ADAMTS7 cDNA ORF clone, Taeniopygia guttata(zebra finch)

  • Gene

  • Clones

  • gRNAs

The following ADAMTS7 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ADAMTS7 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
OTd26864 XM_030281735.1
Latest version!
Taeniopygia guttata ADAM metallopeptidase with thrombospondin type 1 motif 7 (ADAMTS7), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OTd17272 XM_012568653.1
Latest version!
Taeniopygia guttata ADAM metallopeptidase with thrombospondin type 1 motif, 7 (ADAMTS7), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $797.30
$1139.00

ORF Online Only Promotion

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

*Business Day

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

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

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

  • Reference Sequences (Refseq)
    CloneID OTd26864
    Clone ID Related Accession (Same CDS sequence) XM_030281735.1
    Accession Version XM_030281735.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5325bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-08
    Organism Taeniopygia guttata(zebra finch)
    Product A disintegrin and metalloproteinase with thrombospondin motifs 7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044222.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    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
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    ATGGCGGCCC CGGCCGCGCT CCTGCCCCTC CTTCCCGTCG CCGCCGCGCT GGCGCTGGCC 
    GGGGACACCG CGGGGACAGA GCCGCGCTCC GGCAGCGACA TCGTCCATCC CATCAAGGTG
    GATGAGAGCG GATCCTTCCT GTCCTACGAC TTGTCCCACC GGGCCCTTCA GCGGAGGTCT
    CCGGCCTCCA GGAGCAAGCT CCCCGCCTTC TATGAGCTGC AGTACAGAGG GCAGCCCCTG
    AAATTCAACC TGAGCCTCAA CAGGCACCTC CTGGCCCCGG GCTTTGTCAG CGAGAGGCGT
    TTCGGGGGCA TTGCCGGTGC CAAGATCCAG CCTCGCTCCT CCAACTCGTG CCATATGATT
    GGGGAGGTGC GGGGCCGGGC GCTGCAGGGC GGCCTGGCTG CCCTCAGCAC CTGCGATGGC
    CTGAAAGGTG TGTTCCAGCT CATGAACGAG GACTATTTCA TCGAGCCCGT GTCCAGCAGC
    CCCCGGGAGG AGGGAGCAGC GCAGCCCCAC AGGATCTACA AGCGCCAGGT GCCCAAGGGC
    AGGGCTGAGC AGGGCAGGAG AGCCCCGGCC CCGCGGGAGT CCTGCGGCGT GCCAGAGTCT
    CAGGAAAGCC TGGAGCGGTC TGAGAGGCGC AGGGAGCGGT GGGAGCAGAA GCAGGGCAGG
    AGGAGGAGGA TCAGGCAGCG CTCCATCAGC AGGGAGAAGT GGGTGGAGAC GCTGGTGGTG
    GCAGACACCA AGATGGTGGA GTTCCACGGC AGTGCCAACA TCGAGAAGTA CGTGCTGACC
    GTCATGAACA TGGTGGCGGG GCTGTTCCAC CATGCCAGCA TCGGGAACCC CATCAACATC
    GCCATAGTGC GCCTGATCCT GCTGGAGCGC GAGGAGGAGG ACCTGAAGAT CTCCCACCAC
    GCAGACAACA CCTTGAAGAG CTTCTGCAAG TGGCAGAAGA GCATCAACGT GAAGGGAGAC
    TCGCACCCGC TGCACCACGA CGTCGCCGTG CTGCTCACCA GGAAGGACAT CTGTGCTGCC
    ATGAACAGGC CCTGTGAGAC CTTGGGGCTG TCCCACGTGG CCGGGATGTG CCAGCCCCAC
    CGGAGCTGCA ACATCAACGA GGACACGGGG CTGCCCCTCG CCTTCACCGT GGCCCACGAG
    CTGGGACACA GTTTTGGGAT TCAGCATGAT GGAAGCAGCA ATGACTGTGA GCCAGTTGGG
    AAAAGACCTT TCATCATGTC TCCACAGCTC CTGTATGACA CGTCCCCACT CACCTGGTCC
    CGCTGCAGCC GCGAGTACAT CACACGCTTC CTCGACCGGG GCTGGGGGCT GTGCCTGGAT
    GACCCCCCGG CCCGGGAGCT GCTGGACTTT CCCCTGGTGC CCCCGGGCGT CCTGTACGAC
    GTGAGCCACC AGTGCCGGCT GCAGTACGGC CCCCGCTCCA CCTTCTGCGA CGACATGGAC
    AGTGTCTGCA GCACGCTGTG GTGCACGGTG GGGAACACGT GTCACTCCAA GCTGGACGCA
    GCTGTGGACG GCACGGCCTG CGGGGAGAGC AAGTGGTGCT TCAACGGCGA GTGCGTTCCC
    GTGGGCTTCC GGCCCGAGCC CATCGACGGC GCCTGGAGCG CCTGGAGCTC CTGGGCCTCG
    TGCTCCCGCA GCTGTGGGGC AGGAGTGCAG AGTGCTGAGA GGCACTGCAG CCACCCCACG
    CCCAAGTACG GGGGCCGGTA CTGCCTGGGC GAGCGGAAGC GGTTCCGCAT CTGCAACGTG
    CGGCGCTGCC CCCCGGACAA GCCCTCCTTC CGCCAGGTCC AGTGCAGCCA CTTCAACCCC
    ATGCTCTACA AAGGGAAGCT CTACAAGTGG ACGCCAGTGC CCAACAGCAT GAACCCCTGC
    GAGCTGCACT GCCGGCCCGA GCACGAGTAC TTTGCGGAGA AGCTGCGGGA CGCGGTGGTG
    GACGGGACGC CCTGCTACGA CAGCGACGCC AGCCGTGATG TCTGCATCAA CGGCATCTGC
    AAGAACGTGG GCTGTGACTA CGAGATCGAC TCGCACGCCG TGGAGGATCG CTGCGGGGTC
    TGCCACGGGG ACGGCTCCAC CTGCCACACC GTGCACAAGA CCTTCGAGGA CAGCGAGGGG
    CTGGGCTATG TGGACATTGG GATTATCCCT GTGGGAGCCA GGGAGATCCG GATTGAAGAA
    GTGGCCGAAG CCGGGAATTT CCTGGCGCTG CGGAGCGAGG ACCCGGAGAA GTATTTCCTG
    AATGGTGGCT GGACCATCCA GTGGAACGGG GACTACAGGG TGGCAGGGAC CACCTTCACC
    TACAAGAGGA CGGGGAACTG GGAGAACCTC ACCTCTCCCG GGCCGACCGT GGAGCCCGTG
    TGGATCCAGC TGCTGTTCCA GGAGACCAAC CCCGGGGTGA GGTACCAGTA CACGATCCAG
    CGCCCGGCCG ACAGCGAGAA CGAGGTGGAG CAGCCCGAGT TCCTGTGGCG CTTCGGCTCC
    TGGACCACCT GCACGGCCAC CTGCGGGACA GGGGTGCAGC GGCAGGTCGT GCACTGCGTG
    GAGAGGCTGG CGGGCCTGGT GGAGGAGCGG TTCTGCGACG CGCTCACGCG CCCCGACGAC
    CAACAGCGCA CCTGCAGCGA GGAGCCCTGC CCCGCCAGGT GGTGGGTGGG TGAGTGGCAG
    AAGTGCTCAG CCTCGTGTGG CCAGGCAGGG CTGATGAAGA GGACGGTGCT GTGCATCCAG
    AGCGTGGGGC TGGACGAGCA GAGGGCCCTG CAGCCAGCAG ACTGCCAGCA CCTCGCCAAG
    CCGGATGCCA CCGCGCCCTG CCACCCTGAG GTCCCCTGTC CCTCCCCGTG GGCTGTGGGC
    AACTGGTCTG AGTGCTCCGT GACCTGTGGG AATGGGACCC AGCAGCGCCC AGTGCACTGC
    AGCAGCAGCA GCAGCAGCAC GTGTGACCCT GCCCAGAGAC CCAGCCCCGA GAGGATTTGC
    TCCTTGCCAC AGTGCCACCA CAACTGGGAC AGCGGCCCCG ACTGGTCCGG CAGCGGCTCC
    TCCAGCAGGG AGATATTTAA TGAAATCCAT TACATCCCCA GCAACCACAT TCCTGAATTT
    AACCCCTCAA TCCCAAACAT CCCGGAGTCC AACGATGTCA ATGTCATCAC CGAGGAGGAC
    TTCTCAGCCA GGAAAGGAAA TGTCTTTGTC GATGATTTTT ACTACGATTA TAACTTTATC
    AACTTCCACG AGGATCTGTC TTACTATCCC TTCACGGAGA AGGAGAGCAA AGGCGAGGAG
    CTGAAGCCAG AGCTGAGCCC TGCTGGCACG GGGGGGCCCT GGGAGCTGCC CACCGAGGCC
    CTGCTGACCA CCGGGCTGGG AGGAGAGAGC CAGGAGCAGC CAGGCACCGA GGAGGGACCC
    GCTCCTGCTC CTGTGGATGG GCAAGACACA GAGCCCGGGG ATTTAGCCAC CAACGACCTC
    CTGAGCGTGG TCCCCGAGGA TGTGGGATCA GCCACTCCAA GCTACACCAC CCCTGGCTTT
    TTGGGTGAGG AGGAGGAGGG TGCAGTGGCT GTGCCCCACT CTGAGCACCT CCCGCCCACC
    CAGAGCTCCG AGACCCACGG CTCTGCACAC CAGGGCCCCG TGCCCTGGGC TGAGCCCCAC
    GGAGCTGTGC CCTCCAGGAG CAGCCTTGGG CAGGATGCCC CCTCTCCCGG GGGTCCCCAG
    CCAGCCAGCC TGGGCTGGGA CAGTGCCAGG CTGGATGTGC CCCACGGGCC AGCAGCACGG
    GCCAGCGGGG GCCCTGTGGG CACACAGGGA CACGGCACAG CCCAGCCTGC AGGGAGAGGC
    CCCGGGGACC CCGGGGAGAT GGCTCTGGCC ACCAGCAGTG ACCCCAGGGG TGCAGCCCCA
    CGGCCCAGCG AGCAGCACGG GTGGGCAGGA ATGGAGATGC TGGGCACATG GGCAGGAGGG
    CAATCCCATG GCATGGAGAG GGCAGATGCT GTGGGACAGG GAGGGCACCA GCCAGAGCTC
    CACACCCCCA CAGCCCCCAC CTCAACCCCC TCGGTGGCCA CAACAGCCTC TCCTGTGTCC
    CTGTCCCCTG CCGTGCCCGG GACAGCCACC CAGCTCACCT CCAGTGGCCT CAGCCAGCAG
    GACACCCTGG TCCCAGTCGT GCCCACAGCC CCAGCTCGTG GCCCACCTGC CCACACAGCA
    GGGGTCCCCC TGGAATGGGG GACAGAGCAC CCGGGTCTGG CATCGCCCCG CACTGAGCTG
    ACCTCCCATG GGACCCCACT CAGCGTCCCT GCACCGAGGG ACCCCTCACC ATGGGCACCC
    CCAGGGACAC CAACAGAGGA GCCCTCACTG TGGGCACCCC CAGGGACACC AACAGAGGAG
    CCCTCACCGT GGGCACCCCC AGGGACACCA ACAGAGGAGC CCTCACCACG GGCACCCCCA
    GGGACACCTG ATTCCAGTGA CGGGGGGCAG GAATTGTCCC AGCCCATCCC TTTGTCCCCC
    GTGCTCTGGG AGAAGAGGCT GGAGGAGGAG GAGGAGGAGG AGGCTCTGCT TCCACCGTCA
    CCCACCGCAG CAGCCCCTGC CAAGCCCAGC TGGGAGGTCG GGAACTGGAG TGAGTGCTCG
    GCCACGTGCG GCCTGGGCGC GGTGTGGCGG GCGGTGCGCT GCAGCAGCGG CAGCGACGGC
    GGCTGTCCCG CGGCCGACAG GCCCGTGCCC GCCCGGAGGT GCTCCCTCAG ACCCTGCTCG
    GCCTGGCGTG TGGGCAGCTG GAGCAAGTGC TCCAGGAGCT GCGGCGGGGG CACCAAGGTG
    CGGGACGTTC ACTGCGTTGA CACCAGGGAC CAGCGGCTGC TGCGGCCCTT CCACTGCCAG
    GCGGGGCTGC CGCAGCCCCC GGCACAGCTG CCGTGCCACA GCGCGCCCTG CCTGGCCTGG
    TACACGTCCT CCTGGAGAGA GTGCTCGGAG CCGTGCGGCG GCGGGGAGCA GGCTCGCCTG
    GTGACGTGCC CGGAGCCGGG GCGCTGCGAG GAGGCGCTGA GGCCCAACAG CACCCGGCCC
    TGCAACAGCC AGCCCTGCAC CACCTGGGTG GTGGGCTCCT GGGGACAGTG CTCGGCGCCC
    TGCGGAGGGG GCATCCAGCG GCGCCAGGTG AAGTGCATCG ACACCCGCAG CGGCGTGCCC
    GAGGAGGACA GCAGCCTGTG CCACCACCAG CCCTGGCCGG AGAGCACACA GAAGTGCAAC
    CCTCAGGACT GTGACAGCTC CCAGCCAGGT GCCCCCTGCC AGCGCGACCG CCTGAGCTTC
    GCCTTCTGCC GGACGCTGCG GCTGCTGGGC CGGTGCCCGC TGCCCACCGT GCGCGCCCAG
    TGCTGCCGCA GCTGCCGCCA GCCCGGGCTG CCAGCCCGCA GGTGA

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

    RefSeq XP_030137595.1
    CDS23..5347
    Translation

    Target ORF information:

    RefSeq Version XM_030281735.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata ADAM metallopeptidase with thrombospondin type 1 motif 7 (ADAMTS7), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_030281735.1

    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
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    ATGGCGGCCC CGGCCGCGCT CCTGCCCCTC CTTCCCGTCG CCGCCGCGCT GGCGCTGGCC 
    GGGGACACCG CGGGGACAGA GCCGCGCTCC GGCAGCGACA TCGTCCATCC CATCAAGGTG
    GATGAGAGCG GATCCTTCCT GTCCTACGAC TTGTCCCACC GGGCCCTTCA GCGGAGGTCT
    CCGGCCTCCA GGAGCAAGCT CCCCGCCTTC TATGAGCTGC AGTACAGAGG GCAGCCCCTG
    AAATTCAACC TGAGCCTCAA CAGGCACCTC CTGGCCCCGG GCTTTGTCAG CGAGAGGCGT
    TTCGGGGGCA TTGCCGGTGC CAAGATCCAG CCTCGCTCCT CCAACTCGTG CCATATGATT
    GGGGAGGTGC GGGGCCGGGC GCTGCAGGGC GGCCTGGCTG CCCTCAGCAC CTGCGATGGC
    CTGAAAGGTG TGTTCCAGCT CATGAACGAG GACTATTTCA TCGAGCCCGT GTCCAGCAGC
    CCCCGGGAGG AGGGAGCAGC GCAGCCCCAC AGGATCTACA AGCGCCAGGT GCCCAAGGGC
    AGGGCTGAGC AGGGCAGGAG AGCCCCGGCC CCGCGGGAGT CCTGCGGCGT GCCAGAGTCT
    CAGGAAAGCC TGGAGCGGTC TGAGAGGCGC AGGGAGCGGT GGGAGCAGAA GCAGGGCAGG
    AGGAGGAGGA TCAGGCAGCG CTCCATCAGC AGGGAGAAGT GGGTGGAGAC GCTGGTGGTG
    GCAGACACCA AGATGGTGGA GTTCCACGGC AGTGCCAACA TCGAGAAGTA CGTGCTGACC
    GTCATGAACA TGGTGGCGGG GCTGTTCCAC CATGCCAGCA TCGGGAACCC CATCAACATC
    GCCATAGTGC GCCTGATCCT GCTGGAGCGC GAGGAGGAGG ACCTGAAGAT CTCCCACCAC
    GCAGACAACA CCTTGAAGAG CTTCTGCAAG TGGCAGAAGA GCATCAACGT GAAGGGAGAC
    TCGCACCCGC TGCACCACGA CGTCGCCGTG CTGCTCACCA GGAAGGACAT CTGTGCTGCC
    ATGAACAGGC CCTGTGAGAC CTTGGGGCTG TCCCACGTGG CCGGGATGTG CCAGCCCCAC
    CGGAGCTGCA ACATCAACGA GGACACGGGG CTGCCCCTCG CCTTCACCGT GGCCCACGAG
    CTGGGACACA GTTTTGGGAT TCAGCATGAT GGAAGCAGCA ATGACTGTGA GCCAGTTGGG
    AAAAGACCTT TCATCATGTC TCCACAGCTC CTGTATGACA CGTCCCCACT CACCTGGTCC
    CGCTGCAGCC GCGAGTACAT CACACGCTTC CTCGACCGGG GCTGGGGGCT GTGCCTGGAT
    GACCCCCCGG CCCGGGAGCT GCTGGACTTT CCCCTGGTGC CCCCGGGCGT CCTGTACGAC
    GTGAGCCACC AGTGCCGGCT GCAGTACGGC CCCCGCTCCA CCTTCTGCGA CGACATGGAC
    AGTGTCTGCA GCACGCTGTG GTGCACGGTG GGGAACACGT GTCACTCCAA GCTGGACGCA
    GCTGTGGACG GCACGGCCTG CGGGGAGAGC AAGTGGTGCT TCAACGGCGA GTGCGTTCCC
    GTGGGCTTCC GGCCCGAGCC CATCGACGGC GCCTGGAGCG CCTGGAGCTC CTGGGCCTCG
    TGCTCCCGCA GCTGTGGGGC AGGAGTGCAG AGTGCTGAGA GGCACTGCAG CCACCCCACG
    CCCAAGTACG GGGGCCGGTA CTGCCTGGGC GAGCGGAAGC GGTTCCGCAT CTGCAACGTG
    CGGCGCTGCC CCCCGGACAA GCCCTCCTTC CGCCAGGTCC AGTGCAGCCA CTTCAACCCC
    ATGCTCTACA AAGGGAAGCT CTACAAGTGG ACGCCAGTGC CCAACAGCAT GAACCCCTGC
    GAGCTGCACT GCCGGCCCGA GCACGAGTAC TTTGCGGAGA AGCTGCGGGA CGCGGTGGTG
    GACGGGACGC CCTGCTACGA CAGCGACGCC AGCCGTGATG TCTGCATCAA CGGCATCTGC
    AAGAACGTGG GCTGTGACTA CGAGATCGAC TCGCACGCCG TGGAGGATCG CTGCGGGGTC
    TGCCACGGGG ACGGCTCCAC CTGCCACACC GTGCACAAGA CCTTCGAGGA CAGCGAGGGG
    CTGGGCTATG TGGACATTGG GATTATCCCT GTGGGAGCCA GGGAGATCCG GATTGAAGAA
    GTGGCCGAAG CCGGGAATTT CCTGGCGCTG CGGAGCGAGG ACCCGGAGAA GTATTTCCTG
    AATGGTGGCT GGACCATCCA GTGGAACGGG GACTACAGGG TGGCAGGGAC CACCTTCACC
    TACAAGAGGA CGGGGAACTG GGAGAACCTC ACCTCTCCCG GGCCGACCGT GGAGCCCGTG
    TGGATCCAGC TGCTGTTCCA GGAGACCAAC CCCGGGGTGA GGTACCAGTA CACGATCCAG
    CGCCCGGCCG ACAGCGAGAA CGAGGTGGAG CAGCCCGAGT TCCTGTGGCG CTTCGGCTCC
    TGGACCACCT GCACGGCCAC CTGCGGGACA GGGGTGCAGC GGCAGGTCGT GCACTGCGTG
    GAGAGGCTGG CGGGCCTGGT GGAGGAGCGG TTCTGCGACG CGCTCACGCG CCCCGACGAC
    CAACAGCGCA CCTGCAGCGA GGAGCCCTGC CCCGCCAGGT GGTGGGTGGG TGAGTGGCAG
    AAGTGCTCAG CCTCGTGTGG CCAGGCAGGG CTGATGAAGA GGACGGTGCT GTGCATCCAG
    AGCGTGGGGC TGGACGAGCA GAGGGCCCTG CAGCCAGCAG ACTGCCAGCA CCTCGCCAAG
    CCGGATGCCA CCGCGCCCTG CCACCCTGAG GTCCCCTGTC CCTCCCCGTG GGCTGTGGGC
    AACTGGTCTG AGTGCTCCGT GACCTGTGGG AATGGGACCC AGCAGCGCCC AGTGCACTGC
    AGCAGCAGCA GCAGCAGCAC GTGTGACCCT GCCCAGAGAC CCAGCCCCGA GAGGATTTGC
    TCCTTGCCAC AGTGCCACCA CAACTGGGAC AGCGGCCCCG ACTGGTCCGG CAGCGGCTCC
    TCCAGCAGGG AGATATTTAA TGAAATCCAT TACATCCCCA GCAACCACAT TCCTGAATTT
    AACCCCTCAA TCCCAAACAT CCCGGAGTCC AACGATGTCA ATGTCATCAC CGAGGAGGAC
    TTCTCAGCCA GGAAAGGAAA TGTCTTTGTC GATGATTTTT ACTACGATTA TAACTTTATC
    AACTTCCACG AGGATCTGTC TTACTATCCC TTCACGGAGA AGGAGAGCAA AGGCGAGGAG
    CTGAAGCCAG AGCTGAGCCC TGCTGGCACG GGGGGGCCCT GGGAGCTGCC CACCGAGGCC
    CTGCTGACCA CCGGGCTGGG AGGAGAGAGC CAGGAGCAGC CAGGCACCGA GGAGGGACCC
    GCTCCTGCTC CTGTGGATGG GCAAGACACA GAGCCCGGGG ATTTAGCCAC CAACGACCTC
    CTGAGCGTGG TCCCCGAGGA TGTGGGATCA GCCACTCCAA GCTACACCAC CCCTGGCTTT
    TTGGGTGAGG AGGAGGAGGG TGCAGTGGCT GTGCCCCACT CTGAGCACCT CCCGCCCACC
    CAGAGCTCCG AGACCCACGG CTCTGCACAC CAGGGCCCCG TGCCCTGGGC TGAGCCCCAC
    GGAGCTGTGC CCTCCAGGAG CAGCCTTGGG CAGGATGCCC CCTCTCCCGG GGGTCCCCAG
    CCAGCCAGCC TGGGCTGGGA CAGTGCCAGG CTGGATGTGC CCCACGGGCC AGCAGCACGG
    GCCAGCGGGG GCCCTGTGGG CACACAGGGA CACGGCACAG CCCAGCCTGC AGGGAGAGGC
    CCCGGGGACC CCGGGGAGAT GGCTCTGGCC ACCAGCAGTG ACCCCAGGGG TGCAGCCCCA
    CGGCCCAGCG AGCAGCACGG GTGGGCAGGA ATGGAGATGC TGGGCACATG GGCAGGAGGG
    CAATCCCATG GCATGGAGAG GGCAGATGCT GTGGGACAGG GAGGGCACCA GCCAGAGCTC
    CACACCCCCA CAGCCCCCAC CTCAACCCCC TCGGTGGCCA CAACAGCCTC TCCTGTGTCC
    CTGTCCCCTG CCGTGCCCGG GACAGCCACC CAGCTCACCT CCAGTGGCCT CAGCCAGCAG
    GACACCCTGG TCCCAGTCGT GCCCACAGCC CCAGCTCGTG GCCCACCTGC CCACACAGCA
    GGGGTCCCCC TGGAATGGGG GACAGAGCAC CCGGGTCTGG CATCGCCCCG CACTGAGCTG
    ACCTCCCATG GGACCCCACT CAGCGTCCCT GCACCGAGGG ACCCCTCACC ATGGGCACCC
    CCAGGGACAC CAACAGAGGA GCCCTCACTG TGGGCACCCC CAGGGACACC AACAGAGGAG
    CCCTCACCGT GGGCACCCCC AGGGACACCA ACAGAGGAGC CCTCACCACG GGCACCCCCA
    GGGACACCTG ATTCCAGTGA CGGGGGGCAG GAATTGTCCC AGCCCATCCC TTTGTCCCCC
    GTGCTCTGGG AGAAGAGGCT GGAGGAGGAG GAGGAGGAGG AGGCTCTGCT TCCACCGTCA
    CCCACCGCAG CAGCCCCTGC CAAGCCCAGC TGGGAGGTCG GGAACTGGAG TGAGTGCTCG
    GCCACGTGCG GCCTGGGCGC GGTGTGGCGG GCGGTGCGCT GCAGCAGCGG CAGCGACGGC
    GGCTGTCCCG CGGCCGACAG GCCCGTGCCC GCCCGGAGGT GCTCCCTCAG ACCCTGCTCG
    GCCTGGCGTG TGGGCAGCTG GAGCAAGTGC TCCAGGAGCT GCGGCGGGGG CACCAAGGTG
    CGGGACGTTC ACTGCGTTGA CACCAGGGAC CAGCGGCTGC TGCGGCCCTT CCACTGCCAG
    GCGGGGCTGC CGCAGCCCCC GGCACAGCTG CCGTGCCACA GCGCGCCCTG CCTGGCCTGG
    TACACGTCCT CCTGGAGAGA GTGCTCGGAG CCGTGCGGCG GCGGGGAGCA GGCTCGCCTG
    GTGACGTGCC CGGAGCCGGG GCGCTGCGAG GAGGCGCTGA GGCCCAACAG CACCCGGCCC
    TGCAACAGCC AGCCCTGCAC CACCTGGGTG GTGGGCTCCT GGGGACAGTG CTCGGCGCCC
    TGCGGAGGGG GCATCCAGCG GCGCCAGGTG AAGTGCATCG ACACCCGCAG CGGCGTGCCC
    GAGGAGGACA GCAGCCTGTG CCACCACCAG CCCTGGCCGG AGAGCACACA GAAGTGCAAC
    CCTCAGGACT GTGACAGCTC CCAGCCAGGT GCCCCCTGCC AGCGCGACCG CCTGAGCTTC
    GCCTTCTGCC GGACGCTGCG GCTGCTGGGC CGGTGCCCGC TGCCCACCGT GCGCGCCCAG
    TGCTGCCGCA GCTGCCGCCA GCCCGGGCTG CCAGCCCGCA GGTGA

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

    CloneID OTd17272
    Clone ID Related Accession (Same CDS sequence) XM_012568653.1
    Accession Version XM_012568653.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4092bp)
    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 2015-05-25
    Organism Taeniopygia guttata(zebra finch)
    Product LOW QUALITY PROTEIN: A disintegrin and metalloproteinase with thrombospondin motifs 7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002197127.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Taeniopygia guttata Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 29% of CDS bases frameshifts :: corrected 3 indels ##RefSeq-Attributes-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
    ATGGCGGCCC CGGCCGCGCT CCTGCCCCTC CTTCCCGTCG CCGCCGCGCT GGCGCTGGCC 
    GGGGACACCG CGGGGACAGA GCCGCACTCC GGCAGCGACA TCGTCCATCC CATCAAGGTG
    GATGAGAGCG GATCCTTCCT GTCCTACGAC TTGTCCCACC GGGCCCTTCA GCGGAGGTCT
    CCGGCCTCCA GGAGCAAGCT CCCCGCCTTC TACGAGCTGC AGTACAGAGG GCAGCCCCTG
    AAATTCAACC TGAGCCTCAA CAGGCACCTG CTGGCCCCGG GCTTTGTCAG CGAGAGGCGT
    TTCGGGGGCA TTGCCGGTGC CAAGATCCAG CCTCGCTCCT CCAACTCGTG CCATATGATC
    GGGGAGGTGC GGGGCCGGGC GCTGCAGGGC GGCCTGGCTG CCCTCAGCAC CTGCGATGGC
    CTGAAAGGTG TGTTCCAGCT CATGAACGAG GACTATTTCA TCGAGCCCGT GTCCAGCAGC
    CCCCGGGAGG AGGGAGCAGC ACAGCCCCAC AGGATCTACA AGCGCCAGGT GCCCAAGGCC
    AGGGCTGAGC AGGGCGGGAG AGCCCCGGCC CCGCGGGAGT CCTGCGGCGT GCCAGGCAGG
    AGCCATGTCC CTCTCTTCCC ACAGAGTGTC TGCAGCACGC TGTGGTGCAC GGTGGGGAAC
    ACGTGTCACT CCAAGCTGGA CGCGGCTGTG GACGGCACGG CCTGCGGGGA GAGCAAGTGG
    TGCTTCAACG GCGAGTGCGT TCCCGTGGGC TTCCGGCCCG AGCCCATCGA CGGCGCCTGG
    AGCGCCTGGA GCTCCTGGGC CTCGTGCTCT CGCAGCTGTG GGGCAGGAGT GCAGAGTGCT
    GAGCGGCACT GCAGCCACCC CACGCCCAAG TACGGGGGCC GGTACTGCCT GGGCGAGCGG
    AAGCGGTTCC GCATCTGCAA CGTGCGGCGC TGCCCCCCGG ACAAGCCCTC CTTCCGCCAG
    GTCCAGTGCA GCCACTTCAA CCCCATGCTC TACAAAGGGA AGCTCTACAA GTGGACGCCA
    GTGCCCCACA GCATGAACCC CTGCGAGCTG CACTGCCGGC CCGAGCACGA GTACTTTGCG
    GAGAAGCTGC GGGACGCGGT GGTGGACGGG ACGCCCTGCT ACGACAGCGA CGCCAGCCGT
    GATGTCTGCA TCAACGGCAT CTGCAAGAAC GTGGGCTGTG ACTACGAGAT CGACTCGCAC
    GCCGTGGAGG ATCGCTGCGG GGTCTGCCAC GGGGACGGCT CCACCTGCCA CACCGTGCAC
    AAGACCTTCG AGGACAGCGA GGGGCTGGGC TATGTGGACA TTGGGATTAT CCCTGTGGGA
    GCCAGGGAGA TCCGGATTGA AGAAGTGGCC GAAGCCGGGA ATTTCCTGGC GCTGCGGAGC
    GAGGACCCGG AGAAGTATTT CCTGAATGGT GGCTGGACCA TCCAGTGGAA CGGGGACTAC
    AGGGTGGCAG GGACCACCTT CACCTACAAG AGGACGGGGA ACTGGGAGAA CCTCACCTCT
    CCCGGGCCGA CCGTGGAGCC CGTGTGGATC CAGCTGCTGT TCCAGGAGAC CAACCCCGGG
    GTGAGGTACC AGTACACGAT CCAGCGCCCG GCTGACAGCG AGAACGAGGT GGAGCAGCCC
    GAGTTCCTGT GGCGCTTCGG CTCCTGGACC ACCTGCACGG CCACCTGCGG GACAGGGGTG
    CAGCGGCAGG TCGTGCACTG CGTGGAGAGG CTGGCGGGCC TGGTGGAGGA GCGGTTCTGC
    GACGCGCTCA CGCGCCCCGA CGACCAACAG CGCACCTGCA GCGAGGAGCC CTGCCCCGCC
    AGGTGGTGGG TGGGTGAGTG GCAGAAGTGC TCAGCCTCGT GTGGCCGGGC AGGGCTGATG
    AAGAGGACGG TGCTGTGCAT CCAGAGCGTG GGGCTGGATG AGCAGAGGGC CCTGCAGCCA
    GCAGACTGCC AGCACCTCAC CAAGCCTGAT GCCACCGCGC CCTGCCACCC TGAGGTCCCC
    TGCCCCTCCC CGTGGGCTGT GGGCAACTGG TCTGAGTGCT CCGTGACCTG TGGGAACGGG
    ACCCAGCGGC GCCCAGTCAG CAGCAGCAGC AGCAGCGGGG CCCCGTGTGA CCCTGCCCAG
    AGACCCAGCC CCGAGAGGAT TTGCTCCTTG CCACAGTGCC ACCACAACTG GGACAGCGGC
    CCCGACTGGT CCGGCAGCGG CTCCTCCAGC AGGGAGATAT TTAATGAAAT CCATTACATC
    CCCAGCAACC ACATTCCTGA ATTTAACCCC TCAATCCCAA ACATCCCGGA GTCCAACGAT
    GTCAATGTCA TCACCGAGGA GGACTTCTCA GCCAGGAAAG GAAATGTCTT TGTCGATGAT
    TTTTACTACG ATTATAACTT TATCAACTTC CACGAGGATC TGTCTTACTA TCCCTTCACG
    GAGAAGGAGA GCAAAGGCGA GGAGCCGAAG GCAGAGCTGA GCCCTGCTGG CACGGGGGGG
    CCCTGGGAGC TGCCCACCGA GGCCCTGCTC ACCACCGGGC TGGGAGGAGA GAGCCAGGAG
    CAGCCAGGCA CCGAGGAGGG ACCCGCTCCT GCTCCTGTGG ATGGGCAACA CACAGAGCCC
    GGGGATTTAG CCACCAACGA CCTCCTGAGC GTGGTCCCCG AGGATGTGGG ATCAGCCACT
    CCAAGCTACA CCACCCCTGG CTTTTTGGGT GAGGAGGAGG AGGGTGCAGT GGCTGTGCCC
    CACTCTGAGC ACCTCCCGCC CACCCAGAGC TCCGAGACCC ACGGCTCTGC ACACCAGGGC
    CCCGTGCCCC GGGCTGAGCC CCACGGAGCT GTGCCCTCCA GGAGCAGCCT TGGGCAGGAT
    GGCCCCGCTC CCGGGGGTCC CCAGCCAGCC AGCCTGGGCT GGGACAGTGC CGGGCTGGAT
    GTGCCCCACG GGCCAGCAGC ACGGGCCAGC GGGGACCCTC GTCCCTGCAC CGAGGGACCC
    CTCACCGTGG GCACCCCCAG GGACACCAAG AGAGGAGCCC TCACCGTGGG CACCCCCAGG
    GACATCAGCA GAGGAGCCCT CACCGTGGGC ACCCCCAGGG ACACCAACAG AGGAGCCCTC
    AGCGTGGGCA CCCCCAGGGA CATCAGCAGA GGAGCCCTCA CCATGGGCAC CCCCAGAGAC
    ACCAAGAGGG GATCCCTCAC CGTGGGCACC CCCAGGGACA CCAACAGAGG ATTCCTCACC
    GTGGGCACCC CCAGGGACAC CAACGAGGGA CCCCTCACCA AGAGGCTGGA GGAGGAGGAG
    GAGGAGGAGG CTCTGCTTCC ACCATCACCC ACCGCAGCAA CCCCTGCCAA GCCCAGCTGG
    GAGGTCGGGA ACTGGAGTGA GTGCTCGGCC ACGTGCGGCC TGGGCGCGGT GTGGCGGGCG
    GTGCGCTGCA GCAGCGGCAG CGACGGCGGC TGTCCCGCGG CCGACAGGCC CGTGCCCGCC
    CGGAGGTGCT CCCTCAGACC CTGCTCGGCC TGGCGTGTGG GCAGCTGGAG CAAGTGCTCC
    AGGAGCTGCG GCGGGGGCAC CAAGGTGCGG GACGTTCACT GCGTTGACAC CAGGGACCAG
    CGGCTGCTGC GGCCCTTCCA CTGCCAGGCG GGGCTGCCGC AGCCCCCGGC ACAGCTGCCG
    TGCCACAGCG CGCCCTGCCT GGCCTGGTAC ACGTCCTCCT GGAGAGAGTG CTCGGAGCCG
    TGCGGCGGCG GGGAGCAGGC TCGCCTGGTG ACGTGCCCGG AGCCGGGGCG CTGCGAGGAG
    GCGCTGAGGC CCAACAGCAC CCGGCCCTGC AACAGCCAGC CCTGCACCAC CTGGGTGGTG
    GGCTCCTGGG GACAGTGCTC GGCGCCCTGC GGAGGGGGCA TCCAGCGGCG CCAGGTGAAG
    TGCATCGACA CCCGCAGCGG CGTGCCCGAG GAGGACAGCA GCCTGTGCCA CCACCAGCCC
    TGGCCGGAGA GCACACAGAA GTGCAACCCT CAGGACTGTG ACAGCTCCCA GCCAGGTGCC
    CCCTGCCAGC GCGACCGCCT GAGCTTCGCC TTCTGCCGGA CGCTGCGGCT GCTGGGCCGG
    TGCCCGCTGC CCACCGTGCG CGCCCAGTGC TGCCGCAGCT GCCGCCAGCC CGGGCTGCCA
    GCCCGCAGGT GA

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

    RefSeq XP_012424107.1
    CDS1..4092
    Translation

    Target ORF information:

    RefSeq Version XM_012568653.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata ADAM metallopeptidase with thrombospondin type 1 motif, 7 (ADAMTS7), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012568653.1

    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
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    ATGGCGGCCC CGGCCGCGCT CCTGCCCCTC CTTCCCGTCG CCGCCGCGCT GGCGCTGGCC 
    GGGGACACCG CGGGGACAGA GCCGCACTCC GGCAGCGACA TCGTCCATCC CATCAAGGTG
    GATGAGAGCG GATCCTTCCT GTCCTACGAC TTGTCCCACC GGGCCCTTCA GCGGAGGTCT
    CCGGCCTCCA GGAGCAAGCT CCCCGCCTTC TACGAGCTGC AGTACAGAGG GCAGCCCCTG
    AAATTCAACC TGAGCCTCAA CAGGCACCTG CTGGCCCCGG GCTTTGTCAG CGAGAGGCGT
    TTCGGGGGCA TTGCCGGTGC CAAGATCCAG CCTCGCTCCT CCAACTCGTG CCATATGATC
    GGGGAGGTGC GGGGCCGGGC GCTGCAGGGC GGCCTGGCTG CCCTCAGCAC CTGCGATGGC
    CTGAAAGGTG TGTTCCAGCT CATGAACGAG GACTATTTCA TCGAGCCCGT GTCCAGCAGC
    CCCCGGGAGG AGGGAGCAGC ACAGCCCCAC AGGATCTACA AGCGCCAGGT GCCCAAGGCC
    AGGGCTGAGC AGGGCGGGAG AGCCCCGGCC CCGCGGGAGT CCTGCGGCGT GCCAGGCAGG
    AGCCATGTCC CTCTCTTCCC ACAGAGTGTC TGCAGCACGC TGTGGTGCAC GGTGGGGAAC
    ACGTGTCACT CCAAGCTGGA CGCGGCTGTG GACGGCACGG CCTGCGGGGA GAGCAAGTGG
    TGCTTCAACG GCGAGTGCGT TCCCGTGGGC TTCCGGCCCG AGCCCATCGA CGGCGCCTGG
    AGCGCCTGGA GCTCCTGGGC CTCGTGCTCT CGCAGCTGTG GGGCAGGAGT GCAGAGTGCT
    GAGCGGCACT GCAGCCACCC CACGCCCAAG TACGGGGGCC GGTACTGCCT GGGCGAGCGG
    AAGCGGTTCC GCATCTGCAA CGTGCGGCGC TGCCCCCCGG ACAAGCCCTC CTTCCGCCAG
    GTCCAGTGCA GCCACTTCAA CCCCATGCTC TACAAAGGGA AGCTCTACAA GTGGACGCCA
    GTGCCCCACA GCATGAACCC CTGCGAGCTG CACTGCCGGC CCGAGCACGA GTACTTTGCG
    GAGAAGCTGC GGGACGCGGT GGTGGACGGG ACGCCCTGCT ACGACAGCGA CGCCAGCCGT
    GATGTCTGCA TCAACGGCAT CTGCAAGAAC GTGGGCTGTG ACTACGAGAT CGACTCGCAC
    GCCGTGGAGG ATCGCTGCGG GGTCTGCCAC GGGGACGGCT CCACCTGCCA CACCGTGCAC
    AAGACCTTCG AGGACAGCGA GGGGCTGGGC TATGTGGACA TTGGGATTAT CCCTGTGGGA
    GCCAGGGAGA TCCGGATTGA AGAAGTGGCC GAAGCCGGGA ATTTCCTGGC GCTGCGGAGC
    GAGGACCCGG AGAAGTATTT CCTGAATGGT GGCTGGACCA TCCAGTGGAA CGGGGACTAC
    AGGGTGGCAG GGACCACCTT CACCTACAAG AGGACGGGGA ACTGGGAGAA CCTCACCTCT
    CCCGGGCCGA CCGTGGAGCC CGTGTGGATC CAGCTGCTGT TCCAGGAGAC CAACCCCGGG
    GTGAGGTACC AGTACACGAT CCAGCGCCCG GCTGACAGCG AGAACGAGGT GGAGCAGCCC
    GAGTTCCTGT GGCGCTTCGG CTCCTGGACC ACCTGCACGG CCACCTGCGG GACAGGGGTG
    CAGCGGCAGG TCGTGCACTG CGTGGAGAGG CTGGCGGGCC TGGTGGAGGA GCGGTTCTGC
    GACGCGCTCA CGCGCCCCGA CGACCAACAG CGCACCTGCA GCGAGGAGCC CTGCCCCGCC
    AGGTGGTGGG TGGGTGAGTG GCAGAAGTGC TCAGCCTCGT GTGGCCGGGC AGGGCTGATG
    AAGAGGACGG TGCTGTGCAT CCAGAGCGTG GGGCTGGATG AGCAGAGGGC CCTGCAGCCA
    GCAGACTGCC AGCACCTCAC CAAGCCTGAT GCCACCGCGC CCTGCCACCC TGAGGTCCCC
    TGCCCCTCCC CGTGGGCTGT GGGCAACTGG TCTGAGTGCT CCGTGACCTG TGGGAACGGG
    ACCCAGCGGC GCCCAGTCAG CAGCAGCAGC AGCAGCGGGG CCCCGTGTGA CCCTGCCCAG
    AGACCCAGCC CCGAGAGGAT TTGCTCCTTG CCACAGTGCC ACCACAACTG GGACAGCGGC
    CCCGACTGGT CCGGCAGCGG CTCCTCCAGC AGGGAGATAT TTAATGAAAT CCATTACATC
    CCCAGCAACC ACATTCCTGA ATTTAACCCC TCAATCCCAA ACATCCCGGA GTCCAACGAT
    GTCAATGTCA TCACCGAGGA GGACTTCTCA GCCAGGAAAG GAAATGTCTT TGTCGATGAT
    TTTTACTACG ATTATAACTT TATCAACTTC CACGAGGATC TGTCTTACTA TCCCTTCACG
    GAGAAGGAGA GCAAAGGCGA GGAGCCGAAG GCAGAGCTGA GCCCTGCTGG CACGGGGGGG
    CCCTGGGAGC TGCCCACCGA GGCCCTGCTC ACCACCGGGC TGGGAGGAGA GAGCCAGGAG
    CAGCCAGGCA CCGAGGAGGG ACCCGCTCCT GCTCCTGTGG ATGGGCAACA CACAGAGCCC
    GGGGATTTAG CCACCAACGA CCTCCTGAGC GTGGTCCCCG AGGATGTGGG ATCAGCCACT
    CCAAGCTACA CCACCCCTGG CTTTTTGGGT GAGGAGGAGG AGGGTGCAGT GGCTGTGCCC
    CACTCTGAGC ACCTCCCGCC CACCCAGAGC TCCGAGACCC ACGGCTCTGC ACACCAGGGC
    CCCGTGCCCC GGGCTGAGCC CCACGGAGCT GTGCCCTCCA GGAGCAGCCT TGGGCAGGAT
    GGCCCCGCTC CCGGGGGTCC CCAGCCAGCC AGCCTGGGCT GGGACAGTGC CGGGCTGGAT
    GTGCCCCACG GGCCAGCAGC ACGGGCCAGC GGGGACCCTC GTCCCTGCAC CGAGGGACCC
    CTCACCGTGG GCACCCCCAG GGACACCAAG AGAGGAGCCC TCACCGTGGG CACCCCCAGG
    GACATCAGCA GAGGAGCCCT CACCGTGGGC ACCCCCAGGG ACACCAACAG AGGAGCCCTC
    AGCGTGGGCA CCCCCAGGGA CATCAGCAGA GGAGCCCTCA CCATGGGCAC CCCCAGAGAC
    ACCAAGAGGG GATCCCTCAC CGTGGGCACC CCCAGGGACA CCAACAGAGG ATTCCTCACC
    GTGGGCACCC CCAGGGACAC CAACGAGGGA CCCCTCACCA AGAGGCTGGA GGAGGAGGAG
    GAGGAGGAGG CTCTGCTTCC ACCATCACCC ACCGCAGCAA CCCCTGCCAA GCCCAGCTGG
    GAGGTCGGGA ACTGGAGTGA GTGCTCGGCC ACGTGCGGCC TGGGCGCGGT GTGGCGGGCG
    GTGCGCTGCA GCAGCGGCAG CGACGGCGGC TGTCCCGCGG CCGACAGGCC CGTGCCCGCC
    CGGAGGTGCT CCCTCAGACC CTGCTCGGCC TGGCGTGTGG GCAGCTGGAG CAAGTGCTCC
    AGGAGCTGCG GCGGGGGCAC CAAGGTGCGG GACGTTCACT GCGTTGACAC CAGGGACCAG
    CGGCTGCTGC GGCCCTTCCA CTGCCAGGCG GGGCTGCCGC AGCCCCCGGC ACAGCTGCCG
    TGCCACAGCG CGCCCTGCCT GGCCTGGTAC ACGTCCTCCT GGAGAGAGTG CTCGGAGCCG
    TGCGGCGGCG GGGAGCAGGC TCGCCTGGTG ACGTGCCCGG AGCCGGGGCG CTGCGAGGAG
    GCGCTGAGGC CCAACAGCAC CCGGCCCTGC AACAGCCAGC CCTGCACCAC CTGGGTGGTG
    GGCTCCTGGG GACAGTGCTC GGCGCCCTGC GGAGGGGGCA TCCAGCGGCG CCAGGTGAAG
    TGCATCGACA CCCGCAGCGG CGTGCCCGAG GAGGACAGCA GCCTGTGCCA CCACCAGCCC
    TGGCCGGAGA GCACACAGAA GTGCAACCCT CAGGACTGTG ACAGCTCCCA GCCAGGTGCC
    CCCTGCCAGC GCGACCGCCT GAGCTTCGCC TTCTGCCGGA CGCTGCGGCT GCTGGGCCGG
    TGCCCGCTGC CCACCGTGCG CGCCCAGTGC TGCCGCAGCT GCCGCCAGCC CGGGCTGCCA
    GCCCGCAGGT GA

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