTAA

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

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THSD7B cDNA ORF clone, Taeniopygia guttata(zebra finch)

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:

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