KIF14 cDNA ORF clone, Homo sapiens(human)

The following KIF14 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the KIF14 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
OHu90896 XM_017003007.1
Latest version!
Homo sapiens kinesin family member 14 (KIF14), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 15-17 $727.30
$1039.00
OHu90895 XM_017003006.1
Latest version!
Homo sapiens kinesin family member 14 (KIF14), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $811.30
$1159.00
OHu63530 NM_001305792.1
Latest version!
Homo sapiens kinesin family member 14 (KIF14), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu63530 XM_011510236.1
Latest version!
Homo sapiens kinesin family member 14 (KIF14), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu24430 NM_014875.3
Latest version!
Homo sapiens kinesin family member 14 (KIF14), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $384.30
$549.00
OHu24430 XM_011510230.1
Latest version!
Homo sapiens kinesin family member 14 (KIF14), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $384.30
$549.00
OHu24430 XM_017003005.1
Latest version!
Homo sapiens kinesin family member 14 (KIF14), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $384.30
$549.00
OHu24430 XM_011510232.2
Latest version!
Homo sapiens kinesin family member 14 (KIF14), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $384.30
$549.00
OHu24430 XM_011510231.2
Latest version!
Homo sapiens kinesin family member 14 (KIF14), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $384.30
$549.00
OHu63527 XM_011510233.2
Latest version!
Homo sapiens kinesin family member 14 (KIF14), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu63529 XM_011510235.2
Latest version!
Homo sapiens kinesin family member 14 (KIF14), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
View Old Accession Versions >>
OHu24430 XM_011510231.1 Homo sapiens kinesin family member 14 (KIF14), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $384.30
$549.00
OHu24430 XM_011510232.1 Homo sapiens kinesin family member 14 (KIF14), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $384.30
$549.00
OHu24430 NM_014875.2 Homo sapiens kinesin family member 14 (KIF14), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $384.30
$549.00
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 OHu90896
    Clone ID Related Accession (Same CDS sequence) XM_017003007.1
    Accession Version XM_017003007.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4380bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product kinesin-like protein KIF14 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGATGGCTG ATAAGAAATA CAAAGAAACA TTTTCTGCCC CCAGTAGAGC AAATGAAAAT 
    GTTGCACTTA AGTACTCAAG TAATAGACCA CCCATTGCTT CCCTGAGTCA GACTGAAGTT
    GTTAGATCAG GACACTTGAC AACGAAACCT ACTCAGAGCA AGTTGGATAT CAAAGTGTTG
    GGAACAGGAA ACTTGTATCA TAGAAGTATT GGGAAGGAAA TTGCAAAAAC TTCAAATAAA
    TTTGGGAGCT TAGAAAAAAG AACACCTACA AAATGTACAA CAGAACACAA ACTGACAACA
    AAGTGCAGCC TGCCTCAGCT TAAGAGCCCA GCTCCATCAA TACTGAAGAA TAGAATGTCT
    AACCTTCAAG TTAAACAAAG ACCAAAAAGT TCCTTTCTTG CAAATAAACA GGAAAGATCC
    GCAGAAAATA CAATTCTTCC CGAAGAAGAA ACTGTAGTTC AGAACACCTC TGCAGGAAAA
    GACCCCTTAA AAGTAGAGAA TAGTCAAGTG ACAGTGGCAG TACGCGTAAG ACCTTTCACC
    AAGAGAGAGA AGATTGAAAA AGCATCCCAG GTAGTCTTCA TGAGTGGGAA AGAAATAACT
    GTGGAACACC CTGACACGAA ACAAGTTTAT AATTTTATTT ATGATGTTTC ATTCTGGTCT
    TTTGATGAAT GTCATCCTCA CTACGCTAGC CAGACAACTG TCTATGAGAA GCTAGCAGCA
    CCACTCCTAG AAAGAGCCTT CGAAGGCTTC AATACCTGTC TTTTTGCTTA TGGTCAGACT
    GGCTCTGGAA AATCATATAC GATGATGGGA TTTAGTGAAG AACCAGGAAT AATTCCAAGA
    TTTTGTGAAG ATCTTTTTTC TCAAGTAGCC AGAAAACAAA CCCAAGAGGT CAGCTATCAC
    ATTGAAATGA GCTTCTTTGA AGTATATAAT GAAAAAATTC ACGACCTTCT GGTTTGTAAA
    GATGAAAATG GGCAGAGAAA GCAACCACTG AGAGTGAGGG AACATCCTGT TTATGGACCA
    TATGTTGAAG CACTGTCAAT GAACATTGTC AGTTCTTACG CTGATATCCA GAGTTGGCTA
    GAATTGGGAA ATAAACAAAG AGCTACTGCT GCTACTGGTA TGAATGATAA AAGTTCCCGA
    TCTCATTCAG TTTTCACCCT GGTGATGACC CAGACCAAGA CAGAATTTGT GGAAGGGGAA
    GAACACGATC ACAGAATAAC AAGTCGAATT AACCTAATAG ATCTGGCAGG CAGTGAGCGC
    TGCTCTACGG CTCACACTAA TGGAGATCGA CTAAAGGAAG GTGTGAGTAT TAATAAGTCC
    TTGCTAACTT TGGGAAAAGT TATATCTGCA CTTTCGGAAC AAGCAAACCA AAGGAGTGTT
    TTTATTCCTT ATCGTGAATC TGTTCTTACA TGGCTGTTAA AAGAAAGTCT GGGTGGAAAT
    TCAAAAACTG CAATGATTGC TACGATTAGT CCCGCTGCCA GCAACATAGA AGAAACATTA
    AGCACACTTA GATATGCTAA CCAAGCCCGT TTAATAGTCA ACATTGCTAA AGTAAATGAA
    GATATGAACG CTAAGTTAAT TAGAGAATTG AAGGCAGAAA TTGCAAAGCT AAAAGCTGCT
    CAGAGAAACA GTCGGAATAT TGACCCTGAA CGATACAGGC TCTGTCGGCA AGAAATAACA
    TCCTTAAGAA TGAAACTGCA TCAACAGGAG AGAGACATGG CAGAAATGCA AAGAGTGTGG
    AAAGAAAAGT TTGAACAAGC TGAAAAAAGA AAACTTCAAG AAACAAAAGA GTTACAGAAA
    GCAGGAATTA TGTTTCAAAT GGACAATCAT TTACCAAACC TTGTTAATCT GAATGAAGAT
    CCACAACTAT CTGAGATGCT GCTATATATG ATAAAAGAAG GAACAACTAC AGTTGGAAAG
    TATAAACCAA ACTCAAGCCA TGATATTCAG TTATCTGGGG TGCTGATTGC TGATGATCAT
    TGTACTATCA AAAATTTTGG TGGGACAGTG AGTATTATCC CAGTTGGGGA AGCAAAGACA
    TATGTAAATG GAAAACATAT TTTGGAAATC ACAGTATTAC GTCATGGTGA TCGAGTGATT
    CTTGGTGGAG ATCATTATTT TAGATTTAAT CATCCAGTAG AAGTCCAGAA AGGAAAAAGG
    CCATCTGGAA GAGATACTCC TATAAGTGAG GGTCCAAAAG ACTTTGAATT TGCAAAAAAT
    GAGTTGCTCA TGGCACAGAG ATCACAACTT GAAGCAGAAA TAAAAGAGGC TCAGTTGAAG
    GCAAAGGAAG AAATGATGCA AGGAATCCAG ATTGCAAAAG AAATGGCTCA GCAAGAGCTT
    TCTTCTCAAA AAGCTGCATA TGAAAGCAAA ATAAAAGCAC TGGAAGCAGA ACTGAGAGAA
    GAGTCTCAAA GGAAAAAAAT GCAGGAAATA AATAACCAGA AGGCTAATCA CAAAATTGAG
    GAATTAGAAA AGGCAAAGCA GCATCTTGAA CAGGAAATAT ATGTCAACAA AAAGCGATTA
    GAAATGGAAA CATTGGCTAC AAAACAGGCT TTAGAAGACC ATAGCATCCG CCATGCAAGA
    ATTCTGGAAG CTTTAGAAAC TGAAAAGCAA AAAATTGCTA AAGAAGTACA AATTCTACAG
    CAGAATCGGA ATAATAGGGA TAAAACTTTT ACAGTGCAGA CAACTTGGAG CTCTATGAAA
    CTCTCAATGA TGATTCAGGA AGCCAATGCT ATCAGCAGCA AATTGAAAAC ATACTATGTT
    TTTGGCAGAC ATGATATATC AGATAAAAGT AGTTCTGACA CTTCTATTCG GGTTCGTAAC
    CTGAAACTAG GAATCTCAAC ATTCTGGAGT CTGGAAAAGT TTGAATCTAA ACTTGCAGCA
    ATGAAAGAAC TTTATGAGAG TAATGGTAGT AACAGGGGTG AAGATGCCTT TTGTGATCCT
    GAAGATGAAT GGGAACCCGA CATTACAGAT GCACCAGTTT CTTCACTTTC TAGAAGGAGG
    AGTAGGAGTT TGATGAAGAA CAGAAGAATT TCTGGTTGTT TACATGACAT ACAAGTCCAT
    CCAATTAAGA ATTTGCATTC TTCACATTCA TCAGGTTTAA TGGACAAATC AAGCACTATT
    TACTCAAATT CAGCAGAGTC CTTTCTTCCT GGAATTTGCA AAGAATTGAT TGGTTCTTCG
    TTAGATTTTT TTGGACAGAG TTATGATGAA GAAAGAACTA TAGCAGACAG CCTAATTAAT
    AGTTTTCTTA AAATTTATAA TGGGCTATTT GCCATTTCCA AGGCTCATGA AGAACAAGAT
    GAAGAAAGTC AAGATAACTT GTTTTCTTCT GATCGAGCAA TCCAGTCACT TACTATTCAG
    ACTGCATGTG CTTTTGAGCA GCTAGTAGTG CTAATGAAAC ACTGGCTGAG TGATTTACTG
    CCTTGTACCA ACATAGCAAG ACTTGAGGAT GAGTTGAGAC AAGAAGTTAA AAAACTGGGA
    GGCTACTTAC AGTTATTTTT GCAGGGATGC TGTTTGGATA TTTCATCAAT GATAAAAGAG
    GCTCAAAAGA ATGCAATCCA AATTGTACAA CAAGCTGTAA AGTATGTGGG GCAGTTAGCA
    GTTCTGAAAG GGAGCAAGCT ACATTTTCTA GAAAACGGTA ACAATAAAGC TGCCAGTGTC
    CAGGAGGAAT TCATGGATGC TGTTTGTGAT GGTGTAGGCT TAGGAATGAA GATTTTATTA
    GATTCTGGAC TGGAAAAAGC AAAAGAACTT CAGCATGAAC TCTTTAGGCA GTGTACAAAA
    AATGAGGTTA CCAAAGAAAT GAAAACTAAT GCCATGGGAT TGATTAGATC TCTTGAAAAC
    ATCTTTGCTG AATCGAAAAT TAAAAGTTTC AGAAGGCAAG TACAAGAAGA AAACTTTGAA
    TACCAAGATT TCAAGAGGAT GGTTAATCGT GCTCCAGAAT TCTTAAAGTT AAAACATTGC
    TTAGAGAAAG CTATTGAAAT TATTATTTCT GCACTGAAAG GATGCCATAG TGATATAAAT
    CTTCTCCAGA CTTGTGTTGA AAGTATTCGC AACTTGGCCA GTGATTTTTA CAGTGACTTC
    AGTGTGCCTT CTACTTCTGT TGGCAGCTAT GAGAGTAGAG TAACTCACAT TGTCCACCAG
    GAACTAGAAT CTCTAGCTAA GTCTCTCCTC TTTTGTTTTG AATCTGAAGA AAGCCCTGAT
    TTGTTGAAAC CCTGGGAAAC TTATAATCAA AATACCAAAG AAGAACACCA ACAATCTAAA
    TCAAGCGGGA TTGACGGCAG TAAGAATAAA GGTGTACCAA AGCGTGTCTA TGAGCTCCAT
    GGCTCATCCC CAGCAGTGAG CTCAGAGGAA TGCACACCCA GTAGGATTCA GTGGGTGTGA

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

    RefSeq XP_016858496.1
    CDS319..4698
    Translation

    Target ORF information:

    RefSeq Version XM_017003007.1
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 14 (KIF14), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017003007.1

    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
    ATGATGGCTG ATAAGAAATA CAAAGAAACA TTTTCTGCCC CCAGTAGAGC AAATGAAAAT 
    GTTGCACTTA AGTACTCAAG TAATAGACCA CCCATTGCTT CCCTGAGTCA GACTGAAGTT
    GTTAGATCAG GACACTTGAC AACGAAACCT ACTCAGAGCA AGTTGGATAT CAAAGTGTTG
    GGAACAGGAA ACTTGTATCA TAGAAGTATT GGGAAGGAAA TTGCAAAAAC TTCAAATAAA
    TTTGGGAGCT TAGAAAAAAG AACACCTACA AAATGTACAA CAGAACACAA ACTGACAACA
    AAGTGCAGCC TGCCTCAGCT TAAGAGCCCA GCTCCATCAA TACTGAAGAA TAGAATGTCT
    AACCTTCAAG TTAAACAAAG ACCAAAAAGT TCCTTTCTTG CAAATAAACA GGAAAGATCC
    GCAGAAAATA CAATTCTTCC CGAAGAAGAA ACTGTAGTTC AGAACACCTC TGCAGGAAAA
    GACCCCTTAA AAGTAGAGAA TAGTCAAGTG ACAGTGGCAG TACGCGTAAG ACCTTTCACC
    AAGAGAGAGA AGATTGAAAA AGCATCCCAG GTAGTCTTCA TGAGTGGGAA AGAAATAACT
    GTGGAACACC CTGACACGAA ACAAGTTTAT AATTTTATTT ATGATGTTTC ATTCTGGTCT
    TTTGATGAAT GTCATCCTCA CTACGCTAGC CAGACAACTG TCTATGAGAA GCTAGCAGCA
    CCACTCCTAG AAAGAGCCTT CGAAGGCTTC AATACCTGTC TTTTTGCTTA TGGTCAGACT
    GGCTCTGGAA AATCATATAC GATGATGGGA TTTAGTGAAG AACCAGGAAT AATTCCAAGA
    TTTTGTGAAG ATCTTTTTTC TCAAGTAGCC AGAAAACAAA CCCAAGAGGT CAGCTATCAC
    ATTGAAATGA GCTTCTTTGA AGTATATAAT GAAAAAATTC ACGACCTTCT GGTTTGTAAA
    GATGAAAATG GGCAGAGAAA GCAACCACTG AGAGTGAGGG AACATCCTGT TTATGGACCA
    TATGTTGAAG CACTGTCAAT GAACATTGTC AGTTCTTACG CTGATATCCA GAGTTGGCTA
    GAATTGGGAA ATAAACAAAG AGCTACTGCT GCTACTGGTA TGAATGATAA AAGTTCCCGA
    TCTCATTCAG TTTTCACCCT GGTGATGACC CAGACCAAGA CAGAATTTGT GGAAGGGGAA
    GAACACGATC ACAGAATAAC AAGTCGAATT AACCTAATAG ATCTGGCAGG CAGTGAGCGC
    TGCTCTACGG CTCACACTAA TGGAGATCGA CTAAAGGAAG GTGTGAGTAT TAATAAGTCC
    TTGCTAACTT TGGGAAAAGT TATATCTGCA CTTTCGGAAC AAGCAAACCA AAGGAGTGTT
    TTTATTCCTT ATCGTGAATC TGTTCTTACA TGGCTGTTAA AAGAAAGTCT GGGTGGAAAT
    TCAAAAACTG CAATGATTGC TACGATTAGT CCCGCTGCCA GCAACATAGA AGAAACATTA
    AGCACACTTA GATATGCTAA CCAAGCCCGT TTAATAGTCA ACATTGCTAA AGTAAATGAA
    GATATGAACG CTAAGTTAAT TAGAGAATTG AAGGCAGAAA TTGCAAAGCT AAAAGCTGCT
    CAGAGAAACA GTCGGAATAT TGACCCTGAA CGATACAGGC TCTGTCGGCA AGAAATAACA
    TCCTTAAGAA TGAAACTGCA TCAACAGGAG AGAGACATGG CAGAAATGCA AAGAGTGTGG
    AAAGAAAAGT TTGAACAAGC TGAAAAAAGA AAACTTCAAG AAACAAAAGA GTTACAGAAA
    GCAGGAATTA TGTTTCAAAT GGACAATCAT TTACCAAACC TTGTTAATCT GAATGAAGAT
    CCACAACTAT CTGAGATGCT GCTATATATG ATAAAAGAAG GAACAACTAC AGTTGGAAAG
    TATAAACCAA ACTCAAGCCA TGATATTCAG TTATCTGGGG TGCTGATTGC TGATGATCAT
    TGTACTATCA AAAATTTTGG TGGGACAGTG AGTATTATCC CAGTTGGGGA AGCAAAGACA
    TATGTAAATG GAAAACATAT TTTGGAAATC ACAGTATTAC GTCATGGTGA TCGAGTGATT
    CTTGGTGGAG ATCATTATTT TAGATTTAAT CATCCAGTAG AAGTCCAGAA AGGAAAAAGG
    CCATCTGGAA GAGATACTCC TATAAGTGAG GGTCCAAAAG ACTTTGAATT TGCAAAAAAT
    GAGTTGCTCA TGGCACAGAG ATCACAACTT GAAGCAGAAA TAAAAGAGGC TCAGTTGAAG
    GCAAAGGAAG AAATGATGCA AGGAATCCAG ATTGCAAAAG AAATGGCTCA GCAAGAGCTT
    TCTTCTCAAA AAGCTGCATA TGAAAGCAAA ATAAAAGCAC TGGAAGCAGA ACTGAGAGAA
    GAGTCTCAAA GGAAAAAAAT GCAGGAAATA AATAACCAGA AGGCTAATCA CAAAATTGAG
    GAATTAGAAA AGGCAAAGCA GCATCTTGAA CAGGAAATAT ATGTCAACAA AAAGCGATTA
    GAAATGGAAA CATTGGCTAC AAAACAGGCT TTAGAAGACC ATAGCATCCG CCATGCAAGA
    ATTCTGGAAG CTTTAGAAAC TGAAAAGCAA AAAATTGCTA AAGAAGTACA AATTCTACAG
    CAGAATCGGA ATAATAGGGA TAAAACTTTT ACAGTGCAGA CAACTTGGAG CTCTATGAAA
    CTCTCAATGA TGATTCAGGA AGCCAATGCT ATCAGCAGCA AATTGAAAAC ATACTATGTT
    TTTGGCAGAC ATGATATATC AGATAAAAGT AGTTCTGACA CTTCTATTCG GGTTCGTAAC
    CTGAAACTAG GAATCTCAAC ATTCTGGAGT CTGGAAAAGT TTGAATCTAA ACTTGCAGCA
    ATGAAAGAAC TTTATGAGAG TAATGGTAGT AACAGGGGTG AAGATGCCTT TTGTGATCCT
    GAAGATGAAT GGGAACCCGA CATTACAGAT GCACCAGTTT CTTCACTTTC TAGAAGGAGG
    AGTAGGAGTT TGATGAAGAA CAGAAGAATT TCTGGTTGTT TACATGACAT ACAAGTCCAT
    CCAATTAAGA ATTTGCATTC TTCACATTCA TCAGGTTTAA TGGACAAATC AAGCACTATT
    TACTCAAATT CAGCAGAGTC CTTTCTTCCT GGAATTTGCA AAGAATTGAT TGGTTCTTCG
    TTAGATTTTT TTGGACAGAG TTATGATGAA GAAAGAACTA TAGCAGACAG CCTAATTAAT
    AGTTTTCTTA AAATTTATAA TGGGCTATTT GCCATTTCCA AGGCTCATGA AGAACAAGAT
    GAAGAAAGTC AAGATAACTT GTTTTCTTCT GATCGAGCAA TCCAGTCACT TACTATTCAG
    ACTGCATGTG CTTTTGAGCA GCTAGTAGTG CTAATGAAAC ACTGGCTGAG TGATTTACTG
    CCTTGTACCA ACATAGCAAG ACTTGAGGAT GAGTTGAGAC AAGAAGTTAA AAAACTGGGA
    GGCTACTTAC AGTTATTTTT GCAGGGATGC TGTTTGGATA TTTCATCAAT GATAAAAGAG
    GCTCAAAAGA ATGCAATCCA AATTGTACAA CAAGCTGTAA AGTATGTGGG GCAGTTAGCA
    GTTCTGAAAG GGAGCAAGCT ACATTTTCTA GAAAACGGTA ACAATAAAGC TGCCAGTGTC
    CAGGAGGAAT TCATGGATGC TGTTTGTGAT GGTGTAGGCT TAGGAATGAA GATTTTATTA
    GATTCTGGAC TGGAAAAAGC AAAAGAACTT CAGCATGAAC TCTTTAGGCA GTGTACAAAA
    AATGAGGTTA CCAAAGAAAT GAAAACTAAT GCCATGGGAT TGATTAGATC TCTTGAAAAC
    ATCTTTGCTG AATCGAAAAT TAAAAGTTTC AGAAGGCAAG TACAAGAAGA AAACTTTGAA
    TACCAAGATT TCAAGAGGAT GGTTAATCGT GCTCCAGAAT TCTTAAAGTT AAAACATTGC
    TTAGAGAAAG CTATTGAAAT TATTATTTCT GCACTGAAAG GATGCCATAG TGATATAAAT
    CTTCTCCAGA CTTGTGTTGA AAGTATTCGC AACTTGGCCA GTGATTTTTA CAGTGACTTC
    AGTGTGCCTT CTACTTCTGT TGGCAGCTAT GAGAGTAGAG TAACTCACAT TGTCCACCAG
    GAACTAGAAT CTCTAGCTAA GTCTCTCCTC TTTTGTTTTG AATCTGAAGA AAGCCCTGAT
    TTGTTGAAAC CCTGGGAAAC TTATAATCAA AATACCAAAG AAGAACACCA ACAATCTAAA
    TCAAGCGGGA TTGACGGCAG TAAGAATAAA GGTGTACCAA AGCGTGTCTA TGAGCTCCAT
    GGCTCATCCC CAGCAGTGAG CTCAGAGGAA TGCACACCCA GTAGGATTCA GTGGGTGTGA

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

    CloneID OHu90895
    Clone ID Related Accession (Same CDS sequence) XM_017003006.1
    Accession Version XM_017003006.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4818bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product kinesin-like protein KIF14 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGTCAGAAT GTGAAAATGA TGATCCATTA TTGAGATCTG CAGGTAAAGT CAGAGACATA 
    AATAGAACTT ATGTTATTTC TGCCAGTAGA AAAACAGCAG ACATGCCCCT TACCCCTAAT
    CCTGTAGGTA GATTGGCACT TCAGAGGAGA ACTACAAGGA ACAAAGAATC ATCTTTGCTT
    GTTAGTGAGT TGGAAGACAC AACTGAAAAA ACAGCAGAAA CACGTCTTAC ATTACAACGT
    CGTGCTAAAA CAGATTCTGC AGAAAAGTGG AAAACAGCTG AAATAGATTC TGTCAAAATG
    ACACTGAATG TGGGAGGTGA AACAGAAAAT AATGGTGTTT CTAAGGAAAG TAGAACAAAT
    GTAAGGATTG TAAATAATGC TAAAAACTCT TTTGTTGCCT CTTCTGTACC TTTAGATGAA
    GATCCACAGG TCATTGAAAT GATGGCTGAT AAGAAATACA AAGAAACATT TTCTGCCCCC
    AGTAGAGCAA ATGAAAATGT TGCACTTAAG TACTCAAGTA ATAGACCACC CATTGCTTCC
    CTGAGTCAGA CTGAAGTTGT TAGATCAGGA CACTTGACAA CGAAACCTAC TCAGAGCAAG
    TTGGATATCA AAGTGTTGGG AACAGGAAAC TTGTATCATA GAAGTATTGG GAAGGAAATT
    GCAAAAACTT CAAATAAATT TGGGAGCTTA GAAAAAAGAA CACCTACAAA ATGTACAACA
    GAACACAAAC TGACAACAAA GTGCAGCCTG CCTCAGCTTA AGAGCCCAGC TCCATCAATA
    CTGAAGAATA GAATGTCTAA CCTTCAAGTT AAACAAAGAC CAAAAAGTTC CTTTCTTGCA
    AATAAACAGG AAAGATCCGC AGAAAATACA ATTCTTCCCG AAGAAGAAAC TGTAGTTCAG
    AACACCTCTG CAGGAAAAGA CCCCTTAAAA GTAGAGAATA GTCAAGTGAC AGTGGCAGTA
    CGCGTAAGAC CTTTCACCAA GAGAGAGAAG ATTGAAAAAG CATCCCAGGT AGTCTTCATG
    AGTGGGAAAG AAATAACTGT GGAACACCCT GACACGAAAC AAGTTTATAA TTTTATTTAT
    GATGTTTCAT TCTGGTCTTT TGATGAATGT CATCCTCACT ACGCTAGCCA GACAACTGTC
    TATGAGAAGC TAGCAGCACC ACTCCTAGAA AGAGCCTTCG AAGGCTTCAA TACCTGTCTT
    TTTGCTTATG GTCAGACTGG CTCTGGAAAA TCATATACGA TGATGGGATT TAGTGAAGAA
    CCAGGAATAA TTCCAAGATT TTGTGAAGAT CTTTTTTCTC AAGTAGCCAG AAAACAAACC
    CAAGAGGTCA GCTATCACAT TGAAATGAGC TTCTTTGAAG TATATAATGA AAAAATTCAC
    GACCTTCTGG TTTGTAAAGA TGAAAATGGG CAGAGAAAGC AACCACTGAG AGTGAGGGAA
    CATCCTGTTT ATGGACCATA TGTTGAAGCA CTGTCAATGA ACATTGTCAG TTCTTACGCT
    GATATCCAGA GTTGGCTAGA ATTGGGAAAT AAACAAAGAG CTACTGCTGC TACTGGTATG
    AATGATAAAA GTTCCCGATC TCATTCAGTT TTCACCCTGG TGATGACCCA GACCAAGACA
    GAATTTGTGG AAGGGGAAGA ACACGATCAC AGAATAACAA GTCGAATTAA CCTAATAGAT
    CTGGCAGGCA GTGAGCGCTG CTCTACGGCT CACACTAATG GAGATCGACT AAAGGAAGGT
    GTGAGTATTA ATAAGTCCTT GCTAACTTTG GGAAAAGTTA TATCTGCACT TTCGGAACAA
    GCAAACCAAA GGAGTGTTTT TATTCCTTAT CGTGAATCTG TTCTTACATG GCTGTTAAAA
    GAAAGTCTGG GTGGAAATTC AAAAACTGCA ATGATTGCTA CGATTAGTCC CGCTGCCAGC
    AACATAGAAG AAACATTAAG CACACTTAGA TATGCTAACC AAGCCCGTTT AATAGTCAAC
    ATTGCTAAAG TAAATGAAGA TATGAACGCT AAGTTAATTA GAGAATTGAA GGCAGAAATT
    GCAAAGCTAA AAGCTGCTCA GAGAAACAGT CGGAATATTG ACCCTGAACG ATACAGGCTC
    TGTCGGCAAG AAATAACATC CTTAAGAATG AAACTGCATC AACAGGAGAG AGACATGGCA
    GAAATGCAAA GAGTGTGGAA AGAAAAGTTT GAACAAGCTG AAAAAAGAAA ACTTCAAGAA
    ACAAAAGAGT TACAGAAAGC AGGAATTATG TTTCAAATGG ACAATCATTT ACCAAACCTT
    GTTAATCTGA ATGAAGATCC ACAACTATCT GAGATGCTGC TATATATGAT AAAAGAAGGA
    ACAACTACAG TTGGAAAGTA TAAACCAAAC TCAAGCCATG ATATTCAGTT ATCTGGGGTG
    CTGATTGCTG ATGATCATTG TACTATCAAA AATTTTGGTG GGACAGTGAG TATTATCCCA
    GTTGGGGAAG CAAAGACATA TGTAAATGGA AAACATATTT TGGAAATCAC AGTATTACGT
    CATGGTGATC GAGTGATTCT TGGTGGAGAT CATTATTTTA GATTTAATCA TCCAGTAGAA
    GTCCAGAAAG GAAAAAGGCC ATCTGGAAGA GATACTCCTA TAAGTGAGGG TCCAAAAGAC
    TTTGAATTTG CAAAAAATGA GTTGCTCATG GCACAGAGAT CACAACTTGA AGCAGAAATA
    AAAGAGGCTC AGTTGAAGGC AAAGGAAGAA ATGATGCAAG GAATCCAGAT TGCAAAAGAA
    ATGGCTCAGC AAGAGCTTTC TTCTCAAAAA GCTGCATATG AAAGCAAAAT AAAAGCACTG
    GAAGCAGAAC TGAGAGAAGA GTCTCAAAGG AAAAAAATGC AGGAAATAAA TAACCAGAAG
    GCTAATCACA AAATTGAGGA ATTAGAAAAG GCAAAGCAGC ATCTTGAACA GGAAATATAT
    GTCAACAAAA AGCGATTAGA AATGGAAACA TTGGCTACAA AACAGGCTTT AGAAGACCAT
    AGCATCCGCC ATGCAAGAAT TCTGGAAGCT TTAGAAACTG AAAAGCAAAA AATTGCTAAA
    GAAGTACAAA TTCTACAGCA GAATCGGAAT AATAGGGATA AAACTTTTAC AGTGCAGACA
    ACTTGGAGCT CTATGAAACT CTCAATGATG ATTCAGGAAG CCAATGCTAT CAGCAGCAAA
    TTGAAAACAT ACTATGTTTT TGGCAGACAT GATATATCAG ATAAAAGTAG TTCTGACACT
    TCTATTCGGG TTCGTAACCT GAAACTAGGA ATCTCAACAT TCTGGAGTCT GGAAAAGTTT
    GAATCTAAAC TTGCAGCAAT GAAAGAACTT TATGAGAGTA ATGGTAGTAA CAGGGGTGAA
    GATGCCTTTT GTGATCCTGA AGATGAATGG GAACCCGACA TTACAGATGC ACCAGTTTCT
    TCACTTTCTA GAAGGAGGAG TAGGAGTTTG ATGAAGAACA GAAGAATTTC TGGTTGTTTA
    CATGACATAC AAGTCCATCC AATTAAGAAT TTGCATTCTT CACATTCATC AGGTTTAATG
    GACAAATCAA GCACTATTTA CTCAAATTCA GCAGAGTCCT TTCTTCCTGG AATTTGCAAA
    GAATTGATTG GTTCTTCGTT AGATTTTTTT GGACAGAGTT ATGATGAAGA AAGAACTATA
    GCAGACAGCC TAATTAATAG TTTTCTTAAA ATTTATAATG GGCTATTTGC CATTTCCAAG
    GCTCATGAAG AACAAGATGA AGAAAGTCAA GATAACTTGT TTTCTTCTGA TCGAGCAATC
    CAGTCACTTA CTATTCAGAC TGCATGTGCT TTTGAGCAGC TAGTAGTGCT AATGAAACAC
    TGGCTGAGTG ATTTACTGCC TTGTACCAAC ATAGCAAGAC TTGAGGATGA GTTGAGACAA
    GAAGTTAAAA AACTGGGAGG CTACTTACAG TTATTTTTGC AGGGATGCTG TTTGGATATT
    TCATCAATGA TAAAAGAGGC TCAAAAGAAT GCAATCCAAA TTGTACAACA AGCTGTAAAG
    TATGTGGGGC AGTTAGCAGT TCTGAAAGGG AGCAAGCTAC ATTTTCTAGA AAACGGTAAC
    AATAAAGCTG CCAGTGTCCA GGAGGAATTC ATGGATGCTG TTTGTGATGG TGTAGGCTTA
    GGAATGAAGA TTTTATTAGA TTCTGGACTG GAAAAAGCAA AAGAACTTCA GCATGAACTC
    TTTAGGCAGT GTACAAAAAA TGAGGTTACC AAAGAAATGA AAACTAATGC CATGGGATTG
    ATTAGATCTC TTGAAAACAT CTTTGCTGAA TCGAAAATTA AAAGTTTCAG AAGGCAAGTA
    CAAGAAGAAA ACTTTGAATA CCAAGATTTC AAGAGGATGG TTAATCGTGC TCCAGAATTC
    TTAAAGTTAA AACATTGCTT AGAGAAAGCT ATTGAAATTA TTATTTCTGC ACTGAAAGGA
    TGCCATAGTG ATATAAATCT TCTCCAGACT TGTGTTGAAA GTATTCGCAA CTTGGCCAGT
    GATTTTTACA GTGACTTCAG TGTGCCTTCT ACTTCTGTTG GCAGCTATGA GAGTAGAGTA
    ACTCACATTG TCCACCAGGA ACTAGAATCT CTAGCTAAGT CTCTCCTCTT TTGTTTTGAA
    TCTGAAGAAA GCCCTGATTT GTTGAAACCC TGGGAAACTT ATAATCAAAA TACCAAAGAA
    GAACACCAAC AATCTAAATC AAGCGGGATT GACGGCAGTA AGAATAAAGG TGTACCAAAG
    CGTGTCTATG AGCTCCATGG CTCATCCCCA GCAGTGAGCT CAGAGGAATG CACACCCAGT
    AGGATTCAGT GGGTGTGA

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

    RefSeq XP_016858495.1
    CDS354..5171
    Translation

    Target ORF information:

    RefSeq Version XM_017003006.1
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 14 (KIF14), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017003006.1

    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
    ATGTCAGAAT GTGAAAATGA TGATCCATTA TTGAGATCTG CAGGTAAAGT CAGAGACATA 
    AATAGAACTT ATGTTATTTC TGCCAGTAGA AAAACAGCAG ACATGCCCCT TACCCCTAAT
    CCTGTAGGTA GATTGGCACT TCAGAGGAGA ACTACAAGGA ACAAAGAATC ATCTTTGCTT
    GTTAGTGAGT TGGAAGACAC AACTGAAAAA ACAGCAGAAA CACGTCTTAC ATTACAACGT
    CGTGCTAAAA CAGATTCTGC AGAAAAGTGG AAAACAGCTG AAATAGATTC TGTCAAAATG
    ACACTGAATG TGGGAGGTGA AACAGAAAAT AATGGTGTTT CTAAGGAAAG TAGAACAAAT
    GTAAGGATTG TAAATAATGC TAAAAACTCT TTTGTTGCCT CTTCTGTACC TTTAGATGAA
    GATCCACAGG TCATTGAAAT GATGGCTGAT AAGAAATACA AAGAAACATT TTCTGCCCCC
    AGTAGAGCAA ATGAAAATGT TGCACTTAAG TACTCAAGTA ATAGACCACC CATTGCTTCC
    CTGAGTCAGA CTGAAGTTGT TAGATCAGGA CACTTGACAA CGAAACCTAC TCAGAGCAAG
    TTGGATATCA AAGTGTTGGG AACAGGAAAC TTGTATCATA GAAGTATTGG GAAGGAAATT
    GCAAAAACTT CAAATAAATT TGGGAGCTTA GAAAAAAGAA CACCTACAAA ATGTACAACA
    GAACACAAAC TGACAACAAA GTGCAGCCTG CCTCAGCTTA AGAGCCCAGC TCCATCAATA
    CTGAAGAATA GAATGTCTAA CCTTCAAGTT AAACAAAGAC CAAAAAGTTC CTTTCTTGCA
    AATAAACAGG AAAGATCCGC AGAAAATACA ATTCTTCCCG AAGAAGAAAC TGTAGTTCAG
    AACACCTCTG CAGGAAAAGA CCCCTTAAAA GTAGAGAATA GTCAAGTGAC AGTGGCAGTA
    CGCGTAAGAC CTTTCACCAA GAGAGAGAAG ATTGAAAAAG CATCCCAGGT AGTCTTCATG
    AGTGGGAAAG AAATAACTGT GGAACACCCT GACACGAAAC AAGTTTATAA TTTTATTTAT
    GATGTTTCAT TCTGGTCTTT TGATGAATGT CATCCTCACT ACGCTAGCCA GACAACTGTC
    TATGAGAAGC TAGCAGCACC ACTCCTAGAA AGAGCCTTCG AAGGCTTCAA TACCTGTCTT
    TTTGCTTATG GTCAGACTGG CTCTGGAAAA TCATATACGA TGATGGGATT TAGTGAAGAA
    CCAGGAATAA TTCCAAGATT TTGTGAAGAT CTTTTTTCTC AAGTAGCCAG AAAACAAACC
    CAAGAGGTCA GCTATCACAT TGAAATGAGC TTCTTTGAAG TATATAATGA AAAAATTCAC
    GACCTTCTGG TTTGTAAAGA TGAAAATGGG CAGAGAAAGC AACCACTGAG AGTGAGGGAA
    CATCCTGTTT ATGGACCATA TGTTGAAGCA CTGTCAATGA ACATTGTCAG TTCTTACGCT
    GATATCCAGA GTTGGCTAGA ATTGGGAAAT AAACAAAGAG CTACTGCTGC TACTGGTATG
    AATGATAAAA GTTCCCGATC TCATTCAGTT TTCACCCTGG TGATGACCCA GACCAAGACA
    GAATTTGTGG AAGGGGAAGA ACACGATCAC AGAATAACAA GTCGAATTAA CCTAATAGAT
    CTGGCAGGCA GTGAGCGCTG CTCTACGGCT CACACTAATG GAGATCGACT AAAGGAAGGT
    GTGAGTATTA ATAAGTCCTT GCTAACTTTG GGAAAAGTTA TATCTGCACT TTCGGAACAA
    GCAAACCAAA GGAGTGTTTT TATTCCTTAT CGTGAATCTG TTCTTACATG GCTGTTAAAA
    GAAAGTCTGG GTGGAAATTC AAAAACTGCA ATGATTGCTA CGATTAGTCC CGCTGCCAGC
    AACATAGAAG AAACATTAAG CACACTTAGA TATGCTAACC AAGCCCGTTT AATAGTCAAC
    ATTGCTAAAG TAAATGAAGA TATGAACGCT AAGTTAATTA GAGAATTGAA GGCAGAAATT
    GCAAAGCTAA AAGCTGCTCA GAGAAACAGT CGGAATATTG ACCCTGAACG ATACAGGCTC
    TGTCGGCAAG AAATAACATC CTTAAGAATG AAACTGCATC AACAGGAGAG AGACATGGCA
    GAAATGCAAA GAGTGTGGAA AGAAAAGTTT GAACAAGCTG AAAAAAGAAA ACTTCAAGAA
    ACAAAAGAGT TACAGAAAGC AGGAATTATG TTTCAAATGG ACAATCATTT ACCAAACCTT
    GTTAATCTGA ATGAAGATCC ACAACTATCT GAGATGCTGC TATATATGAT AAAAGAAGGA
    ACAACTACAG TTGGAAAGTA TAAACCAAAC TCAAGCCATG ATATTCAGTT ATCTGGGGTG
    CTGATTGCTG ATGATCATTG TACTATCAAA AATTTTGGTG GGACAGTGAG TATTATCCCA
    GTTGGGGAAG CAAAGACATA TGTAAATGGA AAACATATTT TGGAAATCAC AGTATTACGT
    CATGGTGATC GAGTGATTCT TGGTGGAGAT CATTATTTTA GATTTAATCA TCCAGTAGAA
    GTCCAGAAAG GAAAAAGGCC ATCTGGAAGA GATACTCCTA TAAGTGAGGG TCCAAAAGAC
    TTTGAATTTG CAAAAAATGA GTTGCTCATG GCACAGAGAT CACAACTTGA AGCAGAAATA
    AAAGAGGCTC AGTTGAAGGC AAAGGAAGAA ATGATGCAAG GAATCCAGAT TGCAAAAGAA
    ATGGCTCAGC AAGAGCTTTC TTCTCAAAAA GCTGCATATG AAAGCAAAAT AAAAGCACTG
    GAAGCAGAAC TGAGAGAAGA GTCTCAAAGG AAAAAAATGC AGGAAATAAA TAACCAGAAG
    GCTAATCACA AAATTGAGGA ATTAGAAAAG GCAAAGCAGC ATCTTGAACA GGAAATATAT
    GTCAACAAAA AGCGATTAGA AATGGAAACA TTGGCTACAA AACAGGCTTT AGAAGACCAT
    AGCATCCGCC ATGCAAGAAT TCTGGAAGCT TTAGAAACTG AAAAGCAAAA AATTGCTAAA
    GAAGTACAAA TTCTACAGCA GAATCGGAAT AATAGGGATA AAACTTTTAC AGTGCAGACA
    ACTTGGAGCT CTATGAAACT CTCAATGATG ATTCAGGAAG CCAATGCTAT CAGCAGCAAA
    TTGAAAACAT ACTATGTTTT TGGCAGACAT GATATATCAG ATAAAAGTAG TTCTGACACT
    TCTATTCGGG TTCGTAACCT GAAACTAGGA ATCTCAACAT TCTGGAGTCT GGAAAAGTTT
    GAATCTAAAC TTGCAGCAAT GAAAGAACTT TATGAGAGTA ATGGTAGTAA CAGGGGTGAA
    GATGCCTTTT GTGATCCTGA AGATGAATGG GAACCCGACA TTACAGATGC ACCAGTTTCT
    TCACTTTCTA GAAGGAGGAG TAGGAGTTTG ATGAAGAACA GAAGAATTTC TGGTTGTTTA
    CATGACATAC AAGTCCATCC AATTAAGAAT TTGCATTCTT CACATTCATC AGGTTTAATG
    GACAAATCAA GCACTATTTA CTCAAATTCA GCAGAGTCCT TTCTTCCTGG AATTTGCAAA
    GAATTGATTG GTTCTTCGTT AGATTTTTTT GGACAGAGTT ATGATGAAGA AAGAACTATA
    GCAGACAGCC TAATTAATAG TTTTCTTAAA ATTTATAATG GGCTATTTGC CATTTCCAAG
    GCTCATGAAG AACAAGATGA AGAAAGTCAA GATAACTTGT TTTCTTCTGA TCGAGCAATC
    CAGTCACTTA CTATTCAGAC TGCATGTGCT TTTGAGCAGC TAGTAGTGCT AATGAAACAC
    TGGCTGAGTG ATTTACTGCC TTGTACCAAC ATAGCAAGAC TTGAGGATGA GTTGAGACAA
    GAAGTTAAAA AACTGGGAGG CTACTTACAG TTATTTTTGC AGGGATGCTG TTTGGATATT
    TCATCAATGA TAAAAGAGGC TCAAAAGAAT GCAATCCAAA TTGTACAACA AGCTGTAAAG
    TATGTGGGGC AGTTAGCAGT TCTGAAAGGG AGCAAGCTAC ATTTTCTAGA AAACGGTAAC
    AATAAAGCTG CCAGTGTCCA GGAGGAATTC ATGGATGCTG TTTGTGATGG TGTAGGCTTA
    GGAATGAAGA TTTTATTAGA TTCTGGACTG GAAAAAGCAA AAGAACTTCA GCATGAACTC
    TTTAGGCAGT GTACAAAAAA TGAGGTTACC AAAGAAATGA AAACTAATGC CATGGGATTG
    ATTAGATCTC TTGAAAACAT CTTTGCTGAA TCGAAAATTA AAAGTTTCAG AAGGCAAGTA
    CAAGAAGAAA ACTTTGAATA CCAAGATTTC AAGAGGATGG TTAATCGTGC TCCAGAATTC
    TTAAAGTTAA AACATTGCTT AGAGAAAGCT ATTGAAATTA TTATTTCTGC ACTGAAAGGA
    TGCCATAGTG ATATAAATCT TCTCCAGACT TGTGTTGAAA GTATTCGCAA CTTGGCCAGT
    GATTTTTACA GTGACTTCAG TGTGCCTTCT ACTTCTGTTG GCAGCTATGA GAGTAGAGTA
    ACTCACATTG TCCACCAGGA ACTAGAATCT CTAGCTAAGT CTCTCCTCTT TTGTTTTGAA
    TCTGAAGAAA GCCCTGATTT GTTGAAACCC TGGGAAACTT ATAATCAAAA TACCAAAGAA
    GAACACCAAC AATCTAAATC AAGCGGGATT GACGGCAGTA AGAATAAAGG TGTACCAAAG
    CGTGTCTATG AGCTCCATGG CTCATCCCCA GCAGTGAGCT CAGAGGAATG CACACCCAGT
    AGGATTCAGT GGGTGTGA

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

    CloneID OHu63530
    Clone ID Related Accession (Same CDS sequence) XM_011510236.1 , NM_001305792.1
    Accession Version NM_001305792.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3474bp)
    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 2019-12-27
    Organism Homo sapiens(human)
    Product kinesin-like protein KIF14 isoform 2
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from D26361.1, BC144068.1, BC113742.1, AL445483.13, CN307042.1, BQ425495.1, BE644769.1, CR748178.1 and BC098582.1. Transcript Variant: This variant (2) differs in the 5' UTR and lacks an exon in the 5' coding region, which results in use of a downstream start codon compared to variant 1. It encodes isoform 2, which has a shorter N-terminus than isoform 1. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: BC144068.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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
    ATGAGCTTCT TTGAAGTATA TAATGAAAAA ATTCACGACC TTCTGGTTTG TAAAGATGAA 
    AATGGGCAGA GAAAGCAACC ACTGAGAGTG AGGGAACATC CTGTTTATGG ACCATATGTT
    GAAGCACTGT CAATGAACAT TGTCAGTTCT TACGCTGATA TCCAGAGTTG GCTAGAATTG
    GGAAATAAAC AAAGAGCTAC TGCTGCTACT GGTATGAATG ATAAAAGTTC CCGATCTCAT
    TCAGTTTTCA CCCTGGTGAT GACCCAGACC AAGACAGAAT TTGTGGAAGG GGAAGAACAC
    GATCACAGAA TAACAAGTCG AATTAACCTA ATAGATCTGG CAGGCAGTGA GCGCTGCTCT
    ACGGCTCACA CTAATGGAGA TCGACTAAAG GAAGGTGTGA GTATTAATAA GTCCTTGCTA
    ACTTTGGGAA AAGTTATATC TGCACTTTCG GAACAAGCAA ACCAAAGGAG TGTTTTTATT
    CCTTATCGTG AATCTGTTCT TACATGGCTG TTAAAAGAAA GTCTGGGTGG AAATTCAAAA
    ACTGCAATGA TTGCTACGAT TAGTCCCGCT GCCAGCAACA TAGAAGAAAC ATTAAGCACA
    CTTAGATATG CTAACCAAGC CCGTTTAATA GTCAACATTG CTAAAGTAAA TGAAGATATG
    AACGCTAAGT TAATTAGAGA ATTGAAGGCA GAAATTGCAA AGCTAAAAGC TGCTCAGAGA
    AACAGTCGGA ATATTGACCC TGAACGATAC AGGCTCTGTC GGCAAGAAAT AACATCCTTA
    AGAATGAAAC TGCATCAACA GGAGAGAGAC ATGGCAGAAA TGCAAAGAGT GTGGAAAGAA
    AAGTTTGAAC AAGCTGAAAA AAGAAAACTT CAAGAAACAA AAGAGTTACA GAAAGCAGGA
    ATTATGTTTC AAATGGACAA TCATTTACCA AACCTTGTTA ATCTGAATGA AGATCCACAA
    CTATCTGAGA TGCTGCTATA TATGATAAAA GAAGGAACAA CTACAGTTGG AAAGTATAAA
    CCAAACTCAA GCCATGATAT TCAGTTATCT GGGGTGCTGA TTGCTGATGA TCATTGTACT
    ATCAAAAATT TTGGTGGGAC AGTGAGTATT ATCCCAGTTG GGGAAGCAAA GACATATGTA
    AATGGAAAAC ATATTTTGGA AATCACAGTA TTACGTCATG GTGATCGAGT GATTCTTGGT
    GGAGATCATT ATTTTAGATT TAATCATCCA GTAGAAGTCC AGAAAGGAAA AAGGCCATCT
    GGAAGAGATA CTCCTATAAG TGAGGGTCCA AAAGACTTTG AATTTGCAAA AAATGAGTTG
    CTCATGGCAC AGAGATCACA ACTTGAAGCA GAAATAAAAG AGGCTCAGTT GAAGGCAAAG
    GAAGAAATGA TGCAAGGAAT CCAGATTGCA AAAGAAATGG CTCAGCAAGA GCTTTCTTCT
    CAAAAAGCTG CATATGAAAG CAAAATAAAA GCACTGGAAG CAGAACTGAG AGAAGAGTCT
    CAAAGGAAAA AAATGCAGGA AATAAATAAC CAGAAGGCTA ATCACAAAAT TGAGGAATTA
    GAAAAGGCAA AGCAGCATCT TGAACAGGAA ATATATGTCA ACAAAAAGCG ATTAGAAATG
    GAAACATTGG CTACAAAACA GGCTTTAGAA GACCATAGCA TCCGCCATGC AAGAATTCTG
    GAAGCTTTAG AAACTGAAAA GCAAAAAATT GCTAAAGAAG TACAAATTCT ACAGCAGAAT
    CGGAATAATA GGGATAAAAC TTTTACAGTG CAGACAACTT GGAGCTCTAT GAAACTCTCA
    ATGATGATTC AGGAAGCCAA TGCTATCAGC AGCAAATTGA AAACATACTA TGTTTTTGGC
    AGACATGATA TATCAGATAA AAGTAGTTCT GACACTTCTA TTCGGGTTCG TAACCTGAAA
    CTAGGAATCT CAACATTCTG GAGTCTGGAA AAGTTTGAAT CTAAACTTGC AGCAATGAAA
    GAACTTTATG AGAGTAATGG TAGTAACAGG GGTGAAGATG CCTTTTGTGA TCCTGAAGAT
    GAATGGGAAC CCGACATTAC AGATGCACCA GTTTCTTCAC TTTCTAGAAG GAGGAGTAGG
    AGTTTGATGA AGAACAGAAG AATTTCTGGT TGTTTACATG ACATACAAGT CCATCCAATT
    AAGAATTTGC ATTCTTCACA TTCATCAGGT TTAATGGACA AATCAAGCAC TATTTACTCA
    AATTCAGCAG AGTCCTTTCT TCCTGGAATT TGCAAAGAAT TGATTGGTTC TTCGTTAGAT
    TTTTTTGGAC AGAGTTATGA TGAAGAAAGA ACTATAGCAG ACAGCCTAAT TAATAGTTTT
    CTTAAAATTT ATAATGGGCT ATTTGCCATT TCCAAGGCTC ATGAAGAACA AGATGAAGAA
    AGTCAAGATA ACTTGTTTTC TTCTGATCGA GCAATCCAGT CACTTACTAT TCAGACTGCA
    TGTGCTTTTG AGCAGCTAGT AGTGCTAATG AAACACTGGC TGAGTGATTT ACTGCCTTGT
    ACCAACATAG CAAGACTTGA GGATGAGTTG AGACAAGAAG TTAAAAAACT GGGAGGCTAC
    TTACAGTTAT TTTTGCAGGG ATGCTGTTTG GATATTTCAT CAATGATAAA AGAGGCTCAA
    AAGAATGCAA TCCAAATTGT ACAACAAGCT GTAAAGTATG TGGGGCAGTT AGCAGTTCTG
    AAAGGGAGCA AGCTACATTT TCTAGAAAAC GGTAACAATA AAGCTGCCAG TGTCCAGGAG
    GAATTCATGG ATGCTGTTTG TGATGGTGTA GGCTTAGGAA TGAAGATTTT ATTAGATTCT
    GGACTGGAAA AAGCAAAAGA ACTTCAGCAT GAACTCTTTA GGCAGTGTAC AAAAAATGAG
    GTTACCAAAG AAATGAAAAC TAATGCCATG GGATTGATTA GATCTCTTGA AAACATCTTT
    GCTGAATCGA AAATTAAAAG TTTCAGAAGG CAAGTACAAG AAGAAAACTT TGAATACCAA
    GATTTCAAGA GGATGGTTAA TCGTGCTCCA GAATTCTTAA AGTTAAAACA TTGCTTAGAG
    AAAGCTATTG AAATTATTAT TTCTGCACTG AAAGGATGCC ATAGTGATAT AAATCTTCTC
    CAGACTTGTG TTGAAAGTAT TCGCAACTTG GCCAGTGATT TTTACAGTGA CTTCAGTGTG
    CCTTCTACTT CTGTTGGCAG CTATGAGAGT AGAGTAACTC ACATTGTCCA CCAGGAACTA
    GAATCTCTAG CTAAGTCTCT CCTCTTTTGT TTTGAATCTG AAGAAAGCCC TGATTTGTTG
    AAACCCTGGG AAACTTATAA TCAAAATACC AAAGAAGAAC ACCAACAATC TAAATCAAGC
    GGGATTGACG GCAGTAAGAA TAAAGGTGTA CCAAAGCGTG TCTATGAGCT CCATGGCTCA
    TCCCCAGCAG TGAGCTCAGA GGAATGCACA CCCAGTAGGA TTCAGTGGGT GTGA

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

    RefSeq NP_001292721.1
    CDS1501..4974
    Translation

    Target ORF information:

    RefSeq Version NM_001305792.1
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 14 (KIF14), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001305792.1

    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
    ATGAGCTTCT TTGAAGTATA TAATGAAAAA ATTCACGACC TTCTGGTTTG TAAAGATGAA 
    AATGGGCAGA GAAAGCAACC ACTGAGAGTG AGGGAACATC CTGTTTATGG ACCATATGTT
    GAAGCACTGT CAATGAACAT TGTCAGTTCT TACGCTGATA TCCAGAGTTG GCTAGAATTG
    GGAAATAAAC AAAGAGCTAC TGCTGCTACT GGTATGAATG ATAAAAGTTC CCGATCTCAT
    TCAGTTTTCA CCCTGGTGAT GACCCAGACC AAGACAGAAT TTGTGGAAGG GGAAGAACAC
    GATCACAGAA TAACAAGTCG AATTAACCTA ATAGATCTGG CAGGCAGTGA GCGCTGCTCT
    ACGGCTCACA CTAATGGAGA TCGACTAAAG GAAGGTGTGA GTATTAATAA GTCCTTGCTA
    ACTTTGGGAA AAGTTATATC TGCACTTTCG GAACAAGCAA ACCAAAGGAG TGTTTTTATT
    CCTTATCGTG AATCTGTTCT TACATGGCTG TTAAAAGAAA GTCTGGGTGG AAATTCAAAA
    ACTGCAATGA TTGCTACGAT TAGTCCCGCT GCCAGCAACA TAGAAGAAAC ATTAAGCACA
    CTTAGATATG CTAACCAAGC CCGTTTAATA GTCAACATTG CTAAAGTAAA TGAAGATATG
    AACGCTAAGT TAATTAGAGA ATTGAAGGCA GAAATTGCAA AGCTAAAAGC TGCTCAGAGA
    AACAGTCGGA ATATTGACCC TGAACGATAC AGGCTCTGTC GGCAAGAAAT AACATCCTTA
    AGAATGAAAC TGCATCAACA GGAGAGAGAC ATGGCAGAAA TGCAAAGAGT GTGGAAAGAA
    AAGTTTGAAC AAGCTGAAAA AAGAAAACTT CAAGAAACAA AAGAGTTACA GAAAGCAGGA
    ATTATGTTTC AAATGGACAA TCATTTACCA AACCTTGTTA ATCTGAATGA AGATCCACAA
    CTATCTGAGA TGCTGCTATA TATGATAAAA GAAGGAACAA CTACAGTTGG AAAGTATAAA
    CCAAACTCAA GCCATGATAT TCAGTTATCT GGGGTGCTGA TTGCTGATGA TCATTGTACT
    ATCAAAAATT TTGGTGGGAC AGTGAGTATT ATCCCAGTTG GGGAAGCAAA GACATATGTA
    AATGGAAAAC ATATTTTGGA AATCACAGTA TTACGTCATG GTGATCGAGT GATTCTTGGT
    GGAGATCATT ATTTTAGATT TAATCATCCA GTAGAAGTCC AGAAAGGAAA AAGGCCATCT
    GGAAGAGATA CTCCTATAAG TGAGGGTCCA AAAGACTTTG AATTTGCAAA AAATGAGTTG
    CTCATGGCAC AGAGATCACA ACTTGAAGCA GAAATAAAAG AGGCTCAGTT GAAGGCAAAG
    GAAGAAATGA TGCAAGGAAT CCAGATTGCA AAAGAAATGG CTCAGCAAGA GCTTTCTTCT
    CAAAAAGCTG CATATGAAAG CAAAATAAAA GCACTGGAAG CAGAACTGAG AGAAGAGTCT
    CAAAGGAAAA AAATGCAGGA AATAAATAAC CAGAAGGCTA ATCACAAAAT TGAGGAATTA
    GAAAAGGCAA AGCAGCATCT TGAACAGGAA ATATATGTCA ACAAAAAGCG ATTAGAAATG
    GAAACATTGG CTACAAAACA GGCTTTAGAA GACCATAGCA TCCGCCATGC AAGAATTCTG
    GAAGCTTTAG AAACTGAAAA GCAAAAAATT GCTAAAGAAG TACAAATTCT ACAGCAGAAT
    CGGAATAATA GGGATAAAAC TTTTACAGTG CAGACAACTT GGAGCTCTAT GAAACTCTCA
    ATGATGATTC AGGAAGCCAA TGCTATCAGC AGCAAATTGA AAACATACTA TGTTTTTGGC
    AGACATGATA TATCAGATAA AAGTAGTTCT GACACTTCTA TTCGGGTTCG TAACCTGAAA
    CTAGGAATCT CAACATTCTG GAGTCTGGAA AAGTTTGAAT CTAAACTTGC AGCAATGAAA
    GAACTTTATG AGAGTAATGG TAGTAACAGG GGTGAAGATG CCTTTTGTGA TCCTGAAGAT
    GAATGGGAAC CCGACATTAC AGATGCACCA GTTTCTTCAC TTTCTAGAAG GAGGAGTAGG
    AGTTTGATGA AGAACAGAAG AATTTCTGGT TGTTTACATG ACATACAAGT CCATCCAATT
    AAGAATTTGC ATTCTTCACA TTCATCAGGT TTAATGGACA AATCAAGCAC TATTTACTCA
    AATTCAGCAG AGTCCTTTCT TCCTGGAATT TGCAAAGAAT TGATTGGTTC TTCGTTAGAT
    TTTTTTGGAC AGAGTTATGA TGAAGAAAGA ACTATAGCAG ACAGCCTAAT TAATAGTTTT
    CTTAAAATTT ATAATGGGCT ATTTGCCATT TCCAAGGCTC ATGAAGAACA AGATGAAGAA
    AGTCAAGATA ACTTGTTTTC TTCTGATCGA GCAATCCAGT CACTTACTAT TCAGACTGCA
    TGTGCTTTTG AGCAGCTAGT AGTGCTAATG AAACACTGGC TGAGTGATTT ACTGCCTTGT
    ACCAACATAG CAAGACTTGA GGATGAGTTG AGACAAGAAG TTAAAAAACT GGGAGGCTAC
    TTACAGTTAT TTTTGCAGGG ATGCTGTTTG GATATTTCAT CAATGATAAA AGAGGCTCAA
    AAGAATGCAA TCCAAATTGT ACAACAAGCT GTAAAGTATG TGGGGCAGTT AGCAGTTCTG
    AAAGGGAGCA AGCTACATTT TCTAGAAAAC GGTAACAATA AAGCTGCCAG TGTCCAGGAG
    GAATTCATGG ATGCTGTTTG TGATGGTGTA GGCTTAGGAA TGAAGATTTT ATTAGATTCT
    GGACTGGAAA AAGCAAAAGA ACTTCAGCAT GAACTCTTTA GGCAGTGTAC AAAAAATGAG
    GTTACCAAAG AAATGAAAAC TAATGCCATG GGATTGATTA GATCTCTTGA AAACATCTTT
    GCTGAATCGA AAATTAAAAG TTTCAGAAGG CAAGTACAAG AAGAAAACTT TGAATACCAA
    GATTTCAAGA GGATGGTTAA TCGTGCTCCA GAATTCTTAA AGTTAAAACA TTGCTTAGAG
    AAAGCTATTG AAATTATTAT TTCTGCACTG AAAGGATGCC ATAGTGATAT AAATCTTCTC
    CAGACTTGTG TTGAAAGTAT TCGCAACTTG GCCAGTGATT TTTACAGTGA CTTCAGTGTG
    CCTTCTACTT CTGTTGGCAG CTATGAGAGT AGAGTAACTC ACATTGTCCA CCAGGAACTA
    GAATCTCTAG CTAAGTCTCT CCTCTTTTGT TTTGAATCTG AAGAAAGCCC TGATTTGTTG
    AAACCCTGGG AAACTTATAA TCAAAATACC AAAGAAGAAC ACCAACAATC TAAATCAAGC
    GGGATTGACG GCAGTAAGAA TAAAGGTGTA CCAAAGCGTG TCTATGAGCT CCATGGCTCA
    TCCCCAGCAG TGAGCTCAGA GGAATGCACA CCCAGTAGGA TTCAGTGGGT GTGA

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

    CloneID OHu63530
    Clone ID Related Accession (Same CDS sequence) XM_011510236.1 , NM_001305792.1
    Accession Version XM_011510236.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3474bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product kinesin-like protein KIF14 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGAGCTTCT TTGAAGTATA TAATGAAAAA ATTCACGACC TTCTGGTTTG TAAAGATGAA 
    AATGGGCAGA GAAAGCAACC ACTGAGAGTG AGGGAACATC CTGTTTATGG ACCATATGTT
    GAAGCACTGT CAATGAACAT TGTCAGTTCT TACGCTGATA TCCAGAGTTG GCTAGAATTG
    GGAAATAAAC AAAGAGCTAC TGCTGCTACT GGTATGAATG ATAAAAGTTC CCGATCTCAT
    TCAGTTTTCA CCCTGGTGAT GACCCAGACC AAGACAGAAT TTGTGGAAGG GGAAGAACAC
    GATCACAGAA TAACAAGTCG AATTAACCTA ATAGATCTGG CAGGCAGTGA GCGCTGCTCT
    ACGGCTCACA CTAATGGAGA TCGACTAAAG GAAGGTGTGA GTATTAATAA GTCCTTGCTA
    ACTTTGGGAA AAGTTATATC TGCACTTTCG GAACAAGCAA ACCAAAGGAG TGTTTTTATT
    CCTTATCGTG AATCTGTTCT TACATGGCTG TTAAAAGAAA GTCTGGGTGG AAATTCAAAA
    ACTGCAATGA TTGCTACGAT TAGTCCCGCT GCCAGCAACA TAGAAGAAAC ATTAAGCACA
    CTTAGATATG CTAACCAAGC CCGTTTAATA GTCAACATTG CTAAAGTAAA TGAAGATATG
    AACGCTAAGT TAATTAGAGA ATTGAAGGCA GAAATTGCAA AGCTAAAAGC TGCTCAGAGA
    AACAGTCGGA ATATTGACCC TGAACGATAC AGGCTCTGTC GGCAAGAAAT AACATCCTTA
    AGAATGAAAC TGCATCAACA GGAGAGAGAC ATGGCAGAAA TGCAAAGAGT GTGGAAAGAA
    AAGTTTGAAC AAGCTGAAAA AAGAAAACTT CAAGAAACAA AAGAGTTACA GAAAGCAGGA
    ATTATGTTTC AAATGGACAA TCATTTACCA AACCTTGTTA ATCTGAATGA AGATCCACAA
    CTATCTGAGA TGCTGCTATA TATGATAAAA GAAGGAACAA CTACAGTTGG AAAGTATAAA
    CCAAACTCAA GCCATGATAT TCAGTTATCT GGGGTGCTGA TTGCTGATGA TCATTGTACT
    ATCAAAAATT TTGGTGGGAC AGTGAGTATT ATCCCAGTTG GGGAAGCAAA GACATATGTA
    AATGGAAAAC ATATTTTGGA AATCACAGTA TTACGTCATG GTGATCGAGT GATTCTTGGT
    GGAGATCATT ATTTTAGATT TAATCATCCA GTAGAAGTCC AGAAAGGAAA AAGGCCATCT
    GGAAGAGATA CTCCTATAAG TGAGGGTCCA AAAGACTTTG AATTTGCAAA AAATGAGTTG
    CTCATGGCAC AGAGATCACA ACTTGAAGCA GAAATAAAAG AGGCTCAGTT GAAGGCAAAG
    GAAGAAATGA TGCAAGGAAT CCAGATTGCA AAAGAAATGG CTCAGCAAGA GCTTTCTTCT
    CAAAAAGCTG CATATGAAAG CAAAATAAAA GCACTGGAAG CAGAACTGAG AGAAGAGTCT
    CAAAGGAAAA AAATGCAGGA AATAAATAAC CAGAAGGCTA ATCACAAAAT TGAGGAATTA
    GAAAAGGCAA AGCAGCATCT TGAACAGGAA ATATATGTCA ACAAAAAGCG ATTAGAAATG
    GAAACATTGG CTACAAAACA GGCTTTAGAA GACCATAGCA TCCGCCATGC AAGAATTCTG
    GAAGCTTTAG AAACTGAAAA GCAAAAAATT GCTAAAGAAG TACAAATTCT ACAGCAGAAT
    CGGAATAATA GGGATAAAAC TTTTACAGTG CAGACAACTT GGAGCTCTAT GAAACTCTCA
    ATGATGATTC AGGAAGCCAA TGCTATCAGC AGCAAATTGA AAACATACTA TGTTTTTGGC
    AGACATGATA TATCAGATAA AAGTAGTTCT GACACTTCTA TTCGGGTTCG TAACCTGAAA
    CTAGGAATCT CAACATTCTG GAGTCTGGAA AAGTTTGAAT CTAAACTTGC AGCAATGAAA
    GAACTTTATG AGAGTAATGG TAGTAACAGG GGTGAAGATG CCTTTTGTGA TCCTGAAGAT
    GAATGGGAAC CCGACATTAC AGATGCACCA GTTTCTTCAC TTTCTAGAAG GAGGAGTAGG
    AGTTTGATGA AGAACAGAAG AATTTCTGGT TGTTTACATG ACATACAAGT CCATCCAATT
    AAGAATTTGC ATTCTTCACA TTCATCAGGT TTAATGGACA AATCAAGCAC TATTTACTCA
    AATTCAGCAG AGTCCTTTCT TCCTGGAATT TGCAAAGAAT TGATTGGTTC TTCGTTAGAT
    TTTTTTGGAC AGAGTTATGA TGAAGAAAGA ACTATAGCAG ACAGCCTAAT TAATAGTTTT
    CTTAAAATTT ATAATGGGCT ATTTGCCATT TCCAAGGCTC ATGAAGAACA AGATGAAGAA
    AGTCAAGATA ACTTGTTTTC TTCTGATCGA GCAATCCAGT CACTTACTAT TCAGACTGCA
    TGTGCTTTTG AGCAGCTAGT AGTGCTAATG AAACACTGGC TGAGTGATTT ACTGCCTTGT
    ACCAACATAG CAAGACTTGA GGATGAGTTG AGACAAGAAG TTAAAAAACT GGGAGGCTAC
    TTACAGTTAT TTTTGCAGGG ATGCTGTTTG GATATTTCAT CAATGATAAA AGAGGCTCAA
    AAGAATGCAA TCCAAATTGT ACAACAAGCT GTAAAGTATG TGGGGCAGTT AGCAGTTCTG
    AAAGGGAGCA AGCTACATTT TCTAGAAAAC GGTAACAATA AAGCTGCCAG TGTCCAGGAG
    GAATTCATGG ATGCTGTTTG TGATGGTGTA GGCTTAGGAA TGAAGATTTT ATTAGATTCT
    GGACTGGAAA AAGCAAAAGA ACTTCAGCAT GAACTCTTTA GGCAGTGTAC AAAAAATGAG
    GTTACCAAAG AAATGAAAAC TAATGCCATG GGATTGATTA GATCTCTTGA AAACATCTTT
    GCTGAATCGA AAATTAAAAG TTTCAGAAGG CAAGTACAAG AAGAAAACTT TGAATACCAA
    GATTTCAAGA GGATGGTTAA TCGTGCTCCA GAATTCTTAA AGTTAAAACA TTGCTTAGAG
    AAAGCTATTG AAATTATTAT TTCTGCACTG AAAGGATGCC ATAGTGATAT AAATCTTCTC
    CAGACTTGTG TTGAAAGTAT TCGCAACTTG GCCAGTGATT TTTACAGTGA CTTCAGTGTG
    CCTTCTACTT CTGTTGGCAG CTATGAGAGT AGAGTAACTC ACATTGTCCA CCAGGAACTA
    GAATCTCTAG CTAAGTCTCT CCTCTTTTGT TTTGAATCTG AAGAAAGCCC TGATTTGTTG
    AAACCCTGGG AAACTTATAA TCAAAATACC AAAGAAGAAC ACCAACAATC TAAATCAAGC
    GGGATTGACG GCAGTAAGAA TAAAGGTGTA CCAAAGCGTG TCTATGAGCT CCATGGCTCA
    TCCCCAGCAG TGAGCTCAGA GGAATGCACA CCCAGTAGGA TTCAGTGGGT GTGA

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

    RefSeq XP_011508538.1
    CDS1796..5269
    Translation

    Target ORF information:

    RefSeq Version XM_011510236.1
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 14 (KIF14), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011510236.1

    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
    ATGAGCTTCT TTGAAGTATA TAATGAAAAA ATTCACGACC TTCTGGTTTG TAAAGATGAA 
    AATGGGCAGA GAAAGCAACC ACTGAGAGTG AGGGAACATC CTGTTTATGG ACCATATGTT
    GAAGCACTGT CAATGAACAT TGTCAGTTCT TACGCTGATA TCCAGAGTTG GCTAGAATTG
    GGAAATAAAC AAAGAGCTAC TGCTGCTACT GGTATGAATG ATAAAAGTTC CCGATCTCAT
    TCAGTTTTCA CCCTGGTGAT GACCCAGACC AAGACAGAAT TTGTGGAAGG GGAAGAACAC
    GATCACAGAA TAACAAGTCG AATTAACCTA ATAGATCTGG CAGGCAGTGA GCGCTGCTCT
    ACGGCTCACA CTAATGGAGA TCGACTAAAG GAAGGTGTGA GTATTAATAA GTCCTTGCTA
    ACTTTGGGAA AAGTTATATC TGCACTTTCG GAACAAGCAA ACCAAAGGAG TGTTTTTATT
    CCTTATCGTG AATCTGTTCT TACATGGCTG TTAAAAGAAA GTCTGGGTGG AAATTCAAAA
    ACTGCAATGA TTGCTACGAT TAGTCCCGCT GCCAGCAACA TAGAAGAAAC ATTAAGCACA
    CTTAGATATG CTAACCAAGC CCGTTTAATA GTCAACATTG CTAAAGTAAA TGAAGATATG
    AACGCTAAGT TAATTAGAGA ATTGAAGGCA GAAATTGCAA AGCTAAAAGC TGCTCAGAGA
    AACAGTCGGA ATATTGACCC TGAACGATAC AGGCTCTGTC GGCAAGAAAT AACATCCTTA
    AGAATGAAAC TGCATCAACA GGAGAGAGAC ATGGCAGAAA TGCAAAGAGT GTGGAAAGAA
    AAGTTTGAAC AAGCTGAAAA AAGAAAACTT CAAGAAACAA AAGAGTTACA GAAAGCAGGA
    ATTATGTTTC AAATGGACAA TCATTTACCA AACCTTGTTA ATCTGAATGA AGATCCACAA
    CTATCTGAGA TGCTGCTATA TATGATAAAA GAAGGAACAA CTACAGTTGG AAAGTATAAA
    CCAAACTCAA GCCATGATAT TCAGTTATCT GGGGTGCTGA TTGCTGATGA TCATTGTACT
    ATCAAAAATT TTGGTGGGAC AGTGAGTATT ATCCCAGTTG GGGAAGCAAA GACATATGTA
    AATGGAAAAC ATATTTTGGA AATCACAGTA TTACGTCATG GTGATCGAGT GATTCTTGGT
    GGAGATCATT ATTTTAGATT TAATCATCCA GTAGAAGTCC AGAAAGGAAA AAGGCCATCT
    GGAAGAGATA CTCCTATAAG TGAGGGTCCA AAAGACTTTG AATTTGCAAA AAATGAGTTG
    CTCATGGCAC AGAGATCACA ACTTGAAGCA GAAATAAAAG AGGCTCAGTT GAAGGCAAAG
    GAAGAAATGA TGCAAGGAAT CCAGATTGCA AAAGAAATGG CTCAGCAAGA GCTTTCTTCT
    CAAAAAGCTG CATATGAAAG CAAAATAAAA GCACTGGAAG CAGAACTGAG AGAAGAGTCT
    CAAAGGAAAA AAATGCAGGA AATAAATAAC CAGAAGGCTA ATCACAAAAT TGAGGAATTA
    GAAAAGGCAA AGCAGCATCT TGAACAGGAA ATATATGTCA ACAAAAAGCG ATTAGAAATG
    GAAACATTGG CTACAAAACA GGCTTTAGAA GACCATAGCA TCCGCCATGC AAGAATTCTG
    GAAGCTTTAG AAACTGAAAA GCAAAAAATT GCTAAAGAAG TACAAATTCT ACAGCAGAAT
    CGGAATAATA GGGATAAAAC TTTTACAGTG CAGACAACTT GGAGCTCTAT GAAACTCTCA
    ATGATGATTC AGGAAGCCAA TGCTATCAGC AGCAAATTGA AAACATACTA TGTTTTTGGC
    AGACATGATA TATCAGATAA AAGTAGTTCT GACACTTCTA TTCGGGTTCG TAACCTGAAA
    CTAGGAATCT CAACATTCTG GAGTCTGGAA AAGTTTGAAT CTAAACTTGC AGCAATGAAA
    GAACTTTATG AGAGTAATGG TAGTAACAGG GGTGAAGATG CCTTTTGTGA TCCTGAAGAT
    GAATGGGAAC CCGACATTAC AGATGCACCA GTTTCTTCAC TTTCTAGAAG GAGGAGTAGG
    AGTTTGATGA AGAACAGAAG AATTTCTGGT TGTTTACATG ACATACAAGT CCATCCAATT
    AAGAATTTGC ATTCTTCACA TTCATCAGGT TTAATGGACA AATCAAGCAC TATTTACTCA
    AATTCAGCAG AGTCCTTTCT TCCTGGAATT TGCAAAGAAT TGATTGGTTC TTCGTTAGAT
    TTTTTTGGAC AGAGTTATGA TGAAGAAAGA ACTATAGCAG ACAGCCTAAT TAATAGTTTT
    CTTAAAATTT ATAATGGGCT ATTTGCCATT TCCAAGGCTC ATGAAGAACA AGATGAAGAA
    AGTCAAGATA ACTTGTTTTC TTCTGATCGA GCAATCCAGT CACTTACTAT TCAGACTGCA
    TGTGCTTTTG AGCAGCTAGT AGTGCTAATG AAACACTGGC TGAGTGATTT ACTGCCTTGT
    ACCAACATAG CAAGACTTGA GGATGAGTTG AGACAAGAAG TTAAAAAACT GGGAGGCTAC
    TTACAGTTAT TTTTGCAGGG ATGCTGTTTG GATATTTCAT CAATGATAAA AGAGGCTCAA
    AAGAATGCAA TCCAAATTGT ACAACAAGCT GTAAAGTATG TGGGGCAGTT AGCAGTTCTG
    AAAGGGAGCA AGCTACATTT TCTAGAAAAC GGTAACAATA AAGCTGCCAG TGTCCAGGAG
    GAATTCATGG ATGCTGTTTG TGATGGTGTA GGCTTAGGAA TGAAGATTTT ATTAGATTCT
    GGACTGGAAA AAGCAAAAGA ACTTCAGCAT GAACTCTTTA GGCAGTGTAC AAAAAATGAG
    GTTACCAAAG AAATGAAAAC TAATGCCATG GGATTGATTA GATCTCTTGA AAACATCTTT
    GCTGAATCGA AAATTAAAAG TTTCAGAAGG CAAGTACAAG AAGAAAACTT TGAATACCAA
    GATTTCAAGA GGATGGTTAA TCGTGCTCCA GAATTCTTAA AGTTAAAACA TTGCTTAGAG
    AAAGCTATTG AAATTATTAT TTCTGCACTG AAAGGATGCC ATAGTGATAT AAATCTTCTC
    CAGACTTGTG TTGAAAGTAT TCGCAACTTG GCCAGTGATT TTTACAGTGA CTTCAGTGTG
    CCTTCTACTT CTGTTGGCAG CTATGAGAGT AGAGTAACTC ACATTGTCCA CCAGGAACTA
    GAATCTCTAG CTAAGTCTCT CCTCTTTTGT TTTGAATCTG AAGAAAGCCC TGATTTGTTG
    AAACCCTGGG AAACTTATAA TCAAAATACC AAAGAAGAAC ACCAACAATC TAAATCAAGC
    GGGATTGACG GCAGTAAGAA TAAAGGTGTA CCAAAGCGTG TCTATGAGCT CCATGGCTCA
    TCCCCAGCAG TGAGCTCAGA GGAATGCACA CCCAGTAGGA TTCAGTGGGT GTGA

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

    CloneID OHu24430
    Clone ID Related Accession (Same CDS sequence) XM_011510230.1 , XM_011510231.2 , XM_011510232.1 , XM_011510231.1 , XM_011510232.2 , NM_014875.2 , NM_014875.3 , XM_017003005.1
    Accession Version NM_014875.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4947bp)
    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 2017-11-11
    Organism Homo sapiens(human)
    Product kinesin-like protein KIF14 isoform 1
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from D26361.1, AL445483.13 and BC098582.1. This sequence is a reference standard in the RefSeqGene project. On Oct 4, 2008 this sequence version replaced NM_014875.1. Transcript Variant: This variant (1) represents the longer transcript and encodes the longer isoform (1). Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: D26361.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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
    ATGTCATTAC ACAGTACTCA TAATAGAAAT AACAGCGGTG ATATTCTTGA TATTCCTTCT 
    TCCCAAAATA GTTCATCACT GAATGCCCTC ACCCACAGTA GCCGACTTAA GCTGCATTTG
    AAGTCGGATA TGTCAGAATG TGAAAATGAT GATCCATTAT TGAGATCTGC AGGTAAAGTC
    AGAGACATAA ATAGAACTTA TGTTATTTCT GCCAGTAGAA AAACAGCAGA CATGCCCCTT
    ACCCCTAATC CTGTAGGTAG ATTGGCACTT CAGAGGAGAA CTACAAGGAA CAAAGAATCA
    TCTTTGCTTG TTAGTGAGTT GGAAGACACA ACTGAAAAAA CAGCAGAAAC ACGTCTTACA
    TTACAACGTC GTGCTAAAAC AGATTCTGCA GAAAAGTGGA AAACAGCTGA AATAGATTCT
    GTCAAAATGA CACTGAATGT GGGAGGTGAA ACAGAAAATA ATGGTGTTTC TAAGGAAAGT
    AGAACAAATG TAAGGATTGT AAATAATGCT AAAAACTCTT TTGTTGCCTC TTCTGTACCT
    TTAGATGAAG ATCCACAGGT CATTGAAATG ATGGCTGATA AGAAATACAA AGAAACATTT
    TCTGCCCCCA GTAGAGCAAA TGAAAATGTT GCACTTAAGT ACTCAAGTAA TAGACCACCC
    ATTGCTTCCC TGAGTCAGAC TGAAGTTGTT AGATCAGGAC ACTTGACAAC GAAACCTACT
    CAGAGCAAGT TGGATATCAA AGTGTTGGGA ACAGGAAACT TGTATCATAG AAGTATTGGG
    AAGGAAATTG CAAAAACTTC AAATAAATTT GGGAGCTTAG AAAAAAGAAC ACCTACAAAA
    TGTACAACAG AACACAAACT GACAACAAAG TGCAGCCTGC CTCAGCTTAA GAGCCCAGCT
    CCATCAATAC TGAAGAATAG AATGTCTAAC CTTCAAGTTA AACAAAGACC AAAAAGTTCC
    TTTCTTGCAA ATAAACAGGA AAGATCCGCA GAAAATACAA TTCTTCCCGA AGAAGAAACT
    GTAGTTCAGA ACACCTCTGC AGGAAAAGAC CCCTTAAAAG TAGAGAATAG TCAAGTGACA
    GTGGCAGTAC GCGTAAGACC TTTCACCAAG AGAGAGAAGA TTGAAAAAGC ATCCCAGGTA
    GTCTTCATGA GTGGGAAAGA AATAACTGTG GAACACCCTG ACACGAAACA AGTTTATAAT
    TTTATTTATG ATGTTTCATT CTGGTCTTTT GATGAATGTC ATCCTCACTA CGCTAGCCAG
    ACAACTGTCT ATGAGAAGCT AGCAGCACCA CTCCTAGAAA GAGCCTTCGA AGGCTTCAAT
    ACCTGTCTTT TTGCTTATGG TCAGACTGGC TCTGGAAAAT CATATACGAT GATGGGATTT
    AGTGAAGAAC CAGGAATAAT TCCAAGATTT TGTGAAGATC TTTTTTCTCA AGTAGCCAGA
    AAACAAACCC AAGAGGTCAG CTATCACATT GAAATGAGCT TCTTTGAAGT ATATAATGAA
    AAAATTCACG ACCTTCTGGT TTGTAAAGAT GAAAATGGGC AGAGAAAGCA ACCACTGAGA
    GTGAGGGAAC ATCCTGTTTA TGGACCATAT GTTGAAGCAC TGTCAATGAA CATTGTCAGT
    TCTTACGCTG ATATCCAGAG TTGGCTAGAA TTGGGAAATA AACAAAGAGC TACTGCTGCT
    ACTGGTATGA ATGATAAAAG TTCCCGATCT CATTCAGTTT TCACCCTGGT GATGACCCAG
    ACCAAGACAG AATTTGTGGA AGGGGAAGAA CACGATCACA GAATAACAAG TCGAATTAAC
    CTAATAGATC TGGCAGGCAG TGAGCGCTGC TCTACGGCTC ACACTAATGG AGATCGACTA
    AAGGAAGGTG TGAGTATTAA TAAGTCCTTG CTAACTTTGG GAAAAGTTAT ATCTGCACTT
    TCGGAACAAG CAAACCAAAG GAGTGTTTTT ATTCCTTATC GTGAATCTGT TCTTACATGG
    CTGTTAAAAG AAAGTCTGGG TGGAAATTCA AAAACTGCAA TGATTGCTAC GATTAGTCCC
    GCTGCCAGCA ACATAGAAGA AACATTAAGC ACACTTAGAT ATGCTAACCA AGCCCGTTTA
    ATAGTCAACA TTGCTAAAGT AAATGAAGAT ATGAACGCTA AGTTAATTAG AGAATTGAAG
    GCAGAAATTG CAAAGCTAAA AGCTGCTCAG AGAAACAGTC GGAATATTGA CCCTGAACGA
    TACAGGCTCT GTCGGCAAGA AATAACATCC TTAAGAATGA AACTGCATCA ACAGGAGAGA
    GACATGGCAG AAATGCAAAG AGTGTGGAAA GAAAAGTTTG AACAAGCTGA AAAAAGAAAA
    CTTCAAGAAA CAAAAGAGTT ACAGAAAGCA GGAATTATGT TTCAAATGGA CAATCATTTA
    CCAAACCTTG TTAATCTGAA TGAAGATCCA CAACTATCTG AGATGCTGCT ATATATGATA
    AAAGAAGGAA CAACTACAGT TGGAAAGTAT AAACCAAACT CAAGCCATGA TATTCAGTTA
    TCTGGGGTGC TGATTGCTGA TGATCATTGT ACTATCAAAA ATTTTGGTGG GACAGTGAGT
    ATTATCCCAG TTGGGGAAGC AAAGACATAT GTAAATGGAA AACATATTTT GGAAATCACA
    GTATTACGTC ATGGTGATCG AGTGATTCTT GGTGGAGATC ATTATTTTAG ATTTAATCAT
    CCAGTAGAAG TCCAGAAAGG AAAAAGGCCA TCTGGAAGAG ATACTCCTAT AAGTGAGGGT
    CCAAAAGACT TTGAATTTGC AAAAAATGAG TTGCTCATGG CACAGAGATC ACAACTTGAA
    GCAGAAATAA AAGAGGCTCA GTTGAAGGCA AAGGAAGAAA TGATGCAAGG AATCCAGATT
    GCAAAAGAAA TGGCTCAGCA AGAGCTTTCT TCTCAAAAAG CTGCATATGA AAGCAAAATA
    AAAGCACTGG AAGCAGAACT GAGAGAAGAG TCTCAAAGGA AAAAAATGCA GGAAATAAAT
    AACCAGAAGG CTAATCACAA AATTGAGGAA TTAGAAAAGG CAAAGCAGCA TCTTGAACAG
    GAAATATATG TCAACAAAAA GCGATTAGAA ATGGAAACAT TGGCTACAAA ACAGGCTTTA
    GAAGACCATA GCATCCGCCA TGCAAGAATT CTGGAAGCTT TAGAAACTGA AAAGCAAAAA
    ATTGCTAAAG AAGTACAAAT TCTACAGCAG AATCGGAATA ATAGGGATAA AACTTTTACA
    GTGCAGACAA CTTGGAGCTC TATGAAACTC TCAATGATGA TTCAGGAAGC CAATGCTATC
    AGCAGCAAAT TGAAAACATA CTATGTTTTT GGCAGACATG ATATATCAGA TAAAAGTAGT
    TCTGACACTT CTATTCGGGT TCGTAACCTG AAACTAGGAA TCTCAACATT CTGGAGTCTG
    GAAAAGTTTG AATCTAAACT TGCAGCAATG AAAGAACTTT ATGAGAGTAA TGGTAGTAAC
    AGGGGTGAAG ATGCCTTTTG TGATCCTGAA GATGAATGGG AACCCGACAT TACAGATGCA
    CCAGTTTCTT CACTTTCTAG AAGGAGGAGT AGGAGTTTGA TGAAGAACAG AAGAATTTCT
    GGTTGTTTAC ATGACATACA AGTCCATCCA ATTAAGAATT TGCATTCTTC ACATTCATCA
    GGTTTAATGG ACAAATCAAG CACTATTTAC TCAAATTCAG CAGAGTCCTT TCTTCCTGGA
    ATTTGCAAAG AATTGATTGG TTCTTCGTTA GATTTTTTTG GACAGAGTTA TGATGAAGAA
    AGAACTATAG CAGACAGCCT AATTAATAGT TTTCTTAAAA TTTATAATGG GCTATTTGCC
    ATTTCCAAGG CTCATGAAGA ACAAGATGAA GAAAGTCAAG ATAACTTGTT TTCTTCTGAT
    CGAGCAATCC AGTCACTTAC TATTCAGACT GCATGTGCTT TTGAGCAGCT AGTAGTGCTA
    ATGAAACACT GGCTGAGTGA TTTACTGCCT TGTACCAACA TAGCAAGACT TGAGGATGAG
    TTGAGACAAG AAGTTAAAAA ACTGGGAGGC TACTTACAGT TATTTTTGCA GGGATGCTGT
    TTGGATATTT CATCAATGAT AAAAGAGGCT CAAAAGAATG CAATCCAAAT TGTACAACAA
    GCTGTAAAGT ATGTGGGGCA GTTAGCAGTT CTGAAAGGGA GCAAGCTACA TTTTCTAGAA
    AACGGTAACA ATAAAGCTGC CAGTGTCCAG GAGGAATTCA TGGATGCTGT TTGTGATGGT
    GTAGGCTTAG GAATGAAGAT TTTATTAGAT TCTGGACTGG AAAAAGCAAA AGAACTTCAG
    CATGAACTCT TTAGGCAGTG TACAAAAAAT GAGGTTACCA AAGAAATGAA AACTAATGCC
    ATGGGATTGA TTAGATCTCT TGAAAACATC TTTGCTGAAT CGAAAATTAA AAGTTTCAGA
    AGGCAAGTAC AAGAAGAAAA CTTTGAATAC CAAGATTTCA AGAGGATGGT TAATCGTGCT
    CCAGAATTCT TAAAGTTAAA ACATTGCTTA GAGAAAGCTA TTGAAATTAT TATTTCTGCA
    CTGAAAGGAT GCCATAGTGA TATAAATCTT CTCCAGACTT GTGTTGAAAG TATTCGCAAC
    TTGGCCAGTG ATTTTTACAG TGACTTCAGT GTGCCTTCTA CTTCTGTTGG CAGCTATGAG
    AGTAGAGTAA CTCACATTGT CCACCAGGAA CTAGAATCTC TAGCTAAGTC TCTCCTCTTT
    TGTTTTGAAT CTGAAGAAAG CCCTGATTTG TTGAAACCCT GGGAAACTTA TAATCAAAAT
    ACCAAAGAAG AACACCAACA ATCTAAATCA AGCGGGATTG ACGGCAGTAA GAATAAAGGT
    GTACCAAAGC GTGTCTATGA GCTCCATGGC TCATCCCCAG CAGTGAGCTC AGAGGAATGC
    ACACCCAGTA GGATTCAGTG GGTGTGA

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

    RefSeq NP_055690.1
    CDS440..5386
    Translation

    Target ORF information:

    RefSeq Version NM_014875.2
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 14 (KIF14), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_014875.2

    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
    ATGTCATTAC ACAGTACTCA TAATAGAAAT AACAGCGGTG ATATTCTTGA TATTCCTTCT 
    TCCCAAAATA GTTCATCACT GAATGCCCTC ACCCACAGTA GCCGACTTAA GCTGCATTTG
    AAGTCGGATA TGTCAGAATG TGAAAATGAT GATCCATTAT TGAGATCTGC AGGTAAAGTC
    AGAGACATAA ATAGAACTTA TGTTATTTCT GCCAGTAGAA AAACAGCAGA CATGCCCCTT
    ACCCCTAATC CTGTAGGTAG ATTGGCACTT CAGAGGAGAA CTACAAGGAA CAAAGAATCA
    TCTTTGCTTG TTAGTGAGTT GGAAGACACA ACTGAAAAAA CAGCAGAAAC ACGTCTTACA
    TTACAACGTC GTGCTAAAAC AGATTCTGCA GAAAAGTGGA AAACAGCTGA AATAGATTCT
    GTCAAAATGA CACTGAATGT GGGAGGTGAA ACAGAAAATA ATGGTGTTTC TAAGGAAAGT
    AGAACAAATG TAAGGATTGT AAATAATGCT AAAAACTCTT TTGTTGCCTC TTCTGTACCT
    TTAGATGAAG ATCCACAGGT CATTGAAATG ATGGCTGATA AGAAATACAA AGAAACATTT
    TCTGCCCCCA GTAGAGCAAA TGAAAATGTT GCACTTAAGT ACTCAAGTAA TAGACCACCC
    ATTGCTTCCC TGAGTCAGAC TGAAGTTGTT AGATCAGGAC ACTTGACAAC GAAACCTACT
    CAGAGCAAGT TGGATATCAA AGTGTTGGGA ACAGGAAACT TGTATCATAG AAGTATTGGG
    AAGGAAATTG CAAAAACTTC AAATAAATTT GGGAGCTTAG AAAAAAGAAC ACCTACAAAA
    TGTACAACAG AACACAAACT GACAACAAAG TGCAGCCTGC CTCAGCTTAA GAGCCCAGCT
    CCATCAATAC TGAAGAATAG AATGTCTAAC CTTCAAGTTA AACAAAGACC AAAAAGTTCC
    TTTCTTGCAA ATAAACAGGA AAGATCCGCA GAAAATACAA TTCTTCCCGA AGAAGAAACT
    GTAGTTCAGA ACACCTCTGC AGGAAAAGAC CCCTTAAAAG TAGAGAATAG TCAAGTGACA
    GTGGCAGTAC GCGTAAGACC TTTCACCAAG AGAGAGAAGA TTGAAAAAGC ATCCCAGGTA
    GTCTTCATGA GTGGGAAAGA AATAACTGTG GAACACCCTG ACACGAAACA AGTTTATAAT
    TTTATTTATG ATGTTTCATT CTGGTCTTTT GATGAATGTC ATCCTCACTA CGCTAGCCAG
    ACAACTGTCT ATGAGAAGCT AGCAGCACCA CTCCTAGAAA GAGCCTTCGA AGGCTTCAAT
    ACCTGTCTTT TTGCTTATGG TCAGACTGGC TCTGGAAAAT CATATACGAT GATGGGATTT
    AGTGAAGAAC CAGGAATAAT TCCAAGATTT TGTGAAGATC TTTTTTCTCA AGTAGCCAGA
    AAACAAACCC AAGAGGTCAG CTATCACATT GAAATGAGCT TCTTTGAAGT ATATAATGAA
    AAAATTCACG ACCTTCTGGT TTGTAAAGAT GAAAATGGGC AGAGAAAGCA ACCACTGAGA
    GTGAGGGAAC ATCCTGTTTA TGGACCATAT GTTGAAGCAC TGTCAATGAA CATTGTCAGT
    TCTTACGCTG ATATCCAGAG TTGGCTAGAA TTGGGAAATA AACAAAGAGC TACTGCTGCT
    ACTGGTATGA ATGATAAAAG TTCCCGATCT CATTCAGTTT TCACCCTGGT GATGACCCAG
    ACCAAGACAG AATTTGTGGA AGGGGAAGAA CACGATCACA GAATAACAAG TCGAATTAAC
    CTAATAGATC TGGCAGGCAG TGAGCGCTGC TCTACGGCTC ACACTAATGG AGATCGACTA
    AAGGAAGGTG TGAGTATTAA TAAGTCCTTG CTAACTTTGG GAAAAGTTAT ATCTGCACTT
    TCGGAACAAG CAAACCAAAG GAGTGTTTTT ATTCCTTATC GTGAATCTGT TCTTACATGG
    CTGTTAAAAG AAAGTCTGGG TGGAAATTCA AAAACTGCAA TGATTGCTAC GATTAGTCCC
    GCTGCCAGCA ACATAGAAGA AACATTAAGC ACACTTAGAT ATGCTAACCA AGCCCGTTTA
    ATAGTCAACA TTGCTAAAGT AAATGAAGAT ATGAACGCTA AGTTAATTAG AGAATTGAAG
    GCAGAAATTG CAAAGCTAAA AGCTGCTCAG AGAAACAGTC GGAATATTGA CCCTGAACGA
    TACAGGCTCT GTCGGCAAGA AATAACATCC TTAAGAATGA AACTGCATCA ACAGGAGAGA
    GACATGGCAG AAATGCAAAG AGTGTGGAAA GAAAAGTTTG AACAAGCTGA AAAAAGAAAA
    CTTCAAGAAA CAAAAGAGTT ACAGAAAGCA GGAATTATGT TTCAAATGGA CAATCATTTA
    CCAAACCTTG TTAATCTGAA TGAAGATCCA CAACTATCTG AGATGCTGCT ATATATGATA
    AAAGAAGGAA CAACTACAGT TGGAAAGTAT AAACCAAACT CAAGCCATGA TATTCAGTTA
    TCTGGGGTGC TGATTGCTGA TGATCATTGT ACTATCAAAA ATTTTGGTGG GACAGTGAGT
    ATTATCCCAG TTGGGGAAGC AAAGACATAT GTAAATGGAA AACATATTTT GGAAATCACA
    GTATTACGTC ATGGTGATCG AGTGATTCTT GGTGGAGATC ATTATTTTAG ATTTAATCAT
    CCAGTAGAAG TCCAGAAAGG AAAAAGGCCA TCTGGAAGAG ATACTCCTAT AAGTGAGGGT
    CCAAAAGACT TTGAATTTGC AAAAAATGAG TTGCTCATGG CACAGAGATC ACAACTTGAA
    GCAGAAATAA AAGAGGCTCA GTTGAAGGCA AAGGAAGAAA TGATGCAAGG AATCCAGATT
    GCAAAAGAAA TGGCTCAGCA AGAGCTTTCT TCTCAAAAAG CTGCATATGA AAGCAAAATA
    AAAGCACTGG AAGCAGAACT GAGAGAAGAG TCTCAAAGGA AAAAAATGCA GGAAATAAAT
    AACCAGAAGG CTAATCACAA AATTGAGGAA TTAGAAAAGG CAAAGCAGCA TCTTGAACAG
    GAAATATATG TCAACAAAAA GCGATTAGAA ATGGAAACAT TGGCTACAAA ACAGGCTTTA
    GAAGACCATA GCATCCGCCA TGCAAGAATT CTGGAAGCTT TAGAAACTGA AAAGCAAAAA
    ATTGCTAAAG AAGTACAAAT TCTACAGCAG AATCGGAATA ATAGGGATAA AACTTTTACA
    GTGCAGACAA CTTGGAGCTC TATGAAACTC TCAATGATGA TTCAGGAAGC CAATGCTATC
    AGCAGCAAAT TGAAAACATA CTATGTTTTT GGCAGACATG ATATATCAGA TAAAAGTAGT
    TCTGACACTT CTATTCGGGT TCGTAACCTG AAACTAGGAA TCTCAACATT CTGGAGTCTG
    GAAAAGTTTG AATCTAAACT TGCAGCAATG AAAGAACTTT ATGAGAGTAA TGGTAGTAAC
    AGGGGTGAAG ATGCCTTTTG TGATCCTGAA GATGAATGGG AACCCGACAT TACAGATGCA
    CCAGTTTCTT CACTTTCTAG AAGGAGGAGT AGGAGTTTGA TGAAGAACAG AAGAATTTCT
    GGTTGTTTAC ATGACATACA AGTCCATCCA ATTAAGAATT TGCATTCTTC ACATTCATCA
    GGTTTAATGG ACAAATCAAG CACTATTTAC TCAAATTCAG CAGAGTCCTT TCTTCCTGGA
    ATTTGCAAAG AATTGATTGG TTCTTCGTTA GATTTTTTTG GACAGAGTTA TGATGAAGAA
    AGAACTATAG CAGACAGCCT AATTAATAGT TTTCTTAAAA TTTATAATGG GCTATTTGCC
    ATTTCCAAGG CTCATGAAGA ACAAGATGAA GAAAGTCAAG ATAACTTGTT TTCTTCTGAT
    CGAGCAATCC AGTCACTTAC TATTCAGACT GCATGTGCTT TTGAGCAGCT AGTAGTGCTA
    ATGAAACACT GGCTGAGTGA TTTACTGCCT TGTACCAACA TAGCAAGACT TGAGGATGAG
    TTGAGACAAG AAGTTAAAAA ACTGGGAGGC TACTTACAGT TATTTTTGCA GGGATGCTGT
    TTGGATATTT CATCAATGAT AAAAGAGGCT CAAAAGAATG CAATCCAAAT TGTACAACAA
    GCTGTAAAGT ATGTGGGGCA GTTAGCAGTT CTGAAAGGGA GCAAGCTACA TTTTCTAGAA
    AACGGTAACA ATAAAGCTGC CAGTGTCCAG GAGGAATTCA TGGATGCTGT TTGTGATGGT
    GTAGGCTTAG GAATGAAGAT TTTATTAGAT TCTGGACTGG AAAAAGCAAA AGAACTTCAG
    CATGAACTCT TTAGGCAGTG TACAAAAAAT GAGGTTACCA AAGAAATGAA AACTAATGCC
    ATGGGATTGA TTAGATCTCT TGAAAACATC TTTGCTGAAT CGAAAATTAA AAGTTTCAGA
    AGGCAAGTAC AAGAAGAAAA CTTTGAATAC CAAGATTTCA AGAGGATGGT TAATCGTGCT
    CCAGAATTCT TAAAGTTAAA ACATTGCTTA GAGAAAGCTA TTGAAATTAT TATTTCTGCA
    CTGAAAGGAT GCCATAGTGA TATAAATCTT CTCCAGACTT GTGTTGAAAG TATTCGCAAC
    TTGGCCAGTG ATTTTTACAG TGACTTCAGT GTGCCTTCTA CTTCTGTTGG CAGCTATGAG
    AGTAGAGTAA CTCACATTGT CCACCAGGAA CTAGAATCTC TAGCTAAGTC TCTCCTCTTT
    TGTTTTGAAT CTGAAGAAAG CCCTGATTTG TTGAAACCCT GGGAAACTTA TAATCAAAAT
    ACCAAAGAAG AACACCAACA ATCTAAATCA AGCGGGATTG ACGGCAGTAA GAATAAAGGT
    GTACCAAAGC GTGTCTATGA GCTCCATGGC TCATCCCCAG CAGTGAGCTC AGAGGAATGC
    ACACCCAGTA GGATTCAGTG GGTGTGA

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

    CloneID OHu24430
    Clone ID Related Accession (Same CDS sequence) XM_011510230.1 , XM_011510231.2 , XM_011510232.1 , XM_011510231.1 , XM_011510232.2 , NM_014875.2 , NM_014875.3 , XM_017003005.1
    Accession Version NM_014875.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4947bp)
    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 2019-12-29
    Organism Homo sapiens(human)
    Product kinesin-like protein KIF14 isoform 1
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL445483.13, D26361.1 and BC098582.1. This sequence is a reference standard in the RefSeqGene project. On Nov 23, 2018 this sequence version replaced NM_014875.2. Transcript Variant: This variant (1) represents the longer transcript and encodes the longer isoform (1). Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: D26361.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000367350.5/ ENSP00000356319.4 RefSeq Select criteria :: based on conservation, longest protein ##RefSeq-Attributes-END## COMPLETENESS: full length.

    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
    ATGTCATTAC ACAGTACTCA TAATAGAAAT AACAGCGGTG ATATTCTTGA TATTCCTTCT 
    TCCCAAAATA GTTCATCACT GAATGCCCTC ACCCACAGTA GCCGACTTAA GCTGCATTTG
    AAGTCGGATA TGTCAGAATG TGAAAATGAT GATCCATTAT TGAGATCTGC AGGTAAAGTC
    AGAGACATAA ATAGAACTTA TGTTATTTCT GCCAGTAGAA AAACAGCAGA CATGCCCCTT
    ACCCCTAATC CTGTAGGTAG ATTGGCACTT CAGAGGAGAA CTACAAGGAA CAAAGAATCA
    TCTTTGCTTG TTAGTGAGTT GGAAGACACA ACTGAAAAAA CAGCAGAAAC ACGTCTTACA
    TTACAACGTC GTGCTAAAAC AGATTCTGCA GAAAAGTGGA AAACAGCTGA AATAGATTCT
    GTCAAAATGA CACTGAATGT GGGAGGTGAA ACAGAAAATA ATGGTGTTTC TAAGGAAAGT
    AGAACAAATG TAAGGATTGT AAATAATGCT AAAAACTCTT TTGTTGCCTC TTCTGTACCT
    TTAGATGAAG ATCCACAGGT CATTGAAATG ATGGCTGATA AGAAATACAA AGAAACATTT
    TCTGCCCCCA GTAGAGCAAA TGAAAATGTT GCACTTAAGT ACTCAAGTAA TAGACCACCC
    ATTGCTTCCC TGAGTCAGAC TGAAGTTGTT AGATCAGGAC ACTTGACAAC GAAACCTACT
    CAGAGCAAGT TGGATATCAA AGTGTTGGGA ACAGGAAACT TGTATCATAG AAGTATTGGG
    AAGGAAATTG CAAAAACTTC AAATAAATTT GGGAGCTTAG AAAAAAGAAC ACCTACAAAA
    TGTACAACAG AACACAAACT GACAACAAAG TGCAGCCTGC CTCAGCTTAA GAGCCCAGCT
    CCATCAATAC TGAAGAATAG AATGTCTAAC CTTCAAGTTA AACAAAGACC AAAAAGTTCC
    TTTCTTGCAA ATAAACAGGA AAGATCCGCA GAAAATACAA TTCTTCCCGA AGAAGAAACT
    GTAGTTCAGA ACACCTCTGC AGGAAAAGAC CCCTTAAAAG TAGAGAATAG TCAAGTGACA
    GTGGCAGTAC GCGTAAGACC TTTCACCAAG AGAGAGAAGA TTGAAAAAGC ATCCCAGGTA
    GTCTTCATGA GTGGGAAAGA AATAACTGTG GAACACCCTG ACACGAAACA AGTTTATAAT
    TTTATTTATG ATGTTTCATT CTGGTCTTTT GATGAATGTC ATCCTCACTA CGCTAGCCAG
    ACAACTGTCT ATGAGAAGCT AGCAGCACCA CTCCTAGAAA GAGCCTTCGA AGGCTTCAAT
    ACCTGTCTTT TTGCTTATGG TCAGACTGGC TCTGGAAAAT CATATACGAT GATGGGATTT
    AGTGAAGAAC CAGGAATAAT TCCAAGATTT TGTGAAGATC TTTTTTCTCA AGTAGCCAGA
    AAACAAACCC AAGAGGTCAG CTATCACATT GAAATGAGCT TCTTTGAAGT ATATAATGAA
    AAAATTCACG ACCTTCTGGT TTGTAAAGAT GAAAATGGGC AGAGAAAGCA ACCACTGAGA
    GTGAGGGAAC ATCCTGTTTA TGGACCATAT GTTGAAGCAC TGTCAATGAA CATTGTCAGT
    TCTTACGCTG ATATCCAGAG TTGGCTAGAA TTGGGAAATA AACAAAGAGC TACTGCTGCT
    ACTGGTATGA ATGATAAAAG TTCCCGATCT CATTCAGTTT TCACCCTGGT GATGACCCAG
    ACCAAGACAG AATTTGTGGA AGGGGAAGAA CACGATCACA GAATAACAAG TCGAATTAAC
    CTAATAGATC TGGCAGGCAG TGAGCGCTGC TCTACGGCTC ACACTAATGG AGATCGACTA
    AAGGAAGGTG TGAGTATTAA TAAGTCCTTG CTAACTTTGG GAAAAGTTAT ATCTGCACTT
    TCGGAACAAG CAAACCAAAG GAGTGTTTTT ATTCCTTATC GTGAATCTGT TCTTACATGG
    CTGTTAAAAG AAAGTCTGGG TGGAAATTCA AAAACTGCAA TGATTGCTAC GATTAGTCCC
    GCTGCCAGCA ACATAGAAGA AACATTAAGC ACACTTAGAT ATGCTAACCA AGCCCGTTTA
    ATAGTCAACA TTGCTAAAGT AAATGAAGAT ATGAACGCTA AGTTAATTAG AGAATTGAAG
    GCAGAAATTG CAAAGCTAAA AGCTGCTCAG AGAAACAGTC GGAATATTGA CCCTGAACGA
    TACAGGCTCT GTCGGCAAGA AATAACATCC TTAAGAATGA AACTGCATCA ACAGGAGAGA
    GACATGGCAG AAATGCAAAG AGTGTGGAAA GAAAAGTTTG AACAAGCTGA AAAAAGAAAA
    CTTCAAGAAA CAAAAGAGTT ACAGAAAGCA GGAATTATGT TTCAAATGGA CAATCATTTA
    CCAAACCTTG TTAATCTGAA TGAAGATCCA CAACTATCTG AGATGCTGCT ATATATGATA
    AAAGAAGGAA CAACTACAGT TGGAAAGTAT AAACCAAACT CAAGCCATGA TATTCAGTTA
    TCTGGGGTGC TGATTGCTGA TGATCATTGT ACTATCAAAA ATTTTGGTGG GACAGTGAGT
    ATTATCCCAG TTGGGGAAGC AAAGACATAT GTAAATGGAA AACATATTTT GGAAATCACA
    GTATTACGTC ATGGTGATCG AGTGATTCTT GGTGGAGATC ATTATTTTAG ATTTAATCAT
    CCAGTAGAAG TCCAGAAAGG AAAAAGGCCA TCTGGAAGAG ATACTCCTAT AAGTGAGGGT
    CCAAAAGACT TTGAATTTGC AAAAAATGAG TTGCTCATGG CACAGAGATC ACAACTTGAA
    GCAGAAATAA AAGAGGCTCA GTTGAAGGCA AAGGAAGAAA TGATGCAAGG AATCCAGATT
    GCAAAAGAAA TGGCTCAGCA AGAGCTTTCT TCTCAAAAAG CTGCATATGA AAGCAAAATA
    AAAGCACTGG AAGCAGAACT GAGAGAAGAG TCTCAAAGGA AAAAAATGCA GGAAATAAAT
    AACCAGAAGG CTAATCACAA AATTGAGGAA TTAGAAAAGG CAAAGCAGCA TCTTGAACAG
    GAAATATATG TCAACAAAAA GCGATTAGAA ATGGAAACAT TGGCTACAAA ACAGGCTTTA
    GAAGACCATA GCATCCGCCA TGCAAGAATT CTGGAAGCTT TAGAAACTGA AAAGCAAAAA
    ATTGCTAAAG AAGTACAAAT TCTACAGCAG AATCGGAATA ATAGGGATAA AACTTTTACA
    GTGCAGACAA CTTGGAGCTC TATGAAACTC TCAATGATGA TTCAGGAAGC CAATGCTATC
    AGCAGCAAAT TGAAAACATA CTATGTTTTT GGCAGACATG ATATATCAGA TAAAAGTAGT
    TCTGACACTT CTATTCGGGT TCGTAACCTG AAACTAGGAA TCTCAACATT CTGGAGTCTG
    GAAAAGTTTG AATCTAAACT TGCAGCAATG AAAGAACTTT ATGAGAGTAA TGGTAGTAAC
    AGGGGTGAAG ATGCCTTTTG TGATCCTGAA GATGAATGGG AACCCGACAT TACAGATGCA
    CCAGTTTCTT CACTTTCTAG AAGGAGGAGT AGGAGTTTGA TGAAGAACAG AAGAATTTCT
    GGTTGTTTAC ATGACATACA AGTCCATCCA ATTAAGAATT TGCATTCTTC ACATTCATCA
    GGTTTAATGG ACAAATCAAG CACTATTTAC TCAAATTCAG CAGAGTCCTT TCTTCCTGGA
    ATTTGCAAAG AATTGATTGG TTCTTCGTTA GATTTTTTTG GACAGAGTTA TGATGAAGAA
    AGAACTATAG CAGACAGCCT AATTAATAGT TTTCTTAAAA TTTATAATGG GCTATTTGCC
    ATTTCCAAGG CTCATGAAGA ACAAGATGAA GAAAGTCAAG ATAACTTGTT TTCTTCTGAT
    CGAGCAATCC AGTCACTTAC TATTCAGACT GCATGTGCTT TTGAGCAGCT AGTAGTGCTA
    ATGAAACACT GGCTGAGTGA TTTACTGCCT TGTACCAACA TAGCAAGACT TGAGGATGAG
    TTGAGACAAG AAGTTAAAAA ACTGGGAGGC TACTTACAGT TATTTTTGCA GGGATGCTGT
    TTGGATATTT CATCAATGAT AAAAGAGGCT CAAAAGAATG CAATCCAAAT TGTACAACAA
    GCTGTAAAGT ATGTGGGGCA GTTAGCAGTT CTGAAAGGGA GCAAGCTACA TTTTCTAGAA
    AACGGTAACA ATAAAGCTGC CAGTGTCCAG GAGGAATTCA TGGATGCTGT TTGTGATGGT
    GTAGGCTTAG GAATGAAGAT TTTATTAGAT TCTGGACTGG AAAAAGCAAA AGAACTTCAG
    CATGAACTCT TTAGGCAGTG TACAAAAAAT GAGGTTACCA AAGAAATGAA AACTAATGCC
    ATGGGATTGA TTAGATCTCT TGAAAACATC TTTGCTGAAT CGAAAATTAA AAGTTTCAGA
    AGGCAAGTAC AAGAAGAAAA CTTTGAATAC CAAGATTTCA AGAGGATGGT TAATCGTGCT
    CCAGAATTCT TAAAGTTAAA ACATTGCTTA GAGAAAGCTA TTGAAATTAT TATTTCTGCA
    CTGAAAGGAT GCCATAGTGA TATAAATCTT CTCCAGACTT GTGTTGAAAG TATTCGCAAC
    TTGGCCAGTG ATTTTTACAG TGACTTCAGT GTGCCTTCTA CTTCTGTTGG CAGCTATGAG
    AGTAGAGTAA CTCACATTGT CCACCAGGAA CTAGAATCTC TAGCTAAGTC TCTCCTCTTT
    TGTTTTGAAT CTGAAGAAAG CCCTGATTTG TTGAAACCCT GGGAAACTTA TAATCAAAAT
    ACCAAAGAAG AACACCAACA ATCTAAATCA AGCGGGATTG ACGGCAGTAA GAATAAAGGT
    GTACCAAAGC GTGTCTATGA GCTCCATGGC TCATCCCCAG CAGTGAGCTC AGAGGAATGC
    ACACCCAGTA GGATTCAGTG GGTGTGA

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

    RefSeq NP_055690.1
    CDS457..5403
    Translation

    Target ORF information:

    RefSeq Version NM_014875.3
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 14 (KIF14), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_014875.3

    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
    ATGTCATTAC ACAGTACTCA TAATAGAAAT AACAGCGGTG ATATTCTTGA TATTCCTTCT 
    TCCCAAAATA GTTCATCACT GAATGCCCTC ACCCACAGTA GCCGACTTAA GCTGCATTTG
    AAGTCGGATA TGTCAGAATG TGAAAATGAT GATCCATTAT TGAGATCTGC AGGTAAAGTC
    AGAGACATAA ATAGAACTTA TGTTATTTCT GCCAGTAGAA AAACAGCAGA CATGCCCCTT
    ACCCCTAATC CTGTAGGTAG ATTGGCACTT CAGAGGAGAA CTACAAGGAA CAAAGAATCA
    TCTTTGCTTG TTAGTGAGTT GGAAGACACA ACTGAAAAAA CAGCAGAAAC ACGTCTTACA
    TTACAACGTC GTGCTAAAAC AGATTCTGCA GAAAAGTGGA AAACAGCTGA AATAGATTCT
    GTCAAAATGA CACTGAATGT GGGAGGTGAA ACAGAAAATA ATGGTGTTTC TAAGGAAAGT
    AGAACAAATG TAAGGATTGT AAATAATGCT AAAAACTCTT TTGTTGCCTC TTCTGTACCT
    TTAGATGAAG ATCCACAGGT CATTGAAATG ATGGCTGATA AGAAATACAA AGAAACATTT
    TCTGCCCCCA GTAGAGCAAA TGAAAATGTT GCACTTAAGT ACTCAAGTAA TAGACCACCC
    ATTGCTTCCC TGAGTCAGAC TGAAGTTGTT AGATCAGGAC ACTTGACAAC GAAACCTACT
    CAGAGCAAGT TGGATATCAA AGTGTTGGGA ACAGGAAACT TGTATCATAG AAGTATTGGG
    AAGGAAATTG CAAAAACTTC AAATAAATTT GGGAGCTTAG AAAAAAGAAC ACCTACAAAA
    TGTACAACAG AACACAAACT GACAACAAAG TGCAGCCTGC CTCAGCTTAA GAGCCCAGCT
    CCATCAATAC TGAAGAATAG AATGTCTAAC CTTCAAGTTA AACAAAGACC AAAAAGTTCC
    TTTCTTGCAA ATAAACAGGA AAGATCCGCA GAAAATACAA TTCTTCCCGA AGAAGAAACT
    GTAGTTCAGA ACACCTCTGC AGGAAAAGAC CCCTTAAAAG TAGAGAATAG TCAAGTGACA
    GTGGCAGTAC GCGTAAGACC TTTCACCAAG AGAGAGAAGA TTGAAAAAGC ATCCCAGGTA
    GTCTTCATGA GTGGGAAAGA AATAACTGTG GAACACCCTG ACACGAAACA AGTTTATAAT
    TTTATTTATG ATGTTTCATT CTGGTCTTTT GATGAATGTC ATCCTCACTA CGCTAGCCAG
    ACAACTGTCT ATGAGAAGCT AGCAGCACCA CTCCTAGAAA GAGCCTTCGA AGGCTTCAAT
    ACCTGTCTTT TTGCTTATGG TCAGACTGGC TCTGGAAAAT CATATACGAT GATGGGATTT
    AGTGAAGAAC CAGGAATAAT TCCAAGATTT TGTGAAGATC TTTTTTCTCA AGTAGCCAGA
    AAACAAACCC AAGAGGTCAG CTATCACATT GAAATGAGCT TCTTTGAAGT ATATAATGAA
    AAAATTCACG ACCTTCTGGT TTGTAAAGAT GAAAATGGGC AGAGAAAGCA ACCACTGAGA
    GTGAGGGAAC ATCCTGTTTA TGGACCATAT GTTGAAGCAC TGTCAATGAA CATTGTCAGT
    TCTTACGCTG ATATCCAGAG TTGGCTAGAA TTGGGAAATA AACAAAGAGC TACTGCTGCT
    ACTGGTATGA ATGATAAAAG TTCCCGATCT CATTCAGTTT TCACCCTGGT GATGACCCAG
    ACCAAGACAG AATTTGTGGA AGGGGAAGAA CACGATCACA GAATAACAAG TCGAATTAAC
    CTAATAGATC TGGCAGGCAG TGAGCGCTGC TCTACGGCTC ACACTAATGG AGATCGACTA
    AAGGAAGGTG TGAGTATTAA TAAGTCCTTG CTAACTTTGG GAAAAGTTAT ATCTGCACTT
    TCGGAACAAG CAAACCAAAG GAGTGTTTTT ATTCCTTATC GTGAATCTGT TCTTACATGG
    CTGTTAAAAG AAAGTCTGGG TGGAAATTCA AAAACTGCAA TGATTGCTAC GATTAGTCCC
    GCTGCCAGCA ACATAGAAGA AACATTAAGC ACACTTAGAT ATGCTAACCA AGCCCGTTTA
    ATAGTCAACA TTGCTAAAGT AAATGAAGAT ATGAACGCTA AGTTAATTAG AGAATTGAAG
    GCAGAAATTG CAAAGCTAAA AGCTGCTCAG AGAAACAGTC GGAATATTGA CCCTGAACGA
    TACAGGCTCT GTCGGCAAGA AATAACATCC TTAAGAATGA AACTGCATCA ACAGGAGAGA
    GACATGGCAG AAATGCAAAG AGTGTGGAAA GAAAAGTTTG AACAAGCTGA AAAAAGAAAA
    CTTCAAGAAA CAAAAGAGTT ACAGAAAGCA GGAATTATGT TTCAAATGGA CAATCATTTA
    CCAAACCTTG TTAATCTGAA TGAAGATCCA CAACTATCTG AGATGCTGCT ATATATGATA
    AAAGAAGGAA CAACTACAGT TGGAAAGTAT AAACCAAACT CAAGCCATGA TATTCAGTTA
    TCTGGGGTGC TGATTGCTGA TGATCATTGT ACTATCAAAA ATTTTGGTGG GACAGTGAGT
    ATTATCCCAG TTGGGGAAGC AAAGACATAT GTAAATGGAA AACATATTTT GGAAATCACA
    GTATTACGTC ATGGTGATCG AGTGATTCTT GGTGGAGATC ATTATTTTAG ATTTAATCAT
    CCAGTAGAAG TCCAGAAAGG AAAAAGGCCA TCTGGAAGAG ATACTCCTAT AAGTGAGGGT
    CCAAAAGACT TTGAATTTGC AAAAAATGAG TTGCTCATGG CACAGAGATC ACAACTTGAA
    GCAGAAATAA AAGAGGCTCA GTTGAAGGCA AAGGAAGAAA TGATGCAAGG AATCCAGATT
    GCAAAAGAAA TGGCTCAGCA AGAGCTTTCT TCTCAAAAAG CTGCATATGA AAGCAAAATA
    AAAGCACTGG AAGCAGAACT GAGAGAAGAG TCTCAAAGGA AAAAAATGCA GGAAATAAAT
    AACCAGAAGG CTAATCACAA AATTGAGGAA TTAGAAAAGG CAAAGCAGCA TCTTGAACAG
    GAAATATATG TCAACAAAAA GCGATTAGAA ATGGAAACAT TGGCTACAAA ACAGGCTTTA
    GAAGACCATA GCATCCGCCA TGCAAGAATT CTGGAAGCTT TAGAAACTGA AAAGCAAAAA
    ATTGCTAAAG AAGTACAAAT TCTACAGCAG AATCGGAATA ATAGGGATAA AACTTTTACA
    GTGCAGACAA CTTGGAGCTC TATGAAACTC TCAATGATGA TTCAGGAAGC CAATGCTATC
    AGCAGCAAAT TGAAAACATA CTATGTTTTT GGCAGACATG ATATATCAGA TAAAAGTAGT
    TCTGACACTT CTATTCGGGT TCGTAACCTG AAACTAGGAA TCTCAACATT CTGGAGTCTG
    GAAAAGTTTG AATCTAAACT TGCAGCAATG AAAGAACTTT ATGAGAGTAA TGGTAGTAAC
    AGGGGTGAAG ATGCCTTTTG TGATCCTGAA GATGAATGGG AACCCGACAT TACAGATGCA
    CCAGTTTCTT CACTTTCTAG AAGGAGGAGT AGGAGTTTGA TGAAGAACAG AAGAATTTCT
    GGTTGTTTAC ATGACATACA AGTCCATCCA ATTAAGAATT TGCATTCTTC ACATTCATCA
    GGTTTAATGG ACAAATCAAG CACTATTTAC TCAAATTCAG CAGAGTCCTT TCTTCCTGGA
    ATTTGCAAAG AATTGATTGG TTCTTCGTTA GATTTTTTTG GACAGAGTTA TGATGAAGAA
    AGAACTATAG CAGACAGCCT AATTAATAGT TTTCTTAAAA TTTATAATGG GCTATTTGCC
    ATTTCCAAGG CTCATGAAGA ACAAGATGAA GAAAGTCAAG ATAACTTGTT TTCTTCTGAT
    CGAGCAATCC AGTCACTTAC TATTCAGACT GCATGTGCTT TTGAGCAGCT AGTAGTGCTA
    ATGAAACACT GGCTGAGTGA TTTACTGCCT TGTACCAACA TAGCAAGACT TGAGGATGAG
    TTGAGACAAG AAGTTAAAAA ACTGGGAGGC TACTTACAGT TATTTTTGCA GGGATGCTGT
    TTGGATATTT CATCAATGAT AAAAGAGGCT CAAAAGAATG CAATCCAAAT TGTACAACAA
    GCTGTAAAGT ATGTGGGGCA GTTAGCAGTT CTGAAAGGGA GCAAGCTACA TTTTCTAGAA
    AACGGTAACA ATAAAGCTGC CAGTGTCCAG GAGGAATTCA TGGATGCTGT TTGTGATGGT
    GTAGGCTTAG GAATGAAGAT TTTATTAGAT TCTGGACTGG AAAAAGCAAA AGAACTTCAG
    CATGAACTCT TTAGGCAGTG TACAAAAAAT GAGGTTACCA AAGAAATGAA AACTAATGCC
    ATGGGATTGA TTAGATCTCT TGAAAACATC TTTGCTGAAT CGAAAATTAA AAGTTTCAGA
    AGGCAAGTAC AAGAAGAAAA CTTTGAATAC CAAGATTTCA AGAGGATGGT TAATCGTGCT
    CCAGAATTCT TAAAGTTAAA ACATTGCTTA GAGAAAGCTA TTGAAATTAT TATTTCTGCA
    CTGAAAGGAT GCCATAGTGA TATAAATCTT CTCCAGACTT GTGTTGAAAG TATTCGCAAC
    TTGGCCAGTG ATTTTTACAG TGACTTCAGT GTGCCTTCTA CTTCTGTTGG CAGCTATGAG
    AGTAGAGTAA CTCACATTGT CCACCAGGAA CTAGAATCTC TAGCTAAGTC TCTCCTCTTT
    TGTTTTGAAT CTGAAGAAAG CCCTGATTTG TTGAAACCCT GGGAAACTTA TAATCAAAAT
    ACCAAAGAAG AACACCAACA ATCTAAATCA AGCGGGATTG ACGGCAGTAA GAATAAAGGT
    GTACCAAAGC GTGTCTATGA GCTCCATGGC TCATCCCCAG CAGTGAGCTC AGAGGAATGC
    ACACCCAGTA GGATTCAGTG GGTGTGA

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

    CloneID OHu24430
    Clone ID Related Accession (Same CDS sequence) XM_011510230.1 , XM_011510231.2 , XM_011510232.1 , XM_011510231.1 , XM_011510232.2 , NM_014875.2 , NM_014875.3 , XM_017003005.1
    Accession Version XM_011510230.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4947bp)
    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 2015-03-11
    Organism Homo sapiens(Human)
    Product kinesin-like protein KIF14 isoform X1
    Comment

    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
    ATGTCATTAC ACAGTACTCA TAATAGAAAT AACAGCGGTG ATATTCTTGA TATTCCTTCT 
    TCCCAAAATA GTTCATCACT GAATGCCCTC ACCCACAGTA GCCGACTTAA GCTGCATTTG
    AAGTCGGATA TGTCAGAATG TGAAAATGAT GATCCATTAT TGAGATCTGC AGGTAAAGTC
    AGAGACATAA ATAGAACTTA TGTTATTTCT GCCAGTAGAA AAACAGCAGA CATGCCCCTT
    ACCCCTAATC CTGTAGGTAG ATTGGCACTT CAGAGGAGAA CTACAAGGAA CAAAGAATCA
    TCTTTGCTTG TTAGTGAGTT GGAAGACACA ACTGAAAAAA CAGCAGAAAC ACGTCTTACA
    TTACAACGTC GTGCTAAAAC AGATTCTGCA GAAAAGTGGA AAACAGCTGA AATAGATTCT
    GTCAAAATGA CACTGAATGT GGGAGGTGAA ACAGAAAATA ATGGTGTTTC TAAGGAAAGT
    AGAACAAATG TAAGGATTGT AAATAATGCT AAAAACTCTT TTGTTGCCTC TTCTGTACCT
    TTAGATGAAG ATCCACAGGT CATTGAAATG ATGGCTGATA AGAAATACAA AGAAACATTT
    TCTGCCCCCA GTAGAGCAAA TGAAAATGTT GCACTTAAGT ACTCAAGTAA TAGACCACCC
    ATTGCTTCCC TGAGTCAGAC TGAAGTTGTT AGATCAGGAC ACTTGACAAC GAAACCTACT
    CAGAGCAAGT TGGATATCAA AGTGTTGGGA ACAGGAAACT TGTATCATAG AAGTATTGGG
    AAGGAAATTG CAAAAACTTC AAATAAATTT GGGAGCTTAG AAAAAAGAAC ACCTACAAAA
    TGTACAACAG AACACAAACT GACAACAAAG TGCAGCCTGC CTCAGCTTAA GAGCCCAGCT
    CCATCAATAC TGAAGAATAG AATGTCTAAC CTTCAAGTTA AACAAAGACC AAAAAGTTCC
    TTTCTTGCAA ATAAACAGGA AAGATCCGCA GAAAATACAA TTCTTCCCGA AGAAGAAACT
    GTAGTTCAGA ACACCTCTGC AGGAAAAGAC CCCTTAAAAG TAGAGAATAG TCAAGTGACA
    GTGGCAGTAC GCGTAAGACC TTTCACCAAG AGAGAGAAGA TTGAAAAAGC ATCCCAGGTA
    GTCTTCATGA GTGGGAAAGA AATAACTGTG GAACACCCTG ACACGAAACA AGTTTATAAT
    TTTATTTATG ATGTTTCATT CTGGTCTTTT GATGAATGTC ATCCTCACTA CGCTAGCCAG
    ACAACTGTCT ATGAGAAGCT AGCAGCACCA CTCCTAGAAA GAGCCTTCGA AGGCTTCAAT
    ACCTGTCTTT TTGCTTATGG TCAGACTGGC TCTGGAAAAT CATATACGAT GATGGGATTT
    AGTGAAGAAC CAGGAATAAT TCCAAGATTT TGTGAAGATC TTTTTTCTCA AGTAGCCAGA
    AAACAAACCC AAGAGGTCAG CTATCACATT GAAATGAGCT TCTTTGAAGT ATATAATGAA
    AAAATTCACG ACCTTCTGGT TTGTAAAGAT GAAAATGGGC AGAGAAAGCA ACCACTGAGA
    GTGAGGGAAC ATCCTGTTTA TGGACCATAT GTTGAAGCAC TGTCAATGAA CATTGTCAGT
    TCTTACGCTG ATATCCAGAG TTGGCTAGAA TTGGGAAATA AACAAAGAGC TACTGCTGCT
    ACTGGTATGA ATGATAAAAG TTCCCGATCT CATTCAGTTT TCACCCTGGT GATGACCCAG
    ACCAAGACAG AATTTGTGGA AGGGGAAGAA CACGATCACA GAATAACAAG TCGAATTAAC
    CTAATAGATC TGGCAGGCAG TGAGCGCTGC TCTACGGCTC ACACTAATGG AGATCGACTA
    AAGGAAGGTG TGAGTATTAA TAAGTCCTTG CTAACTTTGG GAAAAGTTAT ATCTGCACTT
    TCGGAACAAG CAAACCAAAG GAGTGTTTTT ATTCCTTATC GTGAATCTGT TCTTACATGG
    CTGTTAAAAG AAAGTCTGGG TGGAAATTCA AAAACTGCAA TGATTGCTAC GATTAGTCCC
    GCTGCCAGCA ACATAGAAGA AACATTAAGC ACACTTAGAT ATGCTAACCA AGCCCGTTTA
    ATAGTCAACA TTGCTAAAGT AAATGAAGAT ATGAACGCTA AGTTAATTAG AGAATTGAAG
    GCAGAAATTG CAAAGCTAAA AGCTGCTCAG AGAAACAGTC GGAATATTGA CCCTGAACGA
    TACAGGCTCT GTCGGCAAGA AATAACATCC TTAAGAATGA AACTGCATCA ACAGGAGAGA
    GACATGGCAG AAATGCAAAG AGTGTGGAAA GAAAAGTTTG AACAAGCTGA AAAAAGAAAA
    CTTCAAGAAA CAAAAGAGTT ACAGAAAGCA GGAATTATGT TTCAAATGGA CAATCATTTA
    CCAAACCTTG TTAATCTGAA TGAAGATCCA CAACTATCTG AGATGCTGCT ATATATGATA
    AAAGAAGGAA CAACTACAGT TGGAAAGTAT AAACCAAACT CAAGCCATGA TATTCAGTTA
    TCTGGGGTGC TGATTGCTGA TGATCATTGT ACTATCAAAA ATTTTGGTGG GACAGTGAGT
    ATTATCCCAG TTGGGGAAGC AAAGACATAT GTAAATGGAA AACATATTTT GGAAATCACA
    GTATTACGTC ATGGTGATCG AGTGATTCTT GGTGGAGATC ATTATTTTAG ATTTAATCAT
    CCAGTAGAAG TCCAGAAAGG AAAAAGGCCA TCTGGAAGAG ATACTCCTAT AAGTGAGGGT
    CCAAAAGACT TTGAATTTGC AAAAAATGAG TTGCTCATGG CACAGAGATC ACAACTTGAA
    GCAGAAATAA AAGAGGCTCA GTTGAAGGCA AAGGAAGAAA TGATGCAAGG AATCCAGATT
    GCAAAAGAAA TGGCTCAGCA AGAGCTTTCT TCTCAAAAAG CTGCATATGA AAGCAAAATA
    AAAGCACTGG AAGCAGAACT GAGAGAAGAG TCTCAAAGGA AAAAAATGCA GGAAATAAAT
    AACCAGAAGG CTAATCACAA AATTGAGGAA TTAGAAAAGG CAAAGCAGCA TCTTGAACAG
    GAAATATATG TCAACAAAAA GCGATTAGAA ATGGAAACAT TGGCTACAAA ACAGGCTTTA
    GAAGACCATA GCATCCGCCA TGCAAGAATT CTGGAAGCTT TAGAAACTGA AAAGCAAAAA
    ATTGCTAAAG AAGTACAAAT TCTACAGCAG AATCGGAATA ATAGGGATAA AACTTTTACA
    GTGCAGACAA CTTGGAGCTC TATGAAACTC TCAATGATGA TTCAGGAAGC CAATGCTATC
    AGCAGCAAAT TGAAAACATA CTATGTTTTT GGCAGACATG ATATATCAGA TAAAAGTAGT
    TCTGACACTT CTATTCGGGT TCGTAACCTG AAACTAGGAA TCTCAACATT CTGGAGTCTG
    GAAAAGTTTG AATCTAAACT TGCAGCAATG AAAGAACTTT ATGAGAGTAA TGGTAGTAAC
    AGGGGTGAAG ATGCCTTTTG TGATCCTGAA GATGAATGGG AACCCGACAT TACAGATGCA
    CCAGTTTCTT CACTTTCTAG AAGGAGGAGT AGGAGTTTGA TGAAGAACAG AAGAATTTCT
    GGTTGTTTAC ATGACATACA AGTCCATCCA ATTAAGAATT TGCATTCTTC ACATTCATCA
    GGTTTAATGG ACAAATCAAG CACTATTTAC TCAAATTCAG CAGAGTCCTT TCTTCCTGGA
    ATTTGCAAAG AATTGATTGG TTCTTCGTTA GATTTTTTTG GACAGAGTTA TGATGAAGAA
    AGAACTATAG CAGACAGCCT AATTAATAGT TTTCTTAAAA TTTATAATGG GCTATTTGCC
    ATTTCCAAGG CTCATGAAGA ACAAGATGAA GAAAGTCAAG ATAACTTGTT TTCTTCTGAT
    CGAGCAATCC AGTCACTTAC TATTCAGACT GCATGTGCTT TTGAGCAGCT AGTAGTGCTA
    ATGAAACACT GGCTGAGTGA TTTACTGCCT TGTACCAACA TAGCAAGACT TGAGGATGAG
    TTGAGACAAG AAGTTAAAAA ACTGGGAGGC TACTTACAGT TATTTTTGCA GGGATGCTGT
    TTGGATATTT CATCAATGAT AAAAGAGGCT CAAAAGAATG CAATCCAAAT TGTACAACAA
    GCTGTAAAGT ATGTGGGGCA GTTAGCAGTT CTGAAAGGGA GCAAGCTACA TTTTCTAGAA
    AACGGTAACA ATAAAGCTGC CAGTGTCCAG GAGGAATTCA TGGATGCTGT TTGTGATGGT
    GTAGGCTTAG GAATGAAGAT TTTATTAGAT TCTGGACTGG AAAAAGCAAA AGAACTTCAG
    CATGAACTCT TTAGGCAGTG TACAAAAAAT GAGGTTACCA AAGAAATGAA AACTAATGCC
    ATGGGATTGA TTAGATCTCT TGAAAACATC TTTGCTGAAT CGAAAATTAA AAGTTTCAGA
    AGGCAAGTAC AAGAAGAAAA CTTTGAATAC CAAGATTTCA AGAGGATGGT TAATCGTGCT
    CCAGAATTCT TAAAGTTAAA ACATTGCTTA GAGAAAGCTA TTGAAATTAT TATTTCTGCA
    CTGAAAGGAT GCCATAGTGA TATAAATCTT CTCCAGACTT GTGTTGAAAG TATTCGCAAC
    TTGGCCAGTG ATTTTTACAG TGACTTCAGT GTGCCTTCTA CTTCTGTTGG CAGCTATGAG
    AGTAGAGTAA CTCACATTGT CCACCAGGAA CTAGAATCTC TAGCTAAGTC TCTCCTCTTT
    TGTTTTGAAT CTGAAGAAAG CCCTGATTTG TTGAAACCCT GGGAAACTTA TAATCAAAAT
    ACCAAAGAAG AACACCAACA ATCTAAATCA AGCGGGATTG ACGGCAGTAA GAATAAAGGT
    GTACCAAAGC GTGTCTATGA GCTCCATGGC TCATCCCCAG CAGTGAGCTC AGAGGAATGC
    ACACCCAGTA GGATTCAGTG GGTGTGA

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

    RefSeq XP_011508532.1
    Translation

    Target ORF information:

    RefSeq Version XM_011510230.1
    Organism Homo sapiens(Human)
    Definition Homo sapiens kinesin family member 14 (KIF14), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011510230.1

    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
    ATGTCATTAC ACAGTACTCA TAATAGAAAT AACAGCGGTG ATATTCTTGA TATTCCTTCT 
    TCCCAAAATA GTTCATCACT GAATGCCCTC ACCCACAGTA GCCGACTTAA GCTGCATTTG
    AAGTCGGATA TGTCAGAATG TGAAAATGAT GATCCATTAT TGAGATCTGC AGGTAAAGTC
    AGAGACATAA ATAGAACTTA TGTTATTTCT GCCAGTAGAA AAACAGCAGA CATGCCCCTT
    ACCCCTAATC CTGTAGGTAG ATTGGCACTT CAGAGGAGAA CTACAAGGAA CAAAGAATCA
    TCTTTGCTTG TTAGTGAGTT GGAAGACACA ACTGAAAAAA CAGCAGAAAC ACGTCTTACA
    TTACAACGTC GTGCTAAAAC AGATTCTGCA GAAAAGTGGA AAACAGCTGA AATAGATTCT
    GTCAAAATGA CACTGAATGT GGGAGGTGAA ACAGAAAATA ATGGTGTTTC TAAGGAAAGT
    AGAACAAATG TAAGGATTGT AAATAATGCT AAAAACTCTT TTGTTGCCTC TTCTGTACCT
    TTAGATGAAG ATCCACAGGT CATTGAAATG ATGGCTGATA AGAAATACAA AGAAACATTT
    TCTGCCCCCA GTAGAGCAAA TGAAAATGTT GCACTTAAGT ACTCAAGTAA TAGACCACCC
    ATTGCTTCCC TGAGTCAGAC TGAAGTTGTT AGATCAGGAC ACTTGACAAC GAAACCTACT
    CAGAGCAAGT TGGATATCAA AGTGTTGGGA ACAGGAAACT TGTATCATAG AAGTATTGGG
    AAGGAAATTG CAAAAACTTC AAATAAATTT GGGAGCTTAG AAAAAAGAAC ACCTACAAAA
    TGTACAACAG AACACAAACT GACAACAAAG TGCAGCCTGC CTCAGCTTAA GAGCCCAGCT
    CCATCAATAC TGAAGAATAG AATGTCTAAC CTTCAAGTTA AACAAAGACC AAAAAGTTCC
    TTTCTTGCAA ATAAACAGGA AAGATCCGCA GAAAATACAA TTCTTCCCGA AGAAGAAACT
    GTAGTTCAGA ACACCTCTGC AGGAAAAGAC CCCTTAAAAG TAGAGAATAG TCAAGTGACA
    GTGGCAGTAC GCGTAAGACC TTTCACCAAG AGAGAGAAGA TTGAAAAAGC ATCCCAGGTA
    GTCTTCATGA GTGGGAAAGA AATAACTGTG GAACACCCTG ACACGAAACA AGTTTATAAT
    TTTATTTATG ATGTTTCATT CTGGTCTTTT GATGAATGTC ATCCTCACTA CGCTAGCCAG
    ACAACTGTCT ATGAGAAGCT AGCAGCACCA CTCCTAGAAA GAGCCTTCGA AGGCTTCAAT
    ACCTGTCTTT TTGCTTATGG TCAGACTGGC TCTGGAAAAT CATATACGAT GATGGGATTT
    AGTGAAGAAC CAGGAATAAT TCCAAGATTT TGTGAAGATC TTTTTTCTCA AGTAGCCAGA
    AAACAAACCC AAGAGGTCAG CTATCACATT GAAATGAGCT TCTTTGAAGT ATATAATGAA
    AAAATTCACG ACCTTCTGGT TTGTAAAGAT GAAAATGGGC AGAGAAAGCA ACCACTGAGA
    GTGAGGGAAC ATCCTGTTTA TGGACCATAT GTTGAAGCAC TGTCAATGAA CATTGTCAGT
    TCTTACGCTG ATATCCAGAG TTGGCTAGAA TTGGGAAATA AACAAAGAGC TACTGCTGCT
    ACTGGTATGA ATGATAAAAG TTCCCGATCT CATTCAGTTT TCACCCTGGT GATGACCCAG
    ACCAAGACAG AATTTGTGGA AGGGGAAGAA CACGATCACA GAATAACAAG TCGAATTAAC
    CTAATAGATC TGGCAGGCAG TGAGCGCTGC TCTACGGCTC ACACTAATGG AGATCGACTA
    AAGGAAGGTG TGAGTATTAA TAAGTCCTTG CTAACTTTGG GAAAAGTTAT ATCTGCACTT
    TCGGAACAAG CAAACCAAAG GAGTGTTTTT ATTCCTTATC GTGAATCTGT TCTTACATGG
    CTGTTAAAAG AAAGTCTGGG TGGAAATTCA AAAACTGCAA TGATTGCTAC GATTAGTCCC
    GCTGCCAGCA ACATAGAAGA AACATTAAGC ACACTTAGAT ATGCTAACCA AGCCCGTTTA
    ATAGTCAACA TTGCTAAAGT AAATGAAGAT ATGAACGCTA AGTTAATTAG AGAATTGAAG
    GCAGAAATTG CAAAGCTAAA AGCTGCTCAG AGAAACAGTC GGAATATTGA CCCTGAACGA
    TACAGGCTCT GTCGGCAAGA AATAACATCC TTAAGAATGA AACTGCATCA ACAGGAGAGA
    GACATGGCAG AAATGCAAAG AGTGTGGAAA GAAAAGTTTG AACAAGCTGA AAAAAGAAAA
    CTTCAAGAAA CAAAAGAGTT ACAGAAAGCA GGAATTATGT TTCAAATGGA CAATCATTTA
    CCAAACCTTG TTAATCTGAA TGAAGATCCA CAACTATCTG AGATGCTGCT ATATATGATA
    AAAGAAGGAA CAACTACAGT TGGAAAGTAT AAACCAAACT CAAGCCATGA TATTCAGTTA
    TCTGGGGTGC TGATTGCTGA TGATCATTGT ACTATCAAAA ATTTTGGTGG GACAGTGAGT
    ATTATCCCAG TTGGGGAAGC AAAGACATAT GTAAATGGAA AACATATTTT GGAAATCACA
    GTATTACGTC ATGGTGATCG AGTGATTCTT GGTGGAGATC ATTATTTTAG ATTTAATCAT
    CCAGTAGAAG TCCAGAAAGG AAAAAGGCCA TCTGGAAGAG ATACTCCTAT AAGTGAGGGT
    CCAAAAGACT TTGAATTTGC AAAAAATGAG TTGCTCATGG CACAGAGATC ACAACTTGAA
    GCAGAAATAA AAGAGGCTCA GTTGAAGGCA AAGGAAGAAA TGATGCAAGG AATCCAGATT
    GCAAAAGAAA TGGCTCAGCA AGAGCTTTCT TCTCAAAAAG CTGCATATGA AAGCAAAATA
    AAAGCACTGG AAGCAGAACT GAGAGAAGAG TCTCAAAGGA AAAAAATGCA GGAAATAAAT
    AACCAGAAGG CTAATCACAA AATTGAGGAA TTAGAAAAGG CAAAGCAGCA TCTTGAACAG
    GAAATATATG TCAACAAAAA GCGATTAGAA ATGGAAACAT TGGCTACAAA ACAGGCTTTA
    GAAGACCATA GCATCCGCCA TGCAAGAATT CTGGAAGCTT TAGAAACTGA AAAGCAAAAA
    ATTGCTAAAG AAGTACAAAT TCTACAGCAG AATCGGAATA ATAGGGATAA AACTTTTACA
    GTGCAGACAA CTTGGAGCTC TATGAAACTC TCAATGATGA TTCAGGAAGC CAATGCTATC
    AGCAGCAAAT TGAAAACATA CTATGTTTTT GGCAGACATG ATATATCAGA TAAAAGTAGT
    TCTGACACTT CTATTCGGGT TCGTAACCTG AAACTAGGAA TCTCAACATT CTGGAGTCTG
    GAAAAGTTTG AATCTAAACT TGCAGCAATG AAAGAACTTT ATGAGAGTAA TGGTAGTAAC
    AGGGGTGAAG ATGCCTTTTG TGATCCTGAA GATGAATGGG AACCCGACAT TACAGATGCA
    CCAGTTTCTT CACTTTCTAG AAGGAGGAGT AGGAGTTTGA TGAAGAACAG AAGAATTTCT
    GGTTGTTTAC ATGACATACA AGTCCATCCA ATTAAGAATT TGCATTCTTC ACATTCATCA
    GGTTTAATGG ACAAATCAAG CACTATTTAC TCAAATTCAG CAGAGTCCTT TCTTCCTGGA
    ATTTGCAAAG AATTGATTGG TTCTTCGTTA GATTTTTTTG GACAGAGTTA TGATGAAGAA
    AGAACTATAG CAGACAGCCT AATTAATAGT TTTCTTAAAA TTTATAATGG GCTATTTGCC
    ATTTCCAAGG CTCATGAAGA ACAAGATGAA GAAAGTCAAG ATAACTTGTT TTCTTCTGAT
    CGAGCAATCC AGTCACTTAC TATTCAGACT GCATGTGCTT TTGAGCAGCT AGTAGTGCTA
    ATGAAACACT GGCTGAGTGA TTTACTGCCT TGTACCAACA TAGCAAGACT TGAGGATGAG
    TTGAGACAAG AAGTTAAAAA ACTGGGAGGC TACTTACAGT TATTTTTGCA GGGATGCTGT
    TTGGATATTT CATCAATGAT AAAAGAGGCT CAAAAGAATG CAATCCAAAT TGTACAACAA
    GCTGTAAAGT ATGTGGGGCA GTTAGCAGTT CTGAAAGGGA GCAAGCTACA TTTTCTAGAA
    AACGGTAACA ATAAAGCTGC CAGTGTCCAG GAGGAATTCA TGGATGCTGT TTGTGATGGT
    GTAGGCTTAG GAATGAAGAT TTTATTAGAT TCTGGACTGG AAAAAGCAAA AGAACTTCAG
    CATGAACTCT TTAGGCAGTG TACAAAAAAT GAGGTTACCA AAGAAATGAA AACTAATGCC
    ATGGGATTGA TTAGATCTCT TGAAAACATC TTTGCTGAAT CGAAAATTAA AAGTTTCAGA
    AGGCAAGTAC AAGAAGAAAA CTTTGAATAC CAAGATTTCA AGAGGATGGT TAATCGTGCT
    CCAGAATTCT TAAAGTTAAA ACATTGCTTA GAGAAAGCTA TTGAAATTAT TATTTCTGCA
    CTGAAAGGAT GCCATAGTGA TATAAATCTT CTCCAGACTT GTGTTGAAAG TATTCGCAAC
    TTGGCCAGTG ATTTTTACAG TGACTTCAGT GTGCCTTCTA CTTCTGTTGG CAGCTATGAG
    AGTAGAGTAA CTCACATTGT CCACCAGGAA CTAGAATCTC TAGCTAAGTC TCTCCTCTTT
    TGTTTTGAAT CTGAAGAAAG CCCTGATTTG TTGAAACCCT GGGAAACTTA TAATCAAAAT
    ACCAAAGAAG AACACCAACA ATCTAAATCA AGCGGGATTG ACGGCAGTAA GAATAAAGGT
    GTACCAAAGC GTGTCTATGA GCTCCATGGC TCATCCCCAG CAGTGAGCTC AGAGGAATGC
    ACACCCAGTA GGATTCAGTG GGTGTGA

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

    CloneID OHu24430
    Clone ID Related Accession (Same CDS sequence) XM_011510230.1 , XM_011510231.2 , XM_011510232.1 , XM_011510231.1 , XM_011510232.2 , NM_014875.2 , NM_014875.3 , XM_017003005.1
    Accession Version XM_011510231.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4947bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product kinesin-like protein KIF14 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011510231.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGTCATTAC ACAGTACTCA TAATAGAAAT AACAGCGGTG ATATTCTTGA TATTCCTTCT 
    TCCCAAAATA GTTCATCACT GAATGCCCTC ACCCACAGTA GCCGACTTAA GCTGCATTTG
    AAGTCGGATA TGTCAGAATG TGAAAATGAT GATCCATTAT TGAGATCTGC AGGTAAAGTC
    AGAGACATAA ATAGAACTTA TGTTATTTCT GCCAGTAGAA AAACAGCAGA CATGCCCCTT
    ACCCCTAATC CTGTAGGTAG ATTGGCACTT CAGAGGAGAA CTACAAGGAA CAAAGAATCA
    TCTTTGCTTG TTAGTGAGTT GGAAGACACA ACTGAAAAAA CAGCAGAAAC ACGTCTTACA
    TTACAACGTC GTGCTAAAAC AGATTCTGCA GAAAAGTGGA AAACAGCTGA AATAGATTCT
    GTCAAAATGA CACTGAATGT GGGAGGTGAA ACAGAAAATA ATGGTGTTTC TAAGGAAAGT
    AGAACAAATG TAAGGATTGT AAATAATGCT AAAAACTCTT TTGTTGCCTC TTCTGTACCT
    TTAGATGAAG ATCCACAGGT CATTGAAATG ATGGCTGATA AGAAATACAA AGAAACATTT
    TCTGCCCCCA GTAGAGCAAA TGAAAATGTT GCACTTAAGT ACTCAAGTAA TAGACCACCC
    ATTGCTTCCC TGAGTCAGAC TGAAGTTGTT AGATCAGGAC ACTTGACAAC GAAACCTACT
    CAGAGCAAGT TGGATATCAA AGTGTTGGGA ACAGGAAACT TGTATCATAG AAGTATTGGG
    AAGGAAATTG CAAAAACTTC AAATAAATTT GGGAGCTTAG AAAAAAGAAC ACCTACAAAA
    TGTACAACAG AACACAAACT GACAACAAAG TGCAGCCTGC CTCAGCTTAA GAGCCCAGCT
    CCATCAATAC TGAAGAATAG AATGTCTAAC CTTCAAGTTA AACAAAGACC AAAAAGTTCC
    TTTCTTGCAA ATAAACAGGA AAGATCCGCA GAAAATACAA TTCTTCCCGA AGAAGAAACT
    GTAGTTCAGA ACACCTCTGC AGGAAAAGAC CCCTTAAAAG TAGAGAATAG TCAAGTGACA
    GTGGCAGTAC GCGTAAGACC TTTCACCAAG AGAGAGAAGA TTGAAAAAGC ATCCCAGGTA
    GTCTTCATGA GTGGGAAAGA AATAACTGTG GAACACCCTG ACACGAAACA AGTTTATAAT
    TTTATTTATG ATGTTTCATT CTGGTCTTTT GATGAATGTC ATCCTCACTA CGCTAGCCAG
    ACAACTGTCT ATGAGAAGCT AGCAGCACCA CTCCTAGAAA GAGCCTTCGA AGGCTTCAAT
    ACCTGTCTTT TTGCTTATGG TCAGACTGGC TCTGGAAAAT CATATACGAT GATGGGATTT
    AGTGAAGAAC CAGGAATAAT TCCAAGATTT TGTGAAGATC TTTTTTCTCA AGTAGCCAGA
    AAACAAACCC AAGAGGTCAG CTATCACATT GAAATGAGCT TCTTTGAAGT ATATAATGAA
    AAAATTCACG ACCTTCTGGT TTGTAAAGAT GAAAATGGGC AGAGAAAGCA ACCACTGAGA
    GTGAGGGAAC ATCCTGTTTA TGGACCATAT GTTGAAGCAC TGTCAATGAA CATTGTCAGT
    TCTTACGCTG ATATCCAGAG TTGGCTAGAA TTGGGAAATA AACAAAGAGC TACTGCTGCT
    ACTGGTATGA ATGATAAAAG TTCCCGATCT CATTCAGTTT TCACCCTGGT GATGACCCAG
    ACCAAGACAG AATTTGTGGA AGGGGAAGAA CACGATCACA GAATAACAAG TCGAATTAAC
    CTAATAGATC TGGCAGGCAG TGAGCGCTGC TCTACGGCTC ACACTAATGG AGATCGACTA
    AAGGAAGGTG TGAGTATTAA TAAGTCCTTG CTAACTTTGG GAAAAGTTAT ATCTGCACTT
    TCGGAACAAG CAAACCAAAG GAGTGTTTTT ATTCCTTATC GTGAATCTGT TCTTACATGG
    CTGTTAAAAG AAAGTCTGGG TGGAAATTCA AAAACTGCAA TGATTGCTAC GATTAGTCCC
    GCTGCCAGCA ACATAGAAGA AACATTAAGC ACACTTAGAT ATGCTAACCA AGCCCGTTTA
    ATAGTCAACA TTGCTAAAGT AAATGAAGAT ATGAACGCTA AGTTAATTAG AGAATTGAAG
    GCAGAAATTG CAAAGCTAAA AGCTGCTCAG AGAAACAGTC GGAATATTGA CCCTGAACGA
    TACAGGCTCT GTCGGCAAGA AATAACATCC TTAAGAATGA AACTGCATCA ACAGGAGAGA
    GACATGGCAG AAATGCAAAG AGTGTGGAAA GAAAAGTTTG AACAAGCTGA AAAAAGAAAA
    CTTCAAGAAA CAAAAGAGTT ACAGAAAGCA GGAATTATGT TTCAAATGGA CAATCATTTA
    CCAAACCTTG TTAATCTGAA TGAAGATCCA CAACTATCTG AGATGCTGCT ATATATGATA
    AAAGAAGGAA CAACTACAGT TGGAAAGTAT AAACCAAACT CAAGCCATGA TATTCAGTTA
    TCTGGGGTGC TGATTGCTGA TGATCATTGT ACTATCAAAA ATTTTGGTGG GACAGTGAGT
    ATTATCCCAG TTGGGGAAGC AAAGACATAT GTAAATGGAA AACATATTTT GGAAATCACA
    GTATTACGTC ATGGTGATCG AGTGATTCTT GGTGGAGATC ATTATTTTAG ATTTAATCAT
    CCAGTAGAAG TCCAGAAAGG AAAAAGGCCA TCTGGAAGAG ATACTCCTAT AAGTGAGGGT
    CCAAAAGACT TTGAATTTGC AAAAAATGAG TTGCTCATGG CACAGAGATC ACAACTTGAA
    GCAGAAATAA AAGAGGCTCA GTTGAAGGCA AAGGAAGAAA TGATGCAAGG AATCCAGATT
    GCAAAAGAAA TGGCTCAGCA AGAGCTTTCT TCTCAAAAAG CTGCATATGA AAGCAAAATA
    AAAGCACTGG AAGCAGAACT GAGAGAAGAG TCTCAAAGGA AAAAAATGCA GGAAATAAAT
    AACCAGAAGG CTAATCACAA AATTGAGGAA TTAGAAAAGG CAAAGCAGCA TCTTGAACAG
    GAAATATATG TCAACAAAAA GCGATTAGAA ATGGAAACAT TGGCTACAAA ACAGGCTTTA
    GAAGACCATA GCATCCGCCA TGCAAGAATT CTGGAAGCTT TAGAAACTGA AAAGCAAAAA
    ATTGCTAAAG AAGTACAAAT TCTACAGCAG AATCGGAATA ATAGGGATAA AACTTTTACA
    GTGCAGACAA CTTGGAGCTC TATGAAACTC TCAATGATGA TTCAGGAAGC CAATGCTATC
    AGCAGCAAAT TGAAAACATA CTATGTTTTT GGCAGACATG ATATATCAGA TAAAAGTAGT
    TCTGACACTT CTATTCGGGT TCGTAACCTG AAACTAGGAA TCTCAACATT CTGGAGTCTG
    GAAAAGTTTG AATCTAAACT TGCAGCAATG AAAGAACTTT ATGAGAGTAA TGGTAGTAAC
    AGGGGTGAAG ATGCCTTTTG TGATCCTGAA GATGAATGGG AACCCGACAT TACAGATGCA
    CCAGTTTCTT CACTTTCTAG AAGGAGGAGT AGGAGTTTGA TGAAGAACAG AAGAATTTCT
    GGTTGTTTAC ATGACATACA AGTCCATCCA ATTAAGAATT TGCATTCTTC ACATTCATCA
    GGTTTAATGG ACAAATCAAG CACTATTTAC TCAAATTCAG CAGAGTCCTT TCTTCCTGGA
    ATTTGCAAAG AATTGATTGG TTCTTCGTTA GATTTTTTTG GACAGAGTTA TGATGAAGAA
    AGAACTATAG CAGACAGCCT AATTAATAGT TTTCTTAAAA TTTATAATGG GCTATTTGCC
    ATTTCCAAGG CTCATGAAGA ACAAGATGAA GAAAGTCAAG ATAACTTGTT TTCTTCTGAT
    CGAGCAATCC AGTCACTTAC TATTCAGACT GCATGTGCTT TTGAGCAGCT AGTAGTGCTA
    ATGAAACACT GGCTGAGTGA TTTACTGCCT TGTACCAACA TAGCAAGACT TGAGGATGAG
    TTGAGACAAG AAGTTAAAAA ACTGGGAGGC TACTTACAGT TATTTTTGCA GGGATGCTGT
    TTGGATATTT CATCAATGAT AAAAGAGGCT CAAAAGAATG CAATCCAAAT TGTACAACAA
    GCTGTAAAGT ATGTGGGGCA GTTAGCAGTT CTGAAAGGGA GCAAGCTACA TTTTCTAGAA
    AACGGTAACA ATAAAGCTGC CAGTGTCCAG GAGGAATTCA TGGATGCTGT TTGTGATGGT
    GTAGGCTTAG GAATGAAGAT TTTATTAGAT TCTGGACTGG AAAAAGCAAA AGAACTTCAG
    CATGAACTCT TTAGGCAGTG TACAAAAAAT GAGGTTACCA AAGAAATGAA AACTAATGCC
    ATGGGATTGA TTAGATCTCT TGAAAACATC TTTGCTGAAT CGAAAATTAA AAGTTTCAGA
    AGGCAAGTAC AAGAAGAAAA CTTTGAATAC CAAGATTTCA AGAGGATGGT TAATCGTGCT
    CCAGAATTCT TAAAGTTAAA ACATTGCTTA GAGAAAGCTA TTGAAATTAT TATTTCTGCA
    CTGAAAGGAT GCCATAGTGA TATAAATCTT CTCCAGACTT GTGTTGAAAG TATTCGCAAC
    TTGGCCAGTG ATTTTTACAG TGACTTCAGT GTGCCTTCTA CTTCTGTTGG CAGCTATGAG
    AGTAGAGTAA CTCACATTGT CCACCAGGAA CTAGAATCTC TAGCTAAGTC TCTCCTCTTT
    TGTTTTGAAT CTGAAGAAAG CCCTGATTTG TTGAAACCCT GGGAAACTTA TAATCAAAAT
    ACCAAAGAAG AACACCAACA ATCTAAATCA AGCGGGATTG ACGGCAGTAA GAATAAAGGT
    GTACCAAAGC GTGTCTATGA GCTCCATGGC TCATCCCCAG CAGTGAGCTC AGAGGAATGC
    ACACCCAGTA GGATTCAGTG GGTGTGA

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

    RefSeq XP_011508533.1
    CDS534..5480
    Translation

    Target ORF information:

    RefSeq Version XM_011510231.2
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 14 (KIF14), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011510231.2

    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
    ATGTCATTAC ACAGTACTCA TAATAGAAAT AACAGCGGTG ATATTCTTGA TATTCCTTCT 
    TCCCAAAATA GTTCATCACT GAATGCCCTC ACCCACAGTA GCCGACTTAA GCTGCATTTG
    AAGTCGGATA TGTCAGAATG TGAAAATGAT GATCCATTAT TGAGATCTGC AGGTAAAGTC
    AGAGACATAA ATAGAACTTA TGTTATTTCT GCCAGTAGAA AAACAGCAGA CATGCCCCTT
    ACCCCTAATC CTGTAGGTAG ATTGGCACTT CAGAGGAGAA CTACAAGGAA CAAAGAATCA
    TCTTTGCTTG TTAGTGAGTT GGAAGACACA ACTGAAAAAA CAGCAGAAAC ACGTCTTACA
    TTACAACGTC GTGCTAAAAC AGATTCTGCA GAAAAGTGGA AAACAGCTGA AATAGATTCT
    GTCAAAATGA CACTGAATGT GGGAGGTGAA ACAGAAAATA ATGGTGTTTC TAAGGAAAGT
    AGAACAAATG TAAGGATTGT AAATAATGCT AAAAACTCTT TTGTTGCCTC TTCTGTACCT
    TTAGATGAAG ATCCACAGGT CATTGAAATG ATGGCTGATA AGAAATACAA AGAAACATTT
    TCTGCCCCCA GTAGAGCAAA TGAAAATGTT GCACTTAAGT ACTCAAGTAA TAGACCACCC
    ATTGCTTCCC TGAGTCAGAC TGAAGTTGTT AGATCAGGAC ACTTGACAAC GAAACCTACT
    CAGAGCAAGT TGGATATCAA AGTGTTGGGA ACAGGAAACT TGTATCATAG AAGTATTGGG
    AAGGAAATTG CAAAAACTTC AAATAAATTT GGGAGCTTAG AAAAAAGAAC ACCTACAAAA
    TGTACAACAG AACACAAACT GACAACAAAG TGCAGCCTGC CTCAGCTTAA GAGCCCAGCT
    CCATCAATAC TGAAGAATAG AATGTCTAAC CTTCAAGTTA AACAAAGACC AAAAAGTTCC
    TTTCTTGCAA ATAAACAGGA AAGATCCGCA GAAAATACAA TTCTTCCCGA AGAAGAAACT
    GTAGTTCAGA ACACCTCTGC AGGAAAAGAC CCCTTAAAAG TAGAGAATAG TCAAGTGACA
    GTGGCAGTAC GCGTAAGACC TTTCACCAAG AGAGAGAAGA TTGAAAAAGC ATCCCAGGTA
    GTCTTCATGA GTGGGAAAGA AATAACTGTG GAACACCCTG ACACGAAACA AGTTTATAAT
    TTTATTTATG ATGTTTCATT CTGGTCTTTT GATGAATGTC ATCCTCACTA CGCTAGCCAG
    ACAACTGTCT ATGAGAAGCT AGCAGCACCA CTCCTAGAAA GAGCCTTCGA AGGCTTCAAT
    ACCTGTCTTT TTGCTTATGG TCAGACTGGC TCTGGAAAAT CATATACGAT GATGGGATTT
    AGTGAAGAAC CAGGAATAAT TCCAAGATTT TGTGAAGATC TTTTTTCTCA AGTAGCCAGA
    AAACAAACCC AAGAGGTCAG CTATCACATT GAAATGAGCT TCTTTGAAGT ATATAATGAA
    AAAATTCACG ACCTTCTGGT TTGTAAAGAT GAAAATGGGC AGAGAAAGCA ACCACTGAGA
    GTGAGGGAAC ATCCTGTTTA TGGACCATAT GTTGAAGCAC TGTCAATGAA CATTGTCAGT
    TCTTACGCTG ATATCCAGAG TTGGCTAGAA TTGGGAAATA AACAAAGAGC TACTGCTGCT
    ACTGGTATGA ATGATAAAAG TTCCCGATCT CATTCAGTTT TCACCCTGGT GATGACCCAG
    ACCAAGACAG AATTTGTGGA AGGGGAAGAA CACGATCACA GAATAACAAG TCGAATTAAC
    CTAATAGATC TGGCAGGCAG TGAGCGCTGC TCTACGGCTC ACACTAATGG AGATCGACTA
    AAGGAAGGTG TGAGTATTAA TAAGTCCTTG CTAACTTTGG GAAAAGTTAT ATCTGCACTT
    TCGGAACAAG CAAACCAAAG GAGTGTTTTT ATTCCTTATC GTGAATCTGT TCTTACATGG
    CTGTTAAAAG AAAGTCTGGG TGGAAATTCA AAAACTGCAA TGATTGCTAC GATTAGTCCC
    GCTGCCAGCA ACATAGAAGA AACATTAAGC ACACTTAGAT ATGCTAACCA AGCCCGTTTA
    ATAGTCAACA TTGCTAAAGT AAATGAAGAT ATGAACGCTA AGTTAATTAG AGAATTGAAG
    GCAGAAATTG CAAAGCTAAA AGCTGCTCAG AGAAACAGTC GGAATATTGA CCCTGAACGA
    TACAGGCTCT GTCGGCAAGA AATAACATCC TTAAGAATGA AACTGCATCA ACAGGAGAGA
    GACATGGCAG AAATGCAAAG AGTGTGGAAA GAAAAGTTTG AACAAGCTGA AAAAAGAAAA
    CTTCAAGAAA CAAAAGAGTT ACAGAAAGCA GGAATTATGT TTCAAATGGA CAATCATTTA
    CCAAACCTTG TTAATCTGAA TGAAGATCCA CAACTATCTG AGATGCTGCT ATATATGATA
    AAAGAAGGAA CAACTACAGT TGGAAAGTAT AAACCAAACT CAAGCCATGA TATTCAGTTA
    TCTGGGGTGC TGATTGCTGA TGATCATTGT ACTATCAAAA ATTTTGGTGG GACAGTGAGT
    ATTATCCCAG TTGGGGAAGC AAAGACATAT GTAAATGGAA AACATATTTT GGAAATCACA
    GTATTACGTC ATGGTGATCG AGTGATTCTT GGTGGAGATC ATTATTTTAG ATTTAATCAT
    CCAGTAGAAG TCCAGAAAGG AAAAAGGCCA TCTGGAAGAG ATACTCCTAT AAGTGAGGGT
    CCAAAAGACT TTGAATTTGC AAAAAATGAG TTGCTCATGG CACAGAGATC ACAACTTGAA
    GCAGAAATAA AAGAGGCTCA GTTGAAGGCA AAGGAAGAAA TGATGCAAGG AATCCAGATT
    GCAAAAGAAA TGGCTCAGCA AGAGCTTTCT TCTCAAAAAG CTGCATATGA AAGCAAAATA
    AAAGCACTGG AAGCAGAACT GAGAGAAGAG TCTCAAAGGA AAAAAATGCA GGAAATAAAT
    AACCAGAAGG CTAATCACAA AATTGAGGAA TTAGAAAAGG CAAAGCAGCA TCTTGAACAG
    GAAATATATG TCAACAAAAA GCGATTAGAA ATGGAAACAT TGGCTACAAA ACAGGCTTTA
    GAAGACCATA GCATCCGCCA TGCAAGAATT CTGGAAGCTT TAGAAACTGA AAAGCAAAAA
    ATTGCTAAAG AAGTACAAAT TCTACAGCAG AATCGGAATA ATAGGGATAA AACTTTTACA
    GTGCAGACAA CTTGGAGCTC TATGAAACTC TCAATGATGA TTCAGGAAGC CAATGCTATC
    AGCAGCAAAT TGAAAACATA CTATGTTTTT GGCAGACATG ATATATCAGA TAAAAGTAGT
    TCTGACACTT CTATTCGGGT TCGTAACCTG AAACTAGGAA TCTCAACATT CTGGAGTCTG
    GAAAAGTTTG AATCTAAACT TGCAGCAATG AAAGAACTTT ATGAGAGTAA TGGTAGTAAC
    AGGGGTGAAG ATGCCTTTTG TGATCCTGAA GATGAATGGG AACCCGACAT TACAGATGCA
    CCAGTTTCTT CACTTTCTAG AAGGAGGAGT AGGAGTTTGA TGAAGAACAG AAGAATTTCT
    GGTTGTTTAC ATGACATACA AGTCCATCCA ATTAAGAATT TGCATTCTTC ACATTCATCA
    GGTTTAATGG ACAAATCAAG CACTATTTAC TCAAATTCAG CAGAGTCCTT TCTTCCTGGA
    ATTTGCAAAG AATTGATTGG TTCTTCGTTA GATTTTTTTG GACAGAGTTA TGATGAAGAA
    AGAACTATAG CAGACAGCCT AATTAATAGT TTTCTTAAAA TTTATAATGG GCTATTTGCC
    ATTTCCAAGG CTCATGAAGA ACAAGATGAA GAAAGTCAAG ATAACTTGTT TTCTTCTGAT
    CGAGCAATCC AGTCACTTAC TATTCAGACT GCATGTGCTT TTGAGCAGCT AGTAGTGCTA
    ATGAAACACT GGCTGAGTGA TTTACTGCCT TGTACCAACA TAGCAAGACT TGAGGATGAG
    TTGAGACAAG AAGTTAAAAA ACTGGGAGGC TACTTACAGT TATTTTTGCA GGGATGCTGT
    TTGGATATTT CATCAATGAT AAAAGAGGCT CAAAAGAATG CAATCCAAAT TGTACAACAA
    GCTGTAAAGT ATGTGGGGCA GTTAGCAGTT CTGAAAGGGA GCAAGCTACA TTTTCTAGAA
    AACGGTAACA ATAAAGCTGC CAGTGTCCAG GAGGAATTCA TGGATGCTGT TTGTGATGGT
    GTAGGCTTAG GAATGAAGAT TTTATTAGAT TCTGGACTGG AAAAAGCAAA AGAACTTCAG
    CATGAACTCT TTAGGCAGTG TACAAAAAAT GAGGTTACCA AAGAAATGAA AACTAATGCC
    ATGGGATTGA TTAGATCTCT TGAAAACATC TTTGCTGAAT CGAAAATTAA AAGTTTCAGA
    AGGCAAGTAC AAGAAGAAAA CTTTGAATAC CAAGATTTCA AGAGGATGGT TAATCGTGCT
    CCAGAATTCT TAAAGTTAAA ACATTGCTTA GAGAAAGCTA TTGAAATTAT TATTTCTGCA
    CTGAAAGGAT GCCATAGTGA TATAAATCTT CTCCAGACTT GTGTTGAAAG TATTCGCAAC
    TTGGCCAGTG ATTTTTACAG TGACTTCAGT GTGCCTTCTA CTTCTGTTGG CAGCTATGAG
    AGTAGAGTAA CTCACATTGT CCACCAGGAA CTAGAATCTC TAGCTAAGTC TCTCCTCTTT
    TGTTTTGAAT CTGAAGAAAG CCCTGATTTG TTGAAACCCT GGGAAACTTA TAATCAAAAT
    ACCAAAGAAG AACACCAACA ATCTAAATCA AGCGGGATTG ACGGCAGTAA GAATAAAGGT
    GTACCAAAGC GTGTCTATGA GCTCCATGGC TCATCCCCAG CAGTGAGCTC AGAGGAATGC
    ACACCCAGTA GGATTCAGTG GGTGTGA

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

    CloneID OHu24430
    Clone ID Related Accession (Same CDS sequence) XM_011510230.1 , XM_011510231.2 , XM_011510232.1 , XM_011510231.1 , XM_011510232.2 , NM_014875.2 , NM_014875.3 , XM_017003005.1
    Accession Version XM_011510232.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4947bp)
    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 2015-03-11
    Organism Homo sapiens(Human)
    Product kinesin-like protein KIF14 isoform X1
    Comment

    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
    ATGTCATTAC ACAGTACTCA TAATAGAAAT AACAGCGGTG ATATTCTTGA TATTCCTTCT 
    TCCCAAAATA GTTCATCACT GAATGCCCTC ACCCACAGTA GCCGACTTAA GCTGCATTTG
    AAGTCGGATA TGTCAGAATG TGAAAATGAT GATCCATTAT TGAGATCTGC AGGTAAAGTC
    AGAGACATAA ATAGAACTTA TGTTATTTCT GCCAGTAGAA AAACAGCAGA CATGCCCCTT
    ACCCCTAATC CTGTAGGTAG ATTGGCACTT CAGAGGAGAA CTACAAGGAA CAAAGAATCA
    TCTTTGCTTG TTAGTGAGTT GGAAGACACA ACTGAAAAAA CAGCAGAAAC ACGTCTTACA
    TTACAACGTC GTGCTAAAAC AGATTCTGCA GAAAAGTGGA AAACAGCTGA AATAGATTCT
    GTCAAAATGA CACTGAATGT GGGAGGTGAA ACAGAAAATA ATGGTGTTTC TAAGGAAAGT
    AGAACAAATG TAAGGATTGT AAATAATGCT AAAAACTCTT TTGTTGCCTC TTCTGTACCT
    TTAGATGAAG ATCCACAGGT CATTGAAATG ATGGCTGATA AGAAATACAA AGAAACATTT
    TCTGCCCCCA GTAGAGCAAA TGAAAATGTT GCACTTAAGT ACTCAAGTAA TAGACCACCC
    ATTGCTTCCC TGAGTCAGAC TGAAGTTGTT AGATCAGGAC ACTTGACAAC GAAACCTACT
    CAGAGCAAGT TGGATATCAA AGTGTTGGGA ACAGGAAACT TGTATCATAG AAGTATTGGG
    AAGGAAATTG CAAAAACTTC AAATAAATTT GGGAGCTTAG AAAAAAGAAC ACCTACAAAA
    TGTACAACAG AACACAAACT GACAACAAAG TGCAGCCTGC CTCAGCTTAA GAGCCCAGCT
    CCATCAATAC TGAAGAATAG AATGTCTAAC CTTCAAGTTA AACAAAGACC AAAAAGTTCC
    TTTCTTGCAA ATAAACAGGA AAGATCCGCA GAAAATACAA TTCTTCCCGA AGAAGAAACT
    GTAGTTCAGA ACACCTCTGC AGGAAAAGAC CCCTTAAAAG TAGAGAATAG TCAAGTGACA
    GTGGCAGTAC GCGTAAGACC TTTCACCAAG AGAGAGAAGA TTGAAAAAGC ATCCCAGGTA
    GTCTTCATGA GTGGGAAAGA AATAACTGTG GAACACCCTG ACACGAAACA AGTTTATAAT
    TTTATTTATG ATGTTTCATT CTGGTCTTTT GATGAATGTC ATCCTCACTA CGCTAGCCAG
    ACAACTGTCT ATGAGAAGCT AGCAGCACCA CTCCTAGAAA GAGCCTTCGA AGGCTTCAAT
    ACCTGTCTTT TTGCTTATGG TCAGACTGGC TCTGGAAAAT CATATACGAT GATGGGATTT
    AGTGAAGAAC CAGGAATAAT TCCAAGATTT TGTGAAGATC TTTTTTCTCA AGTAGCCAGA
    AAACAAACCC AAGAGGTCAG CTATCACATT GAAATGAGCT TCTTTGAAGT ATATAATGAA
    AAAATTCACG ACCTTCTGGT TTGTAAAGAT GAAAATGGGC AGAGAAAGCA ACCACTGAGA
    GTGAGGGAAC ATCCTGTTTA TGGACCATAT GTTGAAGCAC TGTCAATGAA CATTGTCAGT
    TCTTACGCTG ATATCCAGAG TTGGCTAGAA TTGGGAAATA AACAAAGAGC TACTGCTGCT
    ACTGGTATGA ATGATAAAAG TTCCCGATCT CATTCAGTTT TCACCCTGGT GATGACCCAG
    ACCAAGACAG AATTTGTGGA AGGGGAAGAA CACGATCACA GAATAACAAG TCGAATTAAC
    CTAATAGATC TGGCAGGCAG TGAGCGCTGC TCTACGGCTC ACACTAATGG AGATCGACTA
    AAGGAAGGTG TGAGTATTAA TAAGTCCTTG CTAACTTTGG GAAAAGTTAT ATCTGCACTT
    TCGGAACAAG CAAACCAAAG GAGTGTTTTT ATTCCTTATC GTGAATCTGT TCTTACATGG
    CTGTTAAAAG AAAGTCTGGG TGGAAATTCA AAAACTGCAA TGATTGCTAC GATTAGTCCC
    GCTGCCAGCA ACATAGAAGA AACATTAAGC ACACTTAGAT ATGCTAACCA AGCCCGTTTA
    ATAGTCAACA TTGCTAAAGT AAATGAAGAT ATGAACGCTA AGTTAATTAG AGAATTGAAG
    GCAGAAATTG CAAAGCTAAA AGCTGCTCAG AGAAACAGTC GGAATATTGA CCCTGAACGA
    TACAGGCTCT GTCGGCAAGA AATAACATCC TTAAGAATGA AACTGCATCA ACAGGAGAGA
    GACATGGCAG AAATGCAAAG AGTGTGGAAA GAAAAGTTTG AACAAGCTGA AAAAAGAAAA
    CTTCAAGAAA CAAAAGAGTT ACAGAAAGCA GGAATTATGT TTCAAATGGA CAATCATTTA
    CCAAACCTTG TTAATCTGAA TGAAGATCCA CAACTATCTG AGATGCTGCT ATATATGATA
    AAAGAAGGAA CAACTACAGT TGGAAAGTAT AAACCAAACT CAAGCCATGA TATTCAGTTA
    TCTGGGGTGC TGATTGCTGA TGATCATTGT ACTATCAAAA ATTTTGGTGG GACAGTGAGT
    ATTATCCCAG TTGGGGAAGC AAAGACATAT GTAAATGGAA AACATATTTT GGAAATCACA
    GTATTACGTC ATGGTGATCG AGTGATTCTT GGTGGAGATC ATTATTTTAG ATTTAATCAT
    CCAGTAGAAG TCCAGAAAGG AAAAAGGCCA TCTGGAAGAG ATACTCCTAT AAGTGAGGGT
    CCAAAAGACT TTGAATTTGC AAAAAATGAG TTGCTCATGG CACAGAGATC ACAACTTGAA
    GCAGAAATAA AAGAGGCTCA GTTGAAGGCA AAGGAAGAAA TGATGCAAGG AATCCAGATT
    GCAAAAGAAA TGGCTCAGCA AGAGCTTTCT TCTCAAAAAG CTGCATATGA AAGCAAAATA
    AAAGCACTGG AAGCAGAACT GAGAGAAGAG TCTCAAAGGA AAAAAATGCA GGAAATAAAT
    AACCAGAAGG CTAATCACAA AATTGAGGAA TTAGAAAAGG CAAAGCAGCA TCTTGAACAG
    GAAATATATG TCAACAAAAA GCGATTAGAA ATGGAAACAT TGGCTACAAA ACAGGCTTTA
    GAAGACCATA GCATCCGCCA TGCAAGAATT CTGGAAGCTT TAGAAACTGA AAAGCAAAAA
    ATTGCTAAAG AAGTACAAAT TCTACAGCAG AATCGGAATA ATAGGGATAA AACTTTTACA
    GTGCAGACAA CTTGGAGCTC TATGAAACTC TCAATGATGA TTCAGGAAGC CAATGCTATC
    AGCAGCAAAT TGAAAACATA CTATGTTTTT GGCAGACATG ATATATCAGA TAAAAGTAGT
    TCTGACACTT CTATTCGGGT TCGTAACCTG AAACTAGGAA TCTCAACATT CTGGAGTCTG
    GAAAAGTTTG AATCTAAACT TGCAGCAATG AAAGAACTTT ATGAGAGTAA TGGTAGTAAC
    AGGGGTGAAG ATGCCTTTTG TGATCCTGAA GATGAATGGG AACCCGACAT TACAGATGCA
    CCAGTTTCTT CACTTTCTAG AAGGAGGAGT AGGAGTTTGA TGAAGAACAG AAGAATTTCT
    GGTTGTTTAC ATGACATACA AGTCCATCCA ATTAAGAATT TGCATTCTTC ACATTCATCA
    GGTTTAATGG ACAAATCAAG CACTATTTAC TCAAATTCAG CAGAGTCCTT TCTTCCTGGA
    ATTTGCAAAG AATTGATTGG TTCTTCGTTA GATTTTTTTG GACAGAGTTA TGATGAAGAA
    AGAACTATAG CAGACAGCCT AATTAATAGT TTTCTTAAAA TTTATAATGG GCTATTTGCC
    ATTTCCAAGG CTCATGAAGA ACAAGATGAA GAAAGTCAAG ATAACTTGTT TTCTTCTGAT
    CGAGCAATCC AGTCACTTAC TATTCAGACT GCATGTGCTT TTGAGCAGCT AGTAGTGCTA
    ATGAAACACT GGCTGAGTGA TTTACTGCCT TGTACCAACA TAGCAAGACT TGAGGATGAG
    TTGAGACAAG AAGTTAAAAA ACTGGGAGGC TACTTACAGT TATTTTTGCA GGGATGCTGT
    TTGGATATTT CATCAATGAT AAAAGAGGCT CAAAAGAATG CAATCCAAAT TGTACAACAA
    GCTGTAAAGT ATGTGGGGCA GTTAGCAGTT CTGAAAGGGA GCAAGCTACA TTTTCTAGAA
    AACGGTAACA ATAAAGCTGC CAGTGTCCAG GAGGAATTCA TGGATGCTGT TTGTGATGGT
    GTAGGCTTAG GAATGAAGAT TTTATTAGAT TCTGGACTGG AAAAAGCAAA AGAACTTCAG
    CATGAACTCT TTAGGCAGTG TACAAAAAAT GAGGTTACCA AAGAAATGAA AACTAATGCC
    ATGGGATTGA TTAGATCTCT TGAAAACATC TTTGCTGAAT CGAAAATTAA AAGTTTCAGA
    AGGCAAGTAC AAGAAGAAAA CTTTGAATAC CAAGATTTCA AGAGGATGGT TAATCGTGCT
    CCAGAATTCT TAAAGTTAAA ACATTGCTTA GAGAAAGCTA TTGAAATTAT TATTTCTGCA
    CTGAAAGGAT GCCATAGTGA TATAAATCTT CTCCAGACTT GTGTTGAAAG TATTCGCAAC
    TTGGCCAGTG ATTTTTACAG TGACTTCAGT GTGCCTTCTA CTTCTGTTGG CAGCTATGAG
    AGTAGAGTAA CTCACATTGT CCACCAGGAA CTAGAATCTC TAGCTAAGTC TCTCCTCTTT
    TGTTTTGAAT CTGAAGAAAG CCCTGATTTG TTGAAACCCT GGGAAACTTA TAATCAAAAT
    ACCAAAGAAG AACACCAACA ATCTAAATCA AGCGGGATTG ACGGCAGTAA GAATAAAGGT
    GTACCAAAGC GTGTCTATGA GCTCCATGGC TCATCCCCAG CAGTGAGCTC AGAGGAATGC
    ACACCCAGTA GGATTCAGTG GGTGTGA

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

    RefSeq XP_011508534.1
    Translation

    Target ORF information:

    RefSeq Version XM_011510232.1
    Organism Homo sapiens(Human)
    Definition Homo sapiens kinesin family member 14 (KIF14), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011510232.1

    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
    ATGTCATTAC ACAGTACTCA TAATAGAAAT AACAGCGGTG ATATTCTTGA TATTCCTTCT 
    TCCCAAAATA GTTCATCACT GAATGCCCTC ACCCACAGTA GCCGACTTAA GCTGCATTTG
    AAGTCGGATA TGTCAGAATG TGAAAATGAT GATCCATTAT TGAGATCTGC AGGTAAAGTC
    AGAGACATAA ATAGAACTTA TGTTATTTCT GCCAGTAGAA AAACAGCAGA CATGCCCCTT
    ACCCCTAATC CTGTAGGTAG ATTGGCACTT CAGAGGAGAA CTACAAGGAA CAAAGAATCA
    TCTTTGCTTG TTAGTGAGTT GGAAGACACA ACTGAAAAAA CAGCAGAAAC ACGTCTTACA
    TTACAACGTC GTGCTAAAAC AGATTCTGCA GAAAAGTGGA AAACAGCTGA AATAGATTCT
    GTCAAAATGA CACTGAATGT GGGAGGTGAA ACAGAAAATA ATGGTGTTTC TAAGGAAAGT
    AGAACAAATG TAAGGATTGT AAATAATGCT AAAAACTCTT TTGTTGCCTC TTCTGTACCT
    TTAGATGAAG ATCCACAGGT CATTGAAATG ATGGCTGATA AGAAATACAA AGAAACATTT
    TCTGCCCCCA GTAGAGCAAA TGAAAATGTT GCACTTAAGT ACTCAAGTAA TAGACCACCC
    ATTGCTTCCC TGAGTCAGAC TGAAGTTGTT AGATCAGGAC ACTTGACAAC GAAACCTACT
    CAGAGCAAGT TGGATATCAA AGTGTTGGGA ACAGGAAACT TGTATCATAG AAGTATTGGG
    AAGGAAATTG CAAAAACTTC AAATAAATTT GGGAGCTTAG AAAAAAGAAC ACCTACAAAA
    TGTACAACAG AACACAAACT GACAACAAAG TGCAGCCTGC CTCAGCTTAA GAGCCCAGCT
    CCATCAATAC TGAAGAATAG AATGTCTAAC CTTCAAGTTA AACAAAGACC AAAAAGTTCC
    TTTCTTGCAA ATAAACAGGA AAGATCCGCA GAAAATACAA TTCTTCCCGA AGAAGAAACT
    GTAGTTCAGA ACACCTCTGC AGGAAAAGAC CCCTTAAAAG TAGAGAATAG TCAAGTGACA
    GTGGCAGTAC GCGTAAGACC TTTCACCAAG AGAGAGAAGA TTGAAAAAGC ATCCCAGGTA
    GTCTTCATGA GTGGGAAAGA AATAACTGTG GAACACCCTG ACACGAAACA AGTTTATAAT
    TTTATTTATG ATGTTTCATT CTGGTCTTTT GATGAATGTC ATCCTCACTA CGCTAGCCAG
    ACAACTGTCT ATGAGAAGCT AGCAGCACCA CTCCTAGAAA GAGCCTTCGA AGGCTTCAAT
    ACCTGTCTTT TTGCTTATGG TCAGACTGGC TCTGGAAAAT CATATACGAT GATGGGATTT
    AGTGAAGAAC CAGGAATAAT TCCAAGATTT TGTGAAGATC TTTTTTCTCA AGTAGCCAGA
    AAACAAACCC AAGAGGTCAG CTATCACATT GAAATGAGCT TCTTTGAAGT ATATAATGAA
    AAAATTCACG ACCTTCTGGT TTGTAAAGAT GAAAATGGGC AGAGAAAGCA ACCACTGAGA
    GTGAGGGAAC ATCCTGTTTA TGGACCATAT GTTGAAGCAC TGTCAATGAA CATTGTCAGT
    TCTTACGCTG ATATCCAGAG TTGGCTAGAA TTGGGAAATA AACAAAGAGC TACTGCTGCT
    ACTGGTATGA ATGATAAAAG TTCCCGATCT CATTCAGTTT TCACCCTGGT GATGACCCAG
    ACCAAGACAG AATTTGTGGA AGGGGAAGAA CACGATCACA GAATAACAAG TCGAATTAAC
    CTAATAGATC TGGCAGGCAG TGAGCGCTGC TCTACGGCTC ACACTAATGG AGATCGACTA
    AAGGAAGGTG TGAGTATTAA TAAGTCCTTG CTAACTTTGG GAAAAGTTAT ATCTGCACTT
    TCGGAACAAG CAAACCAAAG GAGTGTTTTT ATTCCTTATC GTGAATCTGT TCTTACATGG
    CTGTTAAAAG AAAGTCTGGG TGGAAATTCA AAAACTGCAA TGATTGCTAC GATTAGTCCC
    GCTGCCAGCA ACATAGAAGA AACATTAAGC ACACTTAGAT ATGCTAACCA AGCCCGTTTA
    ATAGTCAACA TTGCTAAAGT AAATGAAGAT ATGAACGCTA AGTTAATTAG AGAATTGAAG
    GCAGAAATTG CAAAGCTAAA AGCTGCTCAG AGAAACAGTC GGAATATTGA CCCTGAACGA
    TACAGGCTCT GTCGGCAAGA AATAACATCC TTAAGAATGA AACTGCATCA ACAGGAGAGA
    GACATGGCAG AAATGCAAAG AGTGTGGAAA GAAAAGTTTG AACAAGCTGA AAAAAGAAAA
    CTTCAAGAAA CAAAAGAGTT ACAGAAAGCA GGAATTATGT TTCAAATGGA CAATCATTTA
    CCAAACCTTG TTAATCTGAA TGAAGATCCA CAACTATCTG AGATGCTGCT ATATATGATA
    AAAGAAGGAA CAACTACAGT TGGAAAGTAT AAACCAAACT CAAGCCATGA TATTCAGTTA
    TCTGGGGTGC TGATTGCTGA TGATCATTGT ACTATCAAAA ATTTTGGTGG GACAGTGAGT
    ATTATCCCAG TTGGGGAAGC AAAGACATAT GTAAATGGAA AACATATTTT GGAAATCACA
    GTATTACGTC ATGGTGATCG AGTGATTCTT GGTGGAGATC ATTATTTTAG ATTTAATCAT
    CCAGTAGAAG TCCAGAAAGG AAAAAGGCCA TCTGGAAGAG ATACTCCTAT AAGTGAGGGT
    CCAAAAGACT TTGAATTTGC AAAAAATGAG TTGCTCATGG CACAGAGATC ACAACTTGAA
    GCAGAAATAA AAGAGGCTCA GTTGAAGGCA AAGGAAGAAA TGATGCAAGG AATCCAGATT
    GCAAAAGAAA TGGCTCAGCA AGAGCTTTCT TCTCAAAAAG CTGCATATGA AAGCAAAATA
    AAAGCACTGG AAGCAGAACT GAGAGAAGAG TCTCAAAGGA AAAAAATGCA GGAAATAAAT
    AACCAGAAGG CTAATCACAA AATTGAGGAA TTAGAAAAGG CAAAGCAGCA TCTTGAACAG
    GAAATATATG TCAACAAAAA GCGATTAGAA ATGGAAACAT TGGCTACAAA ACAGGCTTTA
    GAAGACCATA GCATCCGCCA TGCAAGAATT CTGGAAGCTT TAGAAACTGA AAAGCAAAAA
    ATTGCTAAAG AAGTACAAAT TCTACAGCAG AATCGGAATA ATAGGGATAA AACTTTTACA
    GTGCAGACAA CTTGGAGCTC TATGAAACTC TCAATGATGA TTCAGGAAGC CAATGCTATC
    AGCAGCAAAT TGAAAACATA CTATGTTTTT GGCAGACATG ATATATCAGA TAAAAGTAGT
    TCTGACACTT CTATTCGGGT TCGTAACCTG AAACTAGGAA TCTCAACATT CTGGAGTCTG
    GAAAAGTTTG AATCTAAACT TGCAGCAATG AAAGAACTTT ATGAGAGTAA TGGTAGTAAC
    AGGGGTGAAG ATGCCTTTTG TGATCCTGAA GATGAATGGG AACCCGACAT TACAGATGCA
    CCAGTTTCTT CACTTTCTAG AAGGAGGAGT AGGAGTTTGA TGAAGAACAG AAGAATTTCT
    GGTTGTTTAC ATGACATACA AGTCCATCCA ATTAAGAATT TGCATTCTTC ACATTCATCA
    GGTTTAATGG ACAAATCAAG CACTATTTAC TCAAATTCAG CAGAGTCCTT TCTTCCTGGA
    ATTTGCAAAG AATTGATTGG TTCTTCGTTA GATTTTTTTG GACAGAGTTA TGATGAAGAA
    AGAACTATAG CAGACAGCCT AATTAATAGT TTTCTTAAAA TTTATAATGG GCTATTTGCC
    ATTTCCAAGG CTCATGAAGA ACAAGATGAA GAAAGTCAAG ATAACTTGTT TTCTTCTGAT
    CGAGCAATCC AGTCACTTAC TATTCAGACT GCATGTGCTT TTGAGCAGCT AGTAGTGCTA
    ATGAAACACT GGCTGAGTGA TTTACTGCCT TGTACCAACA TAGCAAGACT TGAGGATGAG
    TTGAGACAAG AAGTTAAAAA ACTGGGAGGC TACTTACAGT TATTTTTGCA GGGATGCTGT
    TTGGATATTT CATCAATGAT AAAAGAGGCT CAAAAGAATG CAATCCAAAT TGTACAACAA
    GCTGTAAAGT ATGTGGGGCA GTTAGCAGTT CTGAAAGGGA GCAAGCTACA TTTTCTAGAA
    AACGGTAACA ATAAAGCTGC CAGTGTCCAG GAGGAATTCA TGGATGCTGT TTGTGATGGT
    GTAGGCTTAG GAATGAAGAT TTTATTAGAT TCTGGACTGG AAAAAGCAAA AGAACTTCAG
    CATGAACTCT TTAGGCAGTG TACAAAAAAT GAGGTTACCA AAGAAATGAA AACTAATGCC
    ATGGGATTGA TTAGATCTCT TGAAAACATC TTTGCTGAAT CGAAAATTAA AAGTTTCAGA
    AGGCAAGTAC AAGAAGAAAA CTTTGAATAC CAAGATTTCA AGAGGATGGT TAATCGTGCT
    CCAGAATTCT TAAAGTTAAA ACATTGCTTA GAGAAAGCTA TTGAAATTAT TATTTCTGCA
    CTGAAAGGAT GCCATAGTGA TATAAATCTT CTCCAGACTT GTGTTGAAAG TATTCGCAAC
    TTGGCCAGTG ATTTTTACAG TGACTTCAGT GTGCCTTCTA CTTCTGTTGG CAGCTATGAG
    AGTAGAGTAA CTCACATTGT CCACCAGGAA CTAGAATCTC TAGCTAAGTC TCTCCTCTTT
    TGTTTTGAAT CTGAAGAAAG CCCTGATTTG TTGAAACCCT GGGAAACTTA TAATCAAAAT
    ACCAAAGAAG AACACCAACA ATCTAAATCA AGCGGGATTG ACGGCAGTAA GAATAAAGGT
    GTACCAAAGC GTGTCTATGA GCTCCATGGC TCATCCCCAG CAGTGAGCTC AGAGGAATGC
    ACACCCAGTA GGATTCAGTG GGTGTGA

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

    CloneID OHu24430
    Clone ID Related Accession (Same CDS sequence) XM_011510230.1 , XM_011510231.2 , XM_011510232.1 , XM_011510231.1 , XM_011510232.2 , NM_014875.2 , NM_014875.3 , XM_017003005.1
    Accession Version XM_011510231.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4947bp)
    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 2015-03-11
    Organism Homo sapiens(Human)
    Product kinesin-like protein KIF14 isoform X1
    Comment

    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
    ATGTCATTAC ACAGTACTCA TAATAGAAAT AACAGCGGTG ATATTCTTGA TATTCCTTCT 
    TCCCAAAATA GTTCATCACT GAATGCCCTC ACCCACAGTA GCCGACTTAA GCTGCATTTG
    AAGTCGGATA TGTCAGAATG TGAAAATGAT GATCCATTAT TGAGATCTGC AGGTAAAGTC
    AGAGACATAA ATAGAACTTA TGTTATTTCT GCCAGTAGAA AAACAGCAGA CATGCCCCTT
    ACCCCTAATC CTGTAGGTAG ATTGGCACTT CAGAGGAGAA CTACAAGGAA CAAAGAATCA
    TCTTTGCTTG TTAGTGAGTT GGAAGACACA ACTGAAAAAA CAGCAGAAAC ACGTCTTACA
    TTACAACGTC GTGCTAAAAC AGATTCTGCA GAAAAGTGGA AAACAGCTGA AATAGATTCT
    GTCAAAATGA CACTGAATGT GGGAGGTGAA ACAGAAAATA ATGGTGTTTC TAAGGAAAGT
    AGAACAAATG TAAGGATTGT AAATAATGCT AAAAACTCTT TTGTTGCCTC TTCTGTACCT
    TTAGATGAAG ATCCACAGGT CATTGAAATG ATGGCTGATA AGAAATACAA AGAAACATTT
    TCTGCCCCCA GTAGAGCAAA TGAAAATGTT GCACTTAAGT ACTCAAGTAA TAGACCACCC
    ATTGCTTCCC TGAGTCAGAC TGAAGTTGTT AGATCAGGAC ACTTGACAAC GAAACCTACT
    CAGAGCAAGT TGGATATCAA AGTGTTGGGA ACAGGAAACT TGTATCATAG AAGTATTGGG
    AAGGAAATTG CAAAAACTTC AAATAAATTT GGGAGCTTAG AAAAAAGAAC ACCTACAAAA
    TGTACAACAG AACACAAACT GACAACAAAG TGCAGCCTGC CTCAGCTTAA GAGCCCAGCT
    CCATCAATAC TGAAGAATAG AATGTCTAAC CTTCAAGTTA AACAAAGACC AAAAAGTTCC
    TTTCTTGCAA ATAAACAGGA AAGATCCGCA GAAAATACAA TTCTTCCCGA AGAAGAAACT
    GTAGTTCAGA ACACCTCTGC AGGAAAAGAC CCCTTAAAAG TAGAGAATAG TCAAGTGACA
    GTGGCAGTAC GCGTAAGACC TTTCACCAAG AGAGAGAAGA TTGAAAAAGC ATCCCAGGTA
    GTCTTCATGA GTGGGAAAGA AATAACTGTG GAACACCCTG ACACGAAACA AGTTTATAAT
    TTTATTTATG ATGTTTCATT CTGGTCTTTT GATGAATGTC ATCCTCACTA CGCTAGCCAG
    ACAACTGTCT ATGAGAAGCT AGCAGCACCA CTCCTAGAAA GAGCCTTCGA AGGCTTCAAT
    ACCTGTCTTT TTGCTTATGG TCAGACTGGC TCTGGAAAAT CATATACGAT GATGGGATTT
    AGTGAAGAAC CAGGAATAAT TCCAAGATTT TGTGAAGATC TTTTTTCTCA AGTAGCCAGA
    AAACAAACCC AAGAGGTCAG CTATCACATT GAAATGAGCT TCTTTGAAGT ATATAATGAA
    AAAATTCACG ACCTTCTGGT TTGTAAAGAT GAAAATGGGC AGAGAAAGCA ACCACTGAGA
    GTGAGGGAAC ATCCTGTTTA TGGACCATAT GTTGAAGCAC TGTCAATGAA CATTGTCAGT
    TCTTACGCTG ATATCCAGAG TTGGCTAGAA TTGGGAAATA AACAAAGAGC TACTGCTGCT
    ACTGGTATGA ATGATAAAAG TTCCCGATCT CATTCAGTTT TCACCCTGGT GATGACCCAG
    ACCAAGACAG AATTTGTGGA AGGGGAAGAA CACGATCACA GAATAACAAG TCGAATTAAC
    CTAATAGATC TGGCAGGCAG TGAGCGCTGC TCTACGGCTC ACACTAATGG AGATCGACTA
    AAGGAAGGTG TGAGTATTAA TAAGTCCTTG CTAACTTTGG GAAAAGTTAT ATCTGCACTT
    TCGGAACAAG CAAACCAAAG GAGTGTTTTT ATTCCTTATC GTGAATCTGT TCTTACATGG
    CTGTTAAAAG AAAGTCTGGG TGGAAATTCA AAAACTGCAA TGATTGCTAC GATTAGTCCC
    GCTGCCAGCA ACATAGAAGA AACATTAAGC ACACTTAGAT ATGCTAACCA AGCCCGTTTA
    ATAGTCAACA TTGCTAAAGT AAATGAAGAT ATGAACGCTA AGTTAATTAG AGAATTGAAG
    GCAGAAATTG CAAAGCTAAA AGCTGCTCAG AGAAACAGTC GGAATATTGA CCCTGAACGA
    TACAGGCTCT GTCGGCAAGA AATAACATCC TTAAGAATGA AACTGCATCA ACAGGAGAGA
    GACATGGCAG AAATGCAAAG AGTGTGGAAA GAAAAGTTTG AACAAGCTGA AAAAAGAAAA
    CTTCAAGAAA CAAAAGAGTT ACAGAAAGCA GGAATTATGT TTCAAATGGA CAATCATTTA
    CCAAACCTTG TTAATCTGAA TGAAGATCCA CAACTATCTG AGATGCTGCT ATATATGATA
    AAAGAAGGAA CAACTACAGT TGGAAAGTAT AAACCAAACT CAAGCCATGA TATTCAGTTA
    TCTGGGGTGC TGATTGCTGA TGATCATTGT ACTATCAAAA ATTTTGGTGG GACAGTGAGT
    ATTATCCCAG TTGGGGAAGC AAAGACATAT GTAAATGGAA AACATATTTT GGAAATCACA
    GTATTACGTC ATGGTGATCG AGTGATTCTT GGTGGAGATC ATTATTTTAG ATTTAATCAT
    CCAGTAGAAG TCCAGAAAGG AAAAAGGCCA TCTGGAAGAG ATACTCCTAT AAGTGAGGGT
    CCAAAAGACT TTGAATTTGC AAAAAATGAG TTGCTCATGG CACAGAGATC ACAACTTGAA
    GCAGAAATAA AAGAGGCTCA GTTGAAGGCA AAGGAAGAAA TGATGCAAGG AATCCAGATT
    GCAAAAGAAA TGGCTCAGCA AGAGCTTTCT TCTCAAAAAG CTGCATATGA AAGCAAAATA
    AAAGCACTGG AAGCAGAACT GAGAGAAGAG TCTCAAAGGA AAAAAATGCA GGAAATAAAT
    AACCAGAAGG CTAATCACAA AATTGAGGAA TTAGAAAAGG CAAAGCAGCA TCTTGAACAG
    GAAATATATG TCAACAAAAA GCGATTAGAA ATGGAAACAT TGGCTACAAA ACAGGCTTTA
    GAAGACCATA GCATCCGCCA TGCAAGAATT CTGGAAGCTT TAGAAACTGA AAAGCAAAAA
    ATTGCTAAAG AAGTACAAAT TCTACAGCAG AATCGGAATA ATAGGGATAA AACTTTTACA
    GTGCAGACAA CTTGGAGCTC TATGAAACTC TCAATGATGA TTCAGGAAGC CAATGCTATC
    AGCAGCAAAT TGAAAACATA CTATGTTTTT GGCAGACATG ATATATCAGA TAAAAGTAGT
    TCTGACACTT CTATTCGGGT TCGTAACCTG AAACTAGGAA TCTCAACATT CTGGAGTCTG
    GAAAAGTTTG AATCTAAACT TGCAGCAATG AAAGAACTTT ATGAGAGTAA TGGTAGTAAC
    AGGGGTGAAG ATGCCTTTTG TGATCCTGAA GATGAATGGG AACCCGACAT TACAGATGCA
    CCAGTTTCTT CACTTTCTAG AAGGAGGAGT AGGAGTTTGA TGAAGAACAG AAGAATTTCT
    GGTTGTTTAC ATGACATACA AGTCCATCCA ATTAAGAATT TGCATTCTTC ACATTCATCA
    GGTTTAATGG ACAAATCAAG CACTATTTAC TCAAATTCAG CAGAGTCCTT TCTTCCTGGA
    ATTTGCAAAG AATTGATTGG TTCTTCGTTA GATTTTTTTG GACAGAGTTA TGATGAAGAA
    AGAACTATAG CAGACAGCCT AATTAATAGT TTTCTTAAAA TTTATAATGG GCTATTTGCC
    ATTTCCAAGG CTCATGAAGA ACAAGATGAA GAAAGTCAAG ATAACTTGTT TTCTTCTGAT
    CGAGCAATCC AGTCACTTAC TATTCAGACT GCATGTGCTT TTGAGCAGCT AGTAGTGCTA
    ATGAAACACT GGCTGAGTGA TTTACTGCCT TGTACCAACA TAGCAAGACT TGAGGATGAG
    TTGAGACAAG AAGTTAAAAA ACTGGGAGGC TACTTACAGT TATTTTTGCA GGGATGCTGT
    TTGGATATTT CATCAATGAT AAAAGAGGCT CAAAAGAATG CAATCCAAAT TGTACAACAA
    GCTGTAAAGT ATGTGGGGCA GTTAGCAGTT CTGAAAGGGA GCAAGCTACA TTTTCTAGAA
    AACGGTAACA ATAAAGCTGC CAGTGTCCAG GAGGAATTCA TGGATGCTGT TTGTGATGGT
    GTAGGCTTAG GAATGAAGAT TTTATTAGAT TCTGGACTGG AAAAAGCAAA AGAACTTCAG
    CATGAACTCT TTAGGCAGTG TACAAAAAAT GAGGTTACCA AAGAAATGAA AACTAATGCC
    ATGGGATTGA TTAGATCTCT TGAAAACATC TTTGCTGAAT CGAAAATTAA AAGTTTCAGA
    AGGCAAGTAC AAGAAGAAAA CTTTGAATAC CAAGATTTCA AGAGGATGGT TAATCGTGCT
    CCAGAATTCT TAAAGTTAAA ACATTGCTTA GAGAAAGCTA TTGAAATTAT TATTTCTGCA
    CTGAAAGGAT GCCATAGTGA TATAAATCTT CTCCAGACTT GTGTTGAAAG TATTCGCAAC
    TTGGCCAGTG ATTTTTACAG TGACTTCAGT GTGCCTTCTA CTTCTGTTGG CAGCTATGAG
    AGTAGAGTAA CTCACATTGT CCACCAGGAA CTAGAATCTC TAGCTAAGTC TCTCCTCTTT
    TGTTTTGAAT CTGAAGAAAG CCCTGATTTG TTGAAACCCT GGGAAACTTA TAATCAAAAT
    ACCAAAGAAG AACACCAACA ATCTAAATCA AGCGGGATTG ACGGCAGTAA GAATAAAGGT
    GTACCAAAGC GTGTCTATGA GCTCCATGGC TCATCCCCAG CAGTGAGCTC AGAGGAATGC
    ACACCCAGTA GGATTCAGTG GGTGTGA

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

    RefSeq XP_011508533.1
    Translation

    Target ORF information:

    RefSeq Version XM_011510231.1
    Organism Homo sapiens(Human)
    Definition Homo sapiens kinesin family member 14 (KIF14), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011510231.1

    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
    ATGTCATTAC ACAGTACTCA TAATAGAAAT AACAGCGGTG ATATTCTTGA TATTCCTTCT 
    TCCCAAAATA GTTCATCACT GAATGCCCTC ACCCACAGTA GCCGACTTAA GCTGCATTTG
    AAGTCGGATA TGTCAGAATG TGAAAATGAT GATCCATTAT TGAGATCTGC AGGTAAAGTC
    AGAGACATAA ATAGAACTTA TGTTATTTCT GCCAGTAGAA AAACAGCAGA CATGCCCCTT
    ACCCCTAATC CTGTAGGTAG ATTGGCACTT CAGAGGAGAA CTACAAGGAA CAAAGAATCA
    TCTTTGCTTG TTAGTGAGTT GGAAGACACA ACTGAAAAAA CAGCAGAAAC ACGTCTTACA
    TTACAACGTC GTGCTAAAAC AGATTCTGCA GAAAAGTGGA AAACAGCTGA AATAGATTCT
    GTCAAAATGA CACTGAATGT GGGAGGTGAA ACAGAAAATA ATGGTGTTTC TAAGGAAAGT
    AGAACAAATG TAAGGATTGT AAATAATGCT AAAAACTCTT TTGTTGCCTC TTCTGTACCT
    TTAGATGAAG ATCCACAGGT CATTGAAATG ATGGCTGATA AGAAATACAA AGAAACATTT
    TCTGCCCCCA GTAGAGCAAA TGAAAATGTT GCACTTAAGT ACTCAAGTAA TAGACCACCC
    ATTGCTTCCC TGAGTCAGAC TGAAGTTGTT AGATCAGGAC ACTTGACAAC GAAACCTACT
    CAGAGCAAGT TGGATATCAA AGTGTTGGGA ACAGGAAACT TGTATCATAG AAGTATTGGG
    AAGGAAATTG CAAAAACTTC AAATAAATTT GGGAGCTTAG AAAAAAGAAC ACCTACAAAA
    TGTACAACAG AACACAAACT GACAACAAAG TGCAGCCTGC CTCAGCTTAA GAGCCCAGCT
    CCATCAATAC TGAAGAATAG AATGTCTAAC CTTCAAGTTA AACAAAGACC AAAAAGTTCC
    TTTCTTGCAA ATAAACAGGA AAGATCCGCA GAAAATACAA TTCTTCCCGA AGAAGAAACT
    GTAGTTCAGA ACACCTCTGC AGGAAAAGAC CCCTTAAAAG TAGAGAATAG TCAAGTGACA
    GTGGCAGTAC GCGTAAGACC TTTCACCAAG AGAGAGAAGA TTGAAAAAGC ATCCCAGGTA
    GTCTTCATGA GTGGGAAAGA AATAACTGTG GAACACCCTG ACACGAAACA AGTTTATAAT
    TTTATTTATG ATGTTTCATT CTGGTCTTTT GATGAATGTC ATCCTCACTA CGCTAGCCAG
    ACAACTGTCT ATGAGAAGCT AGCAGCACCA CTCCTAGAAA GAGCCTTCGA AGGCTTCAAT
    ACCTGTCTTT TTGCTTATGG TCAGACTGGC TCTGGAAAAT CATATACGAT GATGGGATTT
    AGTGAAGAAC CAGGAATAAT TCCAAGATTT TGTGAAGATC TTTTTTCTCA AGTAGCCAGA
    AAACAAACCC AAGAGGTCAG CTATCACATT GAAATGAGCT TCTTTGAAGT ATATAATGAA
    AAAATTCACG ACCTTCTGGT TTGTAAAGAT GAAAATGGGC AGAGAAAGCA ACCACTGAGA
    GTGAGGGAAC ATCCTGTTTA TGGACCATAT GTTGAAGCAC TGTCAATGAA CATTGTCAGT
    TCTTACGCTG ATATCCAGAG TTGGCTAGAA TTGGGAAATA AACAAAGAGC TACTGCTGCT
    ACTGGTATGA ATGATAAAAG TTCCCGATCT CATTCAGTTT TCACCCTGGT GATGACCCAG
    ACCAAGACAG AATTTGTGGA AGGGGAAGAA CACGATCACA GAATAACAAG TCGAATTAAC
    CTAATAGATC TGGCAGGCAG TGAGCGCTGC TCTACGGCTC ACACTAATGG AGATCGACTA
    AAGGAAGGTG TGAGTATTAA TAAGTCCTTG CTAACTTTGG GAAAAGTTAT ATCTGCACTT
    TCGGAACAAG CAAACCAAAG GAGTGTTTTT ATTCCTTATC GTGAATCTGT TCTTACATGG
    CTGTTAAAAG AAAGTCTGGG TGGAAATTCA AAAACTGCAA TGATTGCTAC GATTAGTCCC
    GCTGCCAGCA ACATAGAAGA AACATTAAGC ACACTTAGAT ATGCTAACCA AGCCCGTTTA
    ATAGTCAACA TTGCTAAAGT AAATGAAGAT ATGAACGCTA AGTTAATTAG AGAATTGAAG
    GCAGAAATTG CAAAGCTAAA AGCTGCTCAG AGAAACAGTC GGAATATTGA CCCTGAACGA
    TACAGGCTCT GTCGGCAAGA AATAACATCC TTAAGAATGA AACTGCATCA ACAGGAGAGA
    GACATGGCAG AAATGCAAAG AGTGTGGAAA GAAAAGTTTG AACAAGCTGA AAAAAGAAAA
    CTTCAAGAAA CAAAAGAGTT ACAGAAAGCA GGAATTATGT TTCAAATGGA CAATCATTTA
    CCAAACCTTG TTAATCTGAA TGAAGATCCA CAACTATCTG AGATGCTGCT ATATATGATA
    AAAGAAGGAA CAACTACAGT TGGAAAGTAT AAACCAAACT CAAGCCATGA TATTCAGTTA
    TCTGGGGTGC TGATTGCTGA TGATCATTGT ACTATCAAAA ATTTTGGTGG GACAGTGAGT
    ATTATCCCAG TTGGGGAAGC AAAGACATAT GTAAATGGAA AACATATTTT GGAAATCACA
    GTATTACGTC ATGGTGATCG AGTGATTCTT GGTGGAGATC ATTATTTTAG ATTTAATCAT
    CCAGTAGAAG TCCAGAAAGG AAAAAGGCCA TCTGGAAGAG ATACTCCTAT AAGTGAGGGT
    CCAAAAGACT TTGAATTTGC AAAAAATGAG TTGCTCATGG CACAGAGATC ACAACTTGAA
    GCAGAAATAA AAGAGGCTCA GTTGAAGGCA AAGGAAGAAA TGATGCAAGG AATCCAGATT
    GCAAAAGAAA TGGCTCAGCA AGAGCTTTCT TCTCAAAAAG CTGCATATGA AAGCAAAATA
    AAAGCACTGG AAGCAGAACT GAGAGAAGAG TCTCAAAGGA AAAAAATGCA GGAAATAAAT
    AACCAGAAGG CTAATCACAA AATTGAGGAA TTAGAAAAGG CAAAGCAGCA TCTTGAACAG
    GAAATATATG TCAACAAAAA GCGATTAGAA ATGGAAACAT TGGCTACAAA ACAGGCTTTA
    GAAGACCATA GCATCCGCCA TGCAAGAATT CTGGAAGCTT TAGAAACTGA AAAGCAAAAA
    ATTGCTAAAG AAGTACAAAT TCTACAGCAG AATCGGAATA ATAGGGATAA AACTTTTACA
    GTGCAGACAA CTTGGAGCTC TATGAAACTC TCAATGATGA TTCAGGAAGC CAATGCTATC
    AGCAGCAAAT TGAAAACATA CTATGTTTTT GGCAGACATG ATATATCAGA TAAAAGTAGT
    TCTGACACTT CTATTCGGGT TCGTAACCTG AAACTAGGAA TCTCAACATT CTGGAGTCTG
    GAAAAGTTTG AATCTAAACT TGCAGCAATG AAAGAACTTT ATGAGAGTAA TGGTAGTAAC
    AGGGGTGAAG ATGCCTTTTG TGATCCTGAA GATGAATGGG AACCCGACAT TACAGATGCA
    CCAGTTTCTT CACTTTCTAG AAGGAGGAGT AGGAGTTTGA TGAAGAACAG AAGAATTTCT
    GGTTGTTTAC ATGACATACA AGTCCATCCA ATTAAGAATT TGCATTCTTC ACATTCATCA
    GGTTTAATGG ACAAATCAAG CACTATTTAC TCAAATTCAG CAGAGTCCTT TCTTCCTGGA
    ATTTGCAAAG AATTGATTGG TTCTTCGTTA GATTTTTTTG GACAGAGTTA TGATGAAGAA
    AGAACTATAG CAGACAGCCT AATTAATAGT TTTCTTAAAA TTTATAATGG GCTATTTGCC
    ATTTCCAAGG CTCATGAAGA ACAAGATGAA GAAAGTCAAG ATAACTTGTT TTCTTCTGAT
    CGAGCAATCC AGTCACTTAC TATTCAGACT GCATGTGCTT TTGAGCAGCT AGTAGTGCTA
    ATGAAACACT GGCTGAGTGA TTTACTGCCT TGTACCAACA TAGCAAGACT TGAGGATGAG
    TTGAGACAAG AAGTTAAAAA ACTGGGAGGC TACTTACAGT TATTTTTGCA GGGATGCTGT
    TTGGATATTT CATCAATGAT AAAAGAGGCT CAAAAGAATG CAATCCAAAT TGTACAACAA
    GCTGTAAAGT ATGTGGGGCA GTTAGCAGTT CTGAAAGGGA GCAAGCTACA TTTTCTAGAA
    AACGGTAACA ATAAAGCTGC CAGTGTCCAG GAGGAATTCA TGGATGCTGT TTGTGATGGT
    GTAGGCTTAG GAATGAAGAT TTTATTAGAT TCTGGACTGG AAAAAGCAAA AGAACTTCAG
    CATGAACTCT TTAGGCAGTG TACAAAAAAT GAGGTTACCA AAGAAATGAA AACTAATGCC
    ATGGGATTGA TTAGATCTCT TGAAAACATC TTTGCTGAAT CGAAAATTAA AAGTTTCAGA
    AGGCAAGTAC AAGAAGAAAA CTTTGAATAC CAAGATTTCA AGAGGATGGT TAATCGTGCT
    CCAGAATTCT TAAAGTTAAA ACATTGCTTA GAGAAAGCTA TTGAAATTAT TATTTCTGCA
    CTGAAAGGAT GCCATAGTGA TATAAATCTT CTCCAGACTT GTGTTGAAAG TATTCGCAAC
    TTGGCCAGTG ATTTTTACAG TGACTTCAGT GTGCCTTCTA CTTCTGTTGG CAGCTATGAG
    AGTAGAGTAA CTCACATTGT CCACCAGGAA CTAGAATCTC TAGCTAAGTC TCTCCTCTTT
    TGTTTTGAAT CTGAAGAAAG CCCTGATTTG TTGAAACCCT GGGAAACTTA TAATCAAAAT
    ACCAAAGAAG AACACCAACA ATCTAAATCA AGCGGGATTG ACGGCAGTAA GAATAAAGGT
    GTACCAAAGC GTGTCTATGA GCTCCATGGC TCATCCCCAG CAGTGAGCTC AGAGGAATGC
    ACACCCAGTA GGATTCAGTG GGTGTGA

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

    CloneID OHu24430
    Clone ID Related Accession (Same CDS sequence) XM_011510230.1 , XM_011510231.2 , XM_011510232.1 , XM_011510231.1 , XM_011510232.2 , NM_014875.2 , NM_014875.3 , XM_017003005.1
    Accession Version XM_011510232.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4947bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product kinesin-like protein KIF14 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011510232.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGTCATTAC ACAGTACTCA TAATAGAAAT AACAGCGGTG ATATTCTTGA TATTCCTTCT 
    TCCCAAAATA GTTCATCACT GAATGCCCTC ACCCACAGTA GCCGACTTAA GCTGCATTTG
    AAGTCGGATA TGTCAGAATG TGAAAATGAT GATCCATTAT TGAGATCTGC AGGTAAAGTC
    AGAGACATAA ATAGAACTTA TGTTATTTCT GCCAGTAGAA AAACAGCAGA CATGCCCCTT
    ACCCCTAATC CTGTAGGTAG ATTGGCACTT CAGAGGAGAA CTACAAGGAA CAAAGAATCA
    TCTTTGCTTG TTAGTGAGTT GGAAGACACA ACTGAAAAAA CAGCAGAAAC ACGTCTTACA
    TTACAACGTC GTGCTAAAAC AGATTCTGCA GAAAAGTGGA AAACAGCTGA AATAGATTCT
    GTCAAAATGA CACTGAATGT GGGAGGTGAA ACAGAAAATA ATGGTGTTTC TAAGGAAAGT
    AGAACAAATG TAAGGATTGT AAATAATGCT AAAAACTCTT TTGTTGCCTC TTCTGTACCT
    TTAGATGAAG ATCCACAGGT CATTGAAATG ATGGCTGATA AGAAATACAA AGAAACATTT
    TCTGCCCCCA GTAGAGCAAA TGAAAATGTT GCACTTAAGT ACTCAAGTAA TAGACCACCC
    ATTGCTTCCC TGAGTCAGAC TGAAGTTGTT AGATCAGGAC ACTTGACAAC GAAACCTACT
    CAGAGCAAGT TGGATATCAA AGTGTTGGGA ACAGGAAACT TGTATCATAG AAGTATTGGG
    AAGGAAATTG CAAAAACTTC AAATAAATTT GGGAGCTTAG AAAAAAGAAC ACCTACAAAA
    TGTACAACAG AACACAAACT GACAACAAAG TGCAGCCTGC CTCAGCTTAA GAGCCCAGCT
    CCATCAATAC TGAAGAATAG AATGTCTAAC CTTCAAGTTA AACAAAGACC AAAAAGTTCC
    TTTCTTGCAA ATAAACAGGA AAGATCCGCA GAAAATACAA TTCTTCCCGA AGAAGAAACT
    GTAGTTCAGA ACACCTCTGC AGGAAAAGAC CCCTTAAAAG TAGAGAATAG TCAAGTGACA
    GTGGCAGTAC GCGTAAGACC TTTCACCAAG AGAGAGAAGA TTGAAAAAGC ATCCCAGGTA
    GTCTTCATGA GTGGGAAAGA AATAACTGTG GAACACCCTG ACACGAAACA AGTTTATAAT
    TTTATTTATG ATGTTTCATT CTGGTCTTTT GATGAATGTC ATCCTCACTA CGCTAGCCAG
    ACAACTGTCT ATGAGAAGCT AGCAGCACCA CTCCTAGAAA GAGCCTTCGA AGGCTTCAAT
    ACCTGTCTTT TTGCTTATGG TCAGACTGGC TCTGGAAAAT CATATACGAT GATGGGATTT
    AGTGAAGAAC CAGGAATAAT TCCAAGATTT TGTGAAGATC TTTTTTCTCA AGTAGCCAGA
    AAACAAACCC AAGAGGTCAG CTATCACATT GAAATGAGCT TCTTTGAAGT ATATAATGAA
    AAAATTCACG ACCTTCTGGT TTGTAAAGAT GAAAATGGGC AGAGAAAGCA ACCACTGAGA
    GTGAGGGAAC ATCCTGTTTA TGGACCATAT GTTGAAGCAC TGTCAATGAA CATTGTCAGT
    TCTTACGCTG ATATCCAGAG TTGGCTAGAA TTGGGAAATA AACAAAGAGC TACTGCTGCT
    ACTGGTATGA ATGATAAAAG TTCCCGATCT CATTCAGTTT TCACCCTGGT GATGACCCAG
    ACCAAGACAG AATTTGTGGA AGGGGAAGAA CACGATCACA GAATAACAAG TCGAATTAAC
    CTAATAGATC TGGCAGGCAG TGAGCGCTGC TCTACGGCTC ACACTAATGG AGATCGACTA
    AAGGAAGGTG TGAGTATTAA TAAGTCCTTG CTAACTTTGG GAAAAGTTAT ATCTGCACTT
    TCGGAACAAG CAAACCAAAG GAGTGTTTTT ATTCCTTATC GTGAATCTGT TCTTACATGG
    CTGTTAAAAG AAAGTCTGGG TGGAAATTCA AAAACTGCAA TGATTGCTAC GATTAGTCCC
    GCTGCCAGCA ACATAGAAGA AACATTAAGC ACACTTAGAT ATGCTAACCA AGCCCGTTTA
    ATAGTCAACA TTGCTAAAGT AAATGAAGAT ATGAACGCTA AGTTAATTAG AGAATTGAAG
    GCAGAAATTG CAAAGCTAAA AGCTGCTCAG AGAAACAGTC GGAATATTGA CCCTGAACGA
    TACAGGCTCT GTCGGCAAGA AATAACATCC TTAAGAATGA AACTGCATCA ACAGGAGAGA
    GACATGGCAG AAATGCAAAG AGTGTGGAAA GAAAAGTTTG AACAAGCTGA AAAAAGAAAA
    CTTCAAGAAA CAAAAGAGTT ACAGAAAGCA GGAATTATGT TTCAAATGGA CAATCATTTA
    CCAAACCTTG TTAATCTGAA TGAAGATCCA CAACTATCTG AGATGCTGCT ATATATGATA
    AAAGAAGGAA CAACTACAGT TGGAAAGTAT AAACCAAACT CAAGCCATGA TATTCAGTTA
    TCTGGGGTGC TGATTGCTGA TGATCATTGT ACTATCAAAA ATTTTGGTGG GACAGTGAGT
    ATTATCCCAG TTGGGGAAGC AAAGACATAT GTAAATGGAA AACATATTTT GGAAATCACA
    GTATTACGTC ATGGTGATCG AGTGATTCTT GGTGGAGATC ATTATTTTAG ATTTAATCAT
    CCAGTAGAAG TCCAGAAAGG AAAAAGGCCA TCTGGAAGAG ATACTCCTAT AAGTGAGGGT
    CCAAAAGACT TTGAATTTGC AAAAAATGAG TTGCTCATGG CACAGAGATC ACAACTTGAA
    GCAGAAATAA AAGAGGCTCA GTTGAAGGCA AAGGAAGAAA TGATGCAAGG AATCCAGATT
    GCAAAAGAAA TGGCTCAGCA AGAGCTTTCT TCTCAAAAAG CTGCATATGA AAGCAAAATA
    AAAGCACTGG AAGCAGAACT GAGAGAAGAG TCTCAAAGGA AAAAAATGCA GGAAATAAAT
    AACCAGAAGG CTAATCACAA AATTGAGGAA TTAGAAAAGG CAAAGCAGCA TCTTGAACAG
    GAAATATATG TCAACAAAAA GCGATTAGAA ATGGAAACAT TGGCTACAAA ACAGGCTTTA
    GAAGACCATA GCATCCGCCA TGCAAGAATT CTGGAAGCTT TAGAAACTGA AAAGCAAAAA
    ATTGCTAAAG AAGTACAAAT TCTACAGCAG AATCGGAATA ATAGGGATAA AACTTTTACA
    GTGCAGACAA CTTGGAGCTC TATGAAACTC TCAATGATGA TTCAGGAAGC CAATGCTATC
    AGCAGCAAAT TGAAAACATA CTATGTTTTT GGCAGACATG ATATATCAGA TAAAAGTAGT
    TCTGACACTT CTATTCGGGT TCGTAACCTG AAACTAGGAA TCTCAACATT CTGGAGTCTG
    GAAAAGTTTG AATCTAAACT TGCAGCAATG AAAGAACTTT ATGAGAGTAA TGGTAGTAAC
    AGGGGTGAAG ATGCCTTTTG TGATCCTGAA GATGAATGGG AACCCGACAT TACAGATGCA
    CCAGTTTCTT CACTTTCTAG AAGGAGGAGT AGGAGTTTGA TGAAGAACAG AAGAATTTCT
    GGTTGTTTAC ATGACATACA AGTCCATCCA ATTAAGAATT TGCATTCTTC ACATTCATCA
    GGTTTAATGG ACAAATCAAG CACTATTTAC TCAAATTCAG CAGAGTCCTT TCTTCCTGGA
    ATTTGCAAAG AATTGATTGG TTCTTCGTTA GATTTTTTTG GACAGAGTTA TGATGAAGAA
    AGAACTATAG CAGACAGCCT AATTAATAGT TTTCTTAAAA TTTATAATGG GCTATTTGCC
    ATTTCCAAGG CTCATGAAGA ACAAGATGAA GAAAGTCAAG ATAACTTGTT TTCTTCTGAT
    CGAGCAATCC AGTCACTTAC TATTCAGACT GCATGTGCTT TTGAGCAGCT AGTAGTGCTA
    ATGAAACACT GGCTGAGTGA TTTACTGCCT TGTACCAACA TAGCAAGACT TGAGGATGAG
    TTGAGACAAG AAGTTAAAAA ACTGGGAGGC TACTTACAGT TATTTTTGCA GGGATGCTGT
    TTGGATATTT CATCAATGAT AAAAGAGGCT CAAAAGAATG CAATCCAAAT TGTACAACAA
    GCTGTAAAGT ATGTGGGGCA GTTAGCAGTT CTGAAAGGGA GCAAGCTACA TTTTCTAGAA
    AACGGTAACA ATAAAGCTGC CAGTGTCCAG GAGGAATTCA TGGATGCTGT TTGTGATGGT
    GTAGGCTTAG GAATGAAGAT TTTATTAGAT TCTGGACTGG AAAAAGCAAA AGAACTTCAG
    CATGAACTCT TTAGGCAGTG TACAAAAAAT GAGGTTACCA AAGAAATGAA AACTAATGCC
    ATGGGATTGA TTAGATCTCT TGAAAACATC TTTGCTGAAT CGAAAATTAA AAGTTTCAGA
    AGGCAAGTAC AAGAAGAAAA CTTTGAATAC CAAGATTTCA AGAGGATGGT TAATCGTGCT
    CCAGAATTCT TAAAGTTAAA ACATTGCTTA GAGAAAGCTA TTGAAATTAT TATTTCTGCA
    CTGAAAGGAT GCCATAGTGA TATAAATCTT CTCCAGACTT GTGTTGAAAG TATTCGCAAC
    TTGGCCAGTG ATTTTTACAG TGACTTCAGT GTGCCTTCTA CTTCTGTTGG CAGCTATGAG
    AGTAGAGTAA CTCACATTGT CCACCAGGAA CTAGAATCTC TAGCTAAGTC TCTCCTCTTT
    TGTTTTGAAT CTGAAGAAAG CCCTGATTTG TTGAAACCCT GGGAAACTTA TAATCAAAAT
    ACCAAAGAAG AACACCAACA ATCTAAATCA AGCGGGATTG ACGGCAGTAA GAATAAAGGT
    GTACCAAAGC GTGTCTATGA GCTCCATGGC TCATCCCCAG CAGTGAGCTC AGAGGAATGC
    ACACCCAGTA GGATTCAGTG GGTGTGA

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

    RefSeq XP_011508534.1
    CDS196..5142
    Translation

    Target ORF information:

    RefSeq Version XM_011510232.2
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 14 (KIF14), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011510232.2

    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
    ATGTCATTAC ACAGTACTCA TAATAGAAAT AACAGCGGTG ATATTCTTGA TATTCCTTCT 
    TCCCAAAATA GTTCATCACT GAATGCCCTC ACCCACAGTA GCCGACTTAA GCTGCATTTG
    AAGTCGGATA TGTCAGAATG TGAAAATGAT GATCCATTAT TGAGATCTGC AGGTAAAGTC
    AGAGACATAA ATAGAACTTA TGTTATTTCT GCCAGTAGAA AAACAGCAGA CATGCCCCTT
    ACCCCTAATC CTGTAGGTAG ATTGGCACTT CAGAGGAGAA CTACAAGGAA CAAAGAATCA
    TCTTTGCTTG TTAGTGAGTT GGAAGACACA ACTGAAAAAA CAGCAGAAAC ACGTCTTACA
    TTACAACGTC GTGCTAAAAC AGATTCTGCA GAAAAGTGGA AAACAGCTGA AATAGATTCT
    GTCAAAATGA CACTGAATGT GGGAGGTGAA ACAGAAAATA ATGGTGTTTC TAAGGAAAGT
    AGAACAAATG TAAGGATTGT AAATAATGCT AAAAACTCTT TTGTTGCCTC TTCTGTACCT
    TTAGATGAAG ATCCACAGGT CATTGAAATG ATGGCTGATA AGAAATACAA AGAAACATTT
    TCTGCCCCCA GTAGAGCAAA TGAAAATGTT GCACTTAAGT ACTCAAGTAA TAGACCACCC
    ATTGCTTCCC TGAGTCAGAC TGAAGTTGTT AGATCAGGAC ACTTGACAAC GAAACCTACT
    CAGAGCAAGT TGGATATCAA AGTGTTGGGA ACAGGAAACT TGTATCATAG AAGTATTGGG
    AAGGAAATTG CAAAAACTTC AAATAAATTT GGGAGCTTAG AAAAAAGAAC ACCTACAAAA
    TGTACAACAG AACACAAACT GACAACAAAG TGCAGCCTGC CTCAGCTTAA GAGCCCAGCT
    CCATCAATAC TGAAGAATAG AATGTCTAAC CTTCAAGTTA AACAAAGACC AAAAAGTTCC
    TTTCTTGCAA ATAAACAGGA AAGATCCGCA GAAAATACAA TTCTTCCCGA AGAAGAAACT
    GTAGTTCAGA ACACCTCTGC AGGAAAAGAC CCCTTAAAAG TAGAGAATAG TCAAGTGACA
    GTGGCAGTAC GCGTAAGACC TTTCACCAAG AGAGAGAAGA TTGAAAAAGC ATCCCAGGTA
    GTCTTCATGA GTGGGAAAGA AATAACTGTG GAACACCCTG ACACGAAACA AGTTTATAAT
    TTTATTTATG ATGTTTCATT CTGGTCTTTT GATGAATGTC ATCCTCACTA CGCTAGCCAG
    ACAACTGTCT ATGAGAAGCT AGCAGCACCA CTCCTAGAAA GAGCCTTCGA AGGCTTCAAT
    ACCTGTCTTT TTGCTTATGG TCAGACTGGC TCTGGAAAAT CATATACGAT GATGGGATTT
    AGTGAAGAAC CAGGAATAAT TCCAAGATTT TGTGAAGATC TTTTTTCTCA AGTAGCCAGA
    AAACAAACCC AAGAGGTCAG CTATCACATT GAAATGAGCT TCTTTGAAGT ATATAATGAA
    AAAATTCACG ACCTTCTGGT TTGTAAAGAT GAAAATGGGC AGAGAAAGCA ACCACTGAGA
    GTGAGGGAAC ATCCTGTTTA TGGACCATAT GTTGAAGCAC TGTCAATGAA CATTGTCAGT
    TCTTACGCTG ATATCCAGAG TTGGCTAGAA TTGGGAAATA AACAAAGAGC TACTGCTGCT
    ACTGGTATGA ATGATAAAAG TTCCCGATCT CATTCAGTTT TCACCCTGGT GATGACCCAG
    ACCAAGACAG AATTTGTGGA AGGGGAAGAA CACGATCACA GAATAACAAG TCGAATTAAC
    CTAATAGATC TGGCAGGCAG TGAGCGCTGC TCTACGGCTC ACACTAATGG AGATCGACTA
    AAGGAAGGTG TGAGTATTAA TAAGTCCTTG CTAACTTTGG GAAAAGTTAT ATCTGCACTT
    TCGGAACAAG CAAACCAAAG GAGTGTTTTT ATTCCTTATC GTGAATCTGT TCTTACATGG
    CTGTTAAAAG AAAGTCTGGG TGGAAATTCA AAAACTGCAA TGATTGCTAC GATTAGTCCC
    GCTGCCAGCA ACATAGAAGA AACATTAAGC ACACTTAGAT ATGCTAACCA AGCCCGTTTA
    ATAGTCAACA TTGCTAAAGT AAATGAAGAT ATGAACGCTA AGTTAATTAG AGAATTGAAG
    GCAGAAATTG CAAAGCTAAA AGCTGCTCAG AGAAACAGTC GGAATATTGA CCCTGAACGA
    TACAGGCTCT GTCGGCAAGA AATAACATCC TTAAGAATGA AACTGCATCA ACAGGAGAGA
    GACATGGCAG AAATGCAAAG AGTGTGGAAA GAAAAGTTTG AACAAGCTGA AAAAAGAAAA
    CTTCAAGAAA CAAAAGAGTT ACAGAAAGCA GGAATTATGT TTCAAATGGA CAATCATTTA
    CCAAACCTTG TTAATCTGAA TGAAGATCCA CAACTATCTG AGATGCTGCT ATATATGATA
    AAAGAAGGAA CAACTACAGT TGGAAAGTAT AAACCAAACT CAAGCCATGA TATTCAGTTA
    TCTGGGGTGC TGATTGCTGA TGATCATTGT ACTATCAAAA ATTTTGGTGG GACAGTGAGT
    ATTATCCCAG TTGGGGAAGC AAAGACATAT GTAAATGGAA AACATATTTT GGAAATCACA
    GTATTACGTC ATGGTGATCG AGTGATTCTT GGTGGAGATC ATTATTTTAG ATTTAATCAT
    CCAGTAGAAG TCCAGAAAGG AAAAAGGCCA TCTGGAAGAG ATACTCCTAT AAGTGAGGGT
    CCAAAAGACT TTGAATTTGC AAAAAATGAG TTGCTCATGG CACAGAGATC ACAACTTGAA
    GCAGAAATAA AAGAGGCTCA GTTGAAGGCA AAGGAAGAAA TGATGCAAGG AATCCAGATT
    GCAAAAGAAA TGGCTCAGCA AGAGCTTTCT TCTCAAAAAG CTGCATATGA AAGCAAAATA
    AAAGCACTGG AAGCAGAACT GAGAGAAGAG TCTCAAAGGA AAAAAATGCA GGAAATAAAT
    AACCAGAAGG CTAATCACAA AATTGAGGAA TTAGAAAAGG CAAAGCAGCA TCTTGAACAG
    GAAATATATG TCAACAAAAA GCGATTAGAA ATGGAAACAT TGGCTACAAA ACAGGCTTTA
    GAAGACCATA GCATCCGCCA TGCAAGAATT CTGGAAGCTT TAGAAACTGA AAAGCAAAAA
    ATTGCTAAAG AAGTACAAAT TCTACAGCAG AATCGGAATA ATAGGGATAA AACTTTTACA
    GTGCAGACAA CTTGGAGCTC TATGAAACTC TCAATGATGA TTCAGGAAGC CAATGCTATC
    AGCAGCAAAT TGAAAACATA CTATGTTTTT GGCAGACATG ATATATCAGA TAAAAGTAGT
    TCTGACACTT CTATTCGGGT TCGTAACCTG AAACTAGGAA TCTCAACATT CTGGAGTCTG
    GAAAAGTTTG AATCTAAACT TGCAGCAATG AAAGAACTTT ATGAGAGTAA TGGTAGTAAC
    AGGGGTGAAG ATGCCTTTTG TGATCCTGAA GATGAATGGG AACCCGACAT TACAGATGCA
    CCAGTTTCTT CACTTTCTAG AAGGAGGAGT AGGAGTTTGA TGAAGAACAG AAGAATTTCT
    GGTTGTTTAC ATGACATACA AGTCCATCCA ATTAAGAATT TGCATTCTTC ACATTCATCA
    GGTTTAATGG ACAAATCAAG CACTATTTAC TCAAATTCAG CAGAGTCCTT TCTTCCTGGA
    ATTTGCAAAG AATTGATTGG TTCTTCGTTA GATTTTTTTG GACAGAGTTA TGATGAAGAA
    AGAACTATAG CAGACAGCCT AATTAATAGT TTTCTTAAAA TTTATAATGG GCTATTTGCC
    ATTTCCAAGG CTCATGAAGA ACAAGATGAA GAAAGTCAAG ATAACTTGTT TTCTTCTGAT
    CGAGCAATCC AGTCACTTAC TATTCAGACT GCATGTGCTT TTGAGCAGCT AGTAGTGCTA
    ATGAAACACT GGCTGAGTGA TTTACTGCCT TGTACCAACA TAGCAAGACT TGAGGATGAG
    TTGAGACAAG AAGTTAAAAA ACTGGGAGGC TACTTACAGT TATTTTTGCA GGGATGCTGT
    TTGGATATTT CATCAATGAT AAAAGAGGCT CAAAAGAATG CAATCCAAAT TGTACAACAA
    GCTGTAAAGT ATGTGGGGCA GTTAGCAGTT CTGAAAGGGA GCAAGCTACA TTTTCTAGAA
    AACGGTAACA ATAAAGCTGC CAGTGTCCAG GAGGAATTCA TGGATGCTGT TTGTGATGGT
    GTAGGCTTAG GAATGAAGAT TTTATTAGAT TCTGGACTGG AAAAAGCAAA AGAACTTCAG
    CATGAACTCT TTAGGCAGTG TACAAAAAAT GAGGTTACCA AAGAAATGAA AACTAATGCC
    ATGGGATTGA TTAGATCTCT TGAAAACATC TTTGCTGAAT CGAAAATTAA AAGTTTCAGA
    AGGCAAGTAC AAGAAGAAAA CTTTGAATAC CAAGATTTCA AGAGGATGGT TAATCGTGCT
    CCAGAATTCT TAAAGTTAAA ACATTGCTTA GAGAAAGCTA TTGAAATTAT TATTTCTGCA
    CTGAAAGGAT GCCATAGTGA TATAAATCTT CTCCAGACTT GTGTTGAAAG TATTCGCAAC
    TTGGCCAGTG ATTTTTACAG TGACTTCAGT GTGCCTTCTA CTTCTGTTGG CAGCTATGAG
    AGTAGAGTAA CTCACATTGT CCACCAGGAA CTAGAATCTC TAGCTAAGTC TCTCCTCTTT
    TGTTTTGAAT CTGAAGAAAG CCCTGATTTG TTGAAACCCT GGGAAACTTA TAATCAAAAT
    ACCAAAGAAG AACACCAACA ATCTAAATCA AGCGGGATTG ACGGCAGTAA GAATAAAGGT
    GTACCAAAGC GTGTCTATGA GCTCCATGGC TCATCCCCAG CAGTGAGCTC AGAGGAATGC
    ACACCCAGTA GGATTCAGTG GGTGTGA

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

    CloneID OHu24430
    Clone ID Related Accession (Same CDS sequence) XM_011510230.1 , XM_011510231.2 , XM_011510232.1 , XM_011510231.1 , XM_011510232.2 , NM_014875.2 , NM_014875.3 , XM_017003005.1
    Accession Version XM_017003005.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4947bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product kinesin-like protein KIF14 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGTCATTAC ACAGTACTCA TAATAGAAAT AACAGCGGTG ATATTCTTGA TATTCCTTCT 
    TCCCAAAATA GTTCATCACT GAATGCCCTC ACCCACAGTA GCCGACTTAA GCTGCATTTG
    AAGTCGGATA TGTCAGAATG TGAAAATGAT GATCCATTAT TGAGATCTGC AGGTAAAGTC
    AGAGACATAA ATAGAACTTA TGTTATTTCT GCCAGTAGAA AAACAGCAGA CATGCCCCTT
    ACCCCTAATC CTGTAGGTAG ATTGGCACTT CAGAGGAGAA CTACAAGGAA CAAAGAATCA
    TCTTTGCTTG TTAGTGAGTT GGAAGACACA ACTGAAAAAA CAGCAGAAAC ACGTCTTACA
    TTACAACGTC GTGCTAAAAC AGATTCTGCA GAAAAGTGGA AAACAGCTGA AATAGATTCT
    GTCAAAATGA CACTGAATGT GGGAGGTGAA ACAGAAAATA ATGGTGTTTC TAAGGAAAGT
    AGAACAAATG TAAGGATTGT AAATAATGCT AAAAACTCTT TTGTTGCCTC TTCTGTACCT
    TTAGATGAAG ATCCACAGGT CATTGAAATG ATGGCTGATA AGAAATACAA AGAAACATTT
    TCTGCCCCCA GTAGAGCAAA TGAAAATGTT GCACTTAAGT ACTCAAGTAA TAGACCACCC
    ATTGCTTCCC TGAGTCAGAC TGAAGTTGTT AGATCAGGAC ACTTGACAAC GAAACCTACT
    CAGAGCAAGT TGGATATCAA AGTGTTGGGA ACAGGAAACT TGTATCATAG AAGTATTGGG
    AAGGAAATTG CAAAAACTTC AAATAAATTT GGGAGCTTAG AAAAAAGAAC ACCTACAAAA
    TGTACAACAG AACACAAACT GACAACAAAG TGCAGCCTGC CTCAGCTTAA GAGCCCAGCT
    CCATCAATAC TGAAGAATAG AATGTCTAAC CTTCAAGTTA AACAAAGACC AAAAAGTTCC
    TTTCTTGCAA ATAAACAGGA AAGATCCGCA GAAAATACAA TTCTTCCCGA AGAAGAAACT
    GTAGTTCAGA ACACCTCTGC AGGAAAAGAC CCCTTAAAAG TAGAGAATAG TCAAGTGACA
    GTGGCAGTAC GCGTAAGACC TTTCACCAAG AGAGAGAAGA TTGAAAAAGC ATCCCAGGTA
    GTCTTCATGA GTGGGAAAGA AATAACTGTG GAACACCCTG ACACGAAACA AGTTTATAAT
    TTTATTTATG ATGTTTCATT CTGGTCTTTT GATGAATGTC ATCCTCACTA CGCTAGCCAG
    ACAACTGTCT ATGAGAAGCT AGCAGCACCA CTCCTAGAAA GAGCCTTCGA AGGCTTCAAT
    ACCTGTCTTT TTGCTTATGG TCAGACTGGC TCTGGAAAAT CATATACGAT GATGGGATTT
    AGTGAAGAAC CAGGAATAAT TCCAAGATTT TGTGAAGATC TTTTTTCTCA AGTAGCCAGA
    AAACAAACCC AAGAGGTCAG CTATCACATT GAAATGAGCT TCTTTGAAGT ATATAATGAA
    AAAATTCACG ACCTTCTGGT TTGTAAAGAT GAAAATGGGC AGAGAAAGCA ACCACTGAGA
    GTGAGGGAAC ATCCTGTTTA TGGACCATAT GTTGAAGCAC TGTCAATGAA CATTGTCAGT
    TCTTACGCTG ATATCCAGAG TTGGCTAGAA TTGGGAAATA AACAAAGAGC TACTGCTGCT
    ACTGGTATGA ATGATAAAAG TTCCCGATCT CATTCAGTTT TCACCCTGGT GATGACCCAG
    ACCAAGACAG AATTTGTGGA AGGGGAAGAA CACGATCACA GAATAACAAG TCGAATTAAC
    CTAATAGATC TGGCAGGCAG TGAGCGCTGC TCTACGGCTC ACACTAATGG AGATCGACTA
    AAGGAAGGTG TGAGTATTAA TAAGTCCTTG CTAACTTTGG GAAAAGTTAT ATCTGCACTT
    TCGGAACAAG CAAACCAAAG GAGTGTTTTT ATTCCTTATC GTGAATCTGT TCTTACATGG
    CTGTTAAAAG AAAGTCTGGG TGGAAATTCA AAAACTGCAA TGATTGCTAC GATTAGTCCC
    GCTGCCAGCA ACATAGAAGA AACATTAAGC ACACTTAGAT ATGCTAACCA AGCCCGTTTA
    ATAGTCAACA TTGCTAAAGT AAATGAAGAT ATGAACGCTA AGTTAATTAG AGAATTGAAG
    GCAGAAATTG CAAAGCTAAA AGCTGCTCAG AGAAACAGTC GGAATATTGA CCCTGAACGA
    TACAGGCTCT GTCGGCAAGA AATAACATCC TTAAGAATGA AACTGCATCA ACAGGAGAGA
    GACATGGCAG AAATGCAAAG AGTGTGGAAA GAAAAGTTTG AACAAGCTGA AAAAAGAAAA
    CTTCAAGAAA CAAAAGAGTT ACAGAAAGCA GGAATTATGT TTCAAATGGA CAATCATTTA
    CCAAACCTTG TTAATCTGAA TGAAGATCCA CAACTATCTG AGATGCTGCT ATATATGATA
    AAAGAAGGAA CAACTACAGT TGGAAAGTAT AAACCAAACT CAAGCCATGA TATTCAGTTA
    TCTGGGGTGC TGATTGCTGA TGATCATTGT ACTATCAAAA ATTTTGGTGG GACAGTGAGT
    ATTATCCCAG TTGGGGAAGC AAAGACATAT GTAAATGGAA AACATATTTT GGAAATCACA
    GTATTACGTC ATGGTGATCG AGTGATTCTT GGTGGAGATC ATTATTTTAG ATTTAATCAT
    CCAGTAGAAG TCCAGAAAGG AAAAAGGCCA TCTGGAAGAG ATACTCCTAT AAGTGAGGGT
    CCAAAAGACT TTGAATTTGC AAAAAATGAG TTGCTCATGG CACAGAGATC ACAACTTGAA
    GCAGAAATAA AAGAGGCTCA GTTGAAGGCA AAGGAAGAAA TGATGCAAGG AATCCAGATT
    GCAAAAGAAA TGGCTCAGCA AGAGCTTTCT TCTCAAAAAG CTGCATATGA AAGCAAAATA
    AAAGCACTGG AAGCAGAACT GAGAGAAGAG TCTCAAAGGA AAAAAATGCA GGAAATAAAT
    AACCAGAAGG CTAATCACAA AATTGAGGAA TTAGAAAAGG CAAAGCAGCA TCTTGAACAG
    GAAATATATG TCAACAAAAA GCGATTAGAA ATGGAAACAT TGGCTACAAA ACAGGCTTTA
    GAAGACCATA GCATCCGCCA TGCAAGAATT CTGGAAGCTT TAGAAACTGA AAAGCAAAAA
    ATTGCTAAAG AAGTACAAAT TCTACAGCAG AATCGGAATA ATAGGGATAA AACTTTTACA
    GTGCAGACAA CTTGGAGCTC TATGAAACTC TCAATGATGA TTCAGGAAGC CAATGCTATC
    AGCAGCAAAT TGAAAACATA CTATGTTTTT GGCAGACATG ATATATCAGA TAAAAGTAGT
    TCTGACACTT CTATTCGGGT TCGTAACCTG AAACTAGGAA TCTCAACATT CTGGAGTCTG
    GAAAAGTTTG AATCTAAACT TGCAGCAATG AAAGAACTTT ATGAGAGTAA TGGTAGTAAC
    AGGGGTGAAG ATGCCTTTTG TGATCCTGAA GATGAATGGG AACCCGACAT TACAGATGCA
    CCAGTTTCTT CACTTTCTAG AAGGAGGAGT AGGAGTTTGA TGAAGAACAG AAGAATTTCT
    GGTTGTTTAC ATGACATACA AGTCCATCCA ATTAAGAATT TGCATTCTTC ACATTCATCA
    GGTTTAATGG ACAAATCAAG CACTATTTAC TCAAATTCAG CAGAGTCCTT TCTTCCTGGA
    ATTTGCAAAG AATTGATTGG TTCTTCGTTA GATTTTTTTG GACAGAGTTA TGATGAAGAA
    AGAACTATAG CAGACAGCCT AATTAATAGT TTTCTTAAAA TTTATAATGG GCTATTTGCC
    ATTTCCAAGG CTCATGAAGA ACAAGATGAA GAAAGTCAAG ATAACTTGTT TTCTTCTGAT
    CGAGCAATCC AGTCACTTAC TATTCAGACT GCATGTGCTT TTGAGCAGCT AGTAGTGCTA
    ATGAAACACT GGCTGAGTGA TTTACTGCCT TGTACCAACA TAGCAAGACT TGAGGATGAG
    TTGAGACAAG AAGTTAAAAA ACTGGGAGGC TACTTACAGT TATTTTTGCA GGGATGCTGT
    TTGGATATTT CATCAATGAT AAAAGAGGCT CAAAAGAATG CAATCCAAAT TGTACAACAA
    GCTGTAAAGT ATGTGGGGCA GTTAGCAGTT CTGAAAGGGA GCAAGCTACA TTTTCTAGAA
    AACGGTAACA ATAAAGCTGC CAGTGTCCAG GAGGAATTCA TGGATGCTGT TTGTGATGGT
    GTAGGCTTAG GAATGAAGAT TTTATTAGAT TCTGGACTGG AAAAAGCAAA AGAACTTCAG
    CATGAACTCT TTAGGCAGTG TACAAAAAAT GAGGTTACCA AAGAAATGAA AACTAATGCC
    ATGGGATTGA TTAGATCTCT TGAAAACATC TTTGCTGAAT CGAAAATTAA AAGTTTCAGA
    AGGCAAGTAC AAGAAGAAAA CTTTGAATAC CAAGATTTCA AGAGGATGGT TAATCGTGCT
    CCAGAATTCT TAAAGTTAAA ACATTGCTTA GAGAAAGCTA TTGAAATTAT TATTTCTGCA
    CTGAAAGGAT GCCATAGTGA TATAAATCTT CTCCAGACTT GTGTTGAAAG TATTCGCAAC
    TTGGCCAGTG ATTTTTACAG TGACTTCAGT GTGCCTTCTA CTTCTGTTGG CAGCTATGAG
    AGTAGAGTAA CTCACATTGT CCACCAGGAA CTAGAATCTC TAGCTAAGTC TCTCCTCTTT
    TGTTTTGAAT CTGAAGAAAG CCCTGATTTG TTGAAACCCT GGGAAACTTA TAATCAAAAT
    ACCAAAGAAG AACACCAACA ATCTAAATCA AGCGGGATTG ACGGCAGTAA GAATAAAGGT
    GTACCAAAGC GTGTCTATGA GCTCCATGGC TCATCCCCAG CAGTGAGCTC AGAGGAATGC
    ACACCCAGTA GGATTCAGTG GGTGTGA

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

    RefSeq XP_016858494.1
    CDS617..5563
    Translation

    Target ORF information:

    RefSeq Version XM_017003005.1
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 14 (KIF14), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017003005.1

    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
    ATGTCATTAC ACAGTACTCA TAATAGAAAT AACAGCGGTG ATATTCTTGA TATTCCTTCT 
    TCCCAAAATA GTTCATCACT GAATGCCCTC ACCCACAGTA GCCGACTTAA GCTGCATTTG
    AAGTCGGATA TGTCAGAATG TGAAAATGAT GATCCATTAT TGAGATCTGC AGGTAAAGTC
    AGAGACATAA ATAGAACTTA TGTTATTTCT GCCAGTAGAA AAACAGCAGA CATGCCCCTT
    ACCCCTAATC CTGTAGGTAG ATTGGCACTT CAGAGGAGAA CTACAAGGAA CAAAGAATCA
    TCTTTGCTTG TTAGTGAGTT GGAAGACACA ACTGAAAAAA CAGCAGAAAC ACGTCTTACA
    TTACAACGTC GTGCTAAAAC AGATTCTGCA GAAAAGTGGA AAACAGCTGA AATAGATTCT
    GTCAAAATGA CACTGAATGT GGGAGGTGAA ACAGAAAATA ATGGTGTTTC TAAGGAAAGT
    AGAACAAATG TAAGGATTGT AAATAATGCT AAAAACTCTT TTGTTGCCTC TTCTGTACCT
    TTAGATGAAG ATCCACAGGT CATTGAAATG ATGGCTGATA AGAAATACAA AGAAACATTT
    TCTGCCCCCA GTAGAGCAAA TGAAAATGTT GCACTTAAGT ACTCAAGTAA TAGACCACCC
    ATTGCTTCCC TGAGTCAGAC TGAAGTTGTT AGATCAGGAC ACTTGACAAC GAAACCTACT
    CAGAGCAAGT TGGATATCAA AGTGTTGGGA ACAGGAAACT TGTATCATAG AAGTATTGGG
    AAGGAAATTG CAAAAACTTC AAATAAATTT GGGAGCTTAG AAAAAAGAAC ACCTACAAAA
    TGTACAACAG AACACAAACT GACAACAAAG TGCAGCCTGC CTCAGCTTAA GAGCCCAGCT
    CCATCAATAC TGAAGAATAG AATGTCTAAC CTTCAAGTTA AACAAAGACC AAAAAGTTCC
    TTTCTTGCAA ATAAACAGGA AAGATCCGCA GAAAATACAA TTCTTCCCGA AGAAGAAACT
    GTAGTTCAGA ACACCTCTGC AGGAAAAGAC CCCTTAAAAG TAGAGAATAG TCAAGTGACA
    GTGGCAGTAC GCGTAAGACC TTTCACCAAG AGAGAGAAGA TTGAAAAAGC ATCCCAGGTA
    GTCTTCATGA GTGGGAAAGA AATAACTGTG GAACACCCTG ACACGAAACA AGTTTATAAT
    TTTATTTATG ATGTTTCATT CTGGTCTTTT GATGAATGTC ATCCTCACTA CGCTAGCCAG
    ACAACTGTCT ATGAGAAGCT AGCAGCACCA CTCCTAGAAA GAGCCTTCGA AGGCTTCAAT
    ACCTGTCTTT TTGCTTATGG TCAGACTGGC TCTGGAAAAT CATATACGAT GATGGGATTT
    AGTGAAGAAC CAGGAATAAT TCCAAGATTT TGTGAAGATC TTTTTTCTCA AGTAGCCAGA
    AAACAAACCC AAGAGGTCAG CTATCACATT GAAATGAGCT TCTTTGAAGT ATATAATGAA
    AAAATTCACG ACCTTCTGGT TTGTAAAGAT GAAAATGGGC AGAGAAAGCA ACCACTGAGA
    GTGAGGGAAC ATCCTGTTTA TGGACCATAT GTTGAAGCAC TGTCAATGAA CATTGTCAGT
    TCTTACGCTG ATATCCAGAG TTGGCTAGAA TTGGGAAATA AACAAAGAGC TACTGCTGCT
    ACTGGTATGA ATGATAAAAG TTCCCGATCT CATTCAGTTT TCACCCTGGT GATGACCCAG
    ACCAAGACAG AATTTGTGGA AGGGGAAGAA CACGATCACA GAATAACAAG TCGAATTAAC
    CTAATAGATC TGGCAGGCAG TGAGCGCTGC TCTACGGCTC ACACTAATGG AGATCGACTA
    AAGGAAGGTG TGAGTATTAA TAAGTCCTTG CTAACTTTGG GAAAAGTTAT ATCTGCACTT
    TCGGAACAAG CAAACCAAAG GAGTGTTTTT ATTCCTTATC GTGAATCTGT TCTTACATGG
    CTGTTAAAAG AAAGTCTGGG TGGAAATTCA AAAACTGCAA TGATTGCTAC GATTAGTCCC
    GCTGCCAGCA ACATAGAAGA AACATTAAGC ACACTTAGAT ATGCTAACCA AGCCCGTTTA
    ATAGTCAACA TTGCTAAAGT AAATGAAGAT ATGAACGCTA AGTTAATTAG AGAATTGAAG
    GCAGAAATTG CAAAGCTAAA AGCTGCTCAG AGAAACAGTC GGAATATTGA CCCTGAACGA
    TACAGGCTCT GTCGGCAAGA AATAACATCC TTAAGAATGA AACTGCATCA ACAGGAGAGA
    GACATGGCAG AAATGCAAAG AGTGTGGAAA GAAAAGTTTG AACAAGCTGA AAAAAGAAAA
    CTTCAAGAAA CAAAAGAGTT ACAGAAAGCA GGAATTATGT TTCAAATGGA CAATCATTTA
    CCAAACCTTG TTAATCTGAA TGAAGATCCA CAACTATCTG AGATGCTGCT ATATATGATA
    AAAGAAGGAA CAACTACAGT TGGAAAGTAT AAACCAAACT CAAGCCATGA TATTCAGTTA
    TCTGGGGTGC TGATTGCTGA TGATCATTGT ACTATCAAAA ATTTTGGTGG GACAGTGAGT
    ATTATCCCAG TTGGGGAAGC AAAGACATAT GTAAATGGAA AACATATTTT GGAAATCACA
    GTATTACGTC ATGGTGATCG AGTGATTCTT GGTGGAGATC ATTATTTTAG ATTTAATCAT
    CCAGTAGAAG TCCAGAAAGG AAAAAGGCCA TCTGGAAGAG ATACTCCTAT AAGTGAGGGT
    CCAAAAGACT TTGAATTTGC AAAAAATGAG TTGCTCATGG CACAGAGATC ACAACTTGAA
    GCAGAAATAA AAGAGGCTCA GTTGAAGGCA AAGGAAGAAA TGATGCAAGG AATCCAGATT
    GCAAAAGAAA TGGCTCAGCA AGAGCTTTCT TCTCAAAAAG CTGCATATGA AAGCAAAATA
    AAAGCACTGG AAGCAGAACT GAGAGAAGAG TCTCAAAGGA AAAAAATGCA GGAAATAAAT
    AACCAGAAGG CTAATCACAA AATTGAGGAA TTAGAAAAGG CAAAGCAGCA TCTTGAACAG
    GAAATATATG TCAACAAAAA GCGATTAGAA ATGGAAACAT TGGCTACAAA ACAGGCTTTA
    GAAGACCATA GCATCCGCCA TGCAAGAATT CTGGAAGCTT TAGAAACTGA AAAGCAAAAA
    ATTGCTAAAG AAGTACAAAT TCTACAGCAG AATCGGAATA ATAGGGATAA AACTTTTACA
    GTGCAGACAA CTTGGAGCTC TATGAAACTC TCAATGATGA TTCAGGAAGC CAATGCTATC
    AGCAGCAAAT TGAAAACATA CTATGTTTTT GGCAGACATG ATATATCAGA TAAAAGTAGT
    TCTGACACTT CTATTCGGGT TCGTAACCTG AAACTAGGAA TCTCAACATT CTGGAGTCTG
    GAAAAGTTTG AATCTAAACT TGCAGCAATG AAAGAACTTT ATGAGAGTAA TGGTAGTAAC
    AGGGGTGAAG ATGCCTTTTG TGATCCTGAA GATGAATGGG AACCCGACAT TACAGATGCA
    CCAGTTTCTT CACTTTCTAG AAGGAGGAGT AGGAGTTTGA TGAAGAACAG AAGAATTTCT
    GGTTGTTTAC ATGACATACA AGTCCATCCA ATTAAGAATT TGCATTCTTC ACATTCATCA
    GGTTTAATGG ACAAATCAAG CACTATTTAC TCAAATTCAG CAGAGTCCTT TCTTCCTGGA
    ATTTGCAAAG AATTGATTGG TTCTTCGTTA GATTTTTTTG GACAGAGTTA TGATGAAGAA
    AGAACTATAG CAGACAGCCT AATTAATAGT TTTCTTAAAA TTTATAATGG GCTATTTGCC
    ATTTCCAAGG CTCATGAAGA ACAAGATGAA GAAAGTCAAG ATAACTTGTT TTCTTCTGAT
    CGAGCAATCC AGTCACTTAC TATTCAGACT GCATGTGCTT TTGAGCAGCT AGTAGTGCTA
    ATGAAACACT GGCTGAGTGA TTTACTGCCT TGTACCAACA TAGCAAGACT TGAGGATGAG
    TTGAGACAAG AAGTTAAAAA ACTGGGAGGC TACTTACAGT TATTTTTGCA GGGATGCTGT
    TTGGATATTT CATCAATGAT AAAAGAGGCT CAAAAGAATG CAATCCAAAT TGTACAACAA
    GCTGTAAAGT ATGTGGGGCA GTTAGCAGTT CTGAAAGGGA GCAAGCTACA TTTTCTAGAA
    AACGGTAACA ATAAAGCTGC CAGTGTCCAG GAGGAATTCA TGGATGCTGT TTGTGATGGT
    GTAGGCTTAG GAATGAAGAT TTTATTAGAT TCTGGACTGG AAAAAGCAAA AGAACTTCAG
    CATGAACTCT TTAGGCAGTG TACAAAAAAT GAGGTTACCA AAGAAATGAA AACTAATGCC
    ATGGGATTGA TTAGATCTCT TGAAAACATC TTTGCTGAAT CGAAAATTAA AAGTTTCAGA
    AGGCAAGTAC AAGAAGAAAA CTTTGAATAC CAAGATTTCA AGAGGATGGT TAATCGTGCT
    CCAGAATTCT TAAAGTTAAA ACATTGCTTA GAGAAAGCTA TTGAAATTAT TATTTCTGCA
    CTGAAAGGAT GCCATAGTGA TATAAATCTT CTCCAGACTT GTGTTGAAAG TATTCGCAAC
    TTGGCCAGTG ATTTTTACAG TGACTTCAGT GTGCCTTCTA CTTCTGTTGG CAGCTATGAG
    AGTAGAGTAA CTCACATTGT CCACCAGGAA CTAGAATCTC TAGCTAAGTC TCTCCTCTTT
    TGTTTTGAAT CTGAAGAAAG CCCTGATTTG TTGAAACCCT GGGAAACTTA TAATCAAAAT
    ACCAAAGAAG AACACCAACA ATCTAAATCA AGCGGGATTG ACGGCAGTAA GAATAAAGGT
    GTACCAAAGC GTGTCTATGA GCTCCATGGC TCATCCCCAG CAGTGAGCTC AGAGGAATGC
    ACACCCAGTA GGATTCAGTG GGTGTGA

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

    CloneID OHu63527
    Clone ID Related Accession (Same CDS sequence) XM_011510233.2
    Accession Version XM_011510233.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4863bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product kinesin-like protein KIF14 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011510233.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGTCATTAC ACAGTACTCA TAATAGAAAT AACAGCGGTG ATATTCTTGA TATTCCTTCT 
    TCCCAAAATA GTTCATCACT GAATGCCCTC ACCCACAGTA GCCGACTTAA GCTGCATTTG
    AAGTCGGATA TGTCAGAATG TGAAAATGAT GATCCATTAT TGAGATCTGC AGGTAGATTG
    GCACTTCAGA GGAGAACTAC AAGGAACAAA GAATCATCTT TGCTTGTTAG TGAGTTGGAA
    GACACAACTG AAAAAACAGC AGAAACACGT CTTACATTAC AACGTCGTGC TAAAACAGAT
    TCTGCAGAAA AGTGGAAAAC AGCTGAAATA GATTCTGTCA AAATGACACT GAATGTGGGA
    GGTGAAACAG AAAATAATGG TGTTTCTAAG GAAAGTAGAA CAAATGTAAG GATTGTAAAT
    AATGCTAAAA ACTCTTTTGT TGCCTCTTCT GTACCTTTAG ATGAAGATCC ACAGGTCATT
    GAAATGATGG CTGATAAGAA ATACAAAGAA ACATTTTCTG CCCCCAGTAG AGCAAATGAA
    AATGTTGCAC TTAAGTACTC AAGTAATAGA CCACCCATTG CTTCCCTGAG TCAGACTGAA
    GTTGTTAGAT CAGGACACTT GACAACGAAA CCTACTCAGA GCAAGTTGGA TATCAAAGTG
    TTGGGAACAG GAAACTTGTA TCATAGAAGT ATTGGGAAGG AAATTGCAAA AACTTCAAAT
    AAATTTGGGA GCTTAGAAAA AAGAACACCT ACAAAATGTA CAACAGAACA CAAACTGACA
    ACAAAGTGCA GCCTGCCTCA GCTTAAGAGC CCAGCTCCAT CAATACTGAA GAATAGAATG
    TCTAACCTTC AAGTTAAACA AAGACCAAAA AGTTCCTTTC TTGCAAATAA ACAGGAAAGA
    TCCGCAGAAA ATACAATTCT TCCCGAAGAA GAAACTGTAG TTCAGAACAC CTCTGCAGGA
    AAAGACCCCT TAAAAGTAGA GAATAGTCAA GTGACAGTGG CAGTACGCGT AAGACCTTTC
    ACCAAGAGAG AGAAGATTGA AAAAGCATCC CAGGTAGTCT TCATGAGTGG GAAAGAAATA
    ACTGTGGAAC ACCCTGACAC GAAACAAGTT TATAATTTTA TTTATGATGT TTCATTCTGG
    TCTTTTGATG AATGTCATCC TCACTACGCT AGCCAGACAA CTGTCTATGA GAAGCTAGCA
    GCACCACTCC TAGAAAGAGC CTTCGAAGGC TTCAATACCT GTCTTTTTGC TTATGGTCAG
    ACTGGCTCTG GAAAATCATA TACGATGATG GGATTTAGTG AAGAACCAGG AATAATTCCA
    AGATTTTGTG AAGATCTTTT TTCTCAAGTA GCCAGAAAAC AAACCCAAGA GGTCAGCTAT
    CACATTGAAA TGAGCTTCTT TGAAGTATAT AATGAAAAAA TTCACGACCT TCTGGTTTGT
    AAAGATGAAA ATGGGCAGAG AAAGCAACCA CTGAGAGTGA GGGAACATCC TGTTTATGGA
    CCATATGTTG AAGCACTGTC AATGAACATT GTCAGTTCTT ACGCTGATAT CCAGAGTTGG
    CTAGAATTGG GAAATAAACA AAGAGCTACT GCTGCTACTG GTATGAATGA TAAAAGTTCC
    CGATCTCATT CAGTTTTCAC CCTGGTGATG ACCCAGACCA AGACAGAATT TGTGGAAGGG
    GAAGAACACG ATCACAGAAT AACAAGTCGA ATTAACCTAA TAGATCTGGC AGGCAGTGAG
    CGCTGCTCTA CGGCTCACAC TAATGGAGAT CGACTAAAGG AAGGTGTGAG TATTAATAAG
    TCCTTGCTAA CTTTGGGAAA AGTTATATCT GCACTTTCGG AACAAGCAAA CCAAAGGAGT
    GTTTTTATTC CTTATCGTGA ATCTGTTCTT ACATGGCTGT TAAAAGAAAG TCTGGGTGGA
    AATTCAAAAA CTGCAATGAT TGCTACGATT AGTCCCGCTG CCAGCAACAT AGAAGAAACA
    TTAAGCACAC TTAGATATGC TAACCAAGCC CGTTTAATAG TCAACATTGC TAAAGTAAAT
    GAAGATATGA ACGCTAAGTT AATTAGAGAA TTGAAGGCAG AAATTGCAAA GCTAAAAGCT
    GCTCAGAGAA ACAGTCGGAA TATTGACCCT GAACGATACA GGCTCTGTCG GCAAGAAATA
    ACATCCTTAA GAATGAAACT GCATCAACAG GAGAGAGACA TGGCAGAAAT GCAAAGAGTG
    TGGAAAGAAA AGTTTGAACA AGCTGAAAAA AGAAAACTTC AAGAAACAAA AGAGTTACAG
    AAAGCAGGAA TTATGTTTCA AATGGACAAT CATTTACCAA ACCTTGTTAA TCTGAATGAA
    GATCCACAAC TATCTGAGAT GCTGCTATAT ATGATAAAAG AAGGAACAAC TACAGTTGGA
    AAGTATAAAC CAAACTCAAG CCATGATATT CAGTTATCTG GGGTGCTGAT TGCTGATGAT
    CATTGTACTA TCAAAAATTT TGGTGGGACA GTGAGTATTA TCCCAGTTGG GGAAGCAAAG
    ACATATGTAA ATGGAAAACA TATTTTGGAA ATCACAGTAT TACGTCATGG TGATCGAGTG
    ATTCTTGGTG GAGATCATTA TTTTAGATTT AATCATCCAG TAGAAGTCCA GAAAGGAAAA
    AGGCCATCTG GAAGAGATAC TCCTATAAGT GAGGGTCCAA AAGACTTTGA ATTTGCAAAA
    AATGAGTTGC TCATGGCACA GAGATCACAA CTTGAAGCAG AAATAAAAGA GGCTCAGTTG
    AAGGCAAAGG AAGAAATGAT GCAAGGAATC CAGATTGCAA AAGAAATGGC TCAGCAAGAG
    CTTTCTTCTC AAAAAGCTGC ATATGAAAGC AAAATAAAAG CACTGGAAGC AGAACTGAGA
    GAAGAGTCTC AAAGGAAAAA AATGCAGGAA ATAAATAACC AGAAGGCTAA TCACAAAATT
    GAGGAATTAG AAAAGGCAAA GCAGCATCTT GAACAGGAAA TATATGTCAA CAAAAAGCGA
    TTAGAAATGG AAACATTGGC TACAAAACAG GCTTTAGAAG ACCATAGCAT CCGCCATGCA
    AGAATTCTGG AAGCTTTAGA AACTGAAAAG CAAAAAATTG CTAAAGAAGT ACAAATTCTA
    CAGCAGAATC GGAATAATAG GGATAAAACT TTTACAGTGC AGACAACTTG GAGCTCTATG
    AAACTCTCAA TGATGATTCA GGAAGCCAAT GCTATCAGCA GCAAATTGAA AACATACTAT
    GTTTTTGGCA GACATGATAT ATCAGATAAA AGTAGTTCTG ACACTTCTAT TCGGGTTCGT
    AACCTGAAAC TAGGAATCTC AACATTCTGG AGTCTGGAAA AGTTTGAATC TAAACTTGCA
    GCAATGAAAG AACTTTATGA GAGTAATGGT AGTAACAGGG GTGAAGATGC CTTTTGTGAT
    CCTGAAGATG AATGGGAACC CGACATTACA GATGCACCAG TTTCTTCACT TTCTAGAAGG
    AGGAGTAGGA GTTTGATGAA GAACAGAAGA ATTTCTGGTT GTTTACATGA CATACAAGTC
    CATCCAATTA AGAATTTGCA TTCTTCACAT TCATCAGGTT TAATGGACAA ATCAAGCACT
    ATTTACTCAA ATTCAGCAGA GTCCTTTCTT CCTGGAATTT GCAAAGAATT GATTGGTTCT
    TCGTTAGATT TTTTTGGACA GAGTTATGAT GAAGAAAGAA CTATAGCAGA CAGCCTAATT
    AATAGTTTTC TTAAAATTTA TAATGGGCTA TTTGCCATTT CCAAGGCTCA TGAAGAACAA
    GATGAAGAAA GTCAAGATAA CTTGTTTTCT TCTGATCGAG CAATCCAGTC ACTTACTATT
    CAGACTGCAT GTGCTTTTGA GCAGCTAGTA GTGCTAATGA AACACTGGCT GAGTGATTTA
    CTGCCTTGTA CCAACATAGC AAGACTTGAG GATGAGTTGA GACAAGAAGT TAAAAAACTG
    GGAGGCTACT TACAGTTATT TTTGCAGGGA TGCTGTTTGG ATATTTCATC AATGATAAAA
    GAGGCTCAAA AGAATGCAAT CCAAATTGTA CAACAAGCTG TAAAGTATGT GGGGCAGTTA
    GCAGTTCTGA AAGGGAGCAA GCTACATTTT CTAGAAAACG GTAACAATAA AGCTGCCAGT
    GTCCAGGAGG AATTCATGGA TGCTGTTTGT GATGGTGTAG GCTTAGGAAT GAAGATTTTA
    TTAGATTCTG GACTGGAAAA AGCAAAAGAA CTTCAGCATG AACTCTTTAG GCAGTGTACA
    AAAAATGAGG TTACCAAAGA AATGAAAACT AATGCCATGG GATTGATTAG ATCTCTTGAA
    AACATCTTTG CTGAATCGAA AATTAAAAGT TTCAGAAGGC AAGTACAAGA AGAAAACTTT
    GAATACCAAG ATTTCAAGAG GATGGTTAAT CGTGCTCCAG AATTCTTAAA GTTAAAACAT
    TGCTTAGAGA AAGCTATTGA AATTATTATT TCTGCACTGA AAGGATGCCA TAGTGATATA
    AATCTTCTCC AGACTTGTGT TGAAAGTATT CGCAACTTGG CCAGTGATTT TTACAGTGAC
    TTCAGTGTGC CTTCTACTTC TGTTGGCAGC TATGAGAGTA GAGTAACTCA CATTGTCCAC
    CAGGAACTAG AATCTCTAGC TAAGTCTCTC CTCTTTTGTT TTGAATCTGA AGAAAGCCCT
    GATTTGTTGA AACCCTGGGA AACTTATAAT CAAAATACCA AAGAAGAACA CCAACAATCT
    AAATCAAGCG GGATTGACGG CAGTAAGAAT AAAGGTGTAC CAAAGCGTGT CTATGAGCTC
    CATGGCTCAT CCCCAGCAGT GAGCTCAGAG GAATGCACAC CCAGTAGGAT TCAGTGGGTG
    TGA

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

    RefSeq XP_011508535.1
    CDS411..5273
    Translation

    Target ORF information:

    RefSeq Version XM_011510233.2
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 14 (KIF14), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011510233.2

    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
    ATGTCATTAC ACAGTACTCA TAATAGAAAT AACAGCGGTG ATATTCTTGA TATTCCTTCT 
    TCCCAAAATA GTTCATCACT GAATGCCCTC ACCCACAGTA GCCGACTTAA GCTGCATTTG
    AAGTCGGATA TGTCAGAATG TGAAAATGAT GATCCATTAT TGAGATCTGC AGGTAGATTG
    GCACTTCAGA GGAGAACTAC AAGGAACAAA GAATCATCTT TGCTTGTTAG TGAGTTGGAA
    GACACAACTG AAAAAACAGC AGAAACACGT CTTACATTAC AACGTCGTGC TAAAACAGAT
    TCTGCAGAAA AGTGGAAAAC AGCTGAAATA GATTCTGTCA AAATGACACT GAATGTGGGA
    GGTGAAACAG AAAATAATGG TGTTTCTAAG GAAAGTAGAA CAAATGTAAG GATTGTAAAT
    AATGCTAAAA ACTCTTTTGT TGCCTCTTCT GTACCTTTAG ATGAAGATCC ACAGGTCATT
    GAAATGATGG CTGATAAGAA ATACAAAGAA ACATTTTCTG CCCCCAGTAG AGCAAATGAA
    AATGTTGCAC TTAAGTACTC AAGTAATAGA CCACCCATTG CTTCCCTGAG TCAGACTGAA
    GTTGTTAGAT CAGGACACTT GACAACGAAA CCTACTCAGA GCAAGTTGGA TATCAAAGTG
    TTGGGAACAG GAAACTTGTA TCATAGAAGT ATTGGGAAGG AAATTGCAAA AACTTCAAAT
    AAATTTGGGA GCTTAGAAAA AAGAACACCT ACAAAATGTA CAACAGAACA CAAACTGACA
    ACAAAGTGCA GCCTGCCTCA GCTTAAGAGC CCAGCTCCAT CAATACTGAA GAATAGAATG
    TCTAACCTTC AAGTTAAACA AAGACCAAAA AGTTCCTTTC TTGCAAATAA ACAGGAAAGA
    TCCGCAGAAA ATACAATTCT TCCCGAAGAA GAAACTGTAG TTCAGAACAC CTCTGCAGGA
    AAAGACCCCT TAAAAGTAGA GAATAGTCAA GTGACAGTGG CAGTACGCGT AAGACCTTTC
    ACCAAGAGAG AGAAGATTGA AAAAGCATCC CAGGTAGTCT TCATGAGTGG GAAAGAAATA
    ACTGTGGAAC ACCCTGACAC GAAACAAGTT TATAATTTTA TTTATGATGT TTCATTCTGG
    TCTTTTGATG AATGTCATCC TCACTACGCT AGCCAGACAA CTGTCTATGA GAAGCTAGCA
    GCACCACTCC TAGAAAGAGC CTTCGAAGGC TTCAATACCT GTCTTTTTGC TTATGGTCAG
    ACTGGCTCTG GAAAATCATA TACGATGATG GGATTTAGTG AAGAACCAGG AATAATTCCA
    AGATTTTGTG AAGATCTTTT TTCTCAAGTA GCCAGAAAAC AAACCCAAGA GGTCAGCTAT
    CACATTGAAA TGAGCTTCTT TGAAGTATAT AATGAAAAAA TTCACGACCT TCTGGTTTGT
    AAAGATGAAA ATGGGCAGAG AAAGCAACCA CTGAGAGTGA GGGAACATCC TGTTTATGGA
    CCATATGTTG AAGCACTGTC AATGAACATT GTCAGTTCTT ACGCTGATAT CCAGAGTTGG
    CTAGAATTGG GAAATAAACA AAGAGCTACT GCTGCTACTG GTATGAATGA TAAAAGTTCC
    CGATCTCATT CAGTTTTCAC CCTGGTGATG ACCCAGACCA AGACAGAATT TGTGGAAGGG
    GAAGAACACG ATCACAGAAT AACAAGTCGA ATTAACCTAA TAGATCTGGC AGGCAGTGAG
    CGCTGCTCTA CGGCTCACAC TAATGGAGAT CGACTAAAGG AAGGTGTGAG TATTAATAAG
    TCCTTGCTAA CTTTGGGAAA AGTTATATCT GCACTTTCGG AACAAGCAAA CCAAAGGAGT
    GTTTTTATTC CTTATCGTGA ATCTGTTCTT ACATGGCTGT TAAAAGAAAG TCTGGGTGGA
    AATTCAAAAA CTGCAATGAT TGCTACGATT AGTCCCGCTG CCAGCAACAT AGAAGAAACA
    TTAAGCACAC TTAGATATGC TAACCAAGCC CGTTTAATAG TCAACATTGC TAAAGTAAAT
    GAAGATATGA ACGCTAAGTT AATTAGAGAA TTGAAGGCAG AAATTGCAAA GCTAAAAGCT
    GCTCAGAGAA ACAGTCGGAA TATTGACCCT GAACGATACA GGCTCTGTCG GCAAGAAATA
    ACATCCTTAA GAATGAAACT GCATCAACAG GAGAGAGACA TGGCAGAAAT GCAAAGAGTG
    TGGAAAGAAA AGTTTGAACA AGCTGAAAAA AGAAAACTTC AAGAAACAAA AGAGTTACAG
    AAAGCAGGAA TTATGTTTCA AATGGACAAT CATTTACCAA ACCTTGTTAA TCTGAATGAA
    GATCCACAAC TATCTGAGAT GCTGCTATAT ATGATAAAAG AAGGAACAAC TACAGTTGGA
    AAGTATAAAC CAAACTCAAG CCATGATATT CAGTTATCTG GGGTGCTGAT TGCTGATGAT
    CATTGTACTA TCAAAAATTT TGGTGGGACA GTGAGTATTA TCCCAGTTGG GGAAGCAAAG
    ACATATGTAA ATGGAAAACA TATTTTGGAA ATCACAGTAT TACGTCATGG TGATCGAGTG
    ATTCTTGGTG GAGATCATTA TTTTAGATTT AATCATCCAG TAGAAGTCCA GAAAGGAAAA
    AGGCCATCTG GAAGAGATAC TCCTATAAGT GAGGGTCCAA AAGACTTTGA ATTTGCAAAA
    AATGAGTTGC TCATGGCACA GAGATCACAA CTTGAAGCAG AAATAAAAGA GGCTCAGTTG
    AAGGCAAAGG AAGAAATGAT GCAAGGAATC CAGATTGCAA AAGAAATGGC TCAGCAAGAG
    CTTTCTTCTC AAAAAGCTGC ATATGAAAGC AAAATAAAAG CACTGGAAGC AGAACTGAGA
    GAAGAGTCTC AAAGGAAAAA AATGCAGGAA ATAAATAACC AGAAGGCTAA TCACAAAATT
    GAGGAATTAG AAAAGGCAAA GCAGCATCTT GAACAGGAAA TATATGTCAA CAAAAAGCGA
    TTAGAAATGG AAACATTGGC TACAAAACAG GCTTTAGAAG ACCATAGCAT CCGCCATGCA
    AGAATTCTGG AAGCTTTAGA AACTGAAAAG CAAAAAATTG CTAAAGAAGT ACAAATTCTA
    CAGCAGAATC GGAATAATAG GGATAAAACT TTTACAGTGC AGACAACTTG GAGCTCTATG
    AAACTCTCAA TGATGATTCA GGAAGCCAAT GCTATCAGCA GCAAATTGAA AACATACTAT
    GTTTTTGGCA GACATGATAT ATCAGATAAA AGTAGTTCTG ACACTTCTAT TCGGGTTCGT
    AACCTGAAAC TAGGAATCTC AACATTCTGG AGTCTGGAAA AGTTTGAATC TAAACTTGCA
    GCAATGAAAG AACTTTATGA GAGTAATGGT AGTAACAGGG GTGAAGATGC CTTTTGTGAT
    CCTGAAGATG AATGGGAACC CGACATTACA GATGCACCAG TTTCTTCACT TTCTAGAAGG
    AGGAGTAGGA GTTTGATGAA GAACAGAAGA ATTTCTGGTT GTTTACATGA CATACAAGTC
    CATCCAATTA AGAATTTGCA TTCTTCACAT TCATCAGGTT TAATGGACAA ATCAAGCACT
    ATTTACTCAA ATTCAGCAGA GTCCTTTCTT CCTGGAATTT GCAAAGAATT GATTGGTTCT
    TCGTTAGATT TTTTTGGACA GAGTTATGAT GAAGAAAGAA CTATAGCAGA CAGCCTAATT
    AATAGTTTTC TTAAAATTTA TAATGGGCTA TTTGCCATTT CCAAGGCTCA TGAAGAACAA
    GATGAAGAAA GTCAAGATAA CTTGTTTTCT TCTGATCGAG CAATCCAGTC ACTTACTATT
    CAGACTGCAT GTGCTTTTGA GCAGCTAGTA GTGCTAATGA AACACTGGCT GAGTGATTTA
    CTGCCTTGTA CCAACATAGC AAGACTTGAG GATGAGTTGA GACAAGAAGT TAAAAAACTG
    GGAGGCTACT TACAGTTATT TTTGCAGGGA TGCTGTTTGG ATATTTCATC AATGATAAAA
    GAGGCTCAAA AGAATGCAAT CCAAATTGTA CAACAAGCTG TAAAGTATGT GGGGCAGTTA
    GCAGTTCTGA AAGGGAGCAA GCTACATTTT CTAGAAAACG GTAACAATAA AGCTGCCAGT
    GTCCAGGAGG AATTCATGGA TGCTGTTTGT GATGGTGTAG GCTTAGGAAT GAAGATTTTA
    TTAGATTCTG GACTGGAAAA AGCAAAAGAA CTTCAGCATG AACTCTTTAG GCAGTGTACA
    AAAAATGAGG TTACCAAAGA AATGAAAACT AATGCCATGG GATTGATTAG ATCTCTTGAA
    AACATCTTTG CTGAATCGAA AATTAAAAGT TTCAGAAGGC AAGTACAAGA AGAAAACTTT
    GAATACCAAG ATTTCAAGAG GATGGTTAAT CGTGCTCCAG AATTCTTAAA GTTAAAACAT
    TGCTTAGAGA AAGCTATTGA AATTATTATT TCTGCACTGA AAGGATGCCA TAGTGATATA
    AATCTTCTCC AGACTTGTGT TGAAAGTATT CGCAACTTGG CCAGTGATTT TTACAGTGAC
    TTCAGTGTGC CTTCTACTTC TGTTGGCAGC TATGAGAGTA GAGTAACTCA CATTGTCCAC
    CAGGAACTAG AATCTCTAGC TAAGTCTCTC CTCTTTTGTT TTGAATCTGA AGAAAGCCCT
    GATTTGTTGA AACCCTGGGA AACTTATAAT CAAAATACCA AAGAAGAACA CCAACAATCT
    AAATCAAGCG GGATTGACGG CAGTAAGAAT AAAGGTGTAC CAAAGCGTGT CTATGAGCTC
    CATGGCTCAT CCCCAGCAGT GAGCTCAGAG GAATGCACAC CCAGTAGGAT TCAGTGGGTG
    TGA

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

    CloneID OHu63529
    Clone ID Related Accession (Same CDS sequence) XM_011510235.2
    Accession Version XM_011510235.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4575bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product kinesin-like protein KIF14 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011510235.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGTCATTAC ACAGTACTCA TAATAGAAAT AACAGCGGTG ATATTCTTGA TATTCCTTCT 
    TCCCAAAATA GTTCATCACT GAATGCCCTC ACCCACAGTA GCCGACTTAA GCTGCATTTG
    AAGTCGGATA TGTCAGAATG TGAAAATGAT GATCCATTAT TGAGATCTGC AGATGAAGAT
    CCACAGGTCA TTGAAATGAT GGCTGATAAG AAATACAAAG AAACATTTTC TGCCCCCAGT
    AGAGCAAATG AAAATGTTGC ACTTAAGTAC TCAAGTAATA GACCACCCAT TGCTTCCCTG
    AGTCAGACTG AAGTTGTTAG ATCAGGACAC TTGACAACGA AACCTACTCA GAGCAAGTTG
    GATATCAAAG TGTTGGGAAC AGGAAACTTG TATCATAGAA GTATTGGGAA GGAAATTGCA
    AAAACTTCAA ATAAATTTGG GAGCTTAGAA AAAAGAACAC CTACAAAATG TACAACAGAA
    CACAAACTGA CAACAAAGTG CAGCCTGCCT CAGCTTAAGA GCCCAGCTCC ATCAATACTG
    AAGAATAGAA TGTCTAACCT TCAAGTTAAA CAAAGACCAA AAAGTTCCTT TCTTGCAAAT
    AAACAGGAAA GATCCGCAGA AAATACAATT CTTCCCGAAG AAGAAACTGT AGTTCAGAAC
    ACCTCTGCAG GAAAAGACCC CTTAAAAGTA GAGAATAGTC AAGTGACAGT GGCAGTACGC
    GTAAGACCTT TCACCAAGAG AGAGAAGATT GAAAAAGCAT CCCAGGTAGT CTTCATGAGT
    GGGAAAGAAA TAACTGTGGA ACACCCTGAC ACGAAACAAG TTTATAATTT TATTTATGAT
    GTTTCATTCT GGTCTTTTGA TGAATGTCAT CCTCACTACG CTAGCCAGAC AACTGTCTAT
    GAGAAGCTAG CAGCACCACT CCTAGAAAGA GCCTTCGAAG GCTTCAATAC CTGTCTTTTT
    GCTTATGGTC AGACTGGCTC TGGAAAATCA TATACGATGA TGGGATTTAG TGAAGAACCA
    GGAATAATTC CAAGATTTTG TGAAGATCTT TTTTCTCAAG TAGCCAGAAA ACAAACCCAA
    GAGGTCAGCT ATCACATTGA AATGAGCTTC TTTGAAGTAT ATAATGAAAA AATTCACGAC
    CTTCTGGTTT GTAAAGATGA AAATGGGCAG AGAAAGCAAC CACTGAGAGT GAGGGAACAT
    CCTGTTTATG GACCATATGT TGAAGCACTG TCAATGAACA TTGTCAGTTC TTACGCTGAT
    ATCCAGAGTT GGCTAGAATT GGGAAATAAA CAAAGAGCTA CTGCTGCTAC TGGTATGAAT
    GATAAAAGTT CCCGATCTCA TTCAGTTTTC ACCCTGGTGA TGACCCAGAC CAAGACAGAA
    TTTGTGGAAG GGGAAGAACA CGATCACAGA ATAACAAGTC GAATTAACCT AATAGATCTG
    GCAGGCAGTG AGCGCTGCTC TACGGCTCAC ACTAATGGAG ATCGACTAAA GGAAGGTGTG
    AGTATTAATA AGTCCTTGCT AACTTTGGGA AAAGTTATAT CTGCACTTTC GGAACAAGCA
    AACCAAAGGA GTGTTTTTAT TCCTTATCGT GAATCTGTTC TTACATGGCT GTTAAAAGAA
    AGTCTGGGTG GAAATTCAAA AACTGCAATG ATTGCTACGA TTAGTCCCGC TGCCAGCAAC
    ATAGAAGAAA CATTAAGCAC ACTTAGATAT GCTAACCAAG CCCGTTTAAT AGTCAACATT
    GCTAAAGTAA ATGAAGATAT GAACGCTAAG TTAATTAGAG AATTGAAGGC AGAAATTGCA
    AAGCTAAAAG CTGCTCAGAG AAACAGTCGG AATATTGACC CTGAACGATA CAGGCTCTGT
    CGGCAAGAAA TAACATCCTT AAGAATGAAA CTGCATCAAC AGGAGAGAGA CATGGCAGAA
    ATGCAAAGAG TGTGGAAAGA AAAGTTTGAA CAAGCTGAAA AAAGAAAACT TCAAGAAACA
    AAAGAGTTAC AGAAAGCAGG AATTATGTTT CAAATGGACA ATCATTTACC AAACCTTGTT
    AATCTGAATG AAGATCCACA ACTATCTGAG ATGCTGCTAT ATATGATAAA AGAAGGAACA
    ACTACAGTTG GAAAGTATAA ACCAAACTCA AGCCATGATA TTCAGTTATC TGGGGTGCTG
    ATTGCTGATG ATCATTGTAC TATCAAAAAT TTTGGTGGGA CAGTGAGTAT TATCCCAGTT
    GGGGAAGCAA AGACATATGT AAATGGAAAA CATATTTTGG AAATCACAGT ATTACGTCAT
    GGTGATCGAG TGATTCTTGG TGGAGATCAT TATTTTAGAT TTAATCATCC AGTAGAAGTC
    CAGAAAGGAA AAAGGCCATC TGGAAGAGAT ACTCCTATAA GTGAGGGTCC AAAAGACTTT
    GAATTTGCAA AAAATGAGTT GCTCATGGCA CAGAGATCAC AACTTGAAGC AGAAATAAAA
    GAGGCTCAGT TGAAGGCAAA GGAAGAAATG ATGCAAGGAA TCCAGATTGC AAAAGAAATG
    GCTCAGCAAG AGCTTTCTTC TCAAAAAGCT GCATATGAAA GCAAAATAAA AGCACTGGAA
    GCAGAACTGA GAGAAGAGTC TCAAAGGAAA AAAATGCAGG AAATAAATAA CCAGAAGGCT
    AATCACAAAA TTGAGGAATT AGAAAAGGCA AAGCAGCATC TTGAACAGGA AATATATGTC
    AACAAAAAGC GATTAGAAAT GGAAACATTG GCTACAAAAC AGGCTTTAGA AGACCATAGC
    ATCCGCCATG CAAGAATTCT GGAAGCTTTA GAAACTGAAA AGCAAAAAAT TGCTAAAGAA
    GTACAAATTC TACAGCAGAA TCGGAATAAT AGGGATAAAA CTTTTACAGT GCAGACAACT
    TGGAGCTCTA TGAAACTCTC AATGATGATT CAGGAAGCCA ATGCTATCAG CAGCAAATTG
    AAAACATACT ATGTTTTTGG CAGACATGAT ATATCAGATA AAAGTAGTTC TGACACTTCT
    ATTCGGGTTC GTAACCTGAA ACTAGGAATC TCAACATTCT GGAGTCTGGA AAAGTTTGAA
    TCTAAACTTG CAGCAATGAA AGAACTTTAT GAGAGTAATG GTAGTAACAG GGGTGAAGAT
    GCCTTTTGTG ATCCTGAAGA TGAATGGGAA CCCGACATTA CAGATGCACC AGTTTCTTCA
    CTTTCTAGAA GGAGGAGTAG GAGTTTGATG AAGAACAGAA GAATTTCTGG TTGTTTACAT
    GACATACAAG TCCATCCAAT TAAGAATTTG CATTCTTCAC ATTCATCAGG TTTAATGGAC
    AAATCAAGCA CTATTTACTC AAATTCAGCA GAGTCCTTTC TTCCTGGAAT TTGCAAAGAA
    TTGATTGGTT CTTCGTTAGA TTTTTTTGGA CAGAGTTATG ATGAAGAAAG AACTATAGCA
    GACAGCCTAA TTAATAGTTT TCTTAAAATT TATAATGGGC TATTTGCCAT TTCCAAGGCT
    CATGAAGAAC AAGATGAAGA AAGTCAAGAT AACTTGTTTT CTTCTGATCG AGCAATCCAG
    TCACTTACTA TTCAGACTGC ATGTGCTTTT GAGCAGCTAG TAGTGCTAAT GAAACACTGG
    CTGAGTGATT TACTGCCTTG TACCAACATA GCAAGACTTG AGGATGAGTT GAGACAAGAA
    GTTAAAAAAC TGGGAGGCTA CTTACAGTTA TTTTTGCAGG GATGCTGTTT GGATATTTCA
    TCAATGATAA AAGAGGCTCA AAAGAATGCA ATCCAAATTG TACAACAAGC TGTAAAGTAT
    GTGGGGCAGT TAGCAGTTCT GAAAGGGAGC AAGCTACATT TTCTAGAAAA CGGTAACAAT
    AAAGCTGCCA GTGTCCAGGA GGAATTCATG GATGCTGTTT GTGATGGTGT AGGCTTAGGA
    ATGAAGATTT TATTAGATTC TGGACTGGAA AAAGCAAAAG AACTTCAGCA TGAACTCTTT
    AGGCAGTGTA CAAAAAATGA GGTTACCAAA GAAATGAAAA CTAATGCCAT GGGATTGATT
    AGATCTCTTG AAAACATCTT TGCTGAATCG AAAATTAAAA GTTTCAGAAG GCAAGTACAA
    GAAGAAAACT TTGAATACCA AGATTTCAAG AGGATGGTTA ATCGTGCTCC AGAATTCTTA
    AAGTTAAAAC ATTGCTTAGA GAAAGCTATT GAAATTATTA TTTCTGCACT GAAAGGATGC
    CATAGTGATA TAAATCTTCT CCAGACTTGT GTTGAAAGTA TTCGCAACTT GGCCAGTGAT
    TTTTACAGTG ACTTCAGTGT GCCTTCTACT TCTGTTGGCA GCTATGAGAG TAGAGTAACT
    CACATTGTCC ACCAGGAACT AGAATCTCTA GCTAAGTCTC TCCTCTTTTG TTTTGAATCT
    GAAGAAAGCC CTGATTTGTT GAAACCCTGG GAAACTTATA ATCAAAATAC CAAAGAAGAA
    CACCAACAAT CTAAATCAAG CGGGATTGAC GGCAGTAAGA ATAAAGGTGT ACCAAAGCGT
    GTCTATGAGC TCCATGGCTC ATCCCCAGCA GTGAGCTCAG AGGAATGCAC ACCCAGTAGG
    ATTCAGTGGG TGTGA

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

    RefSeq XP_011508537.1
    CDS411..4985
    Translation

    Target ORF information:

    RefSeq Version XM_011510235.2
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 14 (KIF14), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011510235.2

    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
    ATGTCATTAC ACAGTACTCA TAATAGAAAT AACAGCGGTG ATATTCTTGA TATTCCTTCT 
    TCCCAAAATA GTTCATCACT GAATGCCCTC ACCCACAGTA GCCGACTTAA GCTGCATTTG
    AAGTCGGATA TGTCAGAATG TGAAAATGAT GATCCATTAT TGAGATCTGC AGATGAAGAT
    CCACAGGTCA TTGAAATGAT GGCTGATAAG AAATACAAAG AAACATTTTC TGCCCCCAGT
    AGAGCAAATG AAAATGTTGC ACTTAAGTAC TCAAGTAATA GACCACCCAT TGCTTCCCTG
    AGTCAGACTG AAGTTGTTAG ATCAGGACAC TTGACAACGA AACCTACTCA GAGCAAGTTG
    GATATCAAAG TGTTGGGAAC AGGAAACTTG TATCATAGAA GTATTGGGAA GGAAATTGCA
    AAAACTTCAA ATAAATTTGG GAGCTTAGAA AAAAGAACAC CTACAAAATG TACAACAGAA
    CACAAACTGA CAACAAAGTG CAGCCTGCCT CAGCTTAAGA GCCCAGCTCC ATCAATACTG
    AAGAATAGAA TGTCTAACCT TCAAGTTAAA CAAAGACCAA AAAGTTCCTT TCTTGCAAAT
    AAACAGGAAA GATCCGCAGA AAATACAATT CTTCCCGAAG AAGAAACTGT AGTTCAGAAC
    ACCTCTGCAG GAAAAGACCC CTTAAAAGTA GAGAATAGTC AAGTGACAGT GGCAGTACGC
    GTAAGACCTT TCACCAAGAG AGAGAAGATT GAAAAAGCAT CCCAGGTAGT CTTCATGAGT
    GGGAAAGAAA TAACTGTGGA ACACCCTGAC ACGAAACAAG TTTATAATTT TATTTATGAT
    GTTTCATTCT GGTCTTTTGA TGAATGTCAT CCTCACTACG CTAGCCAGAC AACTGTCTAT
    GAGAAGCTAG CAGCACCACT CCTAGAAAGA GCCTTCGAAG GCTTCAATAC CTGTCTTTTT
    GCTTATGGTC AGACTGGCTC TGGAAAATCA TATACGATGA TGGGATTTAG TGAAGAACCA
    GGAATAATTC CAAGATTTTG TGAAGATCTT TTTTCTCAAG TAGCCAGAAA ACAAACCCAA
    GAGGTCAGCT ATCACATTGA AATGAGCTTC TTTGAAGTAT ATAATGAAAA AATTCACGAC
    CTTCTGGTTT GTAAAGATGA AAATGGGCAG AGAAAGCAAC CACTGAGAGT GAGGGAACAT
    CCTGTTTATG GACCATATGT TGAAGCACTG TCAATGAACA TTGTCAGTTC TTACGCTGAT
    ATCCAGAGTT GGCTAGAATT GGGAAATAAA CAAAGAGCTA CTGCTGCTAC TGGTATGAAT
    GATAAAAGTT CCCGATCTCA TTCAGTTTTC ACCCTGGTGA TGACCCAGAC CAAGACAGAA
    TTTGTGGAAG GGGAAGAACA CGATCACAGA ATAACAAGTC GAATTAACCT AATAGATCTG
    GCAGGCAGTG AGCGCTGCTC TACGGCTCAC ACTAATGGAG ATCGACTAAA GGAAGGTGTG
    AGTATTAATA AGTCCTTGCT AACTTTGGGA AAAGTTATAT CTGCACTTTC GGAACAAGCA
    AACCAAAGGA GTGTTTTTAT TCCTTATCGT GAATCTGTTC TTACATGGCT GTTAAAAGAA
    AGTCTGGGTG GAAATTCAAA AACTGCAATG ATTGCTACGA TTAGTCCCGC TGCCAGCAAC
    ATAGAAGAAA CATTAAGCAC ACTTAGATAT GCTAACCAAG CCCGTTTAAT AGTCAACATT
    GCTAAAGTAA ATGAAGATAT GAACGCTAAG TTAATTAGAG AATTGAAGGC AGAAATTGCA
    AAGCTAAAAG CTGCTCAGAG AAACAGTCGG AATATTGACC CTGAACGATA CAGGCTCTGT
    CGGCAAGAAA TAACATCCTT AAGAATGAAA CTGCATCAAC AGGAGAGAGA CATGGCAGAA
    ATGCAAAGAG TGTGGAAAGA AAAGTTTGAA CAAGCTGAAA AAAGAAAACT TCAAGAAACA
    AAAGAGTTAC AGAAAGCAGG AATTATGTTT CAAATGGACA ATCATTTACC AAACCTTGTT
    AATCTGAATG AAGATCCACA ACTATCTGAG ATGCTGCTAT ATATGATAAA AGAAGGAACA
    ACTACAGTTG GAAAGTATAA ACCAAACTCA AGCCATGATA TTCAGTTATC TGGGGTGCTG
    ATTGCTGATG ATCATTGTAC TATCAAAAAT TTTGGTGGGA CAGTGAGTAT TATCCCAGTT
    GGGGAAGCAA AGACATATGT AAATGGAAAA CATATTTTGG AAATCACAGT ATTACGTCAT
    GGTGATCGAG TGATTCTTGG TGGAGATCAT TATTTTAGAT TTAATCATCC AGTAGAAGTC
    CAGAAAGGAA AAAGGCCATC TGGAAGAGAT ACTCCTATAA GTGAGGGTCC AAAAGACTTT
    GAATTTGCAA AAAATGAGTT GCTCATGGCA CAGAGATCAC AACTTGAAGC AGAAATAAAA
    GAGGCTCAGT TGAAGGCAAA GGAAGAAATG ATGCAAGGAA TCCAGATTGC AAAAGAAATG
    GCTCAGCAAG AGCTTTCTTC TCAAAAAGCT GCATATGAAA GCAAAATAAA AGCACTGGAA
    GCAGAACTGA GAGAAGAGTC TCAAAGGAAA AAAATGCAGG AAATAAATAA CCAGAAGGCT
    AATCACAAAA TTGAGGAATT AGAAAAGGCA AAGCAGCATC TTGAACAGGA AATATATGTC
    AACAAAAAGC GATTAGAAAT GGAAACATTG GCTACAAAAC AGGCTTTAGA AGACCATAGC
    ATCCGCCATG CAAGAATTCT GGAAGCTTTA GAAACTGAAA AGCAAAAAAT TGCTAAAGAA
    GTACAAATTC TACAGCAGAA TCGGAATAAT AGGGATAAAA CTTTTACAGT GCAGACAACT
    TGGAGCTCTA TGAAACTCTC AATGATGATT CAGGAAGCCA ATGCTATCAG CAGCAAATTG
    AAAACATACT ATGTTTTTGG CAGACATGAT ATATCAGATA AAAGTAGTTC TGACACTTCT
    ATTCGGGTTC GTAACCTGAA ACTAGGAATC TCAACATTCT GGAGTCTGGA AAAGTTTGAA
    TCTAAACTTG CAGCAATGAA AGAACTTTAT GAGAGTAATG GTAGTAACAG GGGTGAAGAT
    GCCTTTTGTG ATCCTGAAGA TGAATGGGAA CCCGACATTA CAGATGCACC AGTTTCTTCA
    CTTTCTAGAA GGAGGAGTAG GAGTTTGATG AAGAACAGAA GAATTTCTGG TTGTTTACAT
    GACATACAAG TCCATCCAAT TAAGAATTTG CATTCTTCAC ATTCATCAGG TTTAATGGAC
    AAATCAAGCA CTATTTACTC AAATTCAGCA GAGTCCTTTC TTCCTGGAAT TTGCAAAGAA
    TTGATTGGTT CTTCGTTAGA TTTTTTTGGA CAGAGTTATG ATGAAGAAAG AACTATAGCA
    GACAGCCTAA TTAATAGTTT TCTTAAAATT TATAATGGGC TATTTGCCAT TTCCAAGGCT
    CATGAAGAAC AAGATGAAGA AAGTCAAGAT AACTTGTTTT CTTCTGATCG AGCAATCCAG
    TCACTTACTA TTCAGACTGC ATGTGCTTTT GAGCAGCTAG TAGTGCTAAT GAAACACTGG
    CTGAGTGATT TACTGCCTTG TACCAACATA GCAAGACTTG AGGATGAGTT GAGACAAGAA
    GTTAAAAAAC TGGGAGGCTA CTTACAGTTA TTTTTGCAGG GATGCTGTTT GGATATTTCA
    TCAATGATAA AAGAGGCTCA AAAGAATGCA ATCCAAATTG TACAACAAGC TGTAAAGTAT
    GTGGGGCAGT TAGCAGTTCT GAAAGGGAGC AAGCTACATT TTCTAGAAAA CGGTAACAAT
    AAAGCTGCCA GTGTCCAGGA GGAATTCATG GATGCTGTTT GTGATGGTGT AGGCTTAGGA
    ATGAAGATTT TATTAGATTC TGGACTGGAA AAAGCAAAAG AACTTCAGCA TGAACTCTTT
    AGGCAGTGTA CAAAAAATGA GGTTACCAAA GAAATGAAAA CTAATGCCAT GGGATTGATT
    AGATCTCTTG AAAACATCTT TGCTGAATCG AAAATTAAAA GTTTCAGAAG GCAAGTACAA
    GAAGAAAACT TTGAATACCA AGATTTCAAG AGGATGGTTA ATCGTGCTCC AGAATTCTTA
    AAGTTAAAAC ATTGCTTAGA GAAAGCTATT GAAATTATTA TTTCTGCACT GAAAGGATGC
    CATAGTGATA TAAATCTTCT CCAGACTTGT GTTGAAAGTA TTCGCAACTT GGCCAGTGAT
    TTTTACAGTG ACTTCAGTGT GCCTTCTACT TCTGTTGGCA GCTATGAGAG TAGAGTAACT
    CACATTGTCC ACCAGGAACT AGAATCTCTA GCTAAGTCTC TCCTCTTTTG TTTTGAATCT
    GAAGAAAGCC CTGATTTGTT GAAACCCTGG GAAACTTATA ATCAAAATAC CAAAGAAGAA
    CACCAACAAT CTAAATCAAG CGGGATTGAC GGCAGTAAGA ATAAAGGTGT ACCAAAGCGT
    GTCTATGAGC TCCATGGCTC ATCCCCAGCA GTGAGCTCAG AGGAATGCAC ACCCAGTAGG
    ATTCAGTGGG TGTGA

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