THBS2 cDNA ORF clone, Apteryx australis mantelli

The following THBS2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the THBS2 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
OAp16699 XM_013946096.1
Latest version!
Apteryx australis mantelli thrombospondin 2 (THBS2), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OAp16699 XM_013946097.1
Latest version!
Apteryx australis mantelli thrombospondin 2 (THBS2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OAp16700 XM_013946098.1
Latest version!
Apteryx australis mantelli thrombospondin 2 (THBS2), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00

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

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

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

  • Reference Sequences (Refseq)
    CloneID OAp16699
    Clone ID Related Accession (Same CDS sequence) XM_013946096.1 , XM_013946097.1
    Accession Version XM_013946096.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3537bp)
    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 2015-09-08
    Organism Apteryx australis mantelli
    Product thrombospondin-2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_013994658.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Apteryx australis mantelli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 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
    ATGCTACAGA GGAGTGGGCT GTTGTTGCTA ACTGTCTTGA TAACCCTGTG GGCTTCCTCA 
    GATGCTCAGG ATGGTGACAA GGAAGAAGAT ACTGCCTTTG ATTTGCTTCA AATCAGTAAC
    ATAAACCGAA AGACAGTTGG AGCAAAATTG TTTCGGGGTC CAGATCCCTC TGTCCCAGCA
    TATCGTTTCA TTCGGTTTGA TCATATACCT CCATGTAAAC CAGAGAAATT AAAAAAGATT
    GTCAAACTCA TACGGCAAAA TGAGGGCTTT ATTCTTTCAG CCACCCTGAG ACAGGACAGG
    CAGTCTAGAG GCACTCTTCT TGCTTTAGAG GGTCCTGGCA TCAGTGAGAG GCAGTTCGAG
    ATTATTTCCA ATGGCCGAGC CAACACCCTG GACCTTATCT ATTGGGTGGA TGGCTTCCAG
    AACGTGATTT CCTTGGAAGA TGTGGACCTT GCAGACTCAC AGTGGAAGAA CCTCACAGTG
    CAAGTAACAG GGGAGAACTA CAGCCTCTAT GTTGGCTGTG ACCTCATTGA CAGCTTCATC
    CTGGAGGAGC CTTTCTATGA GCAACTGAAA GCAGAAAACA GTAGAATGTA TGTGGCAAAA
    GGAGCTATTC GGGAGAACCA TTTCAGGGGT CTTTTGCAAA ATATTCAGTT AATCTTTGAC
    ACCTCAATAG AGGACGTTCT GCATAAAAAA GGATGCCAAA GGACCCAACC AACTGAAGTG
    AACACTATCA ATGAGAGCAC TGAAATCCTT CACTTGAGCC CTGCTGTCAC AACTGAGTAT
    GTTGGTGAAA AAACAGAAAA GAAGGCGGAG TTTTGTGACC GCTCCTGTGA AGAGCTGGGA
    ACGATGTTCA CTGAACTCAC TGGCCTGCGC ATTGTAGTGA ACAACTTGGC TGATAACCTT
    CAGAAAGTGT CTGAAGAGAA CCAAATTATG TGGGAATTGA TTGGGCCAAA CAAAACACTC
    AGGAACCAGT CAGTTTGCTG GCAGGATGGC CGTGTCTTTT CAGATAATGA AAGCTGGATT
    GTAGATAGCT GCACCAAGTG TACCTGCCAG GATTCTAAAA TTGTGTGCCA TCAAATCACC
    TGCCCCGCAG TCTCTTGTGC TGATCCATCT TTTATTGAAG GCGAATGCTG TCCAGTCTGC
    TCTCATTCTG ATGACAGTGA GGAAGGCTGG TCACCATGGT CAGACTGGAC AAAGTGCTCA
    GTTACTTGTG GGTCTGGCAC TCAGATGCGG GGAAGGTCGT GCGATGTCAC CAGGAGTGCT
    TGTACAGGCC CGCACATCCA GACAAGAATG TGCAGCTTTA AGAAATGTGA CCATCGCATA
    CGTCAAGATG GTGGCTGGAG TCACTGGTCT CCCTGGTCTT CCTGTTCAGT TACCTGTGGA
    GTAGGAAATA TCACTCGTAT CCGCCTCTGC AATTCCCCCA TTCCTCAGAT GGGTGGGAAA
    AATTGTGCGG GAAATGGTCG TGAAACAGAG AAATGTGAGA AGTCTCCATG TCCAGTGAAT
    GGTCAGTGGG GTCCTTGGTC TCCATGGTCT GCTTGCACTG TTACCTGTGG AGGAGGACTT
    CGTGAGAGGT CTCGCCTCTG TAATGGTCCA GAGCCACAGT TTGGAGGAAA GCCATGTGTG
    GGAGATGTCA AACAACATGA TATGTGCAAT AAGAAGGATT GCCCAATTGA TGGGTGTTTG
    TCAAATCCTT GCTTTCCTGG AGCAGAGTGC AACAGTTACC CAGATGGATC TTGGTCATGT
    GGGCCATGTC CAGCAGGCTA CCTTGGCAAT GGCACAGACT GTGAGGATCT TGATGAGTGT
    ATAGCTGTAC CGGATGTCTG CTTTAAGGTG AATCAGGTCC ATCGCTGTGT GAACACAAAT
    CCAGGATTCC ACTGCTTGCC ATGTCCTCCA CGCTATAAAG GAAGTCAGCC CTATGGTGTA
    GGACTGGAAG TTGCAAAGAC GGAGAAGCAA GTGTGTGAAC CTGAGAATCC ATGTAAGGAC
    AAGACACACA GTTGCCACAA GTCTGCAGAA TGTATCTATC TGGGCCATTT CAGTGATCCC
    ATGTACAAAT GTGAATGCAG GACAGGTTAT GCTGGTGATG GACACATTTG TGGTGAAGAT
    TCAGATTTGG ATGGCTGGCC TAATAATAAC TTGGTCTGTG CTGCTAATGC TACATACCAT
    TGTGTGAAGG ATAACTGCCC CCTTCTGCCT AACTCTGGCC AAGAAGACTT TGATAAAGAT
    GGCAAAGGAG ATGCCTGTGA TGAGGATGAT GACAATGATG GCGTTGAAGA TGACAAAGAC
    AATTGCCCTC TTCTATTTAA CCCTCGTCAA TTTGATTATG ACAAGGATGA AGTTGGTGAC
    CGCTGTGATA ATTGCCCTTA TGTGCACAAC CCGGCTCAGA TTGACACAGA TAATAACGGG
    GAGGGTGACT CATGTGCTGT GGATATTGAC GGAGATGACA TTTTTAATGA ACGAGATAAC
    TGTCCTTATG TCTACAACAC AGACCAGAGT GATACAGATG GTGATGGTGT TGGTGATCAG
    TGTGATAACT GTCCATTGAT GCATAATCCA GACCAGACTG ATGTGGATAA TGACCTTGTT
    GGTGACCAGT GTGACAACAA TGAGGACATA GATGAAGATG GTCACCAGAA CAACCAAGAT
    AACTGCCCTT ACATCCCCAA CGCTAACCAA GCTGACCATG ATAAGGATGG TAAAGGGGAT
    GCCTGCGATC CTGATGATGA CAATGATGGT ATCCCTGATG ACAGGGACAA TTGTCGCCTC
    AGATACAACC CTGACCAGGA GGACTCTGAT GGTGATGGCA GAGGTGACAT TTGCAAAGAT
    GATTTCGACA ATGACAATAT CCCAGATATT TATGATGTAT GCCCTGAAAA TAATGCCATC
    AGTGAAACTG ACTTCAGGAA GTTCCAGATG GTCCCCTTGG ACCCCAAGGG AACAGCTCAG
    ATTGATCCCA ACTGGGTTAT TCGCCACCAA GGCAAGGAAC TGGTGCAGAC TGCCAACTCT
    GATCCTGGCA TAGCTGTAGG CTATGACGAG TTCAGCTCTG TTGACTTCAG TGGCACGTTC
    TATGTTAACA CAGACCGCGA TGATGACTAT GCTGGCTTTG TGTTTGGCTA TCAGTCCAGC
    AGTCGGTTTT ATGTCCTGAT GTGGAAGCAG GTCACTCAGA CCTACTGGGA GGACAAACCC
    ACCAGGGCAT ATGGCTATTC TGGTGTGTCA CTCAAAGTAG TGAATTCAAC AACTGGTACT
    GGTGAACATT TGAGAAATGC TCTCTGGCAC ACAGGAAACA CCCCTGGACA GGTGCGTACT
    TTGTGGCATG ATCCCAAGAA CATTGGCTGG AAAGATTATA CTGCTTACAG GTGGCATTTG
    ATTCATCGGC CTAAAACAGG ATTAATAAAA GTTTTAGTGT ATGAAGGGAA GCAAGTCATG
    GTGGATTCTG GACCAGTCTA TGATACAACC TTTGCTGGTG GACGATTAGG TCTTTTTGTC
    TTCTCTCAAG AGATGGTCTA TTTCTCTGAC CTCAAATATG AATGCAGAGA TGCTTGA

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

    RefSeq XP_013801550.1
    CDS143..3679
    Translation

    Target ORF information:

    RefSeq Version XM_013946096.1
    Organism Apteryx australis mantelli
    Definition Apteryx australis mantelli thrombospondin 2 (THBS2), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_013946096.1

    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
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    ATGCTACAGA GGAGTGGGCT GTTGTTGCTA ACTGTCTTGA TAACCCTGTG GGCTTCCTCA 
    GATGCTCAGG ATGGTGACAA GGAAGAAGAT ACTGCCTTTG ATTTGCTTCA AATCAGTAAC
    ATAAACCGAA AGACAGTTGG AGCAAAATTG TTTCGGGGTC CAGATCCCTC TGTCCCAGCA
    TATCGTTTCA TTCGGTTTGA TCATATACCT CCATGTAAAC CAGAGAAATT AAAAAAGATT
    GTCAAACTCA TACGGCAAAA TGAGGGCTTT ATTCTTTCAG CCACCCTGAG ACAGGACAGG
    CAGTCTAGAG GCACTCTTCT TGCTTTAGAG GGTCCTGGCA TCAGTGAGAG GCAGTTCGAG
    ATTATTTCCA ATGGCCGAGC CAACACCCTG GACCTTATCT ATTGGGTGGA TGGCTTCCAG
    AACGTGATTT CCTTGGAAGA TGTGGACCTT GCAGACTCAC AGTGGAAGAA CCTCACAGTG
    CAAGTAACAG GGGAGAACTA CAGCCTCTAT GTTGGCTGTG ACCTCATTGA CAGCTTCATC
    CTGGAGGAGC CTTTCTATGA GCAACTGAAA GCAGAAAACA GTAGAATGTA TGTGGCAAAA
    GGAGCTATTC GGGAGAACCA TTTCAGGGGT CTTTTGCAAA ATATTCAGTT AATCTTTGAC
    ACCTCAATAG AGGACGTTCT GCATAAAAAA GGATGCCAAA GGACCCAACC AACTGAAGTG
    AACACTATCA ATGAGAGCAC TGAAATCCTT CACTTGAGCC CTGCTGTCAC AACTGAGTAT
    GTTGGTGAAA AAACAGAAAA GAAGGCGGAG TTTTGTGACC GCTCCTGTGA AGAGCTGGGA
    ACGATGTTCA CTGAACTCAC TGGCCTGCGC ATTGTAGTGA ACAACTTGGC TGATAACCTT
    CAGAAAGTGT CTGAAGAGAA CCAAATTATG TGGGAATTGA TTGGGCCAAA CAAAACACTC
    AGGAACCAGT CAGTTTGCTG GCAGGATGGC CGTGTCTTTT CAGATAATGA AAGCTGGATT
    GTAGATAGCT GCACCAAGTG TACCTGCCAG GATTCTAAAA TTGTGTGCCA TCAAATCACC
    TGCCCCGCAG TCTCTTGTGC TGATCCATCT TTTATTGAAG GCGAATGCTG TCCAGTCTGC
    TCTCATTCTG ATGACAGTGA GGAAGGCTGG TCACCATGGT CAGACTGGAC AAAGTGCTCA
    GTTACTTGTG GGTCTGGCAC TCAGATGCGG GGAAGGTCGT GCGATGTCAC CAGGAGTGCT
    TGTACAGGCC CGCACATCCA GACAAGAATG TGCAGCTTTA AGAAATGTGA CCATCGCATA
    CGTCAAGATG GTGGCTGGAG TCACTGGTCT CCCTGGTCTT CCTGTTCAGT TACCTGTGGA
    GTAGGAAATA TCACTCGTAT CCGCCTCTGC AATTCCCCCA TTCCTCAGAT GGGTGGGAAA
    AATTGTGCGG GAAATGGTCG TGAAACAGAG AAATGTGAGA AGTCTCCATG TCCAGTGAAT
    GGTCAGTGGG GTCCTTGGTC TCCATGGTCT GCTTGCACTG TTACCTGTGG AGGAGGACTT
    CGTGAGAGGT CTCGCCTCTG TAATGGTCCA GAGCCACAGT TTGGAGGAAA GCCATGTGTG
    GGAGATGTCA AACAACATGA TATGTGCAAT AAGAAGGATT GCCCAATTGA TGGGTGTTTG
    TCAAATCCTT GCTTTCCTGG AGCAGAGTGC AACAGTTACC CAGATGGATC TTGGTCATGT
    GGGCCATGTC CAGCAGGCTA CCTTGGCAAT GGCACAGACT GTGAGGATCT TGATGAGTGT
    ATAGCTGTAC CGGATGTCTG CTTTAAGGTG AATCAGGTCC ATCGCTGTGT GAACACAAAT
    CCAGGATTCC ACTGCTTGCC ATGTCCTCCA CGCTATAAAG GAAGTCAGCC CTATGGTGTA
    GGACTGGAAG TTGCAAAGAC GGAGAAGCAA GTGTGTGAAC CTGAGAATCC ATGTAAGGAC
    AAGACACACA GTTGCCACAA GTCTGCAGAA TGTATCTATC TGGGCCATTT CAGTGATCCC
    ATGTACAAAT GTGAATGCAG GACAGGTTAT GCTGGTGATG GACACATTTG TGGTGAAGAT
    TCAGATTTGG ATGGCTGGCC TAATAATAAC TTGGTCTGTG CTGCTAATGC TACATACCAT
    TGTGTGAAGG ATAACTGCCC CCTTCTGCCT AACTCTGGCC AAGAAGACTT TGATAAAGAT
    GGCAAAGGAG ATGCCTGTGA TGAGGATGAT GACAATGATG GCGTTGAAGA TGACAAAGAC
    AATTGCCCTC TTCTATTTAA CCCTCGTCAA TTTGATTATG ACAAGGATGA AGTTGGTGAC
    CGCTGTGATA ATTGCCCTTA TGTGCACAAC CCGGCTCAGA TTGACACAGA TAATAACGGG
    GAGGGTGACT CATGTGCTGT GGATATTGAC GGAGATGACA TTTTTAATGA ACGAGATAAC
    TGTCCTTATG TCTACAACAC AGACCAGAGT GATACAGATG GTGATGGTGT TGGTGATCAG
    TGTGATAACT GTCCATTGAT GCATAATCCA GACCAGACTG ATGTGGATAA TGACCTTGTT
    GGTGACCAGT GTGACAACAA TGAGGACATA GATGAAGATG GTCACCAGAA CAACCAAGAT
    AACTGCCCTT ACATCCCCAA CGCTAACCAA GCTGACCATG ATAAGGATGG TAAAGGGGAT
    GCCTGCGATC CTGATGATGA CAATGATGGT ATCCCTGATG ACAGGGACAA TTGTCGCCTC
    AGATACAACC CTGACCAGGA GGACTCTGAT GGTGATGGCA GAGGTGACAT TTGCAAAGAT
    GATTTCGACA ATGACAATAT CCCAGATATT TATGATGTAT GCCCTGAAAA TAATGCCATC
    AGTGAAACTG ACTTCAGGAA GTTCCAGATG GTCCCCTTGG ACCCCAAGGG AACAGCTCAG
    ATTGATCCCA ACTGGGTTAT TCGCCACCAA GGCAAGGAAC TGGTGCAGAC TGCCAACTCT
    GATCCTGGCA TAGCTGTAGG CTATGACGAG TTCAGCTCTG TTGACTTCAG TGGCACGTTC
    TATGTTAACA CAGACCGCGA TGATGACTAT GCTGGCTTTG TGTTTGGCTA TCAGTCCAGC
    AGTCGGTTTT ATGTCCTGAT GTGGAAGCAG GTCACTCAGA CCTACTGGGA GGACAAACCC
    ACCAGGGCAT ATGGCTATTC TGGTGTGTCA CTCAAAGTAG TGAATTCAAC AACTGGTACT
    GGTGAACATT TGAGAAATGC TCTCTGGCAC ACAGGAAACA CCCCTGGACA GGTGCGTACT
    TTGTGGCATG ATCCCAAGAA CATTGGCTGG AAAGATTATA CTGCTTACAG GTGGCATTTG
    ATTCATCGGC CTAAAACAGG ATTAATAAAA GTTTTAGTGT ATGAAGGGAA GCAAGTCATG
    GTGGATTCTG GACCAGTCTA TGATACAACC TTTGCTGGTG GACGATTAGG TCTTTTTGTC
    TTCTCTCAAG AGATGGTCTA TTTCTCTGAC CTCAAATATG AATGCAGAGA TGCTTGA

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

    CloneID OAp16699
    Clone ID Related Accession (Same CDS sequence) XM_013946096.1 , XM_013946097.1
    Accession Version XM_013946097.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3537bp)
    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 2015-09-08
    Organism Apteryx australis mantelli
    Product thrombospondin-2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_013994658.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Apteryx australis mantelli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 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
    ATGCTACAGA GGAGTGGGCT GTTGTTGCTA ACTGTCTTGA TAACCCTGTG GGCTTCCTCA 
    GATGCTCAGG ATGGTGACAA GGAAGAAGAT ACTGCCTTTG ATTTGCTTCA AATCAGTAAC
    ATAAACCGAA AGACAGTTGG AGCAAAATTG TTTCGGGGTC CAGATCCCTC TGTCCCAGCA
    TATCGTTTCA TTCGGTTTGA TCATATACCT CCATGTAAAC CAGAGAAATT AAAAAAGATT
    GTCAAACTCA TACGGCAAAA TGAGGGCTTT ATTCTTTCAG CCACCCTGAG ACAGGACAGG
    CAGTCTAGAG GCACTCTTCT TGCTTTAGAG GGTCCTGGCA TCAGTGAGAG GCAGTTCGAG
    ATTATTTCCA ATGGCCGAGC CAACACCCTG GACCTTATCT ATTGGGTGGA TGGCTTCCAG
    AACGTGATTT CCTTGGAAGA TGTGGACCTT GCAGACTCAC AGTGGAAGAA CCTCACAGTG
    CAAGTAACAG GGGAGAACTA CAGCCTCTAT GTTGGCTGTG ACCTCATTGA CAGCTTCATC
    CTGGAGGAGC CTTTCTATGA GCAACTGAAA GCAGAAAACA GTAGAATGTA TGTGGCAAAA
    GGAGCTATTC GGGAGAACCA TTTCAGGGGT CTTTTGCAAA ATATTCAGTT AATCTTTGAC
    ACCTCAATAG AGGACGTTCT GCATAAAAAA GGATGCCAAA GGACCCAACC AACTGAAGTG
    AACACTATCA ATGAGAGCAC TGAAATCCTT CACTTGAGCC CTGCTGTCAC AACTGAGTAT
    GTTGGTGAAA AAACAGAAAA GAAGGCGGAG TTTTGTGACC GCTCCTGTGA AGAGCTGGGA
    ACGATGTTCA CTGAACTCAC TGGCCTGCGC ATTGTAGTGA ACAACTTGGC TGATAACCTT
    CAGAAAGTGT CTGAAGAGAA CCAAATTATG TGGGAATTGA TTGGGCCAAA CAAAACACTC
    AGGAACCAGT CAGTTTGCTG GCAGGATGGC CGTGTCTTTT CAGATAATGA AAGCTGGATT
    GTAGATAGCT GCACCAAGTG TACCTGCCAG GATTCTAAAA TTGTGTGCCA TCAAATCACC
    TGCCCCGCAG TCTCTTGTGC TGATCCATCT TTTATTGAAG GCGAATGCTG TCCAGTCTGC
    TCTCATTCTG ATGACAGTGA GGAAGGCTGG TCACCATGGT CAGACTGGAC AAAGTGCTCA
    GTTACTTGTG GGTCTGGCAC TCAGATGCGG GGAAGGTCGT GCGATGTCAC CAGGAGTGCT
    TGTACAGGCC CGCACATCCA GACAAGAATG TGCAGCTTTA AGAAATGTGA CCATCGCATA
    CGTCAAGATG GTGGCTGGAG TCACTGGTCT CCCTGGTCTT CCTGTTCAGT TACCTGTGGA
    GTAGGAAATA TCACTCGTAT CCGCCTCTGC AATTCCCCCA TTCCTCAGAT GGGTGGGAAA
    AATTGTGCGG GAAATGGTCG TGAAACAGAG AAATGTGAGA AGTCTCCATG TCCAGTGAAT
    GGTCAGTGGG GTCCTTGGTC TCCATGGTCT GCTTGCACTG TTACCTGTGG AGGAGGACTT
    CGTGAGAGGT CTCGCCTCTG TAATGGTCCA GAGCCACAGT TTGGAGGAAA GCCATGTGTG
    GGAGATGTCA AACAACATGA TATGTGCAAT AAGAAGGATT GCCCAATTGA TGGGTGTTTG
    TCAAATCCTT GCTTTCCTGG AGCAGAGTGC AACAGTTACC CAGATGGATC TTGGTCATGT
    GGGCCATGTC CAGCAGGCTA CCTTGGCAAT GGCACAGACT GTGAGGATCT TGATGAGTGT
    ATAGCTGTAC CGGATGTCTG CTTTAAGGTG AATCAGGTCC ATCGCTGTGT GAACACAAAT
    CCAGGATTCC ACTGCTTGCC ATGTCCTCCA CGCTATAAAG GAAGTCAGCC CTATGGTGTA
    GGACTGGAAG TTGCAAAGAC GGAGAAGCAA GTGTGTGAAC CTGAGAATCC ATGTAAGGAC
    AAGACACACA GTTGCCACAA GTCTGCAGAA TGTATCTATC TGGGCCATTT CAGTGATCCC
    ATGTACAAAT GTGAATGCAG GACAGGTTAT GCTGGTGATG GACACATTTG TGGTGAAGAT
    TCAGATTTGG ATGGCTGGCC TAATAATAAC TTGGTCTGTG CTGCTAATGC TACATACCAT
    TGTGTGAAGG ATAACTGCCC CCTTCTGCCT AACTCTGGCC AAGAAGACTT TGATAAAGAT
    GGCAAAGGAG ATGCCTGTGA TGAGGATGAT GACAATGATG GCGTTGAAGA TGACAAAGAC
    AATTGCCCTC TTCTATTTAA CCCTCGTCAA TTTGATTATG ACAAGGATGA AGTTGGTGAC
    CGCTGTGATA ATTGCCCTTA TGTGCACAAC CCGGCTCAGA TTGACACAGA TAATAACGGG
    GAGGGTGACT CATGTGCTGT GGATATTGAC GGAGATGACA TTTTTAATGA ACGAGATAAC
    TGTCCTTATG TCTACAACAC AGACCAGAGT GATACAGATG GTGATGGTGT TGGTGATCAG
    TGTGATAACT GTCCATTGAT GCATAATCCA GACCAGACTG ATGTGGATAA TGACCTTGTT
    GGTGACCAGT GTGACAACAA TGAGGACATA GATGAAGATG GTCACCAGAA CAACCAAGAT
    AACTGCCCTT ACATCCCCAA CGCTAACCAA GCTGACCATG ATAAGGATGG TAAAGGGGAT
    GCCTGCGATC CTGATGATGA CAATGATGGT ATCCCTGATG ACAGGGACAA TTGTCGCCTC
    AGATACAACC CTGACCAGGA GGACTCTGAT GGTGATGGCA GAGGTGACAT TTGCAAAGAT
    GATTTCGACA ATGACAATAT CCCAGATATT TATGATGTAT GCCCTGAAAA TAATGCCATC
    AGTGAAACTG ACTTCAGGAA GTTCCAGATG GTCCCCTTGG ACCCCAAGGG AACAGCTCAG
    ATTGATCCCA ACTGGGTTAT TCGCCACCAA GGCAAGGAAC TGGTGCAGAC TGCCAACTCT
    GATCCTGGCA TAGCTGTAGG CTATGACGAG TTCAGCTCTG TTGACTTCAG TGGCACGTTC
    TATGTTAACA CAGACCGCGA TGATGACTAT GCTGGCTTTG TGTTTGGCTA TCAGTCCAGC
    AGTCGGTTTT ATGTCCTGAT GTGGAAGCAG GTCACTCAGA CCTACTGGGA GGACAAACCC
    ACCAGGGCAT ATGGCTATTC TGGTGTGTCA CTCAAAGTAG TGAATTCAAC AACTGGTACT
    GGTGAACATT TGAGAAATGC TCTCTGGCAC ACAGGAAACA CCCCTGGACA GGTGCGTACT
    TTGTGGCATG ATCCCAAGAA CATTGGCTGG AAAGATTATA CTGCTTACAG GTGGCATTTG
    ATTCATCGGC CTAAAACAGG ATTAATAAAA GTTTTAGTGT ATGAAGGGAA GCAAGTCATG
    GTGGATTCTG GACCAGTCTA TGATACAACC TTTGCTGGTG GACGATTAGG TCTTTTTGTC
    TTCTCTCAAG AGATGGTCTA TTTCTCTGAC CTCAAATATG AATGCAGAGA TGCTTGA

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

    RefSeq XP_013801551.1
    CDS33..3569
    Translation

    Target ORF information:

    RefSeq Version XM_013946097.1
    Organism Apteryx australis mantelli
    Definition Apteryx australis mantelli thrombospondin 2 (THBS2), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_013946097.1

    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
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    ATGCTACAGA GGAGTGGGCT GTTGTTGCTA ACTGTCTTGA TAACCCTGTG GGCTTCCTCA 
    GATGCTCAGG ATGGTGACAA GGAAGAAGAT ACTGCCTTTG ATTTGCTTCA AATCAGTAAC
    ATAAACCGAA AGACAGTTGG AGCAAAATTG TTTCGGGGTC CAGATCCCTC TGTCCCAGCA
    TATCGTTTCA TTCGGTTTGA TCATATACCT CCATGTAAAC CAGAGAAATT AAAAAAGATT
    GTCAAACTCA TACGGCAAAA TGAGGGCTTT ATTCTTTCAG CCACCCTGAG ACAGGACAGG
    CAGTCTAGAG GCACTCTTCT TGCTTTAGAG GGTCCTGGCA TCAGTGAGAG GCAGTTCGAG
    ATTATTTCCA ATGGCCGAGC CAACACCCTG GACCTTATCT ATTGGGTGGA TGGCTTCCAG
    AACGTGATTT CCTTGGAAGA TGTGGACCTT GCAGACTCAC AGTGGAAGAA CCTCACAGTG
    CAAGTAACAG GGGAGAACTA CAGCCTCTAT GTTGGCTGTG ACCTCATTGA CAGCTTCATC
    CTGGAGGAGC CTTTCTATGA GCAACTGAAA GCAGAAAACA GTAGAATGTA TGTGGCAAAA
    GGAGCTATTC GGGAGAACCA TTTCAGGGGT CTTTTGCAAA ATATTCAGTT AATCTTTGAC
    ACCTCAATAG AGGACGTTCT GCATAAAAAA GGATGCCAAA GGACCCAACC AACTGAAGTG
    AACACTATCA ATGAGAGCAC TGAAATCCTT CACTTGAGCC CTGCTGTCAC AACTGAGTAT
    GTTGGTGAAA AAACAGAAAA GAAGGCGGAG TTTTGTGACC GCTCCTGTGA AGAGCTGGGA
    ACGATGTTCA CTGAACTCAC TGGCCTGCGC ATTGTAGTGA ACAACTTGGC TGATAACCTT
    CAGAAAGTGT CTGAAGAGAA CCAAATTATG TGGGAATTGA TTGGGCCAAA CAAAACACTC
    AGGAACCAGT CAGTTTGCTG GCAGGATGGC CGTGTCTTTT CAGATAATGA AAGCTGGATT
    GTAGATAGCT GCACCAAGTG TACCTGCCAG GATTCTAAAA TTGTGTGCCA TCAAATCACC
    TGCCCCGCAG TCTCTTGTGC TGATCCATCT TTTATTGAAG GCGAATGCTG TCCAGTCTGC
    TCTCATTCTG ATGACAGTGA GGAAGGCTGG TCACCATGGT CAGACTGGAC AAAGTGCTCA
    GTTACTTGTG GGTCTGGCAC TCAGATGCGG GGAAGGTCGT GCGATGTCAC CAGGAGTGCT
    TGTACAGGCC CGCACATCCA GACAAGAATG TGCAGCTTTA AGAAATGTGA CCATCGCATA
    CGTCAAGATG GTGGCTGGAG TCACTGGTCT CCCTGGTCTT CCTGTTCAGT TACCTGTGGA
    GTAGGAAATA TCACTCGTAT CCGCCTCTGC AATTCCCCCA TTCCTCAGAT GGGTGGGAAA
    AATTGTGCGG GAAATGGTCG TGAAACAGAG AAATGTGAGA AGTCTCCATG TCCAGTGAAT
    GGTCAGTGGG GTCCTTGGTC TCCATGGTCT GCTTGCACTG TTACCTGTGG AGGAGGACTT
    CGTGAGAGGT CTCGCCTCTG TAATGGTCCA GAGCCACAGT TTGGAGGAAA GCCATGTGTG
    GGAGATGTCA AACAACATGA TATGTGCAAT AAGAAGGATT GCCCAATTGA TGGGTGTTTG
    TCAAATCCTT GCTTTCCTGG AGCAGAGTGC AACAGTTACC CAGATGGATC TTGGTCATGT
    GGGCCATGTC CAGCAGGCTA CCTTGGCAAT GGCACAGACT GTGAGGATCT TGATGAGTGT
    ATAGCTGTAC CGGATGTCTG CTTTAAGGTG AATCAGGTCC ATCGCTGTGT GAACACAAAT
    CCAGGATTCC ACTGCTTGCC ATGTCCTCCA CGCTATAAAG GAAGTCAGCC CTATGGTGTA
    GGACTGGAAG TTGCAAAGAC GGAGAAGCAA GTGTGTGAAC CTGAGAATCC ATGTAAGGAC
    AAGACACACA GTTGCCACAA GTCTGCAGAA TGTATCTATC TGGGCCATTT CAGTGATCCC
    ATGTACAAAT GTGAATGCAG GACAGGTTAT GCTGGTGATG GACACATTTG TGGTGAAGAT
    TCAGATTTGG ATGGCTGGCC TAATAATAAC TTGGTCTGTG CTGCTAATGC TACATACCAT
    TGTGTGAAGG ATAACTGCCC CCTTCTGCCT AACTCTGGCC AAGAAGACTT TGATAAAGAT
    GGCAAAGGAG ATGCCTGTGA TGAGGATGAT GACAATGATG GCGTTGAAGA TGACAAAGAC
    AATTGCCCTC TTCTATTTAA CCCTCGTCAA TTTGATTATG ACAAGGATGA AGTTGGTGAC
    CGCTGTGATA ATTGCCCTTA TGTGCACAAC CCGGCTCAGA TTGACACAGA TAATAACGGG
    GAGGGTGACT CATGTGCTGT GGATATTGAC GGAGATGACA TTTTTAATGA ACGAGATAAC
    TGTCCTTATG TCTACAACAC AGACCAGAGT GATACAGATG GTGATGGTGT TGGTGATCAG
    TGTGATAACT GTCCATTGAT GCATAATCCA GACCAGACTG ATGTGGATAA TGACCTTGTT
    GGTGACCAGT GTGACAACAA TGAGGACATA GATGAAGATG GTCACCAGAA CAACCAAGAT
    AACTGCCCTT ACATCCCCAA CGCTAACCAA GCTGACCATG ATAAGGATGG TAAAGGGGAT
    GCCTGCGATC CTGATGATGA CAATGATGGT ATCCCTGATG ACAGGGACAA TTGTCGCCTC
    AGATACAACC CTGACCAGGA GGACTCTGAT GGTGATGGCA GAGGTGACAT TTGCAAAGAT
    GATTTCGACA ATGACAATAT CCCAGATATT TATGATGTAT GCCCTGAAAA TAATGCCATC
    AGTGAAACTG ACTTCAGGAA GTTCCAGATG GTCCCCTTGG ACCCCAAGGG AACAGCTCAG
    ATTGATCCCA ACTGGGTTAT TCGCCACCAA GGCAAGGAAC TGGTGCAGAC TGCCAACTCT
    GATCCTGGCA TAGCTGTAGG CTATGACGAG TTCAGCTCTG TTGACTTCAG TGGCACGTTC
    TATGTTAACA CAGACCGCGA TGATGACTAT GCTGGCTTTG TGTTTGGCTA TCAGTCCAGC
    AGTCGGTTTT ATGTCCTGAT GTGGAAGCAG GTCACTCAGA CCTACTGGGA GGACAAACCC
    ACCAGGGCAT ATGGCTATTC TGGTGTGTCA CTCAAAGTAG TGAATTCAAC AACTGGTACT
    GGTGAACATT TGAGAAATGC TCTCTGGCAC ACAGGAAACA CCCCTGGACA GGTGCGTACT
    TTGTGGCATG ATCCCAAGAA CATTGGCTGG AAAGATTATA CTGCTTACAG GTGGCATTTG
    ATTCATCGGC CTAAAACAGG ATTAATAAAA GTTTTAGTGT ATGAAGGGAA GCAAGTCATG
    GTGGATTCTG GACCAGTCTA TGATACAACC TTTGCTGGTG GACGATTAGG TCTTTTTGTC
    TTCTCTCAAG AGATGGTCTA TTTCTCTGAC CTCAAATATG AATGCAGAGA TGCTTGA

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

    CloneID OAp16700
    Clone ID Related Accession (Same CDS sequence) XM_013946098.1
    Accession Version XM_013946098.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3534bp)
    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 2015-09-08
    Organism Apteryx australis mantelli
    Product thrombospondin-2 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_013994658.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Apteryx australis mantelli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 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
    ATGAAAATGA CAGATGGAAA ATATGATTCT GGCTTGCTAG TAAATGCAGT TCTGTCTGTG 
    GAAGTAGATG GTGACAAGGA AGAAGATACT GCCTTTGATT TGCTTCAAAT CAGTAACATA
    AACCGAAAGA CAGTTGGAGC AAAATTGTTT CGGGGTCCAG ATCCCTCTGT CCCAGCATAT
    CGTTTCATTC GGTTTGATCA TATACCTCCA TGTAAACCAG AGAAATTAAA AAAGATTGTC
    AAACTCATAC GGCAAAATGA GGGCTTTATT CTTTCAGCCA CCCTGAGACA GGACAGGCAG
    TCTAGAGGCA CTCTTCTTGC TTTAGAGGGT CCTGGCATCA GTGAGAGGCA GTTCGAGATT
    ATTTCCAATG GCCGAGCCAA CACCCTGGAC CTTATCTATT GGGTGGATGG CTTCCAGAAC
    GTGATTTCCT TGGAAGATGT GGACCTTGCA GACTCACAGT GGAAGAACCT CACAGTGCAA
    GTAACAGGGG AGAACTACAG CCTCTATGTT GGCTGTGACC TCATTGACAG CTTCATCCTG
    GAGGAGCCTT TCTATGAGCA ACTGAAAGCA GAAAACAGTA GAATGTATGT GGCAAAAGGA
    GCTATTCGGG AGAACCATTT CAGGGGTCTT TTGCAAAATA TTCAGTTAAT CTTTGACACC
    TCAATAGAGG ACGTTCTGCA TAAAAAAGGA TGCCAAAGGA CCCAACCAAC TGAAGTGAAC
    ACTATCAATG AGAGCACTGA AATCCTTCAC TTGAGCCCTG CTGTCACAAC TGAGTATGTT
    GGTGAAAAAA CAGAAAAGAA GGCGGAGTTT TGTGACCGCT CCTGTGAAGA GCTGGGAACG
    ATGTTCACTG AACTCACTGG CCTGCGCATT GTAGTGAACA ACTTGGCTGA TAACCTTCAG
    AAAGTGTCTG AAGAGAACCA AATTATGTGG GAATTGATTG GGCCAAACAA AACACTCAGG
    AACCAGTCAG TTTGCTGGCA GGATGGCCGT GTCTTTTCAG ATAATGAAAG CTGGATTGTA
    GATAGCTGCA CCAAGTGTAC CTGCCAGGAT TCTAAAATTG TGTGCCATCA AATCACCTGC
    CCCGCAGTCT CTTGTGCTGA TCCATCTTTT ATTGAAGGCG AATGCTGTCC AGTCTGCTCT
    CATTCTGATG ACAGTGAGGA AGGCTGGTCA CCATGGTCAG ACTGGACAAA GTGCTCAGTT
    ACTTGTGGGT CTGGCACTCA GATGCGGGGA AGGTCGTGCG ATGTCACCAG GAGTGCTTGT
    ACAGGCCCGC ACATCCAGAC AAGAATGTGC AGCTTTAAGA AATGTGACCA TCGCATACGT
    CAAGATGGTG GCTGGAGTCA CTGGTCTCCC TGGTCTTCCT GTTCAGTTAC CTGTGGAGTA
    GGAAATATCA CTCGTATCCG CCTCTGCAAT TCCCCCATTC CTCAGATGGG TGGGAAAAAT
    TGTGCGGGAA ATGGTCGTGA AACAGAGAAA TGTGAGAAGT CTCCATGTCC AGTGAATGGT
    CAGTGGGGTC CTTGGTCTCC ATGGTCTGCT TGCACTGTTA CCTGTGGAGG AGGACTTCGT
    GAGAGGTCTC GCCTCTGTAA TGGTCCAGAG CCACAGTTTG GAGGAAAGCC ATGTGTGGGA
    GATGTCAAAC AACATGATAT GTGCAATAAG AAGGATTGCC CAATTGATGG GTGTTTGTCA
    AATCCTTGCT TTCCTGGAGC AGAGTGCAAC AGTTACCCAG ATGGATCTTG GTCATGTGGG
    CCATGTCCAG CAGGCTACCT TGGCAATGGC ACAGACTGTG AGGATCTTGA TGAGTGTATA
    GCTGTACCGG ATGTCTGCTT TAAGGTGAAT CAGGTCCATC GCTGTGTGAA CACAAATCCA
    GGATTCCACT GCTTGCCATG TCCTCCACGC TATAAAGGAA GTCAGCCCTA TGGTGTAGGA
    CTGGAAGTTG CAAAGACGGA GAAGCAAGTG TGTGAACCTG AGAATCCATG TAAGGACAAG
    ACACACAGTT GCCACAAGTC TGCAGAATGT ATCTATCTGG GCCATTTCAG TGATCCCATG
    TACAAATGTG AATGCAGGAC AGGTTATGCT GGTGATGGAC ACATTTGTGG TGAAGATTCA
    GATTTGGATG GCTGGCCTAA TAATAACTTG GTCTGTGCTG CTAATGCTAC ATACCATTGT
    GTGAAGGATA ACTGCCCCCT TCTGCCTAAC TCTGGCCAAG AAGACTTTGA TAAAGATGGC
    AAAGGAGATG CCTGTGATGA GGATGATGAC AATGATGGCG TTGAAGATGA CAAAGACAAT
    TGCCCTCTTC TATTTAACCC TCGTCAATTT GATTATGACA AGGATGAAGT TGGTGACCGC
    TGTGATAATT GCCCTTATGT GCACAACCCG GCTCAGATTG ACACAGATAA TAACGGGGAG
    GGTGACTCAT GTGCTGTGGA TATTGACGGA GATGACATTT TTAATGAACG AGATAACTGT
    CCTTATGTCT ACAACACAGA CCAGAGTGAT ACAGATGGTG ATGGTGTTGG TGATCAGTGT
    GATAACTGTC CATTGATGCA TAATCCAGAC CAGACTGATG TGGATAATGA CCTTGTTGGT
    GACCAGTGTG ACAACAATGA GGACATAGAT GAAGATGGTC ACCAGAACAA CCAAGATAAC
    TGCCCTTACA TCCCCAACGC TAACCAAGCT GACCATGATA AGGATGGTAA AGGGGATGCC
    TGCGATCCTG ATGATGACAA TGATGGTATC CCTGATGACA GGGACAATTG TCGCCTCAGA
    TACAACCCTG ACCAGGAGGA CTCTGATGGT GATGGCAGAG GTGACATTTG CAAAGATGAT
    TTCGACAATG ACAATATCCC AGATATTTAT GATGTATGCC CTGAAAATAA TGCCATCAGT
    GAAACTGACT TCAGGAAGTT CCAGATGGTC CCCTTGGACC CCAAGGGAAC AGCTCAGATT
    GATCCCAACT GGGTTATTCG CCACCAAGGC AAGGAACTGG TGCAGACTGC CAACTCTGAT
    CCTGGCATAG CTGTAGGCTA TGACGAGTTC AGCTCTGTTG ACTTCAGTGG CACGTTCTAT
    GTTAACACAG ACCGCGATGA TGACTATGCT GGCTTTGTGT TTGGCTATCA GTCCAGCAGT
    CGGTTTTATG TCCTGATGTG GAAGCAGGTC ACTCAGACCT ACTGGGAGGA CAAACCCACC
    AGGGCATATG GCTATTCTGG TGTGTCACTC AAAGTAGTGA ATTCAACAAC TGGTACTGGT
    GAACATTTGA GAAATGCTCT CTGGCACACA GGAAACACCC CTGGACAGGT GCGTACTTTG
    TGGCATGATC CCAAGAACAT TGGCTGGAAA GATTATACTG CTTACAGGTG GCATTTGATT
    CATCGGCCTA AAACAGGATT AATAAAAGTT TTAGTGTATG AAGGGAAGCA AGTCATGGTG
    GATTCTGGAC CAGTCTATGA TACAACCTTT GCTGGTGGAC GATTAGGTCT TTTTGTCTTC
    TCTCAAGAGA TGGTCTATTT CTCTGACCTC AAATATGAAT GCAGAGATGC TTGA

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

    RefSeq XP_013801552.1
    CDS103..3636
    Translation

    Target ORF information:

    RefSeq Version XM_013946098.1
    Organism Apteryx australis mantelli
    Definition Apteryx australis mantelli thrombospondin 2 (THBS2), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_013946098.1

    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
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    ATGAAAATGA CAGATGGAAA ATATGATTCT GGCTTGCTAG TAAATGCAGT TCTGTCTGTG 
    GAAGTAGATG GTGACAAGGA AGAAGATACT GCCTTTGATT TGCTTCAAAT CAGTAACATA
    AACCGAAAGA CAGTTGGAGC AAAATTGTTT CGGGGTCCAG ATCCCTCTGT CCCAGCATAT
    CGTTTCATTC GGTTTGATCA TATACCTCCA TGTAAACCAG AGAAATTAAA AAAGATTGTC
    AAACTCATAC GGCAAAATGA GGGCTTTATT CTTTCAGCCA CCCTGAGACA GGACAGGCAG
    TCTAGAGGCA CTCTTCTTGC TTTAGAGGGT CCTGGCATCA GTGAGAGGCA GTTCGAGATT
    ATTTCCAATG GCCGAGCCAA CACCCTGGAC CTTATCTATT GGGTGGATGG CTTCCAGAAC
    GTGATTTCCT TGGAAGATGT GGACCTTGCA GACTCACAGT GGAAGAACCT CACAGTGCAA
    GTAACAGGGG AGAACTACAG CCTCTATGTT GGCTGTGACC TCATTGACAG CTTCATCCTG
    GAGGAGCCTT TCTATGAGCA ACTGAAAGCA GAAAACAGTA GAATGTATGT GGCAAAAGGA
    GCTATTCGGG AGAACCATTT CAGGGGTCTT TTGCAAAATA TTCAGTTAAT CTTTGACACC
    TCAATAGAGG ACGTTCTGCA TAAAAAAGGA TGCCAAAGGA CCCAACCAAC TGAAGTGAAC
    ACTATCAATG AGAGCACTGA AATCCTTCAC TTGAGCCCTG CTGTCACAAC TGAGTATGTT
    GGTGAAAAAA CAGAAAAGAA GGCGGAGTTT TGTGACCGCT CCTGTGAAGA GCTGGGAACG
    ATGTTCACTG AACTCACTGG CCTGCGCATT GTAGTGAACA ACTTGGCTGA TAACCTTCAG
    AAAGTGTCTG AAGAGAACCA AATTATGTGG GAATTGATTG GGCCAAACAA AACACTCAGG
    AACCAGTCAG TTTGCTGGCA GGATGGCCGT GTCTTTTCAG ATAATGAAAG CTGGATTGTA
    GATAGCTGCA CCAAGTGTAC CTGCCAGGAT TCTAAAATTG TGTGCCATCA AATCACCTGC
    CCCGCAGTCT CTTGTGCTGA TCCATCTTTT ATTGAAGGCG AATGCTGTCC AGTCTGCTCT
    CATTCTGATG ACAGTGAGGA AGGCTGGTCA CCATGGTCAG ACTGGACAAA GTGCTCAGTT
    ACTTGTGGGT CTGGCACTCA GATGCGGGGA AGGTCGTGCG ATGTCACCAG GAGTGCTTGT
    ACAGGCCCGC ACATCCAGAC AAGAATGTGC AGCTTTAAGA AATGTGACCA TCGCATACGT
    CAAGATGGTG GCTGGAGTCA CTGGTCTCCC TGGTCTTCCT GTTCAGTTAC CTGTGGAGTA
    GGAAATATCA CTCGTATCCG CCTCTGCAAT TCCCCCATTC CTCAGATGGG TGGGAAAAAT
    TGTGCGGGAA ATGGTCGTGA AACAGAGAAA TGTGAGAAGT CTCCATGTCC AGTGAATGGT
    CAGTGGGGTC CTTGGTCTCC ATGGTCTGCT TGCACTGTTA CCTGTGGAGG AGGACTTCGT
    GAGAGGTCTC GCCTCTGTAA TGGTCCAGAG CCACAGTTTG GAGGAAAGCC ATGTGTGGGA
    GATGTCAAAC AACATGATAT GTGCAATAAG AAGGATTGCC CAATTGATGG GTGTTTGTCA
    AATCCTTGCT TTCCTGGAGC AGAGTGCAAC AGTTACCCAG ATGGATCTTG GTCATGTGGG
    CCATGTCCAG CAGGCTACCT TGGCAATGGC ACAGACTGTG AGGATCTTGA TGAGTGTATA
    GCTGTACCGG ATGTCTGCTT TAAGGTGAAT CAGGTCCATC GCTGTGTGAA CACAAATCCA
    GGATTCCACT GCTTGCCATG TCCTCCACGC TATAAAGGAA GTCAGCCCTA TGGTGTAGGA
    CTGGAAGTTG CAAAGACGGA GAAGCAAGTG TGTGAACCTG AGAATCCATG TAAGGACAAG
    ACACACAGTT GCCACAAGTC TGCAGAATGT ATCTATCTGG GCCATTTCAG TGATCCCATG
    TACAAATGTG AATGCAGGAC AGGTTATGCT GGTGATGGAC ACATTTGTGG TGAAGATTCA
    GATTTGGATG GCTGGCCTAA TAATAACTTG GTCTGTGCTG CTAATGCTAC ATACCATTGT
    GTGAAGGATA ACTGCCCCCT TCTGCCTAAC TCTGGCCAAG AAGACTTTGA TAAAGATGGC
    AAAGGAGATG CCTGTGATGA GGATGATGAC AATGATGGCG TTGAAGATGA CAAAGACAAT
    TGCCCTCTTC TATTTAACCC TCGTCAATTT GATTATGACA AGGATGAAGT TGGTGACCGC
    TGTGATAATT GCCCTTATGT GCACAACCCG GCTCAGATTG ACACAGATAA TAACGGGGAG
    GGTGACTCAT GTGCTGTGGA TATTGACGGA GATGACATTT TTAATGAACG AGATAACTGT
    CCTTATGTCT ACAACACAGA CCAGAGTGAT ACAGATGGTG ATGGTGTTGG TGATCAGTGT
    GATAACTGTC CATTGATGCA TAATCCAGAC CAGACTGATG TGGATAATGA CCTTGTTGGT
    GACCAGTGTG ACAACAATGA GGACATAGAT GAAGATGGTC ACCAGAACAA CCAAGATAAC
    TGCCCTTACA TCCCCAACGC TAACCAAGCT GACCATGATA AGGATGGTAA AGGGGATGCC
    TGCGATCCTG ATGATGACAA TGATGGTATC CCTGATGACA GGGACAATTG TCGCCTCAGA
    TACAACCCTG ACCAGGAGGA CTCTGATGGT GATGGCAGAG GTGACATTTG CAAAGATGAT
    TTCGACAATG ACAATATCCC AGATATTTAT GATGTATGCC CTGAAAATAA TGCCATCAGT
    GAAACTGACT TCAGGAAGTT CCAGATGGTC CCCTTGGACC CCAAGGGAAC AGCTCAGATT
    GATCCCAACT GGGTTATTCG CCACCAAGGC AAGGAACTGG TGCAGACTGC CAACTCTGAT
    CCTGGCATAG CTGTAGGCTA TGACGAGTTC AGCTCTGTTG ACTTCAGTGG CACGTTCTAT
    GTTAACACAG ACCGCGATGA TGACTATGCT GGCTTTGTGT TTGGCTATCA GTCCAGCAGT
    CGGTTTTATG TCCTGATGTG GAAGCAGGTC ACTCAGACCT ACTGGGAGGA CAAACCCACC
    AGGGCATATG GCTATTCTGG TGTGTCACTC AAAGTAGTGA ATTCAACAAC TGGTACTGGT
    GAACATTTGA GAAATGCTCT CTGGCACACA GGAAACACCC CTGGACAGGT GCGTACTTTG
    TGGCATGATC CCAAGAACAT TGGCTGGAAA GATTATACTG CTTACAGGTG GCATTTGATT
    CATCGGCCTA AAACAGGATT AATAAAAGTT TTAGTGTATG AAGGGAAGCA AGTCATGGTG
    GATTCTGGAC CAGTCTATGA TACAACCTTT GCTGGTGGAC GATTAGGTCT TTTTGTCTTC
    TCTCAAGAGA TGGTCTATTT CTCTGACCTC AAATATGAAT GCAGAGATGC TTGA

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