Thsd7b cDNA ORF clone, Mus caroli(Ryukyu mouse)

Gene
Clones
gRNAs

Summary

Gene Symbol	Thsd7b
Entrez Gene ID	110296027
Full Name	thrombospondin type 1 domain containing 7B
Gene Type	protein-coding
Organism	Mus caroli(Ryukyu mouse)

mRNA and Protein(s)

mRNA	Protein	Name
XM_021164520.1	XP_021020179.1	thrombospondin type-1 domain-containing protein 7B
XM_021164520.2	XP_021020179.1	thrombospondin type-1 domain-containing protein 7B

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)
OMv23322	XM_021164520.2 Latest version!	Mus caroli thrombospondin type 1 domain containing 7B (Thsd7b), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$1021.30 $1459.00
View Old Accession Versions >>
OMv23322	XM_021164520.1	Mus caroli thrombospondin type 1 domain containing 7B (Thsd7b), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$1021.30 $1459.00
Hide Old Accession Versions >>

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

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

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

Reference Sequences (Refseq)

Thsd7b ( XM_021164520.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021020179.1 Mus caroli thrombospondin type 1 domain containing 7B (Thsd7b), mRNA.

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CloneID	OMv23322
Clone ID Related Accession (Same CDS sequence)	XM_021164520.1 , XM_021164520.2
Accession Version	XM_021164520.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5115bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2017-05-20
Organism	Mus caroli(Ryukyu mouse)
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 (NC_034570.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus caroli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 7% of CDS bases ##RefSeq-Attributes-END##

ATGTTTCTGA GGAGTGATTT GGCTGTCACT CACTGGGTTT CCAGGAGCAT GAGGAAGCTC 
TTTCTAGTGC TTTCTCTCCT GCTGTCCCAA GCAGCTCATT TGGAAGGCAG GAAGGACAAT 
CAGTTCCTCT GGAAAACAGG TCCCTGGGGA AGGTGTGCAG GTGACTGCGG ACCAGGCGGA 
GCCCAAAGTC GTGCTGTATG GTGCTTTCAC ATAGAAGGGT GGACGAGTCC CATGTCGAAC 
TGTGATGAGA GCAGCCAACC TCCAAAGGAA AGGAGCTGTT TCCGCGTGTG TGACTGGCAC 
AGTGACCTGT TCCAGTGGGA GGTTTCCGAC TGGCATCGCT GCCTTCTGGT TCCTGGGGCC 
CAAGGTGAGC CCAGGCCTCG GGCTGTGGAA TGTGTGACTG CACAGCACGG TCTACAGCAC 
AGGACAGTGC GCTGTCTTCA GAAGCTCAAT AGAACCATGG TGTCCAATGA GATCTGTGAA 
CACTTTGCTC CTCAGCCCCC CACAGAGCAA GCCTGCCTCA TTCCTTGCCC CAGGGACTGT 
GTGGTATCTG AGTTCTCCCC ATGGTCCACC TGCCCCGAAG GATGTGGGAA GAAGCTGCAG 
CATAGAACTC GTGTGGCCAT CGCGCCCCCT CTGTATGGAG GTCTGCAGTG TCCGAATCTC 
ACTGAGTCCA GAGCCTGTGA GGCTCCAGTT TCCTGTCCTC TTGGGAAAGA AGAATATTCC 
TTCAGCCTAA AGGTGGGACC ATGGAGCAAA TGTAGACTCC CTCACCTTAA GGAAGTCGAC 
CTCAGCGGAA GAAATATCCA GGATTTTAGC TCTGATTCAA ACGAGCAAGT CTCCCTAACA 
CATCAGAGTT ACAAAGCACA CCACCACTCC CAGCCTGGGG ATGTAGTGAT AGGTTTTCAA 
ACCAGGCAGG TGTGGTGTAC CAGAAGTGAT GGAAGAAACG CCCTGTTAAG CCTTTGTGTG 
CGTGATTCCT TCCCTCTGAC TGTCCAGCCT TGTGTGATGC CAAAAGACTG TGAGACTTCT 
GAATGGTCCC CATGGAGCCC CTGCTCCAAG ACCTGCCGTT CTGGGACTTT ATCACCTGGA 
GTTAGAAGCA GGAGCCGGAA CGTGAAGCAT ATTGCTATTG GAGGTGGCCA GGAATGCCCA 
GAACTTCTTG AGAAAGAGAC CTGCATTGCT GAAGGGGAAT TTCTGCAACC ATGTCCCAGG 
TATTCCTGGA GAACCTCTGA ATGGAAGGAA TGCCAAGCCT CTCTTCTTCT GGAGCAACAC 
GATCCACTTT GGCATGAGAC AGGACCAATC TGCGGTGGTG GGATCCAGAC CCGGGAGGTG 
TACTGTGCCC AGAGCCTACC AGCAACCGTT GCATCAAGGA CCAAGGAAGT CTCCAGGCCC 
GTGGAAAGTA CACTATGCTT GGGACCTGCC CCCTCAGCCT CTCAGCTTTG CAATGTCCCT 
TGCTCGATGG ACTGCATAGT ATCTTCCTGG TCAGCCTGGG GCCCATGTGT TTATGAGAAC 
TGCCATGATC CTCAGGGGAA GAAAGGCTTT AGAATGAGGC AGCGCCATGT ACTCATGGAG 
TCTACAGGGC CCATGGGGCG CTGCCCTCAT CTGGCAGAAT CTGTACCTTG TGAGGATCCA 
ATGTGTCATC GATGGCTTGC CTCGGAAGGG ATCTGTATTC CTGATCATGG GAAATGTGGC 
CTGGGACATC GCATTCTGAA GGCTGTCTGT CAGAATGAGC GAGGAGAAGA AGTATCAGGG 
GGTCTCTGTC CAGTGCCTCC TCCTCCTGAA CGAATGGCTT GTGAAATTCC CTGCCGAATG 
GACTGTGTAG TGAGTGAGTG GACGGTGTGG TCATCCTGCT CACAGTCCTG TTCAAATAAA 
AACTCAGATG GGAAACAAAC CAGGACACGT TCTATCCTGG CTTTGGCTGG AGAAGGTGGA 
AAGACCTGCC CTAGTAGTCA GGAACTCCAA GAGTACCGCC TATGCAATGA TCATTCCTGT 
ACACAGCTCT ACTGGGAGAC ATCTGCTTGG GGTTCCTGCT CTGAAAATAC TCTTGTCACT 
GCCCTCAATG TGACCATTGG CTGGAATGGA GAAGCAACAT GTGGGGTGGG CATTCAGACA 
CGAAAGGTCT TCTGTATCAA GAGTCATGTG GGACAAGTAA TGACCAAAAG ATGTCCAGAG 
TCTACACGGC CAGAAACTGT AAGACCTTGT TTCCTCCCAT GCAAGAAAGA CTGCCTTGTG 
ACTGCTTTCA GTGAGTGGAC ACCATGCCCA CGGTCCTGCC AGCCAGGAAA TACTACAATA 
AAACAATCTC GATACAGGAT TATCATCCAG GAAGCAGCCA ATGGGGGTCA AGAGTGCCCA 
GACACCTTGT TTGAAGAAAG AGAGTGTGAA GATATCTCAT TGTGCCCTTC ATACCGGTGG 
AAGCCGCAGA AATGGAGCTC CTGTATCCTG GTTCCAGAGT CTATCAGGCA GGGGAGAACA 
GGCACCAGTG AGGCATGTGG GAAGGGGCTG CAGACAAGAG CTGTCTCATG CATCTCTGAT 
GATAACCAGT CTGCAGAAAT GACAGAATGC CTCAAGCAGA TGAATGGCAT GCCTCCCCTT 
GTGCAGGAAT GCACCATTCC CTGTCGGGAA GACTGCACCT TCACCCCTTG GTCTAAGTTC 
ACTCCCTGCT CCAAGAACTG TGAAGCAACT CAGATCAGGA GGCGGCAGCT CACAGGGAAA 
AGCAGGAAGA AAGAGAAGTG CCAGGATGCA TCCCTGTACC CTCTGGTGGA AATGGAACCA 
TGTCCCTGTG ATACATTTAT GTCTCATCCT TATGGAAACT GGTCAGCTTG CATTCTACCA 
GAAGGCAAAA GGGATCCTCA GCAAGGAGGA TTGTGGGTGC AAGGAGATGA CAAAGAATGT 
GGAGAAGGCG TGCGCTTTCG AGCAATAGCA TGCTCCAATA TAAATGGAAG ACCCGTTGAT 
CCCTCATTCT GCAACAGCTC TGGTTACATT CGGGAAGCAT GTGTCATCCC CTGTCCATTT 
GATTGCAAGC TAAGTGACTG GTCCAGCTGG GGTTCTTGTA GCTCATCTTG TGGGATTGGA 
GTGAGAATTC GATCGAAATG GCTAAAAGAA AAGCCTTACA GTGGAGGTCG GCCATGTCCA 
AAACTGGATC TCAAGAATCA GGTTCATGAG GCAGTCCCAT GTTACAGTGA GTGTGATCAA 
TATTCCTGGG TCGTAGAACA CTGGTCTCCA TGCAAGATCA ACAATGAGCT GAGATCCCCA 
CGCTGTGGAA GAGGAACACA GTCTAGAAGA ATCAGGTGTG TGAGTACTGC TGACAGAGAA 
GGAGGGGCAG TGAACAGGAG CCTGTGCAAC CAGGATGATG CTCCCCCAGA AACCCAGGCC 
TGTTCTCTTC TGTGTCCCAG TGAGTGTGTC ATGTCCGAGT GGGGAACATG GAGCAGATGC 
CCCCAGTCAT GTGACCCCTA TGCAATGCAG AGAAGAACTC GGCATCTGCT GAGGCCCTCG 
CTGAACTCAA GAACTTGTGG GGAAGACTCA CAGGTGCGGC CCTGCCTCCT CAATGAAAAC 
TGTTTCCAGT TCCAGTACAA CCTGACAGAG TGGAGCACAT GCCAGCTGAG TGAAAATGTT 
TCCTGTGGCC AGGGTGTGAG GACCCGCCTG CTGAGCTGTG TGCGCAGTGA TGGCAAGTCT 
GTCAGCATGG ACCACTGTGA GCAGCGTAAT CTGGAAAAAC CCCAGAGGAT GAGTATTCCC 
TGTCTGGTGG AATGTGTGGT CAACTGCCAG CTCTCAGGAT GGACGACATG GACAGAGTGT 
TCACAAACCT GTGGCCAAGG AGGTCGCATG AGCCGGACTC GATTTATCAT TATGCCAACC 
CAAGGAGAAG GTCGACAATG CCCCACAGAA CTCACCCAGC AGAAACCCTG CCCAGTGACA 
CCCTGCTATA GTTGGGTCCT TGGCAACTGG TCTGCATGTA AATTGGAGGG CGGAGATTGT 
GGAGAAGGAG TCCAGGTGCG CAGCTTCTCC TGCGTGGTCC ACAATGGCTC AATATCCCAC 
ACAGCTGTCC CTGTGGAGGA GGCCCTGTGT GGAGAAGTAC CCTTCCAAGA AGGAATCCTG 
AAGCAGCTGT GCTCTGTGCC CTGCCCAGGA GACTGCCACA TTACCCCATG GTCTGAGTGG 
AGCAAGTGTG AGCTATCCTG CATTGATGGA AGAAGCTTCG AGACCACAGG CCGCCAATCT 
AGGTCAAGGA CATTCATAAT CCAGTCTTTC GAGAATCAAG ATAGCTGCCC CCAACAGGTT 
CTAGAAACAC GACCATGCAC AGGTGGCAAA TGTTATCACT ACATATGGAA AGCAAGTCTT 
TGGAACAATA ATGAGCGGAC TGTGTGGTGC CAGCGCTCAG ATGGCCTTAA TGTCACAGGT 
GGCTGCTCCC CTCAGGCACG CCCTGCTGCT ATTCGGCAAT GCATTCCAGC GTGCAAAAAA 
CCTTTCTCCT ACTGCACGCA GGGAGGAGTC TGTGGCTGTG AGAAGGGATA CACAGAGATA 
ATGAGATCAA GTGGCTTCCT GGATTACTGC ATGAAGGTAC CTGGCTTGGA GGATAAAAAA 
GCTGATGTGA AAAACCTCTC TGGGAAAAAT AGACCTGTGA ATTCCAAAAT ACATGATATT 
TTTAAAGGAT GGTCTCTCCA ACCTCTGGAC CCAGCCTTGT TGGAGAGATT AAGAAACTCA 
AACCTGAGGG TCGCCATGGC GGAGGTGCAG CAACTCCGAG TGCAGGAGGC TGTGGACGCC 
ATGGTGAAAA GTGTGGAGAT AGAGAACATC CGGAAGATGC AGGGCCTTGT GTTCTGGTGC 
AGCGCCAACT GCTGTGAAGA CACCCAAGCA TCTATGCAGC AGGTGCACCA ATGCATCAAG 
TGCTACCATG CGCCTCTGGC TCAAGCCCAG GCTCTGGTCA CAAGAGAGCT GGAAAGGTTC 
AAGGACCGCT TGGCCCGCTG CACCATGCAT TGCAATGACA AAGCCAAAGA CTCAATGGAA 
GCAGGAACTA AGGAGCTTCA GGTGAAGCGA CAGCTAGACA GCTGTGTGGC CAACAAGAAG 
CCAAAACCAC ATCAAAGCAC ACCTCGCCAT CAGAAGCCAC TGACCTTGGC CTACGATGGA 
GACTTGGACA TGTAA

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

RefSeq	XP_021020179.1
CDS	1..5115
Translation	MFLRSDLAVTHWVSRSMRKLFLVLSLLLSQAAHLEGRKDNQFLWKTGPWGRCAGDCGPGGAQSRAVWCFHIEGWTSPMSNCDESSQPPKERSCFRVCDWHSDLFQWEVSDWHRCLLVPGAQGEPRPRAVECVTAQHGLQHRTVRCLQKLNRTMVSNEICEHFAPQPPTEQACLIPCPRDCVVSEFSPWSTCPEGCGKKLQHRTRVAIAPPLYGGLQCPNLTESRACEAPVSCPLGKEEYSFSLKVGPWSKCRLPHLKEVDLSGRNIQDFSSDSNEQVSLTHQSYKAHHHSQPGDVVIGFQTRQVWCTRSDGRNALLSLCVRDSFPLTVQPCVMPKDCETSEWSPWSPCSKTCRSGTLSPGVRSRSRNVKHIAIGGGQECPELLEKETCIAEGEFLQPCPRYSWRTSEWKECQASLLLEQHDPLWHETGPICGGGIQTREVYCAQSLPATVASRTKEVSRPVESTLCLGPAPSASQLCNVPCSMDCIVSSWSAWGPCVYENCHDPQGKKGFRMRQRHVLMESTGPMGRCPHLAESVPCEDPMCHRWLASEGICIPDHGKCGLGHRILKAVCQNERGEEVSGGLCPVPPPPERMACEIPCRMDCVVSEWTVWSSCSQSCSNKNSDGKQTRTRSILALAGEGGKTCPSSQELQEYRLCNDHSCTQLYWETSAWGSCSENTLVTALNVTIGWNGEATCGVGIQTRKVFCIKSHVGQVMTKRCPESTRPETVRPCFLPCKKDCLVTAFSEWTPCPRSCQPGNTTIKQSRYRIIIQEAANGGQECPDTLFEERECEDISLCPSYRWKPQKWSSCILVPESIRQGRTGTSEACGKGLQTRAVSCISDDNQSAEMTECLKQMNGMPPLVQECTIPCREDCTFTPWSKFTPCSKNCEATQIRRRQLTGKSRKKEKCQDASLYPLVEMEPCPCDTFMSHPYGNWSACILPEGKRDPQQGGLWVQGDDKECGEGVRFRAIACSNINGRPVDPSFCNSSGYIREACVIPCPFDCKLSDWSSWGSCSSSCGIGVRIRSKWLKEKPYSGGRPCPKLDLKNQVHEAVPCYSECDQYSWVVEHWSPCKINNELRSPRCGRGTQSRRIRCVSTADREGGAVNRSLCNQDDAPPETQACSLLCPSECVMSEWGTWSRCPQSCDPYAMQRRTRHLLRPSLNSRTCGEDSQVRPCLLNENCFQFQYNLTEWSTCQLSENVSCGQGVRTRLLSCVRSDGKSVSMDHCEQRNLEKPQRMSIPCLVECVVNCQLSGWTTWTECSQTCGQGGRMSRTRFIIMPTQGEGRQCPTELTQQKPCPVTPCYSWVLGNWSACKLEGGDCGEGVQVRSFSCVVHNGSISHTAVPVEEALCGEVPFQEGILKQLCSVPCPGDCHITPWSEWSKCELSCIDGRSFETTGRQSRSRTFIIQSFENQDSCPQQVLETRPCTGGKCYHYIWKASLWNNNERTVWCQRSDGLNVTGGCSPQARPAAIRQCIPACKKPFSYCTQGGVCGCEKGYTEIMRSSGFLDYCMKVPGLEDKKADVKNLSGKNRPVNSKIHDIFKGWSLQPLDPALLERLRNSNLRVAMAEVQQLRVQEAVDAMVKSVEIENIRKMQGLVFWCSANCCEDTQASMQQVHQCIKCYHAPLAQAQALVTRELERFKDRLARCTMHCNDKAKDSMEAGTKELQVKRQLDSCVANKKPKPHQSTPRHQKPLTLAYDGDLDM

Target ORF information:

RefSeq Version	XM_021164520.1
Organism	Mus caroli(Ryukyu mouse)
Definition	Mus caroli thrombospondin type 1 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_021164520.1

ORF Insert Sequence:

ATGTTTCTGA GGAGTGATTT GGCTGTCACT CACTGGGTTT CCAGGAGCAT GAGGAAGCTC 
TTTCTAGTGC TTTCTCTCCT GCTGTCCCAA GCAGCTCATT TGGAAGGCAG GAAGGACAAT 
CAGTTCCTCT GGAAAACAGG TCCCTGGGGA AGGTGTGCAG GTGACTGCGG ACCAGGCGGA 
GCCCAAAGTC GTGCTGTATG GTGCTTTCAC ATAGAAGGGT GGACGAGTCC CATGTCGAAC 
TGTGATGAGA GCAGCCAACC TCCAAAGGAA AGGAGCTGTT TCCGCGTGTG TGACTGGCAC 
AGTGACCTGT TCCAGTGGGA GGTTTCCGAC TGGCATCGCT GCCTTCTGGT TCCTGGGGCC 
CAAGGTGAGC CCAGGCCTCG GGCTGTGGAA TGTGTGACTG CACAGCACGG TCTACAGCAC 
AGGACAGTGC GCTGTCTTCA GAAGCTCAAT AGAACCATGG TGTCCAATGA GATCTGTGAA 
CACTTTGCTC CTCAGCCCCC CACAGAGCAA GCCTGCCTCA TTCCTTGCCC CAGGGACTGT 
GTGGTATCTG AGTTCTCCCC ATGGTCCACC TGCCCCGAAG GATGTGGGAA GAAGCTGCAG 
CATAGAACTC GTGTGGCCAT CGCGCCCCCT CTGTATGGAG GTCTGCAGTG TCCGAATCTC 
ACTGAGTCCA GAGCCTGTGA GGCTCCAGTT TCCTGTCCTC TTGGGAAAGA AGAATATTCC 
TTCAGCCTAA AGGTGGGACC ATGGAGCAAA TGTAGACTCC CTCACCTTAA GGAAGTCGAC 
CTCAGCGGAA GAAATATCCA GGATTTTAGC TCTGATTCAA ACGAGCAAGT CTCCCTAACA 
CATCAGAGTT ACAAAGCACA CCACCACTCC CAGCCTGGGG ATGTAGTGAT AGGTTTTCAA 
ACCAGGCAGG TGTGGTGTAC CAGAAGTGAT GGAAGAAACG CCCTGTTAAG CCTTTGTGTG 
CGTGATTCCT TCCCTCTGAC TGTCCAGCCT TGTGTGATGC CAAAAGACTG TGAGACTTCT 
GAATGGTCCC CATGGAGCCC CTGCTCCAAG ACCTGCCGTT CTGGGACTTT ATCACCTGGA 
GTTAGAAGCA GGAGCCGGAA CGTGAAGCAT ATTGCTATTG GAGGTGGCCA GGAATGCCCA 
GAACTTCTTG AGAAAGAGAC CTGCATTGCT GAAGGGGAAT TTCTGCAACC ATGTCCCAGG 
TATTCCTGGA GAACCTCTGA ATGGAAGGAA TGCCAAGCCT CTCTTCTTCT GGAGCAACAC 
GATCCACTTT GGCATGAGAC AGGACCAATC TGCGGTGGTG GGATCCAGAC CCGGGAGGTG 
TACTGTGCCC AGAGCCTACC AGCAACCGTT GCATCAAGGA CCAAGGAAGT CTCCAGGCCC 
GTGGAAAGTA CACTATGCTT GGGACCTGCC CCCTCAGCCT CTCAGCTTTG CAATGTCCCT 
TGCTCGATGG ACTGCATAGT ATCTTCCTGG TCAGCCTGGG GCCCATGTGT TTATGAGAAC 
TGCCATGATC CTCAGGGGAA GAAAGGCTTT AGAATGAGGC AGCGCCATGT ACTCATGGAG 
TCTACAGGGC CCATGGGGCG CTGCCCTCAT CTGGCAGAAT CTGTACCTTG TGAGGATCCA 
ATGTGTCATC GATGGCTTGC CTCGGAAGGG ATCTGTATTC CTGATCATGG GAAATGTGGC 
CTGGGACATC GCATTCTGAA GGCTGTCTGT CAGAATGAGC GAGGAGAAGA AGTATCAGGG 
GGTCTCTGTC CAGTGCCTCC TCCTCCTGAA CGAATGGCTT GTGAAATTCC CTGCCGAATG 
GACTGTGTAG TGAGTGAGTG GACGGTGTGG TCATCCTGCT CACAGTCCTG TTCAAATAAA 
AACTCAGATG GGAAACAAAC CAGGACACGT TCTATCCTGG CTTTGGCTGG AGAAGGTGGA 
AAGACCTGCC CTAGTAGTCA GGAACTCCAA GAGTACCGCC TATGCAATGA TCATTCCTGT 
ACACAGCTCT ACTGGGAGAC ATCTGCTTGG GGTTCCTGCT CTGAAAATAC TCTTGTCACT 
GCCCTCAATG TGACCATTGG CTGGAATGGA GAAGCAACAT GTGGGGTGGG CATTCAGACA 
CGAAAGGTCT TCTGTATCAA GAGTCATGTG GGACAAGTAA TGACCAAAAG ATGTCCAGAG 
TCTACACGGC CAGAAACTGT AAGACCTTGT TTCCTCCCAT GCAAGAAAGA CTGCCTTGTG 
ACTGCTTTCA GTGAGTGGAC ACCATGCCCA CGGTCCTGCC AGCCAGGAAA TACTACAATA 
AAACAATCTC GATACAGGAT TATCATCCAG GAAGCAGCCA ATGGGGGTCA AGAGTGCCCA 
GACACCTTGT TTGAAGAAAG AGAGTGTGAA GATATCTCAT TGTGCCCTTC ATACCGGTGG 
AAGCCGCAGA AATGGAGCTC CTGTATCCTG GTTCCAGAGT CTATCAGGCA GGGGAGAACA 
GGCACCAGTG AGGCATGTGG GAAGGGGCTG CAGACAAGAG CTGTCTCATG CATCTCTGAT 
GATAACCAGT CTGCAGAAAT GACAGAATGC CTCAAGCAGA TGAATGGCAT GCCTCCCCTT 
GTGCAGGAAT GCACCATTCC CTGTCGGGAA GACTGCACCT TCACCCCTTG GTCTAAGTTC 
ACTCCCTGCT CCAAGAACTG TGAAGCAACT CAGATCAGGA GGCGGCAGCT CACAGGGAAA 
AGCAGGAAGA AAGAGAAGTG CCAGGATGCA TCCCTGTACC CTCTGGTGGA AATGGAACCA 
TGTCCCTGTG ATACATTTAT GTCTCATCCT TATGGAAACT GGTCAGCTTG CATTCTACCA 
GAAGGCAAAA GGGATCCTCA GCAAGGAGGA TTGTGGGTGC AAGGAGATGA CAAAGAATGT 
GGAGAAGGCG TGCGCTTTCG AGCAATAGCA TGCTCCAATA TAAATGGAAG ACCCGTTGAT 
CCCTCATTCT GCAACAGCTC TGGTTACATT CGGGAAGCAT GTGTCATCCC CTGTCCATTT 
GATTGCAAGC TAAGTGACTG GTCCAGCTGG GGTTCTTGTA GCTCATCTTG TGGGATTGGA 
GTGAGAATTC GATCGAAATG GCTAAAAGAA AAGCCTTACA GTGGAGGTCG GCCATGTCCA 
AAACTGGATC TCAAGAATCA GGTTCATGAG GCAGTCCCAT GTTACAGTGA GTGTGATCAA 
TATTCCTGGG TCGTAGAACA CTGGTCTCCA TGCAAGATCA ACAATGAGCT GAGATCCCCA 
CGCTGTGGAA GAGGAACACA GTCTAGAAGA ATCAGGTGTG TGAGTACTGC TGACAGAGAA 
GGAGGGGCAG TGAACAGGAG CCTGTGCAAC CAGGATGATG CTCCCCCAGA AACCCAGGCC 
TGTTCTCTTC TGTGTCCCAG TGAGTGTGTC ATGTCCGAGT GGGGAACATG GAGCAGATGC 
CCCCAGTCAT GTGACCCCTA TGCAATGCAG AGAAGAACTC GGCATCTGCT GAGGCCCTCG 
CTGAACTCAA GAACTTGTGG GGAAGACTCA CAGGTGCGGC CCTGCCTCCT CAATGAAAAC 
TGTTTCCAGT TCCAGTACAA CCTGACAGAG TGGAGCACAT GCCAGCTGAG TGAAAATGTT 
TCCTGTGGCC AGGGTGTGAG GACCCGCCTG CTGAGCTGTG TGCGCAGTGA TGGCAAGTCT 
GTCAGCATGG ACCACTGTGA GCAGCGTAAT CTGGAAAAAC CCCAGAGGAT GAGTATTCCC 
TGTCTGGTGG AATGTGTGGT CAACTGCCAG CTCTCAGGAT GGACGACATG GACAGAGTGT 
TCACAAACCT GTGGCCAAGG AGGTCGCATG AGCCGGACTC GATTTATCAT TATGCCAACC 
CAAGGAGAAG GTCGACAATG CCCCACAGAA CTCACCCAGC AGAAACCCTG CCCAGTGACA 
CCCTGCTATA GTTGGGTCCT TGGCAACTGG TCTGCATGTA AATTGGAGGG CGGAGATTGT 
GGAGAAGGAG TCCAGGTGCG CAGCTTCTCC TGCGTGGTCC ACAATGGCTC AATATCCCAC 
ACAGCTGTCC CTGTGGAGGA GGCCCTGTGT GGAGAAGTAC CCTTCCAAGA AGGAATCCTG 
AAGCAGCTGT GCTCTGTGCC CTGCCCAGGA GACTGCCACA TTACCCCATG GTCTGAGTGG 
AGCAAGTGTG AGCTATCCTG CATTGATGGA AGAAGCTTCG AGACCACAGG CCGCCAATCT 
AGGTCAAGGA CATTCATAAT CCAGTCTTTC GAGAATCAAG ATAGCTGCCC CCAACAGGTT 
CTAGAAACAC GACCATGCAC AGGTGGCAAA TGTTATCACT ACATATGGAA AGCAAGTCTT 
TGGAACAATA ATGAGCGGAC TGTGTGGTGC CAGCGCTCAG ATGGCCTTAA TGTCACAGGT 
GGCTGCTCCC CTCAGGCACG CCCTGCTGCT ATTCGGCAAT GCATTCCAGC GTGCAAAAAA 
CCTTTCTCCT ACTGCACGCA GGGAGGAGTC TGTGGCTGTG AGAAGGGATA CACAGAGATA 
ATGAGATCAA GTGGCTTCCT GGATTACTGC ATGAAGGTAC CTGGCTTGGA GGATAAAAAA 
GCTGATGTGA AAAACCTCTC TGGGAAAAAT AGACCTGTGA ATTCCAAAAT ACATGATATT 
TTTAAAGGAT GGTCTCTCCA ACCTCTGGAC CCAGCCTTGT TGGAGAGATT AAGAAACTCA 
AACCTGAGGG TCGCCATGGC GGAGGTGCAG CAACTCCGAG TGCAGGAGGC TGTGGACGCC 
ATGGTGAAAA GTGTGGAGAT AGAGAACATC CGGAAGATGC AGGGCCTTGT GTTCTGGTGC 
AGCGCCAACT GCTGTGAAGA CACCCAAGCA TCTATGCAGC AGGTGCACCA ATGCATCAAG 
TGCTACCATG CGCCTCTGGC TCAAGCCCAG GCTCTGGTCA CAAGAGAGCT GGAAAGGTTC 
AAGGACCGCT TGGCCCGCTG CACCATGCAT TGCAATGACA AAGCCAAAGA CTCAATGGAA 
GCAGGAACTA AGGAGCTTCA GGTGAAGCGA CAGCTAGACA GCTGTGTGGC CAACAAGAAG 
CCAAAACCAC ATCAAAGCAC ACCTCGCCAT CAGAAGCCAC TGACCTTGGC CTACGATGGA 
GACTTGGACA TGTAA

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

Thsd7b ( XM_021164520.2 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021020179.1 Mus caroli thrombospondin type 1 domain containing 7B (Thsd7b), mRNA.

Price & Availability↑

CloneID	OMv23322
Clone ID Related Accession (Same CDS sequence)	XM_021164520.1 , XM_021164520.2
Accession Version	XM_021164520.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5115bp) 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	2019-06-09
Organism	Mus caroli(Ryukyu mouse)
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 (NC_034570.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 10, 2019 this sequence version replaced XM_021164520.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 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## ##RefSeq-Attributes-START## ab initio :: 7% of CDS bases ##RefSeq-Attributes-END##

ATGTTTCTGA GGAGTGATTT GGCTGTCACT CACTGGGTTT CCAGGAGCAT GAGGAAGCTC 
TTTCTAGTGC TTTCTCTCCT GCTGTCCCAA GCAGCTCATT TGGAAGGCAG GAAGGACAAT 
CAGTTCCTCT GGAAAACAGG TCCCTGGGGA AGGTGTGCAG GTGACTGCGG ACCAGGCGGA 
GCCCAAAGTC GTGCTGTATG GTGCTTTCAC ATAGAAGGGT GGACGAGTCC CATGTCGAAC 
TGTGATGAGA GCAGCCAACC TCCAAAGGAA AGGAGCTGTT TCCGCGTGTG TGACTGGCAC 
AGTGACCTGT TCCAGTGGGA GGTTTCCGAC TGGCATCGCT GCCTTCTGGT TCCTGGGGCC 
CAAGGTGAGC CCAGGCCTCG GGCTGTGGAA TGTGTGACTG CACAGCACGG TCTACAGCAC 
AGGACAGTGC GCTGTCTTCA GAAGCTCAAT AGAACCATGG TGTCCAATGA GATCTGTGAA 
CACTTTGCTC CTCAGCCCCC CACAGAGCAA GCCTGCCTCA TTCCTTGCCC CAGGGACTGT 
GTGGTATCTG AGTTCTCCCC ATGGTCCACC TGCCCCGAAG GATGTGGGAA GAAGCTGCAG 
CATAGAACTC GTGTGGCCAT CGCGCCCCCT CTGTATGGAG GTCTGCAGTG TCCGAATCTC 
ACTGAGTCCA GAGCCTGTGA GGCTCCAGTT TCCTGTCCTC TTGGGAAAGA AGAATATTCC 
TTCAGCCTAA AGGTGGGACC ATGGAGCAAA TGTAGACTCC CTCACCTTAA GGAAGTCGAC 
CTCAGCGGAA GAAATATCCA GGATTTTAGC TCTGATTCAA ACGAGCAAGT CTCCCTAACA 
CATCAGAGTT ACAAAGCACA CCACCACTCC CAGCCTGGGG ATGTAGTGAT AGGTTTTCAA 
ACCAGGCAGG TGTGGTGTAC CAGAAGTGAT GGAAGAAACG CCCTGTTAAG CCTTTGTGTG 
CGTGATTCCT TCCCTCTGAC TGTCCAGCCT TGTGTGATGC CAAAAGACTG TGAGACTTCT 
GAATGGTCCC CATGGAGCCC CTGCTCCAAG ACCTGCCGTT CTGGGACTTT ATCACCTGGA 
GTTAGAAGCA GGAGCCGGAA CGTGAAGCAT ATTGCTATTG GAGGTGGCCA GGAATGCCCA 
GAACTTCTTG AGAAAGAGAC CTGCATTGCT GAAGGGGAAT TTCTGCAACC ATGTCCCAGG 
TATTCCTGGA GAACCTCTGA ATGGAAGGAA TGCCAAGCCT CTCTTCTTCT GGAGCAACAC 
GATCCACTTT GGCATGAGAC AGGACCAATC TGCGGTGGTG GGATCCAGAC CCGGGAGGTG 
TACTGTGCCC AGAGCCTACC AGCAACCGTT GCATCAAGGA CCAAGGAAGT CTCCAGGCCC 
GTGGAAAGTA CACTATGCTT GGGACCTGCC CCCTCAGCCT CTCAGCTTTG CAATGTCCCT 
TGCTCGATGG ACTGCATAGT ATCTTCCTGG TCAGCCTGGG GCCCATGTGT TTATGAGAAC 
TGCCATGATC CTCAGGGGAA GAAAGGCTTT AGAATGAGGC AGCGCCATGT ACTCATGGAG 
TCTACAGGGC CCATGGGGCG CTGCCCTCAT CTGGCAGAAT CTGTACCTTG TGAGGATCCA 
ATGTGTCATC GATGGCTTGC CTCGGAAGGG ATCTGTATTC CTGATCATGG GAAATGTGGC 
CTGGGACATC GCATTCTGAA GGCTGTCTGT CAGAATGAGC GAGGAGAAGA AGTATCAGGG 
GGTCTCTGTC CAGTGCCTCC TCCTCCTGAA CGAATGGCTT GTGAAATTCC CTGCCGAATG 
GACTGTGTAG TGAGTGAGTG GACGGTGTGG TCATCCTGCT CACAGTCCTG TTCAAATAAA 
AACTCAGATG GGAAACAAAC CAGGACACGT TCTATCCTGG CTTTGGCTGG AGAAGGTGGA 
AAGACCTGCC CTAGTAGTCA GGAACTCCAA GAGTACCGCC TATGCAATGA TCATTCCTGT 
ACACAGCTCT ACTGGGAGAC ATCTGCTTGG GGTTCCTGCT CTGAAAATAC TCTTGTCACT 
GCCCTCAATG TGACCATTGG CTGGAATGGA GAAGCAACAT GTGGGGTGGG CATTCAGACA 
CGAAAGGTCT TCTGTATCAA GAGTCATGTG GGACAAGTAA TGACCAAAAG ATGTCCAGAG 
TCTACACGGC CAGAAACTGT AAGACCTTGT TTCCTCCCAT GCAAGAAAGA CTGCCTTGTG 
ACTGCTTTCA GTGAGTGGAC ACCATGCCCA CGGTCCTGCC AGCCAGGAAA TACTACAATA 
AAACAATCTC GATACAGGAT TATCATCCAG GAAGCAGCCA ATGGGGGTCA AGAGTGCCCA 
GACACCTTGT TTGAAGAAAG AGAGTGTGAA GATATCTCAT TGTGCCCTTC ATACCGGTGG 
AAGCCGCAGA AATGGAGCTC CTGTATCCTG GTTCCAGAGT CTATCAGGCA GGGGAGAACA 
GGCACCAGTG AGGCATGTGG GAAGGGGCTG CAGACAAGAG CTGTCTCATG CATCTCTGAT 
GATAACCAGT CTGCAGAAAT GACAGAATGC CTCAAGCAGA TGAATGGCAT GCCTCCCCTT 
GTGCAGGAAT GCACCATTCC CTGTCGGGAA GACTGCACCT TCACCCCTTG GTCTAAGTTC 
ACTCCCTGCT CCAAGAACTG TGAAGCAACT CAGATCAGGA GGCGGCAGCT CACAGGGAAA 
AGCAGGAAGA AAGAGAAGTG CCAGGATGCA TCCCTGTACC CTCTGGTGGA AATGGAACCA 
TGTCCCTGTG ATACATTTAT GTCTCATCCT TATGGAAACT GGTCAGCTTG CATTCTACCA 
GAAGGCAAAA GGGATCCTCA GCAAGGAGGA TTGTGGGTGC AAGGAGATGA CAAAGAATGT 
GGAGAAGGCG TGCGCTTTCG AGCAATAGCA TGCTCCAATA TAAATGGAAG ACCCGTTGAT 
CCCTCATTCT GCAACAGCTC TGGTTACATT CGGGAAGCAT GTGTCATCCC CTGTCCATTT 
GATTGCAAGC TAAGTGACTG GTCCAGCTGG GGTTCTTGTA GCTCATCTTG TGGGATTGGA 
GTGAGAATTC GATCGAAATG GCTAAAAGAA AAGCCTTACA GTGGAGGTCG GCCATGTCCA 
AAACTGGATC TCAAGAATCA GGTTCATGAG GCAGTCCCAT GTTACAGTGA GTGTGATCAA 
TATTCCTGGG TCGTAGAACA CTGGTCTCCA TGCAAGATCA ACAATGAGCT GAGATCCCCA 
CGCTGTGGAA GAGGAACACA GTCTAGAAGA ATCAGGTGTG TGAGTACTGC TGACAGAGAA 
GGAGGGGCAG TGAACAGGAG CCTGTGCAAC CAGGATGATG CTCCCCCAGA AACCCAGGCC 
TGTTCTCTTC TGTGTCCCAG TGAGTGTGTC ATGTCCGAGT GGGGAACATG GAGCAGATGC 
CCCCAGTCAT GTGACCCCTA TGCAATGCAG AGAAGAACTC GGCATCTGCT GAGGCCCTCG 
CTGAACTCAA GAACTTGTGG GGAAGACTCA CAGGTGCGGC CCTGCCTCCT CAATGAAAAC 
TGTTTCCAGT TCCAGTACAA CCTGACAGAG TGGAGCACAT GCCAGCTGAG TGAAAATGTT 
TCCTGTGGCC AGGGTGTGAG GACCCGCCTG CTGAGCTGTG TGCGCAGTGA TGGCAAGTCT 
GTCAGCATGG ACCACTGTGA GCAGCGTAAT CTGGAAAAAC CCCAGAGGAT GAGTATTCCC 
TGTCTGGTGG AATGTGTGGT CAACTGCCAG CTCTCAGGAT GGACGACATG GACAGAGTGT 
TCACAAACCT GTGGCCAAGG AGGTCGCATG AGCCGGACTC GATTTATCAT TATGCCAACC 
CAAGGAGAAG GTCGACAATG CCCCACAGAA CTCACCCAGC AGAAACCCTG CCCAGTGACA 
CCCTGCTATA GTTGGGTCCT TGGCAACTGG TCTGCATGTA AATTGGAGGG CGGAGATTGT 
GGAGAAGGAG TCCAGGTGCG CAGCTTCTCC TGCGTGGTCC ACAATGGCTC AATATCCCAC 
ACAGCTGTCC CTGTGGAGGA GGCCCTGTGT GGAGAAGTAC CCTTCCAAGA AGGAATCCTG 
AAGCAGCTGT GCTCTGTGCC CTGCCCAGGA GACTGCCACA TTACCCCATG GTCTGAGTGG 
AGCAAGTGTG AGCTATCCTG CATTGATGGA AGAAGCTTCG AGACCACAGG CCGCCAATCT 
AGGTCAAGGA CATTCATAAT CCAGTCTTTC GAGAATCAAG ATAGCTGCCC CCAACAGGTT 
CTAGAAACAC GACCATGCAC AGGTGGCAAA TGTTATCACT ACATATGGAA AGCAAGTCTT 
TGGAACAATA ATGAGCGGAC TGTGTGGTGC CAGCGCTCAG ATGGCCTTAA TGTCACAGGT 
GGCTGCTCCC CTCAGGCACG CCCTGCTGCT ATTCGGCAAT GCATTCCAGC GTGCAAAAAA 
CCTTTCTCCT ACTGCACGCA GGGAGGAGTC TGTGGCTGTG AGAAGGGATA CACAGAGATA 
ATGAGATCAA GTGGCTTCCT GGATTACTGC ATGAAGGTAC CTGGCTTGGA GGATAAAAAA 
GCTGATGTGA AAAACCTCTC TGGGAAAAAT AGACCTGTGA ATTCCAAAAT ACATGATATT 
TTTAAAGGAT GGTCTCTCCA ACCTCTGGAC CCAGCCTTGT TGGAGAGATT AAGAAACTCA 
AACCTGAGGG TCGCCATGGC GGAGGTGCAG CAACTCCGAG TGCAGGAGGC TGTGGACGCC 
ATGGTGAAAA GTGTGGAGAT AGAGAACATC CGGAAGATGC AGGGCCTTGT GTTCTGGTGC 
AGCGCCAACT GCTGTGAAGA CACCCAAGCA TCTATGCAGC AGGTGCACCA ATGCATCAAG 
TGCTACCATG CGCCTCTGGC TCAAGCCCAG GCTCTGGTCA CAAGAGAGCT GGAAAGGTTC 
AAGGACCGCT TGGCCCGCTG CACCATGCAT TGCAATGACA AAGCCAAAGA CTCAATGGAA 
GCAGGAACTA AGGAGCTTCA GGTGAAGCGA CAGCTAGACA GCTGTGTGGC CAACAAGAAG 
CCAAAACCAC ATCAAAGCAC ACCTCGCCAT CAGAAGCCAC TGACCTTGGC CTACGATGGA 
GACTTGGACA TGTAA

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

RefSeq	XP_021020179.1
CDS	334..5448
Translation	MFLRSDLAVTHWVSRSMRKLFLVLSLLLSQAAHLEGRKDNQFLWKTGPWGRCAGDCGPGGAQSRAVWCFHIEGWTSPMSNCDESSQPPKERSCFRVCDWHSDLFQWEVSDWHRCLLVPGAQGEPRPRAVECVTAQHGLQHRTVRCLQKLNRTMVSNEICEHFAPQPPTEQACLIPCPRDCVVSEFSPWSTCPEGCGKKLQHRTRVAIAPPLYGGLQCPNLTESRACEAPVSCPLGKEEYSFSLKVGPWSKCRLPHLKEVDLSGRNIQDFSSDSNEQVSLTHQSYKAHHHSQPGDVVIGFQTRQVWCTRSDGRNALLSLCVRDSFPLTVQPCVMPKDCETSEWSPWSPCSKTCRSGTLSPGVRSRSRNVKHIAIGGGQECPELLEKETCIAEGEFLQPCPRYSWRTSEWKECQASLLLEQHDPLWHETGPICGGGIQTREVYCAQSLPATVASRTKEVSRPVESTLCLGPAPSASQLCNVPCSMDCIVSSWSAWGPCVYENCHDPQGKKGFRMRQRHVLMESTGPMGRCPHLAESVPCEDPMCHRWLASEGICIPDHGKCGLGHRILKAVCQNERGEEVSGGLCPVPPPPERMACEIPCRMDCVVSEWTVWSSCSQSCSNKNSDGKQTRTRSILALAGEGGKTCPSSQELQEYRLCNDHSCTQLYWETSAWGSCSENTLVTALNVTIGWNGEATCGVGIQTRKVFCIKSHVGQVMTKRCPESTRPETVRPCFLPCKKDCLVTAFSEWTPCPRSCQPGNTTIKQSRYRIIIQEAANGGQECPDTLFEERECEDISLCPSYRWKPQKWSSCILVPESIRQGRTGTSEACGKGLQTRAVSCISDDNQSAEMTECLKQMNGMPPLVQECTIPCREDCTFTPWSKFTPCSKNCEATQIRRRQLTGKSRKKEKCQDASLYPLVEMEPCPCDTFMSHPYGNWSACILPEGKRDPQQGGLWVQGDDKECGEGVRFRAIACSNINGRPVDPSFCNSSGYIREACVIPCPFDCKLSDWSSWGSCSSSCGIGVRIRSKWLKEKPYSGGRPCPKLDLKNQVHEAVPCYSECDQYSWVVEHWSPCKINNELRSPRCGRGTQSRRIRCVSTADREGGAVNRSLCNQDDAPPETQACSLLCPSECVMSEWGTWSRCPQSCDPYAMQRRTRHLLRPSLNSRTCGEDSQVRPCLLNENCFQFQYNLTEWSTCQLSENVSCGQGVRTRLLSCVRSDGKSVSMDHCEQRNLEKPQRMSIPCLVECVVNCQLSGWTTWTECSQTCGQGGRMSRTRFIIMPTQGEGRQCPTELTQQKPCPVTPCYSWVLGNWSACKLEGGDCGEGVQVRSFSCVVHNGSISHTAVPVEEALCGEVPFQEGILKQLCSVPCPGDCHITPWSEWSKCELSCIDGRSFETTGRQSRSRTFIIQSFENQDSCPQQVLETRPCTGGKCYHYIWKASLWNNNERTVWCQRSDGLNVTGGCSPQARPAAIRQCIPACKKPFSYCTQGGVCGCEKGYTEIMRSSGFLDYCMKVPGLEDKKADVKNLSGKNRPVNSKIHDIFKGWSLQPLDPALLERLRNSNLRVAMAEVQQLRVQEAVDAMVKSVEIENIRKMQGLVFWCSANCCEDTQASMQQVHQCIKCYHAPLAQAQALVTRELERFKDRLARCTMHCNDKAKDSMEAGTKELQVKRQLDSCVANKKPKPHQSTPRHQKPLTLAYDGDLDM

Target ORF information:

RefSeq Version	XM_021164520.2
Organism	Mus caroli(Ryukyu mouse)
Definition	Mus caroli thrombospondin type 1 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_021164520.2

ORF Insert Sequence:

ATGTTTCTGA GGAGTGATTT GGCTGTCACT CACTGGGTTT CCAGGAGCAT GAGGAAGCTC 
TTTCTAGTGC TTTCTCTCCT GCTGTCCCAA GCAGCTCATT TGGAAGGCAG GAAGGACAAT 
CAGTTCCTCT GGAAAACAGG TCCCTGGGGA AGGTGTGCAG GTGACTGCGG ACCAGGCGGA 
GCCCAAAGTC GTGCTGTATG GTGCTTTCAC ATAGAAGGGT GGACGAGTCC CATGTCGAAC 
TGTGATGAGA GCAGCCAACC TCCAAAGGAA AGGAGCTGTT TCCGCGTGTG TGACTGGCAC 
AGTGACCTGT TCCAGTGGGA GGTTTCCGAC TGGCATCGCT GCCTTCTGGT TCCTGGGGCC 
CAAGGTGAGC CCAGGCCTCG GGCTGTGGAA TGTGTGACTG CACAGCACGG TCTACAGCAC 
AGGACAGTGC GCTGTCTTCA GAAGCTCAAT AGAACCATGG TGTCCAATGA GATCTGTGAA 
CACTTTGCTC CTCAGCCCCC CACAGAGCAA GCCTGCCTCA TTCCTTGCCC CAGGGACTGT 
GTGGTATCTG AGTTCTCCCC ATGGTCCACC TGCCCCGAAG GATGTGGGAA GAAGCTGCAG 
CATAGAACTC GTGTGGCCAT CGCGCCCCCT CTGTATGGAG GTCTGCAGTG TCCGAATCTC 
ACTGAGTCCA GAGCCTGTGA GGCTCCAGTT TCCTGTCCTC TTGGGAAAGA AGAATATTCC 
TTCAGCCTAA AGGTGGGACC ATGGAGCAAA TGTAGACTCC CTCACCTTAA GGAAGTCGAC 
CTCAGCGGAA GAAATATCCA GGATTTTAGC TCTGATTCAA ACGAGCAAGT CTCCCTAACA 
CATCAGAGTT ACAAAGCACA CCACCACTCC CAGCCTGGGG ATGTAGTGAT AGGTTTTCAA 
ACCAGGCAGG TGTGGTGTAC CAGAAGTGAT GGAAGAAACG CCCTGTTAAG CCTTTGTGTG 
CGTGATTCCT TCCCTCTGAC TGTCCAGCCT TGTGTGATGC CAAAAGACTG TGAGACTTCT 
GAATGGTCCC CATGGAGCCC CTGCTCCAAG ACCTGCCGTT CTGGGACTTT ATCACCTGGA 
GTTAGAAGCA GGAGCCGGAA CGTGAAGCAT ATTGCTATTG GAGGTGGCCA GGAATGCCCA 
GAACTTCTTG AGAAAGAGAC CTGCATTGCT GAAGGGGAAT TTCTGCAACC ATGTCCCAGG 
TATTCCTGGA GAACCTCTGA ATGGAAGGAA TGCCAAGCCT CTCTTCTTCT GGAGCAACAC 
GATCCACTTT GGCATGAGAC AGGACCAATC TGCGGTGGTG GGATCCAGAC CCGGGAGGTG 
TACTGTGCCC AGAGCCTACC AGCAACCGTT GCATCAAGGA CCAAGGAAGT CTCCAGGCCC 
GTGGAAAGTA CACTATGCTT GGGACCTGCC CCCTCAGCCT CTCAGCTTTG CAATGTCCCT 
TGCTCGATGG ACTGCATAGT ATCTTCCTGG TCAGCCTGGG GCCCATGTGT TTATGAGAAC 
TGCCATGATC CTCAGGGGAA GAAAGGCTTT AGAATGAGGC AGCGCCATGT ACTCATGGAG 
TCTACAGGGC CCATGGGGCG CTGCCCTCAT CTGGCAGAAT CTGTACCTTG TGAGGATCCA 
ATGTGTCATC GATGGCTTGC CTCGGAAGGG ATCTGTATTC CTGATCATGG GAAATGTGGC 
CTGGGACATC GCATTCTGAA GGCTGTCTGT CAGAATGAGC GAGGAGAAGA AGTATCAGGG 
GGTCTCTGTC CAGTGCCTCC TCCTCCTGAA CGAATGGCTT GTGAAATTCC CTGCCGAATG 
GACTGTGTAG TGAGTGAGTG GACGGTGTGG TCATCCTGCT CACAGTCCTG TTCAAATAAA 
AACTCAGATG GGAAACAAAC CAGGACACGT TCTATCCTGG CTTTGGCTGG AGAAGGTGGA 
AAGACCTGCC CTAGTAGTCA GGAACTCCAA GAGTACCGCC TATGCAATGA TCATTCCTGT 
ACACAGCTCT ACTGGGAGAC ATCTGCTTGG GGTTCCTGCT CTGAAAATAC TCTTGTCACT 
GCCCTCAATG TGACCATTGG CTGGAATGGA GAAGCAACAT GTGGGGTGGG CATTCAGACA 
CGAAAGGTCT TCTGTATCAA GAGTCATGTG GGACAAGTAA TGACCAAAAG ATGTCCAGAG 
TCTACACGGC CAGAAACTGT AAGACCTTGT TTCCTCCCAT GCAAGAAAGA CTGCCTTGTG 
ACTGCTTTCA GTGAGTGGAC ACCATGCCCA CGGTCCTGCC AGCCAGGAAA TACTACAATA 
AAACAATCTC GATACAGGAT TATCATCCAG GAAGCAGCCA ATGGGGGTCA AGAGTGCCCA 
GACACCTTGT TTGAAGAAAG AGAGTGTGAA GATATCTCAT TGTGCCCTTC ATACCGGTGG 
AAGCCGCAGA AATGGAGCTC CTGTATCCTG GTTCCAGAGT CTATCAGGCA GGGGAGAACA 
GGCACCAGTG AGGCATGTGG GAAGGGGCTG CAGACAAGAG CTGTCTCATG CATCTCTGAT 
GATAACCAGT CTGCAGAAAT GACAGAATGC CTCAAGCAGA TGAATGGCAT GCCTCCCCTT 
GTGCAGGAAT GCACCATTCC CTGTCGGGAA GACTGCACCT TCACCCCTTG GTCTAAGTTC 
ACTCCCTGCT CCAAGAACTG TGAAGCAACT CAGATCAGGA GGCGGCAGCT CACAGGGAAA 
AGCAGGAAGA AAGAGAAGTG CCAGGATGCA TCCCTGTACC CTCTGGTGGA AATGGAACCA 
TGTCCCTGTG ATACATTTAT GTCTCATCCT TATGGAAACT GGTCAGCTTG CATTCTACCA 
GAAGGCAAAA GGGATCCTCA GCAAGGAGGA TTGTGGGTGC AAGGAGATGA CAAAGAATGT 
GGAGAAGGCG TGCGCTTTCG AGCAATAGCA TGCTCCAATA TAAATGGAAG ACCCGTTGAT 
CCCTCATTCT GCAACAGCTC TGGTTACATT CGGGAAGCAT GTGTCATCCC CTGTCCATTT 
GATTGCAAGC TAAGTGACTG GTCCAGCTGG GGTTCTTGTA GCTCATCTTG TGGGATTGGA 
GTGAGAATTC GATCGAAATG GCTAAAAGAA AAGCCTTACA GTGGAGGTCG GCCATGTCCA 
AAACTGGATC TCAAGAATCA GGTTCATGAG GCAGTCCCAT GTTACAGTGA GTGTGATCAA 
TATTCCTGGG TCGTAGAACA CTGGTCTCCA TGCAAGATCA ACAATGAGCT GAGATCCCCA 
CGCTGTGGAA GAGGAACACA GTCTAGAAGA ATCAGGTGTG TGAGTACTGC TGACAGAGAA 
GGAGGGGCAG TGAACAGGAG CCTGTGCAAC CAGGATGATG CTCCCCCAGA AACCCAGGCC 
TGTTCTCTTC TGTGTCCCAG TGAGTGTGTC ATGTCCGAGT GGGGAACATG GAGCAGATGC 
CCCCAGTCAT GTGACCCCTA TGCAATGCAG AGAAGAACTC GGCATCTGCT GAGGCCCTCG 
CTGAACTCAA GAACTTGTGG GGAAGACTCA CAGGTGCGGC CCTGCCTCCT CAATGAAAAC 
TGTTTCCAGT TCCAGTACAA CCTGACAGAG TGGAGCACAT GCCAGCTGAG TGAAAATGTT 
TCCTGTGGCC AGGGTGTGAG GACCCGCCTG CTGAGCTGTG TGCGCAGTGA TGGCAAGTCT 
GTCAGCATGG ACCACTGTGA GCAGCGTAAT CTGGAAAAAC CCCAGAGGAT GAGTATTCCC 
TGTCTGGTGG AATGTGTGGT CAACTGCCAG CTCTCAGGAT GGACGACATG GACAGAGTGT 
TCACAAACCT GTGGCCAAGG AGGTCGCATG AGCCGGACTC GATTTATCAT TATGCCAACC 
CAAGGAGAAG GTCGACAATG CCCCACAGAA CTCACCCAGC AGAAACCCTG CCCAGTGACA 
CCCTGCTATA GTTGGGTCCT TGGCAACTGG TCTGCATGTA AATTGGAGGG CGGAGATTGT 
GGAGAAGGAG TCCAGGTGCG CAGCTTCTCC TGCGTGGTCC ACAATGGCTC AATATCCCAC 
ACAGCTGTCC CTGTGGAGGA GGCCCTGTGT GGAGAAGTAC CCTTCCAAGA AGGAATCCTG 
AAGCAGCTGT GCTCTGTGCC CTGCCCAGGA GACTGCCACA TTACCCCATG GTCTGAGTGG 
AGCAAGTGTG AGCTATCCTG CATTGATGGA AGAAGCTTCG AGACCACAGG CCGCCAATCT 
AGGTCAAGGA CATTCATAAT CCAGTCTTTC GAGAATCAAG ATAGCTGCCC CCAACAGGTT 
CTAGAAACAC GACCATGCAC AGGTGGCAAA TGTTATCACT ACATATGGAA AGCAAGTCTT 
TGGAACAATA ATGAGCGGAC TGTGTGGTGC CAGCGCTCAG ATGGCCTTAA TGTCACAGGT 
GGCTGCTCCC CTCAGGCACG CCCTGCTGCT ATTCGGCAAT GCATTCCAGC GTGCAAAAAA 
CCTTTCTCCT ACTGCACGCA GGGAGGAGTC TGTGGCTGTG AGAAGGGATA CACAGAGATA 
ATGAGATCAA GTGGCTTCCT GGATTACTGC ATGAAGGTAC CTGGCTTGGA GGATAAAAAA 
GCTGATGTGA AAAACCTCTC TGGGAAAAAT AGACCTGTGA ATTCCAAAAT ACATGATATT 
TTTAAAGGAT GGTCTCTCCA ACCTCTGGAC CCAGCCTTGT TGGAGAGATT AAGAAACTCA 
AACCTGAGGG TCGCCATGGC GGAGGTGCAG CAACTCCGAG TGCAGGAGGC TGTGGACGCC 
ATGGTGAAAA GTGTGGAGAT AGAGAACATC CGGAAGATGC AGGGCCTTGT GTTCTGGTGC 
AGCGCCAACT GCTGTGAAGA CACCCAAGCA TCTATGCAGC AGGTGCACCA ATGCATCAAG 
TGCTACCATG CGCCTCTGGC TCAAGCCCAG GCTCTGGTCA CAAGAGAGCT GGAAAGGTTC 
AAGGACCGCT TGGCCCGCTG CACCATGCAT TGCAATGACA AAGCCAAAGA CTCAATGGAA 
GCAGGAACTA AGGAGCTTCA GGTGAAGCGA CAGCTAGACA GCTGTGTGGC CAACAAGAAG 
CCAAAACCAC ATCAAAGCAC ACCTCGCCAT CAGAAGCCAC TGACCTTGGC CTACGATGGA 
GACTTGGACA TGTAA