ORF » Species Summary » Numida meleagris » TACC2 cDNA ORF clone

TACC2 cDNA ORF clone, Numida meleagris(helmeted guineafowl)

The following TACC2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the TACC2 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
ONu25794 XM_021400255.1
Latest version!		 Numida meleagris transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
ONu25795 XM_021400256.1
Latest version!		 Numida meleagris transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
ONu25796 XM_021400257.1
Latest version!		 Numida meleagris transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
ONu25797 XM_021400258.1
Latest version!		 Numida meleagris transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
ONu25793 XM_021400254.1
Latest version!		 Numida meleagris transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price

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)
    TACC2 ( XM_021400255.1 ) cDNA ORF clone, Numida meleagris(helmeted guineafowl) -> XP_021255930.1 Numida meleagris transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ONu25794
    Clone ID Related Accession (Same CDS sequence) XM_021400255.1
    Accession Version XM_021400255.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3399bp)
    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 2017-06-06
    Organism Numida meleagris(helmeted guineafowl)
    Product transforming acidic coiled-coil-containing protein 2 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034413.1) 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 :: Numida meleagris Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    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
    ATGGAGCAGG GAGAGCAATC CCCATGTGCA GGCTCTGCTG GCACTGATAT TCTTCTGAGT 
    GGGACGGGCC CGGGGCACGA AGGCTCACTG CAGGATACCC AAAGGATGCT GTCCCCTGTC 
    ACATTCTTGG AGCCTGAAAC ATTTGACCTC AGCGCGCTTC AAGACACAGC TGTGGCAGGA 
    CTGCCCACTG ACAGCCCTCC TGGGCCAGGT GATGATATAC AGTTGGCTTC TGCCCTTGGT 
    CCTCCTGAGC AACCCCAAGC TGTTTCTACG GCTTATGGAA ATGTTGAGCC CGTGGATGCT 
    GCTGAGCTGA CTGCAGCAAG CGCTTCCAAG CCTGATAGCT GTGAAGAAGC TGCTGGGCTT 
    GTTTCTGGGG ATGTGCCTGT GGCTGCAGCC CCTGGTGGTG AAGTAGAGCT GCCTCCTCAA 
    GAAGCTGAAA GTGTCACAAA GGAAATAAAG AGGAGCTCTG ACTCAGAAGA AGCATTTGAG 
    ACCCCAGAGT CCACTACACC GGTCAAGGCT CCCCCATCAC CTCCACAGCC ACCCCCCGAC 
    GCAGCAGCAG CAGTCGTAGC GGACATAGCA GAGCAAGAAA TCAAACCTCA GCTGCTCCTG 
    GAAGACACAG GAATACCTCC TGAATCTGTC CCTGTAACTG ATGTGTCACA CAGTGAGTCA 
    GTTGAAGAGA GCCCTTTCCG TCCTCCTTGC CATTCTTTTT CCACCGTCTT CGATGAGGAC 
    AAGCCAATAG CCAGCAGTGG AACTTACAAC TTGGACTTCG ATAACATTGA GTTGGTCGAT 
    TCTCTCCATG CCTTAGGACC GAGCTCTCCA GAATTGAAGA ATCGTGACCC CAAAGCGAAT 
    GTTCGAAGAA AATCCACCGA TTCAGTGCCA GTTTCCAAAT CTACATTATC TCGATCTCTT 
    AGCTTGCAAG CGAGTGATTT TGATGGAGCA TGCTATCTTG GCAACAGCGA GACACTAGCG 
    CCGGCAGCAG ATGCTTATGG TACTGGTTCA AGCAGTGCTT CCAGTACCCT TAAGCGAACA 
    AAGAAATCCA GGCCCGCTTC CTTAAAAAAG AAGCAGTCAG CAAAAAAATC TCTGGACGCT 
    CCGCCAGTGA AGGAAACGCC ACAAGAGCCT CCTGACCTTG GCGAAGCAGC TTCTGCAGGT 
    GAGGAGAAAC CAGCGCCTGA AGCAAAGGCT GACTCAGTAA AACCTGAATA TACTGACCCT 
    TCTAAAACCT CTGCTGAGAA ACAGGAGGCC CCGGCTGTGC CTGAGGGATC CTCCCCTTTG 
    GATCCAGACG GTTTGGAAGG GATTAGTGCT TTTAGTGCTG GAGGCAGCAA AGTGCAAAAC 
    TCGCCCCCTG CCAACAAGAA AACGCTACCT CTTACACCTG CACCTGAGGC TGGGGAGGTG 
    ACTCCGTCGG ACACTGGGGG ACAAGAGGAC CCTCCGGCCA AAGGTGTTGC GGTGAGGCTG 
    GAATTTGATT ATTCTGAAGA AAAAGGGATT GGTGAAGACC AGCAGGAGAG CACTCCTCCT 
    CCTAAAAAAG CAGGTAAAAA GCCTGGTGCT AAAATGCCAC TACGGAGGCC AAAGACTAAA 
    AAGTCGGTGG AGAAGCTTGA CAATGCTCCG ACCACGCCGA CAAAGACACC CACTGATCCA 
    AACGAAATCC CTATCACGAA AGGATCGTAC ACTTTTGATA TCGACAAGTG GGATGATCCC 
    AATTTTAACC CGTTCTCCTC CAGTACAAAA ATGCAAGAAT CTCCCAAGCT GCCTCAACAA 
    ACGTACAGTT TTGAGCCAGA CATGTGCGAG GACTCTATTG ACCCTTTCAA GTCTTCTTCT 
    AAGATTGCCA ACTCACCCAC TAAATCTCCA GCCTCCTTTG AGATACCAGC CAGTGCCAAT 
    GAAACAAACG GAACTGATGG AGACAACTTG AATAAACCTG CAAAAAAGAA GAAGACGCCA 
    CTAAAGACTG ATACATTTAG GGTGAAAAAA TCACCAAAAA GATCGCCACT ATCTGATCCT 
    CCTTCTCAGG ATCCCACCCC GCTGCCTACC CCAGAAACGC CTCCCGTCAT ATCCGCGGTG 
    GTCCATGCGA CGGATGAGGA GAAACTGGCA GTGACCAGTC AGAAATGGAC CTGCATGACT 
    GTGGACCTGA GCACAGACAA GCAGGATTAC CCACAGCCCT CTGATCTGTC CACATTTGTC 
    AATGAGACCA AGTTCAACTC TCCTACAGAG GAATTGGAAT ATGGCAACTC ATATGAAATA 
    GAATATATGG AGAAAATAGG CTCCTCTGTG CCTCAGGATG ATAGCACCCC GAAGAAACAA 
    TCTTTATACC TAATGTTCGA TGCACAGCAA GAGAGCCCAG TCAAATCGCC TCCCGTCAGG 
    CTGTCTGATT CCACCACGCC GTGCTCAGGG TCAAGTTTTG AAGACCCCGA AGCCCAGCAG 
    TCCTCTGGAA TGAAAATACA ACATCCAGCT TCCCGAGTCC TCGCTGCCAG CCAAGAGGCA 
    CACTTACAGT CACCAGACAA GTCAAAACAG AAGGACTTAG AGCCCATGAC GCTAGGAACA 
    ACCCCAGAGG CTATTGAAAT AACATCTCCC GAAGACTCCT TTGTCTCTGC TGATGCTCTT 
    CTCAACAGGA TATCTAAGAA AACAATATGT GATCAACCTG AATATCTAGA TCCTGACTTA 
    GCAGAAAAGA ACCCTCCAGT ATTTGCTCAG AAACTTCAGA GAGAACCTGC TATCCCAGCA 
    GATGTTTCCA TCTCTAAAAG TGTGCTGTAC TCGCGGATCG GCGCTTCGGA TGCAGAAAGC 
    ACCACGAGTC TTCTCTACCC CCAGCAAGAC TTAGACGCTG CGCTACGACT TGCCAGAGCA 
    GAGATTGTGG CCAAGGAAAG AGAAGTATCT GAGTGGAAAG AGAAATATGA AGAAAGCAGA 
    AGGGAAGTGA TGGAAATGAG GAAAATAGTT TCGGAATATG AGAAGACGAT TGCTCAGATG 
    ATAGAGGACG AGCAGAGAGA GAAGTCTGTC TCCCATCACA CTGTTCAGCA GCTGATCGTG 
    GAGAAGGAGC AAGCGCTGGC GGATCTGAAC TCGGTGGAGA AATCCCTGGC AGATCTTTTC 
    AGGAGATACG AGAAAATGAA AGAAGTGTTG GAGGGGTTTC GAAAGAATGA AGAAGTACTA 
    AAGAAATGTG CGCAAGAGTA TTTATCACGA GTCAAGAAAG AAGAACAGAG GTATCAAGCA 
    CTCAAAATCC ACGCTGAGGA AAAACTGGAC AGAGCCAATG CTGAAATTGC GCAAGTGAGA 
    GGCAAGGCTC AGCAAGAGCA AGCGGCGTAT CAGGCCAGCC TTCGTAAAGA GCAGCTGAAG 
    GTGGACGCGT TGGAAAGGAC ACTGGAACAG AAGAATAAAG AGATAGAAGA GTTAACAAAG 
    ATTTGTGACG AACTGATTGC CAAAATGGGG AAAAGCTAA

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

    RefSeq XP_021255930.1
    CDS57..3455
    Translation

    Target ORF information:

    RefSeq Version XM_021400255.1
    Organism Numida meleagris(helmeted guineafowl)
    Definition Numida meleagris transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021400255.1

    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
    ATGGAGCAGG GAGAGCAATC CCCATGTGCA GGCTCTGCTG GCACTGATAT TCTTCTGAGT 
    GGGACGGGCC CGGGGCACGA AGGCTCACTG CAGGATACCC AAAGGATGCT GTCCCCTGTC 
    ACATTCTTGG AGCCTGAAAC ATTTGACCTC AGCGCGCTTC AAGACACAGC TGTGGCAGGA 
    CTGCCCACTG ACAGCCCTCC TGGGCCAGGT GATGATATAC AGTTGGCTTC TGCCCTTGGT 
    CCTCCTGAGC AACCCCAAGC TGTTTCTACG GCTTATGGAA ATGTTGAGCC CGTGGATGCT 
    GCTGAGCTGA CTGCAGCAAG CGCTTCCAAG CCTGATAGCT GTGAAGAAGC TGCTGGGCTT 
    GTTTCTGGGG ATGTGCCTGT GGCTGCAGCC CCTGGTGGTG AAGTAGAGCT GCCTCCTCAA 
    GAAGCTGAAA GTGTCACAAA GGAAATAAAG AGGAGCTCTG ACTCAGAAGA AGCATTTGAG 
    ACCCCAGAGT CCACTACACC GGTCAAGGCT CCCCCATCAC CTCCACAGCC ACCCCCCGAC 
    GCAGCAGCAG CAGTCGTAGC GGACATAGCA GAGCAAGAAA TCAAACCTCA GCTGCTCCTG 
    GAAGACACAG GAATACCTCC TGAATCTGTC CCTGTAACTG ATGTGTCACA CAGTGAGTCA 
    GTTGAAGAGA GCCCTTTCCG TCCTCCTTGC CATTCTTTTT CCACCGTCTT CGATGAGGAC 
    AAGCCAATAG CCAGCAGTGG AACTTACAAC TTGGACTTCG ATAACATTGA GTTGGTCGAT 
    TCTCTCCATG CCTTAGGACC GAGCTCTCCA GAATTGAAGA ATCGTGACCC CAAAGCGAAT 
    GTTCGAAGAA AATCCACCGA TTCAGTGCCA GTTTCCAAAT CTACATTATC TCGATCTCTT 
    AGCTTGCAAG CGAGTGATTT TGATGGAGCA TGCTATCTTG GCAACAGCGA GACACTAGCG 
    CCGGCAGCAG ATGCTTATGG TACTGGTTCA AGCAGTGCTT CCAGTACCCT TAAGCGAACA 
    AAGAAATCCA GGCCCGCTTC CTTAAAAAAG AAGCAGTCAG CAAAAAAATC TCTGGACGCT 
    CCGCCAGTGA AGGAAACGCC ACAAGAGCCT CCTGACCTTG GCGAAGCAGC TTCTGCAGGT 
    GAGGAGAAAC CAGCGCCTGA AGCAAAGGCT GACTCAGTAA AACCTGAATA TACTGACCCT 
    TCTAAAACCT CTGCTGAGAA ACAGGAGGCC CCGGCTGTGC CTGAGGGATC CTCCCCTTTG 
    GATCCAGACG GTTTGGAAGG GATTAGTGCT TTTAGTGCTG GAGGCAGCAA AGTGCAAAAC 
    TCGCCCCCTG CCAACAAGAA AACGCTACCT CTTACACCTG CACCTGAGGC TGGGGAGGTG 
    ACTCCGTCGG ACACTGGGGG ACAAGAGGAC CCTCCGGCCA AAGGTGTTGC GGTGAGGCTG 
    GAATTTGATT ATTCTGAAGA AAAAGGGATT GGTGAAGACC AGCAGGAGAG CACTCCTCCT 
    CCTAAAAAAG CAGGTAAAAA GCCTGGTGCT AAAATGCCAC TACGGAGGCC AAAGACTAAA 
    AAGTCGGTGG AGAAGCTTGA CAATGCTCCG ACCACGCCGA CAAAGACACC CACTGATCCA 
    AACGAAATCC CTATCACGAA AGGATCGTAC ACTTTTGATA TCGACAAGTG GGATGATCCC 
    AATTTTAACC CGTTCTCCTC CAGTACAAAA ATGCAAGAAT CTCCCAAGCT GCCTCAACAA 
    ACGTACAGTT TTGAGCCAGA CATGTGCGAG GACTCTATTG ACCCTTTCAA GTCTTCTTCT 
    AAGATTGCCA ACTCACCCAC TAAATCTCCA GCCTCCTTTG AGATACCAGC CAGTGCCAAT 
    GAAACAAACG GAACTGATGG AGACAACTTG AATAAACCTG CAAAAAAGAA GAAGACGCCA 
    CTAAAGACTG ATACATTTAG GGTGAAAAAA TCACCAAAAA GATCGCCACT ATCTGATCCT 
    CCTTCTCAGG ATCCCACCCC GCTGCCTACC CCAGAAACGC CTCCCGTCAT ATCCGCGGTG 
    GTCCATGCGA CGGATGAGGA GAAACTGGCA GTGACCAGTC AGAAATGGAC CTGCATGACT 
    GTGGACCTGA GCACAGACAA GCAGGATTAC CCACAGCCCT CTGATCTGTC CACATTTGTC 
    AATGAGACCA AGTTCAACTC TCCTACAGAG GAATTGGAAT ATGGCAACTC ATATGAAATA 
    GAATATATGG AGAAAATAGG CTCCTCTGTG CCTCAGGATG ATAGCACCCC GAAGAAACAA 
    TCTTTATACC TAATGTTCGA TGCACAGCAA GAGAGCCCAG TCAAATCGCC TCCCGTCAGG 
    CTGTCTGATT CCACCACGCC GTGCTCAGGG TCAAGTTTTG AAGACCCCGA AGCCCAGCAG 
    TCCTCTGGAA TGAAAATACA ACATCCAGCT TCCCGAGTCC TCGCTGCCAG CCAAGAGGCA 
    CACTTACAGT CACCAGACAA GTCAAAACAG AAGGACTTAG AGCCCATGAC GCTAGGAACA 
    ACCCCAGAGG CTATTGAAAT AACATCTCCC GAAGACTCCT TTGTCTCTGC TGATGCTCTT 
    CTCAACAGGA TATCTAAGAA AACAATATGT GATCAACCTG AATATCTAGA TCCTGACTTA 
    GCAGAAAAGA ACCCTCCAGT ATTTGCTCAG AAACTTCAGA GAGAACCTGC TATCCCAGCA 
    GATGTTTCCA TCTCTAAAAG TGTGCTGTAC TCGCGGATCG GCGCTTCGGA TGCAGAAAGC 
    ACCACGAGTC TTCTCTACCC CCAGCAAGAC TTAGACGCTG CGCTACGACT TGCCAGAGCA 
    GAGATTGTGG CCAAGGAAAG AGAAGTATCT GAGTGGAAAG AGAAATATGA AGAAAGCAGA 
    AGGGAAGTGA TGGAAATGAG GAAAATAGTT TCGGAATATG AGAAGACGAT TGCTCAGATG 
    ATAGAGGACG AGCAGAGAGA GAAGTCTGTC TCCCATCACA CTGTTCAGCA GCTGATCGTG 
    GAGAAGGAGC AAGCGCTGGC GGATCTGAAC TCGGTGGAGA AATCCCTGGC AGATCTTTTC 
    AGGAGATACG AGAAAATGAA AGAAGTGTTG GAGGGGTTTC GAAAGAATGA AGAAGTACTA 
    AAGAAATGTG CGCAAGAGTA TTTATCACGA GTCAAGAAAG AAGAACAGAG GTATCAAGCA 
    CTCAAAATCC ACGCTGAGGA AAAACTGGAC AGAGCCAATG CTGAAATTGC GCAAGTGAGA 
    GGCAAGGCTC AGCAAGAGCA AGCGGCGTAT CAGGCCAGCC TTCGTAAAGA GCAGCTGAAG 
    GTGGACGCGT TGGAAAGGAC ACTGGAACAG AAGAATAAAG AGATAGAAGA GTTAACAAAG 
    ATTTGTGACG AACTGATTGC CAAAATGGGG AAAAGCTAA

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

    TACC2 ( XM_021400256.1 ) cDNA ORF clone, Numida meleagris(helmeted guineafowl) -> XP_021255931.1 Numida meleagris transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID ONu25795
    Clone ID Related Accession (Same CDS sequence) XM_021400256.1
    Accession Version XM_021400256.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3591bp)
    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 2017-06-06
    Organism Numida meleagris(helmeted guineafowl)
    Product transforming acidic coiled-coil-containing protein 2 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034413.1) 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 :: Numida meleagris Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    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
    ATGGATCAGG CTATGTTTGT GTGCTTCATA TCCAGAGCTG TGTGTGCTGT GGGGAGTTGT 
    ACAGGACTCC TGGCAATAAA GTCTGTCTGC ATAAGTGAAA GTGATCTGTT TAATTGCTCT 
    GTGATACTGG ACGTCAGCAT CAGAATGGGC AATGAGAACA GTAGTGCAGA AAATCAGAGC 
    GCTCTACAGG ACTCAGAATT AGGCAAGCCA CCGGGTGACG GGCACGACAC AAAGAGGAGC 
    CCCCAGGAAA GCAGGGTGGG GAGAGCTGGA GGTCAGCACG TCTCAGATCA TCCTCCTGCT 
    GCTGTGCAAC CGGATAGGAG CGAGGCTCCT CTAACTCCAG GGACTGCGAG CCCTCCTGGG 
    CCAGGTGATG ATATACAGTT GGCTTCTGCC CTTGGTCCTC CTGAGCAACC CCAAGCTGTT 
    TCTACGGCTT ATGGAAATGT TGAGCCCGTG GATGCTGCTG AGCTGACTGC AGCAAGCGCT 
    TCCAAGCCTG ATAGCTGTGA AGAAGCTGCT GGGCTTGTTT CTGGGGATGT GCCTGTGGCT 
    GCAGCCCCTG GTGGTGAAGT AGAGCTGCCT CCTCAAGAAG CTGAAAGTGT CACAAAGGAA 
    ATAAAGAGGA GCTCTGACTC AGAAGAAGCA TTTGAGACCC CAGAGTCCAC TACACCGGTC 
    AAGGCTCCCC CATCACCTCC ACAGCCACCC CCCGACGCAG CAGCAGCAGT CGTAGCGGAC 
    ATAGCAGAGC AAGAAATCAA ACCTCAGCTG CTCCTGGAAG ACACAGGAAT ACCTCCTGAA 
    TCTGTCCCTG TAACTGATGT GTCACACAGT GAGTCAGTTG AAGAGAGCCC TTTCCGTCCT 
    CCTTGCCATT CTTTTTCCAC CGTCTTCGAT GAGGACAAGC CAATAGCCAG CAGTGGAACT 
    TACAACTTGG ACTTCGATAA CATTGAGTTG GTCGATTCTC TCCATGCCTT AGGACCGAGC 
    TCTCCAGAAT TGAAGAATCG TGACCCCAAA GCGAATGTTC GAAGAAAATC CACCGATTCA 
    GTGCCAGTTT CCAAATCTAC ATTATCTCGA TCTCTTAGCT TGCAAGCGAG TGATTTTGAT 
    GGAGCATGCT ATCTTGGCAA CAGCGAGACA CTAGCGCCGG CAGCAGATGC TTATGGTACT 
    GGTTCAAGCA GTGCTTCCAG TACCCTTAAG CGAACAAAGA AATCCAGGCC CGCTTCCTTA 
    AAAAAGAAGC AGTCAGCAAA AAAATCTCTG GACGCTCCGC CAGTGAAGGA AACGCCACAA 
    GAGCCTCCTG ACCTTGGCGA AGCAGCTTCT GCAGGTGAGG AGAAACCAGC GCCTGAAGCA 
    AAGGCTGACT CAGTAAAACC TGAATATACT GACCCTTCTA AAACCTCTGC TGAGAAACAG 
    GAGGCCCCGG CTGTGCCTGA GGGATCCTCC CCTTTGGATC CAGACGGTTT GGAAGGGATT 
    AGTGCTTTTA GTGCTGGAGG CAGCAAAGTG CAAAACTCGC CCCCTGCCAA CAAGAAAACG 
    CTACCTCTTA CACCTGCACC TGAGGCTGGG GAGGTGACTC CGTCGGACAC TGGGGGACAA 
    GAGGACCCTC CGGCCAAAGG TGTTGCGGTG AGGCTGGAAT TTGATTATTC TGAAGAAAAA 
    GGGATTGGTG AAGACCAGCA GGAGAGCACT CCTCCTCCTA AAAAAGCAGG TAAAAAGCCT 
    GGTGCTAAAA TGCCACTACG GAGGCCAAAG ACTAAAAAGT CGGTGGAGAA GCTTGACAAT 
    GCTCCGACCA CGCCGACAAA GACACCCACT GATCCAAACG AAATCCCTAT CACGAAAGGA 
    TCGTACACTT TTGATATCGA CAAGTGGGAT GATCCCAATT TTAACCCGTT CTCCTCCAGT 
    ACAAAAATGC AAGAATCTCC CAAGCTGCCT CAACAAACGT ACAGTTTTGA GCCAGACATG 
    TGCGAGGACT CTATTGACCC TTTCAAGTCT TCTTCTAAGA TTGCCAACTC ACCCACTAAA 
    TCTCCAGCCT CCTTTGAGAT ACCAGCCAGT GCCAATGAAA CAAACGGAAC TGATGGAGAC 
    AACTTGAATA AACCTGCAAA AAAGAAGAAG ACGCCACTAA AGACGATGGT AGAAGATGTG 
    ATGTCTGTAT GTTCTCTGTT TGATACATTT AGGGTGAAAA AATCACCAAA AAGATCGCCA 
    CTATCTGATC CTCCTTCTCA GGATCCCACC CCGCTGCCTA CCCCAGAAAC GCCTCCCGTC 
    ATATCCGCGG TGGTCCATGC GACGGATGAG GAGAAACTGG CAGTGACCAG TCAGAAATGG 
    ACCTGCATGA CTGTGGACCT GAGCACAGAC AAGCAGGATT ACCCACAGCC CTCTGATCTG 
    TCCACATTTG TCAATGAGAC CAAGTTCAAC TCTCCTACAG AGGAATTGGA ATATGGCAAC 
    TCATATGAAA TAGAATATAT GGAGAAAATA GGCTCCTCTG TGCCTCAGGA TGATAGCACC 
    CCGAAGAAAC AATCTTTATA CCTAATGTTC GATGCACAGC AAGAGAGCCC AGTCAAATCG 
    CCTCCCGTCA GGCTGTCTGA TTCCACCACG CCGTGCTCAG GGTCAAGTTT TGAAGACCCC 
    GAAGCCCAGC AGTCCTCTGG AATGAAAATA CAACATCCAG CTTCCCGAGT CCTCGCTGCC 
    AGCCAAGAGG CACACTTACA GTCACCAGAC AAGTCAAAAC AGAAGGACTT AGAGCCCATG 
    ACGCTAGGAA CAACCCCAGA GGCTATTGAA ATAACATCTC CCGAAGACTC CTTTGTCTCT 
    GCTGATGCTC TTCTCAACAG GATATCTAAG AAAACAATAT GTGATCAACC TGAATATCTA 
    GATCCTGACT TAGCAGAAAA GAACCCTCCA GTATTTGCTC AGAAACTTCA GAGAGAACCT 
    GCTATCCCAG CAGATGTTTC CATCTCTAAA AGTGTGCTGT ACTCGCGGAT CGGCGCTTCG 
    GATGCAGAAA GCACCACGAG TCTTCTCTAC CCCCAGCAAG ACTTAGACGC TGCGCTACGA 
    CTTGCCAGAG CAGAGATTGT GGCCAAGGAA AGAGAAGTAT CTGAGTGGAA AGAGAAATAT 
    GAAGAAAGCA GAAGGGAAGT GATGGAAATG AGGAAAATAG TTTCGGAATA TGAGAAGACG 
    ATTGCTCAGA TGATAGAGGA CGAGCAGAGA GAGAAGTCTG TCTCCCATCA CACTGTTCAG 
    CAGCTGATCG TGGAGAAGGA GCAAGCGCTG GCGGATCTGA ACTCGGTGGA GAAATCCCTG 
    GCAGATCTTT TCAGGAGATA CGAGAAAATG AAAGAAGTGT TGGAGGGGTT TCGAAAGAAT 
    GAAGAAGTAC TAAAGAAATG TGCGCAAGAG TATTTATCAC GAGTCAAGAA AGAAGAACAG 
    AGGTATCAAG CACTCAAAAT CCACGCTGAG GAAAAACTGG ACAGAGCCAA TGCTGAAATT 
    GCGCAAGTGA GAGGCAAGGC TCAGCAAGAG CAAGCGGCGT ATCAGGCCAG CCTTCGTAAA 
    GAGCAGCTGA AGGTGGACGC GTTGGAAAGG ACACTGGAAC AGAAGAATAA AGAGATAGAA 
    GAGTTAACAA AGATTTGTGA CGAACTGATT GCCAAAATGG GGAAAAGCTA A

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

    RefSeq XP_021255931.1
    CDS16..3606
    Translation

    Target ORF information:

    RefSeq Version XM_021400256.1
    Organism Numida meleagris(helmeted guineafowl)
    Definition Numida meleagris transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021400256.1

    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
    ATGGATCAGG CTATGTTTGT GTGCTTCATA TCCAGAGCTG TGTGTGCTGT GGGGAGTTGT 
    ACAGGACTCC TGGCAATAAA GTCTGTCTGC ATAAGTGAAA GTGATCTGTT TAATTGCTCT 
    GTGATACTGG ACGTCAGCAT CAGAATGGGC AATGAGAACA GTAGTGCAGA AAATCAGAGC 
    GCTCTACAGG ACTCAGAATT AGGCAAGCCA CCGGGTGACG GGCACGACAC AAAGAGGAGC 
    CCCCAGGAAA GCAGGGTGGG GAGAGCTGGA GGTCAGCACG TCTCAGATCA TCCTCCTGCT 
    GCTGTGCAAC CGGATAGGAG CGAGGCTCCT CTAACTCCAG GGACTGCGAG CCCTCCTGGG 
    CCAGGTGATG ATATACAGTT GGCTTCTGCC CTTGGTCCTC CTGAGCAACC CCAAGCTGTT 
    TCTACGGCTT ATGGAAATGT TGAGCCCGTG GATGCTGCTG AGCTGACTGC AGCAAGCGCT 
    TCCAAGCCTG ATAGCTGTGA AGAAGCTGCT GGGCTTGTTT CTGGGGATGT GCCTGTGGCT 
    GCAGCCCCTG GTGGTGAAGT AGAGCTGCCT CCTCAAGAAG CTGAAAGTGT CACAAAGGAA 
    ATAAAGAGGA GCTCTGACTC AGAAGAAGCA TTTGAGACCC CAGAGTCCAC TACACCGGTC 
    AAGGCTCCCC CATCACCTCC ACAGCCACCC CCCGACGCAG CAGCAGCAGT CGTAGCGGAC 
    ATAGCAGAGC AAGAAATCAA ACCTCAGCTG CTCCTGGAAG ACACAGGAAT ACCTCCTGAA 
    TCTGTCCCTG TAACTGATGT GTCACACAGT GAGTCAGTTG AAGAGAGCCC TTTCCGTCCT 
    CCTTGCCATT CTTTTTCCAC CGTCTTCGAT GAGGACAAGC CAATAGCCAG CAGTGGAACT 
    TACAACTTGG ACTTCGATAA CATTGAGTTG GTCGATTCTC TCCATGCCTT AGGACCGAGC 
    TCTCCAGAAT TGAAGAATCG TGACCCCAAA GCGAATGTTC GAAGAAAATC CACCGATTCA 
    GTGCCAGTTT CCAAATCTAC ATTATCTCGA TCTCTTAGCT TGCAAGCGAG TGATTTTGAT 
    GGAGCATGCT ATCTTGGCAA CAGCGAGACA CTAGCGCCGG CAGCAGATGC TTATGGTACT 
    GGTTCAAGCA GTGCTTCCAG TACCCTTAAG CGAACAAAGA AATCCAGGCC CGCTTCCTTA 
    AAAAAGAAGC AGTCAGCAAA AAAATCTCTG GACGCTCCGC CAGTGAAGGA AACGCCACAA 
    GAGCCTCCTG ACCTTGGCGA AGCAGCTTCT GCAGGTGAGG AGAAACCAGC GCCTGAAGCA 
    AAGGCTGACT CAGTAAAACC TGAATATACT GACCCTTCTA AAACCTCTGC TGAGAAACAG 
    GAGGCCCCGG CTGTGCCTGA GGGATCCTCC CCTTTGGATC CAGACGGTTT GGAAGGGATT 
    AGTGCTTTTA GTGCTGGAGG CAGCAAAGTG CAAAACTCGC CCCCTGCCAA CAAGAAAACG 
    CTACCTCTTA CACCTGCACC TGAGGCTGGG GAGGTGACTC CGTCGGACAC TGGGGGACAA 
    GAGGACCCTC CGGCCAAAGG TGTTGCGGTG AGGCTGGAAT TTGATTATTC TGAAGAAAAA 
    GGGATTGGTG AAGACCAGCA GGAGAGCACT CCTCCTCCTA AAAAAGCAGG TAAAAAGCCT 
    GGTGCTAAAA TGCCACTACG GAGGCCAAAG ACTAAAAAGT CGGTGGAGAA GCTTGACAAT 
    GCTCCGACCA CGCCGACAAA GACACCCACT GATCCAAACG AAATCCCTAT CACGAAAGGA 
    TCGTACACTT TTGATATCGA CAAGTGGGAT GATCCCAATT TTAACCCGTT CTCCTCCAGT 
    ACAAAAATGC AAGAATCTCC CAAGCTGCCT CAACAAACGT ACAGTTTTGA GCCAGACATG 
    TGCGAGGACT CTATTGACCC TTTCAAGTCT TCTTCTAAGA TTGCCAACTC ACCCACTAAA 
    TCTCCAGCCT CCTTTGAGAT ACCAGCCAGT GCCAATGAAA CAAACGGAAC TGATGGAGAC 
    AACTTGAATA AACCTGCAAA AAAGAAGAAG ACGCCACTAA AGACGATGGT AGAAGATGTG 
    ATGTCTGTAT GTTCTCTGTT TGATACATTT AGGGTGAAAA AATCACCAAA AAGATCGCCA 
    CTATCTGATC CTCCTTCTCA GGATCCCACC CCGCTGCCTA CCCCAGAAAC GCCTCCCGTC 
    ATATCCGCGG TGGTCCATGC GACGGATGAG GAGAAACTGG CAGTGACCAG TCAGAAATGG 
    ACCTGCATGA CTGTGGACCT GAGCACAGAC AAGCAGGATT ACCCACAGCC CTCTGATCTG 
    TCCACATTTG TCAATGAGAC CAAGTTCAAC TCTCCTACAG AGGAATTGGA ATATGGCAAC 
    TCATATGAAA TAGAATATAT GGAGAAAATA GGCTCCTCTG TGCCTCAGGA TGATAGCACC 
    CCGAAGAAAC AATCTTTATA CCTAATGTTC GATGCACAGC AAGAGAGCCC AGTCAAATCG 
    CCTCCCGTCA GGCTGTCTGA TTCCACCACG CCGTGCTCAG GGTCAAGTTT TGAAGACCCC 
    GAAGCCCAGC AGTCCTCTGG AATGAAAATA CAACATCCAG CTTCCCGAGT CCTCGCTGCC 
    AGCCAAGAGG CACACTTACA GTCACCAGAC AAGTCAAAAC AGAAGGACTT AGAGCCCATG 
    ACGCTAGGAA CAACCCCAGA GGCTATTGAA ATAACATCTC CCGAAGACTC CTTTGTCTCT 
    GCTGATGCTC TTCTCAACAG GATATCTAAG AAAACAATAT GTGATCAACC TGAATATCTA 
    GATCCTGACT TAGCAGAAAA GAACCCTCCA GTATTTGCTC AGAAACTTCA GAGAGAACCT 
    GCTATCCCAG CAGATGTTTC CATCTCTAAA AGTGTGCTGT ACTCGCGGAT CGGCGCTTCG 
    GATGCAGAAA GCACCACGAG TCTTCTCTAC CCCCAGCAAG ACTTAGACGC TGCGCTACGA 
    CTTGCCAGAG CAGAGATTGT GGCCAAGGAA AGAGAAGTAT CTGAGTGGAA AGAGAAATAT 
    GAAGAAAGCA GAAGGGAAGT GATGGAAATG AGGAAAATAG TTTCGGAATA TGAGAAGACG 
    ATTGCTCAGA TGATAGAGGA CGAGCAGAGA GAGAAGTCTG TCTCCCATCA CACTGTTCAG 
    CAGCTGATCG TGGAGAAGGA GCAAGCGCTG GCGGATCTGA ACTCGGTGGA GAAATCCCTG 
    GCAGATCTTT TCAGGAGATA CGAGAAAATG AAAGAAGTGT TGGAGGGGTT TCGAAAGAAT 
    GAAGAAGTAC TAAAGAAATG TGCGCAAGAG TATTTATCAC GAGTCAAGAA AGAAGAACAG 
    AGGTATCAAG CACTCAAAAT CCACGCTGAG GAAAAACTGG ACAGAGCCAA TGCTGAAATT 
    GCGCAAGTGA GAGGCAAGGC TCAGCAAGAG CAAGCGGCGT ATCAGGCCAG CCTTCGTAAA 
    GAGCAGCTGA AGGTGGACGC GTTGGAAAGG ACACTGGAAC AGAAGAATAA AGAGATAGAA 
    GAGTTAACAA AGATTTGTGA CGAACTGATT GCCAAAATGG GGAAAAGCTA A

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

    TACC2 ( XM_021400257.1 ) cDNA ORF clone, Numida meleagris(helmeted guineafowl) -> XP_021255932.1 Numida meleagris transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID ONu25796
    Clone ID Related Accession (Same CDS sequence) XM_021400257.1
    Accession Version XM_021400257.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3195bp)
    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 2017-06-06
    Organism Numida meleagris(helmeted guineafowl)
    Product transforming acidic coiled-coil-containing protein 2 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034413.1) 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 :: Numida meleagris Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    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
    ATGATATCGC TGAAGATGTT TTCCTTTAAT GTGGAAAGGT GTAAAGAGGA GAGCCGAGGG 
    ACTGCAAGGA GCAGTGAGAT CGCTTCCAAG CCTGATAGCT GTGAAGAAGC TGCTGGGCTT 
    GTTTCTGGGG ATGTGCCTGT GGCTGCAGCC CCTGGTGGTG AAGTAGAGCT GCCTCCTCAA 
    GAAGCTGAAA GTGTCACAAA GGAAATAAAG AGGAGCTCTG ACTCAGAAGA AGCATTTGAG 
    ACCCCAGAGT CCACTACACC GGTCAAGGCT CCCCCATCAC CTCCACAGCC ACCCCCCGAC 
    GCAGCAGCAG CAGTCGTAGC GGACATAGCA GAGCAAGAAA TCAAACCTCA GCTGCTCCTG 
    GAAGACACAG GAATACCTCC TGAATCTGTC CCTGTAACTG ATGTGTCACA CAGTGAGTCA 
    GTTGAAGAGA GCCCTTTCCG TCCTCCTTGC CATTCTTTTT CCACCGTCTT CGATGAGGAC 
    AAGCCAATAG CCAGCAGTGG AACTTACAAC TTGGACTTCG ATAACATTGA GTTGGTCGAT 
    TCTCTCCATG CCTTAGGACC GAGCTCTCCA GAATTGAAGA ATCGTGACCC CAAAGCGAAT 
    GTTCGAAGAA AATCCACCGA TTCAGTGCCA GTTTCCAAAT CTACATTATC TCGATCTCTT 
    AGCTTGCAAG CGAGTGATTT TGATGGAGCA TGCTATCTTG GCAACAGCGA GACACTAGCG 
    CCGGCAGCAG ATGCTTATGG TACTGGTTCA AGCAGTGCTT CCAGTACCCT TAAGCGAACA 
    AAGAAATCCA GGCCCGCTTC CTTAAAAAAG AAGCAGTCAG CAAAAAAATC TCTGGACGCT 
    CCGCCAGTGA AGGAAACGCC ACAAGAGCCT CCTGACCTTG GCGAAGCAGC TTCTGCAGGT 
    GAGGAGAAAC CAGCGCCTGA AGCAAAGGCT GACTCAGTAA AACCTGAATA TACTGACCCT 
    TCTAAAACCT CTGCTGAGAA ACAGGAGGCC CCGGCTGTGC CTGAGGGATC CTCCCCTTTG 
    GATCCAGACG GTTTGGAAGG GATTAGTGCT TTTAGTGCTG GAGGCAGCAA AGTGCAAAAC 
    TCGCCCCCTG CCAACAAGAA AACGCTACCT CTTACACCTG CACCTGAGGC TGGGGAGGTG 
    ACTCCGTCGG ACACTGGGGG ACAAGAGGAC CCTCCGGCCA AAGGTGTTGC GGTGAGGCTG 
    GAATTTGATT ATTCTGAAGA AAAAGGGATT GGTGAAGACC AGCAGGAGAG CACTCCTCCT 
    CCTAAAAAAG CAGGTAAAAA GCCTGGTGCT AAAATGCCAC TACGGAGGCC AAAGACTAAA 
    AAGTCGGTGG AGAAGCTTGA CAATGCTCCG ACCACGCCGA CAAAGACACC CACTGATCCA 
    AACGAAATCC CTATCACGAA AGGATCGTAC ACTTTTGATA TCGACAAGTG GGATGATCCC 
    AATTTTAACC CGTTCTCCTC CAGTACAAAA ATGCAAGAAT CTCCCAAGCT GCCTCAACAA 
    ACGTACAGTT TTGAGCCAGA CATGTGCGAG GACTCTATTG ACCCTTTCAA GTCTTCTTCT 
    AAGATTGCCA ACTCACCCAC TAAATCTCCA GCCTCCTTTG AGATACCAGC CAGTGCCAAT 
    GAAACAAACG GAACTGATGG AGACAACTTG AATAAACCTG CAAAAAAGAA GAAGACGCCA 
    CTAAAGACGA TGGTAGAAGA TGTGATGTCT GTATGTTCTC TGTTTGATAC ATTTAGGGTG 
    AAAAAATCAC CAAAAAGATC GCCACTATCT GATCCTCCTT CTCAGGATCC CACCCCGCTG 
    CCTACCCCAG AAACGCCTCC CGTCATATCC GCGGTGGTCC ATGCGACGGA TGAGGAGAAA 
    CTGGCAGTGA CCAGTCAGAA ATGGACCTGC ATGACTGTGG ACCTGAGCAC AGACAAGCAG 
    GATTACCCAC AGCCCTCTGA TCTGTCCACA TTTGTCAATG AGACCAAGTT CAACTCTCCT 
    ACAGAGGAAT TGGAATATGG CAACTCATAT GAAATAGAAT ATATGGAGAA AATAGGCTCC 
    TCTGTGCCTC AGGATGATAG CACCCCGAAG AAACAATCTT TATACCTAAT GTTCGATGCA 
    CAGCAAGAGA GCCCAGTCAA ATCGCCTCCC GTCAGGCTGT CTGATTCCAC CACGCCGTGC 
    TCAGGGTCAA GTTTTGAAGA CCCCGAAGCC CAGCAGTCCT CTGGAATGAA AATACAACAT 
    CCAGCTTCCC GAGTCCTCGC TGCCAGCCAA GAGGCACACT TACAGTCACC AGACAAGTCA 
    AAACAGAAGG ACTTAGAGCC CATGACGCTA GGAACAACCC CAGAGGCTAT TGAAATAACA 
    TCTCCCGAAG ACTCCTTTGT CTCTGCTGAT GCTCTTCTCA ACAGGATATC TAAGAAAACA 
    ATATGTGATC AACCTGAATA TCTAGATCCT GACTTAGCAG AAAAGAACCC TCCAGTATTT 
    GCTCAGAAAC TTCAGAGAGA ACCTGCTATC CCAGCAGATG TTTCCATCTC TAAAAGTGTG 
    CTGTACTCGC GGATCGGCGC TTCGGATGCA GAAAGCACCA CGAGTCTTCT CTACCCCCAG 
    CAAGACTTAG ACGCTGCGCT ACGACTTGCC AGAGCAGAGA TTGTGGCCAA GGAAAGAGAA 
    GTATCTGAGT GGAAAGAGAA ATATGAAGAA AGCAGAAGGG AAGTGATGGA AATGAGGAAA 
    ATAGTTTCGG AATATGAGAA GACGATTGCT CAGATGATAG AGGACGAGCA GAGAGAGAAG 
    TCTGTCTCCC ATCACACTGT TCAGCAGCTG ATCGTGGAGA AGGAGCAAGC GCTGGCGGAT 
    CTGAACTCGG TGGAGAAATC CCTGGCAGAT CTTTTCAGGA GATACGAGAA AATGAAAGAA 
    GTGTTGGAGG GGTTTCGAAA GAATGAAGAA GTACTAAAGA AATGTGCGCA AGAGTATTTA 
    TCACGAGTCA AGAAAGAAGA ACAGAGGTAT CAAGCACTCA AAATCCACGC TGAGGAAAAA 
    CTGGACAGAG CCAATGCTGA AATTGCGCAA GTGAGAGGCA AGGCTCAGCA AGAGCAAGCG 
    GCGTATCAGG CCAGCCTTCG TAAAGAGCAG CTGAAGGTGG ACGCGTTGGA AAGGACACTG 
    GAACAGAAGA ATAAAGAGAT AGAAGAGTTA ACAAAGATTT GTGACGAACT GATTGCCAAA 
    ATGGGGAAAA GCTAA

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

    RefSeq XP_021255932.1
    CDS16..3210
    Translation

    Target ORF information:

    RefSeq Version XM_021400257.1
    Organism Numida meleagris(helmeted guineafowl)
    Definition Numida meleagris transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021400257.1

    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
    ATGATATCGC TGAAGATGTT TTCCTTTAAT GTGGAAAGGT GTAAAGAGGA GAGCCGAGGG 
    ACTGCAAGGA GCAGTGAGAT CGCTTCCAAG CCTGATAGCT GTGAAGAAGC TGCTGGGCTT 
    GTTTCTGGGG ATGTGCCTGT GGCTGCAGCC CCTGGTGGTG AAGTAGAGCT GCCTCCTCAA 
    GAAGCTGAAA GTGTCACAAA GGAAATAAAG AGGAGCTCTG ACTCAGAAGA AGCATTTGAG 
    ACCCCAGAGT CCACTACACC GGTCAAGGCT CCCCCATCAC CTCCACAGCC ACCCCCCGAC 
    GCAGCAGCAG CAGTCGTAGC GGACATAGCA GAGCAAGAAA TCAAACCTCA GCTGCTCCTG 
    GAAGACACAG GAATACCTCC TGAATCTGTC CCTGTAACTG ATGTGTCACA CAGTGAGTCA 
    GTTGAAGAGA GCCCTTTCCG TCCTCCTTGC CATTCTTTTT CCACCGTCTT CGATGAGGAC 
    AAGCCAATAG CCAGCAGTGG AACTTACAAC TTGGACTTCG ATAACATTGA GTTGGTCGAT 
    TCTCTCCATG CCTTAGGACC GAGCTCTCCA GAATTGAAGA ATCGTGACCC CAAAGCGAAT 
    GTTCGAAGAA AATCCACCGA TTCAGTGCCA GTTTCCAAAT CTACATTATC TCGATCTCTT 
    AGCTTGCAAG CGAGTGATTT TGATGGAGCA TGCTATCTTG GCAACAGCGA GACACTAGCG 
    CCGGCAGCAG ATGCTTATGG TACTGGTTCA AGCAGTGCTT CCAGTACCCT TAAGCGAACA 
    AAGAAATCCA GGCCCGCTTC CTTAAAAAAG AAGCAGTCAG CAAAAAAATC TCTGGACGCT 
    CCGCCAGTGA AGGAAACGCC ACAAGAGCCT CCTGACCTTG GCGAAGCAGC TTCTGCAGGT 
    GAGGAGAAAC CAGCGCCTGA AGCAAAGGCT GACTCAGTAA AACCTGAATA TACTGACCCT 
    TCTAAAACCT CTGCTGAGAA ACAGGAGGCC CCGGCTGTGC CTGAGGGATC CTCCCCTTTG 
    GATCCAGACG GTTTGGAAGG GATTAGTGCT TTTAGTGCTG GAGGCAGCAA AGTGCAAAAC 
    TCGCCCCCTG CCAACAAGAA AACGCTACCT CTTACACCTG CACCTGAGGC TGGGGAGGTG 
    ACTCCGTCGG ACACTGGGGG ACAAGAGGAC CCTCCGGCCA AAGGTGTTGC GGTGAGGCTG 
    GAATTTGATT ATTCTGAAGA AAAAGGGATT GGTGAAGACC AGCAGGAGAG CACTCCTCCT 
    CCTAAAAAAG CAGGTAAAAA GCCTGGTGCT AAAATGCCAC TACGGAGGCC AAAGACTAAA 
    AAGTCGGTGG AGAAGCTTGA CAATGCTCCG ACCACGCCGA CAAAGACACC CACTGATCCA 
    AACGAAATCC CTATCACGAA AGGATCGTAC ACTTTTGATA TCGACAAGTG GGATGATCCC 
    AATTTTAACC CGTTCTCCTC CAGTACAAAA ATGCAAGAAT CTCCCAAGCT GCCTCAACAA 
    ACGTACAGTT TTGAGCCAGA CATGTGCGAG GACTCTATTG ACCCTTTCAA GTCTTCTTCT 
    AAGATTGCCA ACTCACCCAC TAAATCTCCA GCCTCCTTTG AGATACCAGC CAGTGCCAAT 
    GAAACAAACG GAACTGATGG AGACAACTTG AATAAACCTG CAAAAAAGAA GAAGACGCCA 
    CTAAAGACGA TGGTAGAAGA TGTGATGTCT GTATGTTCTC TGTTTGATAC ATTTAGGGTG 
    AAAAAATCAC CAAAAAGATC GCCACTATCT GATCCTCCTT CTCAGGATCC CACCCCGCTG 
    CCTACCCCAG AAACGCCTCC CGTCATATCC GCGGTGGTCC ATGCGACGGA TGAGGAGAAA 
    CTGGCAGTGA CCAGTCAGAA ATGGACCTGC ATGACTGTGG ACCTGAGCAC AGACAAGCAG 
    GATTACCCAC AGCCCTCTGA TCTGTCCACA TTTGTCAATG AGACCAAGTT CAACTCTCCT 
    ACAGAGGAAT TGGAATATGG CAACTCATAT GAAATAGAAT ATATGGAGAA AATAGGCTCC 
    TCTGTGCCTC AGGATGATAG CACCCCGAAG AAACAATCTT TATACCTAAT GTTCGATGCA 
    CAGCAAGAGA GCCCAGTCAA ATCGCCTCCC GTCAGGCTGT CTGATTCCAC CACGCCGTGC 
    TCAGGGTCAA GTTTTGAAGA CCCCGAAGCC CAGCAGTCCT CTGGAATGAA AATACAACAT 
    CCAGCTTCCC GAGTCCTCGC TGCCAGCCAA GAGGCACACT TACAGTCACC AGACAAGTCA 
    AAACAGAAGG ACTTAGAGCC CATGACGCTA GGAACAACCC CAGAGGCTAT TGAAATAACA 
    TCTCCCGAAG ACTCCTTTGT CTCTGCTGAT GCTCTTCTCA ACAGGATATC TAAGAAAACA 
    ATATGTGATC AACCTGAATA TCTAGATCCT GACTTAGCAG AAAAGAACCC TCCAGTATTT 
    GCTCAGAAAC TTCAGAGAGA ACCTGCTATC CCAGCAGATG TTTCCATCTC TAAAAGTGTG 
    CTGTACTCGC GGATCGGCGC TTCGGATGCA GAAAGCACCA CGAGTCTTCT CTACCCCCAG 
    CAAGACTTAG ACGCTGCGCT ACGACTTGCC AGAGCAGAGA TTGTGGCCAA GGAAAGAGAA 
    GTATCTGAGT GGAAAGAGAA ATATGAAGAA AGCAGAAGGG AAGTGATGGA AATGAGGAAA 
    ATAGTTTCGG AATATGAGAA GACGATTGCT CAGATGATAG AGGACGAGCA GAGAGAGAAG 
    TCTGTCTCCC ATCACACTGT TCAGCAGCTG ATCGTGGAGA AGGAGCAAGC GCTGGCGGAT 
    CTGAACTCGG TGGAGAAATC CCTGGCAGAT CTTTTCAGGA GATACGAGAA AATGAAAGAA 
    GTGTTGGAGG GGTTTCGAAA GAATGAAGAA GTACTAAAGA AATGTGCGCA AGAGTATTTA 
    TCACGAGTCA AGAAAGAAGA ACAGAGGTAT CAAGCACTCA AAATCCACGC TGAGGAAAAA 
    CTGGACAGAG CCAATGCTGA AATTGCGCAA GTGAGAGGCA AGGCTCAGCA AGAGCAAGCG 
    GCGTATCAGG CCAGCCTTCG TAAAGAGCAG CTGAAGGTGG ACGCGTTGGA AAGGACACTG 
    GAACAGAAGA ATAAAGAGAT AGAAGAGTTA ACAAAGATTT GTGACGAACT GATTGCCAAA 
    ATGGGGAAAA GCTAA

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

    TACC2 ( XM_021400258.1 ) cDNA ORF clone, Numida meleagris(helmeted guineafowl) -> XP_021255933.1 Numida meleagris transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID ONu25797
    Clone ID Related Accession (Same CDS sequence) XM_021400258.1
    Accession Version XM_021400258.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3051bp)
    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 2017-06-06
    Organism Numida meleagris(helmeted guineafowl)
    Product transforming acidic coiled-coil-containing protein 2 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034413.1) 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 :: Numida meleagris Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    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
    ATGGGAGGCT CGCAGTCCCT GCAGCAGGCG CAGGCGGGGA GCCTGGCCCG GGAGCCGTCG 
    GAGGCGATGA GCTCTGACTC AGAAGAAGCA TTTGAGACCC CAGAGTCCAC TACACCGGTC 
    AAGGCTCCCC CATCACCTCC ACAGCCACCC CCCGACGCAG CAGCAGCAGT CGTAGCGGAC 
    ATAGCAGAGC AAGAAATCAA ACCTCAGCTG CTCCTGGAAG ACACAGGAAT ACCTCCTGAA 
    TCTGTCCCTG TAACTGATGT GTCACACAGT GAGTCAGTTG AAGAGAGCCC TTTCCGTCCT 
    CCTTGCCATT CTTTTTCCAC CGTCTTCGAT GAGGACAAGC CAATAGCCAG CAGTGGAACT 
    TACAACTTGG ACTTCGATAA CATTGAGTTG GTCGATTCTC TCCATGCCTT AGGACCGAGC 
    TCTCCAGAAT TGAAGAATCG TGACCCCAAA GCGAATGTTC GAAGAAAATC CACCGATTCA 
    GTGCCAGTTT CCAAATCTAC ATTATCTCGA TCTCTTAGCT TGCAAGCGAG TGATTTTGAT 
    GGAGCATGCT ATCTTGGCAA CAGCGAGACA CTAGCGCCGG CAGCAGATGC TTATGGTACT 
    GGTTCAAGCA GTGCTTCCAG TACCCTTAAG CGAACAAAGA AATCCAGGCC CGCTTCCTTA 
    AAAAAGAAGC AGTCAGCAAA AAAATCTCTG GACGCTCCGC CAGTGAAGGA AACGCCACAA 
    GAGCCTCCTG ACCTTGGCGA AGCAGCTTCT GCAGGTGAGG AGAAACCAGC GCCTGAAGCA 
    AAGGCTGACT CAGTAAAACC TGAATATACT GACCCTTCTA AAACCTCTGC TGAGAAACAG 
    GAGGCCCCGG CTGTGCCTGA GGGATCCTCC CCTTTGGATC CAGACGGTTT GGAAGGGATT 
    AGTGCTTTTA GTGCTGGAGG CAGCAAAGTG CAAAACTCGC CCCCTGCCAA CAAGAAAACG 
    CTACCTCTTA CACCTGCACC TGAGGCTGGG GAGGTGACTC CGTCGGACAC TGGGGGACAA 
    GAGGACCCTC CGGCCAAAGG TGTTGCGGTG AGGCTGGAAT TTGATTATTC TGAAGAAAAA 
    GGGATTGGTG AAGACCAGCA GGAGAGCACT CCTCCTCCTA AAAAAGCAGG TAAAAAGCCT 
    GGTGCTAAAA TGCCACTACG GAGGCCAAAG ACTAAAAAGT CGGTGGAGAA GCTTGACAAT 
    GCTCCGACCA CGCCGACAAA GACACCCACT GATCCAAACG AAATCCCTAT CACGAAAGGA 
    TCGTACACTT TTGATATCGA CAAGTGGGAT GATCCCAATT TTAACCCGTT CTCCTCCAGT 
    ACAAAAATGC AAGAATCTCC CAAGCTGCCT CAACAAACGT ACAGTTTTGA GCCAGACATG 
    TGCGAGGACT CTATTGACCC TTTCAAGTCT TCTTCTAAGA TTGCCAACTC ACCCACTAAA 
    TCTCCAGCCT CCTTTGAGAT ACCAGCCAGT GCCAATGAAA CAAACGGAAC TGATGGAGAC 
    AACTTGAATA AACCTGCAAA AAAGAAGAAG ACGCCACTAA AGACGATGGT AGAAGATGTG 
    ATGTCTGTAT GTTCTCTGTT TGATACATTT AGGGTGAAAA AATCACCAAA AAGATCGCCA 
    CTATCTGATC CTCCTTCTCA GGATCCCACC CCGCTGCCTA CCCCAGAAAC GCCTCCCGTC 
    ATATCCGCGG TGGTCCATGC GACGGATGAG GAGAAACTGG CAGTGACCAG TCAGAAATGG 
    ACCTGCATGA CTGTGGACCT GAGCACAGAC AAGCAGGATT ACCCACAGCC CTCTGATCTG 
    TCCACATTTG TCAATGAGAC CAAGTTCAAC TCTCCTACAG AGGAATTGGA ATATGGCAAC 
    TCATATGAAA TAGAATATAT GGAGAAAATA GGCTCCTCTG TGCCTCAGGA TGATAGCACC 
    CCGAAGAAAC AATCTTTATA CCTAATGTTC GATGCACAGC AAGAGAGCCC AGTCAAATCG 
    CCTCCCGTCA GGCTGTCTGA TTCCACCACG CCGTGCTCAG GGTCAAGTTT TGAAGACCCC 
    GAAGCCCAGC AGTCCTCTGG AATGAAAATA CAACATCCAG CTTCCCGAGT CCTCGCTGCC 
    AGCCAAGAGG CACACTTACA GTCACCAGAC AAGTCAAAAC AGAAGGACTT AGAGCCCATG 
    ACGCTAGGAA CAACCCCAGA GGCTATTGAA ATAACATCTC CCGAAGACTC CTTTGTCTCT 
    GCTGATGCTC TTCTCAACAG GATATCTAAG AAAACAATAT GTGATCAACC TGAATATCTA 
    GATCCTGACT TAGCAGAAAA GAACCCTCCA GTATTTGCTC AGAAACTTCA GAGAGAACCT 
    GCTATCCCAG CAGATGTTTC CATCTCTAAA AGTGTGCTGT ACTCGCGGAT CGGCGCTTCG 
    GATGCAGAAA GCACCACGAG TCTTCTCTAC CCCCAGCAAG ACTTAGACGC TGCGCTACGA 
    CTTGCCAGAG CAGAGATTGT GGCCAAGGAA AGAGAAGTAT CTGAGTGGAA AGAGAAATAT 
    GAAGAAAGCA GAAGGGAAGT GATGGAAATG AGGAAAATAG TTTCGGAATA TGAGAAGACG 
    ATTGCTCAGA TGATAGAGGA CGAGCAGAGA GAGAAGTCTG TCTCCCATCA CACTGTTCAG 
    CAGCTGATCG TGGAGAAGGA GCAAGCGCTG GCGGATCTGA ACTCGGTGGA GAAATCCCTG 
    GCAGATCTTT TCAGGAGATA CGAGAAAATG AAAGAAGTGT TGGAGGGGTT TCGAAAGAAT 
    GAAGAAGTAC TAAAGAAATG TGCGCAAGAG TATTTATCAC GAGTCAAGAA AGAAGAACAG 
    AGGTATCAAG CACTCAAAAT CCACGCTGAG GAAAAACTGG ACAGAGCCAA TGCTGAAATT 
    GCGCAAGTGA GAGGCAAGGC TCAGCAAGAG CAAGCGGCGT ATCAGGCCAG CCTTCGTAAA 
    GAGCAGCTGA AGGTGGACGC GTTGGAAAGG ACACTGGAAC AGAAGAATAA AGAGATAGAA 
    GAGTTAACAA AGATTTGTGA CGAACTGATT GCCAAAATGG GGAAAAGCTA A

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

    RefSeq XP_021255933.1
    CDS67..3117
    Translation

    Target ORF information:

    RefSeq Version XM_021400258.1
    Organism Numida meleagris(helmeted guineafowl)
    Definition Numida meleagris transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021400258.1

    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
    ATGGGAGGCT CGCAGTCCCT GCAGCAGGCG CAGGCGGGGA GCCTGGCCCG GGAGCCGTCG 
    GAGGCGATGA GCTCTGACTC AGAAGAAGCA TTTGAGACCC CAGAGTCCAC TACACCGGTC 
    AAGGCTCCCC CATCACCTCC ACAGCCACCC CCCGACGCAG CAGCAGCAGT CGTAGCGGAC 
    ATAGCAGAGC AAGAAATCAA ACCTCAGCTG CTCCTGGAAG ACACAGGAAT ACCTCCTGAA 
    TCTGTCCCTG TAACTGATGT GTCACACAGT GAGTCAGTTG AAGAGAGCCC TTTCCGTCCT 
    CCTTGCCATT CTTTTTCCAC CGTCTTCGAT GAGGACAAGC CAATAGCCAG CAGTGGAACT 
    TACAACTTGG ACTTCGATAA CATTGAGTTG GTCGATTCTC TCCATGCCTT AGGACCGAGC 
    TCTCCAGAAT TGAAGAATCG TGACCCCAAA GCGAATGTTC GAAGAAAATC CACCGATTCA 
    GTGCCAGTTT CCAAATCTAC ATTATCTCGA TCTCTTAGCT TGCAAGCGAG TGATTTTGAT 
    GGAGCATGCT ATCTTGGCAA CAGCGAGACA CTAGCGCCGG CAGCAGATGC TTATGGTACT 
    GGTTCAAGCA GTGCTTCCAG TACCCTTAAG CGAACAAAGA AATCCAGGCC CGCTTCCTTA 
    AAAAAGAAGC AGTCAGCAAA AAAATCTCTG GACGCTCCGC CAGTGAAGGA AACGCCACAA 
    GAGCCTCCTG ACCTTGGCGA AGCAGCTTCT GCAGGTGAGG AGAAACCAGC GCCTGAAGCA 
    AAGGCTGACT CAGTAAAACC TGAATATACT GACCCTTCTA AAACCTCTGC TGAGAAACAG 
    GAGGCCCCGG CTGTGCCTGA GGGATCCTCC CCTTTGGATC CAGACGGTTT GGAAGGGATT 
    AGTGCTTTTA GTGCTGGAGG CAGCAAAGTG CAAAACTCGC CCCCTGCCAA CAAGAAAACG 
    CTACCTCTTA CACCTGCACC TGAGGCTGGG GAGGTGACTC CGTCGGACAC TGGGGGACAA 
    GAGGACCCTC CGGCCAAAGG TGTTGCGGTG AGGCTGGAAT TTGATTATTC TGAAGAAAAA 
    GGGATTGGTG AAGACCAGCA GGAGAGCACT CCTCCTCCTA AAAAAGCAGG TAAAAAGCCT 
    GGTGCTAAAA TGCCACTACG GAGGCCAAAG ACTAAAAAGT CGGTGGAGAA GCTTGACAAT 
    GCTCCGACCA CGCCGACAAA GACACCCACT GATCCAAACG AAATCCCTAT CACGAAAGGA 
    TCGTACACTT TTGATATCGA CAAGTGGGAT GATCCCAATT TTAACCCGTT CTCCTCCAGT 
    ACAAAAATGC AAGAATCTCC CAAGCTGCCT CAACAAACGT ACAGTTTTGA GCCAGACATG 
    TGCGAGGACT CTATTGACCC TTTCAAGTCT TCTTCTAAGA TTGCCAACTC ACCCACTAAA 
    TCTCCAGCCT CCTTTGAGAT ACCAGCCAGT GCCAATGAAA CAAACGGAAC TGATGGAGAC 
    AACTTGAATA AACCTGCAAA AAAGAAGAAG ACGCCACTAA AGACGATGGT AGAAGATGTG 
    ATGTCTGTAT GTTCTCTGTT TGATACATTT AGGGTGAAAA AATCACCAAA AAGATCGCCA 
    CTATCTGATC CTCCTTCTCA GGATCCCACC CCGCTGCCTA CCCCAGAAAC GCCTCCCGTC 
    ATATCCGCGG TGGTCCATGC GACGGATGAG GAGAAACTGG CAGTGACCAG TCAGAAATGG 
    ACCTGCATGA CTGTGGACCT GAGCACAGAC AAGCAGGATT ACCCACAGCC CTCTGATCTG 
    TCCACATTTG TCAATGAGAC CAAGTTCAAC TCTCCTACAG AGGAATTGGA ATATGGCAAC 
    TCATATGAAA TAGAATATAT GGAGAAAATA GGCTCCTCTG TGCCTCAGGA TGATAGCACC 
    CCGAAGAAAC AATCTTTATA CCTAATGTTC GATGCACAGC AAGAGAGCCC AGTCAAATCG 
    CCTCCCGTCA GGCTGTCTGA TTCCACCACG CCGTGCTCAG GGTCAAGTTT TGAAGACCCC 
    GAAGCCCAGC AGTCCTCTGG AATGAAAATA CAACATCCAG CTTCCCGAGT CCTCGCTGCC 
    AGCCAAGAGG CACACTTACA GTCACCAGAC AAGTCAAAAC AGAAGGACTT AGAGCCCATG 
    ACGCTAGGAA CAACCCCAGA GGCTATTGAA ATAACATCTC CCGAAGACTC CTTTGTCTCT 
    GCTGATGCTC TTCTCAACAG GATATCTAAG AAAACAATAT GTGATCAACC TGAATATCTA 
    GATCCTGACT TAGCAGAAAA GAACCCTCCA GTATTTGCTC AGAAACTTCA GAGAGAACCT 
    GCTATCCCAG CAGATGTTTC CATCTCTAAA AGTGTGCTGT ACTCGCGGAT CGGCGCTTCG 
    GATGCAGAAA GCACCACGAG TCTTCTCTAC CCCCAGCAAG ACTTAGACGC TGCGCTACGA 
    CTTGCCAGAG CAGAGATTGT GGCCAAGGAA AGAGAAGTAT CTGAGTGGAA AGAGAAATAT 
    GAAGAAAGCA GAAGGGAAGT GATGGAAATG AGGAAAATAG TTTCGGAATA TGAGAAGACG 
    ATTGCTCAGA TGATAGAGGA CGAGCAGAGA GAGAAGTCTG TCTCCCATCA CACTGTTCAG 
    CAGCTGATCG TGGAGAAGGA GCAAGCGCTG GCGGATCTGA ACTCGGTGGA GAAATCCCTG 
    GCAGATCTTT TCAGGAGATA CGAGAAAATG AAAGAAGTGT TGGAGGGGTT TCGAAAGAAT 
    GAAGAAGTAC TAAAGAAATG TGCGCAAGAG TATTTATCAC GAGTCAAGAA AGAAGAACAG 
    AGGTATCAAG CACTCAAAAT CCACGCTGAG GAAAAACTGG ACAGAGCCAA TGCTGAAATT 
    GCGCAAGTGA GAGGCAAGGC TCAGCAAGAG CAAGCGGCGT ATCAGGCCAG CCTTCGTAAA 
    GAGCAGCTGA AGGTGGACGC GTTGGAAAGG ACACTGGAAC AGAAGAATAA AGAGATAGAA 
    GAGTTAACAA AGATTTGTGA CGAACTGATT GCCAAAATGG GGAAAAGCTA A

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

    TACC2 ( XM_021400254.1 ) cDNA ORF clone, Numida meleagris(helmeted guineafowl) -> XP_021255929.1 Numida meleagris transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ONu25793
    Clone ID Related Accession (Same CDS sequence) XM_021400254.1
    Accession Version XM_021400254.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 9105bp)
    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 2017-06-06
    Organism Numida meleagris(helmeted guineafowl)
    Product transforming acidic coiled-coil-containing protein 2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034413.1) 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 :: Numida meleagris Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    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
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    7081
    7141
    7201
    7261
    7321
    7381
    7441
    7501
    7561
    7621
    7681
    7741
    7801
    7861
    7921
    7981
    8041
    8101
    8161
    8221
    8281
    8341
    8401
    8461
    8521
    8581
    8641
    8701
    8761
    8821
    8881
    8941
    9001
    9061
    ATGGATCAGG CTATGTTTGT GTGCTTCATA TCCAGAGCTG TGTGTGCTGT GGGGAGTTGT 
    ACAGGACTCC TGGCAATAAA GTCTGTCTGC ATAAGTGAAA GTGATCTGTT TAATTGCTCT 
    GTGATACTGG ACGTCAGCAT CAGAATGGGC AATGAGAACA GTAGTGCAGA AAATCAGAGC 
    GCTCTACAGG ACTCAGAATT AGGCAAGCCA CCGGGTGACG GGCACGACAC AAAGAGGAGC 
    CCCCAGGAAA GCAGGGTGGG GAGAGCTGGA GGTCAGCACG TCTCAGATCA TCCTCCTGCT 
    GCTGTGCAAC CGGATAGGAG CGAGGCTCCT CTAACTCCAG GGACTGCGAG CATCAGTGAT 
    GAAGGCTTCA GTAGCTCCAG TGCTGAAGAT GAACCTGACC CAAATGCAAG CCTGTTGCCT 
    TCCAAGGGGA CAGGACAGCG TGGTATCATG CAAGAAGATG GAGGAGACAC GGGCTCTGAT 
    GCCTTACAGC AAGCTGCAGA AGCAAGGGAG AGACATCTGC CTATCTCAGT GCCTGCAGAG 
    GGCTGTTTGG AGGATGTCAC AGCAGATCCT GCGAGCAGCA GTGACGTGTC ACCAACCGCA 
    AACTGCAACG AGTCAGTGAA TGGCAAAGAA GAGGGAACAG CACGTGGTGT TTCAGAGGAC 
    AGAGGCCCCA GATGTGACCC CGCTGCACCT GCTGCTCTGA GAACTGATGG GAATGATCCT 
    GGGAAGCCCA GCCCTCCTGC AATGCCTACG GAGACGCATT TGAGGGAGTT GGGGTGCCTG 
    TGGCAGAGCG AGCAGCTGGG AGACACGGGG GAGCTGCAGG TCAGCACGTC CCCCCAGGGT 
    GCAGGAGCAG GGGATTATTT TCCTGCTCAG AAGGCTGAGC AGGAGCCGGG ATTTTGGGAA 
    GTAGGTCAGC CACAGGCTGT AGTGCAGCAA GGTAGACAGA ACACAGATGG TGGAGAGGGT 
    CTGCTAATGA GAAAGGAAGC CTTAATCCCA AATTACCCAG TGACAGGAGC AGCTGTAAGT 
    GCTGAGAGTT CCATAGCGAG GCCTGAGACC AGAGATGCCC ACAGCCCGCA GATAGGGGCT 
    GTAATGACAG GGAACGAGAT AACCCCAGCT CCAAGGCAAG GAGAGCCATC AGAAGCCTGC 
    CCTGTAGTGT CAGAGCTGCC TTCTGACCCC CCAAATCTCC TCCCGGTACC AAAGCTGGAA 
    GAACCTTTGA GGGAATGTGT GCCTGGAAAC GACTGTCAAG ATCCAATGAG AAGCAAAGCG 
    GTGGGAACAG CCTCCGAGAA AGATGAACCC AGTCCTCAAA GAGGGCTTCA AAAGGAGGAT 
    GAGCTCGTTA GTGCTGAGCC TTTATCGTTT AAGCAAGGGG AAGAACAAAA ACCAGCTGTC 
    ACAACTGAAA GCCAAAAAGA TGAAGCCAGT AGCAATGAAA TCATAAAAGC TGACGTGTCT 
    GAAGAGAGCT CTGTGCTTTC TGAAACGGAG AGCGTTACCA GTCCCACTGA GGACAGTTCC 
    CTAGAAGGTA ACAGGTTACT GCTGGAGGGA TGTGCATTAA GTGGTTCTCT GAGCAGATCC 
    ACGGAGCTGA ATCAAAAGGG AGCTGAATCT GTGAGCATAA CAGGAGAGCA AGACAAAACA 
    CGAGCAGAAG AGGCACGAGC AGCCAGTGGG TTACCTGCGG GGTCAGGTGC GGCAGGAAGA 
    CAAGTGCCGA GCTCCCCTGG CATCCACAAT GAGGATGCAA AAGAAACCCA CCTGGGACAC 
    GGCCCCGAAG CACTCAGTCC TCGTGCCAAG GCTCCAGCAG ATGACCTGAA GGAAGGAGCT 
    GCAGGAAAGT CCCTGAGTGC AGAGGGTGAC TTGGAATCCC CTGAAAACCA CTCACAGTCT 
    CTTGGCTGTA GAGCTGAACA GCAGCCGGGC GGAGGGAGAG CGGTCGCCCC GGGTGCCCTG 
    GAGAGCAGGG GCAGCTCTGT GCCGTGCCCG GGGGCACAGT GCCCGCTGGG CTCTGCTTGC 
    TGCCATGCAG AGGACACAGC TCAGGGCCAG CCAGGCCGTC ATGGGGCTGA GGAGGTTTGT 
    TCAGCCGGTG CACACAGTTC ACCGCTCCTC CACCCTGAGA ACAATGGCAT TACGCTGAGT 
    GGGCAGGGTG AAGCCTGGGA AAAGGCTCTT GCTGGAGAAG CTGTGTTAGG GACTGACTGC 
    CAGACGGGCG GTCAAGGAGA GCCTGAGAGC AGCAGCAAGC CTGGAGAAAG CATGGAAACA 
    TCCACATCAA AACCCGAACT TCAGGGCTTA ATTGATGTGG TGGAGACGGG GTGCTGCGCT 
    GCGGGACACA CCGAGGAACG AGCGGCTGCA GCTGGGCATG GCGAGGAGTG TGGGGAGAAG 
    CAGCACGGCT CTGCAGGGAG CATGGAGCTG GCACCGGGCA CCGAGTGCCA AGCTGCTGCA 
    CTGACACCAG CTCGGCAGGA GCAAGTGGCT GCAGAAAGTC ACCACGATGC ACAAACAGCC 
    TTTGCAGAAA CCTTGCGAGC TGGAGTTGGT ACAGCAGAGC CTGCTCCTCA TCTGGCTCAC 
    GTGGAAGGAG GGGGTGACAG CACCGAGGGG AGCAACCACC CCTCTGAGAG TGACAAGCAC 
    AGCTCTTTGG AGTGCTGTTT TGAAGACCTC TCTAAGCACG ATGAGCACGG CCCTTCAGAG 
    ACCCTGCAGT GCAGTCCTGG AGACCTGCGA GCAAATGCAG ATGTTCCGGC TGCTCTTCCC 
    CATGTGGAGC AGATAGAGAA GTTGGTGACT TCAGACACAG GACTCGAACA CCAGGCACAC 
    CAGTGTACAC TGATGGCTGC CACGAGAGCG GATGAGCAGG AACACAAAGA TGGGCCTCTA 
    AACCTTGAGC AGCTTTCGGA ACTAGCGGAT CCCAGCAATG CGCCAGAACT GCCTCCAAAC 
    ATGAATAAAG GAGCCCTGCT GGATCCTGCA GCATTCCAGT GCAGCTCCAG CACAGCAGAA 
    GGAGAGGAGG ATGAGAGCAG TGCCACAGTG TTGGAGGGTG CGTGCGGCAG CAAACACCTG 
    CAAAACATTT CTGGTGTGAC AGTGCTTAAT TTGCAAAATT GCACCGAGCA AAACAAAACT 
    GATCTCGGGG CAGAAGAAAG CTGCTGCAGT AAGCAGAACT CAAACAAGCC CAAGCAGGGC 
    AATAATTCTT TGATCTCAGC CAGTCAGCGT GAGGAAGCAT GTCGGAGTGA TACGATTCCT 
    AAAGAATCTG ACAAGAACGA AGGGGCAGTC AGCCTCTGCA GGATGAAAGG CAGCGCTGGG 
    GAGGGCCACG CTGCTGCTGT AGATGCTCGT CCAGGGATGC AGAATTCAGC AAGTGCCACT 
    AACATACAGC AGGCTTTGCC CAGCGATCCT GAAATAGCAT CTACTTCTGA TAGTGCTGGG 
    AGAAGTGATC CTCAAATGGC CAGCCCGGGA GCTCAAGGGG AAACGTTGTT GGCAAACAGC 
    TCTGAAGAGA TGGAGGGTGT GAGTGCTGCT GGGGGCCTCA CCCAGGGGGG TGGGATCATG 
    GAGATGAGTG CTGGGGACAA TGCTGCTGTC AAAGAAATGA GCAACATGGA AAGTGCCAAA 
    GGTCTGGGGG CAAAAAGGTG TTCTTCACCG CCCCACGAAC ACGGGGAAGA GATTCCTGCT 
    GATAAGCCCC ATAAATCCAG CTGCATGCAA CAGGCGCCAG AGGAGCCTGG TTTGTGTCAA 
    ACCAATTTTA CAGCCCCCTC TGCAGTGACC TCTGCATTCC ATCATCCCAG CCAGCAAGCT 
    GGAAGCAACG CCGACAGTGG TACCGAATCA CTAAATAACA AGCTGGAAGC TGCAGATTGC 
    CAGAACACCC AAAGTAATAC TCACATGCAG ATTGCTGCAG GTCCTCAGGT GTCCACGCAC 
    TCACCTGGAG CAGGCACATG GAAAGCAGAG AAGGCAGAAA ACAGCTCTGC GGGGGGCATG 
    CGTGGGGATG CAGGTGGTGT TCCAGGGCAG GGAGTTCGGT GTGACGGAGA CACACAGACT 
    TTAAATGTGG GGCAGAGCGC TGGAAACTTA TCACAGTTTA ATTCTGAGAA GCTGAAGAAA 
    GAGCTATCTG CAATTAAATC CAAAGAAACA AAAGGTGATG TCAACTTCAA AGAGCCGCAG 
    AGTGACAGCT CGGCAGAGCT TCTGCTCGCA GCCCCTGCTC TGGAAGGGAA GCTGCTGAGC 
    CTTTCATCTG CTGGTAAACA GGGAGGCTGT AATGAGGAAA TTGCAACCCG TATCTGTGCA 
    GATGACAAGT ACGGTGAGAT CTTAGAGAAA GCTGGGAATG CAGAGCTAGG GGAAGGGGTT 
    TTAAAGGGGA ATAAGAACAG AAGGAGGGCA GAGAGCGGTG CTTGCAGGCA GGCTGCGGAG 
    AGCCCTGTGA AGGAGCATGA GGCTGTGCCG TGCCTCTCGC TGGGCTCCAG CCTGCCGGCC 
    TTCAGGGAGC ACATCAGCCA GATATTCAGG CAGACAGTGC GCAGCACGCT GAGCACGGAG 
    TTAGCCCAGC TGCCAGCCGA AAGCCATGCG GGCTGCACGC AGAGCCCGGC GGTCGAGGGC 
    ACGGTGCAAC CGTGCACTGC TGGGAACTTC TTGGGGTCGG TCGAGGTGGT TGCTGTACCC 
    AAGAGCCCCT TGCAGGCAGA GGGACCAGAG CTGCCTTTAG CTCAGTGCAC GGCTCCTGGC 
    TCTCTGCAGC AGGAGGACGC AGTGGCAGGG CTGCAAGTGG AGGGAAGCGG GCAGCCTGGT 
    CTGGGCAGGG TTCCCTGCTC GGAGGGCTCT GCACATGCTG CGTGCGTGCT GGAGAACCCG 
    CAGAAGGCAA ACGCTGAGTA TCCAGAGAGC AGTGGGATGG AAGTAGAGGC AGGGCTGCGT 
    GCTGGCAGTG TAGAGCCTGC GTCGCTAATG AGCTTAGAGG GAAAGAAGCA CGGACCGGCT 
    GCATGTGATG GGGCAGCAGT TGAGAACTTC CCTTTGGAGG AGAAGCAACA GCCCAGCACA 
    GCCGGCATCC CGACAGCAGA GGACTCAGAG GATGCTTCTC CCGCAGAGAG CTCAATGACG 
    GAGCGCAGCG CAGAGCCACC TGAGGAGGAT GTGAGCTGTC ACAGGGAGCA GTGCCGAGAT 
    CCTGAGCCAA GTGAAGAGGG GAACAGGTGC AGTGGTCCGG ATGCCGTCAC GAGCGTTTCT 
    GATGTGGCAG CTTCAGGTCT CCTCCCAGGA GGATCTTCCA GCTGTGAAAG ATTGCCAGAC 
    AACGTTAGCA TGTCACCTGG GGAAATTCAG GAGCCGGGCG CCCACTGCAG TTTTATACAT 
    GACATCAAGG CACAGAGTGA CACACGGGTG ATGCTGGATG ATCCAGGAGA CAGGGAATGC 
    ATGGGGACGT TAGAAGGTCC ACAGCAAGAG GAGAGAGGAG CCATGCGTGA GTTAATGGAT 
    TACTTAAAAA ACGAAGCCAG CCAGGATGTC TGCATGCACA CTGATTCCCA GCTAGGATCC 
    AGCGATGCGA TGGAGGGAGA TGTGCGGGAG AACAGTGACA CAGTGCTGAG CTCGGCAGAG 
    ACAGGCGCCG GAAAACCTGG AGCTATTCCT GAGATGGACA CTGAAAAACC TGGGGACATC 
    CACGAAAGAG GCACCGAAAA ACCTGGGGAC AACTCCGAGA CAGGCACAGC GAGGGTGGTG 
    GTCACTGCTG AAGGTGGCTC GGTGTTCAGC AGCGATACTG GGGAGCAGGA GGCAGAGCTG 
    CATGGAGACT GCTCCCCAGC CACCGCCGGG ATGGAGCAGG GAGAGCAATC CCCATGTGCA 
    GGCTCTGCTG GCACTGATAT TCTTCTGAGT GGGACGGGCC CGGGGCACGA AGGCTCACTG 
    CAGGATACCC AAAGGATGCT GTCCCCTGTC ACATTCTTGG AGCCTGAAAC ATTTGACCTC 
    AGCGCGCTTC AAGACACAGC TGTGGCAGGA CTGCCCACTG ACAGCCCTCC TGGGCCAGGT 
    GATGATATAC AGTTGGCTTC TGCCCTTGGT CCTCCTGAGC AACCCCAAGC TGTTTCTACG 
    GCTTATGGAA ATGTTGAGCC CGTGGATGCT GCTGAGCTGA CTGCAGCAAG CGCTTCCAAG 
    CCTGATAGCT GTGAAGAAGC TGCTGGGCTT GTTTCTGGGG ATGTGCCTGT GGCTGCAGCC 
    CCTGGTGGTG AAGTAGAGCT GCCTCCTCAA GAAGCTGAAA GTGTCACAAA GGAAATAAAG 
    AGGAGCTCTG ACTCAGAAGA AGCATTTGAG ACCCCAGAGT CCACTACACC GGTCAAGGCT 
    CCCCCATCAC CTCCACAGCC ACCCCCCGAC GCAGCAGCAG CAGTCGTAGC GGACATAGCA 
    GAGCAAGAAA TCAAACCTCA GCTGCTCCTG GAAGACACAG GAATACCTCC TGAATCTGTC 
    CCTGTAACTG ATGTGTCACA CAGTGAGTCA GTTGAAGAGA GCCCTTTCCG TCCTCCTTGC 
    CATTCTTTTT CCACCGTCTT CGATGAGGAC AAGCCAATAG CCAGCAGTGG AACTTACAAC 
    TTGGACTTCG ATAACATTGA GTTGGTCGAT TCTCTCCATG CCTTAGGACC GAGCTCTCCA 
    GAATTGAAGA ATCGTGACCC CAAAGCGAAT GTTCGAAGAA AATCCACCGA TTCAGTGCCA 
    GTTTCCAAAT CTACATTATC TCGATCTCTT AGCTTGCAAG CGAGTGATTT TGATGGAGCA 
    TGCTATCTTG GCAACAGCGA GACACTAGCG CCGGCAGCAG ATGCTTATGG TACTGGTTCA 
    AGCAGTGCTT CCAGTACCCT TAAGCGAACA AAGAAATCCA GGCCCGCTTC CTTAAAAAAG 
    AAGCAGTCAG CAAAAAAATC TCTGGACGCT CCGCCAGTGA AGGAAACGCC ACAAGAGCCT 
    CCTGACCTTG GCGAAGCAGC TTCTGCAGGT GAGGAGAAAC CAGCGCCTGA AGCAAAGGCT 
    GACTCAGTAA AACCTGAATA TACTGACCCT TCTAAAACCT CTGCTGAGAA ACAGGAGGCC 
    CCGGCTGTGC CTGAGGGATC CTCCCCTTTG GATCCAGACG GTTTGGAAGG GATTAGTGCT 
    TTTAGTGCTG GAGGCAGCAA AGTGCAAAAC TCGCCCCCTG CCAACAAGAA AACGCTACCT 
    CTTACACCTG CACCTGAGGC TGGGGAGGTG ACTCCGTCGG ACACTGGGGG ACAAGAGGAC 
    CCTCCGGCCA AAGGTGTTGC GGTGAGGCTG GAATTTGATT ATTCTGAAGA AAAAGGGATT 
    GGTGAAGACC AGCAGGAGAG CACTCCTCCT CCTAAAAAAG CAGGTAAAAA GCCTGGTGCT 
    AAAATGCCAC TACGGAGGCC AAAGACTAAA AAGTCGGTGG AGAAGCTTGA CAATGCTCCG 
    ACCACGCCGA CAAAGACACC CACTGATCCA AACGAAATCC CTATCACGAA AGGATCGTAC 
    ACTTTTGATA TCGACAAGTG GGATGATCCC AATTTTAACC CGTTCTCCTC CAGTACAAAA 
    ATGCAAGAAT CTCCCAAGCT GCCTCAACAA ACGTACAGTT TTGAGCCAGA CATGTGCGAG 
    GACTCTATTG ACCCTTTCAA GTCTTCTTCT AAGATTGCCA ACTCACCCAC TAAATCTCCA 
    GCCTCCTTTG AGATACCAGC CAGTGCCAAT GAAACAAACG GAACTGATGG AGACAACTTG 
    AATAAACCTG CAAAAAAGAA GAAGACGCCA CTAAAGACGA TGGTAGAAGA TGTGATGTCT 
    GTATGTTCTC TGTTTGATAC ATTTAGGGTG AAAAAATCAC CAAAAAGATC GCCACTATCT 
    GATCCTCCTT CTCAGGATCC CACCCCGCTG CCTACCCCAG AAACGCCTCC CGTCATATCC 
    GCGGTGGTCC ATGCGACGGA TGAGGAGAAA CTGGCAGTGA CCAGTCAGAA ATGGACCTGC 
    ATGACTGTGG ACCTGAGCAC AGACAAGCAG GATTACCCAC AGCCCTCTGA TCTGTCCACA 
    TTTGTCAATG AGACCAAGTT CAACTCTCCT ACAGAGGAAT TGGAATATGG CAACTCATAT 
    GAAATAGAAT ATATGGAGAA AATAGGCTCC TCTGTGCCTC AGGATGATAG CACCCCGAAG 
    AAACAATCTT TATACCTAAT GTTCGATGCA CAGCAAGAGA GCCCAGTCAA ATCGCCTCCC 
    GTCAGGCTGT CTGATTCCAC CACGCCGTGC TCAGGGTCAA GTTTTGAAGA CCCCGAAGCC 
    CAGCAGTCCT CTGGAATGAA AATACAACAT CCAGCTTCCC GAGTCCTCGC TGCCAGCCAA 
    GAGGCACACT TACAGTCACC AGACAAGTCA AAACAGAAGG ACTTAGAGCC CATGACGCTA 
    GGAACAACCC CAGAGGCTAT TGAAATAACA TCTCCCGAAG ACTCCTTTGT CTCTGCTGAT 
    GCTCTTCTCA ACAGGATATC TAAGAAAACA ATATGTGATC AACCTGAATA TCTAGATCCT 
    GACTTAGCAG AAAAGAACCC TCCAGTATTT GCTCAGAAAC TTCAGAGAGA ACCTGCTATC 
    CCAGCAGATG TTTCCATCTC TAAAAGTGTG CTGTACTCGC GGATCGGCGC TTCGGATGCA 
    GAAAGCACCA CGAGTCTTCT CTACCCCCAG CAAGACTTAG ACGCTGCGCT ACGACTTGCC 
    AGAGCAGAGA TTGTGGCCAA GGAAAGAGAA GTATCTGAGT GGAAAGAGAA ATATGAAGAA 
    AGCAGAAGGG AAGTGATGGA AATGAGGAAA ATAGTTTCGG AATATGAGAA GACGATTGCT 
    CAGATGATAG AGGACGAGCA GAGAGAGAAG TCTGTCTCCC ATCACACTGT TCAGCAGCTG 
    ATCGTGGAGA AGGAGCAAGC GCTGGCGGAT CTGAACTCGG TGGAGAAATC CCTGGCAGAT 
    CTTTTCAGGA GATACGAGAA AATGAAAGAA GTGTTGGAGG GGTTTCGAAA GAATGAAGAA 
    GTACTAAAGA AATGTGCGCA AGAGTATTTA TCACGAGTCA AGAAAGAAGA ACAGAGGTAT 
    CAAGCACTCA AAATCCACGC TGAGGAAAAA CTGGACAGAG CCAATGCTGA AATTGCGCAA 
    GTGAGAGGCA AGGCTCAGCA AGAGCAAGCG GCGTATCAGG CCAGCCTTCG TAAAGAGCAG 
    CTGAAGGTGG ACGCGTTGGA AAGGACACTG GAACAGAAGA ATAAAGAGAT AGAAGAGTTA 
    ACAAAGATTT GTGACGAACT GATTGCCAAA ATGGGGAAAA GCTAA

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

    RefSeq XP_021255929.1
    CDS16..9120
    Translation

    Target ORF information:

    RefSeq Version XM_021400254.1
    Organism Numida meleagris(helmeted guineafowl)
    Definition Numida meleagris transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021400254.1

    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
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    7081
    7141
    7201
    7261
    7321
    7381
    7441
    7501
    7561
    7621
    7681
    7741
    7801
    7861
    7921
    7981
    8041
    8101
    8161
    8221
    8281
    8341
    8401
    8461
    8521
    8581
    8641
    8701
    8761
    8821
    8881
    8941
    9001
    9061
    ATGGATCAGG CTATGTTTGT GTGCTTCATA TCCAGAGCTG TGTGTGCTGT GGGGAGTTGT 
    ACAGGACTCC TGGCAATAAA GTCTGTCTGC ATAAGTGAAA GTGATCTGTT TAATTGCTCT 
    GTGATACTGG ACGTCAGCAT CAGAATGGGC AATGAGAACA GTAGTGCAGA AAATCAGAGC 
    GCTCTACAGG ACTCAGAATT AGGCAAGCCA CCGGGTGACG GGCACGACAC AAAGAGGAGC 
    CCCCAGGAAA GCAGGGTGGG GAGAGCTGGA GGTCAGCACG TCTCAGATCA TCCTCCTGCT 
    GCTGTGCAAC CGGATAGGAG CGAGGCTCCT CTAACTCCAG GGACTGCGAG CATCAGTGAT 
    GAAGGCTTCA GTAGCTCCAG TGCTGAAGAT GAACCTGACC CAAATGCAAG CCTGTTGCCT 
    TCCAAGGGGA CAGGACAGCG TGGTATCATG CAAGAAGATG GAGGAGACAC GGGCTCTGAT 
    GCCTTACAGC AAGCTGCAGA AGCAAGGGAG AGACATCTGC CTATCTCAGT GCCTGCAGAG 
    GGCTGTTTGG AGGATGTCAC AGCAGATCCT GCGAGCAGCA GTGACGTGTC ACCAACCGCA 
    AACTGCAACG AGTCAGTGAA TGGCAAAGAA GAGGGAACAG CACGTGGTGT TTCAGAGGAC 
    AGAGGCCCCA GATGTGACCC CGCTGCACCT GCTGCTCTGA GAACTGATGG GAATGATCCT 
    GGGAAGCCCA GCCCTCCTGC AATGCCTACG GAGACGCATT TGAGGGAGTT GGGGTGCCTG 
    TGGCAGAGCG AGCAGCTGGG AGACACGGGG GAGCTGCAGG TCAGCACGTC CCCCCAGGGT 
    GCAGGAGCAG GGGATTATTT TCCTGCTCAG AAGGCTGAGC AGGAGCCGGG ATTTTGGGAA 
    GTAGGTCAGC CACAGGCTGT AGTGCAGCAA GGTAGACAGA ACACAGATGG TGGAGAGGGT 
    CTGCTAATGA GAAAGGAAGC CTTAATCCCA AATTACCCAG TGACAGGAGC AGCTGTAAGT 
    GCTGAGAGTT CCATAGCGAG GCCTGAGACC AGAGATGCCC ACAGCCCGCA GATAGGGGCT 
    GTAATGACAG GGAACGAGAT AACCCCAGCT CCAAGGCAAG GAGAGCCATC AGAAGCCTGC 
    CCTGTAGTGT CAGAGCTGCC TTCTGACCCC CCAAATCTCC TCCCGGTACC AAAGCTGGAA 
    GAACCTTTGA GGGAATGTGT GCCTGGAAAC GACTGTCAAG ATCCAATGAG AAGCAAAGCG 
    GTGGGAACAG CCTCCGAGAA AGATGAACCC AGTCCTCAAA GAGGGCTTCA AAAGGAGGAT 
    GAGCTCGTTA GTGCTGAGCC TTTATCGTTT AAGCAAGGGG AAGAACAAAA ACCAGCTGTC 
    ACAACTGAAA GCCAAAAAGA TGAAGCCAGT AGCAATGAAA TCATAAAAGC TGACGTGTCT 
    GAAGAGAGCT CTGTGCTTTC TGAAACGGAG AGCGTTACCA GTCCCACTGA GGACAGTTCC 
    CTAGAAGGTA ACAGGTTACT GCTGGAGGGA TGTGCATTAA GTGGTTCTCT GAGCAGATCC 
    ACGGAGCTGA ATCAAAAGGG AGCTGAATCT GTGAGCATAA CAGGAGAGCA AGACAAAACA 
    CGAGCAGAAG AGGCACGAGC AGCCAGTGGG TTACCTGCGG GGTCAGGTGC GGCAGGAAGA 
    CAAGTGCCGA GCTCCCCTGG CATCCACAAT GAGGATGCAA AAGAAACCCA CCTGGGACAC 
    GGCCCCGAAG CACTCAGTCC TCGTGCCAAG GCTCCAGCAG ATGACCTGAA GGAAGGAGCT 
    GCAGGAAAGT CCCTGAGTGC AGAGGGTGAC TTGGAATCCC CTGAAAACCA CTCACAGTCT 
    CTTGGCTGTA GAGCTGAACA GCAGCCGGGC GGAGGGAGAG CGGTCGCCCC GGGTGCCCTG 
    GAGAGCAGGG GCAGCTCTGT GCCGTGCCCG GGGGCACAGT GCCCGCTGGG CTCTGCTTGC 
    TGCCATGCAG AGGACACAGC TCAGGGCCAG CCAGGCCGTC ATGGGGCTGA GGAGGTTTGT 
    TCAGCCGGTG CACACAGTTC ACCGCTCCTC CACCCTGAGA ACAATGGCAT TACGCTGAGT 
    GGGCAGGGTG AAGCCTGGGA AAAGGCTCTT GCTGGAGAAG CTGTGTTAGG GACTGACTGC 
    CAGACGGGCG GTCAAGGAGA GCCTGAGAGC AGCAGCAAGC CTGGAGAAAG CATGGAAACA 
    TCCACATCAA AACCCGAACT TCAGGGCTTA ATTGATGTGG TGGAGACGGG GTGCTGCGCT 
    GCGGGACACA CCGAGGAACG AGCGGCTGCA GCTGGGCATG GCGAGGAGTG TGGGGAGAAG 
    CAGCACGGCT CTGCAGGGAG CATGGAGCTG GCACCGGGCA CCGAGTGCCA AGCTGCTGCA 
    CTGACACCAG CTCGGCAGGA GCAAGTGGCT GCAGAAAGTC ACCACGATGC ACAAACAGCC 
    TTTGCAGAAA CCTTGCGAGC TGGAGTTGGT ACAGCAGAGC CTGCTCCTCA TCTGGCTCAC 
    GTGGAAGGAG GGGGTGACAG CACCGAGGGG AGCAACCACC CCTCTGAGAG TGACAAGCAC 
    AGCTCTTTGG AGTGCTGTTT TGAAGACCTC TCTAAGCACG ATGAGCACGG CCCTTCAGAG 
    ACCCTGCAGT GCAGTCCTGG AGACCTGCGA GCAAATGCAG ATGTTCCGGC TGCTCTTCCC 
    CATGTGGAGC AGATAGAGAA GTTGGTGACT TCAGACACAG GACTCGAACA CCAGGCACAC 
    CAGTGTACAC TGATGGCTGC CACGAGAGCG GATGAGCAGG AACACAAAGA TGGGCCTCTA 
    AACCTTGAGC AGCTTTCGGA ACTAGCGGAT CCCAGCAATG CGCCAGAACT GCCTCCAAAC 
    ATGAATAAAG GAGCCCTGCT GGATCCTGCA GCATTCCAGT GCAGCTCCAG CACAGCAGAA 
    GGAGAGGAGG ATGAGAGCAG TGCCACAGTG TTGGAGGGTG CGTGCGGCAG CAAACACCTG 
    CAAAACATTT CTGGTGTGAC AGTGCTTAAT TTGCAAAATT GCACCGAGCA AAACAAAACT 
    GATCTCGGGG CAGAAGAAAG CTGCTGCAGT AAGCAGAACT CAAACAAGCC CAAGCAGGGC 
    AATAATTCTT TGATCTCAGC CAGTCAGCGT GAGGAAGCAT GTCGGAGTGA TACGATTCCT 
    AAAGAATCTG ACAAGAACGA AGGGGCAGTC AGCCTCTGCA GGATGAAAGG CAGCGCTGGG 
    GAGGGCCACG CTGCTGCTGT AGATGCTCGT CCAGGGATGC AGAATTCAGC AAGTGCCACT 
    AACATACAGC AGGCTTTGCC CAGCGATCCT GAAATAGCAT CTACTTCTGA TAGTGCTGGG 
    AGAAGTGATC CTCAAATGGC CAGCCCGGGA GCTCAAGGGG AAACGTTGTT GGCAAACAGC 
    TCTGAAGAGA TGGAGGGTGT GAGTGCTGCT GGGGGCCTCA CCCAGGGGGG TGGGATCATG 
    GAGATGAGTG CTGGGGACAA TGCTGCTGTC AAAGAAATGA GCAACATGGA AAGTGCCAAA 
    GGTCTGGGGG CAAAAAGGTG TTCTTCACCG CCCCACGAAC ACGGGGAAGA GATTCCTGCT 
    GATAAGCCCC ATAAATCCAG CTGCATGCAA CAGGCGCCAG AGGAGCCTGG TTTGTGTCAA 
    ACCAATTTTA CAGCCCCCTC TGCAGTGACC TCTGCATTCC ATCATCCCAG CCAGCAAGCT 
    GGAAGCAACG CCGACAGTGG TACCGAATCA CTAAATAACA AGCTGGAAGC TGCAGATTGC 
    CAGAACACCC AAAGTAATAC TCACATGCAG ATTGCTGCAG GTCCTCAGGT GTCCACGCAC 
    TCACCTGGAG CAGGCACATG GAAAGCAGAG AAGGCAGAAA ACAGCTCTGC GGGGGGCATG 
    CGTGGGGATG CAGGTGGTGT TCCAGGGCAG GGAGTTCGGT GTGACGGAGA CACACAGACT 
    TTAAATGTGG GGCAGAGCGC TGGAAACTTA TCACAGTTTA ATTCTGAGAA GCTGAAGAAA 
    GAGCTATCTG CAATTAAATC CAAAGAAACA AAAGGTGATG TCAACTTCAA AGAGCCGCAG 
    AGTGACAGCT CGGCAGAGCT TCTGCTCGCA GCCCCTGCTC TGGAAGGGAA GCTGCTGAGC 
    CTTTCATCTG CTGGTAAACA GGGAGGCTGT AATGAGGAAA TTGCAACCCG TATCTGTGCA 
    GATGACAAGT ACGGTGAGAT CTTAGAGAAA GCTGGGAATG CAGAGCTAGG GGAAGGGGTT 
    TTAAAGGGGA ATAAGAACAG AAGGAGGGCA GAGAGCGGTG CTTGCAGGCA GGCTGCGGAG 
    AGCCCTGTGA AGGAGCATGA GGCTGTGCCG TGCCTCTCGC TGGGCTCCAG CCTGCCGGCC 
    TTCAGGGAGC ACATCAGCCA GATATTCAGG CAGACAGTGC GCAGCACGCT GAGCACGGAG 
    TTAGCCCAGC TGCCAGCCGA AAGCCATGCG GGCTGCACGC AGAGCCCGGC GGTCGAGGGC 
    ACGGTGCAAC CGTGCACTGC TGGGAACTTC TTGGGGTCGG TCGAGGTGGT TGCTGTACCC 
    AAGAGCCCCT TGCAGGCAGA GGGACCAGAG CTGCCTTTAG CTCAGTGCAC GGCTCCTGGC 
    TCTCTGCAGC AGGAGGACGC AGTGGCAGGG CTGCAAGTGG AGGGAAGCGG GCAGCCTGGT 
    CTGGGCAGGG TTCCCTGCTC GGAGGGCTCT GCACATGCTG CGTGCGTGCT GGAGAACCCG 
    CAGAAGGCAA ACGCTGAGTA TCCAGAGAGC AGTGGGATGG AAGTAGAGGC AGGGCTGCGT 
    GCTGGCAGTG TAGAGCCTGC GTCGCTAATG AGCTTAGAGG GAAAGAAGCA CGGACCGGCT 
    GCATGTGATG GGGCAGCAGT TGAGAACTTC CCTTTGGAGG AGAAGCAACA GCCCAGCACA 
    GCCGGCATCC CGACAGCAGA GGACTCAGAG GATGCTTCTC CCGCAGAGAG CTCAATGACG 
    GAGCGCAGCG CAGAGCCACC TGAGGAGGAT GTGAGCTGTC ACAGGGAGCA GTGCCGAGAT 
    CCTGAGCCAA GTGAAGAGGG GAACAGGTGC AGTGGTCCGG ATGCCGTCAC GAGCGTTTCT 
    GATGTGGCAG CTTCAGGTCT CCTCCCAGGA GGATCTTCCA GCTGTGAAAG ATTGCCAGAC 
    AACGTTAGCA TGTCACCTGG GGAAATTCAG GAGCCGGGCG CCCACTGCAG TTTTATACAT 
    GACATCAAGG CACAGAGTGA CACACGGGTG ATGCTGGATG ATCCAGGAGA CAGGGAATGC 
    ATGGGGACGT TAGAAGGTCC ACAGCAAGAG GAGAGAGGAG CCATGCGTGA GTTAATGGAT 
    TACTTAAAAA ACGAAGCCAG CCAGGATGTC TGCATGCACA CTGATTCCCA GCTAGGATCC 
    AGCGATGCGA TGGAGGGAGA TGTGCGGGAG AACAGTGACA CAGTGCTGAG CTCGGCAGAG 
    ACAGGCGCCG GAAAACCTGG AGCTATTCCT GAGATGGACA CTGAAAAACC TGGGGACATC 
    CACGAAAGAG GCACCGAAAA ACCTGGGGAC AACTCCGAGA CAGGCACAGC GAGGGTGGTG 
    GTCACTGCTG AAGGTGGCTC GGTGTTCAGC AGCGATACTG GGGAGCAGGA GGCAGAGCTG 
    CATGGAGACT GCTCCCCAGC CACCGCCGGG ATGGAGCAGG GAGAGCAATC CCCATGTGCA 
    GGCTCTGCTG GCACTGATAT TCTTCTGAGT GGGACGGGCC CGGGGCACGA AGGCTCACTG 
    CAGGATACCC AAAGGATGCT GTCCCCTGTC ACATTCTTGG AGCCTGAAAC ATTTGACCTC 
    AGCGCGCTTC AAGACACAGC TGTGGCAGGA CTGCCCACTG ACAGCCCTCC TGGGCCAGGT 
    GATGATATAC AGTTGGCTTC TGCCCTTGGT CCTCCTGAGC AACCCCAAGC TGTTTCTACG 
    GCTTATGGAA ATGTTGAGCC CGTGGATGCT GCTGAGCTGA CTGCAGCAAG CGCTTCCAAG 
    CCTGATAGCT GTGAAGAAGC TGCTGGGCTT GTTTCTGGGG ATGTGCCTGT GGCTGCAGCC 
    CCTGGTGGTG AAGTAGAGCT GCCTCCTCAA GAAGCTGAAA GTGTCACAAA GGAAATAAAG 
    AGGAGCTCTG ACTCAGAAGA AGCATTTGAG ACCCCAGAGT CCACTACACC GGTCAAGGCT 
    CCCCCATCAC CTCCACAGCC ACCCCCCGAC GCAGCAGCAG CAGTCGTAGC GGACATAGCA 
    GAGCAAGAAA TCAAACCTCA GCTGCTCCTG GAAGACACAG GAATACCTCC TGAATCTGTC 
    CCTGTAACTG ATGTGTCACA CAGTGAGTCA GTTGAAGAGA GCCCTTTCCG TCCTCCTTGC 
    CATTCTTTTT CCACCGTCTT CGATGAGGAC AAGCCAATAG CCAGCAGTGG AACTTACAAC 
    TTGGACTTCG ATAACATTGA GTTGGTCGAT TCTCTCCATG CCTTAGGACC GAGCTCTCCA 
    GAATTGAAGA ATCGTGACCC CAAAGCGAAT GTTCGAAGAA AATCCACCGA TTCAGTGCCA 
    GTTTCCAAAT CTACATTATC TCGATCTCTT AGCTTGCAAG CGAGTGATTT TGATGGAGCA 
    TGCTATCTTG GCAACAGCGA GACACTAGCG CCGGCAGCAG ATGCTTATGG TACTGGTTCA 
    AGCAGTGCTT CCAGTACCCT TAAGCGAACA AAGAAATCCA GGCCCGCTTC CTTAAAAAAG 
    AAGCAGTCAG CAAAAAAATC TCTGGACGCT CCGCCAGTGA AGGAAACGCC ACAAGAGCCT 
    CCTGACCTTG GCGAAGCAGC TTCTGCAGGT GAGGAGAAAC CAGCGCCTGA AGCAAAGGCT 
    GACTCAGTAA AACCTGAATA TACTGACCCT TCTAAAACCT CTGCTGAGAA ACAGGAGGCC 
    CCGGCTGTGC CTGAGGGATC CTCCCCTTTG GATCCAGACG GTTTGGAAGG GATTAGTGCT 
    TTTAGTGCTG GAGGCAGCAA AGTGCAAAAC TCGCCCCCTG CCAACAAGAA AACGCTACCT 
    CTTACACCTG CACCTGAGGC TGGGGAGGTG ACTCCGTCGG ACACTGGGGG ACAAGAGGAC 
    CCTCCGGCCA AAGGTGTTGC GGTGAGGCTG GAATTTGATT ATTCTGAAGA AAAAGGGATT 
    GGTGAAGACC AGCAGGAGAG CACTCCTCCT CCTAAAAAAG CAGGTAAAAA GCCTGGTGCT 
    AAAATGCCAC TACGGAGGCC AAAGACTAAA AAGTCGGTGG AGAAGCTTGA CAATGCTCCG 
    ACCACGCCGA CAAAGACACC CACTGATCCA AACGAAATCC CTATCACGAA AGGATCGTAC 
    ACTTTTGATA TCGACAAGTG GGATGATCCC AATTTTAACC CGTTCTCCTC CAGTACAAAA 
    ATGCAAGAAT CTCCCAAGCT GCCTCAACAA ACGTACAGTT TTGAGCCAGA CATGTGCGAG 
    GACTCTATTG ACCCTTTCAA GTCTTCTTCT AAGATTGCCA ACTCACCCAC TAAATCTCCA 
    GCCTCCTTTG AGATACCAGC CAGTGCCAAT GAAACAAACG GAACTGATGG AGACAACTTG 
    AATAAACCTG CAAAAAAGAA GAAGACGCCA CTAAAGACGA TGGTAGAAGA TGTGATGTCT 
    GTATGTTCTC TGTTTGATAC ATTTAGGGTG AAAAAATCAC CAAAAAGATC GCCACTATCT 
    GATCCTCCTT CTCAGGATCC CACCCCGCTG CCTACCCCAG AAACGCCTCC CGTCATATCC 
    GCGGTGGTCC ATGCGACGGA TGAGGAGAAA CTGGCAGTGA CCAGTCAGAA ATGGACCTGC 
    ATGACTGTGG ACCTGAGCAC AGACAAGCAG GATTACCCAC AGCCCTCTGA TCTGTCCACA 
    TTTGTCAATG AGACCAAGTT CAACTCTCCT ACAGAGGAAT TGGAATATGG CAACTCATAT 
    GAAATAGAAT ATATGGAGAA AATAGGCTCC TCTGTGCCTC AGGATGATAG CACCCCGAAG 
    AAACAATCTT TATACCTAAT GTTCGATGCA CAGCAAGAGA GCCCAGTCAA ATCGCCTCCC 
    GTCAGGCTGT CTGATTCCAC CACGCCGTGC TCAGGGTCAA GTTTTGAAGA CCCCGAAGCC 
    CAGCAGTCCT CTGGAATGAA AATACAACAT CCAGCTTCCC GAGTCCTCGC TGCCAGCCAA 
    GAGGCACACT TACAGTCACC AGACAAGTCA AAACAGAAGG ACTTAGAGCC CATGACGCTA 
    GGAACAACCC CAGAGGCTAT TGAAATAACA TCTCCCGAAG ACTCCTTTGT CTCTGCTGAT 
    GCTCTTCTCA ACAGGATATC TAAGAAAACA ATATGTGATC AACCTGAATA TCTAGATCCT 
    GACTTAGCAG AAAAGAACCC TCCAGTATTT GCTCAGAAAC TTCAGAGAGA ACCTGCTATC 
    CCAGCAGATG TTTCCATCTC TAAAAGTGTG CTGTACTCGC GGATCGGCGC TTCGGATGCA 
    GAAAGCACCA CGAGTCTTCT CTACCCCCAG CAAGACTTAG ACGCTGCGCT ACGACTTGCC 
    AGAGCAGAGA TTGTGGCCAA GGAAAGAGAA GTATCTGAGT GGAAAGAGAA ATATGAAGAA 
    AGCAGAAGGG AAGTGATGGA AATGAGGAAA ATAGTTTCGG AATATGAGAA GACGATTGCT 
    CAGATGATAG AGGACGAGCA GAGAGAGAAG TCTGTCTCCC ATCACACTGT TCAGCAGCTG 
    ATCGTGGAGA AGGAGCAAGC GCTGGCGGAT CTGAACTCGG TGGAGAAATC CCTGGCAGAT 
    CTTTTCAGGA GATACGAGAA AATGAAAGAA GTGTTGGAGG GGTTTCGAAA GAATGAAGAA 
    GTACTAAAGA AATGTGCGCA AGAGTATTTA TCACGAGTCA AGAAAGAAGA ACAGAGGTAT 
    CAAGCACTCA AAATCCACGC TGAGGAAAAA CTGGACAGAG CCAATGCTGA AATTGCGCAA 
    GTGAGAGGCA AGGCTCAGCA AGAGCAAGCG GCGTATCAGG CCAGCCTTCG TAAAGAGCAG 
    CTGAAGGTGG ACGCGTTGGA AAGGACACTG GAACAGAAGA ATAAAGAGAT AGAAGAGTTA 
    ACAAAGATTT GTGACGAACT GATTGCCAAA ATGGGGAAAA GCTAA

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

見積依頼

Eメール

[email protected]

電話

03-6811-6572

FAX

03-6811-6573
050-3174-7589(受注専用)

オンラインフォーム

オンライン注文