thsd7ba cDNA ORF clone, Danio rerio(zebrafish)

The following thsd7ba gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the thsd7ba cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
ODa60305 XM_017357762.1
Latest version!
Danio rerio thrombospondin, type I, domain containing 7Ba (thsd7ba), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $510.30
$729.00
ODa14940 XM_689568.9
Latest version!
Danio rerio thrombospondin, type I, domain containing 7Ba (thsd7ba), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
ODa44838 XM_009304519.3
Latest version!
Danio rerio thrombospondin, type I, domain containing 7Ba (thsd7ba), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
View Old Accession Versions >>
ODa14940 XM_689568.8 Danio rerio thrombospondin, type I, domain containing 7Ba (thsd7ba), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
ODa44838 XM_009304519.2 Danio rerio thrombospondin, type I, domain containing 7Ba (thsd7ba), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
Hide Old Accession Versions >>

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)
    CloneID ODa60305
    Clone ID Related Accession (Same CDS sequence) XM_017357762.1
    Accession Version XM_017357762.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2619bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product thrombospondin type-1 domain-containing protein 7B isoform X3
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007120.6) 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 :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    ATGTCAATGG GCTGGACTAT GATTCTAAAA GATGACTCTG GTGTAACGGG CTGGACATGG 
    CGGGTTGGGA ACTACCTGCT GCTCTCAATG TCTCTCATCG GAATGCATGT GAAGTCAGAC
    CTGGAATTTC CAAAGGACAG GCACTATACA TGGAAAACGG GTCATTGGGG CAGATGCATA
    GGGGAAGAAT GTGGTACCGG CGGGGTACAA TCCAGGACAG TGTGGTGCAT CCACACAGAA
    GGCTGGACCA CACACCACTC CAACTGTCGG CATTCAGACA AACCCGAGAG CCAGAGGCCT
    TGCTTTAAAG TATGTGAGTG GCACCAGGAC CTCTTTGAAT GGGAAGTGTC AGAATGGGGC
    CCTTGTGTTC TAGCCCCCCT CCTGTCCAAC GAGCTCAAAC TGCGGACCGC ACAGTGCATT
    ACAGCCCAAC ACGGCATCCA GAGACGGAAG GTCCATTGTG TGCGCACTTC CAACCGCACA
    TCGGTTACAG AAAGGATATG CGATTTCTTT TCACCACGAC CAGCTTTCGA GCAGGCCTGC
    TTGATCCCCT GCCCTCATGA CTGCATTGTG TCCGATTTCT CCTCTTGGTC TGGCTGCAGC
    AGAACATGCG GTGCGGGTCT TCAACATCGA ACCCGACATG TCCTAGCAGC GCCAATGTAC
    GGAGGCGCCA ACTGCCCCAA CCTCACCCAA ACAAGGACTT GCTCAAACCT TTTCCCCTGT
    CCTCTTGGGG AAAGCGAGCA TCACTACAGC CTTAAAGTCG GCCTCTGGAG CGAATGCAGG
    CAGCCACAAC ACAAAGGGCT TTGGATGAGC GGAAGGACCG TGCTAGACTT CAGCACAGGA
    GATACCGAAA GAAACACAGT GAAACGACAT ATTCAGAGCT CCCAGCACCA CCATCACCAC
    CTCCACCAAC ACCACCACCA GCACAGTCTC AAGGGTTTAG ATGTGGAGAT CGGCTATCAA
    ACACGGCAAG TTCGTTGCAT GCGCAGCGAT GGAAAAAACG CCATGCTGAG CCTTTGTACC
    CTTGACAACG GCCCTGGCAC TTTCCAGTCT TGTGTTATGC CCAGAGACTG CGAGACCTCC
    GATTGGTCCG TTTGGAGTCC ATGTTCAAAG ACATGCAGAG CATCAGATAT GTCGCCTGGT
    TTTCGGGTCA GGACTCGAAG CATAACGCAC ACTCCCATTG GTCAAGGCAA AGGATGCCCT
    GCTCTTGAAG AAAAGGAGGC CTGCAACATC ATTGGAGATC TGCTTCCAAA CTGCCCAAGG
    TACGTGTGGA AGAGCACCGA TTGGGGGGAC TGTCAAGTGG CCCCTCTTCT TAGCCAGCAG
    GACAGAAGGC TTGACAATGT TAGCGTTCTC TGTGGTGGAG GGATTCAGAC CAGGCAGCTG
    TACTGCGTCC AGGTCCCAGA CAATTCCACC CCTCATCATA GAAAAGAGGT GTCTAGGCCT
    GTAAATGTGC ATCTGTGCAC AGGAGATCCG CCTTCTGCAG TGCAGCCCTG CTCCATTCCA
    TGCCCACAGC TGTGCCTGCT CTCATCCTGG TCCTCCTGGG GAGCCTGTAT CCACGACAAC
    TGCATGGAGA CGCATGGACG AAAAGGCTTC AAGCAGAGGA GGAGGGATGT GCTGGAGGAA
    GGATCTGGAA CCGAGAACTG TGCTCATCTC CTGGAGTCAA TGCCCTGTGA GGATCCACTG
    TGCTTCCGGT GGCAGGTGCA GATGGAGAGT GCTTGTGTGC CCAGCAATGG CACCTGCGGG
    AATGGAACCA GGACACAAAC TGTGGCTTGC ATCAATTCAC AAGGGCAGCT TGTTCCAGAG
    GAGCTTTGTG AAGAAGAGTC TCCCCCTGCT GAGGTGTCCT GTGTGATGGC CTGTTCTGGT
    GACTGTGTGC TCAGCTCCTG GTCTCACTGG TCCTCCTGCT CTCACAGCTG CTCCAGCAAA
    AACTCTGAAG GCCGTCAGAG CCGCATACGC ACCATATTAG GCTTGCCAGG AGAAGATAAG
    ACGTGTCCAG CTGCTACTGC TCTGGAGGAG TGGAGAACTT GTAATGATCA TCCATGCATC
    ACCTTCTTCT GGGAAGCTTC GCCGTGGGGG CCTTGCATTG AAGACTCCTC TATGAATGTA
    AATGGCAGCG GCTACTGGAA CGGAACGGCC ACCTGTGCAG TCGGGCTGCA GATCCGTAAA
    GTGGCCTGCA TGAAAATGGG CGTTGGGCCG GTTATTCCCA AAAGGTGTCC AGAATCTGCC
    CGTCCAGACA CCATTCAGCC CTGTTTACTG CCCTGTGAGA AAGATTGCAT TGTGACTCCT
    TTCAGCGAAT GGACAGCCTG CCCGACCACA TGCCTGCCAG TGAACAGCAG CGTGGCCTCA
    CAGTCACGAT ACAGGATCAT CATCCAGCGG GCGGCCAATG GAGGTCAAGA GTGTCCCGAT
    ACTTTATTTG AAGAGAGGGA ATGTGAAGCT CTTCTGCTTT GTCCCACTTA CAGATGGAAG
    ACACACAGAT GGCATCCGTG TACTCTGGTC CCAGATTCAG TCCAGCAGGG AATGACCGGA
    GCGAGTGAAT CGTGTGGTAA AGGATTAGAG ATGAGAGGGC ACTGCGGGGA ACCAAGAACA
    AGTGTGAGAA AGAAAAGGGA GAAAGTAGAG AACGAGTAG

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

    RefSeq XP_017213251.1
    CDS491..3109
    Translation

    Target ORF information:

    RefSeq Version XM_017357762.1
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio thrombospondin, type I, domain containing 7Ba (thsd7ba), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017357762.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    ATGTCAATGG GCTGGACTAT GATTCTAAAA GATGACTCTG GTGTAACGGG CTGGACATGG 
    CGGGTTGGGA ACTACCTGCT GCTCTCAATG TCTCTCATCG GAATGCATGT GAAGTCAGAC
    CTGGAATTTC CAAAGGACAG GCACTATACA TGGAAAACGG GTCATTGGGG CAGATGCATA
    GGGGAAGAAT GTGGTACCGG CGGGGTACAA TCCAGGACAG TGTGGTGCAT CCACACAGAA
    GGCTGGACCA CACACCACTC CAACTGTCGG CATTCAGACA AACCCGAGAG CCAGAGGCCT
    TGCTTTAAAG TATGTGAGTG GCACCAGGAC CTCTTTGAAT GGGAAGTGTC AGAATGGGGC
    CCTTGTGTTC TAGCCCCCCT CCTGTCCAAC GAGCTCAAAC TGCGGACCGC ACAGTGCATT
    ACAGCCCAAC ACGGCATCCA GAGACGGAAG GTCCATTGTG TGCGCACTTC CAACCGCACA
    TCGGTTACAG AAAGGATATG CGATTTCTTT TCACCACGAC CAGCTTTCGA GCAGGCCTGC
    TTGATCCCCT GCCCTCATGA CTGCATTGTG TCCGATTTCT CCTCTTGGTC TGGCTGCAGC
    AGAACATGCG GTGCGGGTCT TCAACATCGA ACCCGACATG TCCTAGCAGC GCCAATGTAC
    GGAGGCGCCA ACTGCCCCAA CCTCACCCAA ACAAGGACTT GCTCAAACCT TTTCCCCTGT
    CCTCTTGGGG AAAGCGAGCA TCACTACAGC CTTAAAGTCG GCCTCTGGAG CGAATGCAGG
    CAGCCACAAC ACAAAGGGCT TTGGATGAGC GGAAGGACCG TGCTAGACTT CAGCACAGGA
    GATACCGAAA GAAACACAGT GAAACGACAT ATTCAGAGCT CCCAGCACCA CCATCACCAC
    CTCCACCAAC ACCACCACCA GCACAGTCTC AAGGGTTTAG ATGTGGAGAT CGGCTATCAA
    ACACGGCAAG TTCGTTGCAT GCGCAGCGAT GGAAAAAACG CCATGCTGAG CCTTTGTACC
    CTTGACAACG GCCCTGGCAC TTTCCAGTCT TGTGTTATGC CCAGAGACTG CGAGACCTCC
    GATTGGTCCG TTTGGAGTCC ATGTTCAAAG ACATGCAGAG CATCAGATAT GTCGCCTGGT
    TTTCGGGTCA GGACTCGAAG CATAACGCAC ACTCCCATTG GTCAAGGCAA AGGATGCCCT
    GCTCTTGAAG AAAAGGAGGC CTGCAACATC ATTGGAGATC TGCTTCCAAA CTGCCCAAGG
    TACGTGTGGA AGAGCACCGA TTGGGGGGAC TGTCAAGTGG CCCCTCTTCT TAGCCAGCAG
    GACAGAAGGC TTGACAATGT TAGCGTTCTC TGTGGTGGAG GGATTCAGAC CAGGCAGCTG
    TACTGCGTCC AGGTCCCAGA CAATTCCACC CCTCATCATA GAAAAGAGGT GTCTAGGCCT
    GTAAATGTGC ATCTGTGCAC AGGAGATCCG CCTTCTGCAG TGCAGCCCTG CTCCATTCCA
    TGCCCACAGC TGTGCCTGCT CTCATCCTGG TCCTCCTGGG GAGCCTGTAT CCACGACAAC
    TGCATGGAGA CGCATGGACG AAAAGGCTTC AAGCAGAGGA GGAGGGATGT GCTGGAGGAA
    GGATCTGGAA CCGAGAACTG TGCTCATCTC CTGGAGTCAA TGCCCTGTGA GGATCCACTG
    TGCTTCCGGT GGCAGGTGCA GATGGAGAGT GCTTGTGTGC CCAGCAATGG CACCTGCGGG
    AATGGAACCA GGACACAAAC TGTGGCTTGC ATCAATTCAC AAGGGCAGCT TGTTCCAGAG
    GAGCTTTGTG AAGAAGAGTC TCCCCCTGCT GAGGTGTCCT GTGTGATGGC CTGTTCTGGT
    GACTGTGTGC TCAGCTCCTG GTCTCACTGG TCCTCCTGCT CTCACAGCTG CTCCAGCAAA
    AACTCTGAAG GCCGTCAGAG CCGCATACGC ACCATATTAG GCTTGCCAGG AGAAGATAAG
    ACGTGTCCAG CTGCTACTGC TCTGGAGGAG TGGAGAACTT GTAATGATCA TCCATGCATC
    ACCTTCTTCT GGGAAGCTTC GCCGTGGGGG CCTTGCATTG AAGACTCCTC TATGAATGTA
    AATGGCAGCG GCTACTGGAA CGGAACGGCC ACCTGTGCAG TCGGGCTGCA GATCCGTAAA
    GTGGCCTGCA TGAAAATGGG CGTTGGGCCG GTTATTCCCA AAAGGTGTCC AGAATCTGCC
    CGTCCAGACA CCATTCAGCC CTGTTTACTG CCCTGTGAGA AAGATTGCAT TGTGACTCCT
    TTCAGCGAAT GGACAGCCTG CCCGACCACA TGCCTGCCAG TGAACAGCAG CGTGGCCTCA
    CAGTCACGAT ACAGGATCAT CATCCAGCGG GCGGCCAATG GAGGTCAAGA GTGTCCCGAT
    ACTTTATTTG AAGAGAGGGA ATGTGAAGCT CTTCTGCTTT GTCCCACTTA CAGATGGAAG
    ACACACAGAT GGCATCCGTG TACTCTGGTC CCAGATTCAG TCCAGCAGGG AATGACCGGA
    GCGAGTGAAT CGTGTGGTAA AGGATTAGAG ATGAGAGGGC ACTGCGGGGA ACCAAGAACA
    AGTGTGAGAA AGAAAAGGGA GAAAGTAGAG AACGAGTAG

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

    CloneID ODa14940
    Clone ID Related Accession (Same CDS sequence) XM_689568.8 , XM_689568.9
    Accession Version XM_689568.8 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4890bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product thrombospondin type-1 domain-containing protein 7B isoform X1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007120.6) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_689568.7. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    ATGTCAATGG GCTGGACTAT GATTCTAAAA GATGACTCTG GTGTAACGGG CTGGACATGG 
    CGGGTTGGGA ACTACCTGCT GCTCTCAATG TCTCTCATCG GAATGCATGT GAAGTCAGAC
    CTGGAATTTC CAAAGGACAG GCACTATACA TGGAAAACGG GTCATTGGGG CAGATGCATA
    GGGGAAGAAT GTGGTACCGG CGGGGTACAA TCCAGGACAG TGTGGTGCAT CCACACAGAA
    GGCTGGACCA CACACCACTC CAACTGTCGG CATTCAGACA AACCCGAGAG CCAGAGGCCT
    TGCTTTAAAG TATGTGAGTG GCACCAGGAC CTCTTTGAAT GGGAAGTGTC AGAATGGGGC
    CCTTGTGTTC TAGCCCCCCT CCTGTCCAAC GAGCTCAAAC TGCGGACCGC ACAGTGCATT
    ACAGCCCAAC ACGGCATCCA GAGACGGAAG GTCCATTGTG TGCGCACTTC CAACCGCACA
    TCGGTTACAG AAAGGATATG CGATTTCTTT TCACCACGAC CAGCTTTCGA GCAGGCCTGC
    TTGATCCCCT GCCCTCATGA CTGCATTGTG TCCGATTTCT CCTCTTGGTC TGGCTGCAGC
    AGAACATGCG GTGCGGGTCT TCAACATCGA ACCCGACATG TCCTAGCAGC GCCAATGTAC
    GGAGGCGCCA ACTGCCCCAA CCTCACCCAA ACAAGGACTT GCTCAAACCT TTTCCCCTGT
    CCTCTTGGGG AAAGCGAGCA TCACTACAGC CTTAAAGTCG GCCTCTGGAG CGAATGCAGG
    CAGCCACAAC ACAAAGGGCT TTGGATGAGC GGAAGGACCG TGCTAGACTT CAGCACAGGA
    GATACCGAAA GAAACACAGT GAAACGACAT ATTCAGAGCT CCCAGCACCA CCATCACCAC
    CTCCACCAAC ACCACCACCA GCACAGTCTC AAGGGTTTAG ATGTGGAGAT CGGCTATCAA
    ACACGGCAAG TTCGTTGCAT GCGCAGCGAT GGAAAAAACG CCATGCTGAG CCTTTGTACC
    CTTGACAACG GCCCTGGCAC TTTCCAGTCT TGTGTTATGC CCAGAGACTG CGAGACCTCC
    GATTGGTCCG TTTGGAGTCC ATGTTCAAAG ACATGCAGAG CATCAGATAT GTCGCCTGGT
    TTTCGGGTCA GGACTCGAAG CATAACGCAC ACTCCCATTG GTCAAGGCAA AGGATGCCCT
    GCTCTTGAAG AAAAGGAGGC CTGCAACATC ATTGGAGATC TGCTTCCAAA CTGCCCAAGG
    TACGTGTGGA AGAGCACCGA TTGGGGGGAC TGTCAAGTGG CCCCTCTTCT TAGCCAGCAG
    GACAGAAGGC TTGACAATGT TAGCGTTCTC TGTGGTGGAG GGATTCAGAC CAGGCAGCTG
    TACTGCGTCC AGGTCCCAGA CAATTCCACC CCTCATCATA GAAAAGAGGT GTCTAGGCCT
    GTAAATGTGC ATCTGTGCAC AGGAGATCCG CCTTCTGCAG TGCAGCCCTG CTCCATTCCA
    TGCCCACAGC TGTGCCTGCT CTCATCCTGG TCCTCCTGGG GAGCCTGTAT CCACGACAAC
    TGCATGGAGA CGCATGGACG AAAAGGCTTC AAGCAGAGGA GGAGGGATGT GCTGGAGGAA
    GGATCTGGAA CCGAGAACTG TGCTCATCTC CTGGAGTCAA TGCCCTGTGA GGATCCACTG
    TGCTTCCGGT GGCAGGTGCA GATGGAGAGT GCTTGTGTGC CCAGCAATGG CACCTGCGGG
    AATGGAACCA GGACACAAAC TGTGGCTTGC ATCAATTCAC AAGGGCAGCT TGTTCCAGAG
    GAGCTTTGTG AAGAAGAGTC TCCCCCTGCT GAGGTGTCCT GTGTGATGGC CTGTTCTGGT
    GACTGTGTGC TCAGCTCCTG GTCTCACTGG TCCTCCTGCT CTCACAGCTG CTCCAGCAAA
    AACTCTGAAG GCCGTCAGAG CCGCATACGC ACCATATTAG GCTTGCCAGG AGAAGATAAG
    ACGTGTCCAG CTGCTACTGC TCTGGAGGAG TGGAGAACTT GTAATGATCA TCCATGCATC
    ACCTTCTTCT GGGAAGCTTC GCCGTGGGGG CCTTGCATTG AAGACTCCTC TATGAATGTA
    AATGGCAGCG GCTACTGGAA CGGAACGGCC ACCTGTGCAG TCGGGCTGCA GATCCGTAAA
    GTGGCCTGCA TGAAAATGGG CGTTGGGCCG GTTATTCCCA AAAGGTGTCC AGAATCTGCC
    CGTCCAGACA CCATTCAGCC CTGTTTACTG CCCTGTGAGA AAGATTGCAT TGTGACTCCT
    TTCAGCGAAT GGACAGCCTG CCCGACCACA TGCCTGCCAG TGAACAGCAG CGTGGCCTCA
    CAGTCACGAT ACAGGATCAT CATCCAGCGG GCGGCCAATG GAGGTCAAGA GTGTCCCGAT
    ACTTTATTTG AAGAGAGGGA ATGTGAAGCT CTTCTGCTTT GTCCCACTTA CAGATGGAAG
    ACACACAGAT GGCATCCGTG TACTCTGGTC CCAGATTCAG TCCAGCAGGG AATGACCGGA
    GCGAGTGAAT CGTGTGGTAA AGGATTAGAG ATGAGAGGCG TGAGCTGTGT GAATGAGTAT
    GATGAGATGG TGGCCGTGTC CGAGTGTCTC CAGTGGGCCG GGCCGATGCC GTCTCGCTTC
    AGGAGCTGTT GGGTGGCATG TAAAGATGAC TGTGCCTTTA GTTCCTGGTC GAAATTTTCT
    GAATGCGCTG GATGTGGGAG CAGACGGACA CGCAAACGCA CAATTACAGG TCGTAGCCGA
    AAACTAGACC GATGTCAGCG GGAAGACTTG TTCCCTCTTG TGGAGTCCGA ACCCTGTCCG
    TGTGAGGAGT TTGTTTCTCA GCCATACGGT AATTGGTCGT CTTGTATCCT GTCGGAGACC
    CCAGCACAGG GTTGGAGGGG TCGTCGAGAG GCACGCGACT GTGGTCAGGG ATTCCGCTAT
    CGAGCAATGT CCTGTCTAGA CCACGAATCC CACCTGGTCA GCCCAGAACT CTGCAGCGAA
    TCAGGTCTGG TGGAAGAGGT CTGCTACATA CCCTGCCCTC TGGACTGCAA GCTGAGCGAC
    TGGTCACCGT GGTCAGCCTG CAGCGCCTCC TGTGGCAGTG GACTGAAAAT CAGGTCCAAA
    TGGCTACGAG AGAAGCCTTT CAACGGGGGG AGGCCGTGTC CAAAACTAGA CCTCAAGAAT
    CAGGCTCAGG TGTATGAGGC AGTTCCCTGT CGAAGTGAGT GTGATCAGTA CGAGTGGCTA
    ACAGACCCAT GGTCAGTCTG TACCATCAAC ACAGTGGATG AGCTGCCAGC CTGTGGAGAG
    GGAGTCCAGA GCCGCAAGAT CTGGTGTGTG AGTCGTGGCA GTGAGGACCT GGTGGCCAGT
    GTGAATGAGA CCCTGTGTGA CCAGGATGAA ATTCCTCCTC AAGCGCAGAC CTGCGTCCTG
    CCGTGTCCTG ACGACTGCGT GATGTCCCAG TGGAGTCAGT GGAGCACCTG TGCCATACCG
    TGTGACGAAA ACAGCTCGAG GACTAGGACA AGGCACGTGC TGCGCCCCCC GGTGGCTGAC
    AGAGTGTGTC CAGAAAATAA TCAGACGGAG CCCTGCATCC TCAACAGCAC CTGCTTCAAT
    TACCACTACA ATGTTTCCAG CTGGAGCACC TGTCAGCTGA GCGAACATGC CATCTGCGGC
    CAGGGCACGA GGACACGACT CTTAGATTGC ATCCGCAGCG ATGGCAAAGT GGTGGATTTG
    AGCGTGTGCG AGGAGTTGGG CCTGCTTCAG CTGTGGAGAC TGACCATGAA ATGTGTGGTG
    GACTGTCCCT TTAACTGCAT CCTGTCTGAC TGGACGTCCT GGACGGAGTG TTCACACACC
    TGTGGAAGTA AAGGTGTTAA AACTCGCTTT CGCACTGTGC TCCAGCCGGC TCATGAGGAG
    GGACGTCCCT GCGCCTCCCA GCTGTCCCAA ACCAAGCCTT GTCCCATCAG CCCCTGCTAC
    ACGTGGCTAC TGAGCGACTG GTCTCCCTGC AGAGTCCAGG GAGCTGAATG TGGAGAGGGC
    ACGAGGGAGA GGAACCTGAC GTGTGTACAG CACTGGTCAG ACTGGCCGGA CAGTCCAAAC
    CCTTCTGAAG CCCTCGAGGA CGATAAGTGT GGAGACCGAC TCCGAAAGCA GAGTGAGCAG
    GAGCTGCAGC AGCCGTGCTT TGTTCCCTGC CCAGGAGACT GTCACCTGAC GGAGTGGTCA
    TTGTGGAGCT CCTGTCAGCT CACGTGTTTG GAGGGTCGCA GTTTCGAGAC AGTGGGGCGT
    CAGGCACGTT CACAAGCTGT TGTCATTCAG GTGCTGGACA ATCAGGACAG CTGCCCTCAG
    CAGGTTTTCG AGACCAGGCC GTGCAAAGGA GGGAAATGTC ACAGTTACGA GTGGAGGACC
    AGTGCCTGGA ATGACAACGA GAGATCAGTG TGGTGCCAGC GGTCTGACGG GGTCAATGTG
    ACAGGGGGCT GCTTTCCACA GAACCGGCCA ACCACTGTGC GCCACTGTCA CCCTCCCTGC
    ACTAAACCCT TCTCCCACTG CAAGCAGAGT GGTGTGTGTG GCTGTGAGAG AGGCTACACT
    GAAGTGATGA CCACACATGG CTTTTTGGAC TACTGCACCA AAACCCCAGG CACCGACAAC
    AAGAAGGCCG ATGTGAAGAC CAGCTCAGGA AGATTAAGAC CAGGCACGAC TCAAATCCAG
    GACTTCTTCG GCGAGTGGTC CCTGCAGCCT CTCGGCCCAG ATGGAAGAAT AAAGCTGTGG
    GTCTACGGGT TAACAGCTGG AGGATTCATT GTCATATTAT TCACAATTGC TGTGGCCTTT
    CTGTTTTGCA AACCATCCAA ACAGAGTAAA AGTGCATCTC CACCACAGAA GCCCTTGACT
    CTGGCCTATG ATGGCGATGT GGACATGTGA

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

    RefSeq XP_694660.6
    CDS491..5380
    Translation

    Target ORF information:

    RefSeq Version XM_689568.8
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio thrombospondin, type I, domain containing 7Ba (thsd7ba), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_689568.8

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    ATGTCAATGG GCTGGACTAT GATTCTAAAA GATGACTCTG GTGTAACGGG CTGGACATGG 
    CGGGTTGGGA ACTACCTGCT GCTCTCAATG TCTCTCATCG GAATGCATGT GAAGTCAGAC
    CTGGAATTTC CAAAGGACAG GCACTATACA TGGAAAACGG GTCATTGGGG CAGATGCATA
    GGGGAAGAAT GTGGTACCGG CGGGGTACAA TCCAGGACAG TGTGGTGCAT CCACACAGAA
    GGCTGGACCA CACACCACTC CAACTGTCGG CATTCAGACA AACCCGAGAG CCAGAGGCCT
    TGCTTTAAAG TATGTGAGTG GCACCAGGAC CTCTTTGAAT GGGAAGTGTC AGAATGGGGC
    CCTTGTGTTC TAGCCCCCCT CCTGTCCAAC GAGCTCAAAC TGCGGACCGC ACAGTGCATT
    ACAGCCCAAC ACGGCATCCA GAGACGGAAG GTCCATTGTG TGCGCACTTC CAACCGCACA
    TCGGTTACAG AAAGGATATG CGATTTCTTT TCACCACGAC CAGCTTTCGA GCAGGCCTGC
    TTGATCCCCT GCCCTCATGA CTGCATTGTG TCCGATTTCT CCTCTTGGTC TGGCTGCAGC
    AGAACATGCG GTGCGGGTCT TCAACATCGA ACCCGACATG TCCTAGCAGC GCCAATGTAC
    GGAGGCGCCA ACTGCCCCAA CCTCACCCAA ACAAGGACTT GCTCAAACCT TTTCCCCTGT
    CCTCTTGGGG AAAGCGAGCA TCACTACAGC CTTAAAGTCG GCCTCTGGAG CGAATGCAGG
    CAGCCACAAC ACAAAGGGCT TTGGATGAGC GGAAGGACCG TGCTAGACTT CAGCACAGGA
    GATACCGAAA GAAACACAGT GAAACGACAT ATTCAGAGCT CCCAGCACCA CCATCACCAC
    CTCCACCAAC ACCACCACCA GCACAGTCTC AAGGGTTTAG ATGTGGAGAT CGGCTATCAA
    ACACGGCAAG TTCGTTGCAT GCGCAGCGAT GGAAAAAACG CCATGCTGAG CCTTTGTACC
    CTTGACAACG GCCCTGGCAC TTTCCAGTCT TGTGTTATGC CCAGAGACTG CGAGACCTCC
    GATTGGTCCG TTTGGAGTCC ATGTTCAAAG ACATGCAGAG CATCAGATAT GTCGCCTGGT
    TTTCGGGTCA GGACTCGAAG CATAACGCAC ACTCCCATTG GTCAAGGCAA AGGATGCCCT
    GCTCTTGAAG AAAAGGAGGC CTGCAACATC ATTGGAGATC TGCTTCCAAA CTGCCCAAGG
    TACGTGTGGA AGAGCACCGA TTGGGGGGAC TGTCAAGTGG CCCCTCTTCT TAGCCAGCAG
    GACAGAAGGC TTGACAATGT TAGCGTTCTC TGTGGTGGAG GGATTCAGAC CAGGCAGCTG
    TACTGCGTCC AGGTCCCAGA CAATTCCACC CCTCATCATA GAAAAGAGGT GTCTAGGCCT
    GTAAATGTGC ATCTGTGCAC AGGAGATCCG CCTTCTGCAG TGCAGCCCTG CTCCATTCCA
    TGCCCACAGC TGTGCCTGCT CTCATCCTGG TCCTCCTGGG GAGCCTGTAT CCACGACAAC
    TGCATGGAGA CGCATGGACG AAAAGGCTTC AAGCAGAGGA GGAGGGATGT GCTGGAGGAA
    GGATCTGGAA CCGAGAACTG TGCTCATCTC CTGGAGTCAA TGCCCTGTGA GGATCCACTG
    TGCTTCCGGT GGCAGGTGCA GATGGAGAGT GCTTGTGTGC CCAGCAATGG CACCTGCGGG
    AATGGAACCA GGACACAAAC TGTGGCTTGC ATCAATTCAC AAGGGCAGCT TGTTCCAGAG
    GAGCTTTGTG AAGAAGAGTC TCCCCCTGCT GAGGTGTCCT GTGTGATGGC CTGTTCTGGT
    GACTGTGTGC TCAGCTCCTG GTCTCACTGG TCCTCCTGCT CTCACAGCTG CTCCAGCAAA
    AACTCTGAAG GCCGTCAGAG CCGCATACGC ACCATATTAG GCTTGCCAGG AGAAGATAAG
    ACGTGTCCAG CTGCTACTGC TCTGGAGGAG TGGAGAACTT GTAATGATCA TCCATGCATC
    ACCTTCTTCT GGGAAGCTTC GCCGTGGGGG CCTTGCATTG AAGACTCCTC TATGAATGTA
    AATGGCAGCG GCTACTGGAA CGGAACGGCC ACCTGTGCAG TCGGGCTGCA GATCCGTAAA
    GTGGCCTGCA TGAAAATGGG CGTTGGGCCG GTTATTCCCA AAAGGTGTCC AGAATCTGCC
    CGTCCAGACA CCATTCAGCC CTGTTTACTG CCCTGTGAGA AAGATTGCAT TGTGACTCCT
    TTCAGCGAAT GGACAGCCTG CCCGACCACA TGCCTGCCAG TGAACAGCAG CGTGGCCTCA
    CAGTCACGAT ACAGGATCAT CATCCAGCGG GCGGCCAATG GAGGTCAAGA GTGTCCCGAT
    ACTTTATTTG AAGAGAGGGA ATGTGAAGCT CTTCTGCTTT GTCCCACTTA CAGATGGAAG
    ACACACAGAT GGCATCCGTG TACTCTGGTC CCAGATTCAG TCCAGCAGGG AATGACCGGA
    GCGAGTGAAT CGTGTGGTAA AGGATTAGAG ATGAGAGGCG TGAGCTGTGT GAATGAGTAT
    GATGAGATGG TGGCCGTGTC CGAGTGTCTC CAGTGGGCCG GGCCGATGCC GTCTCGCTTC
    AGGAGCTGTT GGGTGGCATG TAAAGATGAC TGTGCCTTTA GTTCCTGGTC GAAATTTTCT
    GAATGCGCTG GATGTGGGAG CAGACGGACA CGCAAACGCA CAATTACAGG TCGTAGCCGA
    AAACTAGACC GATGTCAGCG GGAAGACTTG TTCCCTCTTG TGGAGTCCGA ACCCTGTCCG
    TGTGAGGAGT TTGTTTCTCA GCCATACGGT AATTGGTCGT CTTGTATCCT GTCGGAGACC
    CCAGCACAGG GTTGGAGGGG TCGTCGAGAG GCACGCGACT GTGGTCAGGG ATTCCGCTAT
    CGAGCAATGT CCTGTCTAGA CCACGAATCC CACCTGGTCA GCCCAGAACT CTGCAGCGAA
    TCAGGTCTGG TGGAAGAGGT CTGCTACATA CCCTGCCCTC TGGACTGCAA GCTGAGCGAC
    TGGTCACCGT GGTCAGCCTG CAGCGCCTCC TGTGGCAGTG GACTGAAAAT CAGGTCCAAA
    TGGCTACGAG AGAAGCCTTT CAACGGGGGG AGGCCGTGTC CAAAACTAGA CCTCAAGAAT
    CAGGCTCAGG TGTATGAGGC AGTTCCCTGT CGAAGTGAGT GTGATCAGTA CGAGTGGCTA
    ACAGACCCAT GGTCAGTCTG TACCATCAAC ACAGTGGATG AGCTGCCAGC CTGTGGAGAG
    GGAGTCCAGA GCCGCAAGAT CTGGTGTGTG AGTCGTGGCA GTGAGGACCT GGTGGCCAGT
    GTGAATGAGA CCCTGTGTGA CCAGGATGAA ATTCCTCCTC AAGCGCAGAC CTGCGTCCTG
    CCGTGTCCTG ACGACTGCGT GATGTCCCAG TGGAGTCAGT GGAGCACCTG TGCCATACCG
    TGTGACGAAA ACAGCTCGAG GACTAGGACA AGGCACGTGC TGCGCCCCCC GGTGGCTGAC
    AGAGTGTGTC CAGAAAATAA TCAGACGGAG CCCTGCATCC TCAACAGCAC CTGCTTCAAT
    TACCACTACA ATGTTTCCAG CTGGAGCACC TGTCAGCTGA GCGAACATGC CATCTGCGGC
    CAGGGCACGA GGACACGACT CTTAGATTGC ATCCGCAGCG ATGGCAAAGT GGTGGATTTG
    AGCGTGTGCG AGGAGTTGGG CCTGCTTCAG CTGTGGAGAC TGACCATGAA ATGTGTGGTG
    GACTGTCCCT TTAACTGCAT CCTGTCTGAC TGGACGTCCT GGACGGAGTG TTCACACACC
    TGTGGAAGTA AAGGTGTTAA AACTCGCTTT CGCACTGTGC TCCAGCCGGC TCATGAGGAG
    GGACGTCCCT GCGCCTCCCA GCTGTCCCAA ACCAAGCCTT GTCCCATCAG CCCCTGCTAC
    ACGTGGCTAC TGAGCGACTG GTCTCCCTGC AGAGTCCAGG GAGCTGAATG TGGAGAGGGC
    ACGAGGGAGA GGAACCTGAC GTGTGTACAG CACTGGTCAG ACTGGCCGGA CAGTCCAAAC
    CCTTCTGAAG CCCTCGAGGA CGATAAGTGT GGAGACCGAC TCCGAAAGCA GAGTGAGCAG
    GAGCTGCAGC AGCCGTGCTT TGTTCCCTGC CCAGGAGACT GTCACCTGAC GGAGTGGTCA
    TTGTGGAGCT CCTGTCAGCT CACGTGTTTG GAGGGTCGCA GTTTCGAGAC AGTGGGGCGT
    CAGGCACGTT CACAAGCTGT TGTCATTCAG GTGCTGGACA ATCAGGACAG CTGCCCTCAG
    CAGGTTTTCG AGACCAGGCC GTGCAAAGGA GGGAAATGTC ACAGTTACGA GTGGAGGACC
    AGTGCCTGGA ATGACAACGA GAGATCAGTG TGGTGCCAGC GGTCTGACGG GGTCAATGTG
    ACAGGGGGCT GCTTTCCACA GAACCGGCCA ACCACTGTGC GCCACTGTCA CCCTCCCTGC
    ACTAAACCCT TCTCCCACTG CAAGCAGAGT GGTGTGTGTG GCTGTGAGAG AGGCTACACT
    GAAGTGATGA CCACACATGG CTTTTTGGAC TACTGCACCA AAACCCCAGG CACCGACAAC
    AAGAAGGCCG ATGTGAAGAC CAGCTCAGGA AGATTAAGAC CAGGCACGAC TCAAATCCAG
    GACTTCTTCG GCGAGTGGTC CCTGCAGCCT CTCGGCCCAG ATGGAAGAAT AAAGCTGTGG
    GTCTACGGGT TAACAGCTGG AGGATTCATT GTCATATTAT TCACAATTGC TGTGGCCTTT
    CTGTTTTGCA AACCATCCAA ACAGAGTAAA AGTGCATCTC CACCACAGAA GCCCTTGACT
    CTGGCCTATG ATGGCGATGT GGACATGTGA

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

    CloneID ODa14940
    Clone ID Related Accession (Same CDS sequence) XM_689568.8 , XM_689568.9
    Accession Version XM_689568.9 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4890bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product 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_007120.7) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_689568.8. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    ATGTCAATGG GCTGGACTAT GATTCTAAAA GATGACTCTG GTGTAACGGG CTGGACATGG 
    CGGGTTGGGA ACTACCTGCT GCTCTCAATG TCTCTCATCG GAATGCATGT GAAGTCAGAC
    CTGGAATTTC CAAAGGACAG GCACTATACA TGGAAAACGG GTCATTGGGG CAGATGCATA
    GGGGAAGAAT GTGGTACCGG CGGGGTACAA TCCAGGACAG TGTGGTGCAT CCACACAGAA
    GGCTGGACCA CACACCACTC CAACTGTCGG CATTCAGACA AACCCGAGAG CCAGAGGCCT
    TGCTTTAAAG TATGTGAGTG GCACCAGGAC CTCTTTGAAT GGGAAGTGTC AGAATGGGGC
    CCTTGTGTTC TAGCCCCCCT CCTGTCCAAC GAGCTCAAAC TGCGGACCGC ACAGTGCATT
    ACAGCCCAAC ACGGCATCCA GAGACGGAAG GTCCATTGTG TGCGCACTTC CAACCGCACA
    TCGGTTACAG AAAGGATATG CGATTTCTTT TCACCACGAC CAGCTTTCGA GCAGGCCTGC
    TTGATCCCCT GCCCTCATGA CTGCATTGTG TCCGATTTCT CCTCTTGGTC TGGCTGCAGC
    AGAACATGCG GTGCGGGTCT TCAACATCGA ACCCGACATG TCCTAGCAGC GCCAATGTAC
    GGAGGCGCCA ACTGCCCCAA CCTCACCCAA ACAAGGACTT GCTCAAACCT TTTCCCCTGT
    CCTCTTGGGG AAAGCGAGCA TCACTACAGC CTTAAAGTCG GCCTCTGGAG CGAATGCAGG
    CAGCCACAAC ACAAAGGGCT TTGGATGAGC GGAAGGACCG TGCTAGACTT CAGCACAGGA
    GATACCGAAA GAAACACAGT GAAACGACAT ATTCAGAGCT CCCAGCACCA CCATCACCAC
    CTCCACCAAC ACCACCACCA GCACAGTCTC AAGGGTTTAG ATGTGGAGAT CGGCTATCAA
    ACACGGCAAG TTCGTTGCAT GCGCAGCGAT GGAAAAAACG CCATGCTGAG CCTTTGTACC
    CTTGACAACG GCCCTGGCAC TTTCCAGTCT TGTGTTATGC CCAGAGACTG CGAGACCTCC
    GATTGGTCCG TTTGGAGTCC ATGTTCAAAG ACATGCAGAG CATCAGATAT GTCGCCTGGT
    TTTCGGGTCA GGACTCGAAG CATAACGCAC ACTCCCATTG GTCAAGGCAA AGGATGCCCT
    GCTCTTGAAG AAAAGGAGGC CTGCAACATC ATTGGAGATC TGCTTCCAAA CTGCCCAAGG
    TACGTGTGGA AGAGCACCGA TTGGGGGGAC TGTCAAGTGG CCCCTCTTCT TAGCCAGCAG
    GACAGAAGGC TTGACAATGT TAGCGTTCTC TGTGGTGGAG GGATTCAGAC CAGGCAGCTG
    TACTGCGTCC AGGTCCCAGA CAATTCCACC CCTCATCATA GAAAAGAGGT GTCTAGGCCT
    GTAAATGTGC ATCTGTGCAC AGGAGATCCG CCTTCTGCAG TGCAGCCCTG CTCCATTCCA
    TGCCCACAGC TGTGCCTGCT CTCATCCTGG TCCTCCTGGG GAGCCTGTAT CCACGACAAC
    TGCATGGAGA CGCATGGACG AAAAGGCTTC AAGCAGAGGA GGAGGGATGT GCTGGAGGAA
    GGATCTGGAA CCGAGAACTG TGCTCATCTC CTGGAGTCAA TGCCCTGTGA GGATCCACTG
    TGCTTCCGGT GGCAGGTGCA GATGGAGAGT GCTTGTGTGC CCAGCAATGG CACCTGCGGG
    AATGGAACCA GGACACAAAC TGTGGCTTGC ATCAATTCAC AAGGGCAGCT TGTTCCAGAG
    GAGCTTTGTG AAGAAGAGTC TCCCCCTGCT GAGGTGTCCT GTGTGATGGC CTGTTCTGGT
    GACTGTGTGC TCAGCTCCTG GTCTCACTGG TCCTCCTGCT CTCACAGCTG CTCCAGCAAA
    AACTCTGAAG GCCGTCAGAG CCGCATACGC ACCATATTAG GCTTGCCAGG AGAAGATAAG
    ACGTGTCCAG CTGCTACTGC TCTGGAGGAG TGGAGAACTT GTAATGATCA TCCATGCATC
    ACCTTCTTCT GGGAAGCTTC GCCGTGGGGG CCTTGCATTG AAGACTCCTC TATGAATGTA
    AATGGCAGCG GCTACTGGAA CGGAACGGCC ACCTGTGCAG TCGGGCTGCA GATCCGTAAA
    GTGGCCTGCA TGAAAATGGG CGTTGGGCCG GTTATTCCCA AAAGGTGTCC AGAATCTGCC
    CGTCCAGACA CCATTCAGCC CTGTTTACTG CCCTGTGAGA AAGATTGCAT TGTGACTCCT
    TTCAGCGAAT GGACAGCCTG CCCGACCACA TGCCTGCCAG TGAACAGCAG CGTGGCCTCA
    CAGTCACGAT ACAGGATCAT CATCCAGCGG GCGGCCAATG GAGGTCAAGA GTGTCCCGAT
    ACTTTATTTG AAGAGAGGGA ATGTGAAGCT CTTCTGCTTT GTCCCACTTA CAGATGGAAG
    ACACACAGAT GGCATCCGTG TACTCTGGTC CCAGATTCAG TCCAGCAGGG AATGACCGGA
    GCGAGTGAAT CGTGTGGTAA AGGATTAGAG ATGAGAGGCG TGAGCTGTGT GAATGAGTAT
    GATGAGATGG TGGCCGTGTC CGAGTGTCTC CAGTGGGCCG GGCCGATGCC GTCTCGCTTC
    AGGAGCTGTT GGGTGGCATG TAAAGATGAC TGTGCCTTTA GTTCCTGGTC GAAATTTTCT
    GAATGCGCTG GATGTGGGAG CAGACGGACA CGCAAACGCA CAATTACAGG TCGTAGCCGA
    AAACTAGACC GATGTCAGCG GGAAGACTTG TTCCCTCTTG TGGAGTCCGA ACCCTGTCCG
    TGTGAGGAGT TTGTTTCTCA GCCATACGGT AATTGGTCGT CTTGTATCCT GTCGGAGACC
    CCAGCACAGG GTTGGAGGGG TCGTCGAGAG GCACGCGACT GTGGTCAGGG ATTCCGCTAT
    CGAGCAATGT CCTGTCTAGA CCACGAATCC CACCTGGTCA GCCCAGAACT CTGCAGCGAA
    TCAGGTCTGG TGGAAGAGGT CTGCTACATA CCCTGCCCTC TGGACTGCAA GCTGAGCGAC
    TGGTCACCGT GGTCAGCCTG CAGCGCCTCC TGTGGCAGTG GACTGAAAAT CAGGTCCAAA
    TGGCTACGAG AGAAGCCTTT CAACGGGGGG AGGCCGTGTC CAAAACTAGA CCTCAAGAAT
    CAGGCTCAGG TGTATGAGGC AGTTCCCTGT CGAAGTGAGT GTGATCAGTA CGAGTGGCTA
    ACAGACCCAT GGTCAGTCTG TACCATCAAC ACAGTGGATG AGCTGCCAGC CTGTGGAGAG
    GGAGTCCAGA GCCGCAAGAT CTGGTGTGTG AGTCGTGGCA GTGAGGACCT GGTGGCCAGT
    GTGAATGAGA CCCTGTGTGA CCAGGATGAA ATTCCTCCTC AAGCGCAGAC CTGCGTCCTG
    CCGTGTCCTG ACGACTGCGT GATGTCCCAG TGGAGTCAGT GGAGCACCTG TGCCATACCG
    TGTGACGAAA ACAGCTCGAG GACTAGGACA AGGCACGTGC TGCGCCCCCC GGTGGCTGAC
    AGAGTGTGTC CAGAAAATAA TCAGACGGAG CCCTGCATCC TCAACAGCAC CTGCTTCAAT
    TACCACTACA ATGTTTCCAG CTGGAGCACC TGTCAGCTGA GCGAACATGC CATCTGCGGC
    CAGGGCACGA GGACACGACT CTTAGATTGC ATCCGCAGCG ATGGCAAAGT GGTGGATTTG
    AGCGTGTGCG AGGAGTTGGG CCTGCTTCAG CTGTGGAGAC TGACCATGAA ATGTGTGGTG
    GACTGTCCCT TTAACTGCAT CCTGTCTGAC TGGACGTCCT GGACGGAGTG TTCACACACC
    TGTGGAAGTA AAGGTGTTAA AACTCGCTTT CGCACTGTGC TCCAGCCGGC TCATGAGGAG
    GGACGTCCCT GCGCCTCCCA GCTGTCCCAA ACCAAGCCTT GTCCCATCAG CCCCTGCTAC
    ACGTGGCTAC TGAGCGACTG GTCTCCCTGC AGAGTCCAGG GAGCTGAATG TGGAGAGGGC
    ACGAGGGAGA GGAACCTGAC GTGTGTACAG CACTGGTCAG ACTGGCCGGA CAGTCCAAAC
    CCTTCTGAAG CCCTCGAGGA CGATAAGTGT GGAGACCGAC TCCGAAAGCA GAGTGAGCAG
    GAGCTGCAGC AGCCGTGCTT TGTTCCCTGC CCAGGAGACT GTCACCTGAC GGAGTGGTCA
    TTGTGGAGCT CCTGTCAGCT CACGTGTTTG GAGGGTCGCA GTTTCGAGAC AGTGGGGCGT
    CAGGCACGTT CACAAGCTGT TGTCATTCAG GTGCTGGACA ATCAGGACAG CTGCCCTCAG
    CAGGTTTTCG AGACCAGGCC GTGCAAAGGA GGGAAATGTC ACAGTTACGA GTGGAGGACC
    AGTGCCTGGA ATGACAACGA GAGATCAGTG TGGTGCCAGC GGTCTGACGG GGTCAATGTG
    ACAGGGGGCT GCTTTCCACA GAACCGGCCA ACCACTGTGC GCCACTGTCA CCCTCCCTGC
    ACTAAACCCT TCTCCCACTG CAAGCAGAGT GGTGTGTGTG GCTGTGAGAG AGGCTACACT
    GAAGTGATGA CCACACATGG CTTTTTGGAC TACTGCACCA AAACCCCAGG CACCGACAAC
    AAGAAGGCCG ATGTGAAGAC CAGCTCAGGA AGATTAAGAC CAGGCACGAC TCAAATCCAG
    GACTTCTTCG GCGAGTGGTC CCTGCAGCCT CTCGGCCCAG ATGGAAGAAT AAAGCTGTGG
    GTCTACGGGT TAACAGCTGG AGGATTCATT GTCATATTAT TCACAATTGC TGTGGCCTTT
    CTGTTTTGCA AACCATCCAA ACAGAGTAAA AGTGCATCTC CACCACAGAA GCCCTTGACT
    CTGGCCTATG ATGGCGATGT GGACATGTGA

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

    RefSeq XP_694660.6
    CDS532..5421
    Translation

    Target ORF information:

    RefSeq Version XM_689568.9
    Organism Danio rerio(zebrafish)
    Definition Danio rerio thrombospondin, type I, domain containing 7Ba (thsd7ba), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_689568.9

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    ATGTCAATGG GCTGGACTAT GATTCTAAAA GATGACTCTG GTGTAACGGG CTGGACATGG 
    CGGGTTGGGA ACTACCTGCT GCTCTCAATG TCTCTCATCG GAATGCATGT GAAGTCAGAC
    CTGGAATTTC CAAAGGACAG GCACTATACA TGGAAAACGG GTCATTGGGG CAGATGCATA
    GGGGAAGAAT GTGGTACCGG CGGGGTACAA TCCAGGACAG TGTGGTGCAT CCACACAGAA
    GGCTGGACCA CACACCACTC CAACTGTCGG CATTCAGACA AACCCGAGAG CCAGAGGCCT
    TGCTTTAAAG TATGTGAGTG GCACCAGGAC CTCTTTGAAT GGGAAGTGTC AGAATGGGGC
    CCTTGTGTTC TAGCCCCCCT CCTGTCCAAC GAGCTCAAAC TGCGGACCGC ACAGTGCATT
    ACAGCCCAAC ACGGCATCCA GAGACGGAAG GTCCATTGTG TGCGCACTTC CAACCGCACA
    TCGGTTACAG AAAGGATATG CGATTTCTTT TCACCACGAC CAGCTTTCGA GCAGGCCTGC
    TTGATCCCCT GCCCTCATGA CTGCATTGTG TCCGATTTCT CCTCTTGGTC TGGCTGCAGC
    AGAACATGCG GTGCGGGTCT TCAACATCGA ACCCGACATG TCCTAGCAGC GCCAATGTAC
    GGAGGCGCCA ACTGCCCCAA CCTCACCCAA ACAAGGACTT GCTCAAACCT TTTCCCCTGT
    CCTCTTGGGG AAAGCGAGCA TCACTACAGC CTTAAAGTCG GCCTCTGGAG CGAATGCAGG
    CAGCCACAAC ACAAAGGGCT TTGGATGAGC GGAAGGACCG TGCTAGACTT CAGCACAGGA
    GATACCGAAA GAAACACAGT GAAACGACAT ATTCAGAGCT CCCAGCACCA CCATCACCAC
    CTCCACCAAC ACCACCACCA GCACAGTCTC AAGGGTTTAG ATGTGGAGAT CGGCTATCAA
    ACACGGCAAG TTCGTTGCAT GCGCAGCGAT GGAAAAAACG CCATGCTGAG CCTTTGTACC
    CTTGACAACG GCCCTGGCAC TTTCCAGTCT TGTGTTATGC CCAGAGACTG CGAGACCTCC
    GATTGGTCCG TTTGGAGTCC ATGTTCAAAG ACATGCAGAG CATCAGATAT GTCGCCTGGT
    TTTCGGGTCA GGACTCGAAG CATAACGCAC ACTCCCATTG GTCAAGGCAA AGGATGCCCT
    GCTCTTGAAG AAAAGGAGGC CTGCAACATC ATTGGAGATC TGCTTCCAAA CTGCCCAAGG
    TACGTGTGGA AGAGCACCGA TTGGGGGGAC TGTCAAGTGG CCCCTCTTCT TAGCCAGCAG
    GACAGAAGGC TTGACAATGT TAGCGTTCTC TGTGGTGGAG GGATTCAGAC CAGGCAGCTG
    TACTGCGTCC AGGTCCCAGA CAATTCCACC CCTCATCATA GAAAAGAGGT GTCTAGGCCT
    GTAAATGTGC ATCTGTGCAC AGGAGATCCG CCTTCTGCAG TGCAGCCCTG CTCCATTCCA
    TGCCCACAGC TGTGCCTGCT CTCATCCTGG TCCTCCTGGG GAGCCTGTAT CCACGACAAC
    TGCATGGAGA CGCATGGACG AAAAGGCTTC AAGCAGAGGA GGAGGGATGT GCTGGAGGAA
    GGATCTGGAA CCGAGAACTG TGCTCATCTC CTGGAGTCAA TGCCCTGTGA GGATCCACTG
    TGCTTCCGGT GGCAGGTGCA GATGGAGAGT GCTTGTGTGC CCAGCAATGG CACCTGCGGG
    AATGGAACCA GGACACAAAC TGTGGCTTGC ATCAATTCAC AAGGGCAGCT TGTTCCAGAG
    GAGCTTTGTG AAGAAGAGTC TCCCCCTGCT GAGGTGTCCT GTGTGATGGC CTGTTCTGGT
    GACTGTGTGC TCAGCTCCTG GTCTCACTGG TCCTCCTGCT CTCACAGCTG CTCCAGCAAA
    AACTCTGAAG GCCGTCAGAG CCGCATACGC ACCATATTAG GCTTGCCAGG AGAAGATAAG
    ACGTGTCCAG CTGCTACTGC TCTGGAGGAG TGGAGAACTT GTAATGATCA TCCATGCATC
    ACCTTCTTCT GGGAAGCTTC GCCGTGGGGG CCTTGCATTG AAGACTCCTC TATGAATGTA
    AATGGCAGCG GCTACTGGAA CGGAACGGCC ACCTGTGCAG TCGGGCTGCA GATCCGTAAA
    GTGGCCTGCA TGAAAATGGG CGTTGGGCCG GTTATTCCCA AAAGGTGTCC AGAATCTGCC
    CGTCCAGACA CCATTCAGCC CTGTTTACTG CCCTGTGAGA AAGATTGCAT TGTGACTCCT
    TTCAGCGAAT GGACAGCCTG CCCGACCACA TGCCTGCCAG TGAACAGCAG CGTGGCCTCA
    CAGTCACGAT ACAGGATCAT CATCCAGCGG GCGGCCAATG GAGGTCAAGA GTGTCCCGAT
    ACTTTATTTG AAGAGAGGGA ATGTGAAGCT CTTCTGCTTT GTCCCACTTA CAGATGGAAG
    ACACACAGAT GGCATCCGTG TACTCTGGTC CCAGATTCAG TCCAGCAGGG AATGACCGGA
    GCGAGTGAAT CGTGTGGTAA AGGATTAGAG ATGAGAGGCG TGAGCTGTGT GAATGAGTAT
    GATGAGATGG TGGCCGTGTC CGAGTGTCTC CAGTGGGCCG GGCCGATGCC GTCTCGCTTC
    AGGAGCTGTT GGGTGGCATG TAAAGATGAC TGTGCCTTTA GTTCCTGGTC GAAATTTTCT
    GAATGCGCTG GATGTGGGAG CAGACGGACA CGCAAACGCA CAATTACAGG TCGTAGCCGA
    AAACTAGACC GATGTCAGCG GGAAGACTTG TTCCCTCTTG TGGAGTCCGA ACCCTGTCCG
    TGTGAGGAGT TTGTTTCTCA GCCATACGGT AATTGGTCGT CTTGTATCCT GTCGGAGACC
    CCAGCACAGG GTTGGAGGGG TCGTCGAGAG GCACGCGACT GTGGTCAGGG ATTCCGCTAT
    CGAGCAATGT CCTGTCTAGA CCACGAATCC CACCTGGTCA GCCCAGAACT CTGCAGCGAA
    TCAGGTCTGG TGGAAGAGGT CTGCTACATA CCCTGCCCTC TGGACTGCAA GCTGAGCGAC
    TGGTCACCGT GGTCAGCCTG CAGCGCCTCC TGTGGCAGTG GACTGAAAAT CAGGTCCAAA
    TGGCTACGAG AGAAGCCTTT CAACGGGGGG AGGCCGTGTC CAAAACTAGA CCTCAAGAAT
    CAGGCTCAGG TGTATGAGGC AGTTCCCTGT CGAAGTGAGT GTGATCAGTA CGAGTGGCTA
    ACAGACCCAT GGTCAGTCTG TACCATCAAC ACAGTGGATG AGCTGCCAGC CTGTGGAGAG
    GGAGTCCAGA GCCGCAAGAT CTGGTGTGTG AGTCGTGGCA GTGAGGACCT GGTGGCCAGT
    GTGAATGAGA CCCTGTGTGA CCAGGATGAA ATTCCTCCTC AAGCGCAGAC CTGCGTCCTG
    CCGTGTCCTG ACGACTGCGT GATGTCCCAG TGGAGTCAGT GGAGCACCTG TGCCATACCG
    TGTGACGAAA ACAGCTCGAG GACTAGGACA AGGCACGTGC TGCGCCCCCC GGTGGCTGAC
    AGAGTGTGTC CAGAAAATAA TCAGACGGAG CCCTGCATCC TCAACAGCAC CTGCTTCAAT
    TACCACTACA ATGTTTCCAG CTGGAGCACC TGTCAGCTGA GCGAACATGC CATCTGCGGC
    CAGGGCACGA GGACACGACT CTTAGATTGC ATCCGCAGCG ATGGCAAAGT GGTGGATTTG
    AGCGTGTGCG AGGAGTTGGG CCTGCTTCAG CTGTGGAGAC TGACCATGAA ATGTGTGGTG
    GACTGTCCCT TTAACTGCAT CCTGTCTGAC TGGACGTCCT GGACGGAGTG TTCACACACC
    TGTGGAAGTA AAGGTGTTAA AACTCGCTTT CGCACTGTGC TCCAGCCGGC TCATGAGGAG
    GGACGTCCCT GCGCCTCCCA GCTGTCCCAA ACCAAGCCTT GTCCCATCAG CCCCTGCTAC
    ACGTGGCTAC TGAGCGACTG GTCTCCCTGC AGAGTCCAGG GAGCTGAATG TGGAGAGGGC
    ACGAGGGAGA GGAACCTGAC GTGTGTACAG CACTGGTCAG ACTGGCCGGA CAGTCCAAAC
    CCTTCTGAAG CCCTCGAGGA CGATAAGTGT GGAGACCGAC TCCGAAAGCA GAGTGAGCAG
    GAGCTGCAGC AGCCGTGCTT TGTTCCCTGC CCAGGAGACT GTCACCTGAC GGAGTGGTCA
    TTGTGGAGCT CCTGTCAGCT CACGTGTTTG GAGGGTCGCA GTTTCGAGAC AGTGGGGCGT
    CAGGCACGTT CACAAGCTGT TGTCATTCAG GTGCTGGACA ATCAGGACAG CTGCCCTCAG
    CAGGTTTTCG AGACCAGGCC GTGCAAAGGA GGGAAATGTC ACAGTTACGA GTGGAGGACC
    AGTGCCTGGA ATGACAACGA GAGATCAGTG TGGTGCCAGC GGTCTGACGG GGTCAATGTG
    ACAGGGGGCT GCTTTCCACA GAACCGGCCA ACCACTGTGC GCCACTGTCA CCCTCCCTGC
    ACTAAACCCT TCTCCCACTG CAAGCAGAGT GGTGTGTGTG GCTGTGAGAG AGGCTACACT
    GAAGTGATGA CCACACATGG CTTTTTGGAC TACTGCACCA AAACCCCAGG CACCGACAAC
    AAGAAGGCCG ATGTGAAGAC CAGCTCAGGA AGATTAAGAC CAGGCACGAC TCAAATCCAG
    GACTTCTTCG GCGAGTGGTC CCTGCAGCCT CTCGGCCCAG ATGGAAGAAT AAAGCTGTGG
    GTCTACGGGT TAACAGCTGG AGGATTCATT GTCATATTAT TCACAATTGC TGTGGCCTTT
    CTGTTTTGCA AACCATCCAA ACAGAGTAAA AGTGCATCTC CACCACAGAA GCCCTTGACT
    CTGGCCTATG ATGGCGATGT GGACATGTGA

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

    CloneID ODa44838
    Clone ID Related Accession (Same CDS sequence) XM_009304519.2 , XM_009304519.3
    Accession Version XM_009304519.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4884bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product thrombospondin type-1 domain-containing protein 7B isoform X2
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007120.6) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_009304519.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    ATGTCAATGG GCTGGACTAT GATTCTAAAA GATGACTCTG GTGTAACGGG CTGGACATGG 
    CGGGTTGGGA ACTACCTGCT GCTCTCAATG TCTCTCATCG GAATGCATGT GAAGTCAGAC
    CTGGAATTTC CAAAGGACAG GCACTATACA TGGAAAACGG GTCATTGGGG CAGATGCATA
    GGGGAAGAAT GTGGTACCGG CGGGGTACAA TCCAGGACAG TGTGGTGCAT CCACACAGAA
    GGCTGGACCA CACACCACTC CAACTGTCGG CATTCAGACA AACCCGAGAG CCAGAGGCCT
    TGCTTTAAAG TATGTGAGTG GCACCAGGAC CTCTTTGAAT GGGAAGTGTC AGAATGGGGC
    CCTTGTGTTC TAGCCCCCCT CCTGTCCAAC GAGCTCAAAC TGCGGACCGC ACAGTGCATT
    ACAGCCCAAC ACGGCATCCA GAGACGGAAG GTCCATTGTG TGCGCACTTC CAACCGCACA
    TCGGTTACAG AAAGGATATG CGATTTCTTT TCACCACGAC CAGCTTTCGA GCAGGCCTGC
    TTGATCCCCT GCCCTCATGA CTGCATTGTG TCCGATTTCT CCTCTTGGTC TGGCTGCAGC
    AGAACATGCG GTGCGGGTCT TCAACATCGA ACCCGACATG TCCTAGCAGC GCCAATGTAC
    GGAGGCGCCA ACTGCCCCAA CCTCACCCAA ACAAGGACTT GCTCAAACCT TTTCCCCTGT
    CCTCTTGGGG AAAGCGAGCA TCACTACAGC CTTAAAGTCG GCCTCTGGAG CGAATGCAGG
    CAGCCACAAC ACAAAGGGCT TTGGATGAGC GGAAGGACCG TGCTAGACTT CAGCACAGGA
    GATACCGAAA GAAACACAGT GAAACGACAT ATTCAGAGCT CCCAGCACCA CCATCACCAC
    CTCCACCAAC ACCACCACCA GCACAGTCTC AAGGGTTTAG ATGTGGAGAT CGGCTATCAA
    ACACGGCAAG TTCGTTGCAT GCGCAGCGAT GGAAAAAACG CCATGCTGAG CCTTTGTACC
    CTTGACAACG GCCCTGGCAC TTTCCAGTCT TGTGTTATGC CCAGAGACTG CGAGACCTCC
    GATTGGTCCG TTTGGAGTCC ATGTTCAAAG ACATGCAGAG CATCAGATAT GTCGCCTGGT
    TTTCGGGTCA GGACTCGAAG CATAACGCAC ACTCCCATTG GTCAAGGCAA AGGATGCCCT
    GCTCTTGAAG AAAAGGAGGC CTGCAACATC ATTGGAGATC TGCTTCCAAA CTGCCCAAGG
    TACGTGTGGA AGAGCACCGA TTGGGGGGAC TGTCAAGTGG CCCCTCTTCT TAGCCAGCAG
    GACAGAAGGC TTGACAATGT TAGCGTTCTC TGTGGTGGAG GGATTCAGAC CAGGCAGCTG
    TACTGCGTCC AGGTCCCAGA CAATTCCACC CCTCATCATA GAAAAGAGGT GTCTAGGCCT
    GTAAATGTGC ATCTGTGCAC AGGAGATCCG CCTTCTGCAG TGCAGCCCTG CTCCATTCCA
    TGCCCACAGC TGTGCCTGCT CTCATCCTGG TCCTCCTGGG GAGCCTGTAT CCACGACAAC
    TGCATGGAGA CGCATGGACG AAAAGGCTTC AAGCAGAGGA GGAGGGATGT GCTGGAGGAA
    GGATCTGGAA CCGAGAACTG TGCTCATCTC CTGGAGTCAA TGCCCTGTGA GGATCCACTG
    TGCTTCCGGT GGCAGGTGCA GATGGAGAGT GCTTGTGTGC CCAGCAATGG CACCTGCGGG
    AATGGAACCA GGACACAAAC TGTGGCTTGC ATCAATTCAC AAGGGCAGCT TGTTCCAGAG
    GAGCTTTGTG AAGAAGAGTC TCCCCCTGCT GAGGTGTCCT GTGTGATGGC CTGTTCTGGT
    GACTGTGTGC TCAGCTCCTG GTCTCACTGG TCCTCCTGCT CTCACAGCTG CTCCAGCAAA
    AACTCTGAAG GCCGTCAGAG CCGCATACGC ACCATATTAG GCTTGCCAGG AGAAGATAAG
    ACGTGTCCAG CTGCTACTGC TCTGGAGGAG TGGAGAACTT GTAATGATCA TCCATGCATC
    ACCTTCTTCT GGGAAGCTTC GCCGTGGGGG CCTTGCATTG AAGACTCCTC TATGAATGTA
    AATGGCAGCG GCTACTGGAA CGGAACGGCC ACCTGTGCAG TCGGGCTGCA GATCCGTAAA
    GTGGCCTGCA TGAAAATGGG CGTTGGGCCG GTTATTCCCA AAAGGTGTCC AGAATCTGCC
    CGTCCAGACA CCATTCAGCC CTGTTTACTG CCCTGTGAGA AAGATTGCAT TGTGACTCCT
    TTCAGCGAAT GGACAGCCTG CCCGACCACA TGCCTGCCAG TGAACAGCAG CGTGGCCTCA
    CAGTCACGAT ACAGGATCAT CATCCAGCGG GCGGCCAATG GAGGTCAAGA GTGTCCCGAT
    ACTTTATTTG AAGAGAGGGA ATGTGAAGCT CTTCTGCTTT GTCCCACTTA CAGATGGAAG
    ACACACAGAT GGCATCCGTG TACTCTGGTC CCAGATTCAG TCCAGCAGGG AATGACCGGA
    GCGAGTGAAT CGTGTGGTAA AGGATTAGAG ATGAGAGGCG TGAGCTGTGT GAATGAGTAT
    GATGAGATGG TGGCCGTGTC CGAGTGTCTC CAGTGGGCCG GGCCGATGCC GTCTCGCTTC
    AGGAGCTGTT GGGTGGCATG TAAAGATGAC TGTGCCTTTA GTTCCTGGTC GAAATTTTCT
    GAATGCGCTG GATGTGGGAG CAGACGGACA CGCAAACGCA CAATTACAGG TCGTAGCCGA
    AAACTAGACC GATGTCAGCG GGAAGACTTG TTCCCTCTTG TGGAGTCCGA ACCCTGTCCG
    TGTGAGGAGT TTGTTTCTCA GCCATACGGT AATTGGTCGT CTTGTATCCT GTCGGAGACC
    CCAGCACAGG GTTGGAGGGG TCGTCGAGAG GCACGCGACT GTGGTCAGGG ATTCCGCTAT
    CGAGCAATGT CCTGTCTAGA CCACGAATCC CACCTGGTCA GCCCAGAACT CTGCAGCGAA
    TCAGGTCTGG TGGAAGAGGT CTGCTACATA CCCTGCCCTC TGGACTGCAA GCTGAGCGAC
    TGGTCACCGT GGTCAGCCTG CAGCGCCTCC TGTGGCAGTG GACTGAAAAT CAGGTCCAAA
    TGGCTACGAG AGAAGCCTTT CAACGGGGGG AGGCCGTGTC CAAAACTAGA CCTCAAGAAT
    CAGGTGTATG AGGCAGTTCC CTGTCGAAGT GAGTGTGATC AGTACGAGTG GCTAACAGAC
    CCATGGTCAG TCTGTACCAT CAACACAGTG GATGAGCTGC CAGCCTGTGG AGAGGGAGTC
    CAGAGCCGCA AGATCTGGTG TGTGAGTCGT GGCAGTGAGG ACCTGGTGGC CAGTGTGAAT
    GAGACCCTGT GTGACCAGGA TGAAATTCCT CCTCAAGCGC AGACCTGCGT CCTGCCGTGT
    CCTGACGACT GCGTGATGTC CCAGTGGAGT CAGTGGAGCA CCTGTGCCAT ACCGTGTGAC
    GAAAACAGCT CGAGGACTAG GACAAGGCAC GTGCTGCGCC CCCCGGTGGC TGACAGAGTG
    TGTCCAGAAA ATAATCAGAC GGAGCCCTGC ATCCTCAACA GCACCTGCTT CAATTACCAC
    TACAATGTTT CCAGCTGGAG CACCTGTCAG CTGAGCGAAC ATGCCATCTG CGGCCAGGGC
    ACGAGGACAC GACTCTTAGA TTGCATCCGC AGCGATGGCA AAGTGGTGGA TTTGAGCGTG
    TGCGAGGAGT TGGGCCTGCT TCAGCTGTGG AGACTGACCA TGAAATGTGT GGTGGACTGT
    CCCTTTAACT GCATCCTGTC TGACTGGACG TCCTGGACGG AGTGTTCACA CACCTGTGGA
    AGTAAAGGTG TTAAAACTCG CTTTCGCACT GTGCTCCAGC CGGCTCATGA GGAGGGACGT
    CCCTGCGCCT CCCAGCTGTC CCAAACCAAG CCTTGTCCCA TCAGCCCCTG CTACACGTGG
    CTACTGAGCG ACTGGTCTCC CTGCAGAGTC CAGGGAGCTG AATGTGGAGA GGGCACGAGG
    GAGAGGAACC TGACGTGTGT ACAGCACTGG TCAGACTGGC CGGACAGTCC AAACCCTTCT
    GAAGCCCTCG AGGACGATAA GTGTGGAGAC CGACTCCGAA AGCAGAGTGA GCAGGAGCTG
    CAGCAGCCGT GCTTTGTTCC CTGCCCAGGA GACTGTCACC TGACGGAGTG GTCATTGTGG
    AGCTCCTGTC AGCTCACGTG TTTGGAGGGT CGCAGTTTCG AGACAGTGGG GCGTCAGGCA
    CGTTCACAAG CTGTTGTCAT TCAGGTGCTG GACAATCAGG ACAGCTGCCC TCAGCAGGTT
    TTCGAGACCA GGCCGTGCAA AGGAGGGAAA TGTCACAGTT ACGAGTGGAG GACCAGTGCC
    TGGAATGACA ACGAGAGATC AGTGTGGTGC CAGCGGTCTG ACGGGGTCAA TGTGACAGGG
    GGCTGCTTTC CACAGAACCG GCCAACCACT GTGCGCCACT GTCACCCTCC CTGCACTAAA
    CCCTTCTCCC ACTGCAAGCA GAGTGGTGTG TGTGGCTGTG AGAGAGGCTA CACTGAAGTG
    ATGACCACAC ATGGCTTTTT GGACTACTGC ACCAAAACCC CAGGCACCGA CAACAAGAAG
    GCCGATGTGA AGACCAGCTC AGGAAGATTA AGACCAGGCA CGACTCAAAT CCAGGACTTC
    TTCGGCGAGT GGTCCCTGCA GCCTCTCGGC CCAGATGGAA GAATAAAGCT GTGGGTCTAC
    GGGTTAACAG CTGGAGGATT CATTGTCATA TTATTCACAA TTGCTGTGGC CTTTCTGTTT
    TGCAAACCAT CCAAACAGAG TAAAAGTGCA TCTCCACCAC AGAAGCCCTT GACTCTGGCC
    TATGATGGCG ATGTGGACAT GTGA

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

    RefSeq XP_009302794.1
    CDS491..5374
    Translation

    Target ORF information:

    RefSeq Version XM_009304519.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio thrombospondin, type I, domain containing 7Ba (thsd7ba), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009304519.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    ATGTCAATGG GCTGGACTAT GATTCTAAAA GATGACTCTG GTGTAACGGG CTGGACATGG 
    CGGGTTGGGA ACTACCTGCT GCTCTCAATG TCTCTCATCG GAATGCATGT GAAGTCAGAC
    CTGGAATTTC CAAAGGACAG GCACTATACA TGGAAAACGG GTCATTGGGG CAGATGCATA
    GGGGAAGAAT GTGGTACCGG CGGGGTACAA TCCAGGACAG TGTGGTGCAT CCACACAGAA
    GGCTGGACCA CACACCACTC CAACTGTCGG CATTCAGACA AACCCGAGAG CCAGAGGCCT
    TGCTTTAAAG TATGTGAGTG GCACCAGGAC CTCTTTGAAT GGGAAGTGTC AGAATGGGGC
    CCTTGTGTTC TAGCCCCCCT CCTGTCCAAC GAGCTCAAAC TGCGGACCGC ACAGTGCATT
    ACAGCCCAAC ACGGCATCCA GAGACGGAAG GTCCATTGTG TGCGCACTTC CAACCGCACA
    TCGGTTACAG AAAGGATATG CGATTTCTTT TCACCACGAC CAGCTTTCGA GCAGGCCTGC
    TTGATCCCCT GCCCTCATGA CTGCATTGTG TCCGATTTCT CCTCTTGGTC TGGCTGCAGC
    AGAACATGCG GTGCGGGTCT TCAACATCGA ACCCGACATG TCCTAGCAGC GCCAATGTAC
    GGAGGCGCCA ACTGCCCCAA CCTCACCCAA ACAAGGACTT GCTCAAACCT TTTCCCCTGT
    CCTCTTGGGG AAAGCGAGCA TCACTACAGC CTTAAAGTCG GCCTCTGGAG CGAATGCAGG
    CAGCCACAAC ACAAAGGGCT TTGGATGAGC GGAAGGACCG TGCTAGACTT CAGCACAGGA
    GATACCGAAA GAAACACAGT GAAACGACAT ATTCAGAGCT CCCAGCACCA CCATCACCAC
    CTCCACCAAC ACCACCACCA GCACAGTCTC AAGGGTTTAG ATGTGGAGAT CGGCTATCAA
    ACACGGCAAG TTCGTTGCAT GCGCAGCGAT GGAAAAAACG CCATGCTGAG CCTTTGTACC
    CTTGACAACG GCCCTGGCAC TTTCCAGTCT TGTGTTATGC CCAGAGACTG CGAGACCTCC
    GATTGGTCCG TTTGGAGTCC ATGTTCAAAG ACATGCAGAG CATCAGATAT GTCGCCTGGT
    TTTCGGGTCA GGACTCGAAG CATAACGCAC ACTCCCATTG GTCAAGGCAA AGGATGCCCT
    GCTCTTGAAG AAAAGGAGGC CTGCAACATC ATTGGAGATC TGCTTCCAAA CTGCCCAAGG
    TACGTGTGGA AGAGCACCGA TTGGGGGGAC TGTCAAGTGG CCCCTCTTCT TAGCCAGCAG
    GACAGAAGGC TTGACAATGT TAGCGTTCTC TGTGGTGGAG GGATTCAGAC CAGGCAGCTG
    TACTGCGTCC AGGTCCCAGA CAATTCCACC CCTCATCATA GAAAAGAGGT GTCTAGGCCT
    GTAAATGTGC ATCTGTGCAC AGGAGATCCG CCTTCTGCAG TGCAGCCCTG CTCCATTCCA
    TGCCCACAGC TGTGCCTGCT CTCATCCTGG TCCTCCTGGG GAGCCTGTAT CCACGACAAC
    TGCATGGAGA CGCATGGACG AAAAGGCTTC AAGCAGAGGA GGAGGGATGT GCTGGAGGAA
    GGATCTGGAA CCGAGAACTG TGCTCATCTC CTGGAGTCAA TGCCCTGTGA GGATCCACTG
    TGCTTCCGGT GGCAGGTGCA GATGGAGAGT GCTTGTGTGC CCAGCAATGG CACCTGCGGG
    AATGGAACCA GGACACAAAC TGTGGCTTGC ATCAATTCAC AAGGGCAGCT TGTTCCAGAG
    GAGCTTTGTG AAGAAGAGTC TCCCCCTGCT GAGGTGTCCT GTGTGATGGC CTGTTCTGGT
    GACTGTGTGC TCAGCTCCTG GTCTCACTGG TCCTCCTGCT CTCACAGCTG CTCCAGCAAA
    AACTCTGAAG GCCGTCAGAG CCGCATACGC ACCATATTAG GCTTGCCAGG AGAAGATAAG
    ACGTGTCCAG CTGCTACTGC TCTGGAGGAG TGGAGAACTT GTAATGATCA TCCATGCATC
    ACCTTCTTCT GGGAAGCTTC GCCGTGGGGG CCTTGCATTG AAGACTCCTC TATGAATGTA
    AATGGCAGCG GCTACTGGAA CGGAACGGCC ACCTGTGCAG TCGGGCTGCA GATCCGTAAA
    GTGGCCTGCA TGAAAATGGG CGTTGGGCCG GTTATTCCCA AAAGGTGTCC AGAATCTGCC
    CGTCCAGACA CCATTCAGCC CTGTTTACTG CCCTGTGAGA AAGATTGCAT TGTGACTCCT
    TTCAGCGAAT GGACAGCCTG CCCGACCACA TGCCTGCCAG TGAACAGCAG CGTGGCCTCA
    CAGTCACGAT ACAGGATCAT CATCCAGCGG GCGGCCAATG GAGGTCAAGA GTGTCCCGAT
    ACTTTATTTG AAGAGAGGGA ATGTGAAGCT CTTCTGCTTT GTCCCACTTA CAGATGGAAG
    ACACACAGAT GGCATCCGTG TACTCTGGTC CCAGATTCAG TCCAGCAGGG AATGACCGGA
    GCGAGTGAAT CGTGTGGTAA AGGATTAGAG ATGAGAGGCG TGAGCTGTGT GAATGAGTAT
    GATGAGATGG TGGCCGTGTC CGAGTGTCTC CAGTGGGCCG GGCCGATGCC GTCTCGCTTC
    AGGAGCTGTT GGGTGGCATG TAAAGATGAC TGTGCCTTTA GTTCCTGGTC GAAATTTTCT
    GAATGCGCTG GATGTGGGAG CAGACGGACA CGCAAACGCA CAATTACAGG TCGTAGCCGA
    AAACTAGACC GATGTCAGCG GGAAGACTTG TTCCCTCTTG TGGAGTCCGA ACCCTGTCCG
    TGTGAGGAGT TTGTTTCTCA GCCATACGGT AATTGGTCGT CTTGTATCCT GTCGGAGACC
    CCAGCACAGG GTTGGAGGGG TCGTCGAGAG GCACGCGACT GTGGTCAGGG ATTCCGCTAT
    CGAGCAATGT CCTGTCTAGA CCACGAATCC CACCTGGTCA GCCCAGAACT CTGCAGCGAA
    TCAGGTCTGG TGGAAGAGGT CTGCTACATA CCCTGCCCTC TGGACTGCAA GCTGAGCGAC
    TGGTCACCGT GGTCAGCCTG CAGCGCCTCC TGTGGCAGTG GACTGAAAAT CAGGTCCAAA
    TGGCTACGAG AGAAGCCTTT CAACGGGGGG AGGCCGTGTC CAAAACTAGA CCTCAAGAAT
    CAGGTGTATG AGGCAGTTCC CTGTCGAAGT GAGTGTGATC AGTACGAGTG GCTAACAGAC
    CCATGGTCAG TCTGTACCAT CAACACAGTG GATGAGCTGC CAGCCTGTGG AGAGGGAGTC
    CAGAGCCGCA AGATCTGGTG TGTGAGTCGT GGCAGTGAGG ACCTGGTGGC CAGTGTGAAT
    GAGACCCTGT GTGACCAGGA TGAAATTCCT CCTCAAGCGC AGACCTGCGT CCTGCCGTGT
    CCTGACGACT GCGTGATGTC CCAGTGGAGT CAGTGGAGCA CCTGTGCCAT ACCGTGTGAC
    GAAAACAGCT CGAGGACTAG GACAAGGCAC GTGCTGCGCC CCCCGGTGGC TGACAGAGTG
    TGTCCAGAAA ATAATCAGAC GGAGCCCTGC ATCCTCAACA GCACCTGCTT CAATTACCAC
    TACAATGTTT CCAGCTGGAG CACCTGTCAG CTGAGCGAAC ATGCCATCTG CGGCCAGGGC
    ACGAGGACAC GACTCTTAGA TTGCATCCGC AGCGATGGCA AAGTGGTGGA TTTGAGCGTG
    TGCGAGGAGT TGGGCCTGCT TCAGCTGTGG AGACTGACCA TGAAATGTGT GGTGGACTGT
    CCCTTTAACT GCATCCTGTC TGACTGGACG TCCTGGACGG AGTGTTCACA CACCTGTGGA
    AGTAAAGGTG TTAAAACTCG CTTTCGCACT GTGCTCCAGC CGGCTCATGA GGAGGGACGT
    CCCTGCGCCT CCCAGCTGTC CCAAACCAAG CCTTGTCCCA TCAGCCCCTG CTACACGTGG
    CTACTGAGCG ACTGGTCTCC CTGCAGAGTC CAGGGAGCTG AATGTGGAGA GGGCACGAGG
    GAGAGGAACC TGACGTGTGT ACAGCACTGG TCAGACTGGC CGGACAGTCC AAACCCTTCT
    GAAGCCCTCG AGGACGATAA GTGTGGAGAC CGACTCCGAA AGCAGAGTGA GCAGGAGCTG
    CAGCAGCCGT GCTTTGTTCC CTGCCCAGGA GACTGTCACC TGACGGAGTG GTCATTGTGG
    AGCTCCTGTC AGCTCACGTG TTTGGAGGGT CGCAGTTTCG AGACAGTGGG GCGTCAGGCA
    CGTTCACAAG CTGTTGTCAT TCAGGTGCTG GACAATCAGG ACAGCTGCCC TCAGCAGGTT
    TTCGAGACCA GGCCGTGCAA AGGAGGGAAA TGTCACAGTT ACGAGTGGAG GACCAGTGCC
    TGGAATGACA ACGAGAGATC AGTGTGGTGC CAGCGGTCTG ACGGGGTCAA TGTGACAGGG
    GGCTGCTTTC CACAGAACCG GCCAACCACT GTGCGCCACT GTCACCCTCC CTGCACTAAA
    CCCTTCTCCC ACTGCAAGCA GAGTGGTGTG TGTGGCTGTG AGAGAGGCTA CACTGAAGTG
    ATGACCACAC ATGGCTTTTT GGACTACTGC ACCAAAACCC CAGGCACCGA CAACAAGAAG
    GCCGATGTGA AGACCAGCTC AGGAAGATTA AGACCAGGCA CGACTCAAAT CCAGGACTTC
    TTCGGCGAGT GGTCCCTGCA GCCTCTCGGC CCAGATGGAA GAATAAAGCT GTGGGTCTAC
    GGGTTAACAG CTGGAGGATT CATTGTCATA TTATTCACAA TTGCTGTGGC CTTTCTGTTT
    TGCAAACCAT CCAAACAGAG TAAAAGTGCA TCTCCACCAC AGAAGCCCTT GACTCTGGCC
    TATGATGGCG ATGTGGACAT GTGA

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

    CloneID ODa44838
    Clone ID Related Accession (Same CDS sequence) XM_009304519.2 , XM_009304519.3
    Accession Version XM_009304519.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4884bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product 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_007120.7) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_009304519.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    ATGTCAATGG GCTGGACTAT GATTCTAAAA GATGACTCTG GTGTAACGGG CTGGACATGG 
    CGGGTTGGGA ACTACCTGCT GCTCTCAATG TCTCTCATCG GAATGCATGT GAAGTCAGAC
    CTGGAATTTC CAAAGGACAG GCACTATACA TGGAAAACGG GTCATTGGGG CAGATGCATA
    GGGGAAGAAT GTGGTACCGG CGGGGTACAA TCCAGGACAG TGTGGTGCAT CCACACAGAA
    GGCTGGACCA CACACCACTC CAACTGTCGG CATTCAGACA AACCCGAGAG CCAGAGGCCT
    TGCTTTAAAG TATGTGAGTG GCACCAGGAC CTCTTTGAAT GGGAAGTGTC AGAATGGGGC
    CCTTGTGTTC TAGCCCCCCT CCTGTCCAAC GAGCTCAAAC TGCGGACCGC ACAGTGCATT
    ACAGCCCAAC ACGGCATCCA GAGACGGAAG GTCCATTGTG TGCGCACTTC CAACCGCACA
    TCGGTTACAG AAAGGATATG CGATTTCTTT TCACCACGAC CAGCTTTCGA GCAGGCCTGC
    TTGATCCCCT GCCCTCATGA CTGCATTGTG TCCGATTTCT CCTCTTGGTC TGGCTGCAGC
    AGAACATGCG GTGCGGGTCT TCAACATCGA ACCCGACATG TCCTAGCAGC GCCAATGTAC
    GGAGGCGCCA ACTGCCCCAA CCTCACCCAA ACAAGGACTT GCTCAAACCT TTTCCCCTGT
    CCTCTTGGGG AAAGCGAGCA TCACTACAGC CTTAAAGTCG GCCTCTGGAG CGAATGCAGG
    CAGCCACAAC ACAAAGGGCT TTGGATGAGC GGAAGGACCG TGCTAGACTT CAGCACAGGA
    GATACCGAAA GAAACACAGT GAAACGACAT ATTCAGAGCT CCCAGCACCA CCATCACCAC
    CTCCACCAAC ACCACCACCA GCACAGTCTC AAGGGTTTAG ATGTGGAGAT CGGCTATCAA
    ACACGGCAAG TTCGTTGCAT GCGCAGCGAT GGAAAAAACG CCATGCTGAG CCTTTGTACC
    CTTGACAACG GCCCTGGCAC TTTCCAGTCT TGTGTTATGC CCAGAGACTG CGAGACCTCC
    GATTGGTCCG TTTGGAGTCC ATGTTCAAAG ACATGCAGAG CATCAGATAT GTCGCCTGGT
    TTTCGGGTCA GGACTCGAAG CATAACGCAC ACTCCCATTG GTCAAGGCAA AGGATGCCCT
    GCTCTTGAAG AAAAGGAGGC CTGCAACATC ATTGGAGATC TGCTTCCAAA CTGCCCAAGG
    TACGTGTGGA AGAGCACCGA TTGGGGGGAC TGTCAAGTGG CCCCTCTTCT TAGCCAGCAG
    GACAGAAGGC TTGACAATGT TAGCGTTCTC TGTGGTGGAG GGATTCAGAC CAGGCAGCTG
    TACTGCGTCC AGGTCCCAGA CAATTCCACC CCTCATCATA GAAAAGAGGT GTCTAGGCCT
    GTAAATGTGC ATCTGTGCAC AGGAGATCCG CCTTCTGCAG TGCAGCCCTG CTCCATTCCA
    TGCCCACAGC TGTGCCTGCT CTCATCCTGG TCCTCCTGGG GAGCCTGTAT CCACGACAAC
    TGCATGGAGA CGCATGGACG AAAAGGCTTC AAGCAGAGGA GGAGGGATGT GCTGGAGGAA
    GGATCTGGAA CCGAGAACTG TGCTCATCTC CTGGAGTCAA TGCCCTGTGA GGATCCACTG
    TGCTTCCGGT GGCAGGTGCA GATGGAGAGT GCTTGTGTGC CCAGCAATGG CACCTGCGGG
    AATGGAACCA GGACACAAAC TGTGGCTTGC ATCAATTCAC AAGGGCAGCT TGTTCCAGAG
    GAGCTTTGTG AAGAAGAGTC TCCCCCTGCT GAGGTGTCCT GTGTGATGGC CTGTTCTGGT
    GACTGTGTGC TCAGCTCCTG GTCTCACTGG TCCTCCTGCT CTCACAGCTG CTCCAGCAAA
    AACTCTGAAG GCCGTCAGAG CCGCATACGC ACCATATTAG GCTTGCCAGG AGAAGATAAG
    ACGTGTCCAG CTGCTACTGC TCTGGAGGAG TGGAGAACTT GTAATGATCA TCCATGCATC
    ACCTTCTTCT GGGAAGCTTC GCCGTGGGGG CCTTGCATTG AAGACTCCTC TATGAATGTA
    AATGGCAGCG GCTACTGGAA CGGAACGGCC ACCTGTGCAG TCGGGCTGCA GATCCGTAAA
    GTGGCCTGCA TGAAAATGGG CGTTGGGCCG GTTATTCCCA AAAGGTGTCC AGAATCTGCC
    CGTCCAGACA CCATTCAGCC CTGTTTACTG CCCTGTGAGA AAGATTGCAT TGTGACTCCT
    TTCAGCGAAT GGACAGCCTG CCCGACCACA TGCCTGCCAG TGAACAGCAG CGTGGCCTCA
    CAGTCACGAT ACAGGATCAT CATCCAGCGG GCGGCCAATG GAGGTCAAGA GTGTCCCGAT
    ACTTTATTTG AAGAGAGGGA ATGTGAAGCT CTTCTGCTTT GTCCCACTTA CAGATGGAAG
    ACACACAGAT GGCATCCGTG TACTCTGGTC CCAGATTCAG TCCAGCAGGG AATGACCGGA
    GCGAGTGAAT CGTGTGGTAA AGGATTAGAG ATGAGAGGCG TGAGCTGTGT GAATGAGTAT
    GATGAGATGG TGGCCGTGTC CGAGTGTCTC CAGTGGGCCG GGCCGATGCC GTCTCGCTTC
    AGGAGCTGTT GGGTGGCATG TAAAGATGAC TGTGCCTTTA GTTCCTGGTC GAAATTTTCT
    GAATGCGCTG GATGTGGGAG CAGACGGACA CGCAAACGCA CAATTACAGG TCGTAGCCGA
    AAACTAGACC GATGTCAGCG GGAAGACTTG TTCCCTCTTG TGGAGTCCGA ACCCTGTCCG
    TGTGAGGAGT TTGTTTCTCA GCCATACGGT AATTGGTCGT CTTGTATCCT GTCGGAGACC
    CCAGCACAGG GTTGGAGGGG TCGTCGAGAG GCACGCGACT GTGGTCAGGG ATTCCGCTAT
    CGAGCAATGT CCTGTCTAGA CCACGAATCC CACCTGGTCA GCCCAGAACT CTGCAGCGAA
    TCAGGTCTGG TGGAAGAGGT CTGCTACATA CCCTGCCCTC TGGACTGCAA GCTGAGCGAC
    TGGTCACCGT GGTCAGCCTG CAGCGCCTCC TGTGGCAGTG GACTGAAAAT CAGGTCCAAA
    TGGCTACGAG AGAAGCCTTT CAACGGGGGG AGGCCGTGTC CAAAACTAGA CCTCAAGAAT
    CAGGTGTATG AGGCAGTTCC CTGTCGAAGT GAGTGTGATC AGTACGAGTG GCTAACAGAC
    CCATGGTCAG TCTGTACCAT CAACACAGTG GATGAGCTGC CAGCCTGTGG AGAGGGAGTC
    CAGAGCCGCA AGATCTGGTG TGTGAGTCGT GGCAGTGAGG ACCTGGTGGC CAGTGTGAAT
    GAGACCCTGT GTGACCAGGA TGAAATTCCT CCTCAAGCGC AGACCTGCGT CCTGCCGTGT
    CCTGACGACT GCGTGATGTC CCAGTGGAGT CAGTGGAGCA CCTGTGCCAT ACCGTGTGAC
    GAAAACAGCT CGAGGACTAG GACAAGGCAC GTGCTGCGCC CCCCGGTGGC TGACAGAGTG
    TGTCCAGAAA ATAATCAGAC GGAGCCCTGC ATCCTCAACA GCACCTGCTT CAATTACCAC
    TACAATGTTT CCAGCTGGAG CACCTGTCAG CTGAGCGAAC ATGCCATCTG CGGCCAGGGC
    ACGAGGACAC GACTCTTAGA TTGCATCCGC AGCGATGGCA AAGTGGTGGA TTTGAGCGTG
    TGCGAGGAGT TGGGCCTGCT TCAGCTGTGG AGACTGACCA TGAAATGTGT GGTGGACTGT
    CCCTTTAACT GCATCCTGTC TGACTGGACG TCCTGGACGG AGTGTTCACA CACCTGTGGA
    AGTAAAGGTG TTAAAACTCG CTTTCGCACT GTGCTCCAGC CGGCTCATGA GGAGGGACGT
    CCCTGCGCCT CCCAGCTGTC CCAAACCAAG CCTTGTCCCA TCAGCCCCTG CTACACGTGG
    CTACTGAGCG ACTGGTCTCC CTGCAGAGTC CAGGGAGCTG AATGTGGAGA GGGCACGAGG
    GAGAGGAACC TGACGTGTGT ACAGCACTGG TCAGACTGGC CGGACAGTCC AAACCCTTCT
    GAAGCCCTCG AGGACGATAA GTGTGGAGAC CGACTCCGAA AGCAGAGTGA GCAGGAGCTG
    CAGCAGCCGT GCTTTGTTCC CTGCCCAGGA GACTGTCACC TGACGGAGTG GTCATTGTGG
    AGCTCCTGTC AGCTCACGTG TTTGGAGGGT CGCAGTTTCG AGACAGTGGG GCGTCAGGCA
    CGTTCACAAG CTGTTGTCAT TCAGGTGCTG GACAATCAGG ACAGCTGCCC TCAGCAGGTT
    TTCGAGACCA GGCCGTGCAA AGGAGGGAAA TGTCACAGTT ACGAGTGGAG GACCAGTGCC
    TGGAATGACA ACGAGAGATC AGTGTGGTGC CAGCGGTCTG ACGGGGTCAA TGTGACAGGG
    GGCTGCTTTC CACAGAACCG GCCAACCACT GTGCGCCACT GTCACCCTCC CTGCACTAAA
    CCCTTCTCCC ACTGCAAGCA GAGTGGTGTG TGTGGCTGTG AGAGAGGCTA CACTGAAGTG
    ATGACCACAC ATGGCTTTTT GGACTACTGC ACCAAAACCC CAGGCACCGA CAACAAGAAG
    GCCGATGTGA AGACCAGCTC AGGAAGATTA AGACCAGGCA CGACTCAAAT CCAGGACTTC
    TTCGGCGAGT GGTCCCTGCA GCCTCTCGGC CCAGATGGAA GAATAAAGCT GTGGGTCTAC
    GGGTTAACAG CTGGAGGATT CATTGTCATA TTATTCACAA TTGCTGTGGC CTTTCTGTTT
    TGCAAACCAT CCAAACAGAG TAAAAGTGCA TCTCCACCAC AGAAGCCCTT GACTCTGGCC
    TATGATGGCG ATGTGGACAT GTGA

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

    RefSeq XP_009302794.1
    CDS532..5415
    Translation

    Target ORF information:

    RefSeq Version XM_009304519.3
    Organism Danio rerio(zebrafish)
    Definition Danio rerio thrombospondin, type I, domain containing 7Ba (thsd7ba), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009304519.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    ATGTCAATGG GCTGGACTAT GATTCTAAAA GATGACTCTG GTGTAACGGG CTGGACATGG 
    CGGGTTGGGA ACTACCTGCT GCTCTCAATG TCTCTCATCG GAATGCATGT GAAGTCAGAC
    CTGGAATTTC CAAAGGACAG GCACTATACA TGGAAAACGG GTCATTGGGG CAGATGCATA
    GGGGAAGAAT GTGGTACCGG CGGGGTACAA TCCAGGACAG TGTGGTGCAT CCACACAGAA
    GGCTGGACCA CACACCACTC CAACTGTCGG CATTCAGACA AACCCGAGAG CCAGAGGCCT
    TGCTTTAAAG TATGTGAGTG GCACCAGGAC CTCTTTGAAT GGGAAGTGTC AGAATGGGGC
    CCTTGTGTTC TAGCCCCCCT CCTGTCCAAC GAGCTCAAAC TGCGGACCGC ACAGTGCATT
    ACAGCCCAAC ACGGCATCCA GAGACGGAAG GTCCATTGTG TGCGCACTTC CAACCGCACA
    TCGGTTACAG AAAGGATATG CGATTTCTTT TCACCACGAC CAGCTTTCGA GCAGGCCTGC
    TTGATCCCCT GCCCTCATGA CTGCATTGTG TCCGATTTCT CCTCTTGGTC TGGCTGCAGC
    AGAACATGCG GTGCGGGTCT TCAACATCGA ACCCGACATG TCCTAGCAGC GCCAATGTAC
    GGAGGCGCCA ACTGCCCCAA CCTCACCCAA ACAAGGACTT GCTCAAACCT TTTCCCCTGT
    CCTCTTGGGG AAAGCGAGCA TCACTACAGC CTTAAAGTCG GCCTCTGGAG CGAATGCAGG
    CAGCCACAAC ACAAAGGGCT TTGGATGAGC GGAAGGACCG TGCTAGACTT CAGCACAGGA
    GATACCGAAA GAAACACAGT GAAACGACAT ATTCAGAGCT CCCAGCACCA CCATCACCAC
    CTCCACCAAC ACCACCACCA GCACAGTCTC AAGGGTTTAG ATGTGGAGAT CGGCTATCAA
    ACACGGCAAG TTCGTTGCAT GCGCAGCGAT GGAAAAAACG CCATGCTGAG CCTTTGTACC
    CTTGACAACG GCCCTGGCAC TTTCCAGTCT TGTGTTATGC CCAGAGACTG CGAGACCTCC
    GATTGGTCCG TTTGGAGTCC ATGTTCAAAG ACATGCAGAG CATCAGATAT GTCGCCTGGT
    TTTCGGGTCA GGACTCGAAG CATAACGCAC ACTCCCATTG GTCAAGGCAA AGGATGCCCT
    GCTCTTGAAG AAAAGGAGGC CTGCAACATC ATTGGAGATC TGCTTCCAAA CTGCCCAAGG
    TACGTGTGGA AGAGCACCGA TTGGGGGGAC TGTCAAGTGG CCCCTCTTCT TAGCCAGCAG
    GACAGAAGGC TTGACAATGT TAGCGTTCTC TGTGGTGGAG GGATTCAGAC CAGGCAGCTG
    TACTGCGTCC AGGTCCCAGA CAATTCCACC CCTCATCATA GAAAAGAGGT GTCTAGGCCT
    GTAAATGTGC ATCTGTGCAC AGGAGATCCG CCTTCTGCAG TGCAGCCCTG CTCCATTCCA
    TGCCCACAGC TGTGCCTGCT CTCATCCTGG TCCTCCTGGG GAGCCTGTAT CCACGACAAC
    TGCATGGAGA CGCATGGACG AAAAGGCTTC AAGCAGAGGA GGAGGGATGT GCTGGAGGAA
    GGATCTGGAA CCGAGAACTG TGCTCATCTC CTGGAGTCAA TGCCCTGTGA GGATCCACTG
    TGCTTCCGGT GGCAGGTGCA GATGGAGAGT GCTTGTGTGC CCAGCAATGG CACCTGCGGG
    AATGGAACCA GGACACAAAC TGTGGCTTGC ATCAATTCAC AAGGGCAGCT TGTTCCAGAG
    GAGCTTTGTG AAGAAGAGTC TCCCCCTGCT GAGGTGTCCT GTGTGATGGC CTGTTCTGGT
    GACTGTGTGC TCAGCTCCTG GTCTCACTGG TCCTCCTGCT CTCACAGCTG CTCCAGCAAA
    AACTCTGAAG GCCGTCAGAG CCGCATACGC ACCATATTAG GCTTGCCAGG AGAAGATAAG
    ACGTGTCCAG CTGCTACTGC TCTGGAGGAG TGGAGAACTT GTAATGATCA TCCATGCATC
    ACCTTCTTCT GGGAAGCTTC GCCGTGGGGG CCTTGCATTG AAGACTCCTC TATGAATGTA
    AATGGCAGCG GCTACTGGAA CGGAACGGCC ACCTGTGCAG TCGGGCTGCA GATCCGTAAA
    GTGGCCTGCA TGAAAATGGG CGTTGGGCCG GTTATTCCCA AAAGGTGTCC AGAATCTGCC
    CGTCCAGACA CCATTCAGCC CTGTTTACTG CCCTGTGAGA AAGATTGCAT TGTGACTCCT
    TTCAGCGAAT GGACAGCCTG CCCGACCACA TGCCTGCCAG TGAACAGCAG CGTGGCCTCA
    CAGTCACGAT ACAGGATCAT CATCCAGCGG GCGGCCAATG GAGGTCAAGA GTGTCCCGAT
    ACTTTATTTG AAGAGAGGGA ATGTGAAGCT CTTCTGCTTT GTCCCACTTA CAGATGGAAG
    ACACACAGAT GGCATCCGTG TACTCTGGTC CCAGATTCAG TCCAGCAGGG AATGACCGGA
    GCGAGTGAAT CGTGTGGTAA AGGATTAGAG ATGAGAGGCG TGAGCTGTGT GAATGAGTAT
    GATGAGATGG TGGCCGTGTC CGAGTGTCTC CAGTGGGCCG GGCCGATGCC GTCTCGCTTC
    AGGAGCTGTT GGGTGGCATG TAAAGATGAC TGTGCCTTTA GTTCCTGGTC GAAATTTTCT
    GAATGCGCTG GATGTGGGAG CAGACGGACA CGCAAACGCA CAATTACAGG TCGTAGCCGA
    AAACTAGACC GATGTCAGCG GGAAGACTTG TTCCCTCTTG TGGAGTCCGA ACCCTGTCCG
    TGTGAGGAGT TTGTTTCTCA GCCATACGGT AATTGGTCGT CTTGTATCCT GTCGGAGACC
    CCAGCACAGG GTTGGAGGGG TCGTCGAGAG GCACGCGACT GTGGTCAGGG ATTCCGCTAT
    CGAGCAATGT CCTGTCTAGA CCACGAATCC CACCTGGTCA GCCCAGAACT CTGCAGCGAA
    TCAGGTCTGG TGGAAGAGGT CTGCTACATA CCCTGCCCTC TGGACTGCAA GCTGAGCGAC
    TGGTCACCGT GGTCAGCCTG CAGCGCCTCC TGTGGCAGTG GACTGAAAAT CAGGTCCAAA
    TGGCTACGAG AGAAGCCTTT CAACGGGGGG AGGCCGTGTC CAAAACTAGA CCTCAAGAAT
    CAGGTGTATG AGGCAGTTCC CTGTCGAAGT GAGTGTGATC AGTACGAGTG GCTAACAGAC
    CCATGGTCAG TCTGTACCAT CAACACAGTG GATGAGCTGC CAGCCTGTGG AGAGGGAGTC
    CAGAGCCGCA AGATCTGGTG TGTGAGTCGT GGCAGTGAGG ACCTGGTGGC CAGTGTGAAT
    GAGACCCTGT GTGACCAGGA TGAAATTCCT CCTCAAGCGC AGACCTGCGT CCTGCCGTGT
    CCTGACGACT GCGTGATGTC CCAGTGGAGT CAGTGGAGCA CCTGTGCCAT ACCGTGTGAC
    GAAAACAGCT CGAGGACTAG GACAAGGCAC GTGCTGCGCC CCCCGGTGGC TGACAGAGTG
    TGTCCAGAAA ATAATCAGAC GGAGCCCTGC ATCCTCAACA GCACCTGCTT CAATTACCAC
    TACAATGTTT CCAGCTGGAG CACCTGTCAG CTGAGCGAAC ATGCCATCTG CGGCCAGGGC
    ACGAGGACAC GACTCTTAGA TTGCATCCGC AGCGATGGCA AAGTGGTGGA TTTGAGCGTG
    TGCGAGGAGT TGGGCCTGCT TCAGCTGTGG AGACTGACCA TGAAATGTGT GGTGGACTGT
    CCCTTTAACT GCATCCTGTC TGACTGGACG TCCTGGACGG AGTGTTCACA CACCTGTGGA
    AGTAAAGGTG TTAAAACTCG CTTTCGCACT GTGCTCCAGC CGGCTCATGA GGAGGGACGT
    CCCTGCGCCT CCCAGCTGTC CCAAACCAAG CCTTGTCCCA TCAGCCCCTG CTACACGTGG
    CTACTGAGCG ACTGGTCTCC CTGCAGAGTC CAGGGAGCTG AATGTGGAGA GGGCACGAGG
    GAGAGGAACC TGACGTGTGT ACAGCACTGG TCAGACTGGC CGGACAGTCC AAACCCTTCT
    GAAGCCCTCG AGGACGATAA GTGTGGAGAC CGACTCCGAA AGCAGAGTGA GCAGGAGCTG
    CAGCAGCCGT GCTTTGTTCC CTGCCCAGGA GACTGTCACC TGACGGAGTG GTCATTGTGG
    AGCTCCTGTC AGCTCACGTG TTTGGAGGGT CGCAGTTTCG AGACAGTGGG GCGTCAGGCA
    CGTTCACAAG CTGTTGTCAT TCAGGTGCTG GACAATCAGG ACAGCTGCCC TCAGCAGGTT
    TTCGAGACCA GGCCGTGCAA AGGAGGGAAA TGTCACAGTT ACGAGTGGAG GACCAGTGCC
    TGGAATGACA ACGAGAGATC AGTGTGGTGC CAGCGGTCTG ACGGGGTCAA TGTGACAGGG
    GGCTGCTTTC CACAGAACCG GCCAACCACT GTGCGCCACT GTCACCCTCC CTGCACTAAA
    CCCTTCTCCC ACTGCAAGCA GAGTGGTGTG TGTGGCTGTG AGAGAGGCTA CACTGAAGTG
    ATGACCACAC ATGGCTTTTT GGACTACTGC ACCAAAACCC CAGGCACCGA CAACAAGAAG
    GCCGATGTGA AGACCAGCTC AGGAAGATTA AGACCAGGCA CGACTCAAAT CCAGGACTTC
    TTCGGCGAGT GGTCCCTGCA GCCTCTCGGC CCAGATGGAA GAATAAAGCT GTGGGTCTAC
    GGGTTAACAG CTGGAGGATT CATTGTCATA TTATTCACAA TTGCTGTGGC CTTTCTGTTT
    TGCAAACCAT CCAAACAGAG TAAAAGTGCA TCTCCACCAC AGAAGCCCTT GACTCTGGCC
    TATGATGGCG ATGTGGACAT GTGA

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