KIF24 cDNA ORF clone, Taeniopygia guttata(zebra finch)

  • Gene

  • Clones

  • gRNAs

The following KIF24 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the KIF24 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
OTd19866 XM_030257827.1
Latest version!
Taeniopygia guttata kinesin family member 24 (KIF24), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OTd19866 XM_030257826.1
Latest version!
Taeniopygia guttata kinesin family member 24 (KIF24), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OTd52912 XM_012577545.2
Latest version!
Taeniopygia guttata kinesin family member 24 (KIF24), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OTd52913 XM_030257828.1
Latest version!
Taeniopygia guttata kinesin family member 24 (KIF24), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OTd19866 XM_012577545.1
Latest version!
Taeniopygia guttata kinesin family member 24 (KIF24), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00

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

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

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

  • Reference Sequences (Refseq)
    CloneID OTd19866
    Clone ID Related Accession (Same CDS sequence) XM_030257827.1 , XM_012577545.1 , XM_030257826.1
    Accession Version XM_030257827.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3930bp)
    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 kinesin-like protein KIF24 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044241.1) 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 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
    ATGGCATCAT GCCTTTATGA ATGCCTTTGT GAAGCAGAAC TTGAAAAATA CTTCCCCCAC 
    TTTGCTGCCT TTGGTCTTCA GAAAATTGAT GAGCTTGCCA AAGTTTCCAT GGAAGATTAC
    ACCAAACTGG GGGTCCATGA TGTAAATGAC CTCAAACGTC TTTTCCAGCT CATTAGAATA
    ATCAAAATTA GGCAACGAGA AGACGCTGCA GACTTAAGCA AGCAAGATTT TCAACCACAT
    GGCCTTTTCA TTCAGCCTCA GGTGACCAAG TCAGGACCCT ATAGACAGCT GCGTTTTGAG
    TCCTTCTGTG AAGAAAATGA TGGAACAGTT AAAGAGTCTG AATCTGAATT GTATCATTCA
    CCTGATTTCA GTGCCAATGA AAAGAAGGAC AGTGTAGGGG AAATGCTGGG ACACATTCCA
    CCACACAATT CAGTAGGGGA AATGCTGGGA CACATTCCAC CACATGATTC AGAGCCAATC
    AGATTAACTA GAAGAGACCT AAATATTCCT GGAATAGGTA CAAAAGATGA CCTGAGCTGT
    CCAACAGTTT CTGATGATAT TGCTCATCTC TGTATCAGCT CCAATACTTT CGACAAAGAG
    ACTCCATGGA CAGAGAGTGA AAAAATCAGA GTGTGTGTCC GAAAACGTCC TCTCTGCCAG
    AGGGAGGAGA GACTTGGGGA GTCTAATATA ATCACAGTGG AAGATAAGGA AACCCTAATT
    CTCCACCAGA AGAAGGAGGC AGTTGATCTT ACACAATACA TTTTACAGCA TGTTTTTTAT
    TTTGATGAAG TCTTTGAGGA GACATGTACC AATGAGGATG TGTATATGAA GACAGCTTAT
    CCTCTCATTC AGCATATTTT TAATGGAGGC AATGCAACTT GCTTTGCATA CGGGCAGACT
    GGTGCTGGCA AGACTTACAC CATGATAGGG ACTCATCAGA ACCCAGGACT CTATGCCCTG
    GCTGCCCAGG ACATCTTCAG GCACCTGGAA GCATCACCAT CCAGGAAAGA TCTTATTGTT
    CTGATCAGTT TTTATGAGAT CTACTGCAGA CAGCTTTATG ACCTGCTAAA TGGAAGGAAA
    AGGCTTTTTG CAAGAGAAGA TGGCAAGCGC ATTGTTCAGA TAGCTGGACT CCAGGAGGTT
    CGGGTGGATT CTGTAGATCA GCTGTTGGAG GTGATTTTGA AGGGGGGAAA AGAACGTAGC
    ACAGGAACTA CTGCAGTCAA CTCAGATTCC TCTCGGTCTC ATGCTATCAT CCAAATTCAA
    ATTAAAGACA TGGCCAACAG GGCATTTGGA AGGATATCAT TCATTGACTT GGCTGGCAGT
    GAAAGGGCAG CTGATGCCAA AGACACGGAT CGACAAACAA AAATGGAAGG AGTAGAAATA
    AACCAAAGTC TTTTGGCACT AAAGGAATGC ATTCGGGCGT TGGATCAGGA ACACACACAT
    ACTCCTTTCC GGCAAAGCAC GTTAACTCAG GTGCTAAAAG ACTCTTTCAT TGGCAATTCC
    AAGACATGTA TGATAGCCAA TGTTTCACCA AGCCACGTAG CTACAGAGCA CACCTTGAAC
    ACTCTGCGAT ATGCTGACAG GGTCAAAGAG CTGAAGAAAG GGATTAAATA TCCTACCCCT
    GTCACAAAAA GGCATCGCAG AGCTGGAAAT GTGTTTCCAA AACGTGTCCA AACCACTCCC
    TCTTTGCCAT CTGGGGAAAA GAGCTCTCCA AAGAAAGTGA AGCTAGGCCT GCAGCATCCC
    TCAAGTGCTA CAAAAGGAAG GGCGTATCCT GCACTACTTC AACCACCTGG TGTCCCTCTT
    ACCTCTACCC CCAAGGGAAC TGACAAAGGA CATGCCTACA AAGGAACCAG AACTCCCTGC
    TTCCACCACA CCACCCCAGT TAAGGGAGTC CTACGTATAA CACATCCCCT GAAGAAAAAT
    GATCTATCCC CCCACTCTGA AAAGAGCCCC ACAGTGAAGG ATTTCATTGC CACAGCAGAA
    ACAGAAGAAA GTGGCCAACA AGACAAGTAT ATGCAAAACA GAACACCTGT CCAGTACCTG
    AAAGTCCAGA CAGTGCAACC TCTTCAGAAA CAACTTGTTC CTAGGGAAGA TAATTCCTTT
    GGAGTTGGCA ACCTGCCCTC TGACAGCGAA CAGGAATGGG GAAATACTTT TACTAAACAG
    TCCGTTGGAC CCTGGGCATA TCTGCCTCCA TATCAGAAGG AAAGGGAAAA GCATTTACGT
    CTTTATCACC AGCAGCTTCA GCAGCCCCCT ATTCTAAAGC AAAAATTAAA CTATCAACCC
    CTTGAGAGGT TTTTAATGCA GTACAAGCCC GAGGAGATTC AAGTGAAGCC AGAGCCGAGC
    CTTACTCTAA CTGAAGTCCA GAGCAAAGAG TGGGTACAGC TGGAAGATGT GGATGACAGT
    GATTTCAGTG AAGATTCTTT CTCACCTGTC TGTAGTCAAA AGAGTGTGAA AAGAGGAAAT
    AGCAACAAAT CCAGTCCACA TTCATTTTTC CTTCATGAAA GAGAGCGAGG ATCCGAAGAA
    GAGCAAAAGT ACAAGTCCAA ACACAGACGT CTTGTTTACT CCAGTGAAGC TACCTTAACT
    CCAGAAAAGA ATGCTTCAAC CCCATGTGTA TCTCCTGTAT TGAAATCAGG AACTCCAGAG
    TGTAAAGAGT TTGATCTCCA GCATGAGGAG AAGGAAGAAT CCACTTTGGA TAAAGAGGCT
    GCCCTTGCAG AAGGAGGTGT AAAATGGAAA GCTCGAAAAA GTGGAGTTAG CCACTCTGTT
    TCTTCCATTG ATTCCTCAGA ATTCACCTCC GAGCTCATGG CCCCGCTCCT CGTGTTGCCT
    CTTGATGGTG AGGACACAAC TGAAACAGAG AAAGCACCTT CCAACCAAGA GAAGCCCCAC
    CACAAAAAGC AGGTGCTGGA CAGTGATGCC CATAGCAGGT TTGAGGACGA GGGCTGGCAG
    TGCACCAGGA GCAGATCTCT GACTGACAGC ATGCTGGATC CGTGGGACCA GTCCCAGCAC
    GGGGAAAGGC TCTGTGTCCT GCTGGGCTCC TCTCAAGTCA CACACAAGAA GCGCCCATCC
    ACCTGTGGCC GTGTGAAGCC ATGCTGCAGC CACCCGGGAT CAGTTTTGTC CAAGCAGGGA
    GTCCGGCACA GTTCATTTGT TGGACATGAC CTGACAGAAA CATCCACAGC TGGATCCACA
    GCTGGGTCTG CCATCCCCAG GCCAGAGAAA GAGGGTGGGG GGCTTTGCAG TGACTCCCCC
    TTCAAAGAAC ACTCGGAAAG CAGACAGTGT AGTGCTGATA TTAATCAGCA TAACAATGCT
    GGTAATGCAG GGAAGTCTAA CTCAAGTAAA GGGTCCAGTG CTGAGGAAAT AAATGCTGAA
    ATACCTGAAA AGAGCTATGC ATCCCAGTCC CTCTCTCAGG ACAGCAGTTG GCTGCTGCAG
    CCCAAGCCAG AACTGAGCAA TGAGGACCTT ACCCATACTG AAGACCCTTC CAAGTCATCC
    TTTGGCAATG AAGAAACAGC GTTGCTAAAA AGGAAGTTAA AGCAGAGTAT TTTTACACTA
    GAGACTTTTG CTGCAGATGC AGGATTTGCA ACCAAAGATA ATAAGCCAAT AGCAAGTGCA
    AAATGCCCCT CACACATGTC CAGGAGCAGT TCTCCAAGTG CTGCATCCAA GATGGGGAAA
    GGAAAATGGC AGAGGGAAGC CCTAGAAAAG GCACAAGAGA CTGTAATTCG TGCTCATCAG
    CAGTACCTGG ATGAAATGGC AGAACTGTGC TTGAAAGAGG AGTGCTTGAT AGATCAGATG
    TCAGAAATGG ATTTTCAGGA TTTCATGACC ATACTGGATG AAATCTTGGT GCTGAAGTTC
    GAGTCTTCCC AAAAAATGCG AGCCTTGCTT CAGTTTTGTT CAGCCTCCCT GGGTACTGAA
    ACATCACTGC GAACACGTCC ACTAGTTTAG

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

    RefSeq XP_030113687.1
    CDS283..4212
    Translation

    Target ORF information:

    RefSeq Version XM_030257827.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata kinesin family member 24 (KIF24), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_030257827.1

    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
    ATGGCATCAT GCCTTTATGA ATGCCTTTGT GAAGCAGAAC TTGAAAAATA CTTCCCCCAC 
    TTTGCTGCCT TTGGTCTTCA GAAAATTGAT GAGCTTGCCA AAGTTTCCAT GGAAGATTAC
    ACCAAACTGG GGGTCCATGA TGTAAATGAC CTCAAACGTC TTTTCCAGCT CATTAGAATA
    ATCAAAATTA GGCAACGAGA AGACGCTGCA GACTTAAGCA AGCAAGATTT TCAACCACAT
    GGCCTTTTCA TTCAGCCTCA GGTGACCAAG TCAGGACCCT ATAGACAGCT GCGTTTTGAG
    TCCTTCTGTG AAGAAAATGA TGGAACAGTT AAAGAGTCTG AATCTGAATT GTATCATTCA
    CCTGATTTCA GTGCCAATGA AAAGAAGGAC AGTGTAGGGG AAATGCTGGG ACACATTCCA
    CCACACAATT CAGTAGGGGA AATGCTGGGA CACATTCCAC CACATGATTC AGAGCCAATC
    AGATTAACTA GAAGAGACCT AAATATTCCT GGAATAGGTA CAAAAGATGA CCTGAGCTGT
    CCAACAGTTT CTGATGATAT TGCTCATCTC TGTATCAGCT CCAATACTTT CGACAAAGAG
    ACTCCATGGA CAGAGAGTGA AAAAATCAGA GTGTGTGTCC GAAAACGTCC TCTCTGCCAG
    AGGGAGGAGA GACTTGGGGA GTCTAATATA ATCACAGTGG AAGATAAGGA AACCCTAATT
    CTCCACCAGA AGAAGGAGGC AGTTGATCTT ACACAATACA TTTTACAGCA TGTTTTTTAT
    TTTGATGAAG TCTTTGAGGA GACATGTACC AATGAGGATG TGTATATGAA GACAGCTTAT
    CCTCTCATTC AGCATATTTT TAATGGAGGC AATGCAACTT GCTTTGCATA CGGGCAGACT
    GGTGCTGGCA AGACTTACAC CATGATAGGG ACTCATCAGA ACCCAGGACT CTATGCCCTG
    GCTGCCCAGG ACATCTTCAG GCACCTGGAA GCATCACCAT CCAGGAAAGA TCTTATTGTT
    CTGATCAGTT TTTATGAGAT CTACTGCAGA CAGCTTTATG ACCTGCTAAA TGGAAGGAAA
    AGGCTTTTTG CAAGAGAAGA TGGCAAGCGC ATTGTTCAGA TAGCTGGACT CCAGGAGGTT
    CGGGTGGATT CTGTAGATCA GCTGTTGGAG GTGATTTTGA AGGGGGGAAA AGAACGTAGC
    ACAGGAACTA CTGCAGTCAA CTCAGATTCC TCTCGGTCTC ATGCTATCAT CCAAATTCAA
    ATTAAAGACA TGGCCAACAG GGCATTTGGA AGGATATCAT TCATTGACTT GGCTGGCAGT
    GAAAGGGCAG CTGATGCCAA AGACACGGAT CGACAAACAA AAATGGAAGG AGTAGAAATA
    AACCAAAGTC TTTTGGCACT AAAGGAATGC ATTCGGGCGT TGGATCAGGA ACACACACAT
    ACTCCTTTCC GGCAAAGCAC GTTAACTCAG GTGCTAAAAG ACTCTTTCAT TGGCAATTCC
    AAGACATGTA TGATAGCCAA TGTTTCACCA AGCCACGTAG CTACAGAGCA CACCTTGAAC
    ACTCTGCGAT ATGCTGACAG GGTCAAAGAG CTGAAGAAAG GGATTAAATA TCCTACCCCT
    GTCACAAAAA GGCATCGCAG AGCTGGAAAT GTGTTTCCAA AACGTGTCCA AACCACTCCC
    TCTTTGCCAT CTGGGGAAAA GAGCTCTCCA AAGAAAGTGA AGCTAGGCCT GCAGCATCCC
    TCAAGTGCTA CAAAAGGAAG GGCGTATCCT GCACTACTTC AACCACCTGG TGTCCCTCTT
    ACCTCTACCC CCAAGGGAAC TGACAAAGGA CATGCCTACA AAGGAACCAG AACTCCCTGC
    TTCCACCACA CCACCCCAGT TAAGGGAGTC CTACGTATAA CACATCCCCT GAAGAAAAAT
    GATCTATCCC CCCACTCTGA AAAGAGCCCC ACAGTGAAGG ATTTCATTGC CACAGCAGAA
    ACAGAAGAAA GTGGCCAACA AGACAAGTAT ATGCAAAACA GAACACCTGT CCAGTACCTG
    AAAGTCCAGA CAGTGCAACC TCTTCAGAAA CAACTTGTTC CTAGGGAAGA TAATTCCTTT
    GGAGTTGGCA ACCTGCCCTC TGACAGCGAA CAGGAATGGG GAAATACTTT TACTAAACAG
    TCCGTTGGAC CCTGGGCATA TCTGCCTCCA TATCAGAAGG AAAGGGAAAA GCATTTACGT
    CTTTATCACC AGCAGCTTCA GCAGCCCCCT ATTCTAAAGC AAAAATTAAA CTATCAACCC
    CTTGAGAGGT TTTTAATGCA GTACAAGCCC GAGGAGATTC AAGTGAAGCC AGAGCCGAGC
    CTTACTCTAA CTGAAGTCCA GAGCAAAGAG TGGGTACAGC TGGAAGATGT GGATGACAGT
    GATTTCAGTG AAGATTCTTT CTCACCTGTC TGTAGTCAAA AGAGTGTGAA AAGAGGAAAT
    AGCAACAAAT CCAGTCCACA TTCATTTTTC CTTCATGAAA GAGAGCGAGG ATCCGAAGAA
    GAGCAAAAGT ACAAGTCCAA ACACAGACGT CTTGTTTACT CCAGTGAAGC TACCTTAACT
    CCAGAAAAGA ATGCTTCAAC CCCATGTGTA TCTCCTGTAT TGAAATCAGG AACTCCAGAG
    TGTAAAGAGT TTGATCTCCA GCATGAGGAG AAGGAAGAAT CCACTTTGGA TAAAGAGGCT
    GCCCTTGCAG AAGGAGGTGT AAAATGGAAA GCTCGAAAAA GTGGAGTTAG CCACTCTGTT
    TCTTCCATTG ATTCCTCAGA ATTCACCTCC GAGCTCATGG CCCCGCTCCT CGTGTTGCCT
    CTTGATGGTG AGGACACAAC TGAAACAGAG AAAGCACCTT CCAACCAAGA GAAGCCCCAC
    CACAAAAAGC AGGTGCTGGA CAGTGATGCC CATAGCAGGT TTGAGGACGA GGGCTGGCAG
    TGCACCAGGA GCAGATCTCT GACTGACAGC ATGCTGGATC CGTGGGACCA GTCCCAGCAC
    GGGGAAAGGC TCTGTGTCCT GCTGGGCTCC TCTCAAGTCA CACACAAGAA GCGCCCATCC
    ACCTGTGGCC GTGTGAAGCC ATGCTGCAGC CACCCGGGAT CAGTTTTGTC CAAGCAGGGA
    GTCCGGCACA GTTCATTTGT TGGACATGAC CTGACAGAAA CATCCACAGC TGGATCCACA
    GCTGGGTCTG CCATCCCCAG GCCAGAGAAA GAGGGTGGGG GGCTTTGCAG TGACTCCCCC
    TTCAAAGAAC ACTCGGAAAG CAGACAGTGT AGTGCTGATA TTAATCAGCA TAACAATGCT
    GGTAATGCAG GGAAGTCTAA CTCAAGTAAA GGGTCCAGTG CTGAGGAAAT AAATGCTGAA
    ATACCTGAAA AGAGCTATGC ATCCCAGTCC CTCTCTCAGG ACAGCAGTTG GCTGCTGCAG
    CCCAAGCCAG AACTGAGCAA TGAGGACCTT ACCCATACTG AAGACCCTTC CAAGTCATCC
    TTTGGCAATG AAGAAACAGC GTTGCTAAAA AGGAAGTTAA AGCAGAGTAT TTTTACACTA
    GAGACTTTTG CTGCAGATGC AGGATTTGCA ACCAAAGATA ATAAGCCAAT AGCAAGTGCA
    AAATGCCCCT CACACATGTC CAGGAGCAGT TCTCCAAGTG CTGCATCCAA GATGGGGAAA
    GGAAAATGGC AGAGGGAAGC CCTAGAAAAG GCACAAGAGA CTGTAATTCG TGCTCATCAG
    CAGTACCTGG ATGAAATGGC AGAACTGTGC TTGAAAGAGG AGTGCTTGAT AGATCAGATG
    TCAGAAATGG ATTTTCAGGA TTTCATGACC ATACTGGATG AAATCTTGGT GCTGAAGTTC
    GAGTCTTCCC AAAAAATGCG AGCCTTGCTT CAGTTTTGTT CAGCCTCCCT GGGTACTGAA
    ACATCACTGC GAACACGTCC ACTAGTTTAG

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

    CloneID OTd19866
    Clone ID Related Accession (Same CDS sequence) XM_030257827.1 , XM_012577545.1 , XM_030257826.1
    Accession Version XM_030257826.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3930bp)
    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 kinesin-like protein KIF24 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044241.1) 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 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
    ATGGCATCAT GCCTTTATGA ATGCCTTTGT GAAGCAGAAC TTGAAAAATA CTTCCCCCAC 
    TTTGCTGCCT TTGGTCTTCA GAAAATTGAT GAGCTTGCCA AAGTTTCCAT GGAAGATTAC
    ACCAAACTGG GGGTCCATGA TGTAAATGAC CTCAAACGTC TTTTCCAGCT CATTAGAATA
    ATCAAAATTA GGCAACGAGA AGACGCTGCA GACTTAAGCA AGCAAGATTT TCAACCACAT
    GGCCTTTTCA TTCAGCCTCA GGTGACCAAG TCAGGACCCT ATAGACAGCT GCGTTTTGAG
    TCCTTCTGTG AAGAAAATGA TGGAACAGTT AAAGAGTCTG AATCTGAATT GTATCATTCA
    CCTGATTTCA GTGCCAATGA AAAGAAGGAC AGTGTAGGGG AAATGCTGGG ACACATTCCA
    CCACACAATT CAGTAGGGGA AATGCTGGGA CACATTCCAC CACATGATTC AGAGCCAATC
    AGATTAACTA GAAGAGACCT AAATATTCCT GGAATAGGTA CAAAAGATGA CCTGAGCTGT
    CCAACAGTTT CTGATGATAT TGCTCATCTC TGTATCAGCT CCAATACTTT CGACAAAGAG
    ACTCCATGGA CAGAGAGTGA AAAAATCAGA GTGTGTGTCC GAAAACGTCC TCTCTGCCAG
    AGGGAGGAGA GACTTGGGGA GTCTAATATA ATCACAGTGG AAGATAAGGA AACCCTAATT
    CTCCACCAGA AGAAGGAGGC AGTTGATCTT ACACAATACA TTTTACAGCA TGTTTTTTAT
    TTTGATGAAG TCTTTGAGGA GACATGTACC AATGAGGATG TGTATATGAA GACAGCTTAT
    CCTCTCATTC AGCATATTTT TAATGGAGGC AATGCAACTT GCTTTGCATA CGGGCAGACT
    GGTGCTGGCA AGACTTACAC CATGATAGGG ACTCATCAGA ACCCAGGACT CTATGCCCTG
    GCTGCCCAGG ACATCTTCAG GCACCTGGAA GCATCACCAT CCAGGAAAGA TCTTATTGTT
    CTGATCAGTT TTTATGAGAT CTACTGCAGA CAGCTTTATG ACCTGCTAAA TGGAAGGAAA
    AGGCTTTTTG CAAGAGAAGA TGGCAAGCGC ATTGTTCAGA TAGCTGGACT CCAGGAGGTT
    CGGGTGGATT CTGTAGATCA GCTGTTGGAG GTGATTTTGA AGGGGGGAAA AGAACGTAGC
    ACAGGAACTA CTGCAGTCAA CTCAGATTCC TCTCGGTCTC ATGCTATCAT CCAAATTCAA
    ATTAAAGACA TGGCCAACAG GGCATTTGGA AGGATATCAT TCATTGACTT GGCTGGCAGT
    GAAAGGGCAG CTGATGCCAA AGACACGGAT CGACAAACAA AAATGGAAGG AGTAGAAATA
    AACCAAAGTC TTTTGGCACT AAAGGAATGC ATTCGGGCGT TGGATCAGGA ACACACACAT
    ACTCCTTTCC GGCAAAGCAC GTTAACTCAG GTGCTAAAAG ACTCTTTCAT TGGCAATTCC
    AAGACATGTA TGATAGCCAA TGTTTCACCA AGCCACGTAG CTACAGAGCA CACCTTGAAC
    ACTCTGCGAT ATGCTGACAG GGTCAAAGAG CTGAAGAAAG GGATTAAATA TCCTACCCCT
    GTCACAAAAA GGCATCGCAG AGCTGGAAAT GTGTTTCCAA AACGTGTCCA AACCACTCCC
    TCTTTGCCAT CTGGGGAAAA GAGCTCTCCA AAGAAAGTGA AGCTAGGCCT GCAGCATCCC
    TCAAGTGCTA CAAAAGGAAG GGCGTATCCT GCACTACTTC AACCACCTGG TGTCCCTCTT
    ACCTCTACCC CCAAGGGAAC TGACAAAGGA CATGCCTACA AAGGAACCAG AACTCCCTGC
    TTCCACCACA CCACCCCAGT TAAGGGAGTC CTACGTATAA CACATCCCCT GAAGAAAAAT
    GATCTATCCC CCCACTCTGA AAAGAGCCCC ACAGTGAAGG ATTTCATTGC CACAGCAGAA
    ACAGAAGAAA GTGGCCAACA AGACAAGTAT ATGCAAAACA GAACACCTGT CCAGTACCTG
    AAAGTCCAGA CAGTGCAACC TCTTCAGAAA CAACTTGTTC CTAGGGAAGA TAATTCCTTT
    GGAGTTGGCA ACCTGCCCTC TGACAGCGAA CAGGAATGGG GAAATACTTT TACTAAACAG
    TCCGTTGGAC CCTGGGCATA TCTGCCTCCA TATCAGAAGG AAAGGGAAAA GCATTTACGT
    CTTTATCACC AGCAGCTTCA GCAGCCCCCT ATTCTAAAGC AAAAATTAAA CTATCAACCC
    CTTGAGAGGT TTTTAATGCA GTACAAGCCC GAGGAGATTC AAGTGAAGCC AGAGCCGAGC
    CTTACTCTAA CTGAAGTCCA GAGCAAAGAG TGGGTACAGC TGGAAGATGT GGATGACAGT
    GATTTCAGTG AAGATTCTTT CTCACCTGTC TGTAGTCAAA AGAGTGTGAA AAGAGGAAAT
    AGCAACAAAT CCAGTCCACA TTCATTTTTC CTTCATGAAA GAGAGCGAGG ATCCGAAGAA
    GAGCAAAAGT ACAAGTCCAA ACACAGACGT CTTGTTTACT CCAGTGAAGC TACCTTAACT
    CCAGAAAAGA ATGCTTCAAC CCCATGTGTA TCTCCTGTAT TGAAATCAGG AACTCCAGAG
    TGTAAAGAGT TTGATCTCCA GCATGAGGAG AAGGAAGAAT CCACTTTGGA TAAAGAGGCT
    GCCCTTGCAG AAGGAGGTGT AAAATGGAAA GCTCGAAAAA GTGGAGTTAG CCACTCTGTT
    TCTTCCATTG ATTCCTCAGA ATTCACCTCC GAGCTCATGG CCCCGCTCCT CGTGTTGCCT
    CTTGATGGTG AGGACACAAC TGAAACAGAG AAAGCACCTT CCAACCAAGA GAAGCCCCAC
    CACAAAAAGC AGGTGCTGGA CAGTGATGCC CATAGCAGGT TTGAGGACGA GGGCTGGCAG
    TGCACCAGGA GCAGATCTCT GACTGACAGC ATGCTGGATC CGTGGGACCA GTCCCAGCAC
    GGGGAAAGGC TCTGTGTCCT GCTGGGCTCC TCTCAAGTCA CACACAAGAA GCGCCCATCC
    ACCTGTGGCC GTGTGAAGCC ATGCTGCAGC CACCCGGGAT CAGTTTTGTC CAAGCAGGGA
    GTCCGGCACA GTTCATTTGT TGGACATGAC CTGACAGAAA CATCCACAGC TGGATCCACA
    GCTGGGTCTG CCATCCCCAG GCCAGAGAAA GAGGGTGGGG GGCTTTGCAG TGACTCCCCC
    TTCAAAGAAC ACTCGGAAAG CAGACAGTGT AGTGCTGATA TTAATCAGCA TAACAATGCT
    GGTAATGCAG GGAAGTCTAA CTCAAGTAAA GGGTCCAGTG CTGAGGAAAT AAATGCTGAA
    ATACCTGAAA AGAGCTATGC ATCCCAGTCC CTCTCTCAGG ACAGCAGTTG GCTGCTGCAG
    CCCAAGCCAG AACTGAGCAA TGAGGACCTT ACCCATACTG AAGACCCTTC CAAGTCATCC
    TTTGGCAATG AAGAAACAGC GTTGCTAAAA AGGAAGTTAA AGCAGAGTAT TTTTACACTA
    GAGACTTTTG CTGCAGATGC AGGATTTGCA ACCAAAGATA ATAAGCCAAT AGCAAGTGCA
    AAATGCCCCT CACACATGTC CAGGAGCAGT TCTCCAAGTG CTGCATCCAA GATGGGGAAA
    GGAAAATGGC AGAGGGAAGC CCTAGAAAAG GCACAAGAGA CTGTAATTCG TGCTCATCAG
    CAGTACCTGG ATGAAATGGC AGAACTGTGC TTGAAAGAGG AGTGCTTGAT AGATCAGATG
    TCAGAAATGG ATTTTCAGGA TTTCATGACC ATACTGGATG AAATCTTGGT GCTGAAGTTC
    GAGTCTTCCC AAAAAATGCG AGCCTTGCTT CAGTTTTGTT CAGCCTCCCT GGGTACTGAA
    ACATCACTGC GAACACGTCC ACTAGTTTAG

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

    RefSeq XP_030113686.1
    CDS197..4126
    Translation

    Target ORF information:

    RefSeq Version XM_030257826.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata kinesin family member 24 (KIF24), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_030257826.1

    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
    ATGGCATCAT GCCTTTATGA ATGCCTTTGT GAAGCAGAAC TTGAAAAATA CTTCCCCCAC 
    TTTGCTGCCT TTGGTCTTCA GAAAATTGAT GAGCTTGCCA AAGTTTCCAT GGAAGATTAC
    ACCAAACTGG GGGTCCATGA TGTAAATGAC CTCAAACGTC TTTTCCAGCT CATTAGAATA
    ATCAAAATTA GGCAACGAGA AGACGCTGCA GACTTAAGCA AGCAAGATTT TCAACCACAT
    GGCCTTTTCA TTCAGCCTCA GGTGACCAAG TCAGGACCCT ATAGACAGCT GCGTTTTGAG
    TCCTTCTGTG AAGAAAATGA TGGAACAGTT AAAGAGTCTG AATCTGAATT GTATCATTCA
    CCTGATTTCA GTGCCAATGA AAAGAAGGAC AGTGTAGGGG AAATGCTGGG ACACATTCCA
    CCACACAATT CAGTAGGGGA AATGCTGGGA CACATTCCAC CACATGATTC AGAGCCAATC
    AGATTAACTA GAAGAGACCT AAATATTCCT GGAATAGGTA CAAAAGATGA CCTGAGCTGT
    CCAACAGTTT CTGATGATAT TGCTCATCTC TGTATCAGCT CCAATACTTT CGACAAAGAG
    ACTCCATGGA CAGAGAGTGA AAAAATCAGA GTGTGTGTCC GAAAACGTCC TCTCTGCCAG
    AGGGAGGAGA GACTTGGGGA GTCTAATATA ATCACAGTGG AAGATAAGGA AACCCTAATT
    CTCCACCAGA AGAAGGAGGC AGTTGATCTT ACACAATACA TTTTACAGCA TGTTTTTTAT
    TTTGATGAAG TCTTTGAGGA GACATGTACC AATGAGGATG TGTATATGAA GACAGCTTAT
    CCTCTCATTC AGCATATTTT TAATGGAGGC AATGCAACTT GCTTTGCATA CGGGCAGACT
    GGTGCTGGCA AGACTTACAC CATGATAGGG ACTCATCAGA ACCCAGGACT CTATGCCCTG
    GCTGCCCAGG ACATCTTCAG GCACCTGGAA GCATCACCAT CCAGGAAAGA TCTTATTGTT
    CTGATCAGTT TTTATGAGAT CTACTGCAGA CAGCTTTATG ACCTGCTAAA TGGAAGGAAA
    AGGCTTTTTG CAAGAGAAGA TGGCAAGCGC ATTGTTCAGA TAGCTGGACT CCAGGAGGTT
    CGGGTGGATT CTGTAGATCA GCTGTTGGAG GTGATTTTGA AGGGGGGAAA AGAACGTAGC
    ACAGGAACTA CTGCAGTCAA CTCAGATTCC TCTCGGTCTC ATGCTATCAT CCAAATTCAA
    ATTAAAGACA TGGCCAACAG GGCATTTGGA AGGATATCAT TCATTGACTT GGCTGGCAGT
    GAAAGGGCAG CTGATGCCAA AGACACGGAT CGACAAACAA AAATGGAAGG AGTAGAAATA
    AACCAAAGTC TTTTGGCACT AAAGGAATGC ATTCGGGCGT TGGATCAGGA ACACACACAT
    ACTCCTTTCC GGCAAAGCAC GTTAACTCAG GTGCTAAAAG ACTCTTTCAT TGGCAATTCC
    AAGACATGTA TGATAGCCAA TGTTTCACCA AGCCACGTAG CTACAGAGCA CACCTTGAAC
    ACTCTGCGAT ATGCTGACAG GGTCAAAGAG CTGAAGAAAG GGATTAAATA TCCTACCCCT
    GTCACAAAAA GGCATCGCAG AGCTGGAAAT GTGTTTCCAA AACGTGTCCA AACCACTCCC
    TCTTTGCCAT CTGGGGAAAA GAGCTCTCCA AAGAAAGTGA AGCTAGGCCT GCAGCATCCC
    TCAAGTGCTA CAAAAGGAAG GGCGTATCCT GCACTACTTC AACCACCTGG TGTCCCTCTT
    ACCTCTACCC CCAAGGGAAC TGACAAAGGA CATGCCTACA AAGGAACCAG AACTCCCTGC
    TTCCACCACA CCACCCCAGT TAAGGGAGTC CTACGTATAA CACATCCCCT GAAGAAAAAT
    GATCTATCCC CCCACTCTGA AAAGAGCCCC ACAGTGAAGG ATTTCATTGC CACAGCAGAA
    ACAGAAGAAA GTGGCCAACA AGACAAGTAT ATGCAAAACA GAACACCTGT CCAGTACCTG
    AAAGTCCAGA CAGTGCAACC TCTTCAGAAA CAACTTGTTC CTAGGGAAGA TAATTCCTTT
    GGAGTTGGCA ACCTGCCCTC TGACAGCGAA CAGGAATGGG GAAATACTTT TACTAAACAG
    TCCGTTGGAC CCTGGGCATA TCTGCCTCCA TATCAGAAGG AAAGGGAAAA GCATTTACGT
    CTTTATCACC AGCAGCTTCA GCAGCCCCCT ATTCTAAAGC AAAAATTAAA CTATCAACCC
    CTTGAGAGGT TTTTAATGCA GTACAAGCCC GAGGAGATTC AAGTGAAGCC AGAGCCGAGC
    CTTACTCTAA CTGAAGTCCA GAGCAAAGAG TGGGTACAGC TGGAAGATGT GGATGACAGT
    GATTTCAGTG AAGATTCTTT CTCACCTGTC TGTAGTCAAA AGAGTGTGAA AAGAGGAAAT
    AGCAACAAAT CCAGTCCACA TTCATTTTTC CTTCATGAAA GAGAGCGAGG ATCCGAAGAA
    GAGCAAAAGT ACAAGTCCAA ACACAGACGT CTTGTTTACT CCAGTGAAGC TACCTTAACT
    CCAGAAAAGA ATGCTTCAAC CCCATGTGTA TCTCCTGTAT TGAAATCAGG AACTCCAGAG
    TGTAAAGAGT TTGATCTCCA GCATGAGGAG AAGGAAGAAT CCACTTTGGA TAAAGAGGCT
    GCCCTTGCAG AAGGAGGTGT AAAATGGAAA GCTCGAAAAA GTGGAGTTAG CCACTCTGTT
    TCTTCCATTG ATTCCTCAGA ATTCACCTCC GAGCTCATGG CCCCGCTCCT CGTGTTGCCT
    CTTGATGGTG AGGACACAAC TGAAACAGAG AAAGCACCTT CCAACCAAGA GAAGCCCCAC
    CACAAAAAGC AGGTGCTGGA CAGTGATGCC CATAGCAGGT TTGAGGACGA GGGCTGGCAG
    TGCACCAGGA GCAGATCTCT GACTGACAGC ATGCTGGATC CGTGGGACCA GTCCCAGCAC
    GGGGAAAGGC TCTGTGTCCT GCTGGGCTCC TCTCAAGTCA CACACAAGAA GCGCCCATCC
    ACCTGTGGCC GTGTGAAGCC ATGCTGCAGC CACCCGGGAT CAGTTTTGTC CAAGCAGGGA
    GTCCGGCACA GTTCATTTGT TGGACATGAC CTGACAGAAA CATCCACAGC TGGATCCACA
    GCTGGGTCTG CCATCCCCAG GCCAGAGAAA GAGGGTGGGG GGCTTTGCAG TGACTCCCCC
    TTCAAAGAAC ACTCGGAAAG CAGACAGTGT AGTGCTGATA TTAATCAGCA TAACAATGCT
    GGTAATGCAG GGAAGTCTAA CTCAAGTAAA GGGTCCAGTG CTGAGGAAAT AAATGCTGAA
    ATACCTGAAA AGAGCTATGC ATCCCAGTCC CTCTCTCAGG ACAGCAGTTG GCTGCTGCAG
    CCCAAGCCAG AACTGAGCAA TGAGGACCTT ACCCATACTG AAGACCCTTC CAAGTCATCC
    TTTGGCAATG AAGAAACAGC GTTGCTAAAA AGGAAGTTAA AGCAGAGTAT TTTTACACTA
    GAGACTTTTG CTGCAGATGC AGGATTTGCA ACCAAAGATA ATAAGCCAAT AGCAAGTGCA
    AAATGCCCCT CACACATGTC CAGGAGCAGT TCTCCAAGTG CTGCATCCAA GATGGGGAAA
    GGAAAATGGC AGAGGGAAGC CCTAGAAAAG GCACAAGAGA CTGTAATTCG TGCTCATCAG
    CAGTACCTGG ATGAAATGGC AGAACTGTGC TTGAAAGAGG AGTGCTTGAT AGATCAGATG
    TCAGAAATGG ATTTTCAGGA TTTCATGACC ATACTGGATG AAATCTTGGT GCTGAAGTTC
    GAGTCTTCCC AAAAAATGCG AGCCTTGCTT CAGTTTTGTT CAGCCTCCCT GGGTACTGAA
    ACATCACTGC GAACACGTCC ACTAGTTTAG

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

    CloneID OTd52912
    Clone ID Related Accession (Same CDS sequence) XM_012577545.2
    Accession Version XM_012577545.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3951bp)
    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 kinesin-like protein KIF24 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044241.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Aug 9, 2019 this sequence version replaced XM_012577545.1. ##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
    ATGGCCGGCT CTAGGTTGAA GATGGCATCA TGCCTTTATG AATGCCTTTG TGAAGCAGAA 
    CTTGAAAAAT ACTTCCCCCA CTTTGCTGCC TTTGGTCTTC AGAAAATTGA TGAGCTTGCC
    AAAGTTTCCA TGGAAGATTA CACCAAACTG GGGGTCCATG ATGTAAATGA CCTCAAACGT
    CTTTTCCAGC TCATTAGAAT AATCAAAATT AGGCAACGAG AAGACGCTGC AGACTTAAGC
    AAGCAAGATT TTCAACCACA TGGCCTTTTC ATTCAGCCTC AGGTGACCAA GTCAGGACCC
    TATAGACAGC TGCGTTTTGA GTCCTTCTGT GAAGAAAATG ATGGAACAGT TAAAGAGTCT
    GAATCTGAAT TGTATCATTC ACCTGATTTC AGTGCCAATG AAAAGAAGGA CAGTGTAGGG
    GAAATGCTGG GACACATTCC ACCACACAAT TCAGTAGGGG AAATGCTGGG ACACATTCCA
    CCACATGATT CAGAGCCAAT CAGATTAACT AGAAGAGACC TAAATATTCC TGGAATAGGT
    ACAAAAGATG ACCTGAGCTG TCCAACAGTT TCTGATGATA TTGCTCATCT CTGTATCAGC
    TCCAATACTT TCGACAAAGA GACTCCATGG ACAGAGAGTG AAAAAATCAG AGTGTGTGTC
    CGAAAACGTC CTCTCTGCCA GAGGGAGGAG AGACTTGGGG AGTCTAATAT AATCACAGTG
    GAAGATAAGG AAACCCTAAT TCTCCACCAG AAGAAGGAGG CAGTTGATCT TACACAATAC
    ATTTTACAGC ATGTTTTTTA TTTTGATGAA GTCTTTGAGG AGACATGTAC CAATGAGGAT
    GTGTATATGA AGACAGCTTA TCCTCTCATT CAGCATATTT TTAATGGAGG CAATGCAACT
    TGCTTTGCAT ACGGGCAGAC TGGTGCTGGC AAGACTTACA CCATGATAGG GACTCATCAG
    AACCCAGGAC TCTATGCCCT GGCTGCCCAG GACATCTTCA GGCACCTGGA AGCATCACCA
    TCCAGGAAAG ATCTTATTGT TCTGATCAGT TTTTATGAGA TCTACTGCAG ACAGCTTTAT
    GACCTGCTAA ATGGAAGGAA AAGGCTTTTT GCAAGAGAAG ATGGCAAGCG CATTGTTCAG
    ATAGCTGGAC TCCAGGAGGT TCGGGTGGAT TCTGTAGATC AGCTGTTGGA GGTGATTTTG
    AAGGGGGGAA AAGAACGTAG CACAGGAACT ACTGCAGTCA ACTCAGATTC CTCTCGGTCT
    CATGCTATCA TCCAAATTCA AATTAAAGAC ATGGCCAACA GGGCATTTGG AAGGATATCA
    TTCATTGACT TGGCTGGCAG TGAAAGGGCA GCTGATGCCA AAGACACGGA TCGACAAACA
    AAAATGGAAG GAGTAGAAAT AAACCAAAGT CTTTTGGCAC TAAAGGAATG CATTCGGGCG
    TTGGATCAGG AACACACACA TACTCCTTTC CGGCAAAGCA CGTTAACTCA GGTGCTAAAA
    GACTCTTTCA TTGGCAATTC CAAGACATGT ATGATAGCCA ATGTTTCACC AAGCCACGTA
    GCTACAGAGC ACACCTTGAA CACTCTGCGA TATGCTGACA GGGTCAAAGA GCTGAAGAAA
    GGGATTAAAT ATCCTACCCC TGTCACAAAA AGGCATCGCA GAGCTGGAAA TGTGTTTCCA
    AAACGTGTCC AAACCACTCC CTCTTTGCCA TCTGGGGAAA AGAGCTCTCC AAAGAAAGTG
    AAGCTAGGCC TGCAGCATCC CTCAAGTGCT ACAAAAGGAA GGGCGTATCC TGCACTACTT
    CAACCACCTG GTGTCCCTCT TACCTCTACC CCCAAGGGAA CTGACAAAGG ACATGCCTAC
    AAAGGAACCA GAACTCCCTG CTTCCACCAC ACCACCCCAG TTAAGGGAGT CCTACGTATA
    ACACATCCCC TGAAGAAAAA TGATCTATCC CCCCACTCTG AAAAGAGCCC CACAGTGAAG
    GATTTCATTG CCACAGCAGA AACAGAAGAA AGTGGCCAAC AAGACAAGTA TATGCAAAAC
    AGAACACCTG TCCAGTACCT GAAAGTCCAG ACAGTGCAAC CTCTTCAGAA ACAACTTGTT
    CCTAGGGAAG ATAATTCCTT TGGAGTTGGC AACCTGCCCT CTGACAGCGA ACAGGAATGG
    GGAAATACTT TTACTAAACA GTCCGTTGGA CCCTGGGCAT ATCTGCCTCC ATATCAGAAG
    GAAAGGGAAA AGCATTTACG TCTTTATCAC CAGCAGCTTC AGCAGCCCCC TATTCTAAAG
    CAAAAATTAA ACTATCAACC CCTTGAGAGG TTTTTAATGC AGTACAAGCC CGAGGAGATT
    CAAGTGAAGC CAGAGCCGAG CCTTACTCTA ACTGAAGTCC AGAGCAAAGA GTGGGTACAG
    CTGGAAGATG TGGATGACAG TGATTTCAGT GAAGATTCTT TCTCACCTGT CTGTAGTCAA
    AAGAGTGTGA AAAGAGGAAA TAGCAACAAA TCCAGTCCAC ATTCATTTTT CCTTCATGAA
    AGAGAGCGAG GATCCGAAGA AGAGCAAAAG TACAAGTCCA AACACAGACG TCTTGTTTAC
    TCCAGTGAAG CTACCTTAAC TCCAGAAAAG AATGCTTCAA CCCCATGTGT ATCTCCTGTA
    TTGAAATCAG GAACTCCAGA GTGTAAAGAG TTTGATCTCC AGCATGAGGA GAAGGAAGAA
    TCCACTTTGG ATAAAGAGGC TGCCCTTGCA GAAGGAGGTG TAAAATGGAA AGCTCGAAAA
    AGTGGAGTTA GCCACTCTGT TTCTTCCATT GATTCCTCAG AATTCACCTC CGAGCTCATG
    GCCCCGCTCC TCGTGTTGCC TCTTGATGGT GAGGACACAA CTGAAACAGA GAAAGCACCT
    TCCAACCAAG AGAAGCCCCA CCACAAAAAG CAGGTGCTGG ACAGTGATGC CCATAGCAGG
    TTTGAGGACG AGGGCTGGCA GTGCACCAGG AGCAGATCTC TGACTGACAG CATGCTGGAT
    CCGTGGGACC AGTCCCAGCA CGGGGAAAGG CTCTGTGTCC TGCTGGGCTC CTCTCAAGTC
    ACACACAAGA AGCGCCCATC CACCTGTGGC CGTGTGAAGC CATGCTGCAG CCACCCGGGA
    TCAGTTTTGT CCAAGCAGGG AGTCCGGCAC AGTTCATTTG TTGGACATGA CCTGACAGAA
    ACATCCACAG CTGGATCCAC AGCTGGGTCT GCCATCCCCA GGCCAGAGAA AGAGGGTGGG
    GGGCTTTGCA GTGACTCCCC CTTCAAAGAA CACTCGGAAA GCAGACAGTG TAGTGCTGAT
    ATTAATCAGC ATAACAATGC TGGTAATGCA GGGAAGTCTA ACTCAAGTAA AGGGTCCAGT
    GCTGAGGAAA TAAATGCTGA AATACCTGAA AAGAGCTATG CATCCCAGTC CCTCTCTCAG
    GACAGCAGTT GGCTGCTGCA GCCCAAGCCA GAACTGAGCA ATGAGGACCT TACCCATACT
    GAAGACCCTT CCAAGTCATC CTTTGGCAAT GAAGAAACAG CGTTGCTAAA AAGGAAGTTA
    AAGCAGAGTA TTTTTACACT AGAGACTTTT GCTGCAGATG CAGGATTTGC AACCAAAGAT
    AATAAGCCAA TAGCAAGTGC AAAATGCCCC TCACACATGT CCAGGAGCAG TTCTCCAAGT
    GCTGCATCCA AGATGGGGAA AGGAAAATGG CAGAGGGAAG CCCTAGAAAA GGCACAAGAG
    ACTGTAATTC GTGCTCATCA GCAGTACCTG GATGAAATGG CAGAACTGTG CTTGAAAGAG
    GAGTGCTTGA TAGATCAGAT GTCAGAAATG GATTTTCAGG ATTTCATGAC CATACTGGAT
    GAAATCTTGG TGCTGAAGTT CGAGTCTTCC CAAAAAATGC GAGCCTTGCT TCAGTTTTGT
    TCAGCCTCCC TGGGTACTGA AACATCACTG CGAACACGTC CACTAGTTTA G

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

    RefSeq XP_012432999.2
    CDS79..4029
    Translation

    Target ORF information:

    RefSeq Version XM_012577545.2
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata kinesin family member 24 (KIF24), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012577545.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGGCCGGCT CTAGGTTGAA GATGGCATCA TGCCTTTATG AATGCCTTTG TGAAGCAGAA 
    CTTGAAAAAT ACTTCCCCCA CTTTGCTGCC TTTGGTCTTC AGAAAATTGA TGAGCTTGCC
    AAAGTTTCCA TGGAAGATTA CACCAAACTG GGGGTCCATG ATGTAAATGA CCTCAAACGT
    CTTTTCCAGC TCATTAGAAT AATCAAAATT AGGCAACGAG AAGACGCTGC AGACTTAAGC
    AAGCAAGATT TTCAACCACA TGGCCTTTTC ATTCAGCCTC AGGTGACCAA GTCAGGACCC
    TATAGACAGC TGCGTTTTGA GTCCTTCTGT GAAGAAAATG ATGGAACAGT TAAAGAGTCT
    GAATCTGAAT TGTATCATTC ACCTGATTTC AGTGCCAATG AAAAGAAGGA CAGTGTAGGG
    GAAATGCTGG GACACATTCC ACCACACAAT TCAGTAGGGG AAATGCTGGG ACACATTCCA
    CCACATGATT CAGAGCCAAT CAGATTAACT AGAAGAGACC TAAATATTCC TGGAATAGGT
    ACAAAAGATG ACCTGAGCTG TCCAACAGTT TCTGATGATA TTGCTCATCT CTGTATCAGC
    TCCAATACTT TCGACAAAGA GACTCCATGG ACAGAGAGTG AAAAAATCAG AGTGTGTGTC
    CGAAAACGTC CTCTCTGCCA GAGGGAGGAG AGACTTGGGG AGTCTAATAT AATCACAGTG
    GAAGATAAGG AAACCCTAAT TCTCCACCAG AAGAAGGAGG CAGTTGATCT TACACAATAC
    ATTTTACAGC ATGTTTTTTA TTTTGATGAA GTCTTTGAGG AGACATGTAC CAATGAGGAT
    GTGTATATGA AGACAGCTTA TCCTCTCATT CAGCATATTT TTAATGGAGG CAATGCAACT
    TGCTTTGCAT ACGGGCAGAC TGGTGCTGGC AAGACTTACA CCATGATAGG GACTCATCAG
    AACCCAGGAC TCTATGCCCT GGCTGCCCAG GACATCTTCA GGCACCTGGA AGCATCACCA
    TCCAGGAAAG ATCTTATTGT TCTGATCAGT TTTTATGAGA TCTACTGCAG ACAGCTTTAT
    GACCTGCTAA ATGGAAGGAA AAGGCTTTTT GCAAGAGAAG ATGGCAAGCG CATTGTTCAG
    ATAGCTGGAC TCCAGGAGGT TCGGGTGGAT TCTGTAGATC AGCTGTTGGA GGTGATTTTG
    AAGGGGGGAA AAGAACGTAG CACAGGAACT ACTGCAGTCA ACTCAGATTC CTCTCGGTCT
    CATGCTATCA TCCAAATTCA AATTAAAGAC ATGGCCAACA GGGCATTTGG AAGGATATCA
    TTCATTGACT TGGCTGGCAG TGAAAGGGCA GCTGATGCCA AAGACACGGA TCGACAAACA
    AAAATGGAAG GAGTAGAAAT AAACCAAAGT CTTTTGGCAC TAAAGGAATG CATTCGGGCG
    TTGGATCAGG AACACACACA TACTCCTTTC CGGCAAAGCA CGTTAACTCA GGTGCTAAAA
    GACTCTTTCA TTGGCAATTC CAAGACATGT ATGATAGCCA ATGTTTCACC AAGCCACGTA
    GCTACAGAGC ACACCTTGAA CACTCTGCGA TATGCTGACA GGGTCAAAGA GCTGAAGAAA
    GGGATTAAAT ATCCTACCCC TGTCACAAAA AGGCATCGCA GAGCTGGAAA TGTGTTTCCA
    AAACGTGTCC AAACCACTCC CTCTTTGCCA TCTGGGGAAA AGAGCTCTCC AAAGAAAGTG
    AAGCTAGGCC TGCAGCATCC CTCAAGTGCT ACAAAAGGAA GGGCGTATCC TGCACTACTT
    CAACCACCTG GTGTCCCTCT TACCTCTACC CCCAAGGGAA CTGACAAAGG ACATGCCTAC
    AAAGGAACCA GAACTCCCTG CTTCCACCAC ACCACCCCAG TTAAGGGAGT CCTACGTATA
    ACACATCCCC TGAAGAAAAA TGATCTATCC CCCCACTCTG AAAAGAGCCC CACAGTGAAG
    GATTTCATTG CCACAGCAGA AACAGAAGAA AGTGGCCAAC AAGACAAGTA TATGCAAAAC
    AGAACACCTG TCCAGTACCT GAAAGTCCAG ACAGTGCAAC CTCTTCAGAA ACAACTTGTT
    CCTAGGGAAG ATAATTCCTT TGGAGTTGGC AACCTGCCCT CTGACAGCGA ACAGGAATGG
    GGAAATACTT TTACTAAACA GTCCGTTGGA CCCTGGGCAT ATCTGCCTCC ATATCAGAAG
    GAAAGGGAAA AGCATTTACG TCTTTATCAC CAGCAGCTTC AGCAGCCCCC TATTCTAAAG
    CAAAAATTAA ACTATCAACC CCTTGAGAGG TTTTTAATGC AGTACAAGCC CGAGGAGATT
    CAAGTGAAGC CAGAGCCGAG CCTTACTCTA ACTGAAGTCC AGAGCAAAGA GTGGGTACAG
    CTGGAAGATG TGGATGACAG TGATTTCAGT GAAGATTCTT TCTCACCTGT CTGTAGTCAA
    AAGAGTGTGA AAAGAGGAAA TAGCAACAAA TCCAGTCCAC ATTCATTTTT CCTTCATGAA
    AGAGAGCGAG GATCCGAAGA AGAGCAAAAG TACAAGTCCA AACACAGACG TCTTGTTTAC
    TCCAGTGAAG CTACCTTAAC TCCAGAAAAG AATGCTTCAA CCCCATGTGT ATCTCCTGTA
    TTGAAATCAG GAACTCCAGA GTGTAAAGAG TTTGATCTCC AGCATGAGGA GAAGGAAGAA
    TCCACTTTGG ATAAAGAGGC TGCCCTTGCA GAAGGAGGTG TAAAATGGAA AGCTCGAAAA
    AGTGGAGTTA GCCACTCTGT TTCTTCCATT GATTCCTCAG AATTCACCTC CGAGCTCATG
    GCCCCGCTCC TCGTGTTGCC TCTTGATGGT GAGGACACAA CTGAAACAGA GAAAGCACCT
    TCCAACCAAG AGAAGCCCCA CCACAAAAAG CAGGTGCTGG ACAGTGATGC CCATAGCAGG
    TTTGAGGACG AGGGCTGGCA GTGCACCAGG AGCAGATCTC TGACTGACAG CATGCTGGAT
    CCGTGGGACC AGTCCCAGCA CGGGGAAAGG CTCTGTGTCC TGCTGGGCTC CTCTCAAGTC
    ACACACAAGA AGCGCCCATC CACCTGTGGC CGTGTGAAGC CATGCTGCAG CCACCCGGGA
    TCAGTTTTGT CCAAGCAGGG AGTCCGGCAC AGTTCATTTG TTGGACATGA CCTGACAGAA
    ACATCCACAG CTGGATCCAC AGCTGGGTCT GCCATCCCCA GGCCAGAGAA AGAGGGTGGG
    GGGCTTTGCA GTGACTCCCC CTTCAAAGAA CACTCGGAAA GCAGACAGTG TAGTGCTGAT
    ATTAATCAGC ATAACAATGC TGGTAATGCA GGGAAGTCTA ACTCAAGTAA AGGGTCCAGT
    GCTGAGGAAA TAAATGCTGA AATACCTGAA AAGAGCTATG CATCCCAGTC CCTCTCTCAG
    GACAGCAGTT GGCTGCTGCA GCCCAAGCCA GAACTGAGCA ATGAGGACCT TACCCATACT
    GAAGACCCTT CCAAGTCATC CTTTGGCAAT GAAGAAACAG CGTTGCTAAA AAGGAAGTTA
    AAGCAGAGTA TTTTTACACT AGAGACTTTT GCTGCAGATG CAGGATTTGC AACCAAAGAT
    AATAAGCCAA TAGCAAGTGC AAAATGCCCC TCACACATGT CCAGGAGCAG TTCTCCAAGT
    GCTGCATCCA AGATGGGGAA AGGAAAATGG CAGAGGGAAG CCCTAGAAAA GGCACAAGAG
    ACTGTAATTC GTGCTCATCA GCAGTACCTG GATGAAATGG CAGAACTGTG CTTGAAAGAG
    GAGTGCTTGA TAGATCAGAT GTCAGAAATG GATTTTCAGG ATTTCATGAC CATACTGGAT
    GAAATCTTGG TGCTGAAGTT CGAGTCTTCC CAAAAAATGC GAGCCTTGCT TCAGTTTTGT
    TCAGCCTCCC TGGGTACTGA AACATCACTG CGAACACGTC CACTAGTTTA G

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

    CloneID OTd52913
    Clone ID Related Accession (Same CDS sequence) XM_030257828.1
    Accession Version XM_030257828.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3366bp)
    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 kinesin-like protein KIF24 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044241.1) 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 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
    ATGAGCAAAC TCAGCTCCAA TACTTTCGAC AAAGAGACTC CATGGACAGA GAGTGAAAAA 
    ATCAGAGTGT GTGTCCGAAA ACGTCCTCTC TGCCAGAGGG AGGAGAGACT TGGGGAGTCT
    AATATAATCA CAGTGGAAGA TAAGGAAACC CTAATTCTCC ACCAGAAGAA GGAGGCAGTT
    GATCTTACAC AATACATTTT ACAGCATGTT TTTTATTTTG ATGAAGTCTT TGAGGAGACA
    TGTACCAATG AGGATGTGTA TATGAAGACA GCTTATCCTC TCATTCAGCA TATTTTTAAT
    GGAGGCAATG CAACTTGCTT TGCATACGGG CAGACTGGTG CTGGCAAGAC TTACACCATG
    ATAGGGACTC ATCAGAACCC AGGACTCTAT GCCCTGGCTG CCCAGGACAT CTTCAGGCAC
    CTGGAAGCAT CACCATCCAG GAAAGATCTT ATTGTTCTGA TCAGTTTTTA TGAGATCTAC
    TGCAGACAGC TTTATGACCT GCTAAATGGA AGGAAAAGGC TTTTTGCAAG AGAAGATGGC
    AAGCGCATTG TTCAGATAGC TGGACTCCAG GAGGTTCGGG TGGATTCTGT AGATCAGCTG
    TTGGAGGTGA TTTTGAAGGG GGGAAAAGAA CGTAGCACAG GAACTACTGC AGTCAACTCA
    GATTCCTCTC GGTCTCATGC TATCATCCAA ATTCAAATTA AAGACATGGC CAACAGGGCA
    TTTGGAAGGA TATCATTCAT TGACTTGGCT GGCAGTGAAA GGGCAGCTGA TGCCAAAGAC
    ACGGATCGAC AAACAAAAAT GGAAGGAGTA GAAATAAACC AAAGTCTTTT GGCACTAAAG
    GAATGCATTC GGGCGTTGGA TCAGGAACAC ACACATACTC CTTTCCGGCA AAGCACGTTA
    ACTCAGGTGC TAAAAGACTC TTTCATTGGC AATTCCAAGA CATGTATGAT AGCCAATGTT
    TCACCAAGCC ACGTAGCTAC AGAGCACACC TTGAACACTC TGCGATATGC TGACAGGGTC
    AAAGAGCTGA AGAAAGGGAT TAAATATCCT ACCCCTGTCA CAAAAAGGCA TCGCAGAGCT
    GGAAATGTGT TTCCAAAACG TGTCCAAACC ACTCCCTCTT TGCCATCTGG GGAAAAGAGC
    TCTCCAAAGA AAGTGAAGCT AGGCCTGCAG CATCCCTCAA GTGCTACAAA AGGAAGGGCG
    TATCCTGCAC TACTTCAACC ACCTGGTGTC CCTCTTACCT CTACCCCCAA GGGAACTGAC
    AAAGGACATG CCTACAAAGG AACCAGAACT CCCTGCTTCC ACCACACCAC CCCAGTTAAG
    GGAGTCCTAC GTATAACACA TCCCCTGAAG AAAAATGATC TATCCCCCCA CTCTGAAAAG
    AGCCCCACAG TGAAGGATTT CATTGCCACA GCAGAAACAG AAGAAAGTGG CCAACAAGAC
    AAGTATATGC AAAACAGAAC ACCTGTCCAG TACCTGAAAG TCCAGACAGT GCAACCTCTT
    CAGAAACAAC TTGTTCCTAG GGAAGATAAT TCCTTTGGAG TTGGCAACCT GCCCTCTGAC
    AGCGAACAGG AATGGGGAAA TACTTTTACT AAACAGTCCG TTGGACCCTG GGCATATCTG
    CCTCCATATC AGAAGGAAAG GGAAAAGCAT TTACGTCTTT ATCACCAGCA GCTTCAGCAG
    CCCCCTATTC TAAAGCAAAA ATTAAACTAT CAACCCCTTG AGAGGTTTTT AATGCAGTAC
    AAGCCCGAGG AGATTCAAGT GAAGCCAGAG CCGAGCCTTA CTCTAACTGA AGTCCAGAGC
    AAAGAGTGGG TACAGCTGGA AGATGTGGAT GACAGTGATT TCAGTGAAGA TTCTTTCTCA
    CCTGTCTGTA GTCAAAAGAG TGTGAAAAGA GGAAATAGCA ACAAATCCAG TCCACATTCA
    TTTTTCCTTC ATGAAAGAGA GCGAGGATCC GAAGAAGAGC AAAAGTACAA GTCCAAACAC
    AGACGTCTTG TTTACTCCAG TGAAGCTACC TTAACTCCAG AAAAGAATGC TTCAACCCCA
    TGTGTATCTC CTGTATTGAA ATCAGGAACT CCAGAGTGTA AAGAGTTTGA TCTCCAGCAT
    GAGGAGAAGG AAGAATCCAC TTTGGATAAA GAGGCTGCCC TTGCAGAAGG AGGTGTAAAA
    TGGAAAGCTC GAAAAAGTGG AGTTAGCCAC TCTGTTTCTT CCATTGATTC CTCAGAATTC
    ACCTCCGAGC TCATGGCCCC GCTCCTCGTG TTGCCTCTTG ATGGTGAGGA CACAACTGAA
    ACAGAGAAAG CACCTTCCAA CCAAGAGAAG CCCCACCACA AAAAGCAGGT GCTGGACAGT
    GATGCCCATA GCAGGTTTGA GGACGAGGGC TGGCAGTGCA CCAGGAGCAG ATCTCTGACT
    GACAGCATGC TGGATCCGTG GGACCAGTCC CAGCACGGGG AAAGGCTCTG TGTCCTGCTG
    GGCTCCTCTC AAGTCACACA CAAGAAGCGC CCATCCACCT GTGGCCGTGT GAAGCCATGC
    TGCAGCCACC CGGGATCAGT TTTGTCCAAG CAGGGAGTCC GGCACAGTTC ATTTGTTGGA
    CATGACCTGA CAGAAACATC CACAGCTGGA TCCACAGCTG GGTCTGCCAT CCCCAGGCCA
    GAGAAAGAGG GTGGGGGGCT TTGCAGTGAC TCCCCCTTCA AAGAACACTC GGAAAGCAGA
    CAGTGTAGTG CTGATATTAA TCAGCATAAC AATGCTGGTA ATGCAGGGAA GTCTAACTCA
    AGTAAAGGGT CCAGTGCTGA GGAAATAAAT GCTGAAATAC CTGAAAAGAG CTATGCATCC
    CAGTCCCTCT CTCAGGACAG CAGTTGGCTG CTGCAGCCCA AGCCAGAACT GAGCAATGAG
    GACCTTACCC ATACTGAAGA CCCTTCCAAG TCATCCTTTG GCAATGAAGA AACAGCGTTG
    CTAAAAAGGA AGTTAAAGCA GAGTATTTTT ACACTAGAGA CTTTTGCTGC AGATGCAGGA
    TTTGCAACCA AAGATAATAA GCCAATAGCA AGTGCAAAAT GCCCCTCACA CATGTCCAGG
    AGCAGTTCTC CAAGTGCTGC ATCCAAGATG GGGAAAGGAA AATGGCAGAG GGAAGCCCTA
    GAAAAGGCAC AAGAGACTGT AATTCGTGCT CATCAGCAGT ACCTGGATGA AATGGCAGAA
    CTGTGCTTGA AAGAGGAGTG CTTGATAGAT CAGATGTCAG AAATGGATTT TCAGGATTTC
    ATGACCATAC TGGATGAAAT CTTGGTGCTG AAGTTCGAGT CTTCCCAAAA AATGCGAGCC
    TTGCTTCAGT TTTGTTCAGC CTCCCTGGGT ACTGAAACAT CACTGCGAAC ACGTCCACTA
    GTTTAG

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

    RefSeq XP_030113688.1
    CDS116..3481
    Translation

    Target ORF information:

    RefSeq Version XM_030257828.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata kinesin family member 24 (KIF24), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_030257828.1

    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
    ATGAGCAAAC TCAGCTCCAA TACTTTCGAC AAAGAGACTC CATGGACAGA GAGTGAAAAA 
    ATCAGAGTGT GTGTCCGAAA ACGTCCTCTC TGCCAGAGGG AGGAGAGACT TGGGGAGTCT
    AATATAATCA CAGTGGAAGA TAAGGAAACC CTAATTCTCC ACCAGAAGAA GGAGGCAGTT
    GATCTTACAC AATACATTTT ACAGCATGTT TTTTATTTTG ATGAAGTCTT TGAGGAGACA
    TGTACCAATG AGGATGTGTA TATGAAGACA GCTTATCCTC TCATTCAGCA TATTTTTAAT
    GGAGGCAATG CAACTTGCTT TGCATACGGG CAGACTGGTG CTGGCAAGAC TTACACCATG
    ATAGGGACTC ATCAGAACCC AGGACTCTAT GCCCTGGCTG CCCAGGACAT CTTCAGGCAC
    CTGGAAGCAT CACCATCCAG GAAAGATCTT ATTGTTCTGA TCAGTTTTTA TGAGATCTAC
    TGCAGACAGC TTTATGACCT GCTAAATGGA AGGAAAAGGC TTTTTGCAAG AGAAGATGGC
    AAGCGCATTG TTCAGATAGC TGGACTCCAG GAGGTTCGGG TGGATTCTGT AGATCAGCTG
    TTGGAGGTGA TTTTGAAGGG GGGAAAAGAA CGTAGCACAG GAACTACTGC AGTCAACTCA
    GATTCCTCTC GGTCTCATGC TATCATCCAA ATTCAAATTA AAGACATGGC CAACAGGGCA
    TTTGGAAGGA TATCATTCAT TGACTTGGCT GGCAGTGAAA GGGCAGCTGA TGCCAAAGAC
    ACGGATCGAC AAACAAAAAT GGAAGGAGTA GAAATAAACC AAAGTCTTTT GGCACTAAAG
    GAATGCATTC GGGCGTTGGA TCAGGAACAC ACACATACTC CTTTCCGGCA AAGCACGTTA
    ACTCAGGTGC TAAAAGACTC TTTCATTGGC AATTCCAAGA CATGTATGAT AGCCAATGTT
    TCACCAAGCC ACGTAGCTAC AGAGCACACC TTGAACACTC TGCGATATGC TGACAGGGTC
    AAAGAGCTGA AGAAAGGGAT TAAATATCCT ACCCCTGTCA CAAAAAGGCA TCGCAGAGCT
    GGAAATGTGT TTCCAAAACG TGTCCAAACC ACTCCCTCTT TGCCATCTGG GGAAAAGAGC
    TCTCCAAAGA AAGTGAAGCT AGGCCTGCAG CATCCCTCAA GTGCTACAAA AGGAAGGGCG
    TATCCTGCAC TACTTCAACC ACCTGGTGTC CCTCTTACCT CTACCCCCAA GGGAACTGAC
    AAAGGACATG CCTACAAAGG AACCAGAACT CCCTGCTTCC ACCACACCAC CCCAGTTAAG
    GGAGTCCTAC GTATAACACA TCCCCTGAAG AAAAATGATC TATCCCCCCA CTCTGAAAAG
    AGCCCCACAG TGAAGGATTT CATTGCCACA GCAGAAACAG AAGAAAGTGG CCAACAAGAC
    AAGTATATGC AAAACAGAAC ACCTGTCCAG TACCTGAAAG TCCAGACAGT GCAACCTCTT
    CAGAAACAAC TTGTTCCTAG GGAAGATAAT TCCTTTGGAG TTGGCAACCT GCCCTCTGAC
    AGCGAACAGG AATGGGGAAA TACTTTTACT AAACAGTCCG TTGGACCCTG GGCATATCTG
    CCTCCATATC AGAAGGAAAG GGAAAAGCAT TTACGTCTTT ATCACCAGCA GCTTCAGCAG
    CCCCCTATTC TAAAGCAAAA ATTAAACTAT CAACCCCTTG AGAGGTTTTT AATGCAGTAC
    AAGCCCGAGG AGATTCAAGT GAAGCCAGAG CCGAGCCTTA CTCTAACTGA AGTCCAGAGC
    AAAGAGTGGG TACAGCTGGA AGATGTGGAT GACAGTGATT TCAGTGAAGA TTCTTTCTCA
    CCTGTCTGTA GTCAAAAGAG TGTGAAAAGA GGAAATAGCA ACAAATCCAG TCCACATTCA
    TTTTTCCTTC ATGAAAGAGA GCGAGGATCC GAAGAAGAGC AAAAGTACAA GTCCAAACAC
    AGACGTCTTG TTTACTCCAG TGAAGCTACC TTAACTCCAG AAAAGAATGC TTCAACCCCA
    TGTGTATCTC CTGTATTGAA ATCAGGAACT CCAGAGTGTA AAGAGTTTGA TCTCCAGCAT
    GAGGAGAAGG AAGAATCCAC TTTGGATAAA GAGGCTGCCC TTGCAGAAGG AGGTGTAAAA
    TGGAAAGCTC GAAAAAGTGG AGTTAGCCAC TCTGTTTCTT CCATTGATTC CTCAGAATTC
    ACCTCCGAGC TCATGGCCCC GCTCCTCGTG TTGCCTCTTG ATGGTGAGGA CACAACTGAA
    ACAGAGAAAG CACCTTCCAA CCAAGAGAAG CCCCACCACA AAAAGCAGGT GCTGGACAGT
    GATGCCCATA GCAGGTTTGA GGACGAGGGC TGGCAGTGCA CCAGGAGCAG ATCTCTGACT
    GACAGCATGC TGGATCCGTG GGACCAGTCC CAGCACGGGG AAAGGCTCTG TGTCCTGCTG
    GGCTCCTCTC AAGTCACACA CAAGAAGCGC CCATCCACCT GTGGCCGTGT GAAGCCATGC
    TGCAGCCACC CGGGATCAGT TTTGTCCAAG CAGGGAGTCC GGCACAGTTC ATTTGTTGGA
    CATGACCTGA CAGAAACATC CACAGCTGGA TCCACAGCTG GGTCTGCCAT CCCCAGGCCA
    GAGAAAGAGG GTGGGGGGCT TTGCAGTGAC TCCCCCTTCA AAGAACACTC GGAAAGCAGA
    CAGTGTAGTG CTGATATTAA TCAGCATAAC AATGCTGGTA ATGCAGGGAA GTCTAACTCA
    AGTAAAGGGT CCAGTGCTGA GGAAATAAAT GCTGAAATAC CTGAAAAGAG CTATGCATCC
    CAGTCCCTCT CTCAGGACAG CAGTTGGCTG CTGCAGCCCA AGCCAGAACT GAGCAATGAG
    GACCTTACCC ATACTGAAGA CCCTTCCAAG TCATCCTTTG GCAATGAAGA AACAGCGTTG
    CTAAAAAGGA AGTTAAAGCA GAGTATTTTT ACACTAGAGA CTTTTGCTGC AGATGCAGGA
    TTTGCAACCA AAGATAATAA GCCAATAGCA AGTGCAAAAT GCCCCTCACA CATGTCCAGG
    AGCAGTTCTC CAAGTGCTGC ATCCAAGATG GGGAAAGGAA AATGGCAGAG GGAAGCCCTA
    GAAAAGGCAC AAGAGACTGT AATTCGTGCT CATCAGCAGT ACCTGGATGA AATGGCAGAA
    CTGTGCTTGA AAGAGGAGTG CTTGATAGAT CAGATGTCAG AAATGGATTT TCAGGATTTC
    ATGACCATAC TGGATGAAAT CTTGGTGCTG AAGTTCGAGT CTTCCCAAAA AATGCGAGCC
    TTGCTTCAGT TTTGTTCAGC CTCCCTGGGT ACTGAAACAT CACTGCGAAC ACGTCCACTA
    GTTTAG

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

    CloneID OTd19866
    Clone ID Related Accession (Same CDS sequence) XM_030257827.1 , XM_012577545.1 , XM_030257826.1
    Accession Version XM_012577545.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3930bp)
    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 kinesin-like protein KIF24
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002234465.1) 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 :: 37% of CDS bases ##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
    ATGGCATCAT GCCTTTATGA ATGCCTTTGT GAAGCAGAAC TTGAAAAATA CTTCCCCCAC 
    TTTGCTGCCT TTGGTCTTCA GAAAATTGAT GAGCTTGCCA AAGTTTCCAT GGAAGATTAC
    ACCAAACTGG GGGTCCATGA TGTAAATGAC CTCAAACGTC TTTTCCAGCT CATTAGAATA
    ATCAAAATTA GGCAACGAGA AGACGCTGCA GACTTAAGCA AGCAAGATTT TCAACCACAT
    GGCCTTTTCA TTCAGCCTCA GGTGACCAAG TCAGGACCCT ATAGACAGCT GCGTTTTGAG
    TCCTTCTGTG AAGAAAATGA TGGAACAGTT AAAGAGTCTG AATCTGAATT GTATCATTCA
    CCTGATTTCA GTGCCAATGA AAAGAAGGAC AGTGTAGGGG AAATGCTGGG ACACATTCCA
    CCACACAATT CAGTAGGGGA AATGCTGGGA CACATTCCAC CACATGATTC AGAGCCAATC
    AGATTAACTA GAAGAGACCT AAATATTCCT GGAATAGGTA CAAAAGATGA CCTGAGCTGT
    CCAACAGTTT CTGATGATAT TGCTCATCTC TGTATCAGCT CCAATACTTT CGACAAAGAG
    ACTCCATGGA CAGAGAGTGA AAAAATCAGA GTGTGTGTCC GAAAACGTCC TCTCTGCCAG
    AGGGAGGAGA GACTTGGGGA GTCTAATATA ATCACAGTGG AAGATAAGGA AACCCTAATT
    CTCCACCAGA AGAAGGAGGC AGTTGATCTT ACACAATACA TTTTACAGCA TGTTTTTTAT
    TTTGATGAAG TCTTTGAGGA GACATGTACC AATGAGGATG TGTATATGAA GACAGCTTAT
    CCTCTCATTC AGCATATTTT TAATGGAGGC AATGCAACTT GCTTTGCATA CGGGCAGACT
    GGTGCTGGCA AGACTTACAC CATGATAGGG ACTCATCAGA ACCCAGGACT CTATGCCCTG
    GCTGCCCAGG ACATCTTCAG GCACCTGGAA GCATCACCAT CCAGGAAAGA TCTTATTGTT
    CTGATCAGTT TTTATGAGAT CTACTGCAGA CAGCTTTATG ACCTGCTAAA TGGAAGGAAA
    AGGCTTTTTG CAAGAGAAGA TGGCAAGCGC ATTGTTCAGA TAGCTGGACT CCAGGAGGTT
    CGGGTGGATT CTGTAGATCA GCTGTTGGAG GTGATTTTGA AGGGGGGAAA AGAACGTAGC
    ACAGGAACTA CTGCAGTCAA CTCAGATTCC TCTCGGTCTC ATGCTATCAT CCAAATTCAA
    ATTAAAGACA TGGCCAACAG GGCATTTGGA AGGATATCAT TCATTGACTT GGCTGGCAGT
    GAAAGGGCAG CTGATGCCAA AGACACGGAT CGACAAACAA AAATGGAAGG AGTAGAAATA
    AACCAAAGTC TTTTGGCACT AAAGGAATGC ATTCGGGCGT TGGATCAGGA ACACACACAT
    ACTCCTTTCC GGCAAAGCAC GTTAACTCAG GTGCTAAAAG ACTCTTTCAT TGGCAATTCC
    AAGACATGTA TGATAGCCAA TGTTTCACCA AGCCACGTAG CTACAGAGCA CACCTTGAAC
    ACTCTGCGAT ATGCTGACAG GGTCAAAGAG CTGAAGAAAG GGATTAAATA TCCTACCCCT
    GTCACAAAAA GGCATCGCAG AGCTGGAAAT GTGTTTCCAA AACGTGTCCA AACCACTCCC
    TCTTTGCCAT CTGGGGAAAA GAGCTCTCCA AAGAAAGTGA AGCTAGGCCT GCAGCATCCC
    TCAAGTGCTA CAAAAGGAAG GGCGTATCCT GCACTACTTC AACCACCTGG TGTCCCTCTT
    ACCTCTACCC CCAAGGGAAC TGACAAAGGA CATGCCTACA AAGGAACCAG AACTCCCTGC
    TTCCACCACA CCACCCCAGT TAAGGGAGTC CTACGTATAA CACATCCCCT GAAGAAAAAT
    GATCTATCCC CCCACTCTGA AAAGAGCCCC ACAGTGAAGG ATTTCATTGC CACAGCAGAA
    ACAGAAGAAA GTGGCCAACA AGACAAGTAT ATGCAAAACA GAACACCTGT CCAGTACCTG
    AAAGTCCAGA CAGTGCAACC TCTTCAGAAA CAACTTGTTC CTAGGGAAGA TAATTCCTTT
    GGAGTTGGCA ACCTGCCCTC TGACAGCGAA CAGGAATGGG GAAATACTTT TACTAAACAG
    TCCGTTGGAC CCTGGGCATA TCTGCCTCCA TATCAGAAGG AAAGGGAAAA GCATTTACGT
    CTTTATCACC AGCAGCTTCA GCAGCCCCCT ATTCTAAAGC AAAAATTAAA CTATCAACCC
    CTTGAGAGGT TTTTAATGCA GTACAAGCCC GAGGAGATTC AAGTGAAGCC AGAGCCGAGC
    CTTACTCTAA CTGAAGTCCA GAGCAAAGAG TGGGTACAGC TGGAAGATGT GGATGACAGT
    GATTTCAGTG AAGATTCTTT CTCACCTGTC TGTAGTCAAA AGAGTGTGAA AAGAGGAAAT
    AGCAACAAAT CCAGTCCACA TTCATTTTTC CTTCATGAAA GAGAGCGAGG ATCCGAAGAA
    GAGCAAAAGT ACAAGTCCAA ACACAGACGT CTTGTTTACT CCAGTGAAGC TACCTTAACT
    CCAGAAAAGA ATGCTTCAAC CCCATGTGTA TCTCCTGTAT TGAAATCAGG AACTCCAGAG
    TGTAAAGAGT TTGATCTCCA GCATGAGGAG AAGGAAGAAT CCACTTTGGA TAAAGAGGCT
    GCCCTTGCAG AAGGAGGTGT AAAATGGAAA GCTCGAAAAA GTGGAGTTAG CCACTCTGTT
    TCTTCCATTG ATTCCTCAGA ATTCACCTCC GAGCTCATGG CCCCGCTCCT CGTGTTGCCT
    CTTGATGGTG AGGACACAAC TGAAACAGAG AAAGCACCTT CCAACCAAGA GAAGCCCCAC
    CACAAAAAGC AGGTGCTGGA CAGTGATGCC CATAGCAGGT TTGAGGACGA GGGCTGGCAG
    TGCACCAGGA GCAGATCTCT GACTGACAGC ATGCTGGATC CGTGGGACCA GTCCCAGCAC
    GGGGAAAGGC TCTGTGTCCT GCTGGGCTCC TCTCAAGTCA CACACAAGAA GCGCCCATCC
    ACCTGTGGCC GTGTGAAGCC ATGCTGCAGC CACCCGGGAT CAGTTTTGTC CAAGCAGGGA
    GTCCGGCACA GTTCATTTGT TGGACATGAC CTGACAGAAA CATCCACAGC TGGATCCACA
    GCTGGGTCTG CCATCCCCAG GCCAGAGAAA GAGGGTGGGG GGCTTTGCAG TGACTCCCCC
    TTCAAAGAAC ACTCGGAAAG CAGACAGTGT AGTGCTGATA TTAATCAGCA TAACAATGCT
    GGTAATGCAG GGAAGTCTAA CTCAAGTAAA GGGTCCAGTG CTGAGGAAAT AAATGCTGAA
    ATACCTGAAA AGAGCTATGC ATCCCAGTCC CTCTCTCAGG ACAGCAGTTG GCTGCTGCAG
    CCCAAGCCAG AACTGAGCAA TGAGGACCTT ACCCATACTG AAGACCCTTC CAAGTCATCC
    TTTGGCAATG AAGAAACAGC GTTGCTAAAA AGGAAGTTAA AGCAGAGTAT TTTTACACTA
    GAGACTTTTG CTGCAGATGC AGGATTTGCA ACCAAAGATA ATAAGCCAAT AGCAAGTGCA
    AAATGCCCCT CACACATGTC CAGGAGCAGT TCTCCAAGTG CTGCATCCAA GATGGGGAAA
    GGAAAATGGC AGAGGGAAGC CCTAGAAAAG GCACAAGAGA CTGTAATTCG TGCTCATCAG
    CAGTACCTGG ATGAAATGGC AGAACTGTGC TTGAAAGAGG AGTGCTTGAT AGATCAGATG
    TCAGAAATGG ATTTTCAGGA TTTCATGACC ATACTGGATG AAATCTTGGT GCTGAAGTTC
    GAGTCTTCCC AAAAAATGCG AGCCTTGCTT CAGTTTTGTT CAGCCTCCCT GGGTACTGAA
    ACATCACTGC GAACACGTCC ACTAGTTTAG

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

    RefSeq XP_012432999.1
    CDS1..3930
    Translation

    Target ORF information:

    RefSeq Version XM_012577545.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata kinesin family member 24 (KIF24), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012577545.1

    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
    ATGGCATCAT GCCTTTATGA ATGCCTTTGT GAAGCAGAAC TTGAAAAATA CTTCCCCCAC 
    TTTGCTGCCT TTGGTCTTCA GAAAATTGAT GAGCTTGCCA AAGTTTCCAT GGAAGATTAC
    ACCAAACTGG GGGTCCATGA TGTAAATGAC CTCAAACGTC TTTTCCAGCT CATTAGAATA
    ATCAAAATTA GGCAACGAGA AGACGCTGCA GACTTAAGCA AGCAAGATTT TCAACCACAT
    GGCCTTTTCA TTCAGCCTCA GGTGACCAAG TCAGGACCCT ATAGACAGCT GCGTTTTGAG
    TCCTTCTGTG AAGAAAATGA TGGAACAGTT AAAGAGTCTG AATCTGAATT GTATCATTCA
    CCTGATTTCA GTGCCAATGA AAAGAAGGAC AGTGTAGGGG AAATGCTGGG ACACATTCCA
    CCACACAATT CAGTAGGGGA AATGCTGGGA CACATTCCAC CACATGATTC AGAGCCAATC
    AGATTAACTA GAAGAGACCT AAATATTCCT GGAATAGGTA CAAAAGATGA CCTGAGCTGT
    CCAACAGTTT CTGATGATAT TGCTCATCTC TGTATCAGCT CCAATACTTT CGACAAAGAG
    ACTCCATGGA CAGAGAGTGA AAAAATCAGA GTGTGTGTCC GAAAACGTCC TCTCTGCCAG
    AGGGAGGAGA GACTTGGGGA GTCTAATATA ATCACAGTGG AAGATAAGGA AACCCTAATT
    CTCCACCAGA AGAAGGAGGC AGTTGATCTT ACACAATACA TTTTACAGCA TGTTTTTTAT
    TTTGATGAAG TCTTTGAGGA GACATGTACC AATGAGGATG TGTATATGAA GACAGCTTAT
    CCTCTCATTC AGCATATTTT TAATGGAGGC AATGCAACTT GCTTTGCATA CGGGCAGACT
    GGTGCTGGCA AGACTTACAC CATGATAGGG ACTCATCAGA ACCCAGGACT CTATGCCCTG
    GCTGCCCAGG ACATCTTCAG GCACCTGGAA GCATCACCAT CCAGGAAAGA TCTTATTGTT
    CTGATCAGTT TTTATGAGAT CTACTGCAGA CAGCTTTATG ACCTGCTAAA TGGAAGGAAA
    AGGCTTTTTG CAAGAGAAGA TGGCAAGCGC ATTGTTCAGA TAGCTGGACT CCAGGAGGTT
    CGGGTGGATT CTGTAGATCA GCTGTTGGAG GTGATTTTGA AGGGGGGAAA AGAACGTAGC
    ACAGGAACTA CTGCAGTCAA CTCAGATTCC TCTCGGTCTC ATGCTATCAT CCAAATTCAA
    ATTAAAGACA TGGCCAACAG GGCATTTGGA AGGATATCAT TCATTGACTT GGCTGGCAGT
    GAAAGGGCAG CTGATGCCAA AGACACGGAT CGACAAACAA AAATGGAAGG AGTAGAAATA
    AACCAAAGTC TTTTGGCACT AAAGGAATGC ATTCGGGCGT TGGATCAGGA ACACACACAT
    ACTCCTTTCC GGCAAAGCAC GTTAACTCAG GTGCTAAAAG ACTCTTTCAT TGGCAATTCC
    AAGACATGTA TGATAGCCAA TGTTTCACCA AGCCACGTAG CTACAGAGCA CACCTTGAAC
    ACTCTGCGAT ATGCTGACAG GGTCAAAGAG CTGAAGAAAG GGATTAAATA TCCTACCCCT
    GTCACAAAAA GGCATCGCAG AGCTGGAAAT GTGTTTCCAA AACGTGTCCA AACCACTCCC
    TCTTTGCCAT CTGGGGAAAA GAGCTCTCCA AAGAAAGTGA AGCTAGGCCT GCAGCATCCC
    TCAAGTGCTA CAAAAGGAAG GGCGTATCCT GCACTACTTC AACCACCTGG TGTCCCTCTT
    ACCTCTACCC CCAAGGGAAC TGACAAAGGA CATGCCTACA AAGGAACCAG AACTCCCTGC
    TTCCACCACA CCACCCCAGT TAAGGGAGTC CTACGTATAA CACATCCCCT GAAGAAAAAT
    GATCTATCCC CCCACTCTGA AAAGAGCCCC ACAGTGAAGG ATTTCATTGC CACAGCAGAA
    ACAGAAGAAA GTGGCCAACA AGACAAGTAT ATGCAAAACA GAACACCTGT CCAGTACCTG
    AAAGTCCAGA CAGTGCAACC TCTTCAGAAA CAACTTGTTC CTAGGGAAGA TAATTCCTTT
    GGAGTTGGCA ACCTGCCCTC TGACAGCGAA CAGGAATGGG GAAATACTTT TACTAAACAG
    TCCGTTGGAC CCTGGGCATA TCTGCCTCCA TATCAGAAGG AAAGGGAAAA GCATTTACGT
    CTTTATCACC AGCAGCTTCA GCAGCCCCCT ATTCTAAAGC AAAAATTAAA CTATCAACCC
    CTTGAGAGGT TTTTAATGCA GTACAAGCCC GAGGAGATTC AAGTGAAGCC AGAGCCGAGC
    CTTACTCTAA CTGAAGTCCA GAGCAAAGAG TGGGTACAGC TGGAAGATGT GGATGACAGT
    GATTTCAGTG AAGATTCTTT CTCACCTGTC TGTAGTCAAA AGAGTGTGAA AAGAGGAAAT
    AGCAACAAAT CCAGTCCACA TTCATTTTTC CTTCATGAAA GAGAGCGAGG ATCCGAAGAA
    GAGCAAAAGT ACAAGTCCAA ACACAGACGT CTTGTTTACT CCAGTGAAGC TACCTTAACT
    CCAGAAAAGA ATGCTTCAAC CCCATGTGTA TCTCCTGTAT TGAAATCAGG AACTCCAGAG
    TGTAAAGAGT TTGATCTCCA GCATGAGGAG AAGGAAGAAT CCACTTTGGA TAAAGAGGCT
    GCCCTTGCAG AAGGAGGTGT AAAATGGAAA GCTCGAAAAA GTGGAGTTAG CCACTCTGTT
    TCTTCCATTG ATTCCTCAGA ATTCACCTCC GAGCTCATGG CCCCGCTCCT CGTGTTGCCT
    CTTGATGGTG AGGACACAAC TGAAACAGAG AAAGCACCTT CCAACCAAGA GAAGCCCCAC
    CACAAAAAGC AGGTGCTGGA CAGTGATGCC CATAGCAGGT TTGAGGACGA GGGCTGGCAG
    TGCACCAGGA GCAGATCTCT GACTGACAGC ATGCTGGATC CGTGGGACCA GTCCCAGCAC
    GGGGAAAGGC TCTGTGTCCT GCTGGGCTCC TCTCAAGTCA CACACAAGAA GCGCCCATCC
    ACCTGTGGCC GTGTGAAGCC ATGCTGCAGC CACCCGGGAT CAGTTTTGTC CAAGCAGGGA
    GTCCGGCACA GTTCATTTGT TGGACATGAC CTGACAGAAA CATCCACAGC TGGATCCACA
    GCTGGGTCTG CCATCCCCAG GCCAGAGAAA GAGGGTGGGG GGCTTTGCAG TGACTCCCCC
    TTCAAAGAAC ACTCGGAAAG CAGACAGTGT AGTGCTGATA TTAATCAGCA TAACAATGCT
    GGTAATGCAG GGAAGTCTAA CTCAAGTAAA GGGTCCAGTG CTGAGGAAAT AAATGCTGAA
    ATACCTGAAA AGAGCTATGC ATCCCAGTCC CTCTCTCAGG ACAGCAGTTG GCTGCTGCAG
    CCCAAGCCAG AACTGAGCAA TGAGGACCTT ACCCATACTG AAGACCCTTC CAAGTCATCC
    TTTGGCAATG AAGAAACAGC GTTGCTAAAA AGGAAGTTAA AGCAGAGTAT TTTTACACTA
    GAGACTTTTG CTGCAGATGC AGGATTTGCA ACCAAAGATA ATAAGCCAAT AGCAAGTGCA
    AAATGCCCCT CACACATGTC CAGGAGCAGT TCTCCAAGTG CTGCATCCAA GATGGGGAAA
    GGAAAATGGC AGAGGGAAGC CCTAGAAAAG GCACAAGAGA CTGTAATTCG TGCTCATCAG
    CAGTACCTGG ATGAAATGGC AGAACTGTGC TTGAAAGAGG AGTGCTTGAT AGATCAGATG
    TCAGAAATGG ATTTTCAGGA TTTCATGACC ATACTGGATG AAATCTTGGT GCTGAAGTTC
    GAGTCTTCCC AAAAAATGCG AGCCTTGCTT CAGTTTTGTT CAGCCTCCCT GGGTACTGAA
    ACATCACTGC GAACACGTCC ACTAGTTTAG

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