Kif26a cDNA ORF clone, Mus caroli(Ryukyu mouse)

The following Kif26a gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Kif26a 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
OMv28799 XM_021179102.1
Latest version!
Mus caroli kinesin family member 26A (Kif26a), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OMv28800 XM_021179103.2
Latest version!
Mus caroli kinesin family member 26A (Kif26a), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OMv68396 XM_029484876.1
Latest version!
Mus caroli kinesin family member 26A (Kif26a), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
View Old Accession Versions >>
OMv28800 XM_021179103.1 Mus caroli kinesin family member 26A (Kif26a), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
Hide Old Accession Versions >>

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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 OMv28799
    Clone ID Related Accession (Same CDS sequence) XM_021179102.1
    Accession Version XM_021179102.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5655bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product kinesin-like protein KIF26A isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    ATGGTCGGCC GCGGCGCCTC CTTGTGTGCG GTGCAGCCCG CGGTGGCTGA GTGCGGCCCG 
    GCTCGAGAGA CCCCGCCACT TGAGGTATCC CCACGCAAGA GGCTGCCCGC CGGGCTCGAT
    CAAGACCCAT GCAGCAGCCG CCCTGCTCCG GAGGGCGCTG GGGCCAGCGC TGAGCAGAGC
    CACTCGGCCG GTGGGGGCGG GTGGTGCCGC CACTGCCACA CGAAGCTCGT GGAGCTAAAA
    CGACAGGCGT GGAAGTTGGT CAGCGGGCCC GGGACTCCTC TCCGGGATCC TTGCCTCTCT
    ACCTTGCTGC TTGACAAGCT CCCGGCCTCT GGGGTTCAGC CAGCATGCCG CCCTGACGCC
    GAGAGCCGCT GTGACGTATG CACCACGCAT CTGCACCAGC TCACTCGGGA AGCCCTGCGC
    CTGTTACAGA CGCCTGCCAG TCACGAGGAC CCCGATGCTT CCCGAGGAGG CCTTGCGGCT
    CCCAGCCCCA GGGACCCACC TGGACCCGTG GGCCTCATGG GGAGGCAGCC CCCTGTGGGA
    CCTGACAGGA GGAAGGCAAC GGCTTGGCCA CCTGGCCCCA GCGTCCAGGT GTCGGTGGCA
    CCAGCAGGCC TTGGGGGAGC ATTGAGTACA GTCACCATCC AGGCCCAGCA GTGCTTGGAG
    GGTGTGTGGA GCCTCTCAAG GGTCAACAGC TTCTTGCCAC CCACTTGCCT GGCTGAGGCA
    GCTGTAGCTG CGGTGGCTGT GGCCGACACT GTCCGAGACT GTGCTCCAGC AGCAGGCCCT
    GAACGTATGT CGAAGGCGTG GGGCCGAGGG GCAGCATGCA CTACAGCCCT GGTTACCCCA
    GCCCCAGGCA CCTCAGCAGG GGGTTCCACA GGCCCGTCTG CAGCGGCCTC TTTCTTTATA
    AGGGCTGCCC AGAAGCTCAG CCTGGCCTCC AAGCGCAAGA AGCATCACCC GCCGCCTGCG
    CCCTCCACCC GAGGCACGTC CACTTACCCC ACCGACTTCA GTGGCTCTCT GCAGCTGTGG
    CCGCCCCCGG TGCCCCCCTG CCTGCTCAGG GCTGCCTCCA AGGCCAAGGA AAACCCCAGC
    AGCTTCGGAA AGGTGAAGGT TATGCTGCGC ATATGGCCGG CACAAGGAGT CCAGCGCTCA
    GCAGAGTCCA CATCCTTCCT GAAGGTGGAT TCTCGAAAGA AGCAGGTGAC TCTCTATGAC
    CCCGCTGCCG GGCCTCCAGG CTGTGCAGGA CTCCGGCACG CCCCCACCGC ACCAGTCCCC
    AAGATGTTTG CTTTTGATGC CATCTTCCCC CAGGACTCGG AGCAGGCTGA GGTCTGCTCA
    GGGACGGTGG CTGATGTGCT CCAGTCTGTG GTCAGTGGAG CTGATGGCTG CATTTTTTCC
    TTTGGCCACA TGAGCCTCGG CAAATCATAC ACCATGATTG GGAAGGACAG CTCACCCCAG
    AGCCTGGGCA TCGTGCCCTG TGCTATCTCC TGGCTCTTCA GGCTCATTGA CGAACGCAAG
    GAGAGGCTGG GCACGCGCTT CTCCATCCGT GTGTCTGCTG TGGAAGTGTG CGGCCACGAC
    CAGAGTCTGC GGGACCTGCT TGCTGAGGTG GCTTCAGGCA GCCTTCAGGA CACCCAGTCT
    CCGGGCGTGT ACCTCCGGGA GGACCCTGTG TGTGGGACAC AGATCCAGAA CCAGAACGAG
    CTGCGCGCAC CCACAGCAGA GAAGGCGGCC TTCTACCTGG ACGCGGCCCT GGCAGCCCGC
    AGCACCAGCC GTGCTGGCTG CGGGGAGGAC GCCCGGCGAA GCTCCCATAT GCTCTTCACC
    CTGCACGTGT ACCAGTACCG TGTGGAGAAG TGTGGCCAAG GAGGAATGTC TGGAGGTCGT
    AGCCGCCTGC ACCTGATCGA CCTGGGCAGC TGCGACACAG CCGTCAGCAG AGGAGGAGAA
    GCATCAGGGG GACCCCTCTG TCTGTCTCTG TCAGCTCTGG GCAGTGTCAT CCTGGCCCTG
    GTCAACGGGG CCAAGCATGT GCCCTACAGG GACCACAGAC TCACCATGTT ACTGAGGGAG
    TCCCTGGCTA CCACCAACTG CCGCACTACT ATGATCGCGC ACATCTCAGA CTCTCCAGCC
    CACCACGCAG AGACACTCAG CACCGTGCAG CTGGCTGCCC GCATCCACCG CCTGCGTAGG
    AAGAAGGGCA AGCACGCATC CAGTTCCTCA GGAGGAGAGA GCTCCTGTGA GGAGGGCCGG
    GCCCGCCGTC CCCCACACCT TCGGCCCTTC CACCCACGGG CCATGGTGTT GGACCCCGAC
    CGCTCGGCTC CTGGCCTGTC CGGAGACCCC GATTACTCAT CCAGCAGTGA GCAGTCCTGC
    GACACGGTCA TCTATGTGGG TCCTGGTGGG ATGGCGCTGT CAGACCGTGA GCTCACGGAC
    AACGAGGGCC CACCTGACTT CGTGCCCATT ATCCCTGCAC TGAGCCGACG CAGGCCCTCC
    GAGGGGCCCC GGGACGCTGA TCACTTCCGC TGCAGTACGT TCGCCGAGCT GCAGGAGCGT
    CTGGAGTGCA TAGATGGCAG CGAGGCGTTC CCTGGCCCCC AGGGCCCCCA GGGTGGCTCT
    GACGGAGCCC AAGCCAGCCC TGCCCGGGGA GGCAGGAAAC CCTCGTTACC TGAGGCCACA
    CCCTCCAGGA AGGCTGTGGC CCCCACAGTG GTCACCAGTT GCCCTCGAGG CAGCCCTGGG
    CACGATACTC ACCGGAGCGC CTCAGACCCC TCTAAGACTG GCACACAGAG TGAGCAGAGA
    GTAGATGGTG CCCGGCCTGA GCCACCTGCT TCAGACAAGA CCTCAGGAGG CGGGGGCAGG
    AGGCCACTGC CCAGTCCAGC CCCTCCACCG CCTCGCCAGC CGGAAGCTCA AAGCGTCCCC
    AAAGAACCTG GGGGAGAGGG TACTGACAGC GTGCTGCGGA CACCCCCAGT GGGCATGAGT
    GGACAGGCGG CCTTGCCCCC GCTGCTCTCA GACTCGGCTT ATCTCTCCCC GTCGGCTCGT
    GGACGCCATC TGGAGAGAGG CCTGCTGACC ACCACAGTGA CCCTGCAGCA GCCTGTGGAA
    CTCAATGGCG AGGATGAGTT GGTGTTCACG GTGGTAGAGG AGCTACCTCT GGGCGGACTT
    GCAGGGGCCA CACGGCCCTC CAGTCTGGCC AGCATGAGCA GCGACTGCTC CCTGCAGGCT
    TTGGCCTCAG GGTCCAGGCC AGTCAGTATC ATCAGTAGCA TCAATGATGA GTTTGATGCA
    TATACCTCGC AGATGTCTGA GGGTCCCGGA GACCCCGGGG AGTTCCCAGA GGGAACAGCG
    TGGGCTGGCG GCAGTCCAGC CTCCTCCATT GGCTCCTGGC TGAGTGACGT TGGTGTCTGC
    TTGTCTGAAA GCCGTGGTCC CACACCACAG CCTCCCTTCA GCCCCAACTC TGCAGCAGGG
    CCGGGTCCAC CAGAGTTTCC TACCCCAGGC AGCTCCCTAG AGGAAAGCAA GGTCAGGTCC
    TCAGAGTGTG GAAGACCAGA CAATCCCGGC TCAGCCCGGA GTCTCCACCC TGGAGAAGCG
    GTTGCAACAA CTCAGACCCA ACCTGGCAGA GAGCCTTGGG CCAGGTCCCC ACATGAGGTA
    GCCTCAGCCC AGACTATCCA CTCCAGCCTG CCTCGGAAAC CCAGGACTAC CTCCACAGCC
    AGCCGAGCTC GTCCTAGCCG GGGTCCATAC AGCCCTGGTG GCCTGTGTGA GGACCCTTGG
    CTGCTCCGGG CAGAGGACTG TGACACGCGC CAGATAGCCT CTACGGGCAG AGCCCCAAGC
    CCAACCCCAG GCTCCCCTCG ATTGCCTGAG ACTCAGATGA TGCCGGCTTG TGCCCAGAGA
    GTGGTGGATG GGTGTGAGGT GGCATCCAGA ATGTCGCGGA GACCAGAGGC TGTGGCTCGG
    ATCCCACCTT TGCGGAGGGG GGCCACCACA CTAGGAGTGA CCACACCTGC TGCATCCTGT
    GGGGACGCTC CAGCAGAGGC AGTGGTCCAT TCAGGAAGCC TGAAGACCAC CTCGGGCAGT
    AAGAAGAGCG TCTCGCCCAA GGGCGCCTTC TTTCCAAGGC CTAGTGGGGC AGGCCCCCCA
    GCCCCGCCTG TGCGCAAGTC TAGCCTGGAG CAGAGCACGG CCCTCACCCC CACCCAGGCC
    CTGGGACTGA CCAGGGCAGG GGCTCCTTCT GCCTTCCGAG GGGAGGAGGA AGCCAGGCCC
    AGTGGTCGGT CTGATTCCTC TGTTCCCAAG GCCACATCCA GCCTGAAAGC CCGAGCTGGC
    AAGATGGACG CACCACACCG TCCCTCTGGC CACATGTCCC TGGAACGGTG TGAGGGCCTG
    GCACATGGCA GCAGTAAGGT CAGAGATGTC GTAGGACGGC CACCAAGGGC TGTGCCCAGG
    TTGGGTGTAC CATCCGCCAG CCCTCCACTT GGACCAGCTC CTGCCTGTAG GAACAGCCCA
    GCCAAGGGTG TTGGAGCAAC CAAGCCTCCT GCTGGTGGAG CTAAGGGTCG TAATCTGGGG
    CCAAGCACAT CTCGGGCTCT GGGTGCTCCG GTGAAACCAC TAGGGCCTGT GGCAGGCAAG
    ACAGCTGGTA GCGCTGTGCC AGGACCCCGA GCTGCTCCAC GGGCTGTGCC GGGTATTGGG
    GCCAAGGCTG GTCGGGGCAC CATCATGGGC ACTAAGCAGG CATTCCGGGC TGCCCATAGC
    CGTGTCCACG AATTGGCAGC CAGTGGATCT CCTGGTAGAG GCGGCCTCTC CTGGGGCTCG
    ACGGACTCGG ACAGCGGCAA CGACAGCGGT GTGAACCTGG CTGAAGAGCG GCAGCCCGCG
    AGCCCTGCCC TGCCCTCCCC TTACAGCAAA GTGACCGCTC CGAGGAGACC CCAGCGCTAC
    AGCAGTGGCC ATGGCAGTGA CAACAGCAGC GTGCTGAGCG GTGAGCTGCC CCCTGCCATG
    GGCCGCACTG CTCTCTTCTA CCACAGTGGC GGCAGCAGTG GCTATGAGAG CATGATTCGG
    GACAGCGAGG CCACTGGCAG TGCCTCCTCG GCTCCAGACT CCATGAGCGA GAGTGGAACA
    GCCTCTCTGG GTGCCCGCTC CCGCAGCCTC AAGTCCCCGA AGAAGAGAGC CACAGGTCTA
    CAGCGGAGGA GGCTGATCCC GGCCCCACTT CCTGACGCTG CTGCTTTAGG CCGCAAGCCC
    AGCCTCCCCG GGCAATGGGT AGACTTGCCC CCGCCCCTGG CCGGCTCTCT GAAGGAGCCT
    TTCGAGATCA AGGTGTACGA AATAGATGAC GTGGAGCGTC TGCAGCGGCA CCGGCTGCCT
    CTGAGGGAGA ATGAAGCCAA GCCCTCCCAG GACGCAGAGA AGGGCCCAGT GTGCATCAGC
    TCCAAGCTGC GTCTCGCAGA GCGCAGGCAG CAGCGACTGC AGGAAGTGCA GGCCAAACGT
    GACCACCTCT GCGAGGAGCT GGCTGAGACC CAGGGCCGGC TGATGGTGGA ACCTGGGCGC
    TGGCTGGAGC AGTTTGAGGT GGACCCAGAG CTGGAGCCAG AGTCAGCTGA ATATCTGGTG
    GCCCTGGAGC AAGCCACAGC TGCCCTGGAG CAGTGCGTTA ACCTGTGCAA GGCCCATGTC
    ATGATGGTCA CCTGCTTTGA CATTGGAGTT GCTGCCACCA CTGCTGTACC TGGGCCACAA
    GAGGTGGATG TTTGA

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

    RefSeq XP_021034761.1
    CDS158..5812
    Translation

    Target ORF information:

    RefSeq Version XM_021179102.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli kinesin family member 26A (Kif26a), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021179102.1

    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
    ATGGTCGGCC GCGGCGCCTC CTTGTGTGCG GTGCAGCCCG CGGTGGCTGA GTGCGGCCCG 
    GCTCGAGAGA CCCCGCCACT TGAGGTATCC CCACGCAAGA GGCTGCCCGC CGGGCTCGAT
    CAAGACCCAT GCAGCAGCCG CCCTGCTCCG GAGGGCGCTG GGGCCAGCGC TGAGCAGAGC
    CACTCGGCCG GTGGGGGCGG GTGGTGCCGC CACTGCCACA CGAAGCTCGT GGAGCTAAAA
    CGACAGGCGT GGAAGTTGGT CAGCGGGCCC GGGACTCCTC TCCGGGATCC TTGCCTCTCT
    ACCTTGCTGC TTGACAAGCT CCCGGCCTCT GGGGTTCAGC CAGCATGCCG CCCTGACGCC
    GAGAGCCGCT GTGACGTATG CACCACGCAT CTGCACCAGC TCACTCGGGA AGCCCTGCGC
    CTGTTACAGA CGCCTGCCAG TCACGAGGAC CCCGATGCTT CCCGAGGAGG CCTTGCGGCT
    CCCAGCCCCA GGGACCCACC TGGACCCGTG GGCCTCATGG GGAGGCAGCC CCCTGTGGGA
    CCTGACAGGA GGAAGGCAAC GGCTTGGCCA CCTGGCCCCA GCGTCCAGGT GTCGGTGGCA
    CCAGCAGGCC TTGGGGGAGC ATTGAGTACA GTCACCATCC AGGCCCAGCA GTGCTTGGAG
    GGTGTGTGGA GCCTCTCAAG GGTCAACAGC TTCTTGCCAC CCACTTGCCT GGCTGAGGCA
    GCTGTAGCTG CGGTGGCTGT GGCCGACACT GTCCGAGACT GTGCTCCAGC AGCAGGCCCT
    GAACGTATGT CGAAGGCGTG GGGCCGAGGG GCAGCATGCA CTACAGCCCT GGTTACCCCA
    GCCCCAGGCA CCTCAGCAGG GGGTTCCACA GGCCCGTCTG CAGCGGCCTC TTTCTTTATA
    AGGGCTGCCC AGAAGCTCAG CCTGGCCTCC AAGCGCAAGA AGCATCACCC GCCGCCTGCG
    CCCTCCACCC GAGGCACGTC CACTTACCCC ACCGACTTCA GTGGCTCTCT GCAGCTGTGG
    CCGCCCCCGG TGCCCCCCTG CCTGCTCAGG GCTGCCTCCA AGGCCAAGGA AAACCCCAGC
    AGCTTCGGAA AGGTGAAGGT TATGCTGCGC ATATGGCCGG CACAAGGAGT CCAGCGCTCA
    GCAGAGTCCA CATCCTTCCT GAAGGTGGAT TCTCGAAAGA AGCAGGTGAC TCTCTATGAC
    CCCGCTGCCG GGCCTCCAGG CTGTGCAGGA CTCCGGCACG CCCCCACCGC ACCAGTCCCC
    AAGATGTTTG CTTTTGATGC CATCTTCCCC CAGGACTCGG AGCAGGCTGA GGTCTGCTCA
    GGGACGGTGG CTGATGTGCT CCAGTCTGTG GTCAGTGGAG CTGATGGCTG CATTTTTTCC
    TTTGGCCACA TGAGCCTCGG CAAATCATAC ACCATGATTG GGAAGGACAG CTCACCCCAG
    AGCCTGGGCA TCGTGCCCTG TGCTATCTCC TGGCTCTTCA GGCTCATTGA CGAACGCAAG
    GAGAGGCTGG GCACGCGCTT CTCCATCCGT GTGTCTGCTG TGGAAGTGTG CGGCCACGAC
    CAGAGTCTGC GGGACCTGCT TGCTGAGGTG GCTTCAGGCA GCCTTCAGGA CACCCAGTCT
    CCGGGCGTGT ACCTCCGGGA GGACCCTGTG TGTGGGACAC AGATCCAGAA CCAGAACGAG
    CTGCGCGCAC CCACAGCAGA GAAGGCGGCC TTCTACCTGG ACGCGGCCCT GGCAGCCCGC
    AGCACCAGCC GTGCTGGCTG CGGGGAGGAC GCCCGGCGAA GCTCCCATAT GCTCTTCACC
    CTGCACGTGT ACCAGTACCG TGTGGAGAAG TGTGGCCAAG GAGGAATGTC TGGAGGTCGT
    AGCCGCCTGC ACCTGATCGA CCTGGGCAGC TGCGACACAG CCGTCAGCAG AGGAGGAGAA
    GCATCAGGGG GACCCCTCTG TCTGTCTCTG TCAGCTCTGG GCAGTGTCAT CCTGGCCCTG
    GTCAACGGGG CCAAGCATGT GCCCTACAGG GACCACAGAC TCACCATGTT ACTGAGGGAG
    TCCCTGGCTA CCACCAACTG CCGCACTACT ATGATCGCGC ACATCTCAGA CTCTCCAGCC
    CACCACGCAG AGACACTCAG CACCGTGCAG CTGGCTGCCC GCATCCACCG CCTGCGTAGG
    AAGAAGGGCA AGCACGCATC CAGTTCCTCA GGAGGAGAGA GCTCCTGTGA GGAGGGCCGG
    GCCCGCCGTC CCCCACACCT TCGGCCCTTC CACCCACGGG CCATGGTGTT GGACCCCGAC
    CGCTCGGCTC CTGGCCTGTC CGGAGACCCC GATTACTCAT CCAGCAGTGA GCAGTCCTGC
    GACACGGTCA TCTATGTGGG TCCTGGTGGG ATGGCGCTGT CAGACCGTGA GCTCACGGAC
    AACGAGGGCC CACCTGACTT CGTGCCCATT ATCCCTGCAC TGAGCCGACG CAGGCCCTCC
    GAGGGGCCCC GGGACGCTGA TCACTTCCGC TGCAGTACGT TCGCCGAGCT GCAGGAGCGT
    CTGGAGTGCA TAGATGGCAG CGAGGCGTTC CCTGGCCCCC AGGGCCCCCA GGGTGGCTCT
    GACGGAGCCC AAGCCAGCCC TGCCCGGGGA GGCAGGAAAC CCTCGTTACC TGAGGCCACA
    CCCTCCAGGA AGGCTGTGGC CCCCACAGTG GTCACCAGTT GCCCTCGAGG CAGCCCTGGG
    CACGATACTC ACCGGAGCGC CTCAGACCCC TCTAAGACTG GCACACAGAG TGAGCAGAGA
    GTAGATGGTG CCCGGCCTGA GCCACCTGCT TCAGACAAGA CCTCAGGAGG CGGGGGCAGG
    AGGCCACTGC CCAGTCCAGC CCCTCCACCG CCTCGCCAGC CGGAAGCTCA AAGCGTCCCC
    AAAGAACCTG GGGGAGAGGG TACTGACAGC GTGCTGCGGA CACCCCCAGT GGGCATGAGT
    GGACAGGCGG CCTTGCCCCC GCTGCTCTCA GACTCGGCTT ATCTCTCCCC GTCGGCTCGT
    GGACGCCATC TGGAGAGAGG CCTGCTGACC ACCACAGTGA CCCTGCAGCA GCCTGTGGAA
    CTCAATGGCG AGGATGAGTT GGTGTTCACG GTGGTAGAGG AGCTACCTCT GGGCGGACTT
    GCAGGGGCCA CACGGCCCTC CAGTCTGGCC AGCATGAGCA GCGACTGCTC CCTGCAGGCT
    TTGGCCTCAG GGTCCAGGCC AGTCAGTATC ATCAGTAGCA TCAATGATGA GTTTGATGCA
    TATACCTCGC AGATGTCTGA GGGTCCCGGA GACCCCGGGG AGTTCCCAGA GGGAACAGCG
    TGGGCTGGCG GCAGTCCAGC CTCCTCCATT GGCTCCTGGC TGAGTGACGT TGGTGTCTGC
    TTGTCTGAAA GCCGTGGTCC CACACCACAG CCTCCCTTCA GCCCCAACTC TGCAGCAGGG
    CCGGGTCCAC CAGAGTTTCC TACCCCAGGC AGCTCCCTAG AGGAAAGCAA GGTCAGGTCC
    TCAGAGTGTG GAAGACCAGA CAATCCCGGC TCAGCCCGGA GTCTCCACCC TGGAGAAGCG
    GTTGCAACAA CTCAGACCCA ACCTGGCAGA GAGCCTTGGG CCAGGTCCCC ACATGAGGTA
    GCCTCAGCCC AGACTATCCA CTCCAGCCTG CCTCGGAAAC CCAGGACTAC CTCCACAGCC
    AGCCGAGCTC GTCCTAGCCG GGGTCCATAC AGCCCTGGTG GCCTGTGTGA GGACCCTTGG
    CTGCTCCGGG CAGAGGACTG TGACACGCGC CAGATAGCCT CTACGGGCAG AGCCCCAAGC
    CCAACCCCAG GCTCCCCTCG ATTGCCTGAG ACTCAGATGA TGCCGGCTTG TGCCCAGAGA
    GTGGTGGATG GGTGTGAGGT GGCATCCAGA ATGTCGCGGA GACCAGAGGC TGTGGCTCGG
    ATCCCACCTT TGCGGAGGGG GGCCACCACA CTAGGAGTGA CCACACCTGC TGCATCCTGT
    GGGGACGCTC CAGCAGAGGC AGTGGTCCAT TCAGGAAGCC TGAAGACCAC CTCGGGCAGT
    AAGAAGAGCG TCTCGCCCAA GGGCGCCTTC TTTCCAAGGC CTAGTGGGGC AGGCCCCCCA
    GCCCCGCCTG TGCGCAAGTC TAGCCTGGAG CAGAGCACGG CCCTCACCCC CACCCAGGCC
    CTGGGACTGA CCAGGGCAGG GGCTCCTTCT GCCTTCCGAG GGGAGGAGGA AGCCAGGCCC
    AGTGGTCGGT CTGATTCCTC TGTTCCCAAG GCCACATCCA GCCTGAAAGC CCGAGCTGGC
    AAGATGGACG CACCACACCG TCCCTCTGGC CACATGTCCC TGGAACGGTG TGAGGGCCTG
    GCACATGGCA GCAGTAAGGT CAGAGATGTC GTAGGACGGC CACCAAGGGC TGTGCCCAGG
    TTGGGTGTAC CATCCGCCAG CCCTCCACTT GGACCAGCTC CTGCCTGTAG GAACAGCCCA
    GCCAAGGGTG TTGGAGCAAC CAAGCCTCCT GCTGGTGGAG CTAAGGGTCG TAATCTGGGG
    CCAAGCACAT CTCGGGCTCT GGGTGCTCCG GTGAAACCAC TAGGGCCTGT GGCAGGCAAG
    ACAGCTGGTA GCGCTGTGCC AGGACCCCGA GCTGCTCCAC GGGCTGTGCC GGGTATTGGG
    GCCAAGGCTG GTCGGGGCAC CATCATGGGC ACTAAGCAGG CATTCCGGGC TGCCCATAGC
    CGTGTCCACG AATTGGCAGC CAGTGGATCT CCTGGTAGAG GCGGCCTCTC CTGGGGCTCG
    ACGGACTCGG ACAGCGGCAA CGACAGCGGT GTGAACCTGG CTGAAGAGCG GCAGCCCGCG
    AGCCCTGCCC TGCCCTCCCC TTACAGCAAA GTGACCGCTC CGAGGAGACC CCAGCGCTAC
    AGCAGTGGCC ATGGCAGTGA CAACAGCAGC GTGCTGAGCG GTGAGCTGCC CCCTGCCATG
    GGCCGCACTG CTCTCTTCTA CCACAGTGGC GGCAGCAGTG GCTATGAGAG CATGATTCGG
    GACAGCGAGG CCACTGGCAG TGCCTCCTCG GCTCCAGACT CCATGAGCGA GAGTGGAACA
    GCCTCTCTGG GTGCCCGCTC CCGCAGCCTC AAGTCCCCGA AGAAGAGAGC CACAGGTCTA
    CAGCGGAGGA GGCTGATCCC GGCCCCACTT CCTGACGCTG CTGCTTTAGG CCGCAAGCCC
    AGCCTCCCCG GGCAATGGGT AGACTTGCCC CCGCCCCTGG CCGGCTCTCT GAAGGAGCCT
    TTCGAGATCA AGGTGTACGA AATAGATGAC GTGGAGCGTC TGCAGCGGCA CCGGCTGCCT
    CTGAGGGAGA ATGAAGCCAA GCCCTCCCAG GACGCAGAGA AGGGCCCAGT GTGCATCAGC
    TCCAAGCTGC GTCTCGCAGA GCGCAGGCAG CAGCGACTGC AGGAAGTGCA GGCCAAACGT
    GACCACCTCT GCGAGGAGCT GGCTGAGACC CAGGGCCGGC TGATGGTGGA ACCTGGGCGC
    TGGCTGGAGC AGTTTGAGGT GGACCCAGAG CTGGAGCCAG AGTCAGCTGA ATATCTGGTG
    GCCCTGGAGC AAGCCACAGC TGCCCTGGAG CAGTGCGTTA ACCTGTGCAA GGCCCATGTC
    ATGATGGTCA CCTGCTTTGA CATTGGAGTT GCTGCCACCA CTGCTGTACC TGGGCCACAA
    GAGGTGGATG TTTGA

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

    CloneID OMv28800
    Clone ID Related Accession (Same CDS sequence) XM_021179103.1 , XM_021179103.2
    Accession Version XM_021179103.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5634bp)
    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 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    Product kinesin-like protein KIF26A isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus caroli 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
    ATGGTCGGCC GCGGCGCCTC CTTGTGTGCG GTGCAGCCCG CGGTGGCTGA GTGCGGCCCG 
    GCTCGAGAGA CCCCGCCACT TGAGGTATCC CCACGCAAGA GGCTGCCCGC CGGGCTCGAT
    CAAGACCCAT GCAGCAGCCG CCCTGCTCCG GAGGGCGCTG GGGCCAGCGC TGAGCAGAGC
    CACTCGGCCG GTGGGGGCGG GTGGTGCCGC CACTGCCACA CGAAGCTCGT GGAGCTAAAA
    CGACAGGCGT GGAAGTTGGT CAGCGGGCCC GGGACTCCTC TCCGGGATCC TTGCCTCTCT
    ACCTTGCTGC TTGACAAGCT CCCGGCCTCT GGGGTTCAGC CAGCATGCCG CCCTGACGCC
    GAGAGCCGCT GTGACGTATG CACCACGCAT CTGCACCAGC TCACTCGGGA AGCCCTGCGC
    CTGTTACAGA CGCCTGCCAG TCACGAGGAC CCCGATGCTT CCCGAGGAGG CCTTGCGGCT
    CCCAGCCCCA GGGACCCACC TGGACCCGTG GGCCTCATGG GGAGGCAGCC CCCTGTGGGA
    CCTGACAGGA GGAAGGCAAC GGCTTGGCCA CCTGGCCCCA GCGTCCAGGT GTCGGTGGCA
    CCAGCAGGCC TTGGGGGAGC ATTGAGTACA GTCACCATCC AGGCCCAGCA GTGCTTGGAG
    GGTGTGTGGA GCCTCTCAAG GGTCAACAGC TTCTTGCCAC CCACTTGCCT GGCTGAGGCA
    GCTGTAGCTG CGGTGGCTGT GGCCGACACT GTCCGAGACT GTGCTCCAGC AGCAGGCCCT
    GAACGTATGT CGAAGGCGTG GGGCCGAGGG GCAGCATGCA CTACAGCCCT GGTTACCCCA
    GCCCCAGGCA CCTCAGCAGG GGGTTCCACA GGCCCGTCTG CAGCGGCCTC TTTCTTTATA
    AGGGCTGCCC AGAAGCTCAG CCTGGCCTCC AAGCGCAAGA AGCATCACCC GCCGCCTGCG
    CCCTCCACCC GAGGCACGTC CACTTACCCC ACCGACTTCA GTGGCTCTCT GCAGCTGTGG
    CCGCCCCCGG TGCCCCCCTG CCTGCTCAGG GCTGCCTCCA AGGCCAAGGA AAACCCCAGC
    AGCTTCGGAA AGGTGAAGGT TATGCTGCGC ATATGGCCGG CACAAGGAGT CCAGCGCTCA
    GCAGAGTCCA CATCCTTCCT GAAGGTGGAT TCTCGAAAGA AGCAGGTGAC TCTCTATGAC
    CCCGCTGCCG GGCCTCCAGG CTGTGCAGGA CTCCGGCACG CCCCCACCGC ACCAGTCCCC
    AAGATGTTTG CTTTTGATGC CATCTTCCCC CAGGACTCGG AGCAGGCTGA GGTCTGCTCA
    GGGACGGTGG CTGATGTGCT CCAGTCTGTG GTCAGTGGAG CTGATGGCTG CATTTTTTCC
    TTTGGCCACA TGAGCCTCGG CAAATCATAC ACCATGATTG GGAAGGACAG CTCACCCCAG
    AGCCTGGGCA TCGTGCCCTG TGCTATCTCC TGGCTCTTCA GGCTCATTGA CGAACGCAAG
    GAGAGGCTGG GCACGCGCTT CTCCATCCGT GTGTCTGCTG TGGAAGTGTG CGGCCACGAC
    CAGAGTCTGC GGGACCTGCT TGCTGAGGTG GCTTCAGGCA GCCTTCAGGA CACCCAGTCT
    CCGGGCGTGT ACCTCCGGGA GGACCCTGTG TGTGGGACAC AGATCCAGAA CCAGAACGAG
    CTGCGCGCAC CCACAGCAGA GAAGGCGGCC TTCTACCTGG ACGCGGCCCT GGCAGCCCGC
    AGCACCAGCC GTGCTGGCTG CGGGGAGGAC GCCCGGCGAA GCTCCCATAT GCTCTTCACC
    CTGCACGTGT ACCAGTACCG TGTGGAGAAG TGTGGCCAAG GAGGAATGTC TGGAGGTCGT
    AGCCGCCTGC ACCTGATCGA CCTGGGCAGC TGCGACACAG CCGTCAGCAG AGGAGGAGAA
    GCATCAGGGG GACCCCTCTG TCTGTCTCTG TCAGCTCTGG GCAGTGTCAT CCTGGCCCTG
    GTCAACGGGG CCAAGCATGT GCCCTACAGG GACCACAGAC TCACCATGTT ACTGAGGGAG
    TCCCTGGCTA CCACCAACTG CCGCACTACT ATGATCGCGC ACATCTCAGA CTCTCCAGCC
    CACCACGCAG AGACACTCAG CACCGTGCAG CTGGCTGCCC GCATCCACCG CCTGCGTAGG
    AAGAAGGGCA AGCACGCATC CAGTTCCTCA GGAGGAGAGA GCTCCTGTGA GGAGGGCCGG
    GCCCGCCGTC CCCCACACCT TCGGCCCTTC CACCCACGGG CCATGGTGTT GGACCCCGAC
    CGCTCGGCTC CTGGCCTGTC CGGAGACCCC GATTACTCAT CCAGCAGTGA GCAGTCCTGC
    GACACGGTCA TCTATGTGGG TCCTGGTGGG ATGGCGCTGT CAGACCGTGA GCTCACGGAC
    AACGAGGGCC CACCTGACTT CGTGCCCATT ATCCCTGCAC TGAGCCGACG CAGGCCCTCC
    GAGGGGCCCC GGGACGCTGA TCACTTCCGC TGCAGTACGT TCGCCGAGCT GCAGGAGCGT
    CTGGAGTGCA TAGATGGCAG CGAGGCGTTC CCTGGCCCCC AGGGCCCCCA GGGTGGCTCT
    GACGGAGCCC AAGCCAGCCC TGCCCGGGGA GGCAGGAAAC CCTCGTTACC TGAGGCCACA
    CCCTCCAGGA AGGCTGTGGC CCCCACAGTG GTCACCAGTT GCCCTCGAGG CAGCCCTGGG
    CACGATACTC ACCGGAGCGC CTCAGACCCC TCTAAGACTG GCACACAGAG TGAGCAGAGA
    GTAGATGGTG CCCGGCCTGA GCCACCTGCT TCAGACAAGA CCTCAGGAGG CGGGGGCAGG
    AGGCCACTGC CCAGTCCAGC CCCTCCACCG CCTCGCCAGC CGGAAGCTCA AAGCGTCCCC
    AAAGAACCTG GGGGAGAGGG TACTGACAGC GTGCTGCGGA CACCCCCAGT GGGCATGAGT
    GGACAGGCGG CCTTGCCCCC GCTGCTCTCA GACTCGGCTT ATCTCTCCCC GTCGGCTCGT
    GGACGCCATC TGGAGAGAGG CCTGCTGACC ACCACAGTGA CCCTGCAGCA GCCTGTGGAA
    CTCAATGGCG AGGATGAGTT GGTGTTCACG GTGGTAGAGG AGCTACCTCT GGGCGGACTT
    GCAGGGGCCA CACGGCCCTC CAGTCTGGCC AGCATGAGCA GCGACTGCTC CCTGCAGGCT
    TTGGCCTCAG GGTCCAGGCC AGTCAGTATC ATCAGTAGCA TCAATGATGA GTTTGATGCA
    TATACCTCGC AGATGTCTGA GGGTCCCGGA GACCCCGGGG AGTTCCCAGA GGGAACAGCG
    TGGGCTGGCG GCAGTCCAGC CTCCTCCATT GGCTCCTGGC TGAGTGACGT TGGTGTCTGC
    TTGTCTGAAA GCCGTGGTCC CACACCACAG CCTCCCTTCA GCCCCAACTC TGCAGCAGGG
    CCGGGTCCAC CAGAGTTTCC TACCCCAGGC AGCTCCCTAG AGGAAAGCAA GGTCAGGTCC
    TCAGAGTGTG GAAGACCAGA CAATCCCGGC TCAGCCCGGA GTCTCCACCC TGGAGAAGCG
    GTTGCAACAA CTCAGACCCA ACCTGGCAGA GAGCCTTGGG CCAGGTCCCC ACATGAGGTA
    GCCTCAGCCC AGACTATCCA CTCCAGCCTG CCTCGGAAAC CCAGGACTAC CTCCACAGCC
    AGCCGAGCTC GTCCTAGCCG GGGTCCATAC AGCCCTGGTG GCCTGTGTGA GGACCCTTGG
    CTGCTCCGGG CAGAGGACTG TGACACGCGC CAGATAGCCT CTACGGGCAG AGCCCCAAGC
    CCAACCCCAG GCTCCCCTCG ATTGCCTGAG ACTCAGATGA TGCCGGCTTG TGCCCAGAGA
    GTGGTGGATG GGTGTGAGGT GGCATCCAGA ATGTCGCGGA GACCAGAGGC TGTGGCTCGG
    ATCCCACCTT TGCGGAGGGG GGCCACCACA CTAGGAGTGA CCACACCTGC TGCATCCTGT
    GGGGACGCTC CAGCAGAGGC AGTGGTCCAT TCAGGAAGCC TGAAGACCAC CTCGGGCAGT
    AAGAAGAGCG TCTCGCCCAA GGGCGCCTTC TTTCCAAGGC CTAGTGGGGC AGGCCCCCCA
    GCCCCGCCTG TGCGCAAGTC TAGCCTGGAG CAGAGCACGG CCCTCACCCC CACCCAGGCC
    CTGGGACTGA CCAGGGCAGG GGCTCCTTCT GCCTTCCGAG GGGAGGAGGA AGCCAGGCCC
    AGTGGTCGGT CTGATTCCTC TGTTCCCAAG GCCACATCCA GCCTGAAAGC CCGAGCTGGC
    AAGATGGACG CACCACACCG TCCCTCTGGC CACATGTCCC TGGAACGGTG TGAGGGCCTG
    GCACATGGCA GCAGTAAGGT CAGAGATGTC GTAGGACGGC CACCAAGGGC TGTGCCCAGG
    TTGGGTGTAC CATCCGCCAG CCCTCCACTT GGACCAGCTC CTGCCTGTAG GAACAGCCCA
    GCCAAGGGTG TTGGAGCAAC CAAGCCTCCT GCTGGTGGAG CTAAGGGTCG TAATCTGGGG
    CCAAGCACAT CTCGGGCTCT GGGTGCTCCG GTGAAACCAC TAGGGCCTGT GGCAGGCAAG
    ACAGCTGGTA GCGCTGTGCC AGGACCCCGA GCTGCTCCAC GGGCTGTGCC GGGTATTGGG
    GCCAAGGCTG GTCGGGGCAC CATCATGGGC ACTAAGCAGG CATTCCGGGC TGCCCATAGC
    CGTGTCCACG AATTGGCAGC CAGTGGATCT CCTGGTAGAG GCGGCCTCTC CTGGGGCTCG
    ACGGACTCGG ACAGCGGCAA CGACAGCGGT GTGAACCTGG CTGAAGAGCG GCAGCCCGCG
    AGCCCTGCCC TGCCCTCCCC TTACAGCAAA GTGACCGCTC CGAGGAGACC CCAGCGCTAC
    AGCAGTGGCC ATGGCAGTGA CAACAGCAGC GTGCTGAGCG GTGAGCTGCC CCCTGCCATG
    GGCCGCACTG CTCTCTTCTA CCACAGTGGC GGCAGCAGTG GCTATGAGAG CATGATTCGG
    GACAGCGAGG CCACTGGCAG TGCCTCCTCG GCTCCAGACT CCATGAGCGA GAGTGGAACA
    GCCTCTCTGG GTGCCCGCTC CCGCAGCCTC AAGTCCCCGA AGAAGAGAGC CACAGGTCTA
    CAGCGGAGGA GGCTGATCCC GGCCCCACTT CCTGACGCTG CTGCTTTAGG CCGCAAGCCC
    AGCCTCCCCG GGCAATGGGT AGACTTGCCC CCGCCCCTGG CCGGCTCTCT GAAGGAGCCT
    TTCGAGATCA AGGTGTACGA AATAGATGAC GTGGAGCGTC TGCAGCGGCA CCGGCTGCCT
    CTGAGGGAGA ATGAAGCCAA GGGCCCAGTG TGCATCAGCT CCAAGCTGCG TCTCGCAGAG
    CGCAGGCAGC AGCGACTGCA GGAAGTGCAG GCCAAACGTG ACCACCTCTG CGAGGAGCTG
    GCTGAGACCC AGGGCCGGCT GATGGTGGAA CCTGGGCGCT GGCTGGAGCA GTTTGAGGTG
    GACCCAGAGC TGGAGCCAGA GTCAGCTGAA TATCTGGTGG CCCTGGAGCA AGCCACAGCT
    GCCCTGGAGC AGTGCGTTAA CCTGTGCAAG GCCCATGTCA TGATGGTCAC CTGCTTTGAC
    ATTGGAGTTG CTGCCACCAC TGCTGTACCT GGGCCACAAG AGGTGGATGT TTGA

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

    RefSeq XP_021034762.1
    CDS1..5634
    Translation

    Target ORF information:

    RefSeq Version XM_021179103.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli kinesin family member 26A (Kif26a), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021179103.1

    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
    ATGGTCGGCC GCGGCGCCTC CTTGTGTGCG GTGCAGCCCG CGGTGGCTGA GTGCGGCCCG 
    GCTCGAGAGA CCCCGCCACT TGAGGTATCC CCACGCAAGA GGCTGCCCGC CGGGCTCGAT
    CAAGACCCAT GCAGCAGCCG CCCTGCTCCG GAGGGCGCTG GGGCCAGCGC TGAGCAGAGC
    CACTCGGCCG GTGGGGGCGG GTGGTGCCGC CACTGCCACA CGAAGCTCGT GGAGCTAAAA
    CGACAGGCGT GGAAGTTGGT CAGCGGGCCC GGGACTCCTC TCCGGGATCC TTGCCTCTCT
    ACCTTGCTGC TTGACAAGCT CCCGGCCTCT GGGGTTCAGC CAGCATGCCG CCCTGACGCC
    GAGAGCCGCT GTGACGTATG CACCACGCAT CTGCACCAGC TCACTCGGGA AGCCCTGCGC
    CTGTTACAGA CGCCTGCCAG TCACGAGGAC CCCGATGCTT CCCGAGGAGG CCTTGCGGCT
    CCCAGCCCCA GGGACCCACC TGGACCCGTG GGCCTCATGG GGAGGCAGCC CCCTGTGGGA
    CCTGACAGGA GGAAGGCAAC GGCTTGGCCA CCTGGCCCCA GCGTCCAGGT GTCGGTGGCA
    CCAGCAGGCC TTGGGGGAGC ATTGAGTACA GTCACCATCC AGGCCCAGCA GTGCTTGGAG
    GGTGTGTGGA GCCTCTCAAG GGTCAACAGC TTCTTGCCAC CCACTTGCCT GGCTGAGGCA
    GCTGTAGCTG CGGTGGCTGT GGCCGACACT GTCCGAGACT GTGCTCCAGC AGCAGGCCCT
    GAACGTATGT CGAAGGCGTG GGGCCGAGGG GCAGCATGCA CTACAGCCCT GGTTACCCCA
    GCCCCAGGCA CCTCAGCAGG GGGTTCCACA GGCCCGTCTG CAGCGGCCTC TTTCTTTATA
    AGGGCTGCCC AGAAGCTCAG CCTGGCCTCC AAGCGCAAGA AGCATCACCC GCCGCCTGCG
    CCCTCCACCC GAGGCACGTC CACTTACCCC ACCGACTTCA GTGGCTCTCT GCAGCTGTGG
    CCGCCCCCGG TGCCCCCCTG CCTGCTCAGG GCTGCCTCCA AGGCCAAGGA AAACCCCAGC
    AGCTTCGGAA AGGTGAAGGT TATGCTGCGC ATATGGCCGG CACAAGGAGT CCAGCGCTCA
    GCAGAGTCCA CATCCTTCCT GAAGGTGGAT TCTCGAAAGA AGCAGGTGAC TCTCTATGAC
    CCCGCTGCCG GGCCTCCAGG CTGTGCAGGA CTCCGGCACG CCCCCACCGC ACCAGTCCCC
    AAGATGTTTG CTTTTGATGC CATCTTCCCC CAGGACTCGG AGCAGGCTGA GGTCTGCTCA
    GGGACGGTGG CTGATGTGCT CCAGTCTGTG GTCAGTGGAG CTGATGGCTG CATTTTTTCC
    TTTGGCCACA TGAGCCTCGG CAAATCATAC ACCATGATTG GGAAGGACAG CTCACCCCAG
    AGCCTGGGCA TCGTGCCCTG TGCTATCTCC TGGCTCTTCA GGCTCATTGA CGAACGCAAG
    GAGAGGCTGG GCACGCGCTT CTCCATCCGT GTGTCTGCTG TGGAAGTGTG CGGCCACGAC
    CAGAGTCTGC GGGACCTGCT TGCTGAGGTG GCTTCAGGCA GCCTTCAGGA CACCCAGTCT
    CCGGGCGTGT ACCTCCGGGA GGACCCTGTG TGTGGGACAC AGATCCAGAA CCAGAACGAG
    CTGCGCGCAC CCACAGCAGA GAAGGCGGCC TTCTACCTGG ACGCGGCCCT GGCAGCCCGC
    AGCACCAGCC GTGCTGGCTG CGGGGAGGAC GCCCGGCGAA GCTCCCATAT GCTCTTCACC
    CTGCACGTGT ACCAGTACCG TGTGGAGAAG TGTGGCCAAG GAGGAATGTC TGGAGGTCGT
    AGCCGCCTGC ACCTGATCGA CCTGGGCAGC TGCGACACAG CCGTCAGCAG AGGAGGAGAA
    GCATCAGGGG GACCCCTCTG TCTGTCTCTG TCAGCTCTGG GCAGTGTCAT CCTGGCCCTG
    GTCAACGGGG CCAAGCATGT GCCCTACAGG GACCACAGAC TCACCATGTT ACTGAGGGAG
    TCCCTGGCTA CCACCAACTG CCGCACTACT ATGATCGCGC ACATCTCAGA CTCTCCAGCC
    CACCACGCAG AGACACTCAG CACCGTGCAG CTGGCTGCCC GCATCCACCG CCTGCGTAGG
    AAGAAGGGCA AGCACGCATC CAGTTCCTCA GGAGGAGAGA GCTCCTGTGA GGAGGGCCGG
    GCCCGCCGTC CCCCACACCT TCGGCCCTTC CACCCACGGG CCATGGTGTT GGACCCCGAC
    CGCTCGGCTC CTGGCCTGTC CGGAGACCCC GATTACTCAT CCAGCAGTGA GCAGTCCTGC
    GACACGGTCA TCTATGTGGG TCCTGGTGGG ATGGCGCTGT CAGACCGTGA GCTCACGGAC
    AACGAGGGCC CACCTGACTT CGTGCCCATT ATCCCTGCAC TGAGCCGACG CAGGCCCTCC
    GAGGGGCCCC GGGACGCTGA TCACTTCCGC TGCAGTACGT TCGCCGAGCT GCAGGAGCGT
    CTGGAGTGCA TAGATGGCAG CGAGGCGTTC CCTGGCCCCC AGGGCCCCCA GGGTGGCTCT
    GACGGAGCCC AAGCCAGCCC TGCCCGGGGA GGCAGGAAAC CCTCGTTACC TGAGGCCACA
    CCCTCCAGGA AGGCTGTGGC CCCCACAGTG GTCACCAGTT GCCCTCGAGG CAGCCCTGGG
    CACGATACTC ACCGGAGCGC CTCAGACCCC TCTAAGACTG GCACACAGAG TGAGCAGAGA
    GTAGATGGTG CCCGGCCTGA GCCACCTGCT TCAGACAAGA CCTCAGGAGG CGGGGGCAGG
    AGGCCACTGC CCAGTCCAGC CCCTCCACCG CCTCGCCAGC CGGAAGCTCA AAGCGTCCCC
    AAAGAACCTG GGGGAGAGGG TACTGACAGC GTGCTGCGGA CACCCCCAGT GGGCATGAGT
    GGACAGGCGG CCTTGCCCCC GCTGCTCTCA GACTCGGCTT ATCTCTCCCC GTCGGCTCGT
    GGACGCCATC TGGAGAGAGG CCTGCTGACC ACCACAGTGA CCCTGCAGCA GCCTGTGGAA
    CTCAATGGCG AGGATGAGTT GGTGTTCACG GTGGTAGAGG AGCTACCTCT GGGCGGACTT
    GCAGGGGCCA CACGGCCCTC CAGTCTGGCC AGCATGAGCA GCGACTGCTC CCTGCAGGCT
    TTGGCCTCAG GGTCCAGGCC AGTCAGTATC ATCAGTAGCA TCAATGATGA GTTTGATGCA
    TATACCTCGC AGATGTCTGA GGGTCCCGGA GACCCCGGGG AGTTCCCAGA GGGAACAGCG
    TGGGCTGGCG GCAGTCCAGC CTCCTCCATT GGCTCCTGGC TGAGTGACGT TGGTGTCTGC
    TTGTCTGAAA GCCGTGGTCC CACACCACAG CCTCCCTTCA GCCCCAACTC TGCAGCAGGG
    CCGGGTCCAC CAGAGTTTCC TACCCCAGGC AGCTCCCTAG AGGAAAGCAA GGTCAGGTCC
    TCAGAGTGTG GAAGACCAGA CAATCCCGGC TCAGCCCGGA GTCTCCACCC TGGAGAAGCG
    GTTGCAACAA CTCAGACCCA ACCTGGCAGA GAGCCTTGGG CCAGGTCCCC ACATGAGGTA
    GCCTCAGCCC AGACTATCCA CTCCAGCCTG CCTCGGAAAC CCAGGACTAC CTCCACAGCC
    AGCCGAGCTC GTCCTAGCCG GGGTCCATAC AGCCCTGGTG GCCTGTGTGA GGACCCTTGG
    CTGCTCCGGG CAGAGGACTG TGACACGCGC CAGATAGCCT CTACGGGCAG AGCCCCAAGC
    CCAACCCCAG GCTCCCCTCG ATTGCCTGAG ACTCAGATGA TGCCGGCTTG TGCCCAGAGA
    GTGGTGGATG GGTGTGAGGT GGCATCCAGA ATGTCGCGGA GACCAGAGGC TGTGGCTCGG
    ATCCCACCTT TGCGGAGGGG GGCCACCACA CTAGGAGTGA CCACACCTGC TGCATCCTGT
    GGGGACGCTC CAGCAGAGGC AGTGGTCCAT TCAGGAAGCC TGAAGACCAC CTCGGGCAGT
    AAGAAGAGCG TCTCGCCCAA GGGCGCCTTC TTTCCAAGGC CTAGTGGGGC AGGCCCCCCA
    GCCCCGCCTG TGCGCAAGTC TAGCCTGGAG CAGAGCACGG CCCTCACCCC CACCCAGGCC
    CTGGGACTGA CCAGGGCAGG GGCTCCTTCT GCCTTCCGAG GGGAGGAGGA AGCCAGGCCC
    AGTGGTCGGT CTGATTCCTC TGTTCCCAAG GCCACATCCA GCCTGAAAGC CCGAGCTGGC
    AAGATGGACG CACCACACCG TCCCTCTGGC CACATGTCCC TGGAACGGTG TGAGGGCCTG
    GCACATGGCA GCAGTAAGGT CAGAGATGTC GTAGGACGGC CACCAAGGGC TGTGCCCAGG
    TTGGGTGTAC CATCCGCCAG CCCTCCACTT GGACCAGCTC CTGCCTGTAG GAACAGCCCA
    GCCAAGGGTG TTGGAGCAAC CAAGCCTCCT GCTGGTGGAG CTAAGGGTCG TAATCTGGGG
    CCAAGCACAT CTCGGGCTCT GGGTGCTCCG GTGAAACCAC TAGGGCCTGT GGCAGGCAAG
    ACAGCTGGTA GCGCTGTGCC AGGACCCCGA GCTGCTCCAC GGGCTGTGCC GGGTATTGGG
    GCCAAGGCTG GTCGGGGCAC CATCATGGGC ACTAAGCAGG CATTCCGGGC TGCCCATAGC
    CGTGTCCACG AATTGGCAGC CAGTGGATCT CCTGGTAGAG GCGGCCTCTC CTGGGGCTCG
    ACGGACTCGG ACAGCGGCAA CGACAGCGGT GTGAACCTGG CTGAAGAGCG GCAGCCCGCG
    AGCCCTGCCC TGCCCTCCCC TTACAGCAAA GTGACCGCTC CGAGGAGACC CCAGCGCTAC
    AGCAGTGGCC ATGGCAGTGA CAACAGCAGC GTGCTGAGCG GTGAGCTGCC CCCTGCCATG
    GGCCGCACTG CTCTCTTCTA CCACAGTGGC GGCAGCAGTG GCTATGAGAG CATGATTCGG
    GACAGCGAGG CCACTGGCAG TGCCTCCTCG GCTCCAGACT CCATGAGCGA GAGTGGAACA
    GCCTCTCTGG GTGCCCGCTC CCGCAGCCTC AAGTCCCCGA AGAAGAGAGC CACAGGTCTA
    CAGCGGAGGA GGCTGATCCC GGCCCCACTT CCTGACGCTG CTGCTTTAGG CCGCAAGCCC
    AGCCTCCCCG GGCAATGGGT AGACTTGCCC CCGCCCCTGG CCGGCTCTCT GAAGGAGCCT
    TTCGAGATCA AGGTGTACGA AATAGATGAC GTGGAGCGTC TGCAGCGGCA CCGGCTGCCT
    CTGAGGGAGA ATGAAGCCAA GGGCCCAGTG TGCATCAGCT CCAAGCTGCG TCTCGCAGAG
    CGCAGGCAGC AGCGACTGCA GGAAGTGCAG GCCAAACGTG ACCACCTCTG CGAGGAGCTG
    GCTGAGACCC AGGGCCGGCT GATGGTGGAA CCTGGGCGCT GGCTGGAGCA GTTTGAGGTG
    GACCCAGAGC TGGAGCCAGA GTCAGCTGAA TATCTGGTGG CCCTGGAGCA AGCCACAGCT
    GCCCTGGAGC AGTGCGTTAA CCTGTGCAAG GCCCATGTCA TGATGGTCAC CTGCTTTGAC
    ATTGGAGTTG CTGCCACCAC TGCTGTACCT GGGCCACAAG AGGTGGATGT TTGA

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

    CloneID OMv28800
    Clone ID Related Accession (Same CDS sequence) XM_021179103.1 , XM_021179103.2
    Accession Version XM_021179103.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5634bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product kinesin-like protein KIF26A isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 10, 2019 this sequence version replaced XM_021179103.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    ATGGTCGGCC GCGGCGCCTC CTTGTGTGCG GTGCAGCCCG CGGTGGCTGA GTGCGGCCCG 
    GCTCGAGAGA CCCCGCCACT TGAGGTATCC CCACGCAAGA GGCTGCCCGC CGGGCTCGAT
    CAAGACCCAT GCAGCAGCCG CCCTGCTCCG GAGGGCGCTG GGGCCAGCGC TGAGCAGAGC
    CACTCGGCCG GTGGGGGCGG GTGGTGCCGC CACTGCCACA CGAAGCTCGT GGAGCTAAAA
    CGACAGGCGT GGAAGTTGGT CAGCGGGCCC GGGACTCCTC TCCGGGATCC TTGCCTCTCT
    ACCTTGCTGC TTGACAAGCT CCCGGCCTCT GGGGTTCAGC CAGCATGCCG CCCTGACGCC
    GAGAGCCGCT GTGACGTATG CACCACGCAT CTGCACCAGC TCACTCGGGA AGCCCTGCGC
    CTGTTACAGA CGCCTGCCAG TCACGAGGAC CCCGATGCTT CCCGAGGAGG CCTTGCGGCT
    CCCAGCCCCA GGGACCCACC TGGACCCGTG GGCCTCATGG GGAGGCAGCC CCCTGTGGGA
    CCTGACAGGA GGAAGGCAAC GGCTTGGCCA CCTGGCCCCA GCGTCCAGGT GTCGGTGGCA
    CCAGCAGGCC TTGGGGGAGC ATTGAGTACA GTCACCATCC AGGCCCAGCA GTGCTTGGAG
    GGTGTGTGGA GCCTCTCAAG GGTCAACAGC TTCTTGCCAC CCACTTGCCT GGCTGAGGCA
    GCTGTAGCTG CGGTGGCTGT GGCCGACACT GTCCGAGACT GTGCTCCAGC AGCAGGCCCT
    GAACGTATGT CGAAGGCGTG GGGCCGAGGG GCAGCATGCA CTACAGCCCT GGTTACCCCA
    GCCCCAGGCA CCTCAGCAGG GGGTTCCACA GGCCCGTCTG CAGCGGCCTC TTTCTTTATA
    AGGGCTGCCC AGAAGCTCAG CCTGGCCTCC AAGCGCAAGA AGCATCACCC GCCGCCTGCG
    CCCTCCACCC GAGGCACGTC CACTTACCCC ACCGACTTCA GTGGCTCTCT GCAGCTGTGG
    CCGCCCCCGG TGCCCCCCTG CCTGCTCAGG GCTGCCTCCA AGGCCAAGGA AAACCCCAGC
    AGCTTCGGAA AGGTGAAGGT TATGCTGCGC ATATGGCCGG CACAAGGAGT CCAGCGCTCA
    GCAGAGTCCA CATCCTTCCT GAAGGTGGAT TCTCGAAAGA AGCAGGTGAC TCTCTATGAC
    CCCGCTGCCG GGCCTCCAGG CTGTGCAGGA CTCCGGCACG CCCCCACCGC ACCAGTCCCC
    AAGATGTTTG CTTTTGATGC CATCTTCCCC CAGGACTCGG AGCAGGCTGA GGTCTGCTCA
    GGGACGGTGG CTGATGTGCT CCAGTCTGTG GTCAGTGGAG CTGATGGCTG CATTTTTTCC
    TTTGGCCACA TGAGCCTCGG CAAATCATAC ACCATGATTG GGAAGGACAG CTCACCCCAG
    AGCCTGGGCA TCGTGCCCTG TGCTATCTCC TGGCTCTTCA GGCTCATTGA CGAACGCAAG
    GAGAGGCTGG GCACGCGCTT CTCCATCCGT GTGTCTGCTG TGGAAGTGTG CGGCCACGAC
    CAGAGTCTGC GGGACCTGCT TGCTGAGGTG GCTTCAGGCA GCCTTCAGGA CACCCAGTCT
    CCGGGCGTGT ACCTCCGGGA GGACCCTGTG TGTGGGACAC AGATCCAGAA CCAGAACGAG
    CTGCGCGCAC CCACAGCAGA GAAGGCGGCC TTCTACCTGG ACGCGGCCCT GGCAGCCCGC
    AGCACCAGCC GTGCTGGCTG CGGGGAGGAC GCCCGGCGAA GCTCCCATAT GCTCTTCACC
    CTGCACGTGT ACCAGTACCG TGTGGAGAAG TGTGGCCAAG GAGGAATGTC TGGAGGTCGT
    AGCCGCCTGC ACCTGATCGA CCTGGGCAGC TGCGACACAG CCGTCAGCAG AGGAGGAGAA
    GCATCAGGGG GACCCCTCTG TCTGTCTCTG TCAGCTCTGG GCAGTGTCAT CCTGGCCCTG
    GTCAACGGGG CCAAGCATGT GCCCTACAGG GACCACAGAC TCACCATGTT ACTGAGGGAG
    TCCCTGGCTA CCACCAACTG CCGCACTACT ATGATCGCGC ACATCTCAGA CTCTCCAGCC
    CACCACGCAG AGACACTCAG CACCGTGCAG CTGGCTGCCC GCATCCACCG CCTGCGTAGG
    AAGAAGGGCA AGCACGCATC CAGTTCCTCA GGAGGAGAGA GCTCCTGTGA GGAGGGCCGG
    GCCCGCCGTC CCCCACACCT TCGGCCCTTC CACCCACGGG CCATGGTGTT GGACCCCGAC
    CGCTCGGCTC CTGGCCTGTC CGGAGACCCC GATTACTCAT CCAGCAGTGA GCAGTCCTGC
    GACACGGTCA TCTATGTGGG TCCTGGTGGG ATGGCGCTGT CAGACCGTGA GCTCACGGAC
    AACGAGGGCC CACCTGACTT CGTGCCCATT ATCCCTGCAC TGAGCCGACG CAGGCCCTCC
    GAGGGGCCCC GGGACGCTGA TCACTTCCGC TGCAGTACGT TCGCCGAGCT GCAGGAGCGT
    CTGGAGTGCA TAGATGGCAG CGAGGCGTTC CCTGGCCCCC AGGGCCCCCA GGGTGGCTCT
    GACGGAGCCC AAGCCAGCCC TGCCCGGGGA GGCAGGAAAC CCTCGTTACC TGAGGCCACA
    CCCTCCAGGA AGGCTGTGGC CCCCACAGTG GTCACCAGTT GCCCTCGAGG CAGCCCTGGG
    CACGATACTC ACCGGAGCGC CTCAGACCCC TCTAAGACTG GCACACAGAG TGAGCAGAGA
    GTAGATGGTG CCCGGCCTGA GCCACCTGCT TCAGACAAGA CCTCAGGAGG CGGGGGCAGG
    AGGCCACTGC CCAGTCCAGC CCCTCCACCG CCTCGCCAGC CGGAAGCTCA AAGCGTCCCC
    AAAGAACCTG GGGGAGAGGG TACTGACAGC GTGCTGCGGA CACCCCCAGT GGGCATGAGT
    GGACAGGCGG CCTTGCCCCC GCTGCTCTCA GACTCGGCTT ATCTCTCCCC GTCGGCTCGT
    GGACGCCATC TGGAGAGAGG CCTGCTGACC ACCACAGTGA CCCTGCAGCA GCCTGTGGAA
    CTCAATGGCG AGGATGAGTT GGTGTTCACG GTGGTAGAGG AGCTACCTCT GGGCGGACTT
    GCAGGGGCCA CACGGCCCTC CAGTCTGGCC AGCATGAGCA GCGACTGCTC CCTGCAGGCT
    TTGGCCTCAG GGTCCAGGCC AGTCAGTATC ATCAGTAGCA TCAATGATGA GTTTGATGCA
    TATACCTCGC AGATGTCTGA GGGTCCCGGA GACCCCGGGG AGTTCCCAGA GGGAACAGCG
    TGGGCTGGCG GCAGTCCAGC CTCCTCCATT GGCTCCTGGC TGAGTGACGT TGGTGTCTGC
    TTGTCTGAAA GCCGTGGTCC CACACCACAG CCTCCCTTCA GCCCCAACTC TGCAGCAGGG
    CCGGGTCCAC CAGAGTTTCC TACCCCAGGC AGCTCCCTAG AGGAAAGCAA GGTCAGGTCC
    TCAGAGTGTG GAAGACCAGA CAATCCCGGC TCAGCCCGGA GTCTCCACCC TGGAGAAGCG
    GTTGCAACAA CTCAGACCCA ACCTGGCAGA GAGCCTTGGG CCAGGTCCCC ACATGAGGTA
    GCCTCAGCCC AGACTATCCA CTCCAGCCTG CCTCGGAAAC CCAGGACTAC CTCCACAGCC
    AGCCGAGCTC GTCCTAGCCG GGGTCCATAC AGCCCTGGTG GCCTGTGTGA GGACCCTTGG
    CTGCTCCGGG CAGAGGACTG TGACACGCGC CAGATAGCCT CTACGGGCAG AGCCCCAAGC
    CCAACCCCAG GCTCCCCTCG ATTGCCTGAG ACTCAGATGA TGCCGGCTTG TGCCCAGAGA
    GTGGTGGATG GGTGTGAGGT GGCATCCAGA ATGTCGCGGA GACCAGAGGC TGTGGCTCGG
    ATCCCACCTT TGCGGAGGGG GGCCACCACA CTAGGAGTGA CCACACCTGC TGCATCCTGT
    GGGGACGCTC CAGCAGAGGC AGTGGTCCAT TCAGGAAGCC TGAAGACCAC CTCGGGCAGT
    AAGAAGAGCG TCTCGCCCAA GGGCGCCTTC TTTCCAAGGC CTAGTGGGGC AGGCCCCCCA
    GCCCCGCCTG TGCGCAAGTC TAGCCTGGAG CAGAGCACGG CCCTCACCCC CACCCAGGCC
    CTGGGACTGA CCAGGGCAGG GGCTCCTTCT GCCTTCCGAG GGGAGGAGGA AGCCAGGCCC
    AGTGGTCGGT CTGATTCCTC TGTTCCCAAG GCCACATCCA GCCTGAAAGC CCGAGCTGGC
    AAGATGGACG CACCACACCG TCCCTCTGGC CACATGTCCC TGGAACGGTG TGAGGGCCTG
    GCACATGGCA GCAGTAAGGT CAGAGATGTC GTAGGACGGC CACCAAGGGC TGTGCCCAGG
    TTGGGTGTAC CATCCGCCAG CCCTCCACTT GGACCAGCTC CTGCCTGTAG GAACAGCCCA
    GCCAAGGGTG TTGGAGCAAC CAAGCCTCCT GCTGGTGGAG CTAAGGGTCG TAATCTGGGG
    CCAAGCACAT CTCGGGCTCT GGGTGCTCCG GTGAAACCAC TAGGGCCTGT GGCAGGCAAG
    ACAGCTGGTA GCGCTGTGCC AGGACCCCGA GCTGCTCCAC GGGCTGTGCC GGGTATTGGG
    GCCAAGGCTG GTCGGGGCAC CATCATGGGC ACTAAGCAGG CATTCCGGGC TGCCCATAGC
    CGTGTCCACG AATTGGCAGC CAGTGGATCT CCTGGTAGAG GCGGCCTCTC CTGGGGCTCG
    ACGGACTCGG ACAGCGGCAA CGACAGCGGT GTGAACCTGG CTGAAGAGCG GCAGCCCGCG
    AGCCCTGCCC TGCCCTCCCC TTACAGCAAA GTGACCGCTC CGAGGAGACC CCAGCGCTAC
    AGCAGTGGCC ATGGCAGTGA CAACAGCAGC GTGCTGAGCG GTGAGCTGCC CCCTGCCATG
    GGCCGCACTG CTCTCTTCTA CCACAGTGGC GGCAGCAGTG GCTATGAGAG CATGATTCGG
    GACAGCGAGG CCACTGGCAG TGCCTCCTCG GCTCCAGACT CCATGAGCGA GAGTGGAACA
    GCCTCTCTGG GTGCCCGCTC CCGCAGCCTC AAGTCCCCGA AGAAGAGAGC CACAGGTCTA
    CAGCGGAGGA GGCTGATCCC GGCCCCACTT CCTGACGCTG CTGCTTTAGG CCGCAAGCCC
    AGCCTCCCCG GGCAATGGGT AGACTTGCCC CCGCCCCTGG CCGGCTCTCT GAAGGAGCCT
    TTCGAGATCA AGGTGTACGA AATAGATGAC GTGGAGCGTC TGCAGCGGCA CCGGCTGCCT
    CTGAGGGAGA ATGAAGCCAA GGGCCCAGTG TGCATCAGCT CCAAGCTGCG TCTCGCAGAG
    CGCAGGCAGC AGCGACTGCA GGAAGTGCAG GCCAAACGTG ACCACCTCTG CGAGGAGCTG
    GCTGAGACCC AGGGCCGGCT GATGGTGGAA CCTGGGCGCT GGCTGGAGCA GTTTGAGGTG
    GACCCAGAGC TGGAGCCAGA GTCAGCTGAA TATCTGGTGG CCCTGGAGCA AGCCACAGCT
    GCCCTGGAGC AGTGCGTTAA CCTGTGCAAG GCCCATGTCA TGATGGTCAC CTGCTTTGAC
    ATTGGAGTTG CTGCCACCAC TGCTGTACCT GGGCCACAAG AGGTGGATGT TTGA

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

    RefSeq XP_021034762.1
    CDS147..5780
    Translation

    Target ORF information:

    RefSeq Version XM_021179103.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli kinesin family member 26A (Kif26a), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021179103.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    ATGGTCGGCC GCGGCGCCTC CTTGTGTGCG GTGCAGCCCG CGGTGGCTGA GTGCGGCCCG 
    GCTCGAGAGA CCCCGCCACT TGAGGTATCC CCACGCAAGA GGCTGCCCGC CGGGCTCGAT
    CAAGACCCAT GCAGCAGCCG CCCTGCTCCG GAGGGCGCTG GGGCCAGCGC TGAGCAGAGC
    CACTCGGCCG GTGGGGGCGG GTGGTGCCGC CACTGCCACA CGAAGCTCGT GGAGCTAAAA
    CGACAGGCGT GGAAGTTGGT CAGCGGGCCC GGGACTCCTC TCCGGGATCC TTGCCTCTCT
    ACCTTGCTGC TTGACAAGCT CCCGGCCTCT GGGGTTCAGC CAGCATGCCG CCCTGACGCC
    GAGAGCCGCT GTGACGTATG CACCACGCAT CTGCACCAGC TCACTCGGGA AGCCCTGCGC
    CTGTTACAGA CGCCTGCCAG TCACGAGGAC CCCGATGCTT CCCGAGGAGG CCTTGCGGCT
    CCCAGCCCCA GGGACCCACC TGGACCCGTG GGCCTCATGG GGAGGCAGCC CCCTGTGGGA
    CCTGACAGGA GGAAGGCAAC GGCTTGGCCA CCTGGCCCCA GCGTCCAGGT GTCGGTGGCA
    CCAGCAGGCC TTGGGGGAGC ATTGAGTACA GTCACCATCC AGGCCCAGCA GTGCTTGGAG
    GGTGTGTGGA GCCTCTCAAG GGTCAACAGC TTCTTGCCAC CCACTTGCCT GGCTGAGGCA
    GCTGTAGCTG CGGTGGCTGT GGCCGACACT GTCCGAGACT GTGCTCCAGC AGCAGGCCCT
    GAACGTATGT CGAAGGCGTG GGGCCGAGGG GCAGCATGCA CTACAGCCCT GGTTACCCCA
    GCCCCAGGCA CCTCAGCAGG GGGTTCCACA GGCCCGTCTG CAGCGGCCTC TTTCTTTATA
    AGGGCTGCCC AGAAGCTCAG CCTGGCCTCC AAGCGCAAGA AGCATCACCC GCCGCCTGCG
    CCCTCCACCC GAGGCACGTC CACTTACCCC ACCGACTTCA GTGGCTCTCT GCAGCTGTGG
    CCGCCCCCGG TGCCCCCCTG CCTGCTCAGG GCTGCCTCCA AGGCCAAGGA AAACCCCAGC
    AGCTTCGGAA AGGTGAAGGT TATGCTGCGC ATATGGCCGG CACAAGGAGT CCAGCGCTCA
    GCAGAGTCCA CATCCTTCCT GAAGGTGGAT TCTCGAAAGA AGCAGGTGAC TCTCTATGAC
    CCCGCTGCCG GGCCTCCAGG CTGTGCAGGA CTCCGGCACG CCCCCACCGC ACCAGTCCCC
    AAGATGTTTG CTTTTGATGC CATCTTCCCC CAGGACTCGG AGCAGGCTGA GGTCTGCTCA
    GGGACGGTGG CTGATGTGCT CCAGTCTGTG GTCAGTGGAG CTGATGGCTG CATTTTTTCC
    TTTGGCCACA TGAGCCTCGG CAAATCATAC ACCATGATTG GGAAGGACAG CTCACCCCAG
    AGCCTGGGCA TCGTGCCCTG TGCTATCTCC TGGCTCTTCA GGCTCATTGA CGAACGCAAG
    GAGAGGCTGG GCACGCGCTT CTCCATCCGT GTGTCTGCTG TGGAAGTGTG CGGCCACGAC
    CAGAGTCTGC GGGACCTGCT TGCTGAGGTG GCTTCAGGCA GCCTTCAGGA CACCCAGTCT
    CCGGGCGTGT ACCTCCGGGA GGACCCTGTG TGTGGGACAC AGATCCAGAA CCAGAACGAG
    CTGCGCGCAC CCACAGCAGA GAAGGCGGCC TTCTACCTGG ACGCGGCCCT GGCAGCCCGC
    AGCACCAGCC GTGCTGGCTG CGGGGAGGAC GCCCGGCGAA GCTCCCATAT GCTCTTCACC
    CTGCACGTGT ACCAGTACCG TGTGGAGAAG TGTGGCCAAG GAGGAATGTC TGGAGGTCGT
    AGCCGCCTGC ACCTGATCGA CCTGGGCAGC TGCGACACAG CCGTCAGCAG AGGAGGAGAA
    GCATCAGGGG GACCCCTCTG TCTGTCTCTG TCAGCTCTGG GCAGTGTCAT CCTGGCCCTG
    GTCAACGGGG CCAAGCATGT GCCCTACAGG GACCACAGAC TCACCATGTT ACTGAGGGAG
    TCCCTGGCTA CCACCAACTG CCGCACTACT ATGATCGCGC ACATCTCAGA CTCTCCAGCC
    CACCACGCAG AGACACTCAG CACCGTGCAG CTGGCTGCCC GCATCCACCG CCTGCGTAGG
    AAGAAGGGCA AGCACGCATC CAGTTCCTCA GGAGGAGAGA GCTCCTGTGA GGAGGGCCGG
    GCCCGCCGTC CCCCACACCT TCGGCCCTTC CACCCACGGG CCATGGTGTT GGACCCCGAC
    CGCTCGGCTC CTGGCCTGTC CGGAGACCCC GATTACTCAT CCAGCAGTGA GCAGTCCTGC
    GACACGGTCA TCTATGTGGG TCCTGGTGGG ATGGCGCTGT CAGACCGTGA GCTCACGGAC
    AACGAGGGCC CACCTGACTT CGTGCCCATT ATCCCTGCAC TGAGCCGACG CAGGCCCTCC
    GAGGGGCCCC GGGACGCTGA TCACTTCCGC TGCAGTACGT TCGCCGAGCT GCAGGAGCGT
    CTGGAGTGCA TAGATGGCAG CGAGGCGTTC CCTGGCCCCC AGGGCCCCCA GGGTGGCTCT
    GACGGAGCCC AAGCCAGCCC TGCCCGGGGA GGCAGGAAAC CCTCGTTACC TGAGGCCACA
    CCCTCCAGGA AGGCTGTGGC CCCCACAGTG GTCACCAGTT GCCCTCGAGG CAGCCCTGGG
    CACGATACTC ACCGGAGCGC CTCAGACCCC TCTAAGACTG GCACACAGAG TGAGCAGAGA
    GTAGATGGTG CCCGGCCTGA GCCACCTGCT TCAGACAAGA CCTCAGGAGG CGGGGGCAGG
    AGGCCACTGC CCAGTCCAGC CCCTCCACCG CCTCGCCAGC CGGAAGCTCA AAGCGTCCCC
    AAAGAACCTG GGGGAGAGGG TACTGACAGC GTGCTGCGGA CACCCCCAGT GGGCATGAGT
    GGACAGGCGG CCTTGCCCCC GCTGCTCTCA GACTCGGCTT ATCTCTCCCC GTCGGCTCGT
    GGACGCCATC TGGAGAGAGG CCTGCTGACC ACCACAGTGA CCCTGCAGCA GCCTGTGGAA
    CTCAATGGCG AGGATGAGTT GGTGTTCACG GTGGTAGAGG AGCTACCTCT GGGCGGACTT
    GCAGGGGCCA CACGGCCCTC CAGTCTGGCC AGCATGAGCA GCGACTGCTC CCTGCAGGCT
    TTGGCCTCAG GGTCCAGGCC AGTCAGTATC ATCAGTAGCA TCAATGATGA GTTTGATGCA
    TATACCTCGC AGATGTCTGA GGGTCCCGGA GACCCCGGGG AGTTCCCAGA GGGAACAGCG
    TGGGCTGGCG GCAGTCCAGC CTCCTCCATT GGCTCCTGGC TGAGTGACGT TGGTGTCTGC
    TTGTCTGAAA GCCGTGGTCC CACACCACAG CCTCCCTTCA GCCCCAACTC TGCAGCAGGG
    CCGGGTCCAC CAGAGTTTCC TACCCCAGGC AGCTCCCTAG AGGAAAGCAA GGTCAGGTCC
    TCAGAGTGTG GAAGACCAGA CAATCCCGGC TCAGCCCGGA GTCTCCACCC TGGAGAAGCG
    GTTGCAACAA CTCAGACCCA ACCTGGCAGA GAGCCTTGGG CCAGGTCCCC ACATGAGGTA
    GCCTCAGCCC AGACTATCCA CTCCAGCCTG CCTCGGAAAC CCAGGACTAC CTCCACAGCC
    AGCCGAGCTC GTCCTAGCCG GGGTCCATAC AGCCCTGGTG GCCTGTGTGA GGACCCTTGG
    CTGCTCCGGG CAGAGGACTG TGACACGCGC CAGATAGCCT CTACGGGCAG AGCCCCAAGC
    CCAACCCCAG GCTCCCCTCG ATTGCCTGAG ACTCAGATGA TGCCGGCTTG TGCCCAGAGA
    GTGGTGGATG GGTGTGAGGT GGCATCCAGA ATGTCGCGGA GACCAGAGGC TGTGGCTCGG
    ATCCCACCTT TGCGGAGGGG GGCCACCACA CTAGGAGTGA CCACACCTGC TGCATCCTGT
    GGGGACGCTC CAGCAGAGGC AGTGGTCCAT TCAGGAAGCC TGAAGACCAC CTCGGGCAGT
    AAGAAGAGCG TCTCGCCCAA GGGCGCCTTC TTTCCAAGGC CTAGTGGGGC AGGCCCCCCA
    GCCCCGCCTG TGCGCAAGTC TAGCCTGGAG CAGAGCACGG CCCTCACCCC CACCCAGGCC
    CTGGGACTGA CCAGGGCAGG GGCTCCTTCT GCCTTCCGAG GGGAGGAGGA AGCCAGGCCC
    AGTGGTCGGT CTGATTCCTC TGTTCCCAAG GCCACATCCA GCCTGAAAGC CCGAGCTGGC
    AAGATGGACG CACCACACCG TCCCTCTGGC CACATGTCCC TGGAACGGTG TGAGGGCCTG
    GCACATGGCA GCAGTAAGGT CAGAGATGTC GTAGGACGGC CACCAAGGGC TGTGCCCAGG
    TTGGGTGTAC CATCCGCCAG CCCTCCACTT GGACCAGCTC CTGCCTGTAG GAACAGCCCA
    GCCAAGGGTG TTGGAGCAAC CAAGCCTCCT GCTGGTGGAG CTAAGGGTCG TAATCTGGGG
    CCAAGCACAT CTCGGGCTCT GGGTGCTCCG GTGAAACCAC TAGGGCCTGT GGCAGGCAAG
    ACAGCTGGTA GCGCTGTGCC AGGACCCCGA GCTGCTCCAC GGGCTGTGCC GGGTATTGGG
    GCCAAGGCTG GTCGGGGCAC CATCATGGGC ACTAAGCAGG CATTCCGGGC TGCCCATAGC
    CGTGTCCACG AATTGGCAGC CAGTGGATCT CCTGGTAGAG GCGGCCTCTC CTGGGGCTCG
    ACGGACTCGG ACAGCGGCAA CGACAGCGGT GTGAACCTGG CTGAAGAGCG GCAGCCCGCG
    AGCCCTGCCC TGCCCTCCCC TTACAGCAAA GTGACCGCTC CGAGGAGACC CCAGCGCTAC
    AGCAGTGGCC ATGGCAGTGA CAACAGCAGC GTGCTGAGCG GTGAGCTGCC CCCTGCCATG
    GGCCGCACTG CTCTCTTCTA CCACAGTGGC GGCAGCAGTG GCTATGAGAG CATGATTCGG
    GACAGCGAGG CCACTGGCAG TGCCTCCTCG GCTCCAGACT CCATGAGCGA GAGTGGAACA
    GCCTCTCTGG GTGCCCGCTC CCGCAGCCTC AAGTCCCCGA AGAAGAGAGC CACAGGTCTA
    CAGCGGAGGA GGCTGATCCC GGCCCCACTT CCTGACGCTG CTGCTTTAGG CCGCAAGCCC
    AGCCTCCCCG GGCAATGGGT AGACTTGCCC CCGCCCCTGG CCGGCTCTCT GAAGGAGCCT
    TTCGAGATCA AGGTGTACGA AATAGATGAC GTGGAGCGTC TGCAGCGGCA CCGGCTGCCT
    CTGAGGGAGA ATGAAGCCAA GGGCCCAGTG TGCATCAGCT CCAAGCTGCG TCTCGCAGAG
    CGCAGGCAGC AGCGACTGCA GGAAGTGCAG GCCAAACGTG ACCACCTCTG CGAGGAGCTG
    GCTGAGACCC AGGGCCGGCT GATGGTGGAA CCTGGGCGCT GGCTGGAGCA GTTTGAGGTG
    GACCCAGAGC TGGAGCCAGA GTCAGCTGAA TATCTGGTGG CCCTGGAGCA AGCCACAGCT
    GCCCTGGAGC AGTGCGTTAA CCTGTGCAAG GCCCATGTCA TGATGGTCAC CTGCTTTGAC
    ATTGGAGTTG CTGCCACCAC TGCTGTACCT GGGCCACAAG AGGTGGATGT TTGA

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

    CloneID OMv68396
    Clone ID Related Accession (Same CDS sequence) XM_029484876.1
    Accession Version XM_029484876.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5658bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product kinesin-like protein KIF26A isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    ATGGTCGGCC GCGGCGCCTC CTTGTGTGCG GTGCAGCCCG CGGTGGCTGA GTGCGGCCCG 
    GCTCGAGAGA CCCCGCCACT TGAGGTATCC CCACGCAAGA GGCTGCCCGC CGGGCTCGAT
    CAAGACCCAT GCAGCAGCCG CCCTGCTCCG GAGGGCGCTG GGGCCAGCGC TGAGCAGAGC
    CACTCGGCCG GTGGGGGCGG GTGGTGCCGC CACTGCCACA CGAAGCTCGT GGAGCTAAAA
    CGACAGGCGT GGAAGTTGGT CAGCGGGCCC GGGACTCCTC TCCGGGATCC TTGCCTCTCT
    ACCTTGCTGC TTGACAAGCT CCCGGCCTCT GGGGTTCAGC CAGCATGCCG CCCTGACGCC
    GAGAGCCGCT GTGACGTATG CACCACGCAT CTGCACCAGC TCACTCGGGA AGCCCTGCGC
    CTGTTACAGA CGCCTGCCAG TCACGAGGAC CCCGATGCTT CCCGAGGAGG CCTTGCGGCT
    CCCAGCCCCA GGGACCCACC TGGACCCGTG GGCCTCATGG GGAGGCAGCC CCCTGTGGGA
    CCTGACAGGA GGAAGGCAAC GGCTTGGCCA CCTGGCCCCA GCGTCCAGGT GTCGGTGGCA
    CCAGCAGGCC TTGGGGGAGC ATTGAGTACA GTCACCATCC AGGCCCAGCA GTGCTTGGAG
    GGTGTGTGGA GCCTCTCAAG GGTCAACAGC TTCTTGCCAC CCACTTGCCT GGCTGAGGCA
    GCTGTAGCTG CGGTGGCTGT GGCCGACACT GTCCGAGACT GTGCTCCAGC AGCAGGCCCT
    GAACGTATGT CGAAGGCGTG GGGCCGAGGG GCAGCATGCA CTACAGCCCT GGTTACCCCA
    GCCCCAGGCA CCTCAGCAGG GGGTTCCACA GGCCCGTCTG CAGCGGCCTC TTTCTTTATA
    AGGGCTGCCC AGAAGCTCAG CCTGGCCTCC AAGCGCAAGA AGCATCACCC GCCGCCTGCG
    CCCTCCACCC GAGGCACGTC CACTTACCCC ACCGACTTCA GTGGCTCTCT GCAGCTGTGG
    CCGCCCCCGG TGCCCCCCTG CCTGCTCAGG GCTGCCTCCA AGGCCAAGGA AAACCCCAGC
    AGCTTCGGAA AGGTGAAGGT TATGCTGCGC ATATGGCCGG CACAAGGAGT CCAGCGCTCA
    GCAGAGTCCA CATCCTTCCT GAAGGTGGAT TCTCGAAAGA AGCAGGTGAC TCTCTATGAC
    CCCGCTGCCG GGCCTCCAGG CTGTGCAGGA CTCCGGCACG CCCCCACCGC ACCAGTCCCC
    AAGATGTTTG CTTTTGATGC CATCTTCCCC CAGGACTCGG AGCAGGCTGA GGTCTGCTCA
    GGGACGGTGG CTGATGTGCT CCAGTCTGTG GTCAGTGGAG CTGATGGCTG CATTTTTTCC
    TTTGGCCACA TGAGCCTCGG CAAATCATAC ACCATGATTG GGAAGGACAG CTCACCCCAG
    AGCCTGGGCA TCGTGCCCTG TGCTATCTCC TGGCTCTTCA GGCTCATTGA CGAACGCAAG
    GAGAGGCTGG GCACGCGCTT CTCCATCCGT GTGTCTGCTG TGGAAGTGTG CGGCCACGAC
    CAGAGTCTGC GGGACCTGCT TGCTGAGGTG GCTTCAGGCA GCCTTCAGGA CACCCAGTCT
    CCGGGCGTGT ACCTCCGGGA GGACCCTGTG TGTGGGACAC AGATCCAGAA CCAGAACGAG
    CTGCGCGCAC CCACAGCAGA GAAGGCGGCC TTCTACCTGG ACGCGGCCCT GGCAGCCCGC
    AGCACCAGCC GTGCTGGCTG CGGGGAGGAC GCCCGGCGAA GCTCCCATAT GCTCTTCACC
    CTGCACGTGT ACCAGTACCG TGTGGAGAAG TGTGGCCAAG GAGGAATGTC TGGAGGTCGT
    AGCCGCCTGC ACCTGATCGA CCTGGGCAGC TGCGACACAG CCGTCAGCAG AGGAGGAGAA
    GCATCAGGGG GACCCCTCTG TCTGTCTCTG TCAGCTCTGG GCAGTGTCAT CCTGGCCCTG
    GTCAACGGGG CCAAGCATGT GCCCTACAGG GACCACAGAC TCACCATGTT ACTGAGGGAG
    TCCCTGGCTA CCACCAACTG CCGCACTACT ATGATCGCGC ACATCTCAGA CTCTCCAGCC
    CACCACGCAG AGACACTCAG CACCGTGCAG CTGGCTGCCC GCATCCACCG CCTGCGTAGG
    AAGAAGGGCA AGCACGCATC CAGTTCCTCA GGAGGAGAGA GCTCCTGTGA GGAGGGCCGG
    GCCCGCCGTC CCCCACACCT TCGGCCCTTC CACCCACGGG CCATGGTGTT GGACCCCGAC
    CGCTCGGCTC CTGGCCTGTC CGGAGACCCC GATTACTCAT CCAGCAGTGA GCAGTCCTGC
    GACACGGTCA TCTATGTGGG TCCTGGTGGG ATGGCGCTGT CAGACCGTGA GCTCACGGAC
    AACGAGGGCC CACCTGACTT CGTGCCCATT ATCCCTGCAC TGAGCCGACG CAGGCCCTCC
    GAGGGGCCCC GGGACGCTGA TCACTTCCGC TGCAGTACGT TCGCCGAGCT GCAGGAGCGT
    CTGGAGTGCA TAGATGGCAG CGAGGCGTTC CCTGGCCCCC AGGGCCCCCA GGGTGGCTCT
    GACGGAGCCC AAGCCAGCCC TGCCCGGGGA GGCAGGAAAC CCTCGTTACC TGAGGCCACA
    CCCTCCAGGA AGGCTGTGGC CCCCACAGTG GTCACCAGTT GCCCTCGAGG CAGCCCTGGG
    CACGATACTC ACCGGAGCGC CTCAGACCCC TCTAAGACTG GCACACAGAG TGAGCAGAGA
    GTAGATGGTG CCCGGCCTGA GCCACCTGCT TCAGACAAGA CCTCAGGAGG CGGGGGCAGG
    AGGCCACTGC CCAGTCCAGC CCCTCCACCG CCTCGCCAGC CGGAAGCTCA AAGCGTCCCC
    AAAGAACCTG GGGGAGAGGG TACTGACAGC GTGCTGCGGA CACCCCCAGT GGGCATGAGT
    GGACAGGCGG CCTTGCCCCC GCTGCTCTCA GACTCGGCTT ATCTCTCCCC GTCGGCTCGT
    GGACGCCATC TGGAGAGAGG CCTGCTGACC ACCACAGTGA CCCTGCAGCA GCCTGTGGAA
    CTCAATGGCG AGGATGAGTT GGTGTTCACG GTGGTAGAGG AGCTACCTCT GGGCGGACTT
    GCAGGGGCCA CACGGCCCTC CAGTCTGGCC AGCATGAGCA GCGACTGCTC CCTGCAGGCT
    TTGGCCTCAG GGTCCAGGCC AGTCAGTATC ATCAGTAGCA TCAATGATGA GTTTGATGCA
    TATACCTCGC AGATGTCTGA GGGTCCCGGA GACCCCGGGG AGTTCCCAGA GGGAACAGCG
    TGGGCTGGCG GCAGTCCAGC CTCCTCCATT GGCTCCTGGC TGAGTGACGT TGGTGTCTGC
    TTGTCTGAAA GCCGTGGTCC CACACCACAG CCTCCCTTCA GCCCCAACTC TGCAGCAGGG
    CCGGGTCCAC CAGAGTTTCC TACCCCAGGC AGCTCCCTAG AGGAAAGCAA GGTCAGGTCC
    TCAGAGTGTG GAAGACCAGA CAATCCCGGC TCAGCCCGGA GTCTCCACCC TGGAGAAGCG
    GTTGCAACAA CTCAGACCCA ACCTGGCAGA GAGCCTTGGG CCAGGTCCCC ACATGAGGTA
    GCCTCAGCCC AGACTATCCA CTCCAGCCTG CCTCGGAAAC CCAGGACTAC CTCCACAGCC
    AGCCGAGCTC GTCCTAGCCG GGGTCCATAC AGCCCTGGTG GCCTGTGTGA GGACCCTTGG
    CTGCTCCGGG CAGAGGACTG TGACACGCGC CAGATAGCCT CTACGGGCAG AGCCCCAAGC
    CCAACCCCAG GCTCCCCTCG ATTGCCTGAG ACTCAGATGA TGCCGGCTTG TGCCCAGAGA
    GTGGTGGATG GGTGTGAGGT GGCATCCAGA ATGTCGCGGA GACCAGAGGC TGTGGCTCGG
    ATCCCACCTT TGCGGAGGGG GGCCACCACA CTAGGAGTGA CCACACCTGC TGCATCCTGT
    GGGGACGCTC CAGCAGAGGC AGTGGTCCAT TCAGGAAGCC TGAAGACCAC CTCGGGCAGT
    AAGAAGAGCG TCTCGCCCAA GGGCGCCTTC TTTCCAAGGC CTAGTGGGGC AGGCCCCCCA
    GCCCCGCCTG TGCGCAAGTC TAGCCTGGAG CAGAGCACGG CCCTCACCCC CACCCAGGCC
    CTGGGACTGA CCAGGGCAGG GGCTCCTTCT GCCTTCCGAG GGGAGGAGGA AGCCAGGCCC
    AGTGGTCGGT CTGATTCCTC TGTTCCCAAG GCCACATCCA GCCTGAAAGC CCGAGCTGGC
    AAGATGGACG CACCACACCG TCCCTCTGGC CACATGTCCC TGGAACGGTG TGAGGGCCTG
    GCACATGGCA GCAGTAAGGT CAGAGATGTC GTAGGACGGC CACCAAGGGC TGTGCCCAGG
    TTGGGTGTAC CATCCGCCAG CCCTCCACTT GGACCAGCTC CTGCCTGTAG GAACAGCCCA
    GCCAAGGGTG TTGGAGCAAC CAAGCCTCCT GCTGGTGGAG CTAAGGGTCG TAATCTGGGG
    CCAAGCACAT CTCGGGCTCT GGGTGCTCCG GTGAAACCAC TAGGGCCTGT GGCAGGCAAG
    ACAGCTGGTA GCGCTGTGCC AGGACCCCGA GCTGCTCCAC GGGCTGTGCC GGGTATTGGG
    GCCAAGGCTG GTCGGGGCAC CATCATGGGC ACTAAGCAGG CATTCCGGGC TGCCCATAGC
    CGTGTCCACG AATTGGCAGC CAGTGGATCT CCTGGTAGAG GCGGCCTCTC CTGGGGCTCG
    ACGGACTCGG ACAGCGGCAA CGACAGCGGT GTGAACCTGG CTGAAGAGCG GCAGCCCGCG
    AGCCCTGCCC TGCCCTCCCC TTACAGCAAA GTGACCGCTC CGAGGAGACC CCAGCGCTAC
    AGCAGTGGCC ATGGCAGTGA CAACAGCAGC GTGCTGAGCG GTGAGCTGCC CCCTGCCATG
    GGCCGCACTG CTCTCTTCTA CCACAGTGGC GGCAGCAGTG GCTATGAGAG CATGATTCGG
    GACAGCGAGG CCACTGGCAG TGCCTCCTCG GCTCCAGACT CCATGAGCGA GAGTGGAACA
    GCCTCTCTGG GTGCCCGCTC CCGCAGCCTC AAGTCCCCGA AGAAGAGAGC CACAGGTCTA
    CAGCGGAGGA GGCTGATCCC GGCCCCACTT CCTGACGCTG CTGCTTTAGG CCGCAAGCCC
    AGCCTCCCCG GGCAATGGGT AGACTTGCCC CCGCCCCTGG CCGGCTCTCT GAAGGAGCCT
    TTCGAGATCA AGGTGTACGA AATAGATGAC GTGGAGCGTC TGCAGCGGCA CCGGCTGCCT
    CTGAGGGAGA ATGAAGCCAA GCCCTCCCAG GACGCAGAGA AGCAGGGCCC AGTGTGCATC
    AGCTCCAAGC TGCGTCTCGC AGAGCGCAGG CAGCAGCGAC TGCAGGAAGT GCAGGCCAAA
    CGTGACCACC TCTGCGAGGA GCTGGCTGAG ACCCAGGGCC GGCTGATGGT GGAACCTGGG
    CGCTGGCTGG AGCAGTTTGA GGTGGACCCA GAGCTGGAGC CAGAGTCAGC TGAATATCTG
    GTGGCCCTGG AGCAAGCCAC AGCTGCCCTG GAGCAGTGCG TTAACCTGTG CAAGGCCCAT
    GTCATGATGG TCACCTGCTT TGACATTGGA GTTGCTGCCA CCACTGCTGT ACCTGGGCCA
    CAAGAGGTGG ATGTTTGA

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

    RefSeq XP_029340736.1
    CDS147..5804
    Translation

    Target ORF information:

    RefSeq Version XM_029484876.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli kinesin family member 26A (Kif26a), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029484876.1

    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
    ATGGTCGGCC GCGGCGCCTC CTTGTGTGCG GTGCAGCCCG CGGTGGCTGA GTGCGGCCCG 
    GCTCGAGAGA CCCCGCCACT TGAGGTATCC CCACGCAAGA GGCTGCCCGC CGGGCTCGAT
    CAAGACCCAT GCAGCAGCCG CCCTGCTCCG GAGGGCGCTG GGGCCAGCGC TGAGCAGAGC
    CACTCGGCCG GTGGGGGCGG GTGGTGCCGC CACTGCCACA CGAAGCTCGT GGAGCTAAAA
    CGACAGGCGT GGAAGTTGGT CAGCGGGCCC GGGACTCCTC TCCGGGATCC TTGCCTCTCT
    ACCTTGCTGC TTGACAAGCT CCCGGCCTCT GGGGTTCAGC CAGCATGCCG CCCTGACGCC
    GAGAGCCGCT GTGACGTATG CACCACGCAT CTGCACCAGC TCACTCGGGA AGCCCTGCGC
    CTGTTACAGA CGCCTGCCAG TCACGAGGAC CCCGATGCTT CCCGAGGAGG CCTTGCGGCT
    CCCAGCCCCA GGGACCCACC TGGACCCGTG GGCCTCATGG GGAGGCAGCC CCCTGTGGGA
    CCTGACAGGA GGAAGGCAAC GGCTTGGCCA CCTGGCCCCA GCGTCCAGGT GTCGGTGGCA
    CCAGCAGGCC TTGGGGGAGC ATTGAGTACA GTCACCATCC AGGCCCAGCA GTGCTTGGAG
    GGTGTGTGGA GCCTCTCAAG GGTCAACAGC TTCTTGCCAC CCACTTGCCT GGCTGAGGCA
    GCTGTAGCTG CGGTGGCTGT GGCCGACACT GTCCGAGACT GTGCTCCAGC AGCAGGCCCT
    GAACGTATGT CGAAGGCGTG GGGCCGAGGG GCAGCATGCA CTACAGCCCT GGTTACCCCA
    GCCCCAGGCA CCTCAGCAGG GGGTTCCACA GGCCCGTCTG CAGCGGCCTC TTTCTTTATA
    AGGGCTGCCC AGAAGCTCAG CCTGGCCTCC AAGCGCAAGA AGCATCACCC GCCGCCTGCG
    CCCTCCACCC GAGGCACGTC CACTTACCCC ACCGACTTCA GTGGCTCTCT GCAGCTGTGG
    CCGCCCCCGG TGCCCCCCTG CCTGCTCAGG GCTGCCTCCA AGGCCAAGGA AAACCCCAGC
    AGCTTCGGAA AGGTGAAGGT TATGCTGCGC ATATGGCCGG CACAAGGAGT CCAGCGCTCA
    GCAGAGTCCA CATCCTTCCT GAAGGTGGAT TCTCGAAAGA AGCAGGTGAC TCTCTATGAC
    CCCGCTGCCG GGCCTCCAGG CTGTGCAGGA CTCCGGCACG CCCCCACCGC ACCAGTCCCC
    AAGATGTTTG CTTTTGATGC CATCTTCCCC CAGGACTCGG AGCAGGCTGA GGTCTGCTCA
    GGGACGGTGG CTGATGTGCT CCAGTCTGTG GTCAGTGGAG CTGATGGCTG CATTTTTTCC
    TTTGGCCACA TGAGCCTCGG CAAATCATAC ACCATGATTG GGAAGGACAG CTCACCCCAG
    AGCCTGGGCA TCGTGCCCTG TGCTATCTCC TGGCTCTTCA GGCTCATTGA CGAACGCAAG
    GAGAGGCTGG GCACGCGCTT CTCCATCCGT GTGTCTGCTG TGGAAGTGTG CGGCCACGAC
    CAGAGTCTGC GGGACCTGCT TGCTGAGGTG GCTTCAGGCA GCCTTCAGGA CACCCAGTCT
    CCGGGCGTGT ACCTCCGGGA GGACCCTGTG TGTGGGACAC AGATCCAGAA CCAGAACGAG
    CTGCGCGCAC CCACAGCAGA GAAGGCGGCC TTCTACCTGG ACGCGGCCCT GGCAGCCCGC
    AGCACCAGCC GTGCTGGCTG CGGGGAGGAC GCCCGGCGAA GCTCCCATAT GCTCTTCACC
    CTGCACGTGT ACCAGTACCG TGTGGAGAAG TGTGGCCAAG GAGGAATGTC TGGAGGTCGT
    AGCCGCCTGC ACCTGATCGA CCTGGGCAGC TGCGACACAG CCGTCAGCAG AGGAGGAGAA
    GCATCAGGGG GACCCCTCTG TCTGTCTCTG TCAGCTCTGG GCAGTGTCAT CCTGGCCCTG
    GTCAACGGGG CCAAGCATGT GCCCTACAGG GACCACAGAC TCACCATGTT ACTGAGGGAG
    TCCCTGGCTA CCACCAACTG CCGCACTACT ATGATCGCGC ACATCTCAGA CTCTCCAGCC
    CACCACGCAG AGACACTCAG CACCGTGCAG CTGGCTGCCC GCATCCACCG CCTGCGTAGG
    AAGAAGGGCA AGCACGCATC CAGTTCCTCA GGAGGAGAGA GCTCCTGTGA GGAGGGCCGG
    GCCCGCCGTC CCCCACACCT TCGGCCCTTC CACCCACGGG CCATGGTGTT GGACCCCGAC
    CGCTCGGCTC CTGGCCTGTC CGGAGACCCC GATTACTCAT CCAGCAGTGA GCAGTCCTGC
    GACACGGTCA TCTATGTGGG TCCTGGTGGG ATGGCGCTGT CAGACCGTGA GCTCACGGAC
    AACGAGGGCC CACCTGACTT CGTGCCCATT ATCCCTGCAC TGAGCCGACG CAGGCCCTCC
    GAGGGGCCCC GGGACGCTGA TCACTTCCGC TGCAGTACGT TCGCCGAGCT GCAGGAGCGT
    CTGGAGTGCA TAGATGGCAG CGAGGCGTTC CCTGGCCCCC AGGGCCCCCA GGGTGGCTCT
    GACGGAGCCC AAGCCAGCCC TGCCCGGGGA GGCAGGAAAC CCTCGTTACC TGAGGCCACA
    CCCTCCAGGA AGGCTGTGGC CCCCACAGTG GTCACCAGTT GCCCTCGAGG CAGCCCTGGG
    CACGATACTC ACCGGAGCGC CTCAGACCCC TCTAAGACTG GCACACAGAG TGAGCAGAGA
    GTAGATGGTG CCCGGCCTGA GCCACCTGCT TCAGACAAGA CCTCAGGAGG CGGGGGCAGG
    AGGCCACTGC CCAGTCCAGC CCCTCCACCG CCTCGCCAGC CGGAAGCTCA AAGCGTCCCC
    AAAGAACCTG GGGGAGAGGG TACTGACAGC GTGCTGCGGA CACCCCCAGT GGGCATGAGT
    GGACAGGCGG CCTTGCCCCC GCTGCTCTCA GACTCGGCTT ATCTCTCCCC GTCGGCTCGT
    GGACGCCATC TGGAGAGAGG CCTGCTGACC ACCACAGTGA CCCTGCAGCA GCCTGTGGAA
    CTCAATGGCG AGGATGAGTT GGTGTTCACG GTGGTAGAGG AGCTACCTCT GGGCGGACTT
    GCAGGGGCCA CACGGCCCTC CAGTCTGGCC AGCATGAGCA GCGACTGCTC CCTGCAGGCT
    TTGGCCTCAG GGTCCAGGCC AGTCAGTATC ATCAGTAGCA TCAATGATGA GTTTGATGCA
    TATACCTCGC AGATGTCTGA GGGTCCCGGA GACCCCGGGG AGTTCCCAGA GGGAACAGCG
    TGGGCTGGCG GCAGTCCAGC CTCCTCCATT GGCTCCTGGC TGAGTGACGT TGGTGTCTGC
    TTGTCTGAAA GCCGTGGTCC CACACCACAG CCTCCCTTCA GCCCCAACTC TGCAGCAGGG
    CCGGGTCCAC CAGAGTTTCC TACCCCAGGC AGCTCCCTAG AGGAAAGCAA GGTCAGGTCC
    TCAGAGTGTG GAAGACCAGA CAATCCCGGC TCAGCCCGGA GTCTCCACCC TGGAGAAGCG
    GTTGCAACAA CTCAGACCCA ACCTGGCAGA GAGCCTTGGG CCAGGTCCCC ACATGAGGTA
    GCCTCAGCCC AGACTATCCA CTCCAGCCTG CCTCGGAAAC CCAGGACTAC CTCCACAGCC
    AGCCGAGCTC GTCCTAGCCG GGGTCCATAC AGCCCTGGTG GCCTGTGTGA GGACCCTTGG
    CTGCTCCGGG CAGAGGACTG TGACACGCGC CAGATAGCCT CTACGGGCAG AGCCCCAAGC
    CCAACCCCAG GCTCCCCTCG ATTGCCTGAG ACTCAGATGA TGCCGGCTTG TGCCCAGAGA
    GTGGTGGATG GGTGTGAGGT GGCATCCAGA ATGTCGCGGA GACCAGAGGC TGTGGCTCGG
    ATCCCACCTT TGCGGAGGGG GGCCACCACA CTAGGAGTGA CCACACCTGC TGCATCCTGT
    GGGGACGCTC CAGCAGAGGC AGTGGTCCAT TCAGGAAGCC TGAAGACCAC CTCGGGCAGT
    AAGAAGAGCG TCTCGCCCAA GGGCGCCTTC TTTCCAAGGC CTAGTGGGGC AGGCCCCCCA
    GCCCCGCCTG TGCGCAAGTC TAGCCTGGAG CAGAGCACGG CCCTCACCCC CACCCAGGCC
    CTGGGACTGA CCAGGGCAGG GGCTCCTTCT GCCTTCCGAG GGGAGGAGGA AGCCAGGCCC
    AGTGGTCGGT CTGATTCCTC TGTTCCCAAG GCCACATCCA GCCTGAAAGC CCGAGCTGGC
    AAGATGGACG CACCACACCG TCCCTCTGGC CACATGTCCC TGGAACGGTG TGAGGGCCTG
    GCACATGGCA GCAGTAAGGT CAGAGATGTC GTAGGACGGC CACCAAGGGC TGTGCCCAGG
    TTGGGTGTAC CATCCGCCAG CCCTCCACTT GGACCAGCTC CTGCCTGTAG GAACAGCCCA
    GCCAAGGGTG TTGGAGCAAC CAAGCCTCCT GCTGGTGGAG CTAAGGGTCG TAATCTGGGG
    CCAAGCACAT CTCGGGCTCT GGGTGCTCCG GTGAAACCAC TAGGGCCTGT GGCAGGCAAG
    ACAGCTGGTA GCGCTGTGCC AGGACCCCGA GCTGCTCCAC GGGCTGTGCC GGGTATTGGG
    GCCAAGGCTG GTCGGGGCAC CATCATGGGC ACTAAGCAGG CATTCCGGGC TGCCCATAGC
    CGTGTCCACG AATTGGCAGC CAGTGGATCT CCTGGTAGAG GCGGCCTCTC CTGGGGCTCG
    ACGGACTCGG ACAGCGGCAA CGACAGCGGT GTGAACCTGG CTGAAGAGCG GCAGCCCGCG
    AGCCCTGCCC TGCCCTCCCC TTACAGCAAA GTGACCGCTC CGAGGAGACC CCAGCGCTAC
    AGCAGTGGCC ATGGCAGTGA CAACAGCAGC GTGCTGAGCG GTGAGCTGCC CCCTGCCATG
    GGCCGCACTG CTCTCTTCTA CCACAGTGGC GGCAGCAGTG GCTATGAGAG CATGATTCGG
    GACAGCGAGG CCACTGGCAG TGCCTCCTCG GCTCCAGACT CCATGAGCGA GAGTGGAACA
    GCCTCTCTGG GTGCCCGCTC CCGCAGCCTC AAGTCCCCGA AGAAGAGAGC CACAGGTCTA
    CAGCGGAGGA GGCTGATCCC GGCCCCACTT CCTGACGCTG CTGCTTTAGG CCGCAAGCCC
    AGCCTCCCCG GGCAATGGGT AGACTTGCCC CCGCCCCTGG CCGGCTCTCT GAAGGAGCCT
    TTCGAGATCA AGGTGTACGA AATAGATGAC GTGGAGCGTC TGCAGCGGCA CCGGCTGCCT
    CTGAGGGAGA ATGAAGCCAA GCCCTCCCAG GACGCAGAGA AGCAGGGCCC AGTGTGCATC
    AGCTCCAAGC TGCGTCTCGC AGAGCGCAGG CAGCAGCGAC TGCAGGAAGT GCAGGCCAAA
    CGTGACCACC TCTGCGAGGA GCTGGCTGAG ACCCAGGGCC GGCTGATGGT GGAACCTGGG
    CGCTGGCTGG AGCAGTTTGA GGTGGACCCA GAGCTGGAGC CAGAGTCAGC TGAATATCTG
    GTGGCCCTGG AGCAAGCCAC AGCTGCCCTG GAGCAGTGCG TTAACCTGTG CAAGGCCCAT
    GTCATGATGG TCACCTGCTT TGACATTGGA GTTGCTGCCA CCACTGCTGT ACCTGGGCCA
    CAAGAGGTGG ATGTTTGA

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