ORF » Species Summary » Homo sapiens » KIF27 cDNA ORF clone

KIF27 cDNA ORF clone, Homo sapiens(human)

The following KIF27 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the KIF27 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
OHu69497 XM_011518858.2
Latest version!		 Homo sapiens kinesin family member 27 (KIF27), transcript variant X19, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $475.30
$679.00
OHu69497 XM_024447609.1
Latest version!		 Homo sapiens kinesin family member 27 (KIF27), transcript variant X19, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $475.30
$679.00
OHu69498 XM_017014916.1
Latest version!		 Homo sapiens kinesin family member 27 (KIF27), transcript variant X23, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $391.30
$559.00
OHu98747 NM_001354070.2
Latest version!		 Homo sapiens kinesin family member 27 (KIF27), transcript variant 5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OHu98749 NM_001354071.2
Latest version!		 Homo sapiens kinesin family member 27 (KIF27), transcript variant 6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OHu98747 XM_017014912.2
Latest version!		 Homo sapiens kinesin family member 27 (KIF27), transcript variant X20, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OHu98747 XM_017014913.1
Latest version!		 Homo sapiens kinesin family member 27 (KIF27), transcript variant X21, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OHu98747 XM_024447610.1
Latest version!		 Homo sapiens kinesin family member 27 (KIF27), transcript variant X21, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OHu98748 XM_017014914.2
Latest version!		 Homo sapiens kinesin family member 27 (KIF27), transcript variant X22, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OHu98749 XM_017014915.1
Latest version!		 Homo sapiens kinesin family member 27 (KIF27), transcript variant X23, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OHu98745 NM_001354069.2
Latest version!		 Homo sapiens kinesin family member 27 (KIF27), transcript variant 4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu98744 XM_017014909.1
Latest version!		 Homo sapiens kinesin family member 27 (KIF27), transcript variant X14, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu98745 XM_024447608.1
Latest version!		 Homo sapiens kinesin family member 27 (KIF27), transcript variant X15, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu98745 XM_017014910.1
Latest version!		 Homo sapiens kinesin family member 27 (KIF27), transcript variant X15, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu98746 XM_017014911.2
Latest version!		 Homo sapiens kinesin family member 27 (KIF27), transcript variant X18, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OHu04011 NM_001271928.2
Latest version!		 Homo sapiens kinesin family member 27 (KIF27), transcript variant 3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu04011 XM_017014908.1
Latest version!		 Homo sapiens kinesin family member 27 (KIF27), transcript variant X12, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu69493 XM_011518854.2
Latest version!		 Homo sapiens kinesin family member 27 (KIF27), transcript variant X13, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu69495 XM_011518856.2
Latest version!		 Homo sapiens kinesin family member 27 (KIF27), transcript variant X16, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu69496 XM_011518857.2
Latest version!		 Homo sapiens kinesin family member 27 (KIF27), transcript variant X17, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu02862 NM_017576.4
Latest version!		 Homo sapiens kinesin family member 27 (KIF27), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu04010 NM_001271927.2
Latest version!		 Homo sapiens kinesin family member 27 (KIF27), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu02862 XM_017014904.1
Latest version!		 Homo sapiens kinesin family member 27 (KIF27), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu02862 XM_017014903.1
Latest version!		 Homo sapiens kinesin family member 27 (KIF27), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu04010 XM_017014907.1
Latest version!		 Homo sapiens kinesin family member 27 (KIF27), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu69489 XM_017014900.1
Latest version!		 Homo sapiens kinesin family member 27 (KIF27), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu69489 XM_017014901.2
Latest version!		 Homo sapiens kinesin family member 27 (KIF27), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu69489 XM_017014902.1
Latest version!		 Homo sapiens kinesin family member 27 (KIF27), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu69489 XM_011518849.2
Latest version!		 Homo sapiens kinesin family member 27 (KIF27), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu69489 XM_011518848.3
Latest version!		 Homo sapiens kinesin family member 27 (KIF27), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu69489 XM_011518850.2
Latest version!		 Homo sapiens kinesin family member 27 (KIF27), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu69491 XM_017014905.1
Latest version!		 Homo sapiens kinesin family member 27 (KIF27), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu69492 XM_017014906.1
Latest version!		 Homo sapiens kinesin family member 27 (KIF27), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
View Old Accession Versions >>
OHu98747 XM_017014912.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant X20, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OHu98745 NM_001354069.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant 4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu02862 NM_017576.2 Homo sapiens kinesin family member 27 (KIF27), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu02862 NM_017576.3 Homo sapiens kinesin family member 27 (KIF27), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu69489 XM_017014901.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu04010 NM_001271927.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu98747 NM_001354070.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant 5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OHu69489 XM_011518848.2 Homo sapiens kinesin family member 27 (KIF27), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu98746 XM_017014911.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant X18, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OHu98749 NM_001354071.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant 6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OHu04011 NM_001271928.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant 3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu98748 XM_017014914.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant X22, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
Hide Old Accession Versions >>

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** 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)
    KIF27 ( XM_024447609.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024303377.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant X19, mRNA.
    Price & Availability↑
    CloneID OHu69497
    Clone ID Related Accession (Same CDS sequence) XM_024447609.1 , XM_011518858.2
    Accession Version XM_024447609.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2844bp)
    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 KIF27 isoform X13
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) 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
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    181
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    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
    ATGAAAAAGG AAACACAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGCCCCTGGC AAAAACCACT 
    TTACTTTCTA CTTCTATGGA TTTGCCTATT CTAAACATTT CATACAACTG GAATCATACA 
    AATGAAAAAA TAATAGAACA ACAACTTCTT GTGGATCAAC TGAGTGAAGA ACTAACAAAA 
    CTTAACCTGT CAGTGACTTC TTCAGCTAAA GAAAATTGTG GAGATGGGCC AGATGCCAGG 
    ATCCCTGAAA GGAGACCATA TACTGTACCA TTTGATACTC ATTTGGGGCA TTATATTTAT 
    ATCCCATCAA GACAAGATTC CAGGAAGGTC CACACAAGTC CGCCTATGTA CTCTCTGGAT 
    CGAATATTTG CTGGATTTCG AACACGAAGT CAGATGCTGT TGGGTCACAT AGAAGAACAA 
    GATAAGGTCC TCCACTGCCA ATTTTCTGAT AACAGTGATG ATGAAGAATC AGAAGGCCAA 
    GAGAAATCTG GAACTAGATG TAGAAGTCGT TCATGGATTC AGAAGCCAGA CTCTGTTTGT 
    TCCCTTGTTG AATTGAGTGA TACTCAGGAT GAAACACAAA AGTCAGATTT GGAGAATGAA 
    GATTTAAAGA TTGATTGTCT CCAGGAGAGT CAAGAATTGA ATTTGCAAAA ATTAAAGAAT 
    TCAGAACGCA TACTTACTGA AGCTAAACAA AAAATGAGAG AACTTACAAT TAACATCAAG 
    ATGAAGGAAG ATCTGATTAA AGAATTAATA AAAACAGGTA ATGATGCCAA GTCTGTAAGC 
    AAGCAGTATT CTTTGAAAGT AACAAAGCTA GAGCATGATG CAGAACAGGC AAAAGTCGAA 
    CTGATTGAAA CACAAAAGCA GCTACAGGAG CTGGAAAACA AAGATCTTTC TGATGTTGCA 
    ATGAAGGTAA AATTACAGAA AGAGTTTCGT AAAAAGATGG ATGCTGCAAA GCTGAGAGTT 
    CAGGTCTTGC AGAAGAAGCA ACAAGATAGT AAGAAACTGG CATCACTGTC AATCCAAAAT 
    GAGAAACGTG CTAATGAGCT AGAGCAGAGT GTAGATCACA TGAAATATCA AAAGATACAG 
    CTACAAAGAA AACTACGAGA AGAAAATGAA AAAAGGAAGC AACTGGATGC AGTAATTAAG 
    CGGGACCAGC AAAAAATCAA AGAAATACAA TTAAAAACAG GACAGGAAGA AGGTCTAAAA 
    CCGAAAGCTG AGGACCTTGA TGCATGTAAC TTGAAAAGGA GAAAAGGTTC GTTTGGAAGT 
    ATAGACCATC TCCAGAAATT GGATGAGCAA AAGAAATGGT TAGATGAAGA AGTAGAGAAA 
    GTTCTGAACC AACGCCAAGA ATTAGAGGAG CTGGAAGCAG ACTTAAAGAA ACGGGAGGCC 
    ATAGTTTCTA AGAAGGAGGC TCTGTTACAG GAGAAGAGTC ACCTGGAAAA TAAGAAATTG 
    AGATCTAGTC AGGCCTTAAA CACAGATAGT TTGAAAATAT CAACTCGCCT GAACTTACTG 
    GAACAAGAGT TGTCTGAAAA GAATGTGCAG CTCCAGACCA GTACAGCTGA GGAGAAAACA 
    AAGATTTCAG AACAAGTTGA AGTCCTCCAG AAAGAAAAGG ATCAGCTCCA GAAACGCAGA 
    CACAATGTGG ATGAAAAACT TAAAAATGGT AGAGTGTTAT CACCTGAAGA AGAACATGTT 
    CTTTTCCAAC TTGAAGAAGG GATTGAAGCT TTGGAAGCTG CAATTGAATA CAGGAATGAA 
    AGTATCCAGA ATCGCCAGAA GTCACTTAGA GCATCATTCC ATAACCTCTC TCGTGGTGAA 
    GCAAATGTCT TGGAAAAGCT AGCTTGCCTG AGTCCTGTTG AGATTAGAAC TATTCTTTTC 
    AGATATTTCA ATAAGGTGGT GAATTTGCGA GAAGCTGAAC GGAAACAACA GTTATATAAT 
    GAAGAAATGA AAATGAAAGT TCTGGAACGG GATAATATGG TTCGTGAATT AGAATCTGCA 
    CTGGACCATC TAAAATTGCA GTGTGACCGG AGACTGACCC TCCAGCAAAA GGAACACGAA 
    CAAAAGATGC AGTTGCTATT ACATCATTTC AAAGAACAAG ATGGAGAAGG CATTATGGAA 
    ACTTTCAAAA CATATGAAGA TAAAATCCAG CAGTTGGAAA AAGATCTTTA TTTCTATAAG 
    AAAACCAGCC GGGATCATAA GAAGAAACTT AAGGAACTGG TAGGGGAAGC AATTCGGCGG 
    CAACTAGCAC CATCAGAGTA TCAAGAGGCT GGAGATGGAG TCCTGAAGCC AGAAGGAGGA 
    GGCATGCTTT CAGAAGAATT AAAATGGGCA TCCAGACCTG AAAGTATGAA ATTAAGTGGA 
    AGAGAAAGAG AAATGGACAG TTCAGCAAGC AGCTTAAGAA CACAGCCAAA TCCTCAAAAG 
    CTCTGGGAAG ATATCCCAGA ATTACCTCCA ATTCATAGTT CTTTAGCACC CCCCAGTGGG 
    CATATGTTAG GTAATGAGAA TAAAACAGAA ACAGATGATA ATCAGTTTAC AAAATCTCAC 
    AGTCGACTGT CATCCCAAAT TCAGGTTGTG GGAAATGTGG GACGACTTCA TGGTGTCACA 
    CCTGTAAAAC TGTGTCGAAA AGAATTACGT CAAATTTCCG CCTTGGAACT ATCATTGCGA 
    CGTTCCAGTC TTGGAGTTGG CATTGGATCA ATGGCTGCTG ATTCCATCGA AGTATCTAGG 
    AAACCAAGGG ACTTAAAAAC TTAG

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

    RefSeq XP_024303377.1
    CDS665..3508
    Translation

    Target ORF information:

    RefSeq Version XM_024447609.1
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant X19, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024447609.1

    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
    ATGAAAAAGG AAACACAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGCCCCTGGC AAAAACCACT 
    TTACTTTCTA CTTCTATGGA TTTGCCTATT CTAAACATTT CATACAACTG GAATCATACA 
    AATGAAAAAA TAATAGAACA ACAACTTCTT GTGGATCAAC TGAGTGAAGA ACTAACAAAA 
    CTTAACCTGT CAGTGACTTC TTCAGCTAAA GAAAATTGTG GAGATGGGCC AGATGCCAGG 
    ATCCCTGAAA GGAGACCATA TACTGTACCA TTTGATACTC ATTTGGGGCA TTATATTTAT 
    ATCCCATCAA GACAAGATTC CAGGAAGGTC CACACAAGTC CGCCTATGTA CTCTCTGGAT 
    CGAATATTTG CTGGATTTCG AACACGAAGT CAGATGCTGT TGGGTCACAT AGAAGAACAA 
    GATAAGGTCC TCCACTGCCA ATTTTCTGAT AACAGTGATG ATGAAGAATC AGAAGGCCAA 
    GAGAAATCTG GAACTAGATG TAGAAGTCGT TCATGGATTC AGAAGCCAGA CTCTGTTTGT 
    TCCCTTGTTG AATTGAGTGA TACTCAGGAT GAAACACAAA AGTCAGATTT GGAGAATGAA 
    GATTTAAAGA TTGATTGTCT CCAGGAGAGT CAAGAATTGA ATTTGCAAAA ATTAAAGAAT 
    TCAGAACGCA TACTTACTGA AGCTAAACAA AAAATGAGAG AACTTACAAT TAACATCAAG 
    ATGAAGGAAG ATCTGATTAA AGAATTAATA AAAACAGGTA ATGATGCCAA GTCTGTAAGC 
    AAGCAGTATT CTTTGAAAGT AACAAAGCTA GAGCATGATG CAGAACAGGC AAAAGTCGAA 
    CTGATTGAAA CACAAAAGCA GCTACAGGAG CTGGAAAACA AAGATCTTTC TGATGTTGCA 
    ATGAAGGTAA AATTACAGAA AGAGTTTCGT AAAAAGATGG ATGCTGCAAA GCTGAGAGTT 
    CAGGTCTTGC AGAAGAAGCA ACAAGATAGT AAGAAACTGG CATCACTGTC AATCCAAAAT 
    GAGAAACGTG CTAATGAGCT AGAGCAGAGT GTAGATCACA TGAAATATCA AAAGATACAG 
    CTACAAAGAA AACTACGAGA AGAAAATGAA AAAAGGAAGC AACTGGATGC AGTAATTAAG 
    CGGGACCAGC AAAAAATCAA AGAAATACAA TTAAAAACAG GACAGGAAGA AGGTCTAAAA 
    CCGAAAGCTG AGGACCTTGA TGCATGTAAC TTGAAAAGGA GAAAAGGTTC GTTTGGAAGT 
    ATAGACCATC TCCAGAAATT GGATGAGCAA AAGAAATGGT TAGATGAAGA AGTAGAGAAA 
    GTTCTGAACC AACGCCAAGA ATTAGAGGAG CTGGAAGCAG ACTTAAAGAA ACGGGAGGCC 
    ATAGTTTCTA AGAAGGAGGC TCTGTTACAG GAGAAGAGTC ACCTGGAAAA TAAGAAATTG 
    AGATCTAGTC AGGCCTTAAA CACAGATAGT TTGAAAATAT CAACTCGCCT GAACTTACTG 
    GAACAAGAGT TGTCTGAAAA GAATGTGCAG CTCCAGACCA GTACAGCTGA GGAGAAAACA 
    AAGATTTCAG AACAAGTTGA AGTCCTCCAG AAAGAAAAGG ATCAGCTCCA GAAACGCAGA 
    CACAATGTGG ATGAAAAACT TAAAAATGGT AGAGTGTTAT CACCTGAAGA AGAACATGTT 
    CTTTTCCAAC TTGAAGAAGG GATTGAAGCT TTGGAAGCTG CAATTGAATA CAGGAATGAA 
    AGTATCCAGA ATCGCCAGAA GTCACTTAGA GCATCATTCC ATAACCTCTC TCGTGGTGAA 
    GCAAATGTCT TGGAAAAGCT AGCTTGCCTG AGTCCTGTTG AGATTAGAAC TATTCTTTTC 
    AGATATTTCA ATAAGGTGGT GAATTTGCGA GAAGCTGAAC GGAAACAACA GTTATATAAT 
    GAAGAAATGA AAATGAAAGT TCTGGAACGG GATAATATGG TTCGTGAATT AGAATCTGCA 
    CTGGACCATC TAAAATTGCA GTGTGACCGG AGACTGACCC TCCAGCAAAA GGAACACGAA 
    CAAAAGATGC AGTTGCTATT ACATCATTTC AAAGAACAAG ATGGAGAAGG CATTATGGAA 
    ACTTTCAAAA CATATGAAGA TAAAATCCAG CAGTTGGAAA AAGATCTTTA TTTCTATAAG 
    AAAACCAGCC GGGATCATAA GAAGAAACTT AAGGAACTGG TAGGGGAAGC AATTCGGCGG 
    CAACTAGCAC CATCAGAGTA TCAAGAGGCT GGAGATGGAG TCCTGAAGCC AGAAGGAGGA 
    GGCATGCTTT CAGAAGAATT AAAATGGGCA TCCAGACCTG AAAGTATGAA ATTAAGTGGA 
    AGAGAAAGAG AAATGGACAG TTCAGCAAGC AGCTTAAGAA CACAGCCAAA TCCTCAAAAG 
    CTCTGGGAAG ATATCCCAGA ATTACCTCCA ATTCATAGTT CTTTAGCACC CCCCAGTGGG 
    CATATGTTAG GTAATGAGAA TAAAACAGAA ACAGATGATA ATCAGTTTAC AAAATCTCAC 
    AGTCGACTGT CATCCCAAAT TCAGGTTGTG GGAAATGTGG GACGACTTCA TGGTGTCACA 
    CCTGTAAAAC TGTGTCGAAA AGAATTACGT CAAATTTCCG CCTTGGAACT ATCATTGCGA 
    CGTTCCAGTC TTGGAGTTGG CATTGGATCA ATGGCTGCTG ATTCCATCGA AGTATCTAGG 
    AAACCAAGGG ACTTAAAAAC TTAG

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

    KIF27 ( XM_011518858.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011517160.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant X19, mRNA.
    Price & Availability↑
    CloneID OHu69497
    Clone ID Related Accession (Same CDS sequence) XM_024447609.1 , XM_011518858.2
    Accession Version XM_011518858.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2844bp)
    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 2016-06-05
    Organism Homo sapiens(human)
    Product kinesin-like protein KIF27 isoform X13
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) 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_011518858.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    ATGAAAAAGG AAACACAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGCCCCTGGC AAAAACCACT 
    TTACTTTCTA CTTCTATGGA TTTGCCTATT CTAAACATTT CATACAACTG GAATCATACA 
    AATGAAAAAA TAATAGAACA ACAACTTCTT GTGGATCAAC TGAGTGAAGA ACTAACAAAA 
    CTTAACCTGT CAGTGACTTC TTCAGCTAAA GAAAATTGTG GAGATGGGCC AGATGCCAGG 
    ATCCCTGAAA GGAGACCATA TACTGTACCA TTTGATACTC ATTTGGGGCA TTATATTTAT 
    ATCCCATCAA GACAAGATTC CAGGAAGGTC CACACAAGTC CGCCTATGTA CTCTCTGGAT 
    CGAATATTTG CTGGATTTCG AACACGAAGT CAGATGCTGT TGGGTCACAT AGAAGAACAA 
    GATAAGGTCC TCCACTGCCA ATTTTCTGAT AACAGTGATG ATGAAGAATC AGAAGGCCAA 
    GAGAAATCTG GAACTAGATG TAGAAGTCGT TCATGGATTC AGAAGCCAGA CTCTGTTTGT 
    TCCCTTGTTG AATTGAGTGA TACTCAGGAT GAAACACAAA AGTCAGATTT GGAGAATGAA 
    GATTTAAAGA TTGATTGTCT CCAGGAGAGT CAAGAATTGA ATTTGCAAAA ATTAAAGAAT 
    TCAGAACGCA TACTTACTGA AGCTAAACAA AAAATGAGAG AACTTACAAT TAACATCAAG 
    ATGAAGGAAG ATCTGATTAA AGAATTAATA AAAACAGGTA ATGATGCCAA GTCTGTAAGC 
    AAGCAGTATT CTTTGAAAGT AACAAAGCTA GAGCATGATG CAGAACAGGC AAAAGTCGAA 
    CTGATTGAAA CACAAAAGCA GCTACAGGAG CTGGAAAACA AAGATCTTTC TGATGTTGCA 
    ATGAAGGTAA AATTACAGAA AGAGTTTCGT AAAAAGATGG ATGCTGCAAA GCTGAGAGTT 
    CAGGTCTTGC AGAAGAAGCA ACAAGATAGT AAGAAACTGG CATCACTGTC AATCCAAAAT 
    GAGAAACGTG CTAATGAGCT AGAGCAGAGT GTAGATCACA TGAAATATCA AAAGATACAG 
    CTACAAAGAA AACTACGAGA AGAAAATGAA AAAAGGAAGC AACTGGATGC AGTAATTAAG 
    CGGGACCAGC AAAAAATCAA AGAAATACAA TTAAAAACAG GACAGGAAGA AGGTCTAAAA 
    CCGAAAGCTG AGGACCTTGA TGCATGTAAC TTGAAAAGGA GAAAAGGTTC GTTTGGAAGT 
    ATAGACCATC TCCAGAAATT GGATGAGCAA AAGAAATGGT TAGATGAAGA AGTAGAGAAA 
    GTTCTGAACC AACGCCAAGA ATTAGAGGAG CTGGAAGCAG ACTTAAAGAA ACGGGAGGCC 
    ATAGTTTCTA AGAAGGAGGC TCTGTTACAG GAGAAGAGTC ACCTGGAAAA TAAGAAATTG 
    AGATCTAGTC AGGCCTTAAA CACAGATAGT TTGAAAATAT CAACTCGCCT GAACTTACTG 
    GAACAAGAGT TGTCTGAAAA GAATGTGCAG CTCCAGACCA GTACAGCTGA GGAGAAAACA 
    AAGATTTCAG AACAAGTTGA AGTCCTCCAG AAAGAAAAGG ATCAGCTCCA GAAACGCAGA 
    CACAATGTGG ATGAAAAACT TAAAAATGGT AGAGTGTTAT CACCTGAAGA AGAACATGTT 
    CTTTTCCAAC TTGAAGAAGG GATTGAAGCT TTGGAAGCTG CAATTGAATA CAGGAATGAA 
    AGTATCCAGA ATCGCCAGAA GTCACTTAGA GCATCATTCC ATAACCTCTC TCGTGGTGAA 
    GCAAATGTCT TGGAAAAGCT AGCTTGCCTG AGTCCTGTTG AGATTAGAAC TATTCTTTTC 
    AGATATTTCA ATAAGGTGGT GAATTTGCGA GAAGCTGAAC GGAAACAACA GTTATATAAT 
    GAAGAAATGA AAATGAAAGT TCTGGAACGG GATAATATGG TTCGTGAATT AGAATCTGCA 
    CTGGACCATC TAAAATTGCA GTGTGACCGG AGACTGACCC TCCAGCAAAA GGAACACGAA 
    CAAAAGATGC AGTTGCTATT ACATCATTTC AAAGAACAAG ATGGAGAAGG CATTATGGAA 
    ACTTTCAAAA CATATGAAGA TAAAATCCAG CAGTTGGAAA AAGATCTTTA TTTCTATAAG 
    AAAACCAGCC GGGATCATAA GAAGAAACTT AAGGAACTGG TAGGGGAAGC AATTCGGCGG 
    CAACTAGCAC CATCAGAGTA TCAAGAGGCT GGAGATGGAG TCCTGAAGCC AGAAGGAGGA 
    GGCATGCTTT CAGAAGAATT AAAATGGGCA TCCAGACCTG AAAGTATGAA ATTAAGTGGA 
    AGAGAAAGAG AAATGGACAG TTCAGCAAGC AGCTTAAGAA CACAGCCAAA TCCTCAAAAG 
    CTCTGGGAAG ATATCCCAGA ATTACCTCCA ATTCATAGTT CTTTAGCACC CCCCAGTGGG 
    CATATGTTAG GTAATGAGAA TAAAACAGAA ACAGATGATA ATCAGTTTAC AAAATCTCAC 
    AGTCGACTGT CATCCCAAAT TCAGGTTGTG GGAAATGTGG GACGACTTCA TGGTGTCACA 
    CCTGTAAAAC TGTGTCGAAA AGAATTACGT CAAATTTCCG CCTTGGAACT ATCATTGCGA 
    CGTTCCAGTC TTGGAGTTGG CATTGGATCA ATGGCTGCTG ATTCCATCGA AGTATCTAGG 
    AAACCAAGGG ACTTAAAAAC TTAG

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

    RefSeq XP_011517160.1
    CDS97..2940
    Translation

    Target ORF information:

    RefSeq Version XM_011518858.2
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant X19, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011518858.2

    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
    ATGAAAAAGG AAACACAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGCCCCTGGC AAAAACCACT 
    TTACTTTCTA CTTCTATGGA TTTGCCTATT CTAAACATTT CATACAACTG GAATCATACA 
    AATGAAAAAA TAATAGAACA ACAACTTCTT GTGGATCAAC TGAGTGAAGA ACTAACAAAA 
    CTTAACCTGT CAGTGACTTC TTCAGCTAAA GAAAATTGTG GAGATGGGCC AGATGCCAGG 
    ATCCCTGAAA GGAGACCATA TACTGTACCA TTTGATACTC ATTTGGGGCA TTATATTTAT 
    ATCCCATCAA GACAAGATTC CAGGAAGGTC CACACAAGTC CGCCTATGTA CTCTCTGGAT 
    CGAATATTTG CTGGATTTCG AACACGAAGT CAGATGCTGT TGGGTCACAT AGAAGAACAA 
    GATAAGGTCC TCCACTGCCA ATTTTCTGAT AACAGTGATG ATGAAGAATC AGAAGGCCAA 
    GAGAAATCTG GAACTAGATG TAGAAGTCGT TCATGGATTC AGAAGCCAGA CTCTGTTTGT 
    TCCCTTGTTG AATTGAGTGA TACTCAGGAT GAAACACAAA AGTCAGATTT GGAGAATGAA 
    GATTTAAAGA TTGATTGTCT CCAGGAGAGT CAAGAATTGA ATTTGCAAAA ATTAAAGAAT 
    TCAGAACGCA TACTTACTGA AGCTAAACAA AAAATGAGAG AACTTACAAT TAACATCAAG 
    ATGAAGGAAG ATCTGATTAA AGAATTAATA AAAACAGGTA ATGATGCCAA GTCTGTAAGC 
    AAGCAGTATT CTTTGAAAGT AACAAAGCTA GAGCATGATG CAGAACAGGC AAAAGTCGAA 
    CTGATTGAAA CACAAAAGCA GCTACAGGAG CTGGAAAACA AAGATCTTTC TGATGTTGCA 
    ATGAAGGTAA AATTACAGAA AGAGTTTCGT AAAAAGATGG ATGCTGCAAA GCTGAGAGTT 
    CAGGTCTTGC AGAAGAAGCA ACAAGATAGT AAGAAACTGG CATCACTGTC AATCCAAAAT 
    GAGAAACGTG CTAATGAGCT AGAGCAGAGT GTAGATCACA TGAAATATCA AAAGATACAG 
    CTACAAAGAA AACTACGAGA AGAAAATGAA AAAAGGAAGC AACTGGATGC AGTAATTAAG 
    CGGGACCAGC AAAAAATCAA AGAAATACAA TTAAAAACAG GACAGGAAGA AGGTCTAAAA 
    CCGAAAGCTG AGGACCTTGA TGCATGTAAC TTGAAAAGGA GAAAAGGTTC GTTTGGAAGT 
    ATAGACCATC TCCAGAAATT GGATGAGCAA AAGAAATGGT TAGATGAAGA AGTAGAGAAA 
    GTTCTGAACC AACGCCAAGA ATTAGAGGAG CTGGAAGCAG ACTTAAAGAA ACGGGAGGCC 
    ATAGTTTCTA AGAAGGAGGC TCTGTTACAG GAGAAGAGTC ACCTGGAAAA TAAGAAATTG 
    AGATCTAGTC AGGCCTTAAA CACAGATAGT TTGAAAATAT CAACTCGCCT GAACTTACTG 
    GAACAAGAGT TGTCTGAAAA GAATGTGCAG CTCCAGACCA GTACAGCTGA GGAGAAAACA 
    AAGATTTCAG AACAAGTTGA AGTCCTCCAG AAAGAAAAGG ATCAGCTCCA GAAACGCAGA 
    CACAATGTGG ATGAAAAACT TAAAAATGGT AGAGTGTTAT CACCTGAAGA AGAACATGTT 
    CTTTTCCAAC TTGAAGAAGG GATTGAAGCT TTGGAAGCTG CAATTGAATA CAGGAATGAA 
    AGTATCCAGA ATCGCCAGAA GTCACTTAGA GCATCATTCC ATAACCTCTC TCGTGGTGAA 
    GCAAATGTCT TGGAAAAGCT AGCTTGCCTG AGTCCTGTTG AGATTAGAAC TATTCTTTTC 
    AGATATTTCA ATAAGGTGGT GAATTTGCGA GAAGCTGAAC GGAAACAACA GTTATATAAT 
    GAAGAAATGA AAATGAAAGT TCTGGAACGG GATAATATGG TTCGTGAATT AGAATCTGCA 
    CTGGACCATC TAAAATTGCA GTGTGACCGG AGACTGACCC TCCAGCAAAA GGAACACGAA 
    CAAAAGATGC AGTTGCTATT ACATCATTTC AAAGAACAAG ATGGAGAAGG CATTATGGAA 
    ACTTTCAAAA CATATGAAGA TAAAATCCAG CAGTTGGAAA AAGATCTTTA TTTCTATAAG 
    AAAACCAGCC GGGATCATAA GAAGAAACTT AAGGAACTGG TAGGGGAAGC AATTCGGCGG 
    CAACTAGCAC CATCAGAGTA TCAAGAGGCT GGAGATGGAG TCCTGAAGCC AGAAGGAGGA 
    GGCATGCTTT CAGAAGAATT AAAATGGGCA TCCAGACCTG AAAGTATGAA ATTAAGTGGA 
    AGAGAAAGAG AAATGGACAG TTCAGCAAGC AGCTTAAGAA CACAGCCAAA TCCTCAAAAG 
    CTCTGGGAAG ATATCCCAGA ATTACCTCCA ATTCATAGTT CTTTAGCACC CCCCAGTGGG 
    CATATGTTAG GTAATGAGAA TAAAACAGAA ACAGATGATA ATCAGTTTAC AAAATCTCAC 
    AGTCGACTGT CATCCCAAAT TCAGGTTGTG GGAAATGTGG GACGACTTCA TGGTGTCACA 
    CCTGTAAAAC TGTGTCGAAA AGAATTACGT CAAATTTCCG CCTTGGAACT ATCATTGCGA 
    CGTTCCAGTC TTGGAGTTGG CATTGGATCA ATGGCTGCTG ATTCCATCGA AGTATCTAGG 
    AAACCAAGGG ACTTAAAAAC TTAG

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

    KIF27 ( XM_017014916.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016870405.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant X23, mRNA.
    Price & Availability↑
    CloneID OHu69498
    Clone ID Related Accession (Same CDS sequence) XM_017014916.1
    Accession Version XM_017014916.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2379bp)
    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 KIF27 isoform X16
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) 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
    ATGTACTCTC TGGATCGAAT ATTTGCTGGA TTTCGAACAC GAAGTCAGAT GCTGTTGGGT 
    CACATAGAAG AACAAGATAA GGTCCTCCAC TGCCAATTTT CTGATAACAG TGATGATGAA 
    GAATCAGAAG GCCAAGAGAA ATCTGGAACT AGATGTAGAA GTCGTTCATG GATTCAGAAG 
    CCAGACTCTG TTTGTTCCCT TGTTGAATTG AGTGATACTC AGGATGAAAC ACAAAAGTCA 
    GATTTGGAGA ATGAAGATTT AAAGATTGAT TGTCTCCAGG AGAGTCAAGA ATTGAATTTG 
    CAAAAATTAA AGAATTCAGA ACGCATACTT ACTGAAGCTA AACAAAAAAT GAGAGAACTT 
    ACAATTAACA TCAAGATGAA GGAAGATCTG ATTAAAGAAT TAATAAAAAC AGGTAATGAT 
    GCCAAGTCTG TAAGCAAGCA GTATTCTTTG AAAGTAACAA AGCTAGAGCA TGATGCAGAA 
    CAGGCAAAAG TCGAACTGAT TGAAACACAA AAGCAGCTAC AGGAGCTGGA AAACAAAGAT 
    CTTTCTGATG TTGCAATGAA GGTAAAATTA CAGAAAGAGT TTCGTAAAAA GATGGATGCT 
    GCAAAGCTGA GAGTTCAGGT CTTGCAGAAG AAGCAACAAG ATAGTAAGAA ACTGGCATCA 
    CTGTCAATCC AAAATGAGAA ACGTGCTAAT GAGCTAGAGC AGAGTGTAGA TCACATGAAA 
    TATCAAAAGA TACAGCTACA AAGAAAACTA CGAGAAGAAA ATGAAAAAAG GAAGCAACTG 
    GATGCAGTAA TTAAGCGGGA CCAGCAAAAA ATCAAAGAAA TACAATTAAA AACAGGACAG 
    GAAGAAGGTC TAAAACCGAA AGCTGAGGAC CTTGATGCAT GTAACTTGAA AAGGAGAAAA 
    GGTTCGTTTG GAAGTATAGA CCATCTCCAG AAATTGGATG AGCAAAAGAA ATGGTTAGAT 
    GAAGAAGTAG AGAAAGTTCT GAACCAACGC CAAGAATTAG AGGAGCTGGA AGCAGACTTA 
    AAGAAACGGG AGGCCATAGT TTCTAAGAAG GAGGCTCTGT TACAGGAGAA GAGTCACCTG 
    GAAAATAAGA AATTGAGATC TAGTCAGGCC TTAAACACAG ATAGTTTGAA AATATCAACT 
    CGCCTGAACT TACTGGAACA AGAGTTGTCT GAAAAGAATG TGCAGCTCCA GACCAGTACA 
    GCTGAGGAGA AAACAAAGAT TTCAGAACAA GTTGAAGTCC TCCAGAAAGA AAAGGATCAG 
    CTCCAGAAAC GCAGACACAA TGTGGATGAA AAACTTAAAA ATGGTAGAGT GTTATCACCT 
    GAAGAAGAAC ATGTTCTTTT CCAACTTGAA GAAGGGATTG AAGCTTTGGA AGCTGCAATT 
    GAATACAGGA ATGAAAGTAT CCAGAATCGC CAGAAGTCAC TTAGAGCATC ATTCCATAAC 
    CTCTCTCGTG GTGAAGCAAA TGTCTTGGAA AAGCTAGCTT GCCTGAGTCC TGTTGAGATT 
    AGAACTATTC TTTTCAGATA TTTCAATAAG GTGGTGAATT TGCGAGAAGC TGAACGGAAA 
    CAACAGTTAT ATAATGAAGA AATGAAAATG AAAGTTCTGG AACGGGATAA TATGGTTCGT 
    GAATTAGAAT CTGCACTGGA CCATCTAAAA TTGCAGTGTG ACCGGAGACT GACCCTCCAG 
    CAAAAGGAAC ACGAACAAAA GATGCAGTTG CTATTACATC ATTTCAAAGA ACAAGATGGA 
    GAAGGCATTA TGGAAACTTT CAAAACATAT GAAGATAAAA TCCAGCAGTT GGAAAAAGAT 
    CTTTATTTCT ATAAGAAAAC CAGCCGGGAT CATAAGAAGA AACTTAAGGA ACTGGTAGGG 
    GAAGCAATTC GGCGGCAACT AGCACCATCA GAGTATCAAG AGGCTGGAGA TGGAGTCCTG 
    AAGCCAGAAG GAGGAGGCAT GCTTTCAGAA GAATTAAAAT GGGCATCCAG ACCTGAAAGT 
    ATGAAATTAA GTGGAAGAGA AAGAGAAATG GACAGTTCAG CAAGCAGCTT AAGAACACAG 
    CCAAATCCTC AAAAGCTCTG GGAAGATATC CCAGAATTAC CTCCAATTCA TAGTTCTTTA 
    GCACCCCCCA GTGGGCATAT GTTAGGTAAT GAGAATAAAA CAGAAACAGA TGATAATCAG 
    TTTACAAAAT CTCACAGTCG ACTGTCATCC CAAATTCAGG TTGTGGGAAA TGTGGGACGA 
    CTTCATGGTG TCACACCTGT AAAACTGTGT CGAAAAGAAT TACGTCAAAT TTCCGCCTTG 
    GAACTATCAT TGCGACGTTC CAGTCTTGGA GTTGGCATTG GATCAATGGC TGCTGATTCC 
    ATCGAAGTAT CTAGGAAACC AAGGGACTTA AAAACTTAG

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

    RefSeq XP_016870405.1
    CDS1816..4194
    Translation

    Target ORF information:

    RefSeq Version XM_017014916.1
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant X23, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017014916.1

    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
    ATGTACTCTC TGGATCGAAT ATTTGCTGGA TTTCGAACAC GAAGTCAGAT GCTGTTGGGT 
    CACATAGAAG AACAAGATAA GGTCCTCCAC TGCCAATTTT CTGATAACAG TGATGATGAA 
    GAATCAGAAG GCCAAGAGAA ATCTGGAACT AGATGTAGAA GTCGTTCATG GATTCAGAAG 
    CCAGACTCTG TTTGTTCCCT TGTTGAATTG AGTGATACTC AGGATGAAAC ACAAAAGTCA 
    GATTTGGAGA ATGAAGATTT AAAGATTGAT TGTCTCCAGG AGAGTCAAGA ATTGAATTTG 
    CAAAAATTAA AGAATTCAGA ACGCATACTT ACTGAAGCTA AACAAAAAAT GAGAGAACTT 
    ACAATTAACA TCAAGATGAA GGAAGATCTG ATTAAAGAAT TAATAAAAAC AGGTAATGAT 
    GCCAAGTCTG TAAGCAAGCA GTATTCTTTG AAAGTAACAA AGCTAGAGCA TGATGCAGAA 
    CAGGCAAAAG TCGAACTGAT TGAAACACAA AAGCAGCTAC AGGAGCTGGA AAACAAAGAT 
    CTTTCTGATG TTGCAATGAA GGTAAAATTA CAGAAAGAGT TTCGTAAAAA GATGGATGCT 
    GCAAAGCTGA GAGTTCAGGT CTTGCAGAAG AAGCAACAAG ATAGTAAGAA ACTGGCATCA 
    CTGTCAATCC AAAATGAGAA ACGTGCTAAT GAGCTAGAGC AGAGTGTAGA TCACATGAAA 
    TATCAAAAGA TACAGCTACA AAGAAAACTA CGAGAAGAAA ATGAAAAAAG GAAGCAACTG 
    GATGCAGTAA TTAAGCGGGA CCAGCAAAAA ATCAAAGAAA TACAATTAAA AACAGGACAG 
    GAAGAAGGTC TAAAACCGAA AGCTGAGGAC CTTGATGCAT GTAACTTGAA AAGGAGAAAA 
    GGTTCGTTTG GAAGTATAGA CCATCTCCAG AAATTGGATG AGCAAAAGAA ATGGTTAGAT 
    GAAGAAGTAG AGAAAGTTCT GAACCAACGC CAAGAATTAG AGGAGCTGGA AGCAGACTTA 
    AAGAAACGGG AGGCCATAGT TTCTAAGAAG GAGGCTCTGT TACAGGAGAA GAGTCACCTG 
    GAAAATAAGA AATTGAGATC TAGTCAGGCC TTAAACACAG ATAGTTTGAA AATATCAACT 
    CGCCTGAACT TACTGGAACA AGAGTTGTCT GAAAAGAATG TGCAGCTCCA GACCAGTACA 
    GCTGAGGAGA AAACAAAGAT TTCAGAACAA GTTGAAGTCC TCCAGAAAGA AAAGGATCAG 
    CTCCAGAAAC GCAGACACAA TGTGGATGAA AAACTTAAAA ATGGTAGAGT GTTATCACCT 
    GAAGAAGAAC ATGTTCTTTT CCAACTTGAA GAAGGGATTG AAGCTTTGGA AGCTGCAATT 
    GAATACAGGA ATGAAAGTAT CCAGAATCGC CAGAAGTCAC TTAGAGCATC ATTCCATAAC 
    CTCTCTCGTG GTGAAGCAAA TGTCTTGGAA AAGCTAGCTT GCCTGAGTCC TGTTGAGATT 
    AGAACTATTC TTTTCAGATA TTTCAATAAG GTGGTGAATT TGCGAGAAGC TGAACGGAAA 
    CAACAGTTAT ATAATGAAGA AATGAAAATG AAAGTTCTGG AACGGGATAA TATGGTTCGT 
    GAATTAGAAT CTGCACTGGA CCATCTAAAA TTGCAGTGTG ACCGGAGACT GACCCTCCAG 
    CAAAAGGAAC ACGAACAAAA GATGCAGTTG CTATTACATC ATTTCAAAGA ACAAGATGGA 
    GAAGGCATTA TGGAAACTTT CAAAACATAT GAAGATAAAA TCCAGCAGTT GGAAAAAGAT 
    CTTTATTTCT ATAAGAAAAC CAGCCGGGAT CATAAGAAGA AACTTAAGGA ACTGGTAGGG 
    GAAGCAATTC GGCGGCAACT AGCACCATCA GAGTATCAAG AGGCTGGAGA TGGAGTCCTG 
    AAGCCAGAAG GAGGAGGCAT GCTTTCAGAA GAATTAAAAT GGGCATCCAG ACCTGAAAGT 
    ATGAAATTAA GTGGAAGAGA AAGAGAAATG GACAGTTCAG CAAGCAGCTT AAGAACACAG 
    CCAAATCCTC AAAAGCTCTG GGAAGATATC CCAGAATTAC CTCCAATTCA TAGTTCTTTA 
    GCACCCCCCA GTGGGCATAT GTTAGGTAAT GAGAATAAAA CAGAAACAGA TGATAATCAG 
    TTTACAAAAT CTCACAGTCG ACTGTCATCC CAAATTCAGG TTGTGGGAAA TGTGGGACGA 
    CTTCATGGTG TCACACCTGT AAAACTGTGT CGAAAAGAAT TACGTCAAAT TTCCGCCTTG 
    GAACTATCAT TGCGACGTTC CAGTCTTGGA GTTGGCATTG GATCAATGGC TGCTGATTCC 
    ATCGAAGTAT CTAGGAAACC AAGGGACTTA AAAACTTAG

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

    KIF27 ( NM_001354070.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001340999.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant 5, mRNA.
    Price & Availability↑
    CloneID OHu98747
    Clone ID Related Accession (Same CDS sequence) XM_017014912.1 , NM_001354070.1 , XM_017014912.2 , XM_017014913.1 , NM_001354070.2 , XM_024447610.1
    Accession Version NM_001354070.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2766bp)
    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 2018-12-04
    Organism Homo sapiens(human)
    Product kinesin-like protein KIF27 isoform E
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL354733.15. On Aug 29, 2017 this sequence version replaced XM_017014913.1. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## Transcript exon combination :: SRR1803616.199252.1 [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
    ATGAAAAAGG AAACACAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGAAATAC AATTAAAAAC AGGACAGGAA GAAGGTCTAA AACCGAAAGC TGAGGACCTT 
    GATGCATGTA ACTTGAAAAG GAGAAAAGGT TCGTTTGGAA GTATAGACCA TCTCCAGAAA 
    TTGGATGAGC AAAAGAAATG GTTAGATGAA GAAGTAGAGA AAGTTCTGAA CCAACGCCAA 
    GAATTAGAGG AGCTGGAAGC AGACTTAAAG AAACGGGAGG CCATAGTTTC TAAGAAGGAG 
    GCTCTGTTAC AGGAGAAGAG TCACCTGGAA AATAAGAAAT TGAGATCTAG TCAGGCCTTA 
    AACACAGATA GTTTGAAAAT ATCAACTCGC CTGAACTTAC TGGAACAAGA GTTGTCTGAA 
    AAGAATGTGC AGCTCCAGAC CAGTACAGCT GAGGAGAAAA CAAAGATTTC AGAACAAGTT 
    GAAGTCCTCC AGAAAGAAAA GGATCAGCTC CAGAAACGCA GACACAATGT GGATGAAAAA 
    CTTAAAAATG GTAGAGTGTT ATCACCTGAA GAAGAACATG TTCTTTTCCA ACTTGAAGAA 
    GGGATTGAAG CTTTGGAAGC TGCAATTGAA TACAGGAATG AAAGTATCCA GAATCGCCAG 
    AAGTCACTTA GAGCATCATT CCATAACCTC TCTCGTGGTG AAGCAAATGT CTTGGAAAAG 
    CTAGCTTGCC TGAGTCCTGT TGAGATTAGA ACTATTCTTT TCAGATATTT CAATAAGGTG 
    GTGAATTTGC GAGAAGCTGA ACGGAAACAA CAGTTATATA ATGAAGAAAT GAAAATGAAA 
    GTTCTGGAAC GGGATAATAT GGTTCGTGAA TTAGAATCTG CACTGGACCA TCTAAAATTG 
    CAGTGTGACC GGAGACTGAC CCTCCAGCAA AAGGAACACG AACAAAAGAT GCAGTTGCTA 
    TTACATCATT TCAAAGAACA AGATGGAGAA GGCATTATGG AAACTTTCAA AACATATGAA 
    GATAAAATCC AGCAGTTGGA AAAAGATCTT TATTTCTATA AGAAAACCAG CCGGGATCAT 
    AAGAAGAAAC TTAAGGAACT GGTAGGGGAA GCAATTCGGC GGCAACTAGC ACCATCAGAG 
    TATCAAGAGG CTGGAGATGG AGTCCTGAAG CCAGAAGGAG GAGGCATGCT TTCAGAAGAA 
    TTAAAATGGG CATCCAGACC TGAAAGTATG AAATTAAGTG GAAGAGAAAG AGAAATGGAC 
    AGTTCAGCAA GCAGCTTAAG AACACAGCCA AATCCTCAAA AGCTCTGGGA AGATATCCCA 
    GAATTACCTC CAATTCATAG TTCTTTAGCA CCCCCCAGTG GGCATATGTT AGGTAATGAG 
    AATAAAACAG AAACAGATGA TAATCAGTTT ACAAAATCTC ACAGTCGACT GTCATCCCAA 
    ATTCAGGTTG TGGGAAATGT GGGACGACTT CATGGTGTCA CACCTGTAAA ACTGTGTCGA 
    AAAGAATTAC GTCAAATTTC CGCCTTGGAA CTATCATTGC GACGTTCCAG TCTTGGAGTT 
    GGCATTGGAT CAATGGCTGC TGATTCCATC GAAGTATCTA GGAAACCAAG GGACTTAAAA 
    ACTTAG

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

    RefSeq NP_001340999.1
    CDS935..3700
    Translation

    Target ORF information:

    RefSeq Version NM_001354070.1
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant 5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001354070.1

    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
    ATGAAAAAGG AAACACAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGAAATAC AATTAAAAAC AGGACAGGAA GAAGGTCTAA AACCGAAAGC TGAGGACCTT 
    GATGCATGTA ACTTGAAAAG GAGAAAAGGT TCGTTTGGAA GTATAGACCA TCTCCAGAAA 
    TTGGATGAGC AAAAGAAATG GTTAGATGAA GAAGTAGAGA AAGTTCTGAA CCAACGCCAA 
    GAATTAGAGG AGCTGGAAGC AGACTTAAAG AAACGGGAGG CCATAGTTTC TAAGAAGGAG 
    GCTCTGTTAC AGGAGAAGAG TCACCTGGAA AATAAGAAAT TGAGATCTAG TCAGGCCTTA 
    AACACAGATA GTTTGAAAAT ATCAACTCGC CTGAACTTAC TGGAACAAGA GTTGTCTGAA 
    AAGAATGTGC AGCTCCAGAC CAGTACAGCT GAGGAGAAAA CAAAGATTTC AGAACAAGTT 
    GAAGTCCTCC AGAAAGAAAA GGATCAGCTC CAGAAACGCA GACACAATGT GGATGAAAAA 
    CTTAAAAATG GTAGAGTGTT ATCACCTGAA GAAGAACATG TTCTTTTCCA ACTTGAAGAA 
    GGGATTGAAG CTTTGGAAGC TGCAATTGAA TACAGGAATG AAAGTATCCA GAATCGCCAG 
    AAGTCACTTA GAGCATCATT CCATAACCTC TCTCGTGGTG AAGCAAATGT CTTGGAAAAG 
    CTAGCTTGCC TGAGTCCTGT TGAGATTAGA ACTATTCTTT TCAGATATTT CAATAAGGTG 
    GTGAATTTGC GAGAAGCTGA ACGGAAACAA CAGTTATATA ATGAAGAAAT GAAAATGAAA 
    GTTCTGGAAC GGGATAATAT GGTTCGTGAA TTAGAATCTG CACTGGACCA TCTAAAATTG 
    CAGTGTGACC GGAGACTGAC CCTCCAGCAA AAGGAACACG AACAAAAGAT GCAGTTGCTA 
    TTACATCATT TCAAAGAACA AGATGGAGAA GGCATTATGG AAACTTTCAA AACATATGAA 
    GATAAAATCC AGCAGTTGGA AAAAGATCTT TATTTCTATA AGAAAACCAG CCGGGATCAT 
    AAGAAGAAAC TTAAGGAACT GGTAGGGGAA GCAATTCGGC GGCAACTAGC ACCATCAGAG 
    TATCAAGAGG CTGGAGATGG AGTCCTGAAG CCAGAAGGAG GAGGCATGCT TTCAGAAGAA 
    TTAAAATGGG CATCCAGACC TGAAAGTATG AAATTAAGTG GAAGAGAAAG AGAAATGGAC 
    AGTTCAGCAA GCAGCTTAAG AACACAGCCA AATCCTCAAA AGCTCTGGGA AGATATCCCA 
    GAATTACCTC CAATTCATAG TTCTTTAGCA CCCCCCAGTG GGCATATGTT AGGTAATGAG 
    AATAAAACAG AAACAGATGA TAATCAGTTT ACAAAATCTC ACAGTCGACT GTCATCCCAA 
    ATTCAGGTTG TGGGAAATGT GGGACGACTT CATGGTGTCA CACCTGTAAA ACTGTGTCGA 
    AAAGAATTAC GTCAAATTTC CGCCTTGGAA CTATCATTGC GACGTTCCAG TCTTGGAGTT 
    GGCATTGGAT CAATGGCTGC TGATTCCATC GAAGTATCTA GGAAACCAAG GGACTTAAAA 
    ACTTAG

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

    KIF27 ( NM_001354070.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001340999.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant 5, mRNA.
    Price & Availability↑
    CloneID OHu98747
    Clone ID Related Accession (Same CDS sequence) XM_017014912.1 , NM_001354070.1 , XM_017014912.2 , XM_017014913.1 , NM_001354070.2 , XM_024447610.1
    Accession Version NM_001354070.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2766bp)
    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 2019-05-30
    Organism Homo sapiens(human)
    Product kinesin-like protein KIF27 isoform E
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL354733.15. On May 31, 2019 this sequence version replaced NM_001354070.1. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## Transcript exon combination :: SRR1803616.199252.1 [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
    ATGAAAAAGG AAACACAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGAAATAC AATTAAAAAC AGGACAGGAA GAAGGTCTAA AACCGAAAGC TGAGGACCTT 
    GATGCATGTA ACTTGAAAAG GAGAAAAGGT TCGTTTGGAA GTATAGACCA TCTCCAGAAA 
    TTGGATGAGC AAAAGAAATG GTTAGATGAA GAAGTAGAGA AAGTTCTGAA CCAACGCCAA 
    GAATTAGAGG AGCTGGAAGC AGACTTAAAG AAACGGGAGG CCATAGTTTC TAAGAAGGAG 
    GCTCTGTTAC AGGAGAAGAG TCACCTGGAA AATAAGAAAT TGAGATCTAG TCAGGCCTTA 
    AACACAGATA GTTTGAAAAT ATCAACTCGC CTGAACTTAC TGGAACAAGA GTTGTCTGAA 
    AAGAATGTGC AGCTCCAGAC CAGTACAGCT GAGGAGAAAA CAAAGATTTC AGAACAAGTT 
    GAAGTCCTCC AGAAAGAAAA GGATCAGCTC CAGAAACGCA GACACAATGT GGATGAAAAA 
    CTTAAAAATG GTAGAGTGTT ATCACCTGAA GAAGAACATG TTCTTTTCCA ACTTGAAGAA 
    GGGATTGAAG CTTTGGAAGC TGCAATTGAA TACAGGAATG AAAGTATCCA GAATCGCCAG 
    AAGTCACTTA GAGCATCATT CCATAACCTC TCTCGTGGTG AAGCAAATGT CTTGGAAAAG 
    CTAGCTTGCC TGAGTCCTGT TGAGATTAGA ACTATTCTTT TCAGATATTT CAATAAGGTG 
    GTGAATTTGC GAGAAGCTGA ACGGAAACAA CAGTTATATA ATGAAGAAAT GAAAATGAAA 
    GTTCTGGAAC GGGATAATAT GGTTCGTGAA TTAGAATCTG CACTGGACCA TCTAAAATTG 
    CAGTGTGACC GGAGACTGAC CCTCCAGCAA AAGGAACACG AACAAAAGAT GCAGTTGCTA 
    TTACATCATT TCAAAGAACA AGATGGAGAA GGCATTATGG AAACTTTCAA AACATATGAA 
    GATAAAATCC AGCAGTTGGA AAAAGATCTT TATTTCTATA AGAAAACCAG CCGGGATCAT 
    AAGAAGAAAC TTAAGGAACT GGTAGGGGAA GCAATTCGGC GGCAACTAGC ACCATCAGAG 
    TATCAAGAGG CTGGAGATGG AGTCCTGAAG CCAGAAGGAG GAGGCATGCT TTCAGAAGAA 
    TTAAAATGGG CATCCAGACC TGAAAGTATG AAATTAAGTG GAAGAGAAAG AGAAATGGAC 
    AGTTCAGCAA GCAGCTTAAG AACACAGCCA AATCCTCAAA AGCTCTGGGA AGATATCCCA 
    GAATTACCTC CAATTCATAG TTCTTTAGCA CCCCCCAGTG GGCATATGTT AGGTAATGAG 
    AATAAAACAG AAACAGATGA TAATCAGTTT ACAAAATCTC ACAGTCGACT GTCATCCCAA 
    ATTCAGGTTG TGGGAAATGT GGGACGACTT CATGGTGTCA CACCTGTAAA ACTGTGTCGA 
    AAAGAATTAC GTCAAATTTC CGCCTTGGAA CTATCATTGC GACGTTCCAG TCTTGGAGTT 
    GGCATTGGAT CAATGGCTGC TGATTCCATC GAAGTATCTA GGAAACCAAG GGACTTAAAA 
    ACTTAG

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

    RefSeq NP_001340999.1
    CDS823..3588
    Translation

    Target ORF information:

    RefSeq Version NM_001354070.2
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant 5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001354070.2

    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
    ATGAAAAAGG AAACACAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGAAATAC AATTAAAAAC AGGACAGGAA GAAGGTCTAA AACCGAAAGC TGAGGACCTT 
    GATGCATGTA ACTTGAAAAG GAGAAAAGGT TCGTTTGGAA GTATAGACCA TCTCCAGAAA 
    TTGGATGAGC AAAAGAAATG GTTAGATGAA GAAGTAGAGA AAGTTCTGAA CCAACGCCAA 
    GAATTAGAGG AGCTGGAAGC AGACTTAAAG AAACGGGAGG CCATAGTTTC TAAGAAGGAG 
    GCTCTGTTAC AGGAGAAGAG TCACCTGGAA AATAAGAAAT TGAGATCTAG TCAGGCCTTA 
    AACACAGATA GTTTGAAAAT ATCAACTCGC CTGAACTTAC TGGAACAAGA GTTGTCTGAA 
    AAGAATGTGC AGCTCCAGAC CAGTACAGCT GAGGAGAAAA CAAAGATTTC AGAACAAGTT 
    GAAGTCCTCC AGAAAGAAAA GGATCAGCTC CAGAAACGCA GACACAATGT GGATGAAAAA 
    CTTAAAAATG GTAGAGTGTT ATCACCTGAA GAAGAACATG TTCTTTTCCA ACTTGAAGAA 
    GGGATTGAAG CTTTGGAAGC TGCAATTGAA TACAGGAATG AAAGTATCCA GAATCGCCAG 
    AAGTCACTTA GAGCATCATT CCATAACCTC TCTCGTGGTG AAGCAAATGT CTTGGAAAAG 
    CTAGCTTGCC TGAGTCCTGT TGAGATTAGA ACTATTCTTT TCAGATATTT CAATAAGGTG 
    GTGAATTTGC GAGAAGCTGA ACGGAAACAA CAGTTATATA ATGAAGAAAT GAAAATGAAA 
    GTTCTGGAAC GGGATAATAT GGTTCGTGAA TTAGAATCTG CACTGGACCA TCTAAAATTG 
    CAGTGTGACC GGAGACTGAC CCTCCAGCAA AAGGAACACG AACAAAAGAT GCAGTTGCTA 
    TTACATCATT TCAAAGAACA AGATGGAGAA GGCATTATGG AAACTTTCAA AACATATGAA 
    GATAAAATCC AGCAGTTGGA AAAAGATCTT TATTTCTATA AGAAAACCAG CCGGGATCAT 
    AAGAAGAAAC TTAAGGAACT GGTAGGGGAA GCAATTCGGC GGCAACTAGC ACCATCAGAG 
    TATCAAGAGG CTGGAGATGG AGTCCTGAAG CCAGAAGGAG GAGGCATGCT TTCAGAAGAA 
    TTAAAATGGG CATCCAGACC TGAAAGTATG AAATTAAGTG GAAGAGAAAG AGAAATGGAC 
    AGTTCAGCAA GCAGCTTAAG AACACAGCCA AATCCTCAAA AGCTCTGGGA AGATATCCCA 
    GAATTACCTC CAATTCATAG TTCTTTAGCA CCCCCCAGTG GGCATATGTT AGGTAATGAG 
    AATAAAACAG AAACAGATGA TAATCAGTTT ACAAAATCTC ACAGTCGACT GTCATCCCAA 
    ATTCAGGTTG TGGGAAATGT GGGACGACTT CATGGTGTCA CACCTGTAAA ACTGTGTCGA 
    AAAGAATTAC GTCAAATTTC CGCCTTGGAA CTATCATTGC GACGTTCCAG TCTTGGAGTT 
    GGCATTGGAT CAATGGCTGC TGATTCCATC GAAGTATCTA GGAAACCAAG GGACTTAAAA 
    ACTTAG

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

    KIF27 ( NM_001354071.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001341000.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant 6, mRNA.
    Price & Availability↑
    CloneID OHu98749
    Clone ID Related Accession (Same CDS sequence) NM_001354071.2 , NM_001354071.1 , XM_017014915.1
    Accession Version NM_001354071.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2550bp)
    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 2019-05-30
    Organism Homo sapiens(human)
    Product kinesin-like protein KIF27 isoform F
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL354733.15. On May 31, 2019 this sequence version replaced NM_001354071.1. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## Transcript exon combination :: SRR1803612.134717.1 [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
    ATGAAAAAGG AAACACAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGAAATAC AATTAAAAAC AGGACAGGAA GAAGGTCTAA AACCGAAAGC TGAGGACCTT 
    GATGCATGTA ACTTGAAAAG GAGAAAAGGT TCGTTTGGAA GTATAGACCA TCTCCAGAAA 
    TTGGATGAGC AAAAGAAATG GTTAGATGAA GAAGTAGAGA AAGTTCTGAA CCAACGCCAA 
    GAATTAGAGG AGCTGGAAGC AGACTTAAAG AAACGGGAGG CCATAGTTTC TAAGAAGGAG 
    GCTCTGTTAC AGGAGAAGAG TCACCTGGAA AATAAGAAAT TGAGATCTAG TCAGGAAGAA 
    CATGTTCTTT TCCAACTTGA AGAAGGGATT GAAGCTTTGG AAGCTGCAAT TGAATACAGG 
    AATGAAAGTA TCCAGAATCG CCAGAAGTCA CTTAGAGCAT CATTCCATAA CCTCTCTCGT 
    GGTGAAGCAA ATGTCTTGGA AAAGCTAGCT TGCCTGAGTC CTGTTGAGAT TAGAACTATT 
    CTTTTCAGAT ATTTCAATAA GGTGGTGAAT TTGCGAGAAG CTGAACGGAA ACAACAGTTA 
    TATAATGAAG AAATGAAAAT GAAAGTTCTG GAACGGGATA ATATGGTTCG TGAATTAGAA 
    TCTGCACTGG ACCATCTAAA ATTGCAGTGT GACCGGAGAC TGACCCTCCA GCAAAAGGAA 
    CACGAACAAA AGATGCAGTT GCTATTACAT CATTTCAAAG AACAAGATGG AGAAGGCATT 
    ATGGAAACTT TCAAAACATA TGAAGATAAA ATCCAGCAGT TGGAAAAAGA TCTTTATTTC 
    TATAAGAAAA CCAGCCGGGA TCATAAGAAG AAACTTAAGG AACTGGTAGG GGAAGCAATT 
    CGGCGGCAAC TAGCACCATC AGAGTATCAA GAGGCTGGAG ATGGAGTCCT GAAGCCAGAA 
    GGAGGAGGCA TGCTTTCAGA AGAATTAAAA TGGGCATCCA GACCTGAAAG TATGAAATTA 
    AGTGGAAGAG AAAGAGAAAT GGACAGTTCA GCAAGCAGCT TAAGAACACA GCCAAATCCT 
    CAAAAGCTCT GGGAAGATAT CCCAGAATTA CCTCCAATTC ATAGTTCTTT AGCACCCCCC 
    AGTGGGCATA TGTTAGGTAA TGAGAATAAA ACAGAAACAG ATGATAATCA GTTTACAAAA 
    TCTCACAGTC GACTGTCATC CCAAATTCAG GTTGTGGGAA ATGTGGGACG ACTTCATGGT 
    GTCACACCTG TAAAACTGTG TCGAAAAGAA TTACGTCAAA TTTCCGCCTT GGAACTATCA 
    TTGCGACGTT CCAGTCTTGG AGTTGGCATT GGATCAATGG CTGCTGATTC CATCGAAGTA 
    TCTAGGAAAC CAAGGGACTT AAAAACTTAG

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

    RefSeq NP_001341000.1
    CDS738..3287
    Translation

    Target ORF information:

    RefSeq Version NM_001354071.2
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant 6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001354071.2

    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
    ATGAAAAAGG AAACACAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGAAATAC AATTAAAAAC AGGACAGGAA GAAGGTCTAA AACCGAAAGC TGAGGACCTT 
    GATGCATGTA ACTTGAAAAG GAGAAAAGGT TCGTTTGGAA GTATAGACCA TCTCCAGAAA 
    TTGGATGAGC AAAAGAAATG GTTAGATGAA GAAGTAGAGA AAGTTCTGAA CCAACGCCAA 
    GAATTAGAGG AGCTGGAAGC AGACTTAAAG AAACGGGAGG CCATAGTTTC TAAGAAGGAG 
    GCTCTGTTAC AGGAGAAGAG TCACCTGGAA AATAAGAAAT TGAGATCTAG TCAGGAAGAA 
    CATGTTCTTT TCCAACTTGA AGAAGGGATT GAAGCTTTGG AAGCTGCAAT TGAATACAGG 
    AATGAAAGTA TCCAGAATCG CCAGAAGTCA CTTAGAGCAT CATTCCATAA CCTCTCTCGT 
    GGTGAAGCAA ATGTCTTGGA AAAGCTAGCT TGCCTGAGTC CTGTTGAGAT TAGAACTATT 
    CTTTTCAGAT ATTTCAATAA GGTGGTGAAT TTGCGAGAAG CTGAACGGAA ACAACAGTTA 
    TATAATGAAG AAATGAAAAT GAAAGTTCTG GAACGGGATA ATATGGTTCG TGAATTAGAA 
    TCTGCACTGG ACCATCTAAA ATTGCAGTGT GACCGGAGAC TGACCCTCCA GCAAAAGGAA 
    CACGAACAAA AGATGCAGTT GCTATTACAT CATTTCAAAG AACAAGATGG AGAAGGCATT 
    ATGGAAACTT TCAAAACATA TGAAGATAAA ATCCAGCAGT TGGAAAAAGA TCTTTATTTC 
    TATAAGAAAA CCAGCCGGGA TCATAAGAAG AAACTTAAGG AACTGGTAGG GGAAGCAATT 
    CGGCGGCAAC TAGCACCATC AGAGTATCAA GAGGCTGGAG ATGGAGTCCT GAAGCCAGAA 
    GGAGGAGGCA TGCTTTCAGA AGAATTAAAA TGGGCATCCA GACCTGAAAG TATGAAATTA 
    AGTGGAAGAG AAAGAGAAAT GGACAGTTCA GCAAGCAGCT TAAGAACACA GCCAAATCCT 
    CAAAAGCTCT GGGAAGATAT CCCAGAATTA CCTCCAATTC ATAGTTCTTT AGCACCCCCC 
    AGTGGGCATA TGTTAGGTAA TGAGAATAAA ACAGAAACAG ATGATAATCA GTTTACAAAA 
    TCTCACAGTC GACTGTCATC CCAAATTCAG GTTGTGGGAA ATGTGGGACG ACTTCATGGT 
    GTCACACCTG TAAAACTGTG TCGAAAAGAA TTACGTCAAA TTTCCGCCTT GGAACTATCA 
    TTGCGACGTT CCAGTCTTGG AGTTGGCATT GGATCAATGG CTGCTGATTC CATCGAAGTA 
    TCTAGGAAAC CAAGGGACTT AAAAACTTAG

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

    KIF27 ( NM_001354071.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001341000.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant 6, mRNA.
    Price & Availability↑
    CloneID OHu98749
    Clone ID Related Accession (Same CDS sequence) NM_001354071.2 , NM_001354071.1 , XM_017014915.1
    Accession Version NM_001354071.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2550bp)
    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 2018-06-30
    Organism Homo sapiens(human)
    Product kinesin-like protein KIF27 isoform F
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL354733.15. On Aug 4, 2017 this sequence version replaced XM_017014915.1. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## Transcript exon combination :: SRR1803612.134717.1 [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
    ATGAAAAAGG AAACACAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGAAATAC AATTAAAAAC AGGACAGGAA GAAGGTCTAA AACCGAAAGC TGAGGACCTT 
    GATGCATGTA ACTTGAAAAG GAGAAAAGGT TCGTTTGGAA GTATAGACCA TCTCCAGAAA 
    TTGGATGAGC AAAAGAAATG GTTAGATGAA GAAGTAGAGA AAGTTCTGAA CCAACGCCAA 
    GAATTAGAGG AGCTGGAAGC AGACTTAAAG AAACGGGAGG CCATAGTTTC TAAGAAGGAG 
    GCTCTGTTAC AGGAGAAGAG TCACCTGGAA AATAAGAAAT TGAGATCTAG TCAGGAAGAA 
    CATGTTCTTT TCCAACTTGA AGAAGGGATT GAAGCTTTGG AAGCTGCAAT TGAATACAGG 
    AATGAAAGTA TCCAGAATCG CCAGAAGTCA CTTAGAGCAT CATTCCATAA CCTCTCTCGT 
    GGTGAAGCAA ATGTCTTGGA AAAGCTAGCT TGCCTGAGTC CTGTTGAGAT TAGAACTATT 
    CTTTTCAGAT ATTTCAATAA GGTGGTGAAT TTGCGAGAAG CTGAACGGAA ACAACAGTTA 
    TATAATGAAG AAATGAAAAT GAAAGTTCTG GAACGGGATA ATATGGTTCG TGAATTAGAA 
    TCTGCACTGG ACCATCTAAA ATTGCAGTGT GACCGGAGAC TGACCCTCCA GCAAAAGGAA 
    CACGAACAAA AGATGCAGTT GCTATTACAT CATTTCAAAG AACAAGATGG AGAAGGCATT 
    ATGGAAACTT TCAAAACATA TGAAGATAAA ATCCAGCAGT TGGAAAAAGA TCTTTATTTC 
    TATAAGAAAA CCAGCCGGGA TCATAAGAAG AAACTTAAGG AACTGGTAGG GGAAGCAATT 
    CGGCGGCAAC TAGCACCATC AGAGTATCAA GAGGCTGGAG ATGGAGTCCT GAAGCCAGAA 
    GGAGGAGGCA TGCTTTCAGA AGAATTAAAA TGGGCATCCA GACCTGAAAG TATGAAATTA 
    AGTGGAAGAG AAAGAGAAAT GGACAGTTCA GCAAGCAGCT TAAGAACACA GCCAAATCCT 
    CAAAAGCTCT GGGAAGATAT CCCAGAATTA CCTCCAATTC ATAGTTCTTT AGCACCCCCC 
    AGTGGGCATA TGTTAGGTAA TGAGAATAAA ACAGAAACAG ATGATAATCA GTTTACAAAA 
    TCTCACAGTC GACTGTCATC CCAAATTCAG GTTGTGGGAA ATGTGGGACG ACTTCATGGT 
    GTCACACCTG TAAAACTGTG TCGAAAAGAA TTACGTCAAA TTTCCGCCTT GGAACTATCA 
    TTGCGACGTT CCAGTCTTGG AGTTGGCATT GGATCAATGG CTGCTGATTC CATCGAAGTA 
    TCTAGGAAAC CAAGGGACTT AAAAACTTAG

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

    RefSeq NP_001341000.1
    CDS850..3399
    Translation

    Target ORF information:

    RefSeq Version NM_001354071.1
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant 6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001354071.1

    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
    ATGAAAAAGG AAACACAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGAAATAC AATTAAAAAC AGGACAGGAA GAAGGTCTAA AACCGAAAGC TGAGGACCTT 
    GATGCATGTA ACTTGAAAAG GAGAAAAGGT TCGTTTGGAA GTATAGACCA TCTCCAGAAA 
    TTGGATGAGC AAAAGAAATG GTTAGATGAA GAAGTAGAGA AAGTTCTGAA CCAACGCCAA 
    GAATTAGAGG AGCTGGAAGC AGACTTAAAG AAACGGGAGG CCATAGTTTC TAAGAAGGAG 
    GCTCTGTTAC AGGAGAAGAG TCACCTGGAA AATAAGAAAT TGAGATCTAG TCAGGAAGAA 
    CATGTTCTTT TCCAACTTGA AGAAGGGATT GAAGCTTTGG AAGCTGCAAT TGAATACAGG 
    AATGAAAGTA TCCAGAATCG CCAGAAGTCA CTTAGAGCAT CATTCCATAA CCTCTCTCGT 
    GGTGAAGCAA ATGTCTTGGA AAAGCTAGCT TGCCTGAGTC CTGTTGAGAT TAGAACTATT 
    CTTTTCAGAT ATTTCAATAA GGTGGTGAAT TTGCGAGAAG CTGAACGGAA ACAACAGTTA 
    TATAATGAAG AAATGAAAAT GAAAGTTCTG GAACGGGATA ATATGGTTCG TGAATTAGAA 
    TCTGCACTGG ACCATCTAAA ATTGCAGTGT GACCGGAGAC TGACCCTCCA GCAAAAGGAA 
    CACGAACAAA AGATGCAGTT GCTATTACAT CATTTCAAAG AACAAGATGG AGAAGGCATT 
    ATGGAAACTT TCAAAACATA TGAAGATAAA ATCCAGCAGT TGGAAAAAGA TCTTTATTTC 
    TATAAGAAAA CCAGCCGGGA TCATAAGAAG AAACTTAAGG AACTGGTAGG GGAAGCAATT 
    CGGCGGCAAC TAGCACCATC AGAGTATCAA GAGGCTGGAG ATGGAGTCCT GAAGCCAGAA 
    GGAGGAGGCA TGCTTTCAGA AGAATTAAAA TGGGCATCCA GACCTGAAAG TATGAAATTA 
    AGTGGAAGAG AAAGAGAAAT GGACAGTTCA GCAAGCAGCT TAAGAACACA GCCAAATCCT 
    CAAAAGCTCT GGGAAGATAT CCCAGAATTA CCTCCAATTC ATAGTTCTTT AGCACCCCCC 
    AGTGGGCATA TGTTAGGTAA TGAGAATAAA ACAGAAACAG ATGATAATCA GTTTACAAAA 
    TCTCACAGTC GACTGTCATC CCAAATTCAG GTTGTGGGAA ATGTGGGACG ACTTCATGGT 
    GTCACACCTG TAAAACTGTG TCGAAAAGAA TTACGTCAAA TTTCCGCCTT GGAACTATCA 
    TTGCGACGTT CCAGTCTTGG AGTTGGCATT GGATCAATGG CTGCTGATTC CATCGAAGTA 
    TCTAGGAAAC CAAGGGACTT AAAAACTTAG

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

    KIF27 ( XM_017014912.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016870401.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant X20, mRNA.
    Price & Availability↑
    CloneID OHu98747
    Clone ID Related Accession (Same CDS sequence) XM_017014912.1 , NM_001354070.1 , XM_017014912.2 , XM_017014913.1 , NM_001354070.2 , XM_024447610.1
    Accession Version XM_017014912.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2766bp)
    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 2016-06-05
    Organism Homo sapiens(human)
    Product kinesin-like protein KIF27 isoform X14
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) 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 :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    ATGAAAAAGG AAACACAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGAAATAC AATTAAAAAC AGGACAGGAA GAAGGTCTAA AACCGAAAGC TGAGGACCTT 
    GATGCATGTA ACTTGAAAAG GAGAAAAGGT TCGTTTGGAA GTATAGACCA TCTCCAGAAA 
    TTGGATGAGC AAAAGAAATG GTTAGATGAA GAAGTAGAGA AAGTTCTGAA CCAACGCCAA 
    GAATTAGAGG AGCTGGAAGC AGACTTAAAG AAACGGGAGG CCATAGTTTC TAAGAAGGAG 
    GCTCTGTTAC AGGAGAAGAG TCACCTGGAA AATAAGAAAT TGAGATCTAG TCAGGCCTTA 
    AACACAGATA GTTTGAAAAT ATCAACTCGC CTGAACTTAC TGGAACAAGA GTTGTCTGAA 
    AAGAATGTGC AGCTCCAGAC CAGTACAGCT GAGGAGAAAA CAAAGATTTC AGAACAAGTT 
    GAAGTCCTCC AGAAAGAAAA GGATCAGCTC CAGAAACGCA GACACAATGT GGATGAAAAA 
    CTTAAAAATG GTAGAGTGTT ATCACCTGAA GAAGAACATG TTCTTTTCCA ACTTGAAGAA 
    GGGATTGAAG CTTTGGAAGC TGCAATTGAA TACAGGAATG AAAGTATCCA GAATCGCCAG 
    AAGTCACTTA GAGCATCATT CCATAACCTC TCTCGTGGTG AAGCAAATGT CTTGGAAAAG 
    CTAGCTTGCC TGAGTCCTGT TGAGATTAGA ACTATTCTTT TCAGATATTT CAATAAGGTG 
    GTGAATTTGC GAGAAGCTGA ACGGAAACAA CAGTTATATA ATGAAGAAAT GAAAATGAAA 
    GTTCTGGAAC GGGATAATAT GGTTCGTGAA TTAGAATCTG CACTGGACCA TCTAAAATTG 
    CAGTGTGACC GGAGACTGAC CCTCCAGCAA AAGGAACACG AACAAAAGAT GCAGTTGCTA 
    TTACATCATT TCAAAGAACA AGATGGAGAA GGCATTATGG AAACTTTCAA AACATATGAA 
    GATAAAATCC AGCAGTTGGA AAAAGATCTT TATTTCTATA AGAAAACCAG CCGGGATCAT 
    AAGAAGAAAC TTAAGGAACT GGTAGGGGAA GCAATTCGGC GGCAACTAGC ACCATCAGAG 
    TATCAAGAGG CTGGAGATGG AGTCCTGAAG CCAGAAGGAG GAGGCATGCT TTCAGAAGAA 
    TTAAAATGGG CATCCAGACC TGAAAGTATG AAATTAAGTG GAAGAGAAAG AGAAATGGAC 
    AGTTCAGCAA GCAGCTTAAG AACACAGCCA AATCCTCAAA AGCTCTGGGA AGATATCCCA 
    GAATTACCTC CAATTCATAG TTCTTTAGCA CCCCCCAGTG GGCATATGTT AGGTAATGAG 
    AATAAAACAG AAACAGATGA TAATCAGTTT ACAAAATCTC ACAGTCGACT GTCATCCCAA 
    ATTCAGGTTG TGGGAAATGT GGGACGACTT CATGGTGTCA CACCTGTAAA ACTGTGTCGA 
    AAAGAATTAC GTCAAATTTC CGCCTTGGAA CTATCATTGC GACGTTCCAG TCTTGGAGTT 
    GGCATTGGAT CAATGGCTGC TGATTCCATC GAAGTATCTA GGAAACCAAG GGACTTAAAA 
    ACTTAG

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

    RefSeq XP_016870401.1
    CDS662..3427
    Translation

    Target ORF information:

    RefSeq Version XM_017014912.1
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant X20, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017014912.1

    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
    ATGAAAAAGG AAACACAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGAAATAC AATTAAAAAC AGGACAGGAA GAAGGTCTAA AACCGAAAGC TGAGGACCTT 
    GATGCATGTA ACTTGAAAAG GAGAAAAGGT TCGTTTGGAA GTATAGACCA TCTCCAGAAA 
    TTGGATGAGC AAAAGAAATG GTTAGATGAA GAAGTAGAGA AAGTTCTGAA CCAACGCCAA 
    GAATTAGAGG AGCTGGAAGC AGACTTAAAG AAACGGGAGG CCATAGTTTC TAAGAAGGAG 
    GCTCTGTTAC AGGAGAAGAG TCACCTGGAA AATAAGAAAT TGAGATCTAG TCAGGCCTTA 
    AACACAGATA GTTTGAAAAT ATCAACTCGC CTGAACTTAC TGGAACAAGA GTTGTCTGAA 
    AAGAATGTGC AGCTCCAGAC CAGTACAGCT GAGGAGAAAA CAAAGATTTC AGAACAAGTT 
    GAAGTCCTCC AGAAAGAAAA GGATCAGCTC CAGAAACGCA GACACAATGT GGATGAAAAA 
    CTTAAAAATG GTAGAGTGTT ATCACCTGAA GAAGAACATG TTCTTTTCCA ACTTGAAGAA 
    GGGATTGAAG CTTTGGAAGC TGCAATTGAA TACAGGAATG AAAGTATCCA GAATCGCCAG 
    AAGTCACTTA GAGCATCATT CCATAACCTC TCTCGTGGTG AAGCAAATGT CTTGGAAAAG 
    CTAGCTTGCC TGAGTCCTGT TGAGATTAGA ACTATTCTTT TCAGATATTT CAATAAGGTG 
    GTGAATTTGC GAGAAGCTGA ACGGAAACAA CAGTTATATA ATGAAGAAAT GAAAATGAAA 
    GTTCTGGAAC GGGATAATAT GGTTCGTGAA TTAGAATCTG CACTGGACCA TCTAAAATTG 
    CAGTGTGACC GGAGACTGAC CCTCCAGCAA AAGGAACACG AACAAAAGAT GCAGTTGCTA 
    TTACATCATT TCAAAGAACA AGATGGAGAA GGCATTATGG AAACTTTCAA AACATATGAA 
    GATAAAATCC AGCAGTTGGA AAAAGATCTT TATTTCTATA AGAAAACCAG CCGGGATCAT 
    AAGAAGAAAC TTAAGGAACT GGTAGGGGAA GCAATTCGGC GGCAACTAGC ACCATCAGAG 
    TATCAAGAGG CTGGAGATGG AGTCCTGAAG CCAGAAGGAG GAGGCATGCT TTCAGAAGAA 
    TTAAAATGGG CATCCAGACC TGAAAGTATG AAATTAAGTG GAAGAGAAAG AGAAATGGAC 
    AGTTCAGCAA GCAGCTTAAG AACACAGCCA AATCCTCAAA AGCTCTGGGA AGATATCCCA 
    GAATTACCTC CAATTCATAG TTCTTTAGCA CCCCCCAGTG GGCATATGTT AGGTAATGAG 
    AATAAAACAG AAACAGATGA TAATCAGTTT ACAAAATCTC ACAGTCGACT GTCATCCCAA 
    ATTCAGGTTG TGGGAAATGT GGGACGACTT CATGGTGTCA CACCTGTAAA ACTGTGTCGA 
    AAAGAATTAC GTCAAATTTC CGCCTTGGAA CTATCATTGC GACGTTCCAG TCTTGGAGTT 
    GGCATTGGAT CAATGGCTGC TGATTCCATC GAAGTATCTA GGAAACCAAG GGACTTAAAA 
    ACTTAG

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

    KIF27 ( XM_017014912.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016870401.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant X20, mRNA.
    Price & Availability↑
    CloneID OHu98747
    Clone ID Related Accession (Same CDS sequence) XM_017014912.1 , NM_001354070.1 , XM_017014912.2 , XM_017014913.1 , NM_001354070.2 , XM_024447610.1
    Accession Version XM_017014912.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2766bp)
    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 KIF27 isoform X14
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017014912.1. ##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
    ATGAAAAAGG AAACACAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGAAATAC AATTAAAAAC AGGACAGGAA GAAGGTCTAA AACCGAAAGC TGAGGACCTT 
    GATGCATGTA ACTTGAAAAG GAGAAAAGGT TCGTTTGGAA GTATAGACCA TCTCCAGAAA 
    TTGGATGAGC AAAAGAAATG GTTAGATGAA GAAGTAGAGA AAGTTCTGAA CCAACGCCAA 
    GAATTAGAGG AGCTGGAAGC AGACTTAAAG AAACGGGAGG CCATAGTTTC TAAGAAGGAG 
    GCTCTGTTAC AGGAGAAGAG TCACCTGGAA AATAAGAAAT TGAGATCTAG TCAGGCCTTA 
    AACACAGATA GTTTGAAAAT ATCAACTCGC CTGAACTTAC TGGAACAAGA GTTGTCTGAA 
    AAGAATGTGC AGCTCCAGAC CAGTACAGCT GAGGAGAAAA CAAAGATTTC AGAACAAGTT 
    GAAGTCCTCC AGAAAGAAAA GGATCAGCTC CAGAAACGCA GACACAATGT GGATGAAAAA 
    CTTAAAAATG GTAGAGTGTT ATCACCTGAA GAAGAACATG TTCTTTTCCA ACTTGAAGAA 
    GGGATTGAAG CTTTGGAAGC TGCAATTGAA TACAGGAATG AAAGTATCCA GAATCGCCAG 
    AAGTCACTTA GAGCATCATT CCATAACCTC TCTCGTGGTG AAGCAAATGT CTTGGAAAAG 
    CTAGCTTGCC TGAGTCCTGT TGAGATTAGA ACTATTCTTT TCAGATATTT CAATAAGGTG 
    GTGAATTTGC GAGAAGCTGA ACGGAAACAA CAGTTATATA ATGAAGAAAT GAAAATGAAA 
    GTTCTGGAAC GGGATAATAT GGTTCGTGAA TTAGAATCTG CACTGGACCA TCTAAAATTG 
    CAGTGTGACC GGAGACTGAC CCTCCAGCAA AAGGAACACG AACAAAAGAT GCAGTTGCTA 
    TTACATCATT TCAAAGAACA AGATGGAGAA GGCATTATGG AAACTTTCAA AACATATGAA 
    GATAAAATCC AGCAGTTGGA AAAAGATCTT TATTTCTATA AGAAAACCAG CCGGGATCAT 
    AAGAAGAAAC TTAAGGAACT GGTAGGGGAA GCAATTCGGC GGCAACTAGC ACCATCAGAG 
    TATCAAGAGG CTGGAGATGG AGTCCTGAAG CCAGAAGGAG GAGGCATGCT TTCAGAAGAA 
    TTAAAATGGG CATCCAGACC TGAAAGTATG AAATTAAGTG GAAGAGAAAG AGAAATGGAC 
    AGTTCAGCAA GCAGCTTAAG AACACAGCCA AATCCTCAAA AGCTCTGGGA AGATATCCCA 
    GAATTACCTC CAATTCATAG TTCTTTAGCA CCCCCCAGTG GGCATATGTT AGGTAATGAG 
    AATAAAACAG AAACAGATGA TAATCAGTTT ACAAAATCTC ACAGTCGACT GTCATCCCAA 
    ATTCAGGTTG TGGGAAATGT GGGACGACTT CATGGTGTCA CACCTGTAAA ACTGTGTCGA 
    AAAGAATTAC GTCAAATTTC CGCCTTGGAA CTATCATTGC GACGTTCCAG TCTTGGAGTT 
    GGCATTGGAT CAATGGCTGC TGATTCCATC GAAGTATCTA GGAAACCAAG GGACTTAAAA 
    ACTTAG

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

    RefSeq XP_016870401.1
    CDS663..3428
    Translation

    Target ORF information:

    RefSeq Version XM_017014912.2
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant X20, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017014912.2

    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
    ATGAAAAAGG AAACACAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGAAATAC AATTAAAAAC AGGACAGGAA GAAGGTCTAA AACCGAAAGC TGAGGACCTT 
    GATGCATGTA ACTTGAAAAG GAGAAAAGGT TCGTTTGGAA GTATAGACCA TCTCCAGAAA 
    TTGGATGAGC AAAAGAAATG GTTAGATGAA GAAGTAGAGA AAGTTCTGAA CCAACGCCAA 
    GAATTAGAGG AGCTGGAAGC AGACTTAAAG AAACGGGAGG CCATAGTTTC TAAGAAGGAG 
    GCTCTGTTAC AGGAGAAGAG TCACCTGGAA AATAAGAAAT TGAGATCTAG TCAGGCCTTA 
    AACACAGATA GTTTGAAAAT ATCAACTCGC CTGAACTTAC TGGAACAAGA GTTGTCTGAA 
    AAGAATGTGC AGCTCCAGAC CAGTACAGCT GAGGAGAAAA CAAAGATTTC AGAACAAGTT 
    GAAGTCCTCC AGAAAGAAAA GGATCAGCTC CAGAAACGCA GACACAATGT GGATGAAAAA 
    CTTAAAAATG GTAGAGTGTT ATCACCTGAA GAAGAACATG TTCTTTTCCA ACTTGAAGAA 
    GGGATTGAAG CTTTGGAAGC TGCAATTGAA TACAGGAATG AAAGTATCCA GAATCGCCAG 
    AAGTCACTTA GAGCATCATT CCATAACCTC TCTCGTGGTG AAGCAAATGT CTTGGAAAAG 
    CTAGCTTGCC TGAGTCCTGT TGAGATTAGA ACTATTCTTT TCAGATATTT CAATAAGGTG 
    GTGAATTTGC GAGAAGCTGA ACGGAAACAA CAGTTATATA ATGAAGAAAT GAAAATGAAA 
    GTTCTGGAAC GGGATAATAT GGTTCGTGAA TTAGAATCTG CACTGGACCA TCTAAAATTG 
    CAGTGTGACC GGAGACTGAC CCTCCAGCAA AAGGAACACG AACAAAAGAT GCAGTTGCTA 
    TTACATCATT TCAAAGAACA AGATGGAGAA GGCATTATGG AAACTTTCAA AACATATGAA 
    GATAAAATCC AGCAGTTGGA AAAAGATCTT TATTTCTATA AGAAAACCAG CCGGGATCAT 
    AAGAAGAAAC TTAAGGAACT GGTAGGGGAA GCAATTCGGC GGCAACTAGC ACCATCAGAG 
    TATCAAGAGG CTGGAGATGG AGTCCTGAAG CCAGAAGGAG GAGGCATGCT TTCAGAAGAA 
    TTAAAATGGG CATCCAGACC TGAAAGTATG AAATTAAGTG GAAGAGAAAG AGAAATGGAC 
    AGTTCAGCAA GCAGCTTAAG AACACAGCCA AATCCTCAAA AGCTCTGGGA AGATATCCCA 
    GAATTACCTC CAATTCATAG TTCTTTAGCA CCCCCCAGTG GGCATATGTT AGGTAATGAG 
    AATAAAACAG AAACAGATGA TAATCAGTTT ACAAAATCTC ACAGTCGACT GTCATCCCAA 
    ATTCAGGTTG TGGGAAATGT GGGACGACTT CATGGTGTCA CACCTGTAAA ACTGTGTCGA 
    AAAGAATTAC GTCAAATTTC CGCCTTGGAA CTATCATTGC GACGTTCCAG TCTTGGAGTT 
    GGCATTGGAT CAATGGCTGC TGATTCCATC GAAGTATCTA GGAAACCAAG GGACTTAAAA 
    ACTTAG

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

    KIF27 ( XM_017014913.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016870402.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant X21, mRNA.
    Price & Availability↑
    CloneID OHu98747
    Clone ID Related Accession (Same CDS sequence) XM_017014912.1 , NM_001354070.1 , XM_017014912.2 , XM_017014913.1 , NM_001354070.2 , XM_024447610.1
    Accession Version XM_017014913.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2766bp)
    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 2016-06-05
    Organism Homo sapiens(Human)
    Product kinesin-like protein KIF27 isoform X14
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) 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 :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    ATGAAAAAGG AAACACAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGAAATAC AATTAAAAAC AGGACAGGAA GAAGGTCTAA AACCGAAAGC TGAGGACCTT 
    GATGCATGTA ACTTGAAAAG GAGAAAAGGT TCGTTTGGAA GTATAGACCA TCTCCAGAAA 
    TTGGATGAGC AAAAGAAATG GTTAGATGAA GAAGTAGAGA AAGTTCTGAA CCAACGCCAA 
    GAATTAGAGG AGCTGGAAGC AGACTTAAAG AAACGGGAGG CCATAGTTTC TAAGAAGGAG 
    GCTCTGTTAC AGGAGAAGAG TCACCTGGAA AATAAGAAAT TGAGATCTAG TCAGGCCTTA 
    AACACAGATA GTTTGAAAAT ATCAACTCGC CTGAACTTAC TGGAACAAGA GTTGTCTGAA 
    AAGAATGTGC AGCTCCAGAC CAGTACAGCT GAGGAGAAAA CAAAGATTTC AGAACAAGTT 
    GAAGTCCTCC AGAAAGAAAA GGATCAGCTC CAGAAACGCA GACACAATGT GGATGAAAAA 
    CTTAAAAATG GTAGAGTGTT ATCACCTGAA GAAGAACATG TTCTTTTCCA ACTTGAAGAA 
    GGGATTGAAG CTTTGGAAGC TGCAATTGAA TACAGGAATG AAAGTATCCA GAATCGCCAG 
    AAGTCACTTA GAGCATCATT CCATAACCTC TCTCGTGGTG AAGCAAATGT CTTGGAAAAG 
    CTAGCTTGCC TGAGTCCTGT TGAGATTAGA ACTATTCTTT TCAGATATTT CAATAAGGTG 
    GTGAATTTGC GAGAAGCTGA ACGGAAACAA CAGTTATATA ATGAAGAAAT GAAAATGAAA 
    GTTCTGGAAC GGGATAATAT GGTTCGTGAA TTAGAATCTG CACTGGACCA TCTAAAATTG 
    CAGTGTGACC GGAGACTGAC CCTCCAGCAA AAGGAACACG AACAAAAGAT GCAGTTGCTA 
    TTACATCATT TCAAAGAACA AGATGGAGAA GGCATTATGG AAACTTTCAA AACATATGAA 
    GATAAAATCC AGCAGTTGGA AAAAGATCTT TATTTCTATA AGAAAACCAG CCGGGATCAT 
    AAGAAGAAAC TTAAGGAACT GGTAGGGGAA GCAATTCGGC GGCAACTAGC ACCATCAGAG 
    TATCAAGAGG CTGGAGATGG AGTCCTGAAG CCAGAAGGAG GAGGCATGCT TTCAGAAGAA 
    TTAAAATGGG CATCCAGACC TGAAAGTATG AAATTAAGTG GAAGAGAAAG AGAAATGGAC 
    AGTTCAGCAA GCAGCTTAAG AACACAGCCA AATCCTCAAA AGCTCTGGGA AGATATCCCA 
    GAATTACCTC CAATTCATAG TTCTTTAGCA CCCCCCAGTG GGCATATGTT AGGTAATGAG 
    AATAAAACAG AAACAGATGA TAATCAGTTT ACAAAATCTC ACAGTCGACT GTCATCCCAA 
    ATTCAGGTTG TGGGAAATGT GGGACGACTT CATGGTGTCA CACCTGTAAA ACTGTGTCGA 
    AAAGAATTAC GTCAAATTTC CGCCTTGGAA CTATCATTGC GACGTTCCAG TCTTGGAGTT 
    GGCATTGGAT CAATGGCTGC TGATTCCATC GAAGTATCTA GGAAACCAAG GGACTTAAAA 
    ACTTAG

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

    RefSeq XP_016870402.1
    CDS854..3619
    Translation

    Target ORF information:

    RefSeq Version XM_017014913.1
    Organism Homo sapiens(Human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant X21, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017014913.1

    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
    ATGAAAAAGG AAACACAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGAAATAC AATTAAAAAC AGGACAGGAA GAAGGTCTAA AACCGAAAGC TGAGGACCTT 
    GATGCATGTA ACTTGAAAAG GAGAAAAGGT TCGTTTGGAA GTATAGACCA TCTCCAGAAA 
    TTGGATGAGC AAAAGAAATG GTTAGATGAA GAAGTAGAGA AAGTTCTGAA CCAACGCCAA 
    GAATTAGAGG AGCTGGAAGC AGACTTAAAG AAACGGGAGG CCATAGTTTC TAAGAAGGAG 
    GCTCTGTTAC AGGAGAAGAG TCACCTGGAA AATAAGAAAT TGAGATCTAG TCAGGCCTTA 
    AACACAGATA GTTTGAAAAT ATCAACTCGC CTGAACTTAC TGGAACAAGA GTTGTCTGAA 
    AAGAATGTGC AGCTCCAGAC CAGTACAGCT GAGGAGAAAA CAAAGATTTC AGAACAAGTT 
    GAAGTCCTCC AGAAAGAAAA GGATCAGCTC CAGAAACGCA GACACAATGT GGATGAAAAA 
    CTTAAAAATG GTAGAGTGTT ATCACCTGAA GAAGAACATG TTCTTTTCCA ACTTGAAGAA 
    GGGATTGAAG CTTTGGAAGC TGCAATTGAA TACAGGAATG AAAGTATCCA GAATCGCCAG 
    AAGTCACTTA GAGCATCATT CCATAACCTC TCTCGTGGTG AAGCAAATGT CTTGGAAAAG 
    CTAGCTTGCC TGAGTCCTGT TGAGATTAGA ACTATTCTTT TCAGATATTT CAATAAGGTG 
    GTGAATTTGC GAGAAGCTGA ACGGAAACAA CAGTTATATA ATGAAGAAAT GAAAATGAAA 
    GTTCTGGAAC GGGATAATAT GGTTCGTGAA TTAGAATCTG CACTGGACCA TCTAAAATTG 
    CAGTGTGACC GGAGACTGAC CCTCCAGCAA AAGGAACACG AACAAAAGAT GCAGTTGCTA 
    TTACATCATT TCAAAGAACA AGATGGAGAA GGCATTATGG AAACTTTCAA AACATATGAA 
    GATAAAATCC AGCAGTTGGA AAAAGATCTT TATTTCTATA AGAAAACCAG CCGGGATCAT 
    AAGAAGAAAC TTAAGGAACT GGTAGGGGAA GCAATTCGGC GGCAACTAGC ACCATCAGAG 
    TATCAAGAGG CTGGAGATGG AGTCCTGAAG CCAGAAGGAG GAGGCATGCT TTCAGAAGAA 
    TTAAAATGGG CATCCAGACC TGAAAGTATG AAATTAAGTG GAAGAGAAAG AGAAATGGAC 
    AGTTCAGCAA GCAGCTTAAG AACACAGCCA AATCCTCAAA AGCTCTGGGA AGATATCCCA 
    GAATTACCTC CAATTCATAG TTCTTTAGCA CCCCCCAGTG GGCATATGTT AGGTAATGAG 
    AATAAAACAG AAACAGATGA TAATCAGTTT ACAAAATCTC ACAGTCGACT GTCATCCCAA 
    ATTCAGGTTG TGGGAAATGT GGGACGACTT CATGGTGTCA CACCTGTAAA ACTGTGTCGA 
    AAAGAATTAC GTCAAATTTC CGCCTTGGAA CTATCATTGC GACGTTCCAG TCTTGGAGTT 
    GGCATTGGAT CAATGGCTGC TGATTCCATC GAAGTATCTA GGAAACCAAG GGACTTAAAA 
    ACTTAG

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

    KIF27 ( XM_024447610.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024303378.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant X21, mRNA.
    Price & Availability↑
    CloneID OHu98747
    Clone ID Related Accession (Same CDS sequence) XM_017014912.1 , NM_001354070.1 , XM_017014912.2 , XM_017014913.1 , NM_001354070.2 , XM_024447610.1
    Accession Version XM_024447610.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2766bp)
    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 KIF27 isoform X14
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) 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
    ATGAAAAAGG AAACACAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGAAATAC AATTAAAAAC AGGACAGGAA GAAGGTCTAA AACCGAAAGC TGAGGACCTT 
    GATGCATGTA ACTTGAAAAG GAGAAAAGGT TCGTTTGGAA GTATAGACCA TCTCCAGAAA 
    TTGGATGAGC AAAAGAAATG GTTAGATGAA GAAGTAGAGA AAGTTCTGAA CCAACGCCAA 
    GAATTAGAGG AGCTGGAAGC AGACTTAAAG AAACGGGAGG CCATAGTTTC TAAGAAGGAG 
    GCTCTGTTAC AGGAGAAGAG TCACCTGGAA AATAAGAAAT TGAGATCTAG TCAGGCCTTA 
    AACACAGATA GTTTGAAAAT ATCAACTCGC CTGAACTTAC TGGAACAAGA GTTGTCTGAA 
    AAGAATGTGC AGCTCCAGAC CAGTACAGCT GAGGAGAAAA CAAAGATTTC AGAACAAGTT 
    GAAGTCCTCC AGAAAGAAAA GGATCAGCTC CAGAAACGCA GACACAATGT GGATGAAAAA 
    CTTAAAAATG GTAGAGTGTT ATCACCTGAA GAAGAACATG TTCTTTTCCA ACTTGAAGAA 
    GGGATTGAAG CTTTGGAAGC TGCAATTGAA TACAGGAATG AAAGTATCCA GAATCGCCAG 
    AAGTCACTTA GAGCATCATT CCATAACCTC TCTCGTGGTG AAGCAAATGT CTTGGAAAAG 
    CTAGCTTGCC TGAGTCCTGT TGAGATTAGA ACTATTCTTT TCAGATATTT CAATAAGGTG 
    GTGAATTTGC GAGAAGCTGA ACGGAAACAA CAGTTATATA ATGAAGAAAT GAAAATGAAA 
    GTTCTGGAAC GGGATAATAT GGTTCGTGAA TTAGAATCTG CACTGGACCA TCTAAAATTG 
    CAGTGTGACC GGAGACTGAC CCTCCAGCAA AAGGAACACG AACAAAAGAT GCAGTTGCTA 
    TTACATCATT TCAAAGAACA AGATGGAGAA GGCATTATGG AAACTTTCAA AACATATGAA 
    GATAAAATCC AGCAGTTGGA AAAAGATCTT TATTTCTATA AGAAAACCAG CCGGGATCAT 
    AAGAAGAAAC TTAAGGAACT GGTAGGGGAA GCAATTCGGC GGCAACTAGC ACCATCAGAG 
    TATCAAGAGG CTGGAGATGG AGTCCTGAAG CCAGAAGGAG GAGGCATGCT TTCAGAAGAA 
    TTAAAATGGG CATCCAGACC TGAAAGTATG AAATTAAGTG GAAGAGAAAG AGAAATGGAC 
    AGTTCAGCAA GCAGCTTAAG AACACAGCCA AATCCTCAAA AGCTCTGGGA AGATATCCCA 
    GAATTACCTC CAATTCATAG TTCTTTAGCA CCCCCCAGTG GGCATATGTT AGGTAATGAG 
    AATAAAACAG AAACAGATGA TAATCAGTTT ACAAAATCTC ACAGTCGACT GTCATCCCAA 
    ATTCAGGTTG TGGGAAATGT GGGACGACTT CATGGTGTCA CACCTGTAAA ACTGTGTCGA 
    AAAGAATTAC GTCAAATTTC CGCCTTGGAA CTATCATTGC GACGTTCCAG TCTTGGAGTT 
    GGCATTGGAT CAATGGCTGC TGATTCCATC GAAGTATCTA GGAAACCAAG GGACTTAAAA 
    ACTTAG

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

    RefSeq XP_024303378.1
    CDS772..3537
    Translation

    Target ORF information:

    RefSeq Version XM_024447610.1
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant X21, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024447610.1

    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
    ATGAAAAAGG AAACACAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGAAATAC AATTAAAAAC AGGACAGGAA GAAGGTCTAA AACCGAAAGC TGAGGACCTT 
    GATGCATGTA ACTTGAAAAG GAGAAAAGGT TCGTTTGGAA GTATAGACCA TCTCCAGAAA 
    TTGGATGAGC AAAAGAAATG GTTAGATGAA GAAGTAGAGA AAGTTCTGAA CCAACGCCAA 
    GAATTAGAGG AGCTGGAAGC AGACTTAAAG AAACGGGAGG CCATAGTTTC TAAGAAGGAG 
    GCTCTGTTAC AGGAGAAGAG TCACCTGGAA AATAAGAAAT TGAGATCTAG TCAGGCCTTA 
    AACACAGATA GTTTGAAAAT ATCAACTCGC CTGAACTTAC TGGAACAAGA GTTGTCTGAA 
    AAGAATGTGC AGCTCCAGAC CAGTACAGCT GAGGAGAAAA CAAAGATTTC AGAACAAGTT 
    GAAGTCCTCC AGAAAGAAAA GGATCAGCTC CAGAAACGCA GACACAATGT GGATGAAAAA 
    CTTAAAAATG GTAGAGTGTT ATCACCTGAA GAAGAACATG TTCTTTTCCA ACTTGAAGAA 
    GGGATTGAAG CTTTGGAAGC TGCAATTGAA TACAGGAATG AAAGTATCCA GAATCGCCAG 
    AAGTCACTTA GAGCATCATT CCATAACCTC TCTCGTGGTG AAGCAAATGT CTTGGAAAAG 
    CTAGCTTGCC TGAGTCCTGT TGAGATTAGA ACTATTCTTT TCAGATATTT CAATAAGGTG 
    GTGAATTTGC GAGAAGCTGA ACGGAAACAA CAGTTATATA ATGAAGAAAT GAAAATGAAA 
    GTTCTGGAAC GGGATAATAT GGTTCGTGAA TTAGAATCTG CACTGGACCA TCTAAAATTG 
    CAGTGTGACC GGAGACTGAC CCTCCAGCAA AAGGAACACG AACAAAAGAT GCAGTTGCTA 
    TTACATCATT TCAAAGAACA AGATGGAGAA GGCATTATGG AAACTTTCAA AACATATGAA 
    GATAAAATCC AGCAGTTGGA AAAAGATCTT TATTTCTATA AGAAAACCAG CCGGGATCAT 
    AAGAAGAAAC TTAAGGAACT GGTAGGGGAA GCAATTCGGC GGCAACTAGC ACCATCAGAG 
    TATCAAGAGG CTGGAGATGG AGTCCTGAAG CCAGAAGGAG GAGGCATGCT TTCAGAAGAA 
    TTAAAATGGG CATCCAGACC TGAAAGTATG AAATTAAGTG GAAGAGAAAG AGAAATGGAC 
    AGTTCAGCAA GCAGCTTAAG AACACAGCCA AATCCTCAAA AGCTCTGGGA AGATATCCCA 
    GAATTACCTC CAATTCATAG TTCTTTAGCA CCCCCCAGTG GGCATATGTT AGGTAATGAG 
    AATAAAACAG AAACAGATGA TAATCAGTTT ACAAAATCTC ACAGTCGACT GTCATCCCAA 
    ATTCAGGTTG TGGGAAATGT GGGACGACTT CATGGTGTCA CACCTGTAAA ACTGTGTCGA 
    AAAGAATTAC GTCAAATTTC CGCCTTGGAA CTATCATTGC GACGTTCCAG TCTTGGAGTT 
    GGCATTGGAT CAATGGCTGC TGATTCCATC GAAGTATCTA GGAAACCAAG GGACTTAAAA 
    ACTTAG

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

    KIF27 ( XM_017014914.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016870403.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant X22, mRNA.
    Price & Availability↑
    CloneID OHu98748
    Clone ID Related Accession (Same CDS sequence) XM_017014914.2 , XM_017014914.1
    Accession Version XM_017014914.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2688bp)
    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 KIF27 isoform X15
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017014914.1. ##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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGTAATAT TGTCATACAT TCCTGCTAAG TATAATATGA AATGTTAA

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

    RefSeq XP_016870403.1
    CDS262..2949
    Translation

    Target ORF information:

    RefSeq Version XM_017014914.2
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant X22, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017014914.2

    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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGTAATAT TGTCATACAT TCCTGCTAAG TATAATATGA AATGTTAA

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

    KIF27 ( XM_017014914.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016870403.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant X22, mRNA.
    Price & Availability↑
    CloneID OHu98748
    Clone ID Related Accession (Same CDS sequence) XM_017014914.2 , XM_017014914.1
    Accession Version XM_017014914.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2688bp)
    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 2016-06-05
    Organism Homo sapiens(human)
    Product kinesin-like protein KIF27 isoform X15
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) 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 :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGTAATAT TGTCATACAT TCCTGCTAAG TATAATATGA AATGTTAA

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

    RefSeq XP_016870403.1
    CDS257..2944
    Translation

    Target ORF information:

    RefSeq Version XM_017014914.1
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant X22, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017014914.1

    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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGTAATAT TGTCATACAT TCCTGCTAAG TATAATATGA AATGTTAA

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

    KIF27 ( XM_017014915.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016870404.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant X23, mRNA.
    Price & Availability↑
    CloneID OHu98749
    Clone ID Related Accession (Same CDS sequence) NM_001354071.2 , NM_001354071.1 , XM_017014915.1
    Accession Version XM_017014915.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2550bp)
    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 2016-06-05
    Organism Homo sapiens(Human)
    Product kinesin-like protein KIF27 isoform X16
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    ATGAAAAAGG AAACACAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGAAATAC AATTAAAAAC AGGACAGGAA GAAGGTCTAA AACCGAAAGC TGAGGACCTT 
    GATGCATGTA ACTTGAAAAG GAGAAAAGGT TCGTTTGGAA GTATAGACCA TCTCCAGAAA 
    TTGGATGAGC AAAAGAAATG GTTAGATGAA GAAGTAGAGA AAGTTCTGAA CCAACGCCAA 
    GAATTAGAGG AGCTGGAAGC AGACTTAAAG AAACGGGAGG CCATAGTTTC TAAGAAGGAG 
    GCTCTGTTAC AGGAGAAGAG TCACCTGGAA AATAAGAAAT TGAGATCTAG TCAGGAAGAA 
    CATGTTCTTT TCCAACTTGA AGAAGGGATT GAAGCTTTGG AAGCTGCAAT TGAATACAGG 
    AATGAAAGTA TCCAGAATCG CCAGAAGTCA CTTAGAGCAT CATTCCATAA CCTCTCTCGT 
    GGTGAAGCAA ATGTCTTGGA AAAGCTAGCT TGCCTGAGTC CTGTTGAGAT TAGAACTATT 
    CTTTTCAGAT ATTTCAATAA GGTGGTGAAT TTGCGAGAAG CTGAACGGAA ACAACAGTTA 
    TATAATGAAG AAATGAAAAT GAAAGTTCTG GAACGGGATA ATATGGTTCG TGAATTAGAA 
    TCTGCACTGG ACCATCTAAA ATTGCAGTGT GACCGGAGAC TGACCCTCCA GCAAAAGGAA 
    CACGAACAAA AGATGCAGTT GCTATTACAT CATTTCAAAG AACAAGATGG AGAAGGCATT 
    ATGGAAACTT TCAAAACATA TGAAGATAAA ATCCAGCAGT TGGAAAAAGA TCTTTATTTC 
    TATAAGAAAA CCAGCCGGGA TCATAAGAAG AAACTTAAGG AACTGGTAGG GGAAGCAATT 
    CGGCGGCAAC TAGCACCATC AGAGTATCAA GAGGCTGGAG ATGGAGTCCT GAAGCCAGAA 
    GGAGGAGGCA TGCTTTCAGA AGAATTAAAA TGGGCATCCA GACCTGAAAG TATGAAATTA 
    AGTGGAAGAG AAAGAGAAAT GGACAGTTCA GCAAGCAGCT TAAGAACACA GCCAAATCCT 
    CAAAAGCTCT GGGAAGATAT CCCAGAATTA CCTCCAATTC ATAGTTCTTT AGCACCCCCC 
    AGTGGGCATA TGTTAGGTAA TGAGAATAAA ACAGAAACAG ATGATAATCA GTTTACAAAA 
    TCTCACAGTC GACTGTCATC CCAAATTCAG GTTGTGGGAA ATGTGGGACG ACTTCATGGT 
    GTCACACCTG TAAAACTGTG TCGAAAAGAA TTACGTCAAA TTTCCGCCTT GGAACTATCA 
    TTGCGACGTT CCAGTCTTGG AGTTGGCATT GGATCAATGG CTGCTGATTC CATCGAAGTA 
    TCTAGGAAAC CAAGGGACTT AAAAACTTAG

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

    RefSeq XP_016870404.1
    CDS824..3373
    Translation

    Target ORF information:

    RefSeq Version XM_017014915.1
    Organism Homo sapiens(Human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant X23, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017014915.1

    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
    ATGAAAAAGG AAACACAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGAAATAC AATTAAAAAC AGGACAGGAA GAAGGTCTAA AACCGAAAGC TGAGGACCTT 
    GATGCATGTA ACTTGAAAAG GAGAAAAGGT TCGTTTGGAA GTATAGACCA TCTCCAGAAA 
    TTGGATGAGC AAAAGAAATG GTTAGATGAA GAAGTAGAGA AAGTTCTGAA CCAACGCCAA 
    GAATTAGAGG AGCTGGAAGC AGACTTAAAG AAACGGGAGG CCATAGTTTC TAAGAAGGAG 
    GCTCTGTTAC AGGAGAAGAG TCACCTGGAA AATAAGAAAT TGAGATCTAG TCAGGAAGAA 
    CATGTTCTTT TCCAACTTGA AGAAGGGATT GAAGCTTTGG AAGCTGCAAT TGAATACAGG 
    AATGAAAGTA TCCAGAATCG CCAGAAGTCA CTTAGAGCAT CATTCCATAA CCTCTCTCGT 
    GGTGAAGCAA ATGTCTTGGA AAAGCTAGCT TGCCTGAGTC CTGTTGAGAT TAGAACTATT 
    CTTTTCAGAT ATTTCAATAA GGTGGTGAAT TTGCGAGAAG CTGAACGGAA ACAACAGTTA 
    TATAATGAAG AAATGAAAAT GAAAGTTCTG GAACGGGATA ATATGGTTCG TGAATTAGAA 
    TCTGCACTGG ACCATCTAAA ATTGCAGTGT GACCGGAGAC TGACCCTCCA GCAAAAGGAA 
    CACGAACAAA AGATGCAGTT GCTATTACAT CATTTCAAAG AACAAGATGG AGAAGGCATT 
    ATGGAAACTT TCAAAACATA TGAAGATAAA ATCCAGCAGT TGGAAAAAGA TCTTTATTTC 
    TATAAGAAAA CCAGCCGGGA TCATAAGAAG AAACTTAAGG AACTGGTAGG GGAAGCAATT 
    CGGCGGCAAC TAGCACCATC AGAGTATCAA GAGGCTGGAG ATGGAGTCCT GAAGCCAGAA 
    GGAGGAGGCA TGCTTTCAGA AGAATTAAAA TGGGCATCCA GACCTGAAAG TATGAAATTA 
    AGTGGAAGAG AAAGAGAAAT GGACAGTTCA GCAAGCAGCT TAAGAACACA GCCAAATCCT 
    CAAAAGCTCT GGGAAGATAT CCCAGAATTA CCTCCAATTC ATAGTTCTTT AGCACCCCCC 
    AGTGGGCATA TGTTAGGTAA TGAGAATAAA ACAGAAACAG ATGATAATCA GTTTACAAAA 
    TCTCACAGTC GACTGTCATC CCAAATTCAG GTTGTGGGAA ATGTGGGACG ACTTCATGGT 
    GTCACACCTG TAAAACTGTG TCGAAAAGAA TTACGTCAAA TTTCCGCCTT GGAACTATCA 
    TTGCGACGTT CCAGTCTTGG AGTTGGCATT GGATCAATGG CTGCTGATTC CATCGAAGTA 
    TCTAGGAAAC CAAGGGACTT AAAAACTTAG

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

    KIF27 ( NM_001354069.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001340998.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant 4, mRNA.
    Price & Availability↑
    CloneID OHu98745
    Clone ID Related Accession (Same CDS sequence) NM_001354069.1 , NM_001354069.2 , XM_017014910.1 , XM_024447608.1
    Accession Version NM_001354069.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3813bp)
    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 2018-12-04
    Organism Homo sapiens(human)
    Product kinesin-like protein KIF27 isoform D
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL354733.15. On Aug 29, 2017 this sequence version replaced XM_017014910.1. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## Transcript exon combination :: SRR1803616.192900.1 [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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGAAATAC AATTAAAAAC AGGACAGGAA GAAGGTCTAA AACCGAAAGC TGAGGACCTT 
    GATGCATGTA ACTTGAAAAG GAGAAAAGGT TCGTTTGGAA GTATAGACCA TCTCCAGGAA 
    GAACATGTTC TTTTCCAACT TGAAGAAGGG ATTGAAGCTT TGGAAGCTGC AATTGAATAC 
    AGGAATGAAA GTATCCAGAA TCGCCAGAAG TCACTTAGAG CATCATTCCA TAACCTCTCT 
    CGTGGTGAAG CAAATGTCTT GGAAAAGCTA GCTTGCCTGA GTCCTGTTGA GATTAGAACT 
    ATTCTTTTCA GATATTTCAA TAAGGTGGTG AATTTGCGAG AAGCTGAACG GAAACAACAG 
    TTATATAATG AAGAAATGAA AATGAAAGTT CTGGAACGGG ATAATATGGT TCGTGAATTA 
    GAATCTGCAC TGGACCATCT AAAATTGCAG TGTGACCGGA GACTGACCCT CCAGCAAAAG 
    GAACACGAAC AAAAGATGCA GTTGCTATTA CATCATTTCA AAGAACAAGA TGGAGAAGGC 
    ATTATGGAAA CTTTCAAAAC ATATGAAGAT AAAATCCAGC AGTTGGAAAA AGATCTTTAT 
    TTCTATAAGA AAACCAGCCG GGATCATAAG AAGAAACTTA AGGAACTGGT AGGGGAAGCA 
    ATTCGGCGGC AACTAGCACC ATCAGAGTAT CAAGAGGCTG GAGATGGAGT CCTGAAGCCA 
    GAAGGAGGAG GCATGCTTTC AGAAGAATTA AAATGGGCAT CCAGACCTGA AAGTATGAAA 
    TTAAGTGGAA GAGAAAGAGA AATGGACAGT TCAGCAAGCA GCTTAAGAAC ACAGCCAAAT 
    CCTCAAAAGC TCTGGGAAGA TATCCCAGAA TTACCTCCAA TTCATAGTTC TTTAGCACCC 
    CCCAGTGGGC ATATGTTAGG TAATGAGAAT AAAACAGAAA CAGATGATAA TCAGTTTACA 
    AAATCTCACA GTCGACTGTC ATCCCAAATT CAGGTTGTGG GAAATGTGGG ACGACTTCAT 
    GGTGTCACAC CTGTAAAACT GTGTCGAAAA GAATTACGTC AAATTTCCGC CTTGGAACTA 
    TCATTGCGAC GTTCCAGTCT TGGAGTTGGC ATTGGATCAA TGGCTGCTGA TTCCATCGAA 
    GTATCTAGGA AACCAAGGGA CTTAAAAACT TAG

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

    RefSeq NP_001340998.1
    CDS369..4181
    Translation

    Target ORF information:

    RefSeq Version NM_001354069.1
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant 4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001354069.1

    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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGAAATAC AATTAAAAAC AGGACAGGAA GAAGGTCTAA AACCGAAAGC TGAGGACCTT 
    GATGCATGTA ACTTGAAAAG GAGAAAAGGT TCGTTTGGAA GTATAGACCA TCTCCAGGAA 
    GAACATGTTC TTTTCCAACT TGAAGAAGGG ATTGAAGCTT TGGAAGCTGC AATTGAATAC 
    AGGAATGAAA GTATCCAGAA TCGCCAGAAG TCACTTAGAG CATCATTCCA TAACCTCTCT 
    CGTGGTGAAG CAAATGTCTT GGAAAAGCTA GCTTGCCTGA GTCCTGTTGA GATTAGAACT 
    ATTCTTTTCA GATATTTCAA TAAGGTGGTG AATTTGCGAG AAGCTGAACG GAAACAACAG 
    TTATATAATG AAGAAATGAA AATGAAAGTT CTGGAACGGG ATAATATGGT TCGTGAATTA 
    GAATCTGCAC TGGACCATCT AAAATTGCAG TGTGACCGGA GACTGACCCT CCAGCAAAAG 
    GAACACGAAC AAAAGATGCA GTTGCTATTA CATCATTTCA AAGAACAAGA TGGAGAAGGC 
    ATTATGGAAA CTTTCAAAAC ATATGAAGAT AAAATCCAGC AGTTGGAAAA AGATCTTTAT 
    TTCTATAAGA AAACCAGCCG GGATCATAAG AAGAAACTTA AGGAACTGGT AGGGGAAGCA 
    ATTCGGCGGC AACTAGCACC ATCAGAGTAT CAAGAGGCTG GAGATGGAGT CCTGAAGCCA 
    GAAGGAGGAG GCATGCTTTC AGAAGAATTA AAATGGGCAT CCAGACCTGA AAGTATGAAA 
    TTAAGTGGAA GAGAAAGAGA AATGGACAGT TCAGCAAGCA GCTTAAGAAC ACAGCCAAAT 
    CCTCAAAAGC TCTGGGAAGA TATCCCAGAA TTACCTCCAA TTCATAGTTC TTTAGCACCC 
    CCCAGTGGGC ATATGTTAGG TAATGAGAAT AAAACAGAAA CAGATGATAA TCAGTTTACA 
    AAATCTCACA GTCGACTGTC ATCCCAAATT CAGGTTGTGG GAAATGTGGG ACGACTTCAT 
    GGTGTCACAC CTGTAAAACT GTGTCGAAAA GAATTACGTC AAATTTCCGC CTTGGAACTA 
    TCATTGCGAC GTTCCAGTCT TGGAGTTGGC ATTGGATCAA TGGCTGCTGA TTCCATCGAA 
    GTATCTAGGA AACCAAGGGA CTTAAAAACT TAG

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

    KIF27 ( NM_001354069.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001340998.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant 4, mRNA.
    Price & Availability↑
    CloneID OHu98745
    Clone ID Related Accession (Same CDS sequence) NM_001354069.1 , NM_001354069.2 , XM_017014910.1 , XM_024447608.1
    Accession Version NM_001354069.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3813bp)
    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 2019-05-30
    Organism Homo sapiens(human)
    Product kinesin-like protein KIF27 isoform D
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL354733.15. On May 31, 2019 this sequence version replaced NM_001354069.1. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## Transcript exon combination :: SRR1803616.192900.1 [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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGAAATAC AATTAAAAAC AGGACAGGAA GAAGGTCTAA AACCGAAAGC TGAGGACCTT 
    GATGCATGTA ACTTGAAAAG GAGAAAAGGT TCGTTTGGAA GTATAGACCA TCTCCAGGAA 
    GAACATGTTC TTTTCCAACT TGAAGAAGGG ATTGAAGCTT TGGAAGCTGC AATTGAATAC 
    AGGAATGAAA GTATCCAGAA TCGCCAGAAG TCACTTAGAG CATCATTCCA TAACCTCTCT 
    CGTGGTGAAG CAAATGTCTT GGAAAAGCTA GCTTGCCTGA GTCCTGTTGA GATTAGAACT 
    ATTCTTTTCA GATATTTCAA TAAGGTGGTG AATTTGCGAG AAGCTGAACG GAAACAACAG 
    TTATATAATG AAGAAATGAA AATGAAAGTT CTGGAACGGG ATAATATGGT TCGTGAATTA 
    GAATCTGCAC TGGACCATCT AAAATTGCAG TGTGACCGGA GACTGACCCT CCAGCAAAAG 
    GAACACGAAC AAAAGATGCA GTTGCTATTA CATCATTTCA AAGAACAAGA TGGAGAAGGC 
    ATTATGGAAA CTTTCAAAAC ATATGAAGAT AAAATCCAGC AGTTGGAAAA AGATCTTTAT 
    TTCTATAAGA AAACCAGCCG GGATCATAAG AAGAAACTTA AGGAACTGGT AGGGGAAGCA 
    ATTCGGCGGC AACTAGCACC ATCAGAGTAT CAAGAGGCTG GAGATGGAGT CCTGAAGCCA 
    GAAGGAGGAG GCATGCTTTC AGAAGAATTA AAATGGGCAT CCAGACCTGA AAGTATGAAA 
    TTAAGTGGAA GAGAAAGAGA AATGGACAGT TCAGCAAGCA GCTTAAGAAC ACAGCCAAAT 
    CCTCAAAAGC TCTGGGAAGA TATCCCAGAA TTACCTCCAA TTCATAGTTC TTTAGCACCC 
    CCCAGTGGGC ATATGTTAGG TAATGAGAAT AAAACAGAAA CAGATGATAA TCAGTTTACA 
    AAATCTCACA GTCGACTGTC ATCCCAAATT CAGGTTGTGG GAAATGTGGG ACGACTTCAT 
    GGTGTCACAC CTGTAAAACT GTGTCGAAAA GAATTACGTC AAATTTCCGC CTTGGAACTA 
    TCATTGCGAC GTTCCAGTCT TGGAGTTGGC ATTGGATCAA TGGCTGCTGA TTCCATCGAA 
    GTATCTAGGA AACCAAGGGA CTTAAAAACT TAG

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

    RefSeq NP_001340998.1
    CDS257..4069
    Translation

    Target ORF information:

    RefSeq Version NM_001354069.2
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant 4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001354069.2

    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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGAAATAC AATTAAAAAC AGGACAGGAA GAAGGTCTAA AACCGAAAGC TGAGGACCTT 
    GATGCATGTA ACTTGAAAAG GAGAAAAGGT TCGTTTGGAA GTATAGACCA TCTCCAGGAA 
    GAACATGTTC TTTTCCAACT TGAAGAAGGG ATTGAAGCTT TGGAAGCTGC AATTGAATAC 
    AGGAATGAAA GTATCCAGAA TCGCCAGAAG TCACTTAGAG CATCATTCCA TAACCTCTCT 
    CGTGGTGAAG CAAATGTCTT GGAAAAGCTA GCTTGCCTGA GTCCTGTTGA GATTAGAACT 
    ATTCTTTTCA GATATTTCAA TAAGGTGGTG AATTTGCGAG AAGCTGAACG GAAACAACAG 
    TTATATAATG AAGAAATGAA AATGAAAGTT CTGGAACGGG ATAATATGGT TCGTGAATTA 
    GAATCTGCAC TGGACCATCT AAAATTGCAG TGTGACCGGA GACTGACCCT CCAGCAAAAG 
    GAACACGAAC AAAAGATGCA GTTGCTATTA CATCATTTCA AAGAACAAGA TGGAGAAGGC 
    ATTATGGAAA CTTTCAAAAC ATATGAAGAT AAAATCCAGC AGTTGGAAAA AGATCTTTAT 
    TTCTATAAGA AAACCAGCCG GGATCATAAG AAGAAACTTA AGGAACTGGT AGGGGAAGCA 
    ATTCGGCGGC AACTAGCACC ATCAGAGTAT CAAGAGGCTG GAGATGGAGT CCTGAAGCCA 
    GAAGGAGGAG GCATGCTTTC AGAAGAATTA AAATGGGCAT CCAGACCTGA AAGTATGAAA 
    TTAAGTGGAA GAGAAAGAGA AATGGACAGT TCAGCAAGCA GCTTAAGAAC ACAGCCAAAT 
    CCTCAAAAGC TCTGGGAAGA TATCCCAGAA TTACCTCCAA TTCATAGTTC TTTAGCACCC 
    CCCAGTGGGC ATATGTTAGG TAATGAGAAT AAAACAGAAA CAGATGATAA TCAGTTTACA 
    AAATCTCACA GTCGACTGTC ATCCCAAATT CAGGTTGTGG GAAATGTGGG ACGACTTCAT 
    GGTGTCACAC CTGTAAAACT GTGTCGAAAA GAATTACGTC AAATTTCCGC CTTGGAACTA 
    TCATTGCGAC GTTCCAGTCT TGGAGTTGGC ATTGGATCAA TGGCTGCTGA TTCCATCGAA 
    GTATCTAGGA AACCAAGGGA CTTAAAAACT TAG

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

    KIF27 ( XM_017014909.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016870398.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant X14, mRNA.
    Price & Availability↑
    CloneID OHu98744
    Clone ID Related Accession (Same CDS sequence) XM_017014909.1
    Accession Version XM_017014909.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3828bp)
    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 KIF27 isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) 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
    ATGAAGGATC TTCACATCCG AGAAGATGAA AAAGGAAACA CAGTGATTGT TGGGGCCAAG 
    GAATGCCATG TGGAGAGTGC AGGTGAAGTG ATGAGTCTTT TGGAGATGGG GAATGCAGCC 
    AGACATACAG GTACCACTCA AATGAATGAG CACTCCAGCA GATCACATGC AATTTTTACA 
    ATCAGCATTT GTCAAGTTCA TAAAAATATG GAGGCAGCTG AAGATGGATC ATGGTATTCC 
    CCTCGGCATA TTGTCTCAAA GTTCCACTTT GTGGATTTGG CAGGATCAGA AAGAGTAACC 
    AAAACGGGGA ATACTGGTGA ACGGTTCAAA GAATCCATTC AAATCAATAG TGGATTGCTG 
    GCTTTAGGAA ATGTAATAAG CGCTCTTGGG GACCCACGCA GGAAGAGTTC ACATATTCCA 
    TATAGGGATG CTAAAATTAC CCGGCTTCTG AAAGATTCTC TGGGAGGCAG TGCTAAGACT 
    GTCATGATCA CATGTGTCAG CCCCTCCTCC TCGAATTTTG ATGAGTCCTT AAATTCTCTC 
    AAATATGCCA ACAGAGCACG GAACATTAGA AACAAACCCA CTGTAAACTT CAGCCCCGAG 
    TCAGACCGTA TAGATGAAAT GGAATTTGAG ATTAAATTGC TTCGAGAAGC TTTGCAAAGC 
    CAGCAGGCTG GTGTCAGCCA AACTACCCAG ATCAATCGAG AAGGGAGTCC TGATACAAAT 
    AGGATTCATT CTCTTGAGGA GCAAGTAGCT CAGCTTCAAG GAGAATGTCT GGGTTACCAG 
    TGTTGTGTAG AAGAAGCCTT TACCTTCCTG GTTGACCTAA AAGATACTGT CAGACTAAAC 
    GAAAAGCAGC AACACAAACT GCAGGAGTGG TTTAACATGA TCCAAGAGGT CAGGAAGGCT 
    GTCCTCACCT CATTTCGAGG AATCGGAGGC ACTGCAAGTC TGGAAGAAGG ACCACAGCAT 
    GTTACAGTTC TCCAGCTGAA GAGAGAGCTT AAGAAATGCC AGTGTGTGCT TGCTGCTGAT 
    GAAGTAGTAT TTAATCAGAA GGAACTGGAG GTGAAGGAAC TGAAGAATCA AGTGCAGATG 
    ATGGTACAGG AAAACAAAGG GCATGCTGTA TCTTTGAAAG AAGCGCAAAA AGTGAATAGA 
    CTGCAGCCCC TGGCAAAAAC CACTTTACTT TCTACTTCTA TGGATTTGCC TATTCTAAAC 
    ATTTCATACA ACTGGAATCA TACAAATGAA AAAATAATAG AACAACAACT TCTTGTGGAT 
    CAACTGAGTG AAGAACTAAC AAAACTTAAC CTGTCAGTGA CTTCTTCAGC TAAAGAAAAT 
    TGTGGAGATG GGCCAGATGC CAGGATCCCT GAAAGGAGAC CATATACTGT ACCATTTGAT 
    ACTCATTTGG GGCATTATAT TTATATCCCA TCAAGACAAG ATTCCAGGAA GGTCCACACA 
    AGTCCGCCTA TGTACTCTCT GGATCGAATA TTTGCTGGAT TTCGAACACG AAGTCAGATG 
    CTGTTGGGTC ACATAGAAGA ACAAGATAAG GTCCTCCACT GCCAATTTTC TGATAACAGT 
    GATGATGAAG AATCAGAAGG CCAAGAGAAA TCTGGAACTA GATGTAGAAG TCGTTCATGG 
    ATTCAGAAGC CAGACTCTGT TTGTTCCCTT GTTGAATTGA GTGATACTCA GGATGAAACA 
    CAAAAGTCAG ATTTGGAGAA TGAAGATTTA AAGATTGATT GTCTCCAGGA GAGTCAAGAA 
    TTGAATTTGC AAAAATTAAA GAATTCAGAA CGCATACTTA CTGAAGCTAA ACAAAAAATG 
    AGAGAACTTA CAATTAACAT CAAGATGAAG GAAGATCTGA TTAAAGAATT AATAAAAACA 
    GGTAATGATG CCAAGTCTGT AAGCAAGCAG TATTCTTTGA AAGTAACAAA GCTAGAGCAT 
    GATGCAGAAC AGGCAAAAGT CGAACTGATT GAAACACAAA AGCAGCTACA GGAGCTGGAA 
    AACAAAGATC TTTCTGATGT TGCAATGAAG GTAAAATTAC AGAAAGAGTT TCGTAAAAAG 
    ATGGATGCTG CAAAGCTGAG AGTTCAGGTC TTGCAGAAGA AGCAACAAGA TAGTAAGAAA 
    CTGGCATCAC TGTCAATCCA AAATGAGAAA CGTGCTAATG AGCTAGAGCA GAGTGTAGAT 
    CACATGAAAT ATCAAAAGAT ACAGCTACAA AGAAAACTAC GAGAAGAAAA TGAAAAAAGG 
    AAGCAACTGG ATGCAGTAAT TAAGCGGGAC CAGCAAAAAA TCAAAGAAAT ACAATTAAAA 
    ACAGGACAGG AAGAAGGTCT AAAACCGAAA GCTGAGGACC TTGATGCATG TAACTTGAAA 
    AGGAGAAAAG GTTCGTTTGG AAGTATAGAC CATCTCCAGA AATTGGATGA GCAAAAGAAA 
    TGGTTAGATG AAGAAGTAGA GAAAGTTCTG AACCAACGCC AAGAATTAGA GGAGCTGGAA 
    GCAGACTTAA AGAAACGGGA GGCCATAGTT TCTAAGAAGG AGGCTCTGTT ACAGGAGAAG 
    AGTCACCTGG AAAATAAGAA ATTGAGATCT AGTCAGGCCT TAAACACAGA TAGTTTGAAA 
    ATATCAACTC GCCTGAACTT ACTGGAACAA GAGTTGTCTG AAAAGAATGT GCAGCTCCAG 
    ACCAGTACAG CTGAGGAGAA AACAAAGATT TCAGAACAAG TTGAAGTCCT CCAGAAAGAA 
    AAGGATCAGC TCCAGAAACG CAGACACAAT GTGGATGAAA AACTTAAAAA TGGTAGAGTG 
    TTATCACCTG AAGAAGAACA TGTTCTTTTC CAACTTGAAG AAGGGATTGA AGCTTTGGAA 
    GCTGCAATTG AATACAGGAA TGAAAGTATC CAGAATCGCC AGAAGTCACT TAGAGCATCA 
    TTCCATAACC TCTCTCGTGG TGAAGCAAAT GTCTTGGAAA AGCTAGCTTG CCTGAGTCCT 
    GTTGAGATTA GAACTATTCT TTTCAGATAT TTCAATAAGG TGGTGAATTT GCGAGAAGCT 
    GAACGGAAAC AACAGTTATA TAATGAAGAA ATGAAAATGA AAGTTCTGGA ACGGGATAAT 
    ATGGTTCGTG AATTAGAATC TGCACTGGAC CATCTAAAAT TGCAGTGTGA CCGGAGACTG 
    ACCCTCCAGC AAAAGGAACA CGAACAAAAG ATGCAGTTGC TATTACATCA TTTCAAAGAA 
    CAAGATGGAG AAGGCATTAT GGAAACTTTC AAAACATATG AAGATAAAAT CCAGCAGTTG 
    GAAAAAGATC TTTATTTCTA TAAGAAAACC AGCCGGGATC ATAAGAAGAA ACTTAAGGAA 
    CTGGTAGGGG AAGCAATTCG GCGGCAACTA GCACCATCAG AGTATCAAGA GGCTGGAGAT 
    GGAGTCCTGA AGCCAGAAGG AGGAGGCATG CTTTCAGAAG AATTAAAATG GGCATCCAGA 
    CCTGAAAGTA TGAAATTAAG TGGAAGAGAA AGAGAAATGG ACAGTTCAGC AAGCAGCTTA 
    AGAACACAGC CAAATCCTCA AAAGCTCTGG GAAGATATCC CAGAATTACC TCCAATTCAT 
    AGTTCTTTAG CACCCCCCAG TGGGCATATG TTAGGTAATG AGAATAAAAC AGAAACAGAT 
    GATAATCAGT TTACAAAATC TCACAGTCGA CTGTCATCCC AAATTCAGGT TGTGGGAAAT 
    GTGGGACGAC TTCATGGTGT CACACCTGTA AAACTGTGTC GAAAAGAATT ACGTCAAATT 
    TCCGCCTTGG AACTATCATT GCGACGTTCC AGTCTTGGAG TTGGCATTGG ATCAATGGCT 
    GCTGATTCCA TCGAAGTATC TAGGAAACCA AGGGACTTAA AAACTTAG

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

    RefSeq XP_016870398.1
    CDS461..4288
    Translation

    Target ORF information:

    RefSeq Version XM_017014909.1
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant X14, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017014909.1

    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
    ATGAAGGATC TTCACATCCG AGAAGATGAA AAAGGAAACA CAGTGATTGT TGGGGCCAAG 
    GAATGCCATG TGGAGAGTGC AGGTGAAGTG ATGAGTCTTT TGGAGATGGG GAATGCAGCC 
    AGACATACAG GTACCACTCA AATGAATGAG CACTCCAGCA GATCACATGC AATTTTTACA 
    ATCAGCATTT GTCAAGTTCA TAAAAATATG GAGGCAGCTG AAGATGGATC ATGGTATTCC 
    CCTCGGCATA TTGTCTCAAA GTTCCACTTT GTGGATTTGG CAGGATCAGA AAGAGTAACC 
    AAAACGGGGA ATACTGGTGA ACGGTTCAAA GAATCCATTC AAATCAATAG TGGATTGCTG 
    GCTTTAGGAA ATGTAATAAG CGCTCTTGGG GACCCACGCA GGAAGAGTTC ACATATTCCA 
    TATAGGGATG CTAAAATTAC CCGGCTTCTG AAAGATTCTC TGGGAGGCAG TGCTAAGACT 
    GTCATGATCA CATGTGTCAG CCCCTCCTCC TCGAATTTTG ATGAGTCCTT AAATTCTCTC 
    AAATATGCCA ACAGAGCACG GAACATTAGA AACAAACCCA CTGTAAACTT CAGCCCCGAG 
    TCAGACCGTA TAGATGAAAT GGAATTTGAG ATTAAATTGC TTCGAGAAGC TTTGCAAAGC 
    CAGCAGGCTG GTGTCAGCCA AACTACCCAG ATCAATCGAG AAGGGAGTCC TGATACAAAT 
    AGGATTCATT CTCTTGAGGA GCAAGTAGCT CAGCTTCAAG GAGAATGTCT GGGTTACCAG 
    TGTTGTGTAG AAGAAGCCTT TACCTTCCTG GTTGACCTAA AAGATACTGT CAGACTAAAC 
    GAAAAGCAGC AACACAAACT GCAGGAGTGG TTTAACATGA TCCAAGAGGT CAGGAAGGCT 
    GTCCTCACCT CATTTCGAGG AATCGGAGGC ACTGCAAGTC TGGAAGAAGG ACCACAGCAT 
    GTTACAGTTC TCCAGCTGAA GAGAGAGCTT AAGAAATGCC AGTGTGTGCT TGCTGCTGAT 
    GAAGTAGTAT TTAATCAGAA GGAACTGGAG GTGAAGGAAC TGAAGAATCA AGTGCAGATG 
    ATGGTACAGG AAAACAAAGG GCATGCTGTA TCTTTGAAAG AAGCGCAAAA AGTGAATAGA 
    CTGCAGCCCC TGGCAAAAAC CACTTTACTT TCTACTTCTA TGGATTTGCC TATTCTAAAC 
    ATTTCATACA ACTGGAATCA TACAAATGAA AAAATAATAG AACAACAACT TCTTGTGGAT 
    CAACTGAGTG AAGAACTAAC AAAACTTAAC CTGTCAGTGA CTTCTTCAGC TAAAGAAAAT 
    TGTGGAGATG GGCCAGATGC CAGGATCCCT GAAAGGAGAC CATATACTGT ACCATTTGAT 
    ACTCATTTGG GGCATTATAT TTATATCCCA TCAAGACAAG ATTCCAGGAA GGTCCACACA 
    AGTCCGCCTA TGTACTCTCT GGATCGAATA TTTGCTGGAT TTCGAACACG AAGTCAGATG 
    CTGTTGGGTC ACATAGAAGA ACAAGATAAG GTCCTCCACT GCCAATTTTC TGATAACAGT 
    GATGATGAAG AATCAGAAGG CCAAGAGAAA TCTGGAACTA GATGTAGAAG TCGTTCATGG 
    ATTCAGAAGC CAGACTCTGT TTGTTCCCTT GTTGAATTGA GTGATACTCA GGATGAAACA 
    CAAAAGTCAG ATTTGGAGAA TGAAGATTTA AAGATTGATT GTCTCCAGGA GAGTCAAGAA 
    TTGAATTTGC AAAAATTAAA GAATTCAGAA CGCATACTTA CTGAAGCTAA ACAAAAAATG 
    AGAGAACTTA CAATTAACAT CAAGATGAAG GAAGATCTGA TTAAAGAATT AATAAAAACA 
    GGTAATGATG CCAAGTCTGT AAGCAAGCAG TATTCTTTGA AAGTAACAAA GCTAGAGCAT 
    GATGCAGAAC AGGCAAAAGT CGAACTGATT GAAACACAAA AGCAGCTACA GGAGCTGGAA 
    AACAAAGATC TTTCTGATGT TGCAATGAAG GTAAAATTAC AGAAAGAGTT TCGTAAAAAG 
    ATGGATGCTG CAAAGCTGAG AGTTCAGGTC TTGCAGAAGA AGCAACAAGA TAGTAAGAAA 
    CTGGCATCAC TGTCAATCCA AAATGAGAAA CGTGCTAATG AGCTAGAGCA GAGTGTAGAT 
    CACATGAAAT ATCAAAAGAT ACAGCTACAA AGAAAACTAC GAGAAGAAAA TGAAAAAAGG 
    AAGCAACTGG ATGCAGTAAT TAAGCGGGAC CAGCAAAAAA TCAAAGAAAT ACAATTAAAA 
    ACAGGACAGG AAGAAGGTCT AAAACCGAAA GCTGAGGACC TTGATGCATG TAACTTGAAA 
    AGGAGAAAAG GTTCGTTTGG AAGTATAGAC CATCTCCAGA AATTGGATGA GCAAAAGAAA 
    TGGTTAGATG AAGAAGTAGA GAAAGTTCTG AACCAACGCC AAGAATTAGA GGAGCTGGAA 
    GCAGACTTAA AGAAACGGGA GGCCATAGTT TCTAAGAAGG AGGCTCTGTT ACAGGAGAAG 
    AGTCACCTGG AAAATAAGAA ATTGAGATCT AGTCAGGCCT TAAACACAGA TAGTTTGAAA 
    ATATCAACTC GCCTGAACTT ACTGGAACAA GAGTTGTCTG AAAAGAATGT GCAGCTCCAG 
    ACCAGTACAG CTGAGGAGAA AACAAAGATT TCAGAACAAG TTGAAGTCCT CCAGAAAGAA 
    AAGGATCAGC TCCAGAAACG CAGACACAAT GTGGATGAAA AACTTAAAAA TGGTAGAGTG 
    TTATCACCTG AAGAAGAACA TGTTCTTTTC CAACTTGAAG AAGGGATTGA AGCTTTGGAA 
    GCTGCAATTG AATACAGGAA TGAAAGTATC CAGAATCGCC AGAAGTCACT TAGAGCATCA 
    TTCCATAACC TCTCTCGTGG TGAAGCAAAT GTCTTGGAAA AGCTAGCTTG CCTGAGTCCT 
    GTTGAGATTA GAACTATTCT TTTCAGATAT TTCAATAAGG TGGTGAATTT GCGAGAAGCT 
    GAACGGAAAC AACAGTTATA TAATGAAGAA ATGAAAATGA AAGTTCTGGA ACGGGATAAT 
    ATGGTTCGTG AATTAGAATC TGCACTGGAC CATCTAAAAT TGCAGTGTGA CCGGAGACTG 
    ACCCTCCAGC AAAAGGAACA CGAACAAAAG ATGCAGTTGC TATTACATCA TTTCAAAGAA 
    CAAGATGGAG AAGGCATTAT GGAAACTTTC AAAACATATG AAGATAAAAT CCAGCAGTTG 
    GAAAAAGATC TTTATTTCTA TAAGAAAACC AGCCGGGATC ATAAGAAGAA ACTTAAGGAA 
    CTGGTAGGGG AAGCAATTCG GCGGCAACTA GCACCATCAG AGTATCAAGA GGCTGGAGAT 
    GGAGTCCTGA AGCCAGAAGG AGGAGGCATG CTTTCAGAAG AATTAAAATG GGCATCCAGA 
    CCTGAAAGTA TGAAATTAAG TGGAAGAGAA AGAGAAATGG ACAGTTCAGC AAGCAGCTTA 
    AGAACACAGC CAAATCCTCA AAAGCTCTGG GAAGATATCC CAGAATTACC TCCAATTCAT 
    AGTTCTTTAG CACCCCCCAG TGGGCATATG TTAGGTAATG AGAATAAAAC AGAAACAGAT 
    GATAATCAGT TTACAAAATC TCACAGTCGA CTGTCATCCC AAATTCAGGT TGTGGGAAAT 
    GTGGGACGAC TTCATGGTGT CACACCTGTA AAACTGTGTC GAAAAGAATT ACGTCAAATT 
    TCCGCCTTGG AACTATCATT GCGACGTTCC AGTCTTGGAG TTGGCATTGG ATCAATGGCT 
    GCTGATTCCA TCGAAGTATC TAGGAAACCA AGGGACTTAA AAACTTAG

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

    KIF27 ( XM_017014910.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016870399.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant X15, mRNA.
    Price & Availability↑
    CloneID OHu98745
    Clone ID Related Accession (Same CDS sequence) NM_001354069.1 , NM_001354069.2 , XM_017014910.1 , XM_024447608.1
    Accession Version XM_017014910.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3813bp)
    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 2016-06-05
    Organism Homo sapiens(Human)
    Product kinesin-like protein KIF27 isoform X9
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGAAATAC AATTAAAAAC AGGACAGGAA GAAGGTCTAA AACCGAAAGC TGAGGACCTT 
    GATGCATGTA ACTTGAAAAG GAGAAAAGGT TCGTTTGGAA GTATAGACCA TCTCCAGGAA 
    GAACATGTTC TTTTCCAACT TGAAGAAGGG ATTGAAGCTT TGGAAGCTGC AATTGAATAC 
    AGGAATGAAA GTATCCAGAA TCGCCAGAAG TCACTTAGAG CATCATTCCA TAACCTCTCT 
    CGTGGTGAAG CAAATGTCTT GGAAAAGCTA GCTTGCCTGA GTCCTGTTGA GATTAGAACT 
    ATTCTTTTCA GATATTTCAA TAAGGTGGTG AATTTGCGAG AAGCTGAACG GAAACAACAG 
    TTATATAATG AAGAAATGAA AATGAAAGTT CTGGAACGGG ATAATATGGT TCGTGAATTA 
    GAATCTGCAC TGGACCATCT AAAATTGCAG TGTGACCGGA GACTGACCCT CCAGCAAAAG 
    GAACACGAAC AAAAGATGCA GTTGCTATTA CATCATTTCA AAGAACAAGA TGGAGAAGGC 
    ATTATGGAAA CTTTCAAAAC ATATGAAGAT AAAATCCAGC AGTTGGAAAA AGATCTTTAT 
    TTCTATAAGA AAACCAGCCG GGATCATAAG AAGAAACTTA AGGAACTGGT AGGGGAAGCA 
    ATTCGGCGGC AACTAGCACC ATCAGAGTAT CAAGAGGCTG GAGATGGAGT CCTGAAGCCA 
    GAAGGAGGAG GCATGCTTTC AGAAGAATTA AAATGGGCAT CCAGACCTGA AAGTATGAAA 
    TTAAGTGGAA GAGAAAGAGA AATGGACAGT TCAGCAAGCA GCTTAAGAAC ACAGCCAAAT 
    CCTCAAAAGC TCTGGGAAGA TATCCCAGAA TTACCTCCAA TTCATAGTTC TTTAGCACCC 
    CCCAGTGGGC ATATGTTAGG TAATGAGAAT AAAACAGAAA CAGATGATAA TCAGTTTACA 
    AAATCTCACA GTCGACTGTC ATCCCAAATT CAGGTTGTGG GAAATGTGGG ACGACTTCAT 
    GGTGTCACAC CTGTAAAACT GTGTCGAAAA GAATTACGTC AAATTTCCGC CTTGGAACTA 
    TCATTGCGAC GTTCCAGTCT TGGAGTTGGC ATTGGATCAA TGGCTGCTGA TTCCATCGAA 
    GTATCTAGGA AACCAAGGGA CTTAAAAACT TAG

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

    RefSeq XP_016870399.1
    CDS300..4112
    Translation

    Target ORF information:

    RefSeq Version XM_017014910.1
    Organism Homo sapiens(Human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant X15, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017014910.1

    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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGAAATAC AATTAAAAAC AGGACAGGAA GAAGGTCTAA AACCGAAAGC TGAGGACCTT 
    GATGCATGTA ACTTGAAAAG GAGAAAAGGT TCGTTTGGAA GTATAGACCA TCTCCAGGAA 
    GAACATGTTC TTTTCCAACT TGAAGAAGGG ATTGAAGCTT TGGAAGCTGC AATTGAATAC 
    AGGAATGAAA GTATCCAGAA TCGCCAGAAG TCACTTAGAG CATCATTCCA TAACCTCTCT 
    CGTGGTGAAG CAAATGTCTT GGAAAAGCTA GCTTGCCTGA GTCCTGTTGA GATTAGAACT 
    ATTCTTTTCA GATATTTCAA TAAGGTGGTG AATTTGCGAG AAGCTGAACG GAAACAACAG 
    TTATATAATG AAGAAATGAA AATGAAAGTT CTGGAACGGG ATAATATGGT TCGTGAATTA 
    GAATCTGCAC TGGACCATCT AAAATTGCAG TGTGACCGGA GACTGACCCT CCAGCAAAAG 
    GAACACGAAC AAAAGATGCA GTTGCTATTA CATCATTTCA AAGAACAAGA TGGAGAAGGC 
    ATTATGGAAA CTTTCAAAAC ATATGAAGAT AAAATCCAGC AGTTGGAAAA AGATCTTTAT 
    TTCTATAAGA AAACCAGCCG GGATCATAAG AAGAAACTTA AGGAACTGGT AGGGGAAGCA 
    ATTCGGCGGC AACTAGCACC ATCAGAGTAT CAAGAGGCTG GAGATGGAGT CCTGAAGCCA 
    GAAGGAGGAG GCATGCTTTC AGAAGAATTA AAATGGGCAT CCAGACCTGA AAGTATGAAA 
    TTAAGTGGAA GAGAAAGAGA AATGGACAGT TCAGCAAGCA GCTTAAGAAC ACAGCCAAAT 
    CCTCAAAAGC TCTGGGAAGA TATCCCAGAA TTACCTCCAA TTCATAGTTC TTTAGCACCC 
    CCCAGTGGGC ATATGTTAGG TAATGAGAAT AAAACAGAAA CAGATGATAA TCAGTTTACA 
    AAATCTCACA GTCGACTGTC ATCCCAAATT CAGGTTGTGG GAAATGTGGG ACGACTTCAT 
    GGTGTCACAC CTGTAAAACT GTGTCGAAAA GAATTACGTC AAATTTCCGC CTTGGAACTA 
    TCATTGCGAC GTTCCAGTCT TGGAGTTGGC ATTGGATCAA TGGCTGCTGA TTCCATCGAA 
    GTATCTAGGA AACCAAGGGA CTTAAAAACT TAG

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

    KIF27 ( XM_024447608.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024303376.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant X15, mRNA.
    Price & Availability↑
    CloneID OHu98745
    Clone ID Related Accession (Same CDS sequence) NM_001354069.1 , NM_001354069.2 , XM_017014910.1 , XM_024447608.1
    Accession Version XM_024447608.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3813bp)
    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 KIF27 isoform X9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: 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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGAAATAC AATTAAAAAC AGGACAGGAA GAAGGTCTAA AACCGAAAGC TGAGGACCTT 
    GATGCATGTA ACTTGAAAAG GAGAAAAGGT TCGTTTGGAA GTATAGACCA TCTCCAGGAA 
    GAACATGTTC TTTTCCAACT TGAAGAAGGG ATTGAAGCTT TGGAAGCTGC AATTGAATAC 
    AGGAATGAAA GTATCCAGAA TCGCCAGAAG TCACTTAGAG CATCATTCCA TAACCTCTCT 
    CGTGGTGAAG CAAATGTCTT GGAAAAGCTA GCTTGCCTGA GTCCTGTTGA GATTAGAACT 
    ATTCTTTTCA GATATTTCAA TAAGGTGGTG AATTTGCGAG AAGCTGAACG GAAACAACAG 
    TTATATAATG AAGAAATGAA AATGAAAGTT CTGGAACGGG ATAATATGGT TCGTGAATTA 
    GAATCTGCAC TGGACCATCT AAAATTGCAG TGTGACCGGA GACTGACCCT CCAGCAAAAG 
    GAACACGAAC AAAAGATGCA GTTGCTATTA CATCATTTCA AAGAACAAGA TGGAGAAGGC 
    ATTATGGAAA CTTTCAAAAC ATATGAAGAT AAAATCCAGC AGTTGGAAAA AGATCTTTAT 
    TTCTATAAGA AAACCAGCCG GGATCATAAG AAGAAACTTA AGGAACTGGT AGGGGAAGCA 
    ATTCGGCGGC AACTAGCACC ATCAGAGTAT CAAGAGGCTG GAGATGGAGT CCTGAAGCCA 
    GAAGGAGGAG GCATGCTTTC AGAAGAATTA AAATGGGCAT CCAGACCTGA AAGTATGAAA 
    TTAAGTGGAA GAGAAAGAGA AATGGACAGT TCAGCAAGCA GCTTAAGAAC ACAGCCAAAT 
    CCTCAAAAGC TCTGGGAAGA TATCCCAGAA TTACCTCCAA TTCATAGTTC TTTAGCACCC 
    CCCAGTGGGC ATATGTTAGG TAATGAGAAT AAAACAGAAA CAGATGATAA TCAGTTTACA 
    AAATCTCACA GTCGACTGTC ATCCCAAATT CAGGTTGTGG GAAATGTGGG ACGACTTCAT 
    GGTGTCACAC CTGTAAAACT GTGTCGAAAA GAATTACGTC AAATTTCCGC CTTGGAACTA 
    TCATTGCGAC GTTCCAGTCT TGGAGTTGGC ATTGGATCAA TGGCTGCTGA TTCCATCGAA 
    GTATCTAGGA AACCAAGGGA CTTAAAAACT TAG

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

    RefSeq XP_024303376.1
    CDS403..4215
    Translation

    Target ORF information:

    RefSeq Version XM_024447608.1
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant X15, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024447608.1

    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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGAAATAC AATTAAAAAC AGGACAGGAA GAAGGTCTAA AACCGAAAGC TGAGGACCTT 
    GATGCATGTA ACTTGAAAAG GAGAAAAGGT TCGTTTGGAA GTATAGACCA TCTCCAGGAA 
    GAACATGTTC TTTTCCAACT TGAAGAAGGG ATTGAAGCTT TGGAAGCTGC AATTGAATAC 
    AGGAATGAAA GTATCCAGAA TCGCCAGAAG TCACTTAGAG CATCATTCCA TAACCTCTCT 
    CGTGGTGAAG CAAATGTCTT GGAAAAGCTA GCTTGCCTGA GTCCTGTTGA GATTAGAACT 
    ATTCTTTTCA GATATTTCAA TAAGGTGGTG AATTTGCGAG AAGCTGAACG GAAACAACAG 
    TTATATAATG AAGAAATGAA AATGAAAGTT CTGGAACGGG ATAATATGGT TCGTGAATTA 
    GAATCTGCAC TGGACCATCT AAAATTGCAG TGTGACCGGA GACTGACCCT CCAGCAAAAG 
    GAACACGAAC AAAAGATGCA GTTGCTATTA CATCATTTCA AAGAACAAGA TGGAGAAGGC 
    ATTATGGAAA CTTTCAAAAC ATATGAAGAT AAAATCCAGC AGTTGGAAAA AGATCTTTAT 
    TTCTATAAGA AAACCAGCCG GGATCATAAG AAGAAACTTA AGGAACTGGT AGGGGAAGCA 
    ATTCGGCGGC AACTAGCACC ATCAGAGTAT CAAGAGGCTG GAGATGGAGT CCTGAAGCCA 
    GAAGGAGGAG GCATGCTTTC AGAAGAATTA AAATGGGCAT CCAGACCTGA AAGTATGAAA 
    TTAAGTGGAA GAGAAAGAGA AATGGACAGT TCAGCAAGCA GCTTAAGAAC ACAGCCAAAT 
    CCTCAAAAGC TCTGGGAAGA TATCCCAGAA TTACCTCCAA TTCATAGTTC TTTAGCACCC 
    CCCAGTGGGC ATATGTTAGG TAATGAGAAT AAAACAGAAA CAGATGATAA TCAGTTTACA 
    AAATCTCACA GTCGACTGTC ATCCCAAATT CAGGTTGTGG GAAATGTGGG ACGACTTCAT 
    GGTGTCACAC CTGTAAAACT GTGTCGAAAA GAATTACGTC AAATTTCCGC CTTGGAACTA 
    TCATTGCGAC GTTCCAGTCT TGGAGTTGGC ATTGGATCAA TGGCTGCTGA TTCCATCGAA 
    GTATCTAGGA AACCAAGGGA CTTAAAAACT TAG

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

    KIF27 ( XM_017014911.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016870400.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant X18, mRNA.
    Price & Availability↑
    CloneID OHu98746
    Clone ID Related Accession (Same CDS sequence) XM_017014911.1 , XM_017014911.2
    Accession Version XM_017014911.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3132bp)
    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 2016-06-05
    Organism Homo sapiens(human)
    Product kinesin-like protein KIF27 isoform X12
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) 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 :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    ATGGAATTTG AGATTAAATT GCTTCGAGAA GCTTTGCAAA GCCAGCAGGC TGGTGTCAGC 
    CAAACTACCC AGATCAATCG AGAAGGGAGT CCTGATACAA ATAGGATTCA TTCTCTTGAG 
    GAGCAAGTAG CTCAGCTTCA AGGAGAATGT CTGGGTTACC AGTGTTGTGT AGAAGAAGCC 
    TTTACCTTCC TGGTTGACCT AAAAGATACT GTCAGACTAA ACGAAAAGCA GCAACACAAA 
    CTGCAGGAGT GGTTTAACAT GATCCAAGAG GTCAGGAAGG CTGTCCTCAC CTCATTTCGA 
    GGAATCGGAG GCACTGCAAG TCTGGAAGAA GGACCACAGC ATGTTACAGT TCTCCAGCTG 
    AAGAGAGAGC TTAAGAAATG CCAGTGTGTG CTTGCTGCTG ATGAAGTAGT ATTTAATCAG 
    AAGGAACTGG AGGTGAAGGA ACTGAAGAAT CAAGTGCAGA TGATGGTACA GGAAAACAAA 
    GGGCATGCTG TATCTTTGAA AGAAGCGCAA AAAGTGAATA GACTGCAGAA TGAAAAAATA 
    ATAGAACAAC AACTTCTTGT GGATCAACTG AGTGAAGAAC TAACAAAACT TAACCTGTCA 
    GTGACTTCTT CAGCTAAAGA AAATTGTGGA GATGGGCCAG ATGCCAGGAT CCCTGAAAGG 
    AGACCATATA CTGTACCATT TGATACTCAT TTGGGGCATT ATATTTATAT CCCATCAAGA 
    CAAGATTCCA GGAAGGTCCA CACAAGTCCG CCTATGTACT CTCTGGATCG AATATTTGCT 
    GGATTTCGAA CACGAAGTCA GATGCTGTTG GGTCACATAG AAGAACAAGA TAAGGTCCTC 
    CACTGCCAAT TTTCTGATAA CAGTGATGAT GAAGAATCAG AAGGCCAAGA GAAATCTGGA 
    ACTAGATGTA GAAGTCGTTC ATGGATTCAG AAGCCAGACT CTGTTTGTTC CCTTGTTGAA 
    TTGAGTGATA CTCAGGATGA AACACAAAAG TCAGATTTGG AGAATGAAGA TTTAAAGATT 
    GATTGTCTCC AGGAGAGTCA AGAATTGAAT TTGCAAAAAT TAAAGAATTC AGAACGCATA 
    CTTACTGAAG CTAAACAAAA AATGAGAGAA CTTACAATTA ACATCAAGAT GAAGGAAGAT 
    CTGATTAAAG AATTAATAAA AACAGGTAAT GATGCCAAGT CTGTAAGCAA GCAGTATTCT 
    TTGAAAGTAA CAAAGCTAGA GCATGATGCA GAACAGGCAA AAGTCGAACT GATTGAAACA 
    CAAAAGCAGC TACAGGAGCT GGAAAACAAA GATCTTTCTG ATGTTGCAAT GAAGGTAAAA 
    TTACAGAAAG AGTTTCGTAA AAAGATGGAT GCTGCAAAGC TGAGAGTTCA GGTCTTGCAG 
    AAGAAGCAAC AAGATAGTAA GAAACTGGCA TCACTGTCAA TCCAAAATGA GAAACGTGCT 
    AATGAGCTAG AGCAGAGTGT AGATCACATG AAATATCAAA AGATACAGCT ACAAAGAAAA 
    CTACGAGAAG AAAATGAAAA AAGGAAGCAA CTGGATGCAG TAATTAAGCG GGACCAGCAA 
    AAAATCAAAG AAATACAATT AAAAACAGGA CAGGAAGAAG GTCTAAAACC GAAAGCTGAG 
    GACCTTGATG CATGTAACTT GAAAAGGAGA AAAGGTTCGT TTGGAAGTAT AGACCATCTC 
    CAGAAATTGG ATGAGCAAAA GAAATGGTTA GATGAAGAAG TAGAGAAAGT TCTGAACCAA 
    CGCCAAGAAT TAGAGGAGCT GGAAGCAGAC TTAAAGAAAC GGGAGGCCAT AGTTTCTAAG 
    AAGGAGGCTC TGTTACAGGA GAAGAGTCAC CTGGAAAATA AGAAATTGAG ATCTAGTCAG 
    GCCTTAAACA CAGATAGTTT GAAAATATCA ACTCGCCTGA ACTTACTGGA ACAAGAGTTG 
    TCTGAAAAGA ATGTGCAGCT CCAGACCAGT ACAGCTGAGG AGAAAACAAA GATTTCAGAA 
    CAAGTTGAAG TCCTCCAGAA AGAAAAGGAT CAGCTCCAGA AACGCAGACA CAATGTGGAT 
    GAAAAACTTA AAAATGGTAG AGTGTTATCA CCTGAAGAAG AACATGTTCT TTTCCAACTT 
    GAAGAAGGGA TTGAAGCTTT GGAAGCTGCA ATTGAATACA GGAATGAAAG TATCCAGAAT 
    CGCCAGAAGT CACTTAGAGC ATCATTCCAT AACCTCTCTC GTGGTGAAGC AAATGTCTTG 
    GAAAAGCTAG CTTGCCTGAG TCCTGTTGAG ATTAGAACTA TTCTTTTCAG ATATTTCAAT 
    AAGGTGGTGA ATTTGCGAGA AGCTGAACGG AAACAACAGT TATATAATGA AGAAATGAAA 
    ATGAAAGTTC TGGAACGGGA TAATATGGTT CGTGAATTAG AATCTGCACT GGACCATCTA 
    AAATTGCAGT GTGACCGGAG ACTGACCCTC CAGCAAAAGG AACACGAACA AAAGATGCAG 
    TTGCTATTAC ATCATTTCAA AGAACAAGAT GGAGAAGGCA TTATGGAAAC TTTCAAAACA 
    TATGAAGATA AAATCCAGCA GTTGGAAAAA GATCTTTATT TCTATAAGAA AACCAGCCGG 
    GATCATAAGA AGAAACTTAA GGAACTGGTA GGGGAAGCAA TTCGGCGGCA ACTAGCACCA 
    TCAGAGTATC AAGAGGCTGG AGATGGAGTC CTGAAGCCAG AAGGAGGAGG CATGCTTTCA 
    GAAGAATTAA AATGGGCATC CAGACCTGAA AGTATGAAAT TAAGTGGAAG AGAAAGAGAA 
    ATGGACAGTT CAGCAAGCAG CTTAAGAACA CAGCCAAATC CTCAAAAGCT CTGGGAAGAT 
    ATCCCAGAAT TACCTCCAAT TCATAGTTCT TTAGCACCCC CCAGTGGGCA TATGTTAGGT 
    AATGAGAATA AAACAGAAAC AGATGATAAT CAGTTTACAA AATCTCACAG TCGACTGTCA 
    TCCCAAATTC AGGTTGTGGG AAATGTGGGA CGACTTCATG GTGTCACACC TGTAAAACTG 
    TGTCGAAAAG AATTACGTCA AATTTCCGCC TTGGAACTAT CATTGCGACG TTCCAGTCTT 
    GGAGTTGGCA TTGGATCAAT GGCTGCTGAT TCCATCGAAG TATCTAGGAA ACCAAGGGAC 
    TTAAAAACTT AG

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

    RefSeq XP_016870400.1
    CDS651..3782
    Translation

    Target ORF information:

    RefSeq Version XM_017014911.1
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant X18, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017014911.1

    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
    ATGGAATTTG AGATTAAATT GCTTCGAGAA GCTTTGCAAA GCCAGCAGGC TGGTGTCAGC 
    CAAACTACCC AGATCAATCG AGAAGGGAGT CCTGATACAA ATAGGATTCA TTCTCTTGAG 
    GAGCAAGTAG CTCAGCTTCA AGGAGAATGT CTGGGTTACC AGTGTTGTGT AGAAGAAGCC 
    TTTACCTTCC TGGTTGACCT AAAAGATACT GTCAGACTAA ACGAAAAGCA GCAACACAAA 
    CTGCAGGAGT GGTTTAACAT GATCCAAGAG GTCAGGAAGG CTGTCCTCAC CTCATTTCGA 
    GGAATCGGAG GCACTGCAAG TCTGGAAGAA GGACCACAGC ATGTTACAGT TCTCCAGCTG 
    AAGAGAGAGC TTAAGAAATG CCAGTGTGTG CTTGCTGCTG ATGAAGTAGT ATTTAATCAG 
    AAGGAACTGG AGGTGAAGGA ACTGAAGAAT CAAGTGCAGA TGATGGTACA GGAAAACAAA 
    GGGCATGCTG TATCTTTGAA AGAAGCGCAA AAAGTGAATA GACTGCAGAA TGAAAAAATA 
    ATAGAACAAC AACTTCTTGT GGATCAACTG AGTGAAGAAC TAACAAAACT TAACCTGTCA 
    GTGACTTCTT CAGCTAAAGA AAATTGTGGA GATGGGCCAG ATGCCAGGAT CCCTGAAAGG 
    AGACCATATA CTGTACCATT TGATACTCAT TTGGGGCATT ATATTTATAT CCCATCAAGA 
    CAAGATTCCA GGAAGGTCCA CACAAGTCCG CCTATGTACT CTCTGGATCG AATATTTGCT 
    GGATTTCGAA CACGAAGTCA GATGCTGTTG GGTCACATAG AAGAACAAGA TAAGGTCCTC 
    CACTGCCAAT TTTCTGATAA CAGTGATGAT GAAGAATCAG AAGGCCAAGA GAAATCTGGA 
    ACTAGATGTA GAAGTCGTTC ATGGATTCAG AAGCCAGACT CTGTTTGTTC CCTTGTTGAA 
    TTGAGTGATA CTCAGGATGA AACACAAAAG TCAGATTTGG AGAATGAAGA TTTAAAGATT 
    GATTGTCTCC AGGAGAGTCA AGAATTGAAT TTGCAAAAAT TAAAGAATTC AGAACGCATA 
    CTTACTGAAG CTAAACAAAA AATGAGAGAA CTTACAATTA ACATCAAGAT GAAGGAAGAT 
    CTGATTAAAG AATTAATAAA AACAGGTAAT GATGCCAAGT CTGTAAGCAA GCAGTATTCT 
    TTGAAAGTAA CAAAGCTAGA GCATGATGCA GAACAGGCAA AAGTCGAACT GATTGAAACA 
    CAAAAGCAGC TACAGGAGCT GGAAAACAAA GATCTTTCTG ATGTTGCAAT GAAGGTAAAA 
    TTACAGAAAG AGTTTCGTAA AAAGATGGAT GCTGCAAAGC TGAGAGTTCA GGTCTTGCAG 
    AAGAAGCAAC AAGATAGTAA GAAACTGGCA TCACTGTCAA TCCAAAATGA GAAACGTGCT 
    AATGAGCTAG AGCAGAGTGT AGATCACATG AAATATCAAA AGATACAGCT ACAAAGAAAA 
    CTACGAGAAG AAAATGAAAA AAGGAAGCAA CTGGATGCAG TAATTAAGCG GGACCAGCAA 
    AAAATCAAAG AAATACAATT AAAAACAGGA CAGGAAGAAG GTCTAAAACC GAAAGCTGAG 
    GACCTTGATG CATGTAACTT GAAAAGGAGA AAAGGTTCGT TTGGAAGTAT AGACCATCTC 
    CAGAAATTGG ATGAGCAAAA GAAATGGTTA GATGAAGAAG TAGAGAAAGT TCTGAACCAA 
    CGCCAAGAAT TAGAGGAGCT GGAAGCAGAC TTAAAGAAAC GGGAGGCCAT AGTTTCTAAG 
    AAGGAGGCTC TGTTACAGGA GAAGAGTCAC CTGGAAAATA AGAAATTGAG ATCTAGTCAG 
    GCCTTAAACA CAGATAGTTT GAAAATATCA ACTCGCCTGA ACTTACTGGA ACAAGAGTTG 
    TCTGAAAAGA ATGTGCAGCT CCAGACCAGT ACAGCTGAGG AGAAAACAAA GATTTCAGAA 
    CAAGTTGAAG TCCTCCAGAA AGAAAAGGAT CAGCTCCAGA AACGCAGACA CAATGTGGAT 
    GAAAAACTTA AAAATGGTAG AGTGTTATCA CCTGAAGAAG AACATGTTCT TTTCCAACTT 
    GAAGAAGGGA TTGAAGCTTT GGAAGCTGCA ATTGAATACA GGAATGAAAG TATCCAGAAT 
    CGCCAGAAGT CACTTAGAGC ATCATTCCAT AACCTCTCTC GTGGTGAAGC AAATGTCTTG 
    GAAAAGCTAG CTTGCCTGAG TCCTGTTGAG ATTAGAACTA TTCTTTTCAG ATATTTCAAT 
    AAGGTGGTGA ATTTGCGAGA AGCTGAACGG AAACAACAGT TATATAATGA AGAAATGAAA 
    ATGAAAGTTC TGGAACGGGA TAATATGGTT CGTGAATTAG AATCTGCACT GGACCATCTA 
    AAATTGCAGT GTGACCGGAG ACTGACCCTC CAGCAAAAGG AACACGAACA AAAGATGCAG 
    TTGCTATTAC ATCATTTCAA AGAACAAGAT GGAGAAGGCA TTATGGAAAC TTTCAAAACA 
    TATGAAGATA AAATCCAGCA GTTGGAAAAA GATCTTTATT TCTATAAGAA AACCAGCCGG 
    GATCATAAGA AGAAACTTAA GGAACTGGTA GGGGAAGCAA TTCGGCGGCA ACTAGCACCA 
    TCAGAGTATC AAGAGGCTGG AGATGGAGTC CTGAAGCCAG AAGGAGGAGG CATGCTTTCA 
    GAAGAATTAA AATGGGCATC CAGACCTGAA AGTATGAAAT TAAGTGGAAG AGAAAGAGAA 
    ATGGACAGTT CAGCAAGCAG CTTAAGAACA CAGCCAAATC CTCAAAAGCT CTGGGAAGAT 
    ATCCCAGAAT TACCTCCAAT TCATAGTTCT TTAGCACCCC CCAGTGGGCA TATGTTAGGT 
    AATGAGAATA AAACAGAAAC AGATGATAAT CAGTTTACAA AATCTCACAG TCGACTGTCA 
    TCCCAAATTC AGGTTGTGGG AAATGTGGGA CGACTTCATG GTGTCACACC TGTAAAACTG 
    TGTCGAAAAG AATTACGTCA AATTTCCGCC TTGGAACTAT CATTGCGACG TTCCAGTCTT 
    GGAGTTGGCA TTGGATCAAT GGCTGCTGAT TCCATCGAAG TATCTAGGAA ACCAAGGGAC 
    TTAAAAACTT AG

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

    KIF27 ( XM_017014911.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016870400.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant X18, mRNA.
    Price & Availability↑
    CloneID OHu98746
    Clone ID Related Accession (Same CDS sequence) XM_017014911.1 , XM_017014911.2
    Accession Version XM_017014911.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3132bp)
    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 KIF27 isoform X12
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017014911.1. ##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
    ATGGAATTTG AGATTAAATT GCTTCGAGAA GCTTTGCAAA GCCAGCAGGC TGGTGTCAGC 
    CAAACTACCC AGATCAATCG AGAAGGGAGT CCTGATACAA ATAGGATTCA TTCTCTTGAG 
    GAGCAAGTAG CTCAGCTTCA AGGAGAATGT CTGGGTTACC AGTGTTGTGT AGAAGAAGCC 
    TTTACCTTCC TGGTTGACCT AAAAGATACT GTCAGACTAA ACGAAAAGCA GCAACACAAA 
    CTGCAGGAGT GGTTTAACAT GATCCAAGAG GTCAGGAAGG CTGTCCTCAC CTCATTTCGA 
    GGAATCGGAG GCACTGCAAG TCTGGAAGAA GGACCACAGC ATGTTACAGT TCTCCAGCTG 
    AAGAGAGAGC TTAAGAAATG CCAGTGTGTG CTTGCTGCTG ATGAAGTAGT ATTTAATCAG 
    AAGGAACTGG AGGTGAAGGA ACTGAAGAAT CAAGTGCAGA TGATGGTACA GGAAAACAAA 
    GGGCATGCTG TATCTTTGAA AGAAGCGCAA AAAGTGAATA GACTGCAGAA TGAAAAAATA 
    ATAGAACAAC AACTTCTTGT GGATCAACTG AGTGAAGAAC TAACAAAACT TAACCTGTCA 
    GTGACTTCTT CAGCTAAAGA AAATTGTGGA GATGGGCCAG ATGCCAGGAT CCCTGAAAGG 
    AGACCATATA CTGTACCATT TGATACTCAT TTGGGGCATT ATATTTATAT CCCATCAAGA 
    CAAGATTCCA GGAAGGTCCA CACAAGTCCG CCTATGTACT CTCTGGATCG AATATTTGCT 
    GGATTTCGAA CACGAAGTCA GATGCTGTTG GGTCACATAG AAGAACAAGA TAAGGTCCTC 
    CACTGCCAAT TTTCTGATAA CAGTGATGAT GAAGAATCAG AAGGCCAAGA GAAATCTGGA 
    ACTAGATGTA GAAGTCGTTC ATGGATTCAG AAGCCAGACT CTGTTTGTTC CCTTGTTGAA 
    TTGAGTGATA CTCAGGATGA AACACAAAAG TCAGATTTGG AGAATGAAGA TTTAAAGATT 
    GATTGTCTCC AGGAGAGTCA AGAATTGAAT TTGCAAAAAT TAAAGAATTC AGAACGCATA 
    CTTACTGAAG CTAAACAAAA AATGAGAGAA CTTACAATTA ACATCAAGAT GAAGGAAGAT 
    CTGATTAAAG AATTAATAAA AACAGGTAAT GATGCCAAGT CTGTAAGCAA GCAGTATTCT 
    TTGAAAGTAA CAAAGCTAGA GCATGATGCA GAACAGGCAA AAGTCGAACT GATTGAAACA 
    CAAAAGCAGC TACAGGAGCT GGAAAACAAA GATCTTTCTG ATGTTGCAAT GAAGGTAAAA 
    TTACAGAAAG AGTTTCGTAA AAAGATGGAT GCTGCAAAGC TGAGAGTTCA GGTCTTGCAG 
    AAGAAGCAAC AAGATAGTAA GAAACTGGCA TCACTGTCAA TCCAAAATGA GAAACGTGCT 
    AATGAGCTAG AGCAGAGTGT AGATCACATG AAATATCAAA AGATACAGCT ACAAAGAAAA 
    CTACGAGAAG AAAATGAAAA AAGGAAGCAA CTGGATGCAG TAATTAAGCG GGACCAGCAA 
    AAAATCAAAG AAATACAATT AAAAACAGGA CAGGAAGAAG GTCTAAAACC GAAAGCTGAG 
    GACCTTGATG CATGTAACTT GAAAAGGAGA AAAGGTTCGT TTGGAAGTAT AGACCATCTC 
    CAGAAATTGG ATGAGCAAAA GAAATGGTTA GATGAAGAAG TAGAGAAAGT TCTGAACCAA 
    CGCCAAGAAT TAGAGGAGCT GGAAGCAGAC TTAAAGAAAC GGGAGGCCAT AGTTTCTAAG 
    AAGGAGGCTC TGTTACAGGA GAAGAGTCAC CTGGAAAATA AGAAATTGAG ATCTAGTCAG 
    GCCTTAAACA CAGATAGTTT GAAAATATCA ACTCGCCTGA ACTTACTGGA ACAAGAGTTG 
    TCTGAAAAGA ATGTGCAGCT CCAGACCAGT ACAGCTGAGG AGAAAACAAA GATTTCAGAA 
    CAAGTTGAAG TCCTCCAGAA AGAAAAGGAT CAGCTCCAGA AACGCAGACA CAATGTGGAT 
    GAAAAACTTA AAAATGGTAG AGTGTTATCA CCTGAAGAAG AACATGTTCT TTTCCAACTT 
    GAAGAAGGGA TTGAAGCTTT GGAAGCTGCA ATTGAATACA GGAATGAAAG TATCCAGAAT 
    CGCCAGAAGT CACTTAGAGC ATCATTCCAT AACCTCTCTC GTGGTGAAGC AAATGTCTTG 
    GAAAAGCTAG CTTGCCTGAG TCCTGTTGAG ATTAGAACTA TTCTTTTCAG ATATTTCAAT 
    AAGGTGGTGA ATTTGCGAGA AGCTGAACGG AAACAACAGT TATATAATGA AGAAATGAAA 
    ATGAAAGTTC TGGAACGGGA TAATATGGTT CGTGAATTAG AATCTGCACT GGACCATCTA 
    AAATTGCAGT GTGACCGGAG ACTGACCCTC CAGCAAAAGG AACACGAACA AAAGATGCAG 
    TTGCTATTAC ATCATTTCAA AGAACAAGAT GGAGAAGGCA TTATGGAAAC TTTCAAAACA 
    TATGAAGATA AAATCCAGCA GTTGGAAAAA GATCTTTATT TCTATAAGAA AACCAGCCGG 
    GATCATAAGA AGAAACTTAA GGAACTGGTA GGGGAAGCAA TTCGGCGGCA ACTAGCACCA 
    TCAGAGTATC AAGAGGCTGG AGATGGAGTC CTGAAGCCAG AAGGAGGAGG CATGCTTTCA 
    GAAGAATTAA AATGGGCATC CAGACCTGAA AGTATGAAAT TAAGTGGAAG AGAAAGAGAA 
    ATGGACAGTT CAGCAAGCAG CTTAAGAACA CAGCCAAATC CTCAAAAGCT CTGGGAAGAT 
    ATCCCAGAAT TACCTCCAAT TCATAGTTCT TTAGCACCCC CCAGTGGGCA TATGTTAGGT 
    AATGAGAATA AAACAGAAAC AGATGATAAT CAGTTTACAA AATCTCACAG TCGACTGTCA 
    TCCCAAATTC AGGTTGTGGG AAATGTGGGA CGACTTCATG GTGTCACACC TGTAAAACTG 
    TGTCGAAAAG AATTACGTCA AATTTCCGCC TTGGAACTAT CATTGCGACG TTCCAGTCTT 
    GGAGTTGGCA TTGGATCAAT GGCTGCTGAT TCCATCGAAG TATCTAGGAA ACCAAGGGAC 
    TTAAAAACTT AG

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

    RefSeq XP_016870400.1
    CDS638..3769
    Translation

    Target ORF information:

    RefSeq Version XM_017014911.2
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant X18, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017014911.2

    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
    ATGGAATTTG AGATTAAATT GCTTCGAGAA GCTTTGCAAA GCCAGCAGGC TGGTGTCAGC 
    CAAACTACCC AGATCAATCG AGAAGGGAGT CCTGATACAA ATAGGATTCA TTCTCTTGAG 
    GAGCAAGTAG CTCAGCTTCA AGGAGAATGT CTGGGTTACC AGTGTTGTGT AGAAGAAGCC 
    TTTACCTTCC TGGTTGACCT AAAAGATACT GTCAGACTAA ACGAAAAGCA GCAACACAAA 
    CTGCAGGAGT GGTTTAACAT GATCCAAGAG GTCAGGAAGG CTGTCCTCAC CTCATTTCGA 
    GGAATCGGAG GCACTGCAAG TCTGGAAGAA GGACCACAGC ATGTTACAGT TCTCCAGCTG 
    AAGAGAGAGC TTAAGAAATG CCAGTGTGTG CTTGCTGCTG ATGAAGTAGT ATTTAATCAG 
    AAGGAACTGG AGGTGAAGGA ACTGAAGAAT CAAGTGCAGA TGATGGTACA GGAAAACAAA 
    GGGCATGCTG TATCTTTGAA AGAAGCGCAA AAAGTGAATA GACTGCAGAA TGAAAAAATA 
    ATAGAACAAC AACTTCTTGT GGATCAACTG AGTGAAGAAC TAACAAAACT TAACCTGTCA 
    GTGACTTCTT CAGCTAAAGA AAATTGTGGA GATGGGCCAG ATGCCAGGAT CCCTGAAAGG 
    AGACCATATA CTGTACCATT TGATACTCAT TTGGGGCATT ATATTTATAT CCCATCAAGA 
    CAAGATTCCA GGAAGGTCCA CACAAGTCCG CCTATGTACT CTCTGGATCG AATATTTGCT 
    GGATTTCGAA CACGAAGTCA GATGCTGTTG GGTCACATAG AAGAACAAGA TAAGGTCCTC 
    CACTGCCAAT TTTCTGATAA CAGTGATGAT GAAGAATCAG AAGGCCAAGA GAAATCTGGA 
    ACTAGATGTA GAAGTCGTTC ATGGATTCAG AAGCCAGACT CTGTTTGTTC CCTTGTTGAA 
    TTGAGTGATA CTCAGGATGA AACACAAAAG TCAGATTTGG AGAATGAAGA TTTAAAGATT 
    GATTGTCTCC AGGAGAGTCA AGAATTGAAT TTGCAAAAAT TAAAGAATTC AGAACGCATA 
    CTTACTGAAG CTAAACAAAA AATGAGAGAA CTTACAATTA ACATCAAGAT GAAGGAAGAT 
    CTGATTAAAG AATTAATAAA AACAGGTAAT GATGCCAAGT CTGTAAGCAA GCAGTATTCT 
    TTGAAAGTAA CAAAGCTAGA GCATGATGCA GAACAGGCAA AAGTCGAACT GATTGAAACA 
    CAAAAGCAGC TACAGGAGCT GGAAAACAAA GATCTTTCTG ATGTTGCAAT GAAGGTAAAA 
    TTACAGAAAG AGTTTCGTAA AAAGATGGAT GCTGCAAAGC TGAGAGTTCA GGTCTTGCAG 
    AAGAAGCAAC AAGATAGTAA GAAACTGGCA TCACTGTCAA TCCAAAATGA GAAACGTGCT 
    AATGAGCTAG AGCAGAGTGT AGATCACATG AAATATCAAA AGATACAGCT ACAAAGAAAA 
    CTACGAGAAG AAAATGAAAA AAGGAAGCAA CTGGATGCAG TAATTAAGCG GGACCAGCAA 
    AAAATCAAAG AAATACAATT AAAAACAGGA CAGGAAGAAG GTCTAAAACC GAAAGCTGAG 
    GACCTTGATG CATGTAACTT GAAAAGGAGA AAAGGTTCGT TTGGAAGTAT AGACCATCTC 
    CAGAAATTGG ATGAGCAAAA GAAATGGTTA GATGAAGAAG TAGAGAAAGT TCTGAACCAA 
    CGCCAAGAAT TAGAGGAGCT GGAAGCAGAC TTAAAGAAAC GGGAGGCCAT AGTTTCTAAG 
    AAGGAGGCTC TGTTACAGGA GAAGAGTCAC CTGGAAAATA AGAAATTGAG ATCTAGTCAG 
    GCCTTAAACA CAGATAGTTT GAAAATATCA ACTCGCCTGA ACTTACTGGA ACAAGAGTTG 
    TCTGAAAAGA ATGTGCAGCT CCAGACCAGT ACAGCTGAGG AGAAAACAAA GATTTCAGAA 
    CAAGTTGAAG TCCTCCAGAA AGAAAAGGAT CAGCTCCAGA AACGCAGACA CAATGTGGAT 
    GAAAAACTTA AAAATGGTAG AGTGTTATCA CCTGAAGAAG AACATGTTCT TTTCCAACTT 
    GAAGAAGGGA TTGAAGCTTT GGAAGCTGCA ATTGAATACA GGAATGAAAG TATCCAGAAT 
    CGCCAGAAGT CACTTAGAGC ATCATTCCAT AACCTCTCTC GTGGTGAAGC AAATGTCTTG 
    GAAAAGCTAG CTTGCCTGAG TCCTGTTGAG ATTAGAACTA TTCTTTTCAG ATATTTCAAT 
    AAGGTGGTGA ATTTGCGAGA AGCTGAACGG AAACAACAGT TATATAATGA AGAAATGAAA 
    ATGAAAGTTC TGGAACGGGA TAATATGGTT CGTGAATTAG AATCTGCACT GGACCATCTA 
    AAATTGCAGT GTGACCGGAG ACTGACCCTC CAGCAAAAGG AACACGAACA AAAGATGCAG 
    TTGCTATTAC ATCATTTCAA AGAACAAGAT GGAGAAGGCA TTATGGAAAC TTTCAAAACA 
    TATGAAGATA AAATCCAGCA GTTGGAAAAA GATCTTTATT TCTATAAGAA AACCAGCCGG 
    GATCATAAGA AGAAACTTAA GGAACTGGTA GGGGAAGCAA TTCGGCGGCA ACTAGCACCA 
    TCAGAGTATC AAGAGGCTGG AGATGGAGTC CTGAAGCCAG AAGGAGGAGG CATGCTTTCA 
    GAAGAATTAA AATGGGCATC CAGACCTGAA AGTATGAAAT TAAGTGGAAG AGAAAGAGAA 
    ATGGACAGTT CAGCAAGCAG CTTAAGAACA CAGCCAAATC CTCAAAAGCT CTGGGAAGAT 
    ATCCCAGAAT TACCTCCAAT TCATAGTTCT TTAGCACCCC CCAGTGGGCA TATGTTAGGT 
    AATGAGAATA AAACAGAAAC AGATGATAAT CAGTTTACAA AATCTCACAG TCGACTGTCA 
    TCCCAAATTC AGGTTGTGGG AAATGTGGGA CGACTTCATG GTGTCACACC TGTAAAACTG 
    TGTCGAAAAG AATTACGTCA AATTTCCGCC TTGGAACTAT CATTGCGACG TTCCAGTCTT 
    GGAGTTGGCA TTGGATCAAT GGCTGCTGAT TCCATCGAAG TATCTAGGAA ACCAAGGGAC 
    TTAAAAACTT AG

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

    KIF27 ( NM_001271928.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001258857.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant 3, mRNA.
    Price & Availability↑
    CloneID OHu04011
    Clone ID Related Accession (Same CDS sequence) NM_001271928.2 , XM_017014908.1 , NM_001271928.1
    Accession Version NM_001271928.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3915bp)
    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 2018-07-01
    Organism Homo sapiens(human)
    Product kinesin-like protein KIF27 isoform C
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL354733.15, DC376766.1 and AY237538.1. On Aug 4, 2017 this sequence version replaced NM_001271928.1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. ##Evidence-Data-START## Transcript exon combination :: AY237538.1 [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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGCCTTAA ACACAGATAG TTTGAAAATA TCAACTCGCC TGAACTTACT GGAACAAGAG 
    TTGTCTGAAA AGAATGTGCA GCTCCAGACC AGTACAGCTG AGGAGAAAAC AAAGATTTCA 
    GAACAAGTTG AAGTCCTCCA GAAAGAAAAG GATCAGCTCC AGAAACGCAG ACACAATGTG 
    GATGAAAAAC TTAAAAATGG TAGAGTGTTA TCACCTGAAG AAGAACATGT TCTTTTCCAA 
    CTTGAAGAAG GGATTGAAGC TTTGGAAGCT GCAATTGAAT ACAGGAATGA AAGTATCCAG 
    AATCGCCAGA AGTCACTTAG AGCATCATTC CATAACCTCT CTCGTGGTGA AGCAAATGTC 
    TTGGAAAAGC TAGCTTGCCT GAGTCCTGTT GAGATTAGAA CTATTCTTTT CAGATATTTC 
    AATAAGGTGG TGAATTTGCG AGAAGCTGAA CGGAAACAAC AGTTATATAA TGAAGAAATG 
    AAAATGAAAG TTCTGGAACG GGATAATATG GTTCGTGAAT TAGAATCTGC ACTGGACCAT 
    CTAAAATTGC AGTGTGACCG GAGACTGACC CTCCAGCAAA AGGAACACGA ACAAAAGATG 
    CAGTTGCTAT TACATCATTT CAAAGAACAA GATGGAGAAG GCATTATGGA AACTTTCAAA 
    ACATATGAAG ATAAAATCCA GCAGTTGGAA AAAGATCTTT ATTTCTATAA GAAAACCAGC 
    CGGGATCATA AGAAGAAACT TAAGGAACTG GTAGGGGAAG CAATTCGGCG GCAACTAGCA 
    CCATCAGAGT ATCAAGAGGC TGGAGATGGA GTCCTGAAGC CAGAAGGAGG AGGCATGCTT 
    TCAGAAGAAT TAAAATGGGC ATCCAGACCT GAAAGTATGA AATTAAGTGG AAGAGAAAGA 
    GAAATGGACA GTTCAGCAAG CAGCTTAAGA ACACAGCCAA ATCCTCAAAA GCTCTGGGAA 
    GATATCCCAG AATTACCTCC AATTCATAGT TCTTTAGCAC CCCCCAGTGG GCATATGTTA 
    GGTAATGAGA ATAAAACAGA AACAGATGAT AATCAGTTTA CAAAATCTCA CAGTCGACTG 
    TCATCCCAAA TTCAGGTTGT GGGAAATGTG GGACGACTTC ATGGTGTCAC ACCTGTAAAA 
    CTGTGTCGAA AAGAATTACG TCAAATTTCC GCCTTGGAAC TATCATTGCG ACGTTCCAGT 
    CTTGGAGTTG GCATTGGATC AATGGCTGCT GATTCCATCG AAGTATCTAG GAAACCAAGG 
    GACTTAAAAA CTTAG

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

    RefSeq NP_001258857.1
    CDS262..4176
    Translation

    Target ORF information:

    RefSeq Version NM_001271928.2
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant 3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001271928.2

    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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGCCTTAA ACACAGATAG TTTGAAAATA TCAACTCGCC TGAACTTACT GGAACAAGAG 
    TTGTCTGAAA AGAATGTGCA GCTCCAGACC AGTACAGCTG AGGAGAAAAC AAAGATTTCA 
    GAACAAGTTG AAGTCCTCCA GAAAGAAAAG GATCAGCTCC AGAAACGCAG ACACAATGTG 
    GATGAAAAAC TTAAAAATGG TAGAGTGTTA TCACCTGAAG AAGAACATGT TCTTTTCCAA 
    CTTGAAGAAG GGATTGAAGC TTTGGAAGCT GCAATTGAAT ACAGGAATGA AAGTATCCAG 
    AATCGCCAGA AGTCACTTAG AGCATCATTC CATAACCTCT CTCGTGGTGA AGCAAATGTC 
    TTGGAAAAGC TAGCTTGCCT GAGTCCTGTT GAGATTAGAA CTATTCTTTT CAGATATTTC 
    AATAAGGTGG TGAATTTGCG AGAAGCTGAA CGGAAACAAC AGTTATATAA TGAAGAAATG 
    AAAATGAAAG TTCTGGAACG GGATAATATG GTTCGTGAAT TAGAATCTGC ACTGGACCAT 
    CTAAAATTGC AGTGTGACCG GAGACTGACC CTCCAGCAAA AGGAACACGA ACAAAAGATG 
    CAGTTGCTAT TACATCATTT CAAAGAACAA GATGGAGAAG GCATTATGGA AACTTTCAAA 
    ACATATGAAG ATAAAATCCA GCAGTTGGAA AAAGATCTTT ATTTCTATAA GAAAACCAGC 
    CGGGATCATA AGAAGAAACT TAAGGAACTG GTAGGGGAAG CAATTCGGCG GCAACTAGCA 
    CCATCAGAGT ATCAAGAGGC TGGAGATGGA GTCCTGAAGC CAGAAGGAGG AGGCATGCTT 
    TCAGAAGAAT TAAAATGGGC ATCCAGACCT GAAAGTATGA AATTAAGTGG AAGAGAAAGA 
    GAAATGGACA GTTCAGCAAG CAGCTTAAGA ACACAGCCAA ATCCTCAAAA GCTCTGGGAA 
    GATATCCCAG AATTACCTCC AATTCATAGT TCTTTAGCAC CCCCCAGTGG GCATATGTTA 
    GGTAATGAGA ATAAAACAGA AACAGATGAT AATCAGTTTA CAAAATCTCA CAGTCGACTG 
    TCATCCCAAA TTCAGGTTGT GGGAAATGTG GGACGACTTC ATGGTGTCAC ACCTGTAAAA 
    CTGTGTCGAA AAGAATTACG TCAAATTTCC GCCTTGGAAC TATCATTGCG ACGTTCCAGT 
    CTTGGAGTTG GCATTGGATC AATGGCTGCT GATTCCATCG AAGTATCTAG GAAACCAAGG 
    GACTTAAAAA CTTAG

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

    KIF27 ( NM_001271928.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001258857.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant 3, mRNA.
    Price & Availability↑
    CloneID OHu04011
    Clone ID Related Accession (Same CDS sequence) NM_001271928.2 , XM_017014908.1 , NM_001271928.1
    Accession Version NM_001271928.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3915bp)
    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 2015-12-24
    Organism Homo sapiens(Human)
    Product kinesin-like protein KIF27 isoform C
    Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DC376766.1 and AY237538.1. Transcript Variant: This variant (3) lacks two in-frame exons in the central coding region, compared to variant 1. The encoded isoform (C) is shorter than isoform A. ##Evidence-Data-START## Transcript exon combination :: AY237538.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGCCTTAA ACACAGATAG TTTGAAAATA TCAACTCGCC TGAACTTACT GGAACAAGAG 
    TTGTCTGAAA AGAATGTGCA GCTCCAGACC AGTACAGCTG AGGAGAAAAC AAAGATTTCA 
    GAACAAGTTG AAGTCCTCCA GAAAGAAAAG GATCAGCTCC AGAAACGCAG ACACAATGTG 
    GATGAAAAAC TTAAAAATGG TAGAGTGTTA TCACCTGAAG AAGAACATGT TCTTTTCCAA 
    CTTGAAGAAG GGATTGAAGC TTTGGAAGCT GCAATTGAAT ACAGGAATGA AAGTATCCAG 
    AATCGCCAGA AGTCACTTAG AGCATCATTC CATAACCTCT CTCGTGGTGA AGCAAATGTC 
    TTGGAAAAGC TAGCTTGCCT GAGTCCTGTT GAGATTAGAA CTATTCTTTT CAGATATTTC 
    AATAAGGTGG TGAATTTGCG AGAAGCTGAA CGGAAACAAC AGTTATATAA TGAAGAAATG 
    AAAATGAAAG TTCTGGAACG GGATAATATG GTTCGTGAAT TAGAATCTGC ACTGGACCAT 
    CTAAAATTGC AGTGTGACCG GAGACTGACC CTCCAGCAAA AGGAACACGA ACAAAAGATG 
    CAGTTGCTAT TACATCATTT CAAAGAACAA GATGGAGAAG GCATTATGGA AACTTTCAAA 
    ACATATGAAG ATAAAATCCA GCAGTTGGAA AAAGATCTTT ATTTCTATAA GAAAACCAGC 
    CGGGATCATA AGAAGAAACT TAAGGAACTG GTAGGGGAAG CAATTCGGCG GCAACTAGCA 
    CCATCAGAGT ATCAAGAGGC TGGAGATGGA GTCCTGAAGC CAGAAGGAGG AGGCATGCTT 
    TCAGAAGAAT TAAAATGGGC ATCCAGACCT GAAAGTATGA AATTAAGTGG AAGAGAAAGA 
    GAAATGGACA GTTCAGCAAG CAGCTTAAGA ACACAGCCAA ATCCTCAAAA GCTCTGGGAA 
    GATATCCCAG AATTACCTCC AATTCATAGT TCTTTAGCAC CCCCCAGTGG GCATATGTTA 
    GGTAATGAGA ATAAAACAGA AACAGATGAT AATCAGTTTA CAAAATCTCA CAGTCGACTG 
    TCATCCCAAA TTCAGGTTGT GGGAAATGTG GGACGACTTC ATGGTGTCAC ACCTGTAAAA 
    CTGTGTCGAA AAGAATTACG TCAAATTTCC GCCTTGGAAC TATCATTGCG ACGTTCCAGT 
    CTTGGAGTTG GCATTGGATC AATGGCTGCT GATTCCATCG AAGTATCTAG GAAACCAAGG 
    GACTTAAAAA CTTAG

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

    RefSeq NP_001258857.1
    CDS183..4097
    Translation

    Target ORF information:

    RefSeq Version NM_001271928.1
    Organism Homo sapiens(Human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant 3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001271928.1

    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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGCCTTAA ACACAGATAG TTTGAAAATA TCAACTCGCC TGAACTTACT GGAACAAGAG 
    TTGTCTGAAA AGAATGTGCA GCTCCAGACC AGTACAGCTG AGGAGAAAAC AAAGATTTCA 
    GAACAAGTTG AAGTCCTCCA GAAAGAAAAG GATCAGCTCC AGAAACGCAG ACACAATGTG 
    GATGAAAAAC TTAAAAATGG TAGAGTGTTA TCACCTGAAG AAGAACATGT TCTTTTCCAA 
    CTTGAAGAAG GGATTGAAGC TTTGGAAGCT GCAATTGAAT ACAGGAATGA AAGTATCCAG 
    AATCGCCAGA AGTCACTTAG AGCATCATTC CATAACCTCT CTCGTGGTGA AGCAAATGTC 
    TTGGAAAAGC TAGCTTGCCT GAGTCCTGTT GAGATTAGAA CTATTCTTTT CAGATATTTC 
    AATAAGGTGG TGAATTTGCG AGAAGCTGAA CGGAAACAAC AGTTATATAA TGAAGAAATG 
    AAAATGAAAG TTCTGGAACG GGATAATATG GTTCGTGAAT TAGAATCTGC ACTGGACCAT 
    CTAAAATTGC AGTGTGACCG GAGACTGACC CTCCAGCAAA AGGAACACGA ACAAAAGATG 
    CAGTTGCTAT TACATCATTT CAAAGAACAA GATGGAGAAG GCATTATGGA AACTTTCAAA 
    ACATATGAAG ATAAAATCCA GCAGTTGGAA AAAGATCTTT ATTTCTATAA GAAAACCAGC 
    CGGGATCATA AGAAGAAACT TAAGGAACTG GTAGGGGAAG CAATTCGGCG GCAACTAGCA 
    CCATCAGAGT ATCAAGAGGC TGGAGATGGA GTCCTGAAGC CAGAAGGAGG AGGCATGCTT 
    TCAGAAGAAT TAAAATGGGC ATCCAGACCT GAAAGTATGA AATTAAGTGG AAGAGAAAGA 
    GAAATGGACA GTTCAGCAAG CAGCTTAAGA ACACAGCCAA ATCCTCAAAA GCTCTGGGAA 
    GATATCCCAG AATTACCTCC AATTCATAGT TCTTTAGCAC CCCCCAGTGG GCATATGTTA 
    GGTAATGAGA ATAAAACAGA AACAGATGAT AATCAGTTTA CAAAATCTCA CAGTCGACTG 
    TCATCCCAAA TTCAGGTTGT GGGAAATGTG GGACGACTTC ATGGTGTCAC ACCTGTAAAA 
    CTGTGTCGAA AAGAATTACG TCAAATTTCC GCCTTGGAAC TATCATTGCG ACGTTCCAGT 
    CTTGGAGTTG GCATTGGATC AATGGCTGCT GATTCCATCG AAGTATCTAG GAAACCAAGG 
    GACTTAAAAA CTTAG

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

    KIF27 ( XM_017014908.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016870397.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant X12, mRNA.
    Price & Availability↑
    CloneID OHu04011
    Clone ID Related Accession (Same CDS sequence) NM_001271928.2 , XM_017014908.1 , NM_001271928.1
    Accession Version XM_017014908.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3915bp)
    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 KIF27 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: 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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGCCTTAA ACACAGATAG TTTGAAAATA TCAACTCGCC TGAACTTACT GGAACAAGAG 
    TTGTCTGAAA AGAATGTGCA GCTCCAGACC AGTACAGCTG AGGAGAAAAC AAAGATTTCA 
    GAACAAGTTG AAGTCCTCCA GAAAGAAAAG GATCAGCTCC AGAAACGCAG ACACAATGTG 
    GATGAAAAAC TTAAAAATGG TAGAGTGTTA TCACCTGAAG AAGAACATGT TCTTTTCCAA 
    CTTGAAGAAG GGATTGAAGC TTTGGAAGCT GCAATTGAAT ACAGGAATGA AAGTATCCAG 
    AATCGCCAGA AGTCACTTAG AGCATCATTC CATAACCTCT CTCGTGGTGA AGCAAATGTC 
    TTGGAAAAGC TAGCTTGCCT GAGTCCTGTT GAGATTAGAA CTATTCTTTT CAGATATTTC 
    AATAAGGTGG TGAATTTGCG AGAAGCTGAA CGGAAACAAC AGTTATATAA TGAAGAAATG 
    AAAATGAAAG TTCTGGAACG GGATAATATG GTTCGTGAAT TAGAATCTGC ACTGGACCAT 
    CTAAAATTGC AGTGTGACCG GAGACTGACC CTCCAGCAAA AGGAACACGA ACAAAAGATG 
    CAGTTGCTAT TACATCATTT CAAAGAACAA GATGGAGAAG GCATTATGGA AACTTTCAAA 
    ACATATGAAG ATAAAATCCA GCAGTTGGAA AAAGATCTTT ATTTCTATAA GAAAACCAGC 
    CGGGATCATA AGAAGAAACT TAAGGAACTG GTAGGGGAAG CAATTCGGCG GCAACTAGCA 
    CCATCAGAGT ATCAAGAGGC TGGAGATGGA GTCCTGAAGC CAGAAGGAGG AGGCATGCTT 
    TCAGAAGAAT TAAAATGGGC ATCCAGACCT GAAAGTATGA AATTAAGTGG AAGAGAAAGA 
    GAAATGGACA GTTCAGCAAG CAGCTTAAGA ACACAGCCAA ATCCTCAAAA GCTCTGGGAA 
    GATATCCCAG AATTACCTCC AATTCATAGT TCTTTAGCAC CCCCCAGTGG GCATATGTTA 
    GGTAATGAGA ATAAAACAGA AACAGATGAT AATCAGTTTA CAAAATCTCA CAGTCGACTG 
    TCATCCCAAA TTCAGGTTGT GGGAAATGTG GGACGACTTC ATGGTGTCAC ACCTGTAAAA 
    CTGTGTCGAA AAGAATTACG TCAAATTTCC GCCTTGGAAC TATCATTGCG ACGTTCCAGT 
    CTTGGAGTTG GCATTGGATC AATGGCTGCT GATTCCATCG AAGTATCTAG GAAACCAAGG 
    GACTTAAAAA CTTAG

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

    RefSeq XP_016870397.1
    CDS403..4317
    Translation

    Target ORF information:

    RefSeq Version XM_017014908.1
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant X12, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017014908.1

    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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGCCTTAA ACACAGATAG TTTGAAAATA TCAACTCGCC TGAACTTACT GGAACAAGAG 
    TTGTCTGAAA AGAATGTGCA GCTCCAGACC AGTACAGCTG AGGAGAAAAC AAAGATTTCA 
    GAACAAGTTG AAGTCCTCCA GAAAGAAAAG GATCAGCTCC AGAAACGCAG ACACAATGTG 
    GATGAAAAAC TTAAAAATGG TAGAGTGTTA TCACCTGAAG AAGAACATGT TCTTTTCCAA 
    CTTGAAGAAG GGATTGAAGC TTTGGAAGCT GCAATTGAAT ACAGGAATGA AAGTATCCAG 
    AATCGCCAGA AGTCACTTAG AGCATCATTC CATAACCTCT CTCGTGGTGA AGCAAATGTC 
    TTGGAAAAGC TAGCTTGCCT GAGTCCTGTT GAGATTAGAA CTATTCTTTT CAGATATTTC 
    AATAAGGTGG TGAATTTGCG AGAAGCTGAA CGGAAACAAC AGTTATATAA TGAAGAAATG 
    AAAATGAAAG TTCTGGAACG GGATAATATG GTTCGTGAAT TAGAATCTGC ACTGGACCAT 
    CTAAAATTGC AGTGTGACCG GAGACTGACC CTCCAGCAAA AGGAACACGA ACAAAAGATG 
    CAGTTGCTAT TACATCATTT CAAAGAACAA GATGGAGAAG GCATTATGGA AACTTTCAAA 
    ACATATGAAG ATAAAATCCA GCAGTTGGAA AAAGATCTTT ATTTCTATAA GAAAACCAGC 
    CGGGATCATA AGAAGAAACT TAAGGAACTG GTAGGGGAAG CAATTCGGCG GCAACTAGCA 
    CCATCAGAGT ATCAAGAGGC TGGAGATGGA GTCCTGAAGC CAGAAGGAGG AGGCATGCTT 
    TCAGAAGAAT TAAAATGGGC ATCCAGACCT GAAAGTATGA AATTAAGTGG AAGAGAAAGA 
    GAAATGGACA GTTCAGCAAG CAGCTTAAGA ACACAGCCAA ATCCTCAAAA GCTCTGGGAA 
    GATATCCCAG AATTACCTCC AATTCATAGT TCTTTAGCAC CCCCCAGTGG GCATATGTTA 
    GGTAATGAGA ATAAAACAGA AACAGATGAT AATCAGTTTA CAAAATCTCA CAGTCGACTG 
    TCATCCCAAA TTCAGGTTGT GGGAAATGTG GGACGACTTC ATGGTGTCAC ACCTGTAAAA 
    CTGTGTCGAA AAGAATTACG TCAAATTTCC GCCTTGGAAC TATCATTGCG ACGTTCCAGT 
    CTTGGAGTTG GCATTGGATC AATGGCTGCT GATTCCATCG AAGTATCTAG GAAACCAAGG 
    GACTTAAAAA CTTAG

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

    KIF27 ( XM_011518854.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011517156.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant X13, mRNA.
    Price & Availability↑
    CloneID OHu69493
    Clone ID Related Accession (Same CDS sequence) XM_011518854.2
    Accession Version XM_011518854.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3891bp)
    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 KIF27 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011518854.1. ##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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGCCCCTGGC AAAAACCACT 
    TTACTTTCTA CTTCTATGGA TTTGCCTATT CTAAACATTT CATACAACTG GAATCATACA 
    AATGAAAAAA TAATAGAACA ACAACTTCTT GTGGATCAAC TGAGTGAAGA ACTAACAAAA 
    CTTAACCTGT CAGTGACTTC TTCAGCTAAA GAAAATTGTG GAGATGGGCC AGATGCCAGG 
    ATCCCTGAAA GGAGACCATA TACTGTACCA TTTGATACTC ATTTGGGGCA TTATATTTAT 
    ATCCCATCAA GACAAGATTC CAGGAAGGTC CACACAAGTC CGCCTATGTA CTCTCTGGAT 
    CGAATATTTG CTGGATTTCG AACACGAAGT CAGATGCTGT TGGGTCACAT AGAAGAACAA 
    GATAAGGTCC TCCACTGCCA ATTTTCTGAT AACAGTGATG ATGAAGAATC AGAAGGCCAA 
    GAGAAATCTG GAACTAGATG TAGAAGTCGT TCATGGATTC AGAAGCCAGA CTCTGTTTGT 
    TCCCTTGTTG AATTGAGTGA TACTCAGGAT GAAACACAAA AGTCAGATTT GGAGAATGAA 
    GATTTAAAGA TTGATTGTCT CCAGGAGAGT CAAGAATTGA ATTTGCAAAA ATTAAAGAAT 
    TCAGAACGCA TACTTACTGA AGCTAAACAA AAAATGAGAG AACTTACAAT TAACATCAAG 
    ATGAAGGAAG ATCTGATTAA AGAATTAATA AAAACAGGTA ATGATGCCAA GTCTGTAAGC 
    AAGCAGTATT CTTTGAAAGT AACAAAGCTA GAGCATGATG CAGAACAGGC AAAAGTCGAA 
    CTGATTGAAA CACAAAAGCA GCTACAGGAG CTGGAAAACA AAGATCTTTC TGATGTTGCA 
    ATGAAGGTAA AATTACAGAA AGAGTTTCGT AAAAAGATGG ATGCTGCAAA GCTGAGAGTT 
    CAGGTCTTGC AGAAGAAGCA ACAAGATAGT AAGAAACTGG CATCACTGTC AATCCAAAAT 
    GAGAAACGTG CTAATGAGCT AGAGCAGAGT GTAGATCACA TGAAATATCA AAAGATACAG 
    CTACAAAGAA AACTACGAGA AGAAAATGAA AAAAGGAAGC AACTGGATGC AGTAATTAAG 
    CGGGACCAGC AAAAAATCAA AGAAATACAA TTAAAAACAG GACAGGAAGA AGGTCTAAAA 
    CCGAAAGCTG AGGACCTTGA TGCATGTAAC TTGAAAAGGA GAAAAGGTTC GTTTGGAAGT 
    ATAGACCATC TCCAGGAAGA ACATGTTCTT TTCCAACTTG AAGAAGGGAT TGAAGCTTTG 
    GAAGCTGCAA TTGAATACAG GAATGAAAGT ATCCAGAATC GCCAGAAGTC ACTTAGAGCA 
    TCATTCCATA ACCTCTCTCG TGGTGAAGCA AATGTCTTGG AAAAGCTAGC TTGCCTGAGT 
    CCTGTTGAGA TTAGAACTAT TCTTTTCAGA TATTTCAATA AGGTGGTGAA TTTGCGAGAA 
    GCTGAACGGA AACAACAGTT ATATAATGAA GAAATGAAAA TGAAAGTTCT GGAACGGGAT 
    AATATGGTTC GTGAATTAGA ATCTGCACTG GACCATCTAA AATTGCAGTG TGACCGGAGA 
    CTGACCCTCC AGCAAAAGGA ACACGAACAA AAGATGCAGT TGCTATTACA TCATTTCAAA 
    GAACAAGATG GAGAAGGCAT TATGGAAACT TTCAAAACAT ATGAAGATAA AATCCAGCAG 
    TTGGAAAAAG ATCTTTATTT CTATAAGAAA ACCAGCCGGG ATCATAAGAA GAAACTTAAG 
    GAACTGGTAG GGGAAGCAAT TCGGCGGCAA CTAGCACCAT CAGAGTATCA AGAGGCTGGA 
    GATGGAGTCC TGAAGCCAGA AGGAGGAGGC ATGCTTTCAG AAGAATTAAA ATGGGCATCC 
    AGACCTGAAA GTATGAAATT AAGTGGAAGA GAAAGAGAAA TGGACAGTTC AGCAAGCAGC 
    TTAAGAACAC AGCCAAATCC TCAAAAGCTC TGGGAAGATA TCCCAGAATT ACCTCCAATT 
    CATAGTTCTT TAGCACCCCC CAGTGGGCAT ATGTTAGGTA ATGAGAATAA AACAGAAACA 
    GATGATAATC AGTTTACAAA ATCTCACAGT CGACTGTCAT CCCAAATTCA GGTTGTGGGA 
    AATGTGGGAC GACTTCATGG TGTCACACCT GTAAAACTGT GTCGAAAAGA ATTACGTCAA 
    ATTTCCGCCT TGGAACTATC ATTGCGACGT TCCAGTCTTG GAGTTGGCAT TGGATCAATG 
    GCTGCTGATT CCATCGAAGT ATCTAGGAAA CCAAGGGACT TAAAAACTTA G

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

    RefSeq XP_011517156.1
    CDS403..4293
    Translation

    Target ORF information:

    RefSeq Version XM_011518854.2
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant X13, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011518854.2

    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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGCCCCTGGC AAAAACCACT 
    TTACTTTCTA CTTCTATGGA TTTGCCTATT CTAAACATTT CATACAACTG GAATCATACA 
    AATGAAAAAA TAATAGAACA ACAACTTCTT GTGGATCAAC TGAGTGAAGA ACTAACAAAA 
    CTTAACCTGT CAGTGACTTC TTCAGCTAAA GAAAATTGTG GAGATGGGCC AGATGCCAGG 
    ATCCCTGAAA GGAGACCATA TACTGTACCA TTTGATACTC ATTTGGGGCA TTATATTTAT 
    ATCCCATCAA GACAAGATTC CAGGAAGGTC CACACAAGTC CGCCTATGTA CTCTCTGGAT 
    CGAATATTTG CTGGATTTCG AACACGAAGT CAGATGCTGT TGGGTCACAT AGAAGAACAA 
    GATAAGGTCC TCCACTGCCA ATTTTCTGAT AACAGTGATG ATGAAGAATC AGAAGGCCAA 
    GAGAAATCTG GAACTAGATG TAGAAGTCGT TCATGGATTC AGAAGCCAGA CTCTGTTTGT 
    TCCCTTGTTG AATTGAGTGA TACTCAGGAT GAAACACAAA AGTCAGATTT GGAGAATGAA 
    GATTTAAAGA TTGATTGTCT CCAGGAGAGT CAAGAATTGA ATTTGCAAAA ATTAAAGAAT 
    TCAGAACGCA TACTTACTGA AGCTAAACAA AAAATGAGAG AACTTACAAT TAACATCAAG 
    ATGAAGGAAG ATCTGATTAA AGAATTAATA AAAACAGGTA ATGATGCCAA GTCTGTAAGC 
    AAGCAGTATT CTTTGAAAGT AACAAAGCTA GAGCATGATG CAGAACAGGC AAAAGTCGAA 
    CTGATTGAAA CACAAAAGCA GCTACAGGAG CTGGAAAACA AAGATCTTTC TGATGTTGCA 
    ATGAAGGTAA AATTACAGAA AGAGTTTCGT AAAAAGATGG ATGCTGCAAA GCTGAGAGTT 
    CAGGTCTTGC AGAAGAAGCA ACAAGATAGT AAGAAACTGG CATCACTGTC AATCCAAAAT 
    GAGAAACGTG CTAATGAGCT AGAGCAGAGT GTAGATCACA TGAAATATCA AAAGATACAG 
    CTACAAAGAA AACTACGAGA AGAAAATGAA AAAAGGAAGC AACTGGATGC AGTAATTAAG 
    CGGGACCAGC AAAAAATCAA AGAAATACAA TTAAAAACAG GACAGGAAGA AGGTCTAAAA 
    CCGAAAGCTG AGGACCTTGA TGCATGTAAC TTGAAAAGGA GAAAAGGTTC GTTTGGAAGT 
    ATAGACCATC TCCAGGAAGA ACATGTTCTT TTCCAACTTG AAGAAGGGAT TGAAGCTTTG 
    GAAGCTGCAA TTGAATACAG GAATGAAAGT ATCCAGAATC GCCAGAAGTC ACTTAGAGCA 
    TCATTCCATA ACCTCTCTCG TGGTGAAGCA AATGTCTTGG AAAAGCTAGC TTGCCTGAGT 
    CCTGTTGAGA TTAGAACTAT TCTTTTCAGA TATTTCAATA AGGTGGTGAA TTTGCGAGAA 
    GCTGAACGGA AACAACAGTT ATATAATGAA GAAATGAAAA TGAAAGTTCT GGAACGGGAT 
    AATATGGTTC GTGAATTAGA ATCTGCACTG GACCATCTAA AATTGCAGTG TGACCGGAGA 
    CTGACCCTCC AGCAAAAGGA ACACGAACAA AAGATGCAGT TGCTATTACA TCATTTCAAA 
    GAACAAGATG GAGAAGGCAT TATGGAAACT TTCAAAACAT ATGAAGATAA AATCCAGCAG 
    TTGGAAAAAG ATCTTTATTT CTATAAGAAA ACCAGCCGGG ATCATAAGAA GAAACTTAAG 
    GAACTGGTAG GGGAAGCAAT TCGGCGGCAA CTAGCACCAT CAGAGTATCA AGAGGCTGGA 
    GATGGAGTCC TGAAGCCAGA AGGAGGAGGC ATGCTTTCAG AAGAATTAAA ATGGGCATCC 
    AGACCTGAAA GTATGAAATT AAGTGGAAGA GAAAGAGAAA TGGACAGTTC AGCAAGCAGC 
    TTAAGAACAC AGCCAAATCC TCAAAAGCTC TGGGAAGATA TCCCAGAATT ACCTCCAATT 
    CATAGTTCTT TAGCACCCCC CAGTGGGCAT ATGTTAGGTA ATGAGAATAA AACAGAAACA 
    GATGATAATC AGTTTACAAA ATCTCACAGT CGACTGTCAT CCCAAATTCA GGTTGTGGGA 
    AATGTGGGAC GACTTCATGG TGTCACACCT GTAAAACTGT GTCGAAAAGA ATTACGTCAA 
    ATTTCCGCCT TGGAACTATC ATTGCGACGT TCCAGTCTTG GAGTTGGCAT TGGATCAATG 
    GCTGCTGATT CCATCGAAGT ATCTAGGAAA CCAAGGGACT TAAAAACTTA G

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

    KIF27 ( XM_011518856.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011517158.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant X16, mRNA.
    Price & Availability↑
    CloneID OHu69495
    Clone ID Related Accession (Same CDS sequence) XM_011518856.2
    Accession Version XM_011518856.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3489bp)
    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 KIF27 isoform X10
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011518856.1. ##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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGCCCCTGGC AAAAACCACT 
    TTACTTTCTA CTTCTATGGA TTTGCCTATT CTAAACATTT CATACAACTG GAATCATACA 
    AATGAAAAAA TAATAGAACA ACAACTTCTT GTGGATCAAC TGAGTGAAGA ACTAACAAAA 
    CTTAACCTGT CAGTGACTTC TTCAGCTAAA GAAAATTGTG GAGATGGGCC AGATGCCAGG 
    ATCCCTGAAA GGAGACCATA TACTGTACCA TTTGATACTC ATTTGGGGCA TTATATTTAT 
    ATCCCATCAA GACAAGATTC CAGGAAGGTC CACACAAGTC CGCCTATGTA CTCTCTGGAT 
    CGAATATTTG CTGGATTTCG AACACGAAGT CAGATGCTGT TGGGTCACAT AGAAGAACAA 
    GATAAGGTCC TCCACTGCCA ATTTTCTGAT AACAGTGATG ATGAAGAATC AGAAGGCCAA 
    GAGAAATCTG GAACTAGATG TAGAAGTCGT TCATGGATTC AGAAGCCAGA CTCTGTTTGT 
    TCCCTTGTTG AATTGAGTGA TACTCAGGAT GAAACACAAA AGTCAGATTT GGAGAATGAA 
    GATTTAAAGA TTGATTGTCT CCAGGAGAGT CAAGAATTGA ATTTGCAAAA ATTAAAGAAT 
    TCAGAACGCA TACTTACTGA AGCTAAACAA AAAATGAGAG AACTTACAAT TAACATCAAG 
    ATGAAGGAAG ATCTGATTAA AGAATTAATA AAAACAGGTA ATGATGCCAA GTCTGTAAGC 
    AAGCAGTATT CTTTGAAAGT AACAAAGCTA GAGCATGATG CAGAACAGGC AAAAGTCGAA 
    CTGATTGAAA CACAAAAGCA GCTACAGGAG CTGGAAAACA AAGATCTTTC TGATGTTGCA 
    ATGAAGGTAA AATTACAGAA AGAGTTTCGT AAAAAGATGG ATGCTGCAAA GCTGAGAGTT 
    CAGGTCTTGC AGAAGAAGCA ACAAGATAGT AAGAAACTGG CATCACTGTC AATCCAAAAT 
    GAGAAACGTG CTAATGAGCT AGAGCAGAGT GTAGATCACA TGAAATATCA AAAGATACAG 
    CTACAAAGAA AACTACGAGA AGAAAATGAA AAAAGGAAGC AACTGGATGC AGTAATTAAG 
    CGGGACCAGC AAAAAATCAA AGAAATACAA TTAAAAACAG GACAGGAAGA AGGTCTAAAA 
    CCGAAAGCTG AGGACCTTGA TGCATGTAAC TTGAAAAGGA GAAAAGGTTC GTTTGGAAGT 
    ATAGACCATC TCCAGAAATT GGATGAGCAA AAGAAATGGT TAGATGAAGA AGTAGAGAAA 
    GTTCTGAACC AACGCCAAGA ATTAGAGGAG CTGGAAGCAG ACTTAAAGAA ACGGGAGGCC 
    ATAGTTTCTA AGAAGGAGGC TCTGTTACAG GAGAAGAGTC ACCTGGAAAA TAAGAAATTG 
    AGATCTAGTC AGGCCTTAAA CACAGATAGT TTGAAAATAT CAACTCGCCT GAACTTACTG 
    GAACAAGAGT TGTCTGAAAA GAATGTGCAG CTCCAGACCA GTACAGCTGA GGAGAAAACA 
    AAGATTTCAG AACAAGTTGA AGTCCTCCAG AAAGAAAAGG ATCAGCTCCA GAAACGCAGA 
    CACAATGTGG ATGAAAAACT TAAAAATGGT AGAGTGTTAT CACCTGAAGA AGAACATGTT 
    CTTTTCCAAC TTGAAGAAGG GATTGAAGCT TTGGAAGCTG CAATTGAATA CAGGAATGAA 
    AGTATCCAGA ATCGCCAGAA GTCACTTAGA GCATCATTCC ATAACCTCTC TCGTGGTGAA 
    GCAAATGTCT TGGAAAAGCT AGCTTGCCTG AGTCCTGTTG AGATTAGAAC TATTCTTTTC 
    AGATATTTCA ATAAGATTTG GATGTTCTAC CTGGCACTCA TGAAAAATCA AGGGCCCTCC 
    AAGTTTTGA

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

    RefSeq XP_011517158.1
    CDS403..3891
    Translation

    Target ORF information:

    RefSeq Version XM_011518856.2
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant X16, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011518856.2

    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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGCCCCTGGC AAAAACCACT 
    TTACTTTCTA CTTCTATGGA TTTGCCTATT CTAAACATTT CATACAACTG GAATCATACA 
    AATGAAAAAA TAATAGAACA ACAACTTCTT GTGGATCAAC TGAGTGAAGA ACTAACAAAA 
    CTTAACCTGT CAGTGACTTC TTCAGCTAAA GAAAATTGTG GAGATGGGCC AGATGCCAGG 
    ATCCCTGAAA GGAGACCATA TACTGTACCA TTTGATACTC ATTTGGGGCA TTATATTTAT 
    ATCCCATCAA GACAAGATTC CAGGAAGGTC CACACAAGTC CGCCTATGTA CTCTCTGGAT 
    CGAATATTTG CTGGATTTCG AACACGAAGT CAGATGCTGT TGGGTCACAT AGAAGAACAA 
    GATAAGGTCC TCCACTGCCA ATTTTCTGAT AACAGTGATG ATGAAGAATC AGAAGGCCAA 
    GAGAAATCTG GAACTAGATG TAGAAGTCGT TCATGGATTC AGAAGCCAGA CTCTGTTTGT 
    TCCCTTGTTG AATTGAGTGA TACTCAGGAT GAAACACAAA AGTCAGATTT GGAGAATGAA 
    GATTTAAAGA TTGATTGTCT CCAGGAGAGT CAAGAATTGA ATTTGCAAAA ATTAAAGAAT 
    TCAGAACGCA TACTTACTGA AGCTAAACAA AAAATGAGAG AACTTACAAT TAACATCAAG 
    ATGAAGGAAG ATCTGATTAA AGAATTAATA AAAACAGGTA ATGATGCCAA GTCTGTAAGC 
    AAGCAGTATT CTTTGAAAGT AACAAAGCTA GAGCATGATG CAGAACAGGC AAAAGTCGAA 
    CTGATTGAAA CACAAAAGCA GCTACAGGAG CTGGAAAACA AAGATCTTTC TGATGTTGCA 
    ATGAAGGTAA AATTACAGAA AGAGTTTCGT AAAAAGATGG ATGCTGCAAA GCTGAGAGTT 
    CAGGTCTTGC AGAAGAAGCA ACAAGATAGT AAGAAACTGG CATCACTGTC AATCCAAAAT 
    GAGAAACGTG CTAATGAGCT AGAGCAGAGT GTAGATCACA TGAAATATCA AAAGATACAG 
    CTACAAAGAA AACTACGAGA AGAAAATGAA AAAAGGAAGC AACTGGATGC AGTAATTAAG 
    CGGGACCAGC AAAAAATCAA AGAAATACAA TTAAAAACAG GACAGGAAGA AGGTCTAAAA 
    CCGAAAGCTG AGGACCTTGA TGCATGTAAC TTGAAAAGGA GAAAAGGTTC GTTTGGAAGT 
    ATAGACCATC TCCAGAAATT GGATGAGCAA AAGAAATGGT TAGATGAAGA AGTAGAGAAA 
    GTTCTGAACC AACGCCAAGA ATTAGAGGAG CTGGAAGCAG ACTTAAAGAA ACGGGAGGCC 
    ATAGTTTCTA AGAAGGAGGC TCTGTTACAG GAGAAGAGTC ACCTGGAAAA TAAGAAATTG 
    AGATCTAGTC AGGCCTTAAA CACAGATAGT TTGAAAATAT CAACTCGCCT GAACTTACTG 
    GAACAAGAGT TGTCTGAAAA GAATGTGCAG CTCCAGACCA GTACAGCTGA GGAGAAAACA 
    AAGATTTCAG AACAAGTTGA AGTCCTCCAG AAAGAAAAGG ATCAGCTCCA GAAACGCAGA 
    CACAATGTGG ATGAAAAACT TAAAAATGGT AGAGTGTTAT CACCTGAAGA AGAACATGTT 
    CTTTTCCAAC TTGAAGAAGG GATTGAAGCT TTGGAAGCTG CAATTGAATA CAGGAATGAA 
    AGTATCCAGA ATCGCCAGAA GTCACTTAGA GCATCATTCC ATAACCTCTC TCGTGGTGAA 
    GCAAATGTCT TGGAAAAGCT AGCTTGCCTG AGTCCTGTTG AGATTAGAAC TATTCTTTTC 
    AGATATTTCA ATAAGATTTG GATGTTCTAC CTGGCACTCA TGAAAAATCA AGGGCCCTCC 
    AAGTTTTGA

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

    KIF27 ( XM_011518857.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011517159.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant X17, mRNA.
    Price & Availability↑
    CloneID OHu69496
    Clone ID Related Accession (Same CDS sequence) XM_011518857.2
    Accession Version XM_011518857.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3210bp)
    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 KIF27 isoform X11
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) 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_011518857.1. ##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
    ATGGAATTTG AGATTAAATT GCTTCGAGAA GCTTTGCAAA GCCAGCAGGC TGGTGTCAGC 
    CAAACTACCC AGATCAATCG AGAAGGGAGT CCTGATACAA ATAGGATTCA TTCTCTTGAG 
    GAGCAAGTAG CTCAGCTTCA AGGAGAATGT CTGGGTTACC AGTGTTGTGT AGAAGAAGCC 
    TTTACCTTCC TGGTTGACCT AAAAGATACT GTCAGACTAA ACGAAAAGCA GCAACACAAA 
    CTGCAGGAGT GGTTTAACAT GATCCAAGAG GTCAGGAAGG CTGTCCTCAC CTCATTTCGA 
    GGAATCGGAG GCACTGCAAG TCTGGAAGAA GGACCACAGC ATGTTACAGT TCTCCAGCTG 
    AAGAGAGAGC TTAAGAAATG CCAGTGTGTG CTTGCTGCTG ATGAAGTAGT ATTTAATCAG 
    AAGGAACTGG AGGTGAAGGA ACTGAAGAAT CAAGTGCAGA TGATGGTACA GGAAAACAAA 
    GGGCATGCTG TATCTTTGAA AGAAGCGCAA AAAGTGAATA GACTGCAGCC CCTGGCAAAA 
    ACCACTTTAC TTTCTACTTC TATGGATTTG CCTATTCTAA ACATTTCATA CAACTGGAAT 
    CATACAAATG AAAAAATAAT AGAACAACAA CTTCTTGTGG ATCAACTGAG TGAAGAACTA 
    ACAAAACTTA ACCTGTCAGT GACTTCTTCA GCTAAAGAAA ATTGTGGAGA TGGGCCAGAT 
    GCCAGGATCC CTGAAAGGAG ACCATATACT GTACCATTTG ATACTCATTT GGGGCATTAT 
    ATTTATATCC CATCAAGACA AGATTCCAGG AAGGTCCACA CAAGTCCGCC TATGTACTCT 
    CTGGATCGAA TATTTGCTGG ATTTCGAACA CGAAGTCAGA TGCTGTTGGG TCACATAGAA 
    GAACAAGATA AGGTCCTCCA CTGCCAATTT TCTGATAACA GTGATGATGA AGAATCAGAA 
    GGCCAAGAGA AATCTGGAAC TAGATGTAGA AGTCGTTCAT GGATTCAGAA GCCAGACTCT 
    GTTTGTTCCC TTGTTGAATT GAGTGATACT CAGGATGAAA CACAAAAGTC AGATTTGGAG 
    AATGAAGATT TAAAGATTGA TTGTCTCCAG GAGAGTCAAG AATTGAATTT GCAAAAATTA 
    AAGAATTCAG AACGCATACT TACTGAAGCT AAACAAAAAA TGAGAGAACT TACAATTAAC 
    ATCAAGATGA AGGAAGATCT GATTAAAGAA TTAATAAAAA CAGGTAATGA TGCCAAGTCT 
    GTAAGCAAGC AGTATTCTTT GAAAGTAACA AAGCTAGAGC ATGATGCAGA ACAGGCAAAA 
    GTCGAACTGA TTGAAACACA AAAGCAGCTA CAGGAGCTGG AAAACAAAGA TCTTTCTGAT 
    GTTGCAATGA AGGTAAAATT ACAGAAAGAG TTTCGTAAAA AGATGGATGC TGCAAAGCTG 
    AGAGTTCAGG TCTTGCAGAA GAAGCAACAA GATAGTAAGA AACTGGCATC ACTGTCAATC 
    CAAAATGAGA AACGTGCTAA TGAGCTAGAG CAGAGTGTAG ATCACATGAA ATATCAAAAG 
    ATACAGCTAC AAAGAAAACT ACGAGAAGAA AATGAAAAAA GGAAGCAACT GGATGCAGTA 
    ATTAAGCGGG ACCAGCAAAA AATCAAAGAA ATACAATTAA AAACAGGACA GGAAGAAGGT 
    CTAAAACCGA AAGCTGAGGA CCTTGATGCA TGTAACTTGA AAAGGAGAAA AGGTTCGTTT 
    GGAAGTATAG ACCATCTCCA GAAATTGGAT GAGCAAAAGA AATGGTTAGA TGAAGAAGTA 
    GAGAAAGTTC TGAACCAACG CCAAGAATTA GAGGAGCTGG AAGCAGACTT AAAGAAACGG 
    GAGGCCATAG TTTCTAAGAA GGAGGCTCTG TTACAGGAGA AGAGTCACCT GGAAAATAAG 
    AAATTGAGAT CTAGTCAGGC CTTAAACACA GATAGTTTGA AAATATCAAC TCGCCTGAAC 
    TTACTGGAAC AAGAGTTGTC TGAAAAGAAT GTGCAGCTCC AGACCAGTAC AGCTGAGGAG 
    AAAACAAAGA TTTCAGAACA AGTTGAAGTC CTCCAGAAAG AAAAGGATCA GCTCCAGAAA 
    CGCAGACACA ATGTGGATGA AAAACTTAAA AATGGTAGAG TGTTATCACC TGAAGAAGAA 
    CATGTTCTTT TCCAACTTGA AGAAGGGATT GAAGCTTTGG AAGCTGCAAT TGAATACAGG 
    AATGAAAGTA TCCAGAATCG CCAGAAGTCA CTTAGAGCAT CATTCCATAA CCTCTCTCGT 
    GGTGAAGCAA ATGTCTTGGA AAAGCTAGCT TGCCTGAGTC CTGTTGAGAT TAGAACTATT 
    CTTTTCAGAT ATTTCAATAA GGTGGTGAAT TTGCGAGAAG CTGAACGGAA ACAACAGTTA 
    TATAATGAAG AAATGAAAAT GAAAGTTCTG GAACGGGATA ATATGGTTCG TGAATTAGAA 
    TCTGCACTGG ACCATCTAAA ATTGCAGTGT GACCGGAGAC TGACCCTCCA GCAAAAGGAA 
    CACGAACAAA AGATGCAGTT GCTATTACAT CATTTCAAAG AACAAGATGG AGAAGGCATT 
    ATGGAAACTT TCAAAACATA TGAAGATAAA ATCCAGCAGT TGGAAAAAGA TCTTTATTTC 
    TATAAGAAAA CCAGCCGGGA TCATAAGAAG AAACTTAAGG AACTGGTAGG GGAAGCAATT 
    CGGCGGCAAC TAGCACCATC AGAGTATCAA GAGGCTGGAG ATGGAGTCCT GAAGCCAGAA 
    GGAGGAGGCA TGCTTTCAGA AGAATTAAAA TGGGCATCCA GACCTGAAAG TATGAAATTA 
    AGTGGAAGAG AAAGAGAAAT GGACAGTTCA GCAAGCAGCT TAAGAACACA GCCAAATCCT 
    CAAAAGCTCT GGGAAGATAT CCCAGAATTA CCTCCAATTC ATAGTTCTTT AGCACCCCCC 
    AGTGGGCATA TGTTAGGTAA TGAGAATAAA ACAGAAACAG ATGATAATCA GTTTACAAAA 
    TCTCACAGTC GACTGTCATC CCAAATTCAG GTTGTGGGAA ATGTGGGACG ACTTCATGGT 
    GTCACACCTG TAAAACTGTG TCGAAAAGAA TTACGTCAAA TTTCCGCCTT GGAACTATCA 
    TTGCGACGTT CCAGTCTTGG AGTTGGCATT GGATCAATGG CTGCTGATTC CATCGAAGTA 
    TCTAGGAAAC CAAGGGACTT AAAAACTTAG

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

    RefSeq XP_011517159.1
    CDS943..4152
    Translation

    Target ORF information:

    RefSeq Version XM_011518857.2
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant X17, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011518857.2

    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
    ATGGAATTTG AGATTAAATT GCTTCGAGAA GCTTTGCAAA GCCAGCAGGC TGGTGTCAGC 
    CAAACTACCC AGATCAATCG AGAAGGGAGT CCTGATACAA ATAGGATTCA TTCTCTTGAG 
    GAGCAAGTAG CTCAGCTTCA AGGAGAATGT CTGGGTTACC AGTGTTGTGT AGAAGAAGCC 
    TTTACCTTCC TGGTTGACCT AAAAGATACT GTCAGACTAA ACGAAAAGCA GCAACACAAA 
    CTGCAGGAGT GGTTTAACAT GATCCAAGAG GTCAGGAAGG CTGTCCTCAC CTCATTTCGA 
    GGAATCGGAG GCACTGCAAG TCTGGAAGAA GGACCACAGC ATGTTACAGT TCTCCAGCTG 
    AAGAGAGAGC TTAAGAAATG CCAGTGTGTG CTTGCTGCTG ATGAAGTAGT ATTTAATCAG 
    AAGGAACTGG AGGTGAAGGA ACTGAAGAAT CAAGTGCAGA TGATGGTACA GGAAAACAAA 
    GGGCATGCTG TATCTTTGAA AGAAGCGCAA AAAGTGAATA GACTGCAGCC CCTGGCAAAA 
    ACCACTTTAC TTTCTACTTC TATGGATTTG CCTATTCTAA ACATTTCATA CAACTGGAAT 
    CATACAAATG AAAAAATAAT AGAACAACAA CTTCTTGTGG ATCAACTGAG TGAAGAACTA 
    ACAAAACTTA ACCTGTCAGT GACTTCTTCA GCTAAAGAAA ATTGTGGAGA TGGGCCAGAT 
    GCCAGGATCC CTGAAAGGAG ACCATATACT GTACCATTTG ATACTCATTT GGGGCATTAT 
    ATTTATATCC CATCAAGACA AGATTCCAGG AAGGTCCACA CAAGTCCGCC TATGTACTCT 
    CTGGATCGAA TATTTGCTGG ATTTCGAACA CGAAGTCAGA TGCTGTTGGG TCACATAGAA 
    GAACAAGATA AGGTCCTCCA CTGCCAATTT TCTGATAACA GTGATGATGA AGAATCAGAA 
    GGCCAAGAGA AATCTGGAAC TAGATGTAGA AGTCGTTCAT GGATTCAGAA GCCAGACTCT 
    GTTTGTTCCC TTGTTGAATT GAGTGATACT CAGGATGAAA CACAAAAGTC AGATTTGGAG 
    AATGAAGATT TAAAGATTGA TTGTCTCCAG GAGAGTCAAG AATTGAATTT GCAAAAATTA 
    AAGAATTCAG AACGCATACT TACTGAAGCT AAACAAAAAA TGAGAGAACT TACAATTAAC 
    ATCAAGATGA AGGAAGATCT GATTAAAGAA TTAATAAAAA CAGGTAATGA TGCCAAGTCT 
    GTAAGCAAGC AGTATTCTTT GAAAGTAACA AAGCTAGAGC ATGATGCAGA ACAGGCAAAA 
    GTCGAACTGA TTGAAACACA AAAGCAGCTA CAGGAGCTGG AAAACAAAGA TCTTTCTGAT 
    GTTGCAATGA AGGTAAAATT ACAGAAAGAG TTTCGTAAAA AGATGGATGC TGCAAAGCTG 
    AGAGTTCAGG TCTTGCAGAA GAAGCAACAA GATAGTAAGA AACTGGCATC ACTGTCAATC 
    CAAAATGAGA AACGTGCTAA TGAGCTAGAG CAGAGTGTAG ATCACATGAA ATATCAAAAG 
    ATACAGCTAC AAAGAAAACT ACGAGAAGAA AATGAAAAAA GGAAGCAACT GGATGCAGTA 
    ATTAAGCGGG ACCAGCAAAA AATCAAAGAA ATACAATTAA AAACAGGACA GGAAGAAGGT 
    CTAAAACCGA AAGCTGAGGA CCTTGATGCA TGTAACTTGA AAAGGAGAAA AGGTTCGTTT 
    GGAAGTATAG ACCATCTCCA GAAATTGGAT GAGCAAAAGA AATGGTTAGA TGAAGAAGTA 
    GAGAAAGTTC TGAACCAACG CCAAGAATTA GAGGAGCTGG AAGCAGACTT AAAGAAACGG 
    GAGGCCATAG TTTCTAAGAA GGAGGCTCTG TTACAGGAGA AGAGTCACCT GGAAAATAAG 
    AAATTGAGAT CTAGTCAGGC CTTAAACACA GATAGTTTGA AAATATCAAC TCGCCTGAAC 
    TTACTGGAAC AAGAGTTGTC TGAAAAGAAT GTGCAGCTCC AGACCAGTAC AGCTGAGGAG 
    AAAACAAAGA TTTCAGAACA AGTTGAAGTC CTCCAGAAAG AAAAGGATCA GCTCCAGAAA 
    CGCAGACACA ATGTGGATGA AAAACTTAAA AATGGTAGAG TGTTATCACC TGAAGAAGAA 
    CATGTTCTTT TCCAACTTGA AGAAGGGATT GAAGCTTTGG AAGCTGCAAT TGAATACAGG 
    AATGAAAGTA TCCAGAATCG CCAGAAGTCA CTTAGAGCAT CATTCCATAA CCTCTCTCGT 
    GGTGAAGCAA ATGTCTTGGA AAAGCTAGCT TGCCTGAGTC CTGTTGAGAT TAGAACTATT 
    CTTTTCAGAT ATTTCAATAA GGTGGTGAAT TTGCGAGAAG CTGAACGGAA ACAACAGTTA 
    TATAATGAAG AAATGAAAAT GAAAGTTCTG GAACGGGATA ATATGGTTCG TGAATTAGAA 
    TCTGCACTGG ACCATCTAAA ATTGCAGTGT GACCGGAGAC TGACCCTCCA GCAAAAGGAA 
    CACGAACAAA AGATGCAGTT GCTATTACAT CATTTCAAAG AACAAGATGG AGAAGGCATT 
    ATGGAAACTT TCAAAACATA TGAAGATAAA ATCCAGCAGT TGGAAAAAGA TCTTTATTTC 
    TATAAGAAAA CCAGCCGGGA TCATAAGAAG AAACTTAAGG AACTGGTAGG GGAAGCAATT 
    CGGCGGCAAC TAGCACCATC AGAGTATCAA GAGGCTGGAG ATGGAGTCCT GAAGCCAGAA 
    GGAGGAGGCA TGCTTTCAGA AGAATTAAAA TGGGCATCCA GACCTGAAAG TATGAAATTA 
    AGTGGAAGAG AAAGAGAAAT GGACAGTTCA GCAAGCAGCT TAAGAACACA GCCAAATCCT 
    CAAAAGCTCT GGGAAGATAT CCCAGAATTA CCTCCAATTC ATAGTTCTTT AGCACCCCCC 
    AGTGGGCATA TGTTAGGTAA TGAGAATAAA ACAGAAACAG ATGATAATCA GTTTACAAAA 
    TCTCACAGTC GACTGTCATC CCAAATTCAG GTTGTGGGAA ATGTGGGACG ACTTCATGGT 
    GTCACACCTG TAAAACTGTG TCGAAAAGAA TTACGTCAAA TTTCCGCCTT GGAACTATCA 
    TTGCGACGTT CCAGTCTTGG AGTTGGCATT GGATCAATGG CTGCTGATTC CATCGAAGTA 
    TCTAGGAAAC CAAGGGACTT AAAAACTTAG

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

    KIF27 ( NM_017576.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_060046.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant 1, mRNA.
    Price & Availability↑
    CloneID OHu02862
    Clone ID Related Accession (Same CDS sequence) NM_017576.4 , XM_017014904.1 , NM_017576.2 , NM_017576.3 , XM_017014903.1
    Accession Version NM_017576.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4206bp)
    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 2019-05-01
    Organism Homo sapiens(human)
    Product kinesin-like protein KIF27 isoform A
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DC376766.1, AY237536.1 and AL354733.15. On Nov 22, 2018 this sequence version replaced NM_017576.3. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. ##Evidence-Data-START## Transcript exon combination :: AY237536.1, BC140788.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000297814.7/ ENSP00000297814.2 RefSeq Select criteria :: based on conservation, expression ##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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGAAATAC AATTAAAAAC AGGACAGGAA GAAGGTCTAA AACCGAAAGC TGAGGACCTT 
    GATGCATGTA ACTTGAAAAG GAGAAAAGGT TCGTTTGGAA GTATAGACCA TCTCCAGAAA 
    TTGGATGAGC AAAAGAAATG GTTAGATGAA GAAGTAGAGA AAGTTCTGAA CCAACGCCAA 
    GAATTAGAGG AGCTGGAAGC AGACTTAAAG AAACGGGAGG CCATAGTTTC TAAGAAGGAG 
    GCTCTGTTAC AGGAGAAGAG TCACCTGGAA AATAAGAAAT TGAGATCTAG TCAGGCCTTA 
    AACACAGATA GTTTGAAAAT ATCAACTCGC CTGAACTTAC TGGAACAAGA GTTGTCTGAA 
    AAGAATGTGC AGCTCCAGAC CAGTACAGCT GAGGAGAAAA CAAAGATTTC AGAACAAGTT 
    GAAGTCCTCC AGAAAGAAAA GGATCAGCTC CAGAAACGCA GACACAATGT GGATGAAAAA 
    CTTAAAAATG GTAGAGTGTT ATCACCTGAA GAAGAACATG TTCTTTTCCA ACTTGAAGAA 
    GGGATTGAAG CTTTGGAAGC TGCAATTGAA TACAGGAATG AAAGTATCCA GAATCGCCAG 
    AAGTCACTTA GAGCATCATT CCATAACCTC TCTCGTGGTG AAGCAAATGT CTTGGAAAAG 
    CTAGCTTGCC TGAGTCCTGT TGAGATTAGA ACTATTCTTT TCAGATATTT CAATAAGGTG 
    GTGAATTTGC GAGAAGCTGA ACGGAAACAA CAGTTATATA ATGAAGAAAT GAAAATGAAA 
    GTTCTGGAAC GGGATAATAT GGTTCGTGAA TTAGAATCTG CACTGGACCA TCTAAAATTG 
    CAGTGTGACC GGAGACTGAC CCTCCAGCAA AAGGAACACG AACAAAAGAT GCAGTTGCTA 
    TTACATCATT TCAAAGAACA AGATGGAGAA GGCATTATGG AAACTTTCAA AACATATGAA 
    GATAAAATCC AGCAGTTGGA AAAAGATCTT TATTTCTATA AGAAAACCAG CCGGGATCAT 
    AAGAAGAAAC TTAAGGAACT GGTAGGGGAA GCAATTCGGC GGCAACTAGC ACCATCAGAG 
    TATCAAGAGG CTGGAGATGG AGTCCTGAAG CCAGAAGGAG GAGGCATGCT TTCAGAAGAA 
    TTAAAATGGG CATCCAGACC TGAAAGTATG AAATTAAGTG GAAGAGAAAG AGAAATGGAC 
    AGTTCAGCAA GCAGCTTAAG AACACAGCCA AATCCTCAAA AGCTCTGGGA AGATATCCCA 
    GAATTACCTC CAATTCATAG TTCTTTAGCA CCCCCCAGTG GGCATATGTT AGGTAATGAG 
    AATAAAACAG AAACAGATGA TAATCAGTTT ACAAAATCTC ACAGTCGACT GTCATCCCAA 
    ATTCAGGTTG TGGGAAATGT GGGACGACTT CATGGTGTCA CACCTGTAAA ACTGTGTCGA 
    AAAGAATTAC GTCAAATTTC CGCCTTGGAA CTATCATTGC GACGTTCCAG TCTTGGAGTT 
    GGCATTGGAT CAATGGCTGC TGATTCCATC GAAGTATCTA GGAAACCAAG GGACTTAAAA 
    ACTTAG

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

    RefSeq NP_060046.1
    CDS150..4355
    Translation

    Target ORF information:

    RefSeq Version NM_017576.4
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_017576.4

    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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGAAATAC AATTAAAAAC AGGACAGGAA GAAGGTCTAA AACCGAAAGC TGAGGACCTT 
    GATGCATGTA ACTTGAAAAG GAGAAAAGGT TCGTTTGGAA GTATAGACCA TCTCCAGAAA 
    TTGGATGAGC AAAAGAAATG GTTAGATGAA GAAGTAGAGA AAGTTCTGAA CCAACGCCAA 
    GAATTAGAGG AGCTGGAAGC AGACTTAAAG AAACGGGAGG CCATAGTTTC TAAGAAGGAG 
    GCTCTGTTAC AGGAGAAGAG TCACCTGGAA AATAAGAAAT TGAGATCTAG TCAGGCCTTA 
    AACACAGATA GTTTGAAAAT ATCAACTCGC CTGAACTTAC TGGAACAAGA GTTGTCTGAA 
    AAGAATGTGC AGCTCCAGAC CAGTACAGCT GAGGAGAAAA CAAAGATTTC AGAACAAGTT 
    GAAGTCCTCC AGAAAGAAAA GGATCAGCTC CAGAAACGCA GACACAATGT GGATGAAAAA 
    CTTAAAAATG GTAGAGTGTT ATCACCTGAA GAAGAACATG TTCTTTTCCA ACTTGAAGAA 
    GGGATTGAAG CTTTGGAAGC TGCAATTGAA TACAGGAATG AAAGTATCCA GAATCGCCAG 
    AAGTCACTTA GAGCATCATT CCATAACCTC TCTCGTGGTG AAGCAAATGT CTTGGAAAAG 
    CTAGCTTGCC TGAGTCCTGT TGAGATTAGA ACTATTCTTT TCAGATATTT CAATAAGGTG 
    GTGAATTTGC GAGAAGCTGA ACGGAAACAA CAGTTATATA ATGAAGAAAT GAAAATGAAA 
    GTTCTGGAAC GGGATAATAT GGTTCGTGAA TTAGAATCTG CACTGGACCA TCTAAAATTG 
    CAGTGTGACC GGAGACTGAC CCTCCAGCAA AAGGAACACG AACAAAAGAT GCAGTTGCTA 
    TTACATCATT TCAAAGAACA AGATGGAGAA GGCATTATGG AAACTTTCAA AACATATGAA 
    GATAAAATCC AGCAGTTGGA AAAAGATCTT TATTTCTATA AGAAAACCAG CCGGGATCAT 
    AAGAAGAAAC TTAAGGAACT GGTAGGGGAA GCAATTCGGC GGCAACTAGC ACCATCAGAG 
    TATCAAGAGG CTGGAGATGG AGTCCTGAAG CCAGAAGGAG GAGGCATGCT TTCAGAAGAA 
    TTAAAATGGG CATCCAGACC TGAAAGTATG AAATTAAGTG GAAGAGAAAG AGAAATGGAC 
    AGTTCAGCAA GCAGCTTAAG AACACAGCCA AATCCTCAAA AGCTCTGGGA AGATATCCCA 
    GAATTACCTC CAATTCATAG TTCTTTAGCA CCCCCCAGTG GGCATATGTT AGGTAATGAG 
    AATAAAACAG AAACAGATGA TAATCAGTTT ACAAAATCTC ACAGTCGACT GTCATCCCAA 
    ATTCAGGTTG TGGGAAATGT GGGACGACTT CATGGTGTCA CACCTGTAAA ACTGTGTCGA 
    AAAGAATTAC GTCAAATTTC CGCCTTGGAA CTATCATTGC GACGTTCCAG TCTTGGAGTT 
    GGCATTGGAT CAATGGCTGC TGATTCCATC GAAGTATCTA GGAAACCAAG GGACTTAAAA 
    ACTTAG

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

    KIF27 ( NM_017576.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_060046.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant 1, mRNA.
    Price & Availability↑
    CloneID OHu02862
    Clone ID Related Accession (Same CDS sequence) NM_017576.4 , XM_017014904.1 , NM_017576.2 , NM_017576.3 , XM_017014903.1
    Accession Version NM_017576.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4206bp)
    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 2015-12-24
    Organism Homo sapiens(Human)
    Product kinesin-like protein KIF27 isoform A
    Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DC376766.1 and AY237536.1. On Dec 13, 2012 this sequence version replaced NM_017576.1. Transcript Variant: This variant (1) represents the longest transcript and encodes the longest isoform (A). ##Evidence-Data-START## Transcript exon combination :: AY237536.1, BC140788.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGAAATAC AATTAAAAAC AGGACAGGAA GAAGGTCTAA AACCGAAAGC TGAGGACCTT 
    GATGCATGTA ACTTGAAAAG GAGAAAAGGT TCGTTTGGAA GTATAGACCA TCTCCAGAAA 
    TTGGATGAGC AAAAGAAATG GTTAGATGAA GAAGTAGAGA AAGTTCTGAA CCAACGCCAA 
    GAATTAGAGG AGCTGGAAGC AGACTTAAAG AAACGGGAGG CCATAGTTTC TAAGAAGGAG 
    GCTCTGTTAC AGGAGAAGAG TCACCTGGAA AATAAGAAAT TGAGATCTAG TCAGGCCTTA 
    AACACAGATA GTTTGAAAAT ATCAACTCGC CTGAACTTAC TGGAACAAGA GTTGTCTGAA 
    AAGAATGTGC AGCTCCAGAC CAGTACAGCT GAGGAGAAAA CAAAGATTTC AGAACAAGTT 
    GAAGTCCTCC AGAAAGAAAA GGATCAGCTC CAGAAACGCA GACACAATGT GGATGAAAAA 
    CTTAAAAATG GTAGAGTGTT ATCACCTGAA GAAGAACATG TTCTTTTCCA ACTTGAAGAA 
    GGGATTGAAG CTTTGGAAGC TGCAATTGAA TACAGGAATG AAAGTATCCA GAATCGCCAG 
    AAGTCACTTA GAGCATCATT CCATAACCTC TCTCGTGGTG AAGCAAATGT CTTGGAAAAG 
    CTAGCTTGCC TGAGTCCTGT TGAGATTAGA ACTATTCTTT TCAGATATTT CAATAAGGTG 
    GTGAATTTGC GAGAAGCTGA ACGGAAACAA CAGTTATATA ATGAAGAAAT GAAAATGAAA 
    GTTCTGGAAC GGGATAATAT GGTTCGTGAA TTAGAATCTG CACTGGACCA TCTAAAATTG 
    CAGTGTGACC GGAGACTGAC CCTCCAGCAA AAGGAACACG AACAAAAGAT GCAGTTGCTA 
    TTACATCATT TCAAAGAACA AGATGGAGAA GGCATTATGG AAACTTTCAA AACATATGAA 
    GATAAAATCC AGCAGTTGGA AAAAGATCTT TATTTCTATA AGAAAACCAG CCGGGATCAT 
    AAGAAGAAAC TTAAGGAACT GGTAGGGGAA GCAATTCGGC GGCAACTAGC ACCATCAGAG 
    TATCAAGAGG CTGGAGATGG AGTCCTGAAG CCAGAAGGAG GAGGCATGCT TTCAGAAGAA 
    TTAAAATGGG CATCCAGACC TGAAAGTATG AAATTAAGTG GAAGAGAAAG AGAAATGGAC 
    AGTTCAGCAA GCAGCTTAAG AACACAGCCA AATCCTCAAA AGCTCTGGGA AGATATCCCA 
    GAATTACCTC CAATTCATAG TTCTTTAGCA CCCCCCAGTG GGCATATGTT AGGTAATGAG 
    AATAAAACAG AAACAGATGA TAATCAGTTT ACAAAATCTC ACAGTCGACT GTCATCCCAA 
    ATTCAGGTTG TGGGAAATGT GGGACGACTT CATGGTGTCA CACCTGTAAA ACTGTGTCGA 
    AAAGAATTAC GTCAAATTTC CGCCTTGGAA CTATCATTGC GACGTTCCAG TCTTGGAGTT 
    GGCATTGGAT CAATGGCTGC TGATTCCATC GAAGTATCTA GGAAACCAAG GGACTTAAAA 
    ACTTAG

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

    RefSeq NP_060046.1
    CDS183..4388
    Translation

    Target ORF information:

    RefSeq Version NM_017576.2
    Organism Homo sapiens(Human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_017576.2

    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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGAAATAC AATTAAAAAC AGGACAGGAA GAAGGTCTAA AACCGAAAGC TGAGGACCTT 
    GATGCATGTA ACTTGAAAAG GAGAAAAGGT TCGTTTGGAA GTATAGACCA TCTCCAGAAA 
    TTGGATGAGC AAAAGAAATG GTTAGATGAA GAAGTAGAGA AAGTTCTGAA CCAACGCCAA 
    GAATTAGAGG AGCTGGAAGC AGACTTAAAG AAACGGGAGG CCATAGTTTC TAAGAAGGAG 
    GCTCTGTTAC AGGAGAAGAG TCACCTGGAA AATAAGAAAT TGAGATCTAG TCAGGCCTTA 
    AACACAGATA GTTTGAAAAT ATCAACTCGC CTGAACTTAC TGGAACAAGA GTTGTCTGAA 
    AAGAATGTGC AGCTCCAGAC CAGTACAGCT GAGGAGAAAA CAAAGATTTC AGAACAAGTT 
    GAAGTCCTCC AGAAAGAAAA GGATCAGCTC CAGAAACGCA GACACAATGT GGATGAAAAA 
    CTTAAAAATG GTAGAGTGTT ATCACCTGAA GAAGAACATG TTCTTTTCCA ACTTGAAGAA 
    GGGATTGAAG CTTTGGAAGC TGCAATTGAA TACAGGAATG AAAGTATCCA GAATCGCCAG 
    AAGTCACTTA GAGCATCATT CCATAACCTC TCTCGTGGTG AAGCAAATGT CTTGGAAAAG 
    CTAGCTTGCC TGAGTCCTGT TGAGATTAGA ACTATTCTTT TCAGATATTT CAATAAGGTG 
    GTGAATTTGC GAGAAGCTGA ACGGAAACAA CAGTTATATA ATGAAGAAAT GAAAATGAAA 
    GTTCTGGAAC GGGATAATAT GGTTCGTGAA TTAGAATCTG CACTGGACCA TCTAAAATTG 
    CAGTGTGACC GGAGACTGAC CCTCCAGCAA AAGGAACACG AACAAAAGAT GCAGTTGCTA 
    TTACATCATT TCAAAGAACA AGATGGAGAA GGCATTATGG AAACTTTCAA AACATATGAA 
    GATAAAATCC AGCAGTTGGA AAAAGATCTT TATTTCTATA AGAAAACCAG CCGGGATCAT 
    AAGAAGAAAC TTAAGGAACT GGTAGGGGAA GCAATTCGGC GGCAACTAGC ACCATCAGAG 
    TATCAAGAGG CTGGAGATGG AGTCCTGAAG CCAGAAGGAG GAGGCATGCT TTCAGAAGAA 
    TTAAAATGGG CATCCAGACC TGAAAGTATG AAATTAAGTG GAAGAGAAAG AGAAATGGAC 
    AGTTCAGCAA GCAGCTTAAG AACACAGCCA AATCCTCAAA AGCTCTGGGA AGATATCCCA 
    GAATTACCTC CAATTCATAG TTCTTTAGCA CCCCCCAGTG GGCATATGTT AGGTAATGAG 
    AATAAAACAG AAACAGATGA TAATCAGTTT ACAAAATCTC ACAGTCGACT GTCATCCCAA 
    ATTCAGGTTG TGGGAAATGT GGGACGACTT CATGGTGTCA CACCTGTAAA ACTGTGTCGA 
    AAAGAATTAC GTCAAATTTC CGCCTTGGAA CTATCATTGC GACGTTCCAG TCTTGGAGTT 
    GGCATTGGAT CAATGGCTGC TGATTCCATC GAAGTATCTA GGAAACCAAG GGACTTAAAA 
    ACTTAG

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

    KIF27 ( NM_017576.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_060046.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant 1, mRNA.
    Price & Availability↑
    CloneID OHu02862
    Clone ID Related Accession (Same CDS sequence) NM_017576.4 , XM_017014904.1 , NM_017576.2 , NM_017576.3 , XM_017014903.1
    Accession Version NM_017576.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4206bp)
    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 2017-09-09
    Organism Homo sapiens(human)
    Product kinesin-like protein KIF27 isoform A
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL354733.15, DC376766.1 and AY237536.1. On Aug 4, 2017 this sequence version replaced NM_017576.2. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. ##Evidence-Data-START## Transcript exon combination :: AY237536.1, BC140788.1 [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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGAAATAC AATTAAAAAC AGGACAGGAA GAAGGTCTAA AACCGAAAGC TGAGGACCTT 
    GATGCATGTA ACTTGAAAAG GAGAAAAGGT TCGTTTGGAA GTATAGACCA TCTCCAGAAA 
    TTGGATGAGC AAAAGAAATG GTTAGATGAA GAAGTAGAGA AAGTTCTGAA CCAACGCCAA 
    GAATTAGAGG AGCTGGAAGC AGACTTAAAG AAACGGGAGG CCATAGTTTC TAAGAAGGAG 
    GCTCTGTTAC AGGAGAAGAG TCACCTGGAA AATAAGAAAT TGAGATCTAG TCAGGCCTTA 
    AACACAGATA GTTTGAAAAT ATCAACTCGC CTGAACTTAC TGGAACAAGA GTTGTCTGAA 
    AAGAATGTGC AGCTCCAGAC CAGTACAGCT GAGGAGAAAA CAAAGATTTC AGAACAAGTT 
    GAAGTCCTCC AGAAAGAAAA GGATCAGCTC CAGAAACGCA GACACAATGT GGATGAAAAA 
    CTTAAAAATG GTAGAGTGTT ATCACCTGAA GAAGAACATG TTCTTTTCCA ACTTGAAGAA 
    GGGATTGAAG CTTTGGAAGC TGCAATTGAA TACAGGAATG AAAGTATCCA GAATCGCCAG 
    AAGTCACTTA GAGCATCATT CCATAACCTC TCTCGTGGTG AAGCAAATGT CTTGGAAAAG 
    CTAGCTTGCC TGAGTCCTGT TGAGATTAGA ACTATTCTTT TCAGATATTT CAATAAGGTG 
    GTGAATTTGC GAGAAGCTGA ACGGAAACAA CAGTTATATA ATGAAGAAAT GAAAATGAAA 
    GTTCTGGAAC GGGATAATAT GGTTCGTGAA TTAGAATCTG CACTGGACCA TCTAAAATTG 
    CAGTGTGACC GGAGACTGAC CCTCCAGCAA AAGGAACACG AACAAAAGAT GCAGTTGCTA 
    TTACATCATT TCAAAGAACA AGATGGAGAA GGCATTATGG AAACTTTCAA AACATATGAA 
    GATAAAATCC AGCAGTTGGA AAAAGATCTT TATTTCTATA AGAAAACCAG CCGGGATCAT 
    AAGAAGAAAC TTAAGGAACT GGTAGGGGAA GCAATTCGGC GGCAACTAGC ACCATCAGAG 
    TATCAAGAGG CTGGAGATGG AGTCCTGAAG CCAGAAGGAG GAGGCATGCT TTCAGAAGAA 
    TTAAAATGGG CATCCAGACC TGAAAGTATG AAATTAAGTG GAAGAGAAAG AGAAATGGAC 
    AGTTCAGCAA GCAGCTTAAG AACACAGCCA AATCCTCAAA AGCTCTGGGA AGATATCCCA 
    GAATTACCTC CAATTCATAG TTCTTTAGCA CCCCCCAGTG GGCATATGTT AGGTAATGAG 
    AATAAAACAG AAACAGATGA TAATCAGTTT ACAAAATCTC ACAGTCGACT GTCATCCCAA 
    ATTCAGGTTG TGGGAAATGT GGGACGACTT CATGGTGTCA CACCTGTAAA ACTGTGTCGA 
    AAAGAATTAC GTCAAATTTC CGCCTTGGAA CTATCATTGC GACGTTCCAG TCTTGGAGTT 
    GGCATTGGAT CAATGGCTGC TGATTCCATC GAAGTATCTA GGAAACCAAG GGACTTAAAA 
    ACTTAG

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

    RefSeq NP_060046.1
    CDS262..4467
    Translation

    Target ORF information:

    RefSeq Version NM_017576.3
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_017576.3

    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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGAAATAC AATTAAAAAC AGGACAGGAA GAAGGTCTAA AACCGAAAGC TGAGGACCTT 
    GATGCATGTA ACTTGAAAAG GAGAAAAGGT TCGTTTGGAA GTATAGACCA TCTCCAGAAA 
    TTGGATGAGC AAAAGAAATG GTTAGATGAA GAAGTAGAGA AAGTTCTGAA CCAACGCCAA 
    GAATTAGAGG AGCTGGAAGC AGACTTAAAG AAACGGGAGG CCATAGTTTC TAAGAAGGAG 
    GCTCTGTTAC AGGAGAAGAG TCACCTGGAA AATAAGAAAT TGAGATCTAG TCAGGCCTTA 
    AACACAGATA GTTTGAAAAT ATCAACTCGC CTGAACTTAC TGGAACAAGA GTTGTCTGAA 
    AAGAATGTGC AGCTCCAGAC CAGTACAGCT GAGGAGAAAA CAAAGATTTC AGAACAAGTT 
    GAAGTCCTCC AGAAAGAAAA GGATCAGCTC CAGAAACGCA GACACAATGT GGATGAAAAA 
    CTTAAAAATG GTAGAGTGTT ATCACCTGAA GAAGAACATG TTCTTTTCCA ACTTGAAGAA 
    GGGATTGAAG CTTTGGAAGC TGCAATTGAA TACAGGAATG AAAGTATCCA GAATCGCCAG 
    AAGTCACTTA GAGCATCATT CCATAACCTC TCTCGTGGTG AAGCAAATGT CTTGGAAAAG 
    CTAGCTTGCC TGAGTCCTGT TGAGATTAGA ACTATTCTTT TCAGATATTT CAATAAGGTG 
    GTGAATTTGC GAGAAGCTGA ACGGAAACAA CAGTTATATA ATGAAGAAAT GAAAATGAAA 
    GTTCTGGAAC GGGATAATAT GGTTCGTGAA TTAGAATCTG CACTGGACCA TCTAAAATTG 
    CAGTGTGACC GGAGACTGAC CCTCCAGCAA AAGGAACACG AACAAAAGAT GCAGTTGCTA 
    TTACATCATT TCAAAGAACA AGATGGAGAA GGCATTATGG AAACTTTCAA AACATATGAA 
    GATAAAATCC AGCAGTTGGA AAAAGATCTT TATTTCTATA AGAAAACCAG CCGGGATCAT 
    AAGAAGAAAC TTAAGGAACT GGTAGGGGAA GCAATTCGGC GGCAACTAGC ACCATCAGAG 
    TATCAAGAGG CTGGAGATGG AGTCCTGAAG CCAGAAGGAG GAGGCATGCT TTCAGAAGAA 
    TTAAAATGGG CATCCAGACC TGAAAGTATG AAATTAAGTG GAAGAGAAAG AGAAATGGAC 
    AGTTCAGCAA GCAGCTTAAG AACACAGCCA AATCCTCAAA AGCTCTGGGA AGATATCCCA 
    GAATTACCTC CAATTCATAG TTCTTTAGCA CCCCCCAGTG GGCATATGTT AGGTAATGAG 
    AATAAAACAG AAACAGATGA TAATCAGTTT ACAAAATCTC ACAGTCGACT GTCATCCCAA 
    ATTCAGGTTG TGGGAAATGT GGGACGACTT CATGGTGTCA CACCTGTAAA ACTGTGTCGA 
    AAAGAATTAC GTCAAATTTC CGCCTTGGAA CTATCATTGC GACGTTCCAG TCTTGGAGTT 
    GGCATTGGAT CAATGGCTGC TGATTCCATC GAAGTATCTA GGAAACCAAG GGACTTAAAA 
    ACTTAG

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

    KIF27 ( NM_001271927.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001258856.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant 2, mRNA.
    Price & Availability↑
    CloneID OHu04010
    Clone ID Related Accession (Same CDS sequence) NM_001271927.2 , NM_001271927.1 , XM_017014907.1
    Accession Version NM_001271927.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4008bp)
    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 2018-06-30
    Organism Homo sapiens(human)
    Product kinesin-like protein KIF27 isoform B
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL354733.15, DC376766.1 and AY237537.1. On Aug 4, 2017 this sequence version replaced NM_001271927.1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. ##Evidence-Data-START## Transcript exon combination :: AY237537.1 [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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGAAAT ACAATTAAAA 
    ACAGGACAGG AAGAAGGTCT AAAACCGAAA GCTGAGGACC TTGATGCATG TAACTTGAAA 
    AGGAGAAAAG GTTCGTTTGG AAGTATAGAC CATCTCCAGA AATTGGATGA GCAAAAGAAA 
    TGGTTAGATG AAGAAGTAGA GAAAGTTCTG AACCAACGCC AAGAATTAGA GGAGCTGGAA 
    GCAGACTTAA AGAAACGGGA GGCCATAGTT TCTAAGAAGG AGGCTCTGTT ACAGGAGAAG 
    AGTCACCTGG AAAATAAGAA ATTGAGATCT AGTCAGGCCT TAAACACAGA TAGTTTGAAA 
    ATATCAACTC GCCTGAACTT ACTGGAACAA GAGTTGTCTG AAAAGAATGT GCAGCTCCAG 
    ACCAGTACAG CTGAGGAGAA AACAAAGATT TCAGAACAAG TTGAAGTCCT CCAGAAAGAA 
    AAGGATCAGC TCCAGAAACG CAGACACAAT GTGGATGAAA AACTTAAAAA TGGTAGAGTG 
    TTATCACCTG AAGAAGAACA TGTTCTTTTC CAACTTGAAG AAGGGATTGA AGCTTTGGAA 
    GCTGCAATTG AATACAGGAA TGAAAGTATC CAGAATCGCC AGAAGTCACT TAGAGCATCA 
    TTCCATAACC TCTCTCGTGG TGAAGCAAAT GTCTTGGAAA AGCTAGCTTG CCTGAGTCCT 
    GTTGAGATTA GAACTATTCT TTTCAGATAT TTCAATAAGG TGGTGAATTT GCGAGAAGCT 
    GAACGGAAAC AACAGTTATA TAATGAAGAA ATGAAAATGA AAGTTCTGGA ACGGGATAAT 
    ATGGTTCGTG AATTAGAATC TGCACTGGAC CATCTAAAAT TGCAGTGTGA CCGGAGACTG 
    ACCCTCCAGC AAAAGGAACA CGAACAAAAG ATGCAGTTGC TATTACATCA TTTCAAAGAA 
    CAAGATGGAG AAGGCATTAT GGAAACTTTC AAAACATATG AAGATAAAAT CCAGCAGTTG 
    GAAAAAGATC TTTATTTCTA TAAGAAAACC AGCCGGGATC ATAAGAAGAA ACTTAAGGAA 
    CTGGTAGGGG AAGCAATTCG GCGGCAACTA GCACCATCAG AGTATCAAGA GGCTGGAGAT 
    GGAGTCCTGA AGCCAGAAGG AGGAGGCATG CTTTCAGAAG AATTAAAATG GGCATCCAGA 
    CCTGAAAGTA TGAAATTAAG TGGAAGAGAA AGAGAAATGG ACAGTTCAGC AAGCAGCTTA 
    AGAACACAGC CAAATCCTCA AAAGCTCTGG GAAGATATCC CAGAATTACC TCCAATTCAT 
    AGTTCTTTAG CACCCCCCAG TGGGCATATG TTAGGTAATG AGAATAAAAC AGAAACAGAT 
    GATAATCAGT TTACAAAATC TCACAGTCGA CTGTCATCCC AAATTCAGGT TGTGGGAAAT 
    GTGGGACGAC TTCATGGTGT CACACCTGTA AAACTGTGTC GAAAAGAATT ACGTCAAATT 
    TCCGCCTTGG AACTATCATT GCGACGTTCC AGTCTTGGAG TTGGCATTGG ATCAATGGCT 
    GCTGATTCCA TCGAAGTATC TAGGAAACCA AGGGACTTAA AAACTTAG

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

    RefSeq NP_001258856.1
    CDS262..4269
    Translation

    Target ORF information:

    RefSeq Version NM_001271927.2
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001271927.2

    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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGAAAT ACAATTAAAA 
    ACAGGACAGG AAGAAGGTCT AAAACCGAAA GCTGAGGACC TTGATGCATG TAACTTGAAA 
    AGGAGAAAAG GTTCGTTTGG AAGTATAGAC CATCTCCAGA AATTGGATGA GCAAAAGAAA 
    TGGTTAGATG AAGAAGTAGA GAAAGTTCTG AACCAACGCC AAGAATTAGA GGAGCTGGAA 
    GCAGACTTAA AGAAACGGGA GGCCATAGTT TCTAAGAAGG AGGCTCTGTT ACAGGAGAAG 
    AGTCACCTGG AAAATAAGAA ATTGAGATCT AGTCAGGCCT TAAACACAGA TAGTTTGAAA 
    ATATCAACTC GCCTGAACTT ACTGGAACAA GAGTTGTCTG AAAAGAATGT GCAGCTCCAG 
    ACCAGTACAG CTGAGGAGAA AACAAAGATT TCAGAACAAG TTGAAGTCCT CCAGAAAGAA 
    AAGGATCAGC TCCAGAAACG CAGACACAAT GTGGATGAAA AACTTAAAAA TGGTAGAGTG 
    TTATCACCTG AAGAAGAACA TGTTCTTTTC CAACTTGAAG AAGGGATTGA AGCTTTGGAA 
    GCTGCAATTG AATACAGGAA TGAAAGTATC CAGAATCGCC AGAAGTCACT TAGAGCATCA 
    TTCCATAACC TCTCTCGTGG TGAAGCAAAT GTCTTGGAAA AGCTAGCTTG CCTGAGTCCT 
    GTTGAGATTA GAACTATTCT TTTCAGATAT TTCAATAAGG TGGTGAATTT GCGAGAAGCT 
    GAACGGAAAC AACAGTTATA TAATGAAGAA ATGAAAATGA AAGTTCTGGA ACGGGATAAT 
    ATGGTTCGTG AATTAGAATC TGCACTGGAC CATCTAAAAT TGCAGTGTGA CCGGAGACTG 
    ACCCTCCAGC AAAAGGAACA CGAACAAAAG ATGCAGTTGC TATTACATCA TTTCAAAGAA 
    CAAGATGGAG AAGGCATTAT GGAAACTTTC AAAACATATG AAGATAAAAT CCAGCAGTTG 
    GAAAAAGATC TTTATTTCTA TAAGAAAACC AGCCGGGATC ATAAGAAGAA ACTTAAGGAA 
    CTGGTAGGGG AAGCAATTCG GCGGCAACTA GCACCATCAG AGTATCAAGA GGCTGGAGAT 
    GGAGTCCTGA AGCCAGAAGG AGGAGGCATG CTTTCAGAAG AATTAAAATG GGCATCCAGA 
    CCTGAAAGTA TGAAATTAAG TGGAAGAGAA AGAGAAATGG ACAGTTCAGC AAGCAGCTTA 
    AGAACACAGC CAAATCCTCA AAAGCTCTGG GAAGATATCC CAGAATTACC TCCAATTCAT 
    AGTTCTTTAG CACCCCCCAG TGGGCATATG TTAGGTAATG AGAATAAAAC AGAAACAGAT 
    GATAATCAGT TTACAAAATC TCACAGTCGA CTGTCATCCC AAATTCAGGT TGTGGGAAAT 
    GTGGGACGAC TTCATGGTGT CACACCTGTA AAACTGTGTC GAAAAGAATT ACGTCAAATT 
    TCCGCCTTGG AACTATCATT GCGACGTTCC AGTCTTGGAG TTGGCATTGG ATCAATGGCT 
    GCTGATTCCA TCGAAGTATC TAGGAAACCA AGGGACTTAA AAACTTAG

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

    KIF27 ( NM_001271927.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001258856.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant 2, mRNA.
    Price & Availability↑
    CloneID OHu04010
    Clone ID Related Accession (Same CDS sequence) NM_001271927.2 , NM_001271927.1 , XM_017014907.1
    Accession Version NM_001271927.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4008bp)
    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 2015-12-24
    Organism Homo sapiens(Human)
    Product kinesin-like protein KIF27 isoform B
    Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DC376766.1 and AY237537.1. Transcript Variant: This variant (2) lacks an alternate in-frame exon in the central coding region, compared to variant 1. The encoded isoform (B) is shorter than isoform A. ##Evidence-Data-START## Transcript exon combination :: AY237537.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGAAAT ACAATTAAAA 
    ACAGGACAGG AAGAAGGTCT AAAACCGAAA GCTGAGGACC TTGATGCATG TAACTTGAAA 
    AGGAGAAAAG GTTCGTTTGG AAGTATAGAC CATCTCCAGA AATTGGATGA GCAAAAGAAA 
    TGGTTAGATG AAGAAGTAGA GAAAGTTCTG AACCAACGCC AAGAATTAGA GGAGCTGGAA 
    GCAGACTTAA AGAAACGGGA GGCCATAGTT TCTAAGAAGG AGGCTCTGTT ACAGGAGAAG 
    AGTCACCTGG AAAATAAGAA ATTGAGATCT AGTCAGGCCT TAAACACAGA TAGTTTGAAA 
    ATATCAACTC GCCTGAACTT ACTGGAACAA GAGTTGTCTG AAAAGAATGT GCAGCTCCAG 
    ACCAGTACAG CTGAGGAGAA AACAAAGATT TCAGAACAAG TTGAAGTCCT CCAGAAAGAA 
    AAGGATCAGC TCCAGAAACG CAGACACAAT GTGGATGAAA AACTTAAAAA TGGTAGAGTG 
    TTATCACCTG AAGAAGAACA TGTTCTTTTC CAACTTGAAG AAGGGATTGA AGCTTTGGAA 
    GCTGCAATTG AATACAGGAA TGAAAGTATC CAGAATCGCC AGAAGTCACT TAGAGCATCA 
    TTCCATAACC TCTCTCGTGG TGAAGCAAAT GTCTTGGAAA AGCTAGCTTG CCTGAGTCCT 
    GTTGAGATTA GAACTATTCT TTTCAGATAT TTCAATAAGG TGGTGAATTT GCGAGAAGCT 
    GAACGGAAAC AACAGTTATA TAATGAAGAA ATGAAAATGA AAGTTCTGGA ACGGGATAAT 
    ATGGTTCGTG AATTAGAATC TGCACTGGAC CATCTAAAAT TGCAGTGTGA CCGGAGACTG 
    ACCCTCCAGC AAAAGGAACA CGAACAAAAG ATGCAGTTGC TATTACATCA TTTCAAAGAA 
    CAAGATGGAG AAGGCATTAT GGAAACTTTC AAAACATATG AAGATAAAAT CCAGCAGTTG 
    GAAAAAGATC TTTATTTCTA TAAGAAAACC AGCCGGGATC ATAAGAAGAA ACTTAAGGAA 
    CTGGTAGGGG AAGCAATTCG GCGGCAACTA GCACCATCAG AGTATCAAGA GGCTGGAGAT 
    GGAGTCCTGA AGCCAGAAGG AGGAGGCATG CTTTCAGAAG AATTAAAATG GGCATCCAGA 
    CCTGAAAGTA TGAAATTAAG TGGAAGAGAA AGAGAAATGG ACAGTTCAGC AAGCAGCTTA 
    AGAACACAGC CAAATCCTCA AAAGCTCTGG GAAGATATCC CAGAATTACC TCCAATTCAT 
    AGTTCTTTAG CACCCCCCAG TGGGCATATG TTAGGTAATG AGAATAAAAC AGAAACAGAT 
    GATAATCAGT TTACAAAATC TCACAGTCGA CTGTCATCCC AAATTCAGGT TGTGGGAAAT 
    GTGGGACGAC TTCATGGTGT CACACCTGTA AAACTGTGTC GAAAAGAATT ACGTCAAATT 
    TCCGCCTTGG AACTATCATT GCGACGTTCC AGTCTTGGAG TTGGCATTGG ATCAATGGCT 
    GCTGATTCCA TCGAAGTATC TAGGAAACCA AGGGACTTAA AAACTTAG

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

    RefSeq NP_001258856.1
    CDS183..4190
    Translation

    Target ORF information:

    RefSeq Version NM_001271927.1
    Organism Homo sapiens(Human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001271927.1

    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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGAAAT ACAATTAAAA 
    ACAGGACAGG AAGAAGGTCT AAAACCGAAA GCTGAGGACC TTGATGCATG TAACTTGAAA 
    AGGAGAAAAG GTTCGTTTGG AAGTATAGAC CATCTCCAGA AATTGGATGA GCAAAAGAAA 
    TGGTTAGATG AAGAAGTAGA GAAAGTTCTG AACCAACGCC AAGAATTAGA GGAGCTGGAA 
    GCAGACTTAA AGAAACGGGA GGCCATAGTT TCTAAGAAGG AGGCTCTGTT ACAGGAGAAG 
    AGTCACCTGG AAAATAAGAA ATTGAGATCT AGTCAGGCCT TAAACACAGA TAGTTTGAAA 
    ATATCAACTC GCCTGAACTT ACTGGAACAA GAGTTGTCTG AAAAGAATGT GCAGCTCCAG 
    ACCAGTACAG CTGAGGAGAA AACAAAGATT TCAGAACAAG TTGAAGTCCT CCAGAAAGAA 
    AAGGATCAGC TCCAGAAACG CAGACACAAT GTGGATGAAA AACTTAAAAA TGGTAGAGTG 
    TTATCACCTG AAGAAGAACA TGTTCTTTTC CAACTTGAAG AAGGGATTGA AGCTTTGGAA 
    GCTGCAATTG AATACAGGAA TGAAAGTATC CAGAATCGCC AGAAGTCACT TAGAGCATCA 
    TTCCATAACC TCTCTCGTGG TGAAGCAAAT GTCTTGGAAA AGCTAGCTTG CCTGAGTCCT 
    GTTGAGATTA GAACTATTCT TTTCAGATAT TTCAATAAGG TGGTGAATTT GCGAGAAGCT 
    GAACGGAAAC AACAGTTATA TAATGAAGAA ATGAAAATGA AAGTTCTGGA ACGGGATAAT 
    ATGGTTCGTG AATTAGAATC TGCACTGGAC CATCTAAAAT TGCAGTGTGA CCGGAGACTG 
    ACCCTCCAGC AAAAGGAACA CGAACAAAAG ATGCAGTTGC TATTACATCA TTTCAAAGAA 
    CAAGATGGAG AAGGCATTAT GGAAACTTTC AAAACATATG AAGATAAAAT CCAGCAGTTG 
    GAAAAAGATC TTTATTTCTA TAAGAAAACC AGCCGGGATC ATAAGAAGAA ACTTAAGGAA 
    CTGGTAGGGG AAGCAATTCG GCGGCAACTA GCACCATCAG AGTATCAAGA GGCTGGAGAT 
    GGAGTCCTGA AGCCAGAAGG AGGAGGCATG CTTTCAGAAG AATTAAAATG GGCATCCAGA 
    CCTGAAAGTA TGAAATTAAG TGGAAGAGAA AGAGAAATGG ACAGTTCAGC AAGCAGCTTA 
    AGAACACAGC CAAATCCTCA AAAGCTCTGG GAAGATATCC CAGAATTACC TCCAATTCAT 
    AGTTCTTTAG CACCCCCCAG TGGGCATATG TTAGGTAATG AGAATAAAAC AGAAACAGAT 
    GATAATCAGT TTACAAAATC TCACAGTCGA CTGTCATCCC AAATTCAGGT TGTGGGAAAT 
    GTGGGACGAC TTCATGGTGT CACACCTGTA AAACTGTGTC GAAAAGAATT ACGTCAAATT 
    TCCGCCTTGG AACTATCATT GCGACGTTCC AGTCTTGGAG TTGGCATTGG ATCAATGGCT 
    GCTGATTCCA TCGAAGTATC TAGGAAACCA AGGGACTTAA AAACTTAG

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

    KIF27 ( XM_017014904.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016870393.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OHu02862
    Clone ID Related Accession (Same CDS sequence) NM_017576.4 , XM_017014904.1 , NM_017576.2 , NM_017576.3 , XM_017014903.1
    Accession Version XM_017014904.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4206bp)
    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 KIF27 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) 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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGAAATAC AATTAAAAAC AGGACAGGAA GAAGGTCTAA AACCGAAAGC TGAGGACCTT 
    GATGCATGTA ACTTGAAAAG GAGAAAAGGT TCGTTTGGAA GTATAGACCA TCTCCAGAAA 
    TTGGATGAGC AAAAGAAATG GTTAGATGAA GAAGTAGAGA AAGTTCTGAA CCAACGCCAA 
    GAATTAGAGG AGCTGGAAGC AGACTTAAAG AAACGGGAGG CCATAGTTTC TAAGAAGGAG 
    GCTCTGTTAC AGGAGAAGAG TCACCTGGAA AATAAGAAAT TGAGATCTAG TCAGGCCTTA 
    AACACAGATA GTTTGAAAAT ATCAACTCGC CTGAACTTAC TGGAACAAGA GTTGTCTGAA 
    AAGAATGTGC AGCTCCAGAC CAGTACAGCT GAGGAGAAAA CAAAGATTTC AGAACAAGTT 
    GAAGTCCTCC AGAAAGAAAA GGATCAGCTC CAGAAACGCA GACACAATGT GGATGAAAAA 
    CTTAAAAATG GTAGAGTGTT ATCACCTGAA GAAGAACATG TTCTTTTCCA ACTTGAAGAA 
    GGGATTGAAG CTTTGGAAGC TGCAATTGAA TACAGGAATG AAAGTATCCA GAATCGCCAG 
    AAGTCACTTA GAGCATCATT CCATAACCTC TCTCGTGGTG AAGCAAATGT CTTGGAAAAG 
    CTAGCTTGCC TGAGTCCTGT TGAGATTAGA ACTATTCTTT TCAGATATTT CAATAAGGTG 
    GTGAATTTGC GAGAAGCTGA ACGGAAACAA CAGTTATATA ATGAAGAAAT GAAAATGAAA 
    GTTCTGGAAC GGGATAATAT GGTTCGTGAA TTAGAATCTG CACTGGACCA TCTAAAATTG 
    CAGTGTGACC GGAGACTGAC CCTCCAGCAA AAGGAACACG AACAAAAGAT GCAGTTGCTA 
    TTACATCATT TCAAAGAACA AGATGGAGAA GGCATTATGG AAACTTTCAA AACATATGAA 
    GATAAAATCC AGCAGTTGGA AAAAGATCTT TATTTCTATA AGAAAACCAG CCGGGATCAT 
    AAGAAGAAAC TTAAGGAACT GGTAGGGGAA GCAATTCGGC GGCAACTAGC ACCATCAGAG 
    TATCAAGAGG CTGGAGATGG AGTCCTGAAG CCAGAAGGAG GAGGCATGCT TTCAGAAGAA 
    TTAAAATGGG CATCCAGACC TGAAAGTATG AAATTAAGTG GAAGAGAAAG AGAAATGGAC 
    AGTTCAGCAA GCAGCTTAAG AACACAGCCA AATCCTCAAA AGCTCTGGGA AGATATCCCA 
    GAATTACCTC CAATTCATAG TTCTTTAGCA CCCCCCAGTG GGCATATGTT AGGTAATGAG 
    AATAAAACAG AAACAGATGA TAATCAGTTT ACAAAATCTC ACAGTCGACT GTCATCCCAA 
    ATTCAGGTTG TGGGAAATGT GGGACGACTT CATGGTGTCA CACCTGTAAA ACTGTGTCGA 
    AAAGAATTAC GTCAAATTTC CGCCTTGGAA CTATCATTGC GACGTTCCAG TCTTGGAGTT 
    GGCATTGGAT CAATGGCTGC TGATTCCATC GAAGTATCTA GGAAACCAAG GGACTTAAAA 
    ACTTAG

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

    RefSeq XP_016870393.1
    CDS300..4505
    Translation

    Target ORF information:

    RefSeq Version XM_017014904.1
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017014904.1

    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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGAAATAC AATTAAAAAC AGGACAGGAA GAAGGTCTAA AACCGAAAGC TGAGGACCTT 
    GATGCATGTA ACTTGAAAAG GAGAAAAGGT TCGTTTGGAA GTATAGACCA TCTCCAGAAA 
    TTGGATGAGC AAAAGAAATG GTTAGATGAA GAAGTAGAGA AAGTTCTGAA CCAACGCCAA 
    GAATTAGAGG AGCTGGAAGC AGACTTAAAG AAACGGGAGG CCATAGTTTC TAAGAAGGAG 
    GCTCTGTTAC AGGAGAAGAG TCACCTGGAA AATAAGAAAT TGAGATCTAG TCAGGCCTTA 
    AACACAGATA GTTTGAAAAT ATCAACTCGC CTGAACTTAC TGGAACAAGA GTTGTCTGAA 
    AAGAATGTGC AGCTCCAGAC CAGTACAGCT GAGGAGAAAA CAAAGATTTC AGAACAAGTT 
    GAAGTCCTCC AGAAAGAAAA GGATCAGCTC CAGAAACGCA GACACAATGT GGATGAAAAA 
    CTTAAAAATG GTAGAGTGTT ATCACCTGAA GAAGAACATG TTCTTTTCCA ACTTGAAGAA 
    GGGATTGAAG CTTTGGAAGC TGCAATTGAA TACAGGAATG AAAGTATCCA GAATCGCCAG 
    AAGTCACTTA GAGCATCATT CCATAACCTC TCTCGTGGTG AAGCAAATGT CTTGGAAAAG 
    CTAGCTTGCC TGAGTCCTGT TGAGATTAGA ACTATTCTTT TCAGATATTT CAATAAGGTG 
    GTGAATTTGC GAGAAGCTGA ACGGAAACAA CAGTTATATA ATGAAGAAAT GAAAATGAAA 
    GTTCTGGAAC GGGATAATAT GGTTCGTGAA TTAGAATCTG CACTGGACCA TCTAAAATTG 
    CAGTGTGACC GGAGACTGAC CCTCCAGCAA AAGGAACACG AACAAAAGAT GCAGTTGCTA 
    TTACATCATT TCAAAGAACA AGATGGAGAA GGCATTATGG AAACTTTCAA AACATATGAA 
    GATAAAATCC AGCAGTTGGA AAAAGATCTT TATTTCTATA AGAAAACCAG CCGGGATCAT 
    AAGAAGAAAC TTAAGGAACT GGTAGGGGAA GCAATTCGGC GGCAACTAGC ACCATCAGAG 
    TATCAAGAGG CTGGAGATGG AGTCCTGAAG CCAGAAGGAG GAGGCATGCT TTCAGAAGAA 
    TTAAAATGGG CATCCAGACC TGAAAGTATG AAATTAAGTG GAAGAGAAAG AGAAATGGAC 
    AGTTCAGCAA GCAGCTTAAG AACACAGCCA AATCCTCAAA AGCTCTGGGA AGATATCCCA 
    GAATTACCTC CAATTCATAG TTCTTTAGCA CCCCCCAGTG GGCATATGTT AGGTAATGAG 
    AATAAAACAG AAACAGATGA TAATCAGTTT ACAAAATCTC ACAGTCGACT GTCATCCCAA 
    ATTCAGGTTG TGGGAAATGT GGGACGACTT CATGGTGTCA CACCTGTAAA ACTGTGTCGA 
    AAAGAATTAC GTCAAATTTC CGCCTTGGAA CTATCATTGC GACGTTCCAG TCTTGGAGTT 
    GGCATTGGAT CAATGGCTGC TGATTCCATC GAAGTATCTA GGAAACCAAG GGACTTAAAA 
    ACTTAG

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

    KIF27 ( XM_017014903.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016870392.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OHu02862
    Clone ID Related Accession (Same CDS sequence) NM_017576.4 , XM_017014904.1 , NM_017576.2 , NM_017576.3 , XM_017014903.1
    Accession Version XM_017014903.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4206bp)
    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 KIF27 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) 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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGAAATAC AATTAAAAAC AGGACAGGAA GAAGGTCTAA AACCGAAAGC TGAGGACCTT 
    GATGCATGTA ACTTGAAAAG GAGAAAAGGT TCGTTTGGAA GTATAGACCA TCTCCAGAAA 
    TTGGATGAGC AAAAGAAATG GTTAGATGAA GAAGTAGAGA AAGTTCTGAA CCAACGCCAA 
    GAATTAGAGG AGCTGGAAGC AGACTTAAAG AAACGGGAGG CCATAGTTTC TAAGAAGGAG 
    GCTCTGTTAC AGGAGAAGAG TCACCTGGAA AATAAGAAAT TGAGATCTAG TCAGGCCTTA 
    AACACAGATA GTTTGAAAAT ATCAACTCGC CTGAACTTAC TGGAACAAGA GTTGTCTGAA 
    AAGAATGTGC AGCTCCAGAC CAGTACAGCT GAGGAGAAAA CAAAGATTTC AGAACAAGTT 
    GAAGTCCTCC AGAAAGAAAA GGATCAGCTC CAGAAACGCA GACACAATGT GGATGAAAAA 
    CTTAAAAATG GTAGAGTGTT ATCACCTGAA GAAGAACATG TTCTTTTCCA ACTTGAAGAA 
    GGGATTGAAG CTTTGGAAGC TGCAATTGAA TACAGGAATG AAAGTATCCA GAATCGCCAG 
    AAGTCACTTA GAGCATCATT CCATAACCTC TCTCGTGGTG AAGCAAATGT CTTGGAAAAG 
    CTAGCTTGCC TGAGTCCTGT TGAGATTAGA ACTATTCTTT TCAGATATTT CAATAAGGTG 
    GTGAATTTGC GAGAAGCTGA ACGGAAACAA CAGTTATATA ATGAAGAAAT GAAAATGAAA 
    GTTCTGGAAC GGGATAATAT GGTTCGTGAA TTAGAATCTG CACTGGACCA TCTAAAATTG 
    CAGTGTGACC GGAGACTGAC CCTCCAGCAA AAGGAACACG AACAAAAGAT GCAGTTGCTA 
    TTACATCATT TCAAAGAACA AGATGGAGAA GGCATTATGG AAACTTTCAA AACATATGAA 
    GATAAAATCC AGCAGTTGGA AAAAGATCTT TATTTCTATA AGAAAACCAG CCGGGATCAT 
    AAGAAGAAAC TTAAGGAACT GGTAGGGGAA GCAATTCGGC GGCAACTAGC ACCATCAGAG 
    TATCAAGAGG CTGGAGATGG AGTCCTGAAG CCAGAAGGAG GAGGCATGCT TTCAGAAGAA 
    TTAAAATGGG CATCCAGACC TGAAAGTATG AAATTAAGTG GAAGAGAAAG AGAAATGGAC 
    AGTTCAGCAA GCAGCTTAAG AACACAGCCA AATCCTCAAA AGCTCTGGGA AGATATCCCA 
    GAATTACCTC CAATTCATAG TTCTTTAGCA CCCCCCAGTG GGCATATGTT AGGTAATGAG 
    AATAAAACAG AAACAGATGA TAATCAGTTT ACAAAATCTC ACAGTCGACT GTCATCCCAA 
    ATTCAGGTTG TGGGAAATGT GGGACGACTT CATGGTGTCA CACCTGTAAA ACTGTGTCGA 
    AAAGAATTAC GTCAAATTTC CGCCTTGGAA CTATCATTGC GACGTTCCAG TCTTGGAGTT 
    GGCATTGGAT CAATGGCTGC TGATTCCATC GAAGTATCTA GGAAACCAAG GGACTTAAAA 
    ACTTAG

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

    RefSeq XP_016870392.1
    CDS403..4608
    Translation

    Target ORF information:

    RefSeq Version XM_017014903.1
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017014903.1

    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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGTCTT GCAGAAGAAG 
    CAACAAGATA GTAAGAAACT GGCATCACTG TCAATCCAAA ATGAGAAACG TGCTAATGAG 
    CTAGAGCAGA GTGTAGATCA CATGAAATAT CAAAAGATAC AGCTACAAAG AAAACTACGA 
    GAAGAAAATG AAAAAAGGAA GCAACTGGAT GCAGTAATTA AGCGGGACCA GCAAAAAATC 
    AAAGAAATAC AATTAAAAAC AGGACAGGAA GAAGGTCTAA AACCGAAAGC TGAGGACCTT 
    GATGCATGTA ACTTGAAAAG GAGAAAAGGT TCGTTTGGAA GTATAGACCA TCTCCAGAAA 
    TTGGATGAGC AAAAGAAATG GTTAGATGAA GAAGTAGAGA AAGTTCTGAA CCAACGCCAA 
    GAATTAGAGG AGCTGGAAGC AGACTTAAAG AAACGGGAGG CCATAGTTTC TAAGAAGGAG 
    GCTCTGTTAC AGGAGAAGAG TCACCTGGAA AATAAGAAAT TGAGATCTAG TCAGGCCTTA 
    AACACAGATA GTTTGAAAAT ATCAACTCGC CTGAACTTAC TGGAACAAGA GTTGTCTGAA 
    AAGAATGTGC AGCTCCAGAC CAGTACAGCT GAGGAGAAAA CAAAGATTTC AGAACAAGTT 
    GAAGTCCTCC AGAAAGAAAA GGATCAGCTC CAGAAACGCA GACACAATGT GGATGAAAAA 
    CTTAAAAATG GTAGAGTGTT ATCACCTGAA GAAGAACATG TTCTTTTCCA ACTTGAAGAA 
    GGGATTGAAG CTTTGGAAGC TGCAATTGAA TACAGGAATG AAAGTATCCA GAATCGCCAG 
    AAGTCACTTA GAGCATCATT CCATAACCTC TCTCGTGGTG AAGCAAATGT CTTGGAAAAG 
    CTAGCTTGCC TGAGTCCTGT TGAGATTAGA ACTATTCTTT TCAGATATTT CAATAAGGTG 
    GTGAATTTGC GAGAAGCTGA ACGGAAACAA CAGTTATATA ATGAAGAAAT GAAAATGAAA 
    GTTCTGGAAC GGGATAATAT GGTTCGTGAA TTAGAATCTG CACTGGACCA TCTAAAATTG 
    CAGTGTGACC GGAGACTGAC CCTCCAGCAA AAGGAACACG AACAAAAGAT GCAGTTGCTA 
    TTACATCATT TCAAAGAACA AGATGGAGAA GGCATTATGG AAACTTTCAA AACATATGAA 
    GATAAAATCC AGCAGTTGGA AAAAGATCTT TATTTCTATA AGAAAACCAG CCGGGATCAT 
    AAGAAGAAAC TTAAGGAACT GGTAGGGGAA GCAATTCGGC GGCAACTAGC ACCATCAGAG 
    TATCAAGAGG CTGGAGATGG AGTCCTGAAG CCAGAAGGAG GAGGCATGCT TTCAGAAGAA 
    TTAAAATGGG CATCCAGACC TGAAAGTATG AAATTAAGTG GAAGAGAAAG AGAAATGGAC 
    AGTTCAGCAA GCAGCTTAAG AACACAGCCA AATCCTCAAA AGCTCTGGGA AGATATCCCA 
    GAATTACCTC CAATTCATAG TTCTTTAGCA CCCCCCAGTG GGCATATGTT AGGTAATGAG 
    AATAAAACAG AAACAGATGA TAATCAGTTT ACAAAATCTC ACAGTCGACT GTCATCCCAA 
    ATTCAGGTTG TGGGAAATGT GGGACGACTT CATGGTGTCA CACCTGTAAA ACTGTGTCGA 
    AAAGAATTAC GTCAAATTTC CGCCTTGGAA CTATCATTGC GACGTTCCAG TCTTGGAGTT 
    GGCATTGGAT CAATGGCTGC TGATTCCATC GAAGTATCTA GGAAACCAAG GGACTTAAAA 
    ACTTAG

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

    KIF27 ( XM_017014907.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016870396.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant X11, mRNA.
    Price & Availability↑
    CloneID OHu04010
    Clone ID Related Accession (Same CDS sequence) NM_001271927.2 , NM_001271927.1 , XM_017014907.1
    Accession Version XM_017014907.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4008bp)
    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 KIF27 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: 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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGAAAT ACAATTAAAA 
    ACAGGACAGG AAGAAGGTCT AAAACCGAAA GCTGAGGACC TTGATGCATG TAACTTGAAA 
    AGGAGAAAAG GTTCGTTTGG AAGTATAGAC CATCTCCAGA AATTGGATGA GCAAAAGAAA 
    TGGTTAGATG AAGAAGTAGA GAAAGTTCTG AACCAACGCC AAGAATTAGA GGAGCTGGAA 
    GCAGACTTAA AGAAACGGGA GGCCATAGTT TCTAAGAAGG AGGCTCTGTT ACAGGAGAAG 
    AGTCACCTGG AAAATAAGAA ATTGAGATCT AGTCAGGCCT TAAACACAGA TAGTTTGAAA 
    ATATCAACTC GCCTGAACTT ACTGGAACAA GAGTTGTCTG AAAAGAATGT GCAGCTCCAG 
    ACCAGTACAG CTGAGGAGAA AACAAAGATT TCAGAACAAG TTGAAGTCCT CCAGAAAGAA 
    AAGGATCAGC TCCAGAAACG CAGACACAAT GTGGATGAAA AACTTAAAAA TGGTAGAGTG 
    TTATCACCTG AAGAAGAACA TGTTCTTTTC CAACTTGAAG AAGGGATTGA AGCTTTGGAA 
    GCTGCAATTG AATACAGGAA TGAAAGTATC CAGAATCGCC AGAAGTCACT TAGAGCATCA 
    TTCCATAACC TCTCTCGTGG TGAAGCAAAT GTCTTGGAAA AGCTAGCTTG CCTGAGTCCT 
    GTTGAGATTA GAACTATTCT TTTCAGATAT TTCAATAAGG TGGTGAATTT GCGAGAAGCT 
    GAACGGAAAC AACAGTTATA TAATGAAGAA ATGAAAATGA AAGTTCTGGA ACGGGATAAT 
    ATGGTTCGTG AATTAGAATC TGCACTGGAC CATCTAAAAT TGCAGTGTGA CCGGAGACTG 
    ACCCTCCAGC AAAAGGAACA CGAACAAAAG ATGCAGTTGC TATTACATCA TTTCAAAGAA 
    CAAGATGGAG AAGGCATTAT GGAAACTTTC AAAACATATG AAGATAAAAT CCAGCAGTTG 
    GAAAAAGATC TTTATTTCTA TAAGAAAACC AGCCGGGATC ATAAGAAGAA ACTTAAGGAA 
    CTGGTAGGGG AAGCAATTCG GCGGCAACTA GCACCATCAG AGTATCAAGA GGCTGGAGAT 
    GGAGTCCTGA AGCCAGAAGG AGGAGGCATG CTTTCAGAAG AATTAAAATG GGCATCCAGA 
    CCTGAAAGTA TGAAATTAAG TGGAAGAGAA AGAGAAATGG ACAGTTCAGC AAGCAGCTTA 
    AGAACACAGC CAAATCCTCA AAAGCTCTGG GAAGATATCC CAGAATTACC TCCAATTCAT 
    AGTTCTTTAG CACCCCCCAG TGGGCATATG TTAGGTAATG AGAATAAAAC AGAAACAGAT 
    GATAATCAGT TTACAAAATC TCACAGTCGA CTGTCATCCC AAATTCAGGT TGTGGGAAAT 
    GTGGGACGAC TTCATGGTGT CACACCTGTA AAACTGTGTC GAAAAGAATT ACGTCAAATT 
    TCCGCCTTGG AACTATCATT GCGACGTTCC AGTCTTGGAG TTGGCATTGG ATCAATGGCT 
    GCTGATTCCA TCGAAGTATC TAGGAAACCA AGGGACTTAA AAACTTAG

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

    RefSeq XP_016870396.1
    CDS403..4410
    Translation

    Target ORF information:

    RefSeq Version XM_017014907.1
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017014907.1

    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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGAATGAAAA AATAATAGAA 
    CAACAACTTC TTGTGGATCA ACTGAGTGAA GAACTAACAA AACTTAACCT GTCAGTGACT 
    TCTTCAGCTA AAGAAAATTG TGGAGATGGG CCAGATGCCA GGATCCCTGA AAGGAGACCA 
    TATACTGTAC CATTTGATAC TCATTTGGGG CATTATATTT ATATCCCATC AAGACAAGAT 
    TCCAGGAAGG TCCACACAAG TCCGCCTATG TACTCTCTGG ATCGAATATT TGCTGGATTT 
    CGAACACGAA GTCAGATGCT GTTGGGTCAC ATAGAAGAAC AAGATAAGGT CCTCCACTGC 
    CAATTTTCTG ATAACAGTGA TGATGAAGAA TCAGAAGGCC AAGAGAAATC TGGAACTAGA 
    TGTAGAAGTC GTTCATGGAT TCAGAAGCCA GACTCTGTTT GTTCCCTTGT TGAATTGAGT 
    GATACTCAGG ATGAAACACA AAAGTCAGAT TTGGAGAATG AAGATTTAAA GATTGATTGT 
    CTCCAGGAGA GTCAAGAATT GAATTTGCAA AAATTAAAGA ATTCAGAACG CATACTTACT 
    GAAGCTAAAC AAAAAATGAG AGAACTTACA ATTAACATCA AGATGAAGGA AGATCTGATT 
    AAAGAATTAA TAAAAACAGG TAATGATGCC AAGTCTGTAA GCAAGCAGTA TTCTTTGAAA 
    GTAACAAAGC TAGAGCATGA TGCAGAACAG GCAAAAGTCG AACTGATTGA AACACAAAAG 
    CAGCTACAGG AGCTGGAAAA CAAAGATCTT TCTGATGTTG CAATGAAGGT AAAATTACAG 
    AAAGAGTTTC GTAAAAAGAT GGATGCTGCA AAGCTGAGAG TTCAGGAAAT ACAATTAAAA 
    ACAGGACAGG AAGAAGGTCT AAAACCGAAA GCTGAGGACC TTGATGCATG TAACTTGAAA 
    AGGAGAAAAG GTTCGTTTGG AAGTATAGAC CATCTCCAGA AATTGGATGA GCAAAAGAAA 
    TGGTTAGATG AAGAAGTAGA GAAAGTTCTG AACCAACGCC AAGAATTAGA GGAGCTGGAA 
    GCAGACTTAA AGAAACGGGA GGCCATAGTT TCTAAGAAGG AGGCTCTGTT ACAGGAGAAG 
    AGTCACCTGG AAAATAAGAA ATTGAGATCT AGTCAGGCCT TAAACACAGA TAGTTTGAAA 
    ATATCAACTC GCCTGAACTT ACTGGAACAA GAGTTGTCTG AAAAGAATGT GCAGCTCCAG 
    ACCAGTACAG CTGAGGAGAA AACAAAGATT TCAGAACAAG TTGAAGTCCT CCAGAAAGAA 
    AAGGATCAGC TCCAGAAACG CAGACACAAT GTGGATGAAA AACTTAAAAA TGGTAGAGTG 
    TTATCACCTG AAGAAGAACA TGTTCTTTTC CAACTTGAAG AAGGGATTGA AGCTTTGGAA 
    GCTGCAATTG AATACAGGAA TGAAAGTATC CAGAATCGCC AGAAGTCACT TAGAGCATCA 
    TTCCATAACC TCTCTCGTGG TGAAGCAAAT GTCTTGGAAA AGCTAGCTTG CCTGAGTCCT 
    GTTGAGATTA GAACTATTCT TTTCAGATAT TTCAATAAGG TGGTGAATTT GCGAGAAGCT 
    GAACGGAAAC AACAGTTATA TAATGAAGAA ATGAAAATGA AAGTTCTGGA ACGGGATAAT 
    ATGGTTCGTG AATTAGAATC TGCACTGGAC CATCTAAAAT TGCAGTGTGA CCGGAGACTG 
    ACCCTCCAGC AAAAGGAACA CGAACAAAAG ATGCAGTTGC TATTACATCA TTTCAAAGAA 
    CAAGATGGAG AAGGCATTAT GGAAACTTTC AAAACATATG AAGATAAAAT CCAGCAGTTG 
    GAAAAAGATC TTTATTTCTA TAAGAAAACC AGCCGGGATC ATAAGAAGAA ACTTAAGGAA 
    CTGGTAGGGG AAGCAATTCG GCGGCAACTA GCACCATCAG AGTATCAAGA GGCTGGAGAT 
    GGAGTCCTGA AGCCAGAAGG AGGAGGCATG CTTTCAGAAG AATTAAAATG GGCATCCAGA 
    CCTGAAAGTA TGAAATTAAG TGGAAGAGAA AGAGAAATGG ACAGTTCAGC AAGCAGCTTA 
    AGAACACAGC CAAATCCTCA AAAGCTCTGG GAAGATATCC CAGAATTACC TCCAATTCAT 
    AGTTCTTTAG CACCCCCCAG TGGGCATATG TTAGGTAATG AGAATAAAAC AGAAACAGAT 
    GATAATCAGT TTACAAAATC TCACAGTCGA CTGTCATCCC AAATTCAGGT TGTGGGAAAT 
    GTGGGACGAC TTCATGGTGT CACACCTGTA AAACTGTGTC GAAAAGAATT ACGTCAAATT 
    TCCGCCTTGG AACTATCATT GCGACGTTCC AGTCTTGGAG TTGGCATTGG ATCAATGGCT 
    GCTGATTCCA TCGAAGTATC TAGGAAACCA AGGGACTTAA AAACTTAG

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

    KIF27 ( XM_017014900.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016870389.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OHu69489
    Clone ID Related Accession (Same CDS sequence) XM_017014900.1 , XM_017014901.2 , XM_017014901.1 , XM_011518849.2 , XM_011518848.2 , XM_011518848.3 , XM_017014902.1 , XM_011518850.2
    Accession Version XM_017014900.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4284bp)
    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 KIF27 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) 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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGCCCCTGGC AAAAACCACT 
    TTACTTTCTA CTTCTATGGA TTTGCCTATT CTAAACATTT CATACAACTG GAATCATACA 
    AATGAAAAAA TAATAGAACA ACAACTTCTT GTGGATCAAC TGAGTGAAGA ACTAACAAAA 
    CTTAACCTGT CAGTGACTTC TTCAGCTAAA GAAAATTGTG GAGATGGGCC AGATGCCAGG 
    ATCCCTGAAA GGAGACCATA TACTGTACCA TTTGATACTC ATTTGGGGCA TTATATTTAT 
    ATCCCATCAA GACAAGATTC CAGGAAGGTC CACACAAGTC CGCCTATGTA CTCTCTGGAT 
    CGAATATTTG CTGGATTTCG AACACGAAGT CAGATGCTGT TGGGTCACAT AGAAGAACAA 
    GATAAGGTCC TCCACTGCCA ATTTTCTGAT AACAGTGATG ATGAAGAATC AGAAGGCCAA 
    GAGAAATCTG GAACTAGATG TAGAAGTCGT TCATGGATTC AGAAGCCAGA CTCTGTTTGT 
    TCCCTTGTTG AATTGAGTGA TACTCAGGAT GAAACACAAA AGTCAGATTT GGAGAATGAA 
    GATTTAAAGA TTGATTGTCT CCAGGAGAGT CAAGAATTGA ATTTGCAAAA ATTAAAGAAT 
    TCAGAACGCA TACTTACTGA AGCTAAACAA AAAATGAGAG AACTTACAAT TAACATCAAG 
    ATGAAGGAAG ATCTGATTAA AGAATTAATA AAAACAGGTA ATGATGCCAA GTCTGTAAGC 
    AAGCAGTATT CTTTGAAAGT AACAAAGCTA GAGCATGATG CAGAACAGGC AAAAGTCGAA 
    CTGATTGAAA CACAAAAGCA GCTACAGGAG CTGGAAAACA AAGATCTTTC TGATGTTGCA 
    ATGAAGGTAA AATTACAGAA AGAGTTTCGT AAAAAGATGG ATGCTGCAAA GCTGAGAGTT 
    CAGGTCTTGC AGAAGAAGCA ACAAGATAGT AAGAAACTGG CATCACTGTC AATCCAAAAT 
    GAGAAACGTG CTAATGAGCT AGAGCAGAGT GTAGATCACA TGAAATATCA AAAGATACAG 
    CTACAAAGAA AACTACGAGA AGAAAATGAA AAAAGGAAGC AACTGGATGC AGTAATTAAG 
    CGGGACCAGC AAAAAATCAA AGAAATACAA TTAAAAACAG GACAGGAAGA AGGTCTAAAA 
    CCGAAAGCTG AGGACCTTGA TGCATGTAAC TTGAAAAGGA GAAAAGGTTC GTTTGGAAGT 
    ATAGACCATC TCCAGAAATT GGATGAGCAA AAGAAATGGT TAGATGAAGA AGTAGAGAAA 
    GTTCTGAACC AACGCCAAGA ATTAGAGGAG CTGGAAGCAG ACTTAAAGAA ACGGGAGGCC 
    ATAGTTTCTA AGAAGGAGGC TCTGTTACAG GAGAAGAGTC ACCTGGAAAA TAAGAAATTG 
    AGATCTAGTC AGGCCTTAAA CACAGATAGT TTGAAAATAT CAACTCGCCT GAACTTACTG 
    GAACAAGAGT TGTCTGAAAA GAATGTGCAG CTCCAGACCA GTACAGCTGA GGAGAAAACA 
    AAGATTTCAG AACAAGTTGA AGTCCTCCAG AAAGAAAAGG ATCAGCTCCA GAAACGCAGA 
    CACAATGTGG ATGAAAAACT TAAAAATGGT AGAGTGTTAT CACCTGAAGA AGAACATGTT 
    CTTTTCCAAC TTGAAGAAGG GATTGAAGCT TTGGAAGCTG CAATTGAATA CAGGAATGAA 
    AGTATCCAGA ATCGCCAGAA GTCACTTAGA GCATCATTCC ATAACCTCTC TCGTGGTGAA 
    GCAAATGTCT TGGAAAAGCT AGCTTGCCTG AGTCCTGTTG AGATTAGAAC TATTCTTTTC 
    AGATATTTCA ATAAGGTGGT GAATTTGCGA GAAGCTGAAC GGAAACAACA GTTATATAAT 
    GAAGAAATGA AAATGAAAGT TCTGGAACGG GATAATATGG TTCGTGAATT AGAATCTGCA 
    CTGGACCATC TAAAATTGCA GTGTGACCGG AGACTGACCC TCCAGCAAAA GGAACACGAA 
    CAAAAGATGC AGTTGCTATT ACATCATTTC AAAGAACAAG ATGGAGAAGG CATTATGGAA 
    ACTTTCAAAA CATATGAAGA TAAAATCCAG CAGTTGGAAA AAGATCTTTA TTTCTATAAG 
    AAAACCAGCC GGGATCATAA GAAGAAACTT AAGGAACTGG TAGGGGAAGC AATTCGGCGG 
    CAACTAGCAC CATCAGAGTA TCAAGAGGCT GGAGATGGAG TCCTGAAGCC AGAAGGAGGA 
    GGCATGCTTT CAGAAGAATT AAAATGGGCA TCCAGACCTG AAAGTATGAA ATTAAGTGGA 
    AGAGAAAGAG AAATGGACAG TTCAGCAAGC AGCTTAAGAA CACAGCCAAA TCCTCAAAAG 
    CTCTGGGAAG ATATCCCAGA ATTACCTCCA ATTCATAGTT CTTTAGCACC CCCCAGTGGG 
    CATATGTTAG GTAATGAGAA TAAAACAGAA ACAGATGATA ATCAGTTTAC AAAATCTCAC 
    AGTCGACTGT CATCCCAAAT TCAGGTTGTG GGAAATGTGG GACGACTTCA TGGTGTCACA 
    CCTGTAAAAC TGTGTCGAAA AGAATTACGT CAAATTTCCG CCTTGGAACT ATCATTGCGA 
    CGTTCCAGTC TTGGAGTTGG CATTGGATCA ATGGCTGCTG ATTCCATCGA AGTATCTAGG 
    AAACCAAGGG ACTTAAAAAC TTAG

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

    RefSeq XP_016870389.1
    CDS452..4735
    Translation

    Target ORF information:

    RefSeq Version XM_017014900.1
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017014900.1

    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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGCCCCTGGC AAAAACCACT 
    TTACTTTCTA CTTCTATGGA TTTGCCTATT CTAAACATTT CATACAACTG GAATCATACA 
    AATGAAAAAA TAATAGAACA ACAACTTCTT GTGGATCAAC TGAGTGAAGA ACTAACAAAA 
    CTTAACCTGT CAGTGACTTC TTCAGCTAAA GAAAATTGTG GAGATGGGCC AGATGCCAGG 
    ATCCCTGAAA GGAGACCATA TACTGTACCA TTTGATACTC ATTTGGGGCA TTATATTTAT 
    ATCCCATCAA GACAAGATTC CAGGAAGGTC CACACAAGTC CGCCTATGTA CTCTCTGGAT 
    CGAATATTTG CTGGATTTCG AACACGAAGT CAGATGCTGT TGGGTCACAT AGAAGAACAA 
    GATAAGGTCC TCCACTGCCA ATTTTCTGAT AACAGTGATG ATGAAGAATC AGAAGGCCAA 
    GAGAAATCTG GAACTAGATG TAGAAGTCGT TCATGGATTC AGAAGCCAGA CTCTGTTTGT 
    TCCCTTGTTG AATTGAGTGA TACTCAGGAT GAAACACAAA AGTCAGATTT GGAGAATGAA 
    GATTTAAAGA TTGATTGTCT CCAGGAGAGT CAAGAATTGA ATTTGCAAAA ATTAAAGAAT 
    TCAGAACGCA TACTTACTGA AGCTAAACAA AAAATGAGAG AACTTACAAT TAACATCAAG 
    ATGAAGGAAG ATCTGATTAA AGAATTAATA AAAACAGGTA ATGATGCCAA GTCTGTAAGC 
    AAGCAGTATT CTTTGAAAGT AACAAAGCTA GAGCATGATG CAGAACAGGC AAAAGTCGAA 
    CTGATTGAAA CACAAAAGCA GCTACAGGAG CTGGAAAACA AAGATCTTTC TGATGTTGCA 
    ATGAAGGTAA AATTACAGAA AGAGTTTCGT AAAAAGATGG ATGCTGCAAA GCTGAGAGTT 
    CAGGTCTTGC AGAAGAAGCA ACAAGATAGT AAGAAACTGG CATCACTGTC AATCCAAAAT 
    GAGAAACGTG CTAATGAGCT AGAGCAGAGT GTAGATCACA TGAAATATCA AAAGATACAG 
    CTACAAAGAA AACTACGAGA AGAAAATGAA AAAAGGAAGC AACTGGATGC AGTAATTAAG 
    CGGGACCAGC AAAAAATCAA AGAAATACAA TTAAAAACAG GACAGGAAGA AGGTCTAAAA 
    CCGAAAGCTG AGGACCTTGA TGCATGTAAC TTGAAAAGGA GAAAAGGTTC GTTTGGAAGT 
    ATAGACCATC TCCAGAAATT GGATGAGCAA AAGAAATGGT TAGATGAAGA AGTAGAGAAA 
    GTTCTGAACC AACGCCAAGA ATTAGAGGAG CTGGAAGCAG ACTTAAAGAA ACGGGAGGCC 
    ATAGTTTCTA AGAAGGAGGC TCTGTTACAG GAGAAGAGTC ACCTGGAAAA TAAGAAATTG 
    AGATCTAGTC AGGCCTTAAA CACAGATAGT TTGAAAATAT CAACTCGCCT GAACTTACTG 
    GAACAAGAGT TGTCTGAAAA GAATGTGCAG CTCCAGACCA GTACAGCTGA GGAGAAAACA 
    AAGATTTCAG AACAAGTTGA AGTCCTCCAG AAAGAAAAGG ATCAGCTCCA GAAACGCAGA 
    CACAATGTGG ATGAAAAACT TAAAAATGGT AGAGTGTTAT CACCTGAAGA AGAACATGTT 
    CTTTTCCAAC TTGAAGAAGG GATTGAAGCT TTGGAAGCTG CAATTGAATA CAGGAATGAA 
    AGTATCCAGA ATCGCCAGAA GTCACTTAGA GCATCATTCC ATAACCTCTC TCGTGGTGAA 
    GCAAATGTCT TGGAAAAGCT AGCTTGCCTG AGTCCTGTTG AGATTAGAAC TATTCTTTTC 
    AGATATTTCA ATAAGGTGGT GAATTTGCGA GAAGCTGAAC GGAAACAACA GTTATATAAT 
    GAAGAAATGA AAATGAAAGT TCTGGAACGG GATAATATGG TTCGTGAATT AGAATCTGCA 
    CTGGACCATC TAAAATTGCA GTGTGACCGG AGACTGACCC TCCAGCAAAA GGAACACGAA 
    CAAAAGATGC AGTTGCTATT ACATCATTTC AAAGAACAAG ATGGAGAAGG CATTATGGAA 
    ACTTTCAAAA CATATGAAGA TAAAATCCAG CAGTTGGAAA AAGATCTTTA TTTCTATAAG 
    AAAACCAGCC GGGATCATAA GAAGAAACTT AAGGAACTGG TAGGGGAAGC AATTCGGCGG 
    CAACTAGCAC CATCAGAGTA TCAAGAGGCT GGAGATGGAG TCCTGAAGCC AGAAGGAGGA 
    GGCATGCTTT CAGAAGAATT AAAATGGGCA TCCAGACCTG AAAGTATGAA ATTAAGTGGA 
    AGAGAAAGAG AAATGGACAG TTCAGCAAGC AGCTTAAGAA CACAGCCAAA TCCTCAAAAG 
    CTCTGGGAAG ATATCCCAGA ATTACCTCCA ATTCATAGTT CTTTAGCACC CCCCAGTGGG 
    CATATGTTAG GTAATGAGAA TAAAACAGAA ACAGATGATA ATCAGTTTAC AAAATCTCAC 
    AGTCGACTGT CATCCCAAAT TCAGGTTGTG GGAAATGTGG GACGACTTCA TGGTGTCACA 
    CCTGTAAAAC TGTGTCGAAA AGAATTACGT CAAATTTCCG CCTTGGAACT ATCATTGCGA 
    CGTTCCAGTC TTGGAGTTGG CATTGGATCA ATGGCTGCTG ATTCCATCGA AGTATCTAGG 
    AAACCAAGGG ACTTAAAAAC TTAG

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

    KIF27 ( XM_017014901.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016870390.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OHu69489
    Clone ID Related Accession (Same CDS sequence) XM_017014900.1 , XM_017014901.2 , XM_017014901.1 , XM_011518849.2 , XM_011518848.2 , XM_011518848.3 , XM_017014902.1 , XM_011518850.2
    Accession Version XM_017014901.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4284bp)
    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 KIF27 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017014901.1. ##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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGCCCCTGGC AAAAACCACT 
    TTACTTTCTA CTTCTATGGA TTTGCCTATT CTAAACATTT CATACAACTG GAATCATACA 
    AATGAAAAAA TAATAGAACA ACAACTTCTT GTGGATCAAC TGAGTGAAGA ACTAACAAAA 
    CTTAACCTGT CAGTGACTTC TTCAGCTAAA GAAAATTGTG GAGATGGGCC AGATGCCAGG 
    ATCCCTGAAA GGAGACCATA TACTGTACCA TTTGATACTC ATTTGGGGCA TTATATTTAT 
    ATCCCATCAA GACAAGATTC CAGGAAGGTC CACACAAGTC CGCCTATGTA CTCTCTGGAT 
    CGAATATTTG CTGGATTTCG AACACGAAGT CAGATGCTGT TGGGTCACAT AGAAGAACAA 
    GATAAGGTCC TCCACTGCCA ATTTTCTGAT AACAGTGATG ATGAAGAATC AGAAGGCCAA 
    GAGAAATCTG GAACTAGATG TAGAAGTCGT TCATGGATTC AGAAGCCAGA CTCTGTTTGT 
    TCCCTTGTTG AATTGAGTGA TACTCAGGAT GAAACACAAA AGTCAGATTT GGAGAATGAA 
    GATTTAAAGA TTGATTGTCT CCAGGAGAGT CAAGAATTGA ATTTGCAAAA ATTAAAGAAT 
    TCAGAACGCA TACTTACTGA AGCTAAACAA AAAATGAGAG AACTTACAAT TAACATCAAG 
    ATGAAGGAAG ATCTGATTAA AGAATTAATA AAAACAGGTA ATGATGCCAA GTCTGTAAGC 
    AAGCAGTATT CTTTGAAAGT AACAAAGCTA GAGCATGATG CAGAACAGGC AAAAGTCGAA 
    CTGATTGAAA CACAAAAGCA GCTACAGGAG CTGGAAAACA AAGATCTTTC TGATGTTGCA 
    ATGAAGGTAA AATTACAGAA AGAGTTTCGT AAAAAGATGG ATGCTGCAAA GCTGAGAGTT 
    CAGGTCTTGC AGAAGAAGCA ACAAGATAGT AAGAAACTGG CATCACTGTC AATCCAAAAT 
    GAGAAACGTG CTAATGAGCT AGAGCAGAGT GTAGATCACA TGAAATATCA AAAGATACAG 
    CTACAAAGAA AACTACGAGA AGAAAATGAA AAAAGGAAGC AACTGGATGC AGTAATTAAG 
    CGGGACCAGC AAAAAATCAA AGAAATACAA TTAAAAACAG GACAGGAAGA AGGTCTAAAA 
    CCGAAAGCTG AGGACCTTGA TGCATGTAAC TTGAAAAGGA GAAAAGGTTC GTTTGGAAGT 
    ATAGACCATC TCCAGAAATT GGATGAGCAA AAGAAATGGT TAGATGAAGA AGTAGAGAAA 
    GTTCTGAACC AACGCCAAGA ATTAGAGGAG CTGGAAGCAG ACTTAAAGAA ACGGGAGGCC 
    ATAGTTTCTA AGAAGGAGGC TCTGTTACAG GAGAAGAGTC ACCTGGAAAA TAAGAAATTG 
    AGATCTAGTC AGGCCTTAAA CACAGATAGT TTGAAAATAT CAACTCGCCT GAACTTACTG 
    GAACAAGAGT TGTCTGAAAA GAATGTGCAG CTCCAGACCA GTACAGCTGA GGAGAAAACA 
    AAGATTTCAG AACAAGTTGA AGTCCTCCAG AAAGAAAAGG ATCAGCTCCA GAAACGCAGA 
    CACAATGTGG ATGAAAAACT TAAAAATGGT AGAGTGTTAT CACCTGAAGA AGAACATGTT 
    CTTTTCCAAC TTGAAGAAGG GATTGAAGCT TTGGAAGCTG CAATTGAATA CAGGAATGAA 
    AGTATCCAGA ATCGCCAGAA GTCACTTAGA GCATCATTCC ATAACCTCTC TCGTGGTGAA 
    GCAAATGTCT TGGAAAAGCT AGCTTGCCTG AGTCCTGTTG AGATTAGAAC TATTCTTTTC 
    AGATATTTCA ATAAGGTGGT GAATTTGCGA GAAGCTGAAC GGAAACAACA GTTATATAAT 
    GAAGAAATGA AAATGAAAGT TCTGGAACGG GATAATATGG TTCGTGAATT AGAATCTGCA 
    CTGGACCATC TAAAATTGCA GTGTGACCGG AGACTGACCC TCCAGCAAAA GGAACACGAA 
    CAAAAGATGC AGTTGCTATT ACATCATTTC AAAGAACAAG ATGGAGAAGG CATTATGGAA 
    ACTTTCAAAA CATATGAAGA TAAAATCCAG CAGTTGGAAA AAGATCTTTA TTTCTATAAG 
    AAAACCAGCC GGGATCATAA GAAGAAACTT AAGGAACTGG TAGGGGAAGC AATTCGGCGG 
    CAACTAGCAC CATCAGAGTA TCAAGAGGCT GGAGATGGAG TCCTGAAGCC AGAAGGAGGA 
    GGCATGCTTT CAGAAGAATT AAAATGGGCA TCCAGACCTG AAAGTATGAA ATTAAGTGGA 
    AGAGAAAGAG AAATGGACAG TTCAGCAAGC AGCTTAAGAA CACAGCCAAA TCCTCAAAAG 
    CTCTGGGAAG ATATCCCAGA ATTACCTCCA ATTCATAGTT CTTTAGCACC CCCCAGTGGG 
    CATATGTTAG GTAATGAGAA TAAAACAGAA ACAGATGATA ATCAGTTTAC AAAATCTCAC 
    AGTCGACTGT CATCCCAAAT TCAGGTTGTG GGAAATGTGG GACGACTTCA TGGTGTCACA 
    CCTGTAAAAC TGTGTCGAAA AGAATTACGT CAAATTTCCG CCTTGGAACT ATCATTGCGA 
    CGTTCCAGTC TTGGAGTTGG CATTGGATCA ATGGCTGCTG ATTCCATCGA AGTATCTAGG 
    AAACCAAGGG ACTTAAAAAC TTAG

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

    RefSeq XP_016870390.1
    CDS336..4619
    Translation

    Target ORF information:

    RefSeq Version XM_017014901.2
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017014901.2

    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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGCCCCTGGC AAAAACCACT 
    TTACTTTCTA CTTCTATGGA TTTGCCTATT CTAAACATTT CATACAACTG GAATCATACA 
    AATGAAAAAA TAATAGAACA ACAACTTCTT GTGGATCAAC TGAGTGAAGA ACTAACAAAA 
    CTTAACCTGT CAGTGACTTC TTCAGCTAAA GAAAATTGTG GAGATGGGCC AGATGCCAGG 
    ATCCCTGAAA GGAGACCATA TACTGTACCA TTTGATACTC ATTTGGGGCA TTATATTTAT 
    ATCCCATCAA GACAAGATTC CAGGAAGGTC CACACAAGTC CGCCTATGTA CTCTCTGGAT 
    CGAATATTTG CTGGATTTCG AACACGAAGT CAGATGCTGT TGGGTCACAT AGAAGAACAA 
    GATAAGGTCC TCCACTGCCA ATTTTCTGAT AACAGTGATG ATGAAGAATC AGAAGGCCAA 
    GAGAAATCTG GAACTAGATG TAGAAGTCGT TCATGGATTC AGAAGCCAGA CTCTGTTTGT 
    TCCCTTGTTG AATTGAGTGA TACTCAGGAT GAAACACAAA AGTCAGATTT GGAGAATGAA 
    GATTTAAAGA TTGATTGTCT CCAGGAGAGT CAAGAATTGA ATTTGCAAAA ATTAAAGAAT 
    TCAGAACGCA TACTTACTGA AGCTAAACAA AAAATGAGAG AACTTACAAT TAACATCAAG 
    ATGAAGGAAG ATCTGATTAA AGAATTAATA AAAACAGGTA ATGATGCCAA GTCTGTAAGC 
    AAGCAGTATT CTTTGAAAGT AACAAAGCTA GAGCATGATG CAGAACAGGC AAAAGTCGAA 
    CTGATTGAAA CACAAAAGCA GCTACAGGAG CTGGAAAACA AAGATCTTTC TGATGTTGCA 
    ATGAAGGTAA AATTACAGAA AGAGTTTCGT AAAAAGATGG ATGCTGCAAA GCTGAGAGTT 
    CAGGTCTTGC AGAAGAAGCA ACAAGATAGT AAGAAACTGG CATCACTGTC AATCCAAAAT 
    GAGAAACGTG CTAATGAGCT AGAGCAGAGT GTAGATCACA TGAAATATCA AAAGATACAG 
    CTACAAAGAA AACTACGAGA AGAAAATGAA AAAAGGAAGC AACTGGATGC AGTAATTAAG 
    CGGGACCAGC AAAAAATCAA AGAAATACAA TTAAAAACAG GACAGGAAGA AGGTCTAAAA 
    CCGAAAGCTG AGGACCTTGA TGCATGTAAC TTGAAAAGGA GAAAAGGTTC GTTTGGAAGT 
    ATAGACCATC TCCAGAAATT GGATGAGCAA AAGAAATGGT TAGATGAAGA AGTAGAGAAA 
    GTTCTGAACC AACGCCAAGA ATTAGAGGAG CTGGAAGCAG ACTTAAAGAA ACGGGAGGCC 
    ATAGTTTCTA AGAAGGAGGC TCTGTTACAG GAGAAGAGTC ACCTGGAAAA TAAGAAATTG 
    AGATCTAGTC AGGCCTTAAA CACAGATAGT TTGAAAATAT CAACTCGCCT GAACTTACTG 
    GAACAAGAGT TGTCTGAAAA GAATGTGCAG CTCCAGACCA GTACAGCTGA GGAGAAAACA 
    AAGATTTCAG AACAAGTTGA AGTCCTCCAG AAAGAAAAGG ATCAGCTCCA GAAACGCAGA 
    CACAATGTGG ATGAAAAACT TAAAAATGGT AGAGTGTTAT CACCTGAAGA AGAACATGTT 
    CTTTTCCAAC TTGAAGAAGG GATTGAAGCT TTGGAAGCTG CAATTGAATA CAGGAATGAA 
    AGTATCCAGA ATCGCCAGAA GTCACTTAGA GCATCATTCC ATAACCTCTC TCGTGGTGAA 
    GCAAATGTCT TGGAAAAGCT AGCTTGCCTG AGTCCTGTTG AGATTAGAAC TATTCTTTTC 
    AGATATTTCA ATAAGGTGGT GAATTTGCGA GAAGCTGAAC GGAAACAACA GTTATATAAT 
    GAAGAAATGA AAATGAAAGT TCTGGAACGG GATAATATGG TTCGTGAATT AGAATCTGCA 
    CTGGACCATC TAAAATTGCA GTGTGACCGG AGACTGACCC TCCAGCAAAA GGAACACGAA 
    CAAAAGATGC AGTTGCTATT ACATCATTTC AAAGAACAAG ATGGAGAAGG CATTATGGAA 
    ACTTTCAAAA CATATGAAGA TAAAATCCAG CAGTTGGAAA AAGATCTTTA TTTCTATAAG 
    AAAACCAGCC GGGATCATAA GAAGAAACTT AAGGAACTGG TAGGGGAAGC AATTCGGCGG 
    CAACTAGCAC CATCAGAGTA TCAAGAGGCT GGAGATGGAG TCCTGAAGCC AGAAGGAGGA 
    GGCATGCTTT CAGAAGAATT AAAATGGGCA TCCAGACCTG AAAGTATGAA ATTAAGTGGA 
    AGAGAAAGAG AAATGGACAG TTCAGCAAGC AGCTTAAGAA CACAGCCAAA TCCTCAAAAG 
    CTCTGGGAAG ATATCCCAGA ATTACCTCCA ATTCATAGTT CTTTAGCACC CCCCAGTGGG 
    CATATGTTAG GTAATGAGAA TAAAACAGAA ACAGATGATA ATCAGTTTAC AAAATCTCAC 
    AGTCGACTGT CATCCCAAAT TCAGGTTGTG GGAAATGTGG GACGACTTCA TGGTGTCACA 
    CCTGTAAAAC TGTGTCGAAA AGAATTACGT CAAATTTCCG CCTTGGAACT ATCATTGCGA 
    CGTTCCAGTC TTGGAGTTGG CATTGGATCA ATGGCTGCTG ATTCCATCGA AGTATCTAGG 
    AAACCAAGGG ACTTAAAAAC TTAG

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

    KIF27 ( XM_017014901.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016870390.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OHu69489
    Clone ID Related Accession (Same CDS sequence) XM_017014900.1 , XM_017014901.2 , XM_017014901.1 , XM_011518849.2 , XM_011518848.2 , XM_011518848.3 , XM_017014902.1 , XM_011518850.2
    Accession Version XM_017014901.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4284bp)
    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 2016-06-05
    Organism Homo sapiens(human)
    Product kinesin-like protein KIF27 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) 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 :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGCCCCTGGC AAAAACCACT 
    TTACTTTCTA CTTCTATGGA TTTGCCTATT CTAAACATTT CATACAACTG GAATCATACA 
    AATGAAAAAA TAATAGAACA ACAACTTCTT GTGGATCAAC TGAGTGAAGA ACTAACAAAA 
    CTTAACCTGT CAGTGACTTC TTCAGCTAAA GAAAATTGTG GAGATGGGCC AGATGCCAGG 
    ATCCCTGAAA GGAGACCATA TACTGTACCA TTTGATACTC ATTTGGGGCA TTATATTTAT 
    ATCCCATCAA GACAAGATTC CAGGAAGGTC CACACAAGTC CGCCTATGTA CTCTCTGGAT 
    CGAATATTTG CTGGATTTCG AACACGAAGT CAGATGCTGT TGGGTCACAT AGAAGAACAA 
    GATAAGGTCC TCCACTGCCA ATTTTCTGAT AACAGTGATG ATGAAGAATC AGAAGGCCAA 
    GAGAAATCTG GAACTAGATG TAGAAGTCGT TCATGGATTC AGAAGCCAGA CTCTGTTTGT 
    TCCCTTGTTG AATTGAGTGA TACTCAGGAT GAAACACAAA AGTCAGATTT GGAGAATGAA 
    GATTTAAAGA TTGATTGTCT CCAGGAGAGT CAAGAATTGA ATTTGCAAAA ATTAAAGAAT 
    TCAGAACGCA TACTTACTGA AGCTAAACAA AAAATGAGAG AACTTACAAT TAACATCAAG 
    ATGAAGGAAG ATCTGATTAA AGAATTAATA AAAACAGGTA ATGATGCCAA GTCTGTAAGC 
    AAGCAGTATT CTTTGAAAGT AACAAAGCTA GAGCATGATG CAGAACAGGC AAAAGTCGAA 
    CTGATTGAAA CACAAAAGCA GCTACAGGAG CTGGAAAACA AAGATCTTTC TGATGTTGCA 
    ATGAAGGTAA AATTACAGAA AGAGTTTCGT AAAAAGATGG ATGCTGCAAA GCTGAGAGTT 
    CAGGTCTTGC AGAAGAAGCA ACAAGATAGT AAGAAACTGG CATCACTGTC AATCCAAAAT 
    GAGAAACGTG CTAATGAGCT AGAGCAGAGT GTAGATCACA TGAAATATCA AAAGATACAG 
    CTACAAAGAA AACTACGAGA AGAAAATGAA AAAAGGAAGC AACTGGATGC AGTAATTAAG 
    CGGGACCAGC AAAAAATCAA AGAAATACAA TTAAAAACAG GACAGGAAGA AGGTCTAAAA 
    CCGAAAGCTG AGGACCTTGA TGCATGTAAC TTGAAAAGGA GAAAAGGTTC GTTTGGAAGT 
    ATAGACCATC TCCAGAAATT GGATGAGCAA AAGAAATGGT TAGATGAAGA AGTAGAGAAA 
    GTTCTGAACC AACGCCAAGA ATTAGAGGAG CTGGAAGCAG ACTTAAAGAA ACGGGAGGCC 
    ATAGTTTCTA AGAAGGAGGC TCTGTTACAG GAGAAGAGTC ACCTGGAAAA TAAGAAATTG 
    AGATCTAGTC AGGCCTTAAA CACAGATAGT TTGAAAATAT CAACTCGCCT GAACTTACTG 
    GAACAAGAGT TGTCTGAAAA GAATGTGCAG CTCCAGACCA GTACAGCTGA GGAGAAAACA 
    AAGATTTCAG AACAAGTTGA AGTCCTCCAG AAAGAAAAGG ATCAGCTCCA GAAACGCAGA 
    CACAATGTGG ATGAAAAACT TAAAAATGGT AGAGTGTTAT CACCTGAAGA AGAACATGTT 
    CTTTTCCAAC TTGAAGAAGG GATTGAAGCT TTGGAAGCTG CAATTGAATA CAGGAATGAA 
    AGTATCCAGA ATCGCCAGAA GTCACTTAGA GCATCATTCC ATAACCTCTC TCGTGGTGAA 
    GCAAATGTCT TGGAAAAGCT AGCTTGCCTG AGTCCTGTTG AGATTAGAAC TATTCTTTTC 
    AGATATTTCA ATAAGGTGGT GAATTTGCGA GAAGCTGAAC GGAAACAACA GTTATATAAT 
    GAAGAAATGA AAATGAAAGT TCTGGAACGG GATAATATGG TTCGTGAATT AGAATCTGCA 
    CTGGACCATC TAAAATTGCA GTGTGACCGG AGACTGACCC TCCAGCAAAA GGAACACGAA 
    CAAAAGATGC AGTTGCTATT ACATCATTTC AAAGAACAAG ATGGAGAAGG CATTATGGAA 
    ACTTTCAAAA CATATGAAGA TAAAATCCAG CAGTTGGAAA AAGATCTTTA TTTCTATAAG 
    AAAACCAGCC GGGATCATAA GAAGAAACTT AAGGAACTGG TAGGGGAAGC AATTCGGCGG 
    CAACTAGCAC CATCAGAGTA TCAAGAGGCT GGAGATGGAG TCCTGAAGCC AGAAGGAGGA 
    GGCATGCTTT CAGAAGAATT AAAATGGGCA TCCAGACCTG AAAGTATGAA ATTAAGTGGA 
    AGAGAAAGAG AAATGGACAG TTCAGCAAGC AGCTTAAGAA CACAGCCAAA TCCTCAAAAG 
    CTCTGGGAAG ATATCCCAGA ATTACCTCCA ATTCATAGTT CTTTAGCACC CCCCAGTGGG 
    CATATGTTAG GTAATGAGAA TAAAACAGAA ACAGATGATA ATCAGTTTAC AAAATCTCAC 
    AGTCGACTGT CATCCCAAAT TCAGGTTGTG GGAAATGTGG GACGACTTCA TGGTGTCACA 
    CCTGTAAAAC TGTGTCGAAA AGAATTACGT CAAATTTCCG CCTTGGAACT ATCATTGCGA 
    CGTTCCAGTC TTGGAGTTGG CATTGGATCA ATGGCTGCTG ATTCCATCGA AGTATCTAGG 
    AAACCAAGGG ACTTAAAAAC TTAG

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

    RefSeq XP_016870390.1
    CDS334..4617
    Translation

    Target ORF information:

    RefSeq Version XM_017014901.1
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017014901.1

    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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGCCCCTGGC AAAAACCACT 
    TTACTTTCTA CTTCTATGGA TTTGCCTATT CTAAACATTT CATACAACTG GAATCATACA 
    AATGAAAAAA TAATAGAACA ACAACTTCTT GTGGATCAAC TGAGTGAAGA ACTAACAAAA 
    CTTAACCTGT CAGTGACTTC TTCAGCTAAA GAAAATTGTG GAGATGGGCC AGATGCCAGG 
    ATCCCTGAAA GGAGACCATA TACTGTACCA TTTGATACTC ATTTGGGGCA TTATATTTAT 
    ATCCCATCAA GACAAGATTC CAGGAAGGTC CACACAAGTC CGCCTATGTA CTCTCTGGAT 
    CGAATATTTG CTGGATTTCG AACACGAAGT CAGATGCTGT TGGGTCACAT AGAAGAACAA 
    GATAAGGTCC TCCACTGCCA ATTTTCTGAT AACAGTGATG ATGAAGAATC AGAAGGCCAA 
    GAGAAATCTG GAACTAGATG TAGAAGTCGT TCATGGATTC AGAAGCCAGA CTCTGTTTGT 
    TCCCTTGTTG AATTGAGTGA TACTCAGGAT GAAACACAAA AGTCAGATTT GGAGAATGAA 
    GATTTAAAGA TTGATTGTCT CCAGGAGAGT CAAGAATTGA ATTTGCAAAA ATTAAAGAAT 
    TCAGAACGCA TACTTACTGA AGCTAAACAA AAAATGAGAG AACTTACAAT TAACATCAAG 
    ATGAAGGAAG ATCTGATTAA AGAATTAATA AAAACAGGTA ATGATGCCAA GTCTGTAAGC 
    AAGCAGTATT CTTTGAAAGT AACAAAGCTA GAGCATGATG CAGAACAGGC AAAAGTCGAA 
    CTGATTGAAA CACAAAAGCA GCTACAGGAG CTGGAAAACA AAGATCTTTC TGATGTTGCA 
    ATGAAGGTAA AATTACAGAA AGAGTTTCGT AAAAAGATGG ATGCTGCAAA GCTGAGAGTT 
    CAGGTCTTGC AGAAGAAGCA ACAAGATAGT AAGAAACTGG CATCACTGTC AATCCAAAAT 
    GAGAAACGTG CTAATGAGCT AGAGCAGAGT GTAGATCACA TGAAATATCA AAAGATACAG 
    CTACAAAGAA AACTACGAGA AGAAAATGAA AAAAGGAAGC AACTGGATGC AGTAATTAAG 
    CGGGACCAGC AAAAAATCAA AGAAATACAA TTAAAAACAG GACAGGAAGA AGGTCTAAAA 
    CCGAAAGCTG AGGACCTTGA TGCATGTAAC TTGAAAAGGA GAAAAGGTTC GTTTGGAAGT 
    ATAGACCATC TCCAGAAATT GGATGAGCAA AAGAAATGGT TAGATGAAGA AGTAGAGAAA 
    GTTCTGAACC AACGCCAAGA ATTAGAGGAG CTGGAAGCAG ACTTAAAGAA ACGGGAGGCC 
    ATAGTTTCTA AGAAGGAGGC TCTGTTACAG GAGAAGAGTC ACCTGGAAAA TAAGAAATTG 
    AGATCTAGTC AGGCCTTAAA CACAGATAGT TTGAAAATAT CAACTCGCCT GAACTTACTG 
    GAACAAGAGT TGTCTGAAAA GAATGTGCAG CTCCAGACCA GTACAGCTGA GGAGAAAACA 
    AAGATTTCAG AACAAGTTGA AGTCCTCCAG AAAGAAAAGG ATCAGCTCCA GAAACGCAGA 
    CACAATGTGG ATGAAAAACT TAAAAATGGT AGAGTGTTAT CACCTGAAGA AGAACATGTT 
    CTTTTCCAAC TTGAAGAAGG GATTGAAGCT TTGGAAGCTG CAATTGAATA CAGGAATGAA 
    AGTATCCAGA ATCGCCAGAA GTCACTTAGA GCATCATTCC ATAACCTCTC TCGTGGTGAA 
    GCAAATGTCT TGGAAAAGCT AGCTTGCCTG AGTCCTGTTG AGATTAGAAC TATTCTTTTC 
    AGATATTTCA ATAAGGTGGT GAATTTGCGA GAAGCTGAAC GGAAACAACA GTTATATAAT 
    GAAGAAATGA AAATGAAAGT TCTGGAACGG GATAATATGG TTCGTGAATT AGAATCTGCA 
    CTGGACCATC TAAAATTGCA GTGTGACCGG AGACTGACCC TCCAGCAAAA GGAACACGAA 
    CAAAAGATGC AGTTGCTATT ACATCATTTC AAAGAACAAG ATGGAGAAGG CATTATGGAA 
    ACTTTCAAAA CATATGAAGA TAAAATCCAG CAGTTGGAAA AAGATCTTTA TTTCTATAAG 
    AAAACCAGCC GGGATCATAA GAAGAAACTT AAGGAACTGG TAGGGGAAGC AATTCGGCGG 
    CAACTAGCAC CATCAGAGTA TCAAGAGGCT GGAGATGGAG TCCTGAAGCC AGAAGGAGGA 
    GGCATGCTTT CAGAAGAATT AAAATGGGCA TCCAGACCTG AAAGTATGAA ATTAAGTGGA 
    AGAGAAAGAG AAATGGACAG TTCAGCAAGC AGCTTAAGAA CACAGCCAAA TCCTCAAAAG 
    CTCTGGGAAG ATATCCCAGA ATTACCTCCA ATTCATAGTT CTTTAGCACC CCCCAGTGGG 
    CATATGTTAG GTAATGAGAA TAAAACAGAA ACAGATGATA ATCAGTTTAC AAAATCTCAC 
    AGTCGACTGT CATCCCAAAT TCAGGTTGTG GGAAATGTGG GACGACTTCA TGGTGTCACA 
    CCTGTAAAAC TGTGTCGAAA AGAATTACGT CAAATTTCCG CCTTGGAACT ATCATTGCGA 
    CGTTCCAGTC TTGGAGTTGG CATTGGATCA ATGGCTGCTG ATTCCATCGA AGTATCTAGG 
    AAACCAAGGG ACTTAAAAAC TTAG

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

    KIF27 ( XM_011518849.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011517151.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OHu69489
    Clone ID Related Accession (Same CDS sequence) XM_017014900.1 , XM_017014901.2 , XM_017014901.1 , XM_011518849.2 , XM_011518848.2 , XM_011518848.3 , XM_017014902.1 , XM_011518850.2
    Accession Version XM_011518849.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4284bp)
    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 KIF27 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) 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_011518849.1. ##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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGCCCCTGGC AAAAACCACT 
    TTACTTTCTA CTTCTATGGA TTTGCCTATT CTAAACATTT CATACAACTG GAATCATACA 
    AATGAAAAAA TAATAGAACA ACAACTTCTT GTGGATCAAC TGAGTGAAGA ACTAACAAAA 
    CTTAACCTGT CAGTGACTTC TTCAGCTAAA GAAAATTGTG GAGATGGGCC AGATGCCAGG 
    ATCCCTGAAA GGAGACCATA TACTGTACCA TTTGATACTC ATTTGGGGCA TTATATTTAT 
    ATCCCATCAA GACAAGATTC CAGGAAGGTC CACACAAGTC CGCCTATGTA CTCTCTGGAT 
    CGAATATTTG CTGGATTTCG AACACGAAGT CAGATGCTGT TGGGTCACAT AGAAGAACAA 
    GATAAGGTCC TCCACTGCCA ATTTTCTGAT AACAGTGATG ATGAAGAATC AGAAGGCCAA 
    GAGAAATCTG GAACTAGATG TAGAAGTCGT TCATGGATTC AGAAGCCAGA CTCTGTTTGT 
    TCCCTTGTTG AATTGAGTGA TACTCAGGAT GAAACACAAA AGTCAGATTT GGAGAATGAA 
    GATTTAAAGA TTGATTGTCT CCAGGAGAGT CAAGAATTGA ATTTGCAAAA ATTAAAGAAT 
    TCAGAACGCA TACTTACTGA AGCTAAACAA AAAATGAGAG AACTTACAAT TAACATCAAG 
    ATGAAGGAAG ATCTGATTAA AGAATTAATA AAAACAGGTA ATGATGCCAA GTCTGTAAGC 
    AAGCAGTATT CTTTGAAAGT AACAAAGCTA GAGCATGATG CAGAACAGGC AAAAGTCGAA 
    CTGATTGAAA CACAAAAGCA GCTACAGGAG CTGGAAAACA AAGATCTTTC TGATGTTGCA 
    ATGAAGGTAA AATTACAGAA AGAGTTTCGT AAAAAGATGG ATGCTGCAAA GCTGAGAGTT 
    CAGGTCTTGC AGAAGAAGCA ACAAGATAGT AAGAAACTGG CATCACTGTC AATCCAAAAT 
    GAGAAACGTG CTAATGAGCT AGAGCAGAGT GTAGATCACA TGAAATATCA AAAGATACAG 
    CTACAAAGAA AACTACGAGA AGAAAATGAA AAAAGGAAGC AACTGGATGC AGTAATTAAG 
    CGGGACCAGC AAAAAATCAA AGAAATACAA TTAAAAACAG GACAGGAAGA AGGTCTAAAA 
    CCGAAAGCTG AGGACCTTGA TGCATGTAAC TTGAAAAGGA GAAAAGGTTC GTTTGGAAGT 
    ATAGACCATC TCCAGAAATT GGATGAGCAA AAGAAATGGT TAGATGAAGA AGTAGAGAAA 
    GTTCTGAACC AACGCCAAGA ATTAGAGGAG CTGGAAGCAG ACTTAAAGAA ACGGGAGGCC 
    ATAGTTTCTA AGAAGGAGGC TCTGTTACAG GAGAAGAGTC ACCTGGAAAA TAAGAAATTG 
    AGATCTAGTC AGGCCTTAAA CACAGATAGT TTGAAAATAT CAACTCGCCT GAACTTACTG 
    GAACAAGAGT TGTCTGAAAA GAATGTGCAG CTCCAGACCA GTACAGCTGA GGAGAAAACA 
    AAGATTTCAG AACAAGTTGA AGTCCTCCAG AAAGAAAAGG ATCAGCTCCA GAAACGCAGA 
    CACAATGTGG ATGAAAAACT TAAAAATGGT AGAGTGTTAT CACCTGAAGA AGAACATGTT 
    CTTTTCCAAC TTGAAGAAGG GATTGAAGCT TTGGAAGCTG CAATTGAATA CAGGAATGAA 
    AGTATCCAGA ATCGCCAGAA GTCACTTAGA GCATCATTCC ATAACCTCTC TCGTGGTGAA 
    GCAAATGTCT TGGAAAAGCT AGCTTGCCTG AGTCCTGTTG AGATTAGAAC TATTCTTTTC 
    AGATATTTCA ATAAGGTGGT GAATTTGCGA GAAGCTGAAC GGAAACAACA GTTATATAAT 
    GAAGAAATGA AAATGAAAGT TCTGGAACGG GATAATATGG TTCGTGAATT AGAATCTGCA 
    CTGGACCATC TAAAATTGCA GTGTGACCGG AGACTGACCC TCCAGCAAAA GGAACACGAA 
    CAAAAGATGC AGTTGCTATT ACATCATTTC AAAGAACAAG ATGGAGAAGG CATTATGGAA 
    ACTTTCAAAA CATATGAAGA TAAAATCCAG CAGTTGGAAA AAGATCTTTA TTTCTATAAG 
    AAAACCAGCC GGGATCATAA GAAGAAACTT AAGGAACTGG TAGGGGAAGC AATTCGGCGG 
    CAACTAGCAC CATCAGAGTA TCAAGAGGCT GGAGATGGAG TCCTGAAGCC AGAAGGAGGA 
    GGCATGCTTT CAGAAGAATT AAAATGGGCA TCCAGACCTG AAAGTATGAA ATTAAGTGGA 
    AGAGAAAGAG AAATGGACAG TTCAGCAAGC AGCTTAAGAA CACAGCCAAA TCCTCAAAAG 
    CTCTGGGAAG ATATCCCAGA ATTACCTCCA ATTCATAGTT CTTTAGCACC CCCCAGTGGG 
    CATATGTTAG GTAATGAGAA TAAAACAGAA ACAGATGATA ATCAGTTTAC AAAATCTCAC 
    AGTCGACTGT CATCCCAAAT TCAGGTTGTG GGAAATGTGG GACGACTTCA TGGTGTCACA 
    CCTGTAAAAC TGTGTCGAAA AGAATTACGT CAAATTTCCG CCTTGGAACT ATCATTGCGA 
    CGTTCCAGTC TTGGAGTTGG CATTGGATCA ATGGCTGCTG ATTCCATCGA AGTATCTAGG 
    AAACCAAGGG ACTTAAAAAC TTAG

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

    RefSeq XP_011517151.1
    CDS300..4583
    Translation

    Target ORF information:

    RefSeq Version XM_011518849.2
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011518849.2

    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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGCCCCTGGC AAAAACCACT 
    TTACTTTCTA CTTCTATGGA TTTGCCTATT CTAAACATTT CATACAACTG GAATCATACA 
    AATGAAAAAA TAATAGAACA ACAACTTCTT GTGGATCAAC TGAGTGAAGA ACTAACAAAA 
    CTTAACCTGT CAGTGACTTC TTCAGCTAAA GAAAATTGTG GAGATGGGCC AGATGCCAGG 
    ATCCCTGAAA GGAGACCATA TACTGTACCA TTTGATACTC ATTTGGGGCA TTATATTTAT 
    ATCCCATCAA GACAAGATTC CAGGAAGGTC CACACAAGTC CGCCTATGTA CTCTCTGGAT 
    CGAATATTTG CTGGATTTCG AACACGAAGT CAGATGCTGT TGGGTCACAT AGAAGAACAA 
    GATAAGGTCC TCCACTGCCA ATTTTCTGAT AACAGTGATG ATGAAGAATC AGAAGGCCAA 
    GAGAAATCTG GAACTAGATG TAGAAGTCGT TCATGGATTC AGAAGCCAGA CTCTGTTTGT 
    TCCCTTGTTG AATTGAGTGA TACTCAGGAT GAAACACAAA AGTCAGATTT GGAGAATGAA 
    GATTTAAAGA TTGATTGTCT CCAGGAGAGT CAAGAATTGA ATTTGCAAAA ATTAAAGAAT 
    TCAGAACGCA TACTTACTGA AGCTAAACAA AAAATGAGAG AACTTACAAT TAACATCAAG 
    ATGAAGGAAG ATCTGATTAA AGAATTAATA AAAACAGGTA ATGATGCCAA GTCTGTAAGC 
    AAGCAGTATT CTTTGAAAGT AACAAAGCTA GAGCATGATG CAGAACAGGC AAAAGTCGAA 
    CTGATTGAAA CACAAAAGCA GCTACAGGAG CTGGAAAACA AAGATCTTTC TGATGTTGCA 
    ATGAAGGTAA AATTACAGAA AGAGTTTCGT AAAAAGATGG ATGCTGCAAA GCTGAGAGTT 
    CAGGTCTTGC AGAAGAAGCA ACAAGATAGT AAGAAACTGG CATCACTGTC AATCCAAAAT 
    GAGAAACGTG CTAATGAGCT AGAGCAGAGT GTAGATCACA TGAAATATCA AAAGATACAG 
    CTACAAAGAA AACTACGAGA AGAAAATGAA AAAAGGAAGC AACTGGATGC AGTAATTAAG 
    CGGGACCAGC AAAAAATCAA AGAAATACAA TTAAAAACAG GACAGGAAGA AGGTCTAAAA 
    CCGAAAGCTG AGGACCTTGA TGCATGTAAC TTGAAAAGGA GAAAAGGTTC GTTTGGAAGT 
    ATAGACCATC TCCAGAAATT GGATGAGCAA AAGAAATGGT TAGATGAAGA AGTAGAGAAA 
    GTTCTGAACC AACGCCAAGA ATTAGAGGAG CTGGAAGCAG ACTTAAAGAA ACGGGAGGCC 
    ATAGTTTCTA AGAAGGAGGC TCTGTTACAG GAGAAGAGTC ACCTGGAAAA TAAGAAATTG 
    AGATCTAGTC AGGCCTTAAA CACAGATAGT TTGAAAATAT CAACTCGCCT GAACTTACTG 
    GAACAAGAGT TGTCTGAAAA GAATGTGCAG CTCCAGACCA GTACAGCTGA GGAGAAAACA 
    AAGATTTCAG AACAAGTTGA AGTCCTCCAG AAAGAAAAGG ATCAGCTCCA GAAACGCAGA 
    CACAATGTGG ATGAAAAACT TAAAAATGGT AGAGTGTTAT CACCTGAAGA AGAACATGTT 
    CTTTTCCAAC TTGAAGAAGG GATTGAAGCT TTGGAAGCTG CAATTGAATA CAGGAATGAA 
    AGTATCCAGA ATCGCCAGAA GTCACTTAGA GCATCATTCC ATAACCTCTC TCGTGGTGAA 
    GCAAATGTCT TGGAAAAGCT AGCTTGCCTG AGTCCTGTTG AGATTAGAAC TATTCTTTTC 
    AGATATTTCA ATAAGGTGGT GAATTTGCGA GAAGCTGAAC GGAAACAACA GTTATATAAT 
    GAAGAAATGA AAATGAAAGT TCTGGAACGG GATAATATGG TTCGTGAATT AGAATCTGCA 
    CTGGACCATC TAAAATTGCA GTGTGACCGG AGACTGACCC TCCAGCAAAA GGAACACGAA 
    CAAAAGATGC AGTTGCTATT ACATCATTTC AAAGAACAAG ATGGAGAAGG CATTATGGAA 
    ACTTTCAAAA CATATGAAGA TAAAATCCAG CAGTTGGAAA AAGATCTTTA TTTCTATAAG 
    AAAACCAGCC GGGATCATAA GAAGAAACTT AAGGAACTGG TAGGGGAAGC AATTCGGCGG 
    CAACTAGCAC CATCAGAGTA TCAAGAGGCT GGAGATGGAG TCCTGAAGCC AGAAGGAGGA 
    GGCATGCTTT CAGAAGAATT AAAATGGGCA TCCAGACCTG AAAGTATGAA ATTAAGTGGA 
    AGAGAAAGAG AAATGGACAG TTCAGCAAGC AGCTTAAGAA CACAGCCAAA TCCTCAAAAG 
    CTCTGGGAAG ATATCCCAGA ATTACCTCCA ATTCATAGTT CTTTAGCACC CCCCAGTGGG 
    CATATGTTAG GTAATGAGAA TAAAACAGAA ACAGATGATA ATCAGTTTAC AAAATCTCAC 
    AGTCGACTGT CATCCCAAAT TCAGGTTGTG GGAAATGTGG GACGACTTCA TGGTGTCACA 
    CCTGTAAAAC TGTGTCGAAA AGAATTACGT CAAATTTCCG CCTTGGAACT ATCATTGCGA 
    CGTTCCAGTC TTGGAGTTGG CATTGGATCA ATGGCTGCTG ATTCCATCGA AGTATCTAGG 
    AAACCAAGGG ACTTAAAAAC TTAG

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

    KIF27 ( XM_011518848.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011517150.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OHu69489
    Clone ID Related Accession (Same CDS sequence) XM_017014900.1 , XM_017014901.2 , XM_017014901.1 , XM_011518849.2 , XM_011518848.2 , XM_011518848.3 , XM_017014902.1 , XM_011518850.2
    Accession Version XM_011518848.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4284bp)
    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 2016-06-05
    Organism Homo sapiens(human)
    Product kinesin-like protein KIF27 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) 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_011518848.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGCCCCTGGC AAAAACCACT 
    TTACTTTCTA CTTCTATGGA TTTGCCTATT CTAAACATTT CATACAACTG GAATCATACA 
    AATGAAAAAA TAATAGAACA ACAACTTCTT GTGGATCAAC TGAGTGAAGA ACTAACAAAA 
    CTTAACCTGT CAGTGACTTC TTCAGCTAAA GAAAATTGTG GAGATGGGCC AGATGCCAGG 
    ATCCCTGAAA GGAGACCATA TACTGTACCA TTTGATACTC ATTTGGGGCA TTATATTTAT 
    ATCCCATCAA GACAAGATTC CAGGAAGGTC CACACAAGTC CGCCTATGTA CTCTCTGGAT 
    CGAATATTTG CTGGATTTCG AACACGAAGT CAGATGCTGT TGGGTCACAT AGAAGAACAA 
    GATAAGGTCC TCCACTGCCA ATTTTCTGAT AACAGTGATG ATGAAGAATC AGAAGGCCAA 
    GAGAAATCTG GAACTAGATG TAGAAGTCGT TCATGGATTC AGAAGCCAGA CTCTGTTTGT 
    TCCCTTGTTG AATTGAGTGA TACTCAGGAT GAAACACAAA AGTCAGATTT GGAGAATGAA 
    GATTTAAAGA TTGATTGTCT CCAGGAGAGT CAAGAATTGA ATTTGCAAAA ATTAAAGAAT 
    TCAGAACGCA TACTTACTGA AGCTAAACAA AAAATGAGAG AACTTACAAT TAACATCAAG 
    ATGAAGGAAG ATCTGATTAA AGAATTAATA AAAACAGGTA ATGATGCCAA GTCTGTAAGC 
    AAGCAGTATT CTTTGAAAGT AACAAAGCTA GAGCATGATG CAGAACAGGC AAAAGTCGAA 
    CTGATTGAAA CACAAAAGCA GCTACAGGAG CTGGAAAACA AAGATCTTTC TGATGTTGCA 
    ATGAAGGTAA AATTACAGAA AGAGTTTCGT AAAAAGATGG ATGCTGCAAA GCTGAGAGTT 
    CAGGTCTTGC AGAAGAAGCA ACAAGATAGT AAGAAACTGG CATCACTGTC AATCCAAAAT 
    GAGAAACGTG CTAATGAGCT AGAGCAGAGT GTAGATCACA TGAAATATCA AAAGATACAG 
    CTACAAAGAA AACTACGAGA AGAAAATGAA AAAAGGAAGC AACTGGATGC AGTAATTAAG 
    CGGGACCAGC AAAAAATCAA AGAAATACAA TTAAAAACAG GACAGGAAGA AGGTCTAAAA 
    CCGAAAGCTG AGGACCTTGA TGCATGTAAC TTGAAAAGGA GAAAAGGTTC GTTTGGAAGT 
    ATAGACCATC TCCAGAAATT GGATGAGCAA AAGAAATGGT TAGATGAAGA AGTAGAGAAA 
    GTTCTGAACC AACGCCAAGA ATTAGAGGAG CTGGAAGCAG ACTTAAAGAA ACGGGAGGCC 
    ATAGTTTCTA AGAAGGAGGC TCTGTTACAG GAGAAGAGTC ACCTGGAAAA TAAGAAATTG 
    AGATCTAGTC AGGCCTTAAA CACAGATAGT TTGAAAATAT CAACTCGCCT GAACTTACTG 
    GAACAAGAGT TGTCTGAAAA GAATGTGCAG CTCCAGACCA GTACAGCTGA GGAGAAAACA 
    AAGATTTCAG AACAAGTTGA AGTCCTCCAG AAAGAAAAGG ATCAGCTCCA GAAACGCAGA 
    CACAATGTGG ATGAAAAACT TAAAAATGGT AGAGTGTTAT CACCTGAAGA AGAACATGTT 
    CTTTTCCAAC TTGAAGAAGG GATTGAAGCT TTGGAAGCTG CAATTGAATA CAGGAATGAA 
    AGTATCCAGA ATCGCCAGAA GTCACTTAGA GCATCATTCC ATAACCTCTC TCGTGGTGAA 
    GCAAATGTCT TGGAAAAGCT AGCTTGCCTG AGTCCTGTTG AGATTAGAAC TATTCTTTTC 
    AGATATTTCA ATAAGGTGGT GAATTTGCGA GAAGCTGAAC GGAAACAACA GTTATATAAT 
    GAAGAAATGA AAATGAAAGT TCTGGAACGG GATAATATGG TTCGTGAATT AGAATCTGCA 
    CTGGACCATC TAAAATTGCA GTGTGACCGG AGACTGACCC TCCAGCAAAA GGAACACGAA 
    CAAAAGATGC AGTTGCTATT ACATCATTTC AAAGAACAAG ATGGAGAAGG CATTATGGAA 
    ACTTTCAAAA CATATGAAGA TAAAATCCAG CAGTTGGAAA AAGATCTTTA TTTCTATAAG 
    AAAACCAGCC GGGATCATAA GAAGAAACTT AAGGAACTGG TAGGGGAAGC AATTCGGCGG 
    CAACTAGCAC CATCAGAGTA TCAAGAGGCT GGAGATGGAG TCCTGAAGCC AGAAGGAGGA 
    GGCATGCTTT CAGAAGAATT AAAATGGGCA TCCAGACCTG AAAGTATGAA ATTAAGTGGA 
    AGAGAAAGAG AAATGGACAG TTCAGCAAGC AGCTTAAGAA CACAGCCAAA TCCTCAAAAG 
    CTCTGGGAAG ATATCCCAGA ATTACCTCCA ATTCATAGTT CTTTAGCACC CCCCAGTGGG 
    CATATGTTAG GTAATGAGAA TAAAACAGAA ACAGATGATA ATCAGTTTAC AAAATCTCAC 
    AGTCGACTGT CATCCCAAAT TCAGGTTGTG GGAAATGTGG GACGACTTCA TGGTGTCACA 
    CCTGTAAAAC TGTGTCGAAA AGAATTACGT CAAATTTCCG CCTTGGAACT ATCATTGCGA 
    CGTTCCAGTC TTGGAGTTGG CATTGGATCA ATGGCTGCTG ATTCCATCGA AGTATCTAGG 
    AAACCAAGGG ACTTAAAAAC TTAG

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

    RefSeq XP_011517150.1
    CDS184..4467
    Translation

    Target ORF information:

    RefSeq Version XM_011518848.2
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011518848.2

    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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGCCCCTGGC AAAAACCACT 
    TTACTTTCTA CTTCTATGGA TTTGCCTATT CTAAACATTT CATACAACTG GAATCATACA 
    AATGAAAAAA TAATAGAACA ACAACTTCTT GTGGATCAAC TGAGTGAAGA ACTAACAAAA 
    CTTAACCTGT CAGTGACTTC TTCAGCTAAA GAAAATTGTG GAGATGGGCC AGATGCCAGG 
    ATCCCTGAAA GGAGACCATA TACTGTACCA TTTGATACTC ATTTGGGGCA TTATATTTAT 
    ATCCCATCAA GACAAGATTC CAGGAAGGTC CACACAAGTC CGCCTATGTA CTCTCTGGAT 
    CGAATATTTG CTGGATTTCG AACACGAAGT CAGATGCTGT TGGGTCACAT AGAAGAACAA 
    GATAAGGTCC TCCACTGCCA ATTTTCTGAT AACAGTGATG ATGAAGAATC AGAAGGCCAA 
    GAGAAATCTG GAACTAGATG TAGAAGTCGT TCATGGATTC AGAAGCCAGA CTCTGTTTGT 
    TCCCTTGTTG AATTGAGTGA TACTCAGGAT GAAACACAAA AGTCAGATTT GGAGAATGAA 
    GATTTAAAGA TTGATTGTCT CCAGGAGAGT CAAGAATTGA ATTTGCAAAA ATTAAAGAAT 
    TCAGAACGCA TACTTACTGA AGCTAAACAA AAAATGAGAG AACTTACAAT TAACATCAAG 
    ATGAAGGAAG ATCTGATTAA AGAATTAATA AAAACAGGTA ATGATGCCAA GTCTGTAAGC 
    AAGCAGTATT CTTTGAAAGT AACAAAGCTA GAGCATGATG CAGAACAGGC AAAAGTCGAA 
    CTGATTGAAA CACAAAAGCA GCTACAGGAG CTGGAAAACA AAGATCTTTC TGATGTTGCA 
    ATGAAGGTAA AATTACAGAA AGAGTTTCGT AAAAAGATGG ATGCTGCAAA GCTGAGAGTT 
    CAGGTCTTGC AGAAGAAGCA ACAAGATAGT AAGAAACTGG CATCACTGTC AATCCAAAAT 
    GAGAAACGTG CTAATGAGCT AGAGCAGAGT GTAGATCACA TGAAATATCA AAAGATACAG 
    CTACAAAGAA AACTACGAGA AGAAAATGAA AAAAGGAAGC AACTGGATGC AGTAATTAAG 
    CGGGACCAGC AAAAAATCAA AGAAATACAA TTAAAAACAG GACAGGAAGA AGGTCTAAAA 
    CCGAAAGCTG AGGACCTTGA TGCATGTAAC TTGAAAAGGA GAAAAGGTTC GTTTGGAAGT 
    ATAGACCATC TCCAGAAATT GGATGAGCAA AAGAAATGGT TAGATGAAGA AGTAGAGAAA 
    GTTCTGAACC AACGCCAAGA ATTAGAGGAG CTGGAAGCAG ACTTAAAGAA ACGGGAGGCC 
    ATAGTTTCTA AGAAGGAGGC TCTGTTACAG GAGAAGAGTC ACCTGGAAAA TAAGAAATTG 
    AGATCTAGTC AGGCCTTAAA CACAGATAGT TTGAAAATAT CAACTCGCCT GAACTTACTG 
    GAACAAGAGT TGTCTGAAAA GAATGTGCAG CTCCAGACCA GTACAGCTGA GGAGAAAACA 
    AAGATTTCAG AACAAGTTGA AGTCCTCCAG AAAGAAAAGG ATCAGCTCCA GAAACGCAGA 
    CACAATGTGG ATGAAAAACT TAAAAATGGT AGAGTGTTAT CACCTGAAGA AGAACATGTT 
    CTTTTCCAAC TTGAAGAAGG GATTGAAGCT TTGGAAGCTG CAATTGAATA CAGGAATGAA 
    AGTATCCAGA ATCGCCAGAA GTCACTTAGA GCATCATTCC ATAACCTCTC TCGTGGTGAA 
    GCAAATGTCT TGGAAAAGCT AGCTTGCCTG AGTCCTGTTG AGATTAGAAC TATTCTTTTC 
    AGATATTTCA ATAAGGTGGT GAATTTGCGA GAAGCTGAAC GGAAACAACA GTTATATAAT 
    GAAGAAATGA AAATGAAAGT TCTGGAACGG GATAATATGG TTCGTGAATT AGAATCTGCA 
    CTGGACCATC TAAAATTGCA GTGTGACCGG AGACTGACCC TCCAGCAAAA GGAACACGAA 
    CAAAAGATGC AGTTGCTATT ACATCATTTC AAAGAACAAG ATGGAGAAGG CATTATGGAA 
    ACTTTCAAAA CATATGAAGA TAAAATCCAG CAGTTGGAAA AAGATCTTTA TTTCTATAAG 
    AAAACCAGCC GGGATCATAA GAAGAAACTT AAGGAACTGG TAGGGGAAGC AATTCGGCGG 
    CAACTAGCAC CATCAGAGTA TCAAGAGGCT GGAGATGGAG TCCTGAAGCC AGAAGGAGGA 
    GGCATGCTTT CAGAAGAATT AAAATGGGCA TCCAGACCTG AAAGTATGAA ATTAAGTGGA 
    AGAGAAAGAG AAATGGACAG TTCAGCAAGC AGCTTAAGAA CACAGCCAAA TCCTCAAAAG 
    CTCTGGGAAG ATATCCCAGA ATTACCTCCA ATTCATAGTT CTTTAGCACC CCCCAGTGGG 
    CATATGTTAG GTAATGAGAA TAAAACAGAA ACAGATGATA ATCAGTTTAC AAAATCTCAC 
    AGTCGACTGT CATCCCAAAT TCAGGTTGTG GGAAATGTGG GACGACTTCA TGGTGTCACA 
    CCTGTAAAAC TGTGTCGAAA AGAATTACGT CAAATTTCCG CCTTGGAACT ATCATTGCGA 
    CGTTCCAGTC TTGGAGTTGG CATTGGATCA ATGGCTGCTG ATTCCATCGA AGTATCTAGG 
    AAACCAAGGG ACTTAAAAAC TTAG

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

    KIF27 ( XM_011518848.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011517150.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OHu69489
    Clone ID Related Accession (Same CDS sequence) XM_017014900.1 , XM_017014901.2 , XM_017014901.1 , XM_011518849.2 , XM_011518848.2 , XM_011518848.3 , XM_017014902.1 , XM_011518850.2
    Accession Version XM_011518848.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4284bp)
    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 KIF27 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011518848.2. ##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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGCCCCTGGC AAAAACCACT 
    TTACTTTCTA CTTCTATGGA TTTGCCTATT CTAAACATTT CATACAACTG GAATCATACA 
    AATGAAAAAA TAATAGAACA ACAACTTCTT GTGGATCAAC TGAGTGAAGA ACTAACAAAA 
    CTTAACCTGT CAGTGACTTC TTCAGCTAAA GAAAATTGTG GAGATGGGCC AGATGCCAGG 
    ATCCCTGAAA GGAGACCATA TACTGTACCA TTTGATACTC ATTTGGGGCA TTATATTTAT 
    ATCCCATCAA GACAAGATTC CAGGAAGGTC CACACAAGTC CGCCTATGTA CTCTCTGGAT 
    CGAATATTTG CTGGATTTCG AACACGAAGT CAGATGCTGT TGGGTCACAT AGAAGAACAA 
    GATAAGGTCC TCCACTGCCA ATTTTCTGAT AACAGTGATG ATGAAGAATC AGAAGGCCAA 
    GAGAAATCTG GAACTAGATG TAGAAGTCGT TCATGGATTC AGAAGCCAGA CTCTGTTTGT 
    TCCCTTGTTG AATTGAGTGA TACTCAGGAT GAAACACAAA AGTCAGATTT GGAGAATGAA 
    GATTTAAAGA TTGATTGTCT CCAGGAGAGT CAAGAATTGA ATTTGCAAAA ATTAAAGAAT 
    TCAGAACGCA TACTTACTGA AGCTAAACAA AAAATGAGAG AACTTACAAT TAACATCAAG 
    ATGAAGGAAG ATCTGATTAA AGAATTAATA AAAACAGGTA ATGATGCCAA GTCTGTAAGC 
    AAGCAGTATT CTTTGAAAGT AACAAAGCTA GAGCATGATG CAGAACAGGC AAAAGTCGAA 
    CTGATTGAAA CACAAAAGCA GCTACAGGAG CTGGAAAACA AAGATCTTTC TGATGTTGCA 
    ATGAAGGTAA AATTACAGAA AGAGTTTCGT AAAAAGATGG ATGCTGCAAA GCTGAGAGTT 
    CAGGTCTTGC AGAAGAAGCA ACAAGATAGT AAGAAACTGG CATCACTGTC AATCCAAAAT 
    GAGAAACGTG CTAATGAGCT AGAGCAGAGT GTAGATCACA TGAAATATCA AAAGATACAG 
    CTACAAAGAA AACTACGAGA AGAAAATGAA AAAAGGAAGC AACTGGATGC AGTAATTAAG 
    CGGGACCAGC AAAAAATCAA AGAAATACAA TTAAAAACAG GACAGGAAGA AGGTCTAAAA 
    CCGAAAGCTG AGGACCTTGA TGCATGTAAC TTGAAAAGGA GAAAAGGTTC GTTTGGAAGT 
    ATAGACCATC TCCAGAAATT GGATGAGCAA AAGAAATGGT TAGATGAAGA AGTAGAGAAA 
    GTTCTGAACC AACGCCAAGA ATTAGAGGAG CTGGAAGCAG ACTTAAAGAA ACGGGAGGCC 
    ATAGTTTCTA AGAAGGAGGC TCTGTTACAG GAGAAGAGTC ACCTGGAAAA TAAGAAATTG 
    AGATCTAGTC AGGCCTTAAA CACAGATAGT TTGAAAATAT CAACTCGCCT GAACTTACTG 
    GAACAAGAGT TGTCTGAAAA GAATGTGCAG CTCCAGACCA GTACAGCTGA GGAGAAAACA 
    AAGATTTCAG AACAAGTTGA AGTCCTCCAG AAAGAAAAGG ATCAGCTCCA GAAACGCAGA 
    CACAATGTGG ATGAAAAACT TAAAAATGGT AGAGTGTTAT CACCTGAAGA AGAACATGTT 
    CTTTTCCAAC TTGAAGAAGG GATTGAAGCT TTGGAAGCTG CAATTGAATA CAGGAATGAA 
    AGTATCCAGA ATCGCCAGAA GTCACTTAGA GCATCATTCC ATAACCTCTC TCGTGGTGAA 
    GCAAATGTCT TGGAAAAGCT AGCTTGCCTG AGTCCTGTTG AGATTAGAAC TATTCTTTTC 
    AGATATTTCA ATAAGGTGGT GAATTTGCGA GAAGCTGAAC GGAAACAACA GTTATATAAT 
    GAAGAAATGA AAATGAAAGT TCTGGAACGG GATAATATGG TTCGTGAATT AGAATCTGCA 
    CTGGACCATC TAAAATTGCA GTGTGACCGG AGACTGACCC TCCAGCAAAA GGAACACGAA 
    CAAAAGATGC AGTTGCTATT ACATCATTTC AAAGAACAAG ATGGAGAAGG CATTATGGAA 
    ACTTTCAAAA CATATGAAGA TAAAATCCAG CAGTTGGAAA AAGATCTTTA TTTCTATAAG 
    AAAACCAGCC GGGATCATAA GAAGAAACTT AAGGAACTGG TAGGGGAAGC AATTCGGCGG 
    CAACTAGCAC CATCAGAGTA TCAAGAGGCT GGAGATGGAG TCCTGAAGCC AGAAGGAGGA 
    GGCATGCTTT CAGAAGAATT AAAATGGGCA TCCAGACCTG AAAGTATGAA ATTAAGTGGA 
    AGAGAAAGAG AAATGGACAG TTCAGCAAGC AGCTTAAGAA CACAGCCAAA TCCTCAAAAG 
    CTCTGGGAAG ATATCCCAGA ATTACCTCCA ATTCATAGTT CTTTAGCACC CCCCAGTGGG 
    CATATGTTAG GTAATGAGAA TAAAACAGAA ACAGATGATA ATCAGTTTAC AAAATCTCAC 
    AGTCGACTGT CATCCCAAAT TCAGGTTGTG GGAAATGTGG GACGACTTCA TGGTGTCACA 
    CCTGTAAAAC TGTGTCGAAA AGAATTACGT CAAATTTCCG CCTTGGAACT ATCATTGCGA 
    CGTTCCAGTC TTGGAGTTGG CATTGGATCA ATGGCTGCTG ATTCCATCGA AGTATCTAGG 
    AAACCAAGGG ACTTAAAAAC TTAG

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

    RefSeq XP_011517150.1
    CDS185..4468
    Translation

    Target ORF information:

    RefSeq Version XM_011518848.3
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011518848.3

    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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGCCCCTGGC AAAAACCACT 
    TTACTTTCTA CTTCTATGGA TTTGCCTATT CTAAACATTT CATACAACTG GAATCATACA 
    AATGAAAAAA TAATAGAACA ACAACTTCTT GTGGATCAAC TGAGTGAAGA ACTAACAAAA 
    CTTAACCTGT CAGTGACTTC TTCAGCTAAA GAAAATTGTG GAGATGGGCC AGATGCCAGG 
    ATCCCTGAAA GGAGACCATA TACTGTACCA TTTGATACTC ATTTGGGGCA TTATATTTAT 
    ATCCCATCAA GACAAGATTC CAGGAAGGTC CACACAAGTC CGCCTATGTA CTCTCTGGAT 
    CGAATATTTG CTGGATTTCG AACACGAAGT CAGATGCTGT TGGGTCACAT AGAAGAACAA 
    GATAAGGTCC TCCACTGCCA ATTTTCTGAT AACAGTGATG ATGAAGAATC AGAAGGCCAA 
    GAGAAATCTG GAACTAGATG TAGAAGTCGT TCATGGATTC AGAAGCCAGA CTCTGTTTGT 
    TCCCTTGTTG AATTGAGTGA TACTCAGGAT GAAACACAAA AGTCAGATTT GGAGAATGAA 
    GATTTAAAGA TTGATTGTCT CCAGGAGAGT CAAGAATTGA ATTTGCAAAA ATTAAAGAAT 
    TCAGAACGCA TACTTACTGA AGCTAAACAA AAAATGAGAG AACTTACAAT TAACATCAAG 
    ATGAAGGAAG ATCTGATTAA AGAATTAATA AAAACAGGTA ATGATGCCAA GTCTGTAAGC 
    AAGCAGTATT CTTTGAAAGT AACAAAGCTA GAGCATGATG CAGAACAGGC AAAAGTCGAA 
    CTGATTGAAA CACAAAAGCA GCTACAGGAG CTGGAAAACA AAGATCTTTC TGATGTTGCA 
    ATGAAGGTAA AATTACAGAA AGAGTTTCGT AAAAAGATGG ATGCTGCAAA GCTGAGAGTT 
    CAGGTCTTGC AGAAGAAGCA ACAAGATAGT AAGAAACTGG CATCACTGTC AATCCAAAAT 
    GAGAAACGTG CTAATGAGCT AGAGCAGAGT GTAGATCACA TGAAATATCA AAAGATACAG 
    CTACAAAGAA AACTACGAGA AGAAAATGAA AAAAGGAAGC AACTGGATGC AGTAATTAAG 
    CGGGACCAGC AAAAAATCAA AGAAATACAA TTAAAAACAG GACAGGAAGA AGGTCTAAAA 
    CCGAAAGCTG AGGACCTTGA TGCATGTAAC TTGAAAAGGA GAAAAGGTTC GTTTGGAAGT 
    ATAGACCATC TCCAGAAATT GGATGAGCAA AAGAAATGGT TAGATGAAGA AGTAGAGAAA 
    GTTCTGAACC AACGCCAAGA ATTAGAGGAG CTGGAAGCAG ACTTAAAGAA ACGGGAGGCC 
    ATAGTTTCTA AGAAGGAGGC TCTGTTACAG GAGAAGAGTC ACCTGGAAAA TAAGAAATTG 
    AGATCTAGTC AGGCCTTAAA CACAGATAGT TTGAAAATAT CAACTCGCCT GAACTTACTG 
    GAACAAGAGT TGTCTGAAAA GAATGTGCAG CTCCAGACCA GTACAGCTGA GGAGAAAACA 
    AAGATTTCAG AACAAGTTGA AGTCCTCCAG AAAGAAAAGG ATCAGCTCCA GAAACGCAGA 
    CACAATGTGG ATGAAAAACT TAAAAATGGT AGAGTGTTAT CACCTGAAGA AGAACATGTT 
    CTTTTCCAAC TTGAAGAAGG GATTGAAGCT TTGGAAGCTG CAATTGAATA CAGGAATGAA 
    AGTATCCAGA ATCGCCAGAA GTCACTTAGA GCATCATTCC ATAACCTCTC TCGTGGTGAA 
    GCAAATGTCT TGGAAAAGCT AGCTTGCCTG AGTCCTGTTG AGATTAGAAC TATTCTTTTC 
    AGATATTTCA ATAAGGTGGT GAATTTGCGA GAAGCTGAAC GGAAACAACA GTTATATAAT 
    GAAGAAATGA AAATGAAAGT TCTGGAACGG GATAATATGG TTCGTGAATT AGAATCTGCA 
    CTGGACCATC TAAAATTGCA GTGTGACCGG AGACTGACCC TCCAGCAAAA GGAACACGAA 
    CAAAAGATGC AGTTGCTATT ACATCATTTC AAAGAACAAG ATGGAGAAGG CATTATGGAA 
    ACTTTCAAAA CATATGAAGA TAAAATCCAG CAGTTGGAAA AAGATCTTTA TTTCTATAAG 
    AAAACCAGCC GGGATCATAA GAAGAAACTT AAGGAACTGG TAGGGGAAGC AATTCGGCGG 
    CAACTAGCAC CATCAGAGTA TCAAGAGGCT GGAGATGGAG TCCTGAAGCC AGAAGGAGGA 
    GGCATGCTTT CAGAAGAATT AAAATGGGCA TCCAGACCTG AAAGTATGAA ATTAAGTGGA 
    AGAGAAAGAG AAATGGACAG TTCAGCAAGC AGCTTAAGAA CACAGCCAAA TCCTCAAAAG 
    CTCTGGGAAG ATATCCCAGA ATTACCTCCA ATTCATAGTT CTTTAGCACC CCCCAGTGGG 
    CATATGTTAG GTAATGAGAA TAAAACAGAA ACAGATGATA ATCAGTTTAC AAAATCTCAC 
    AGTCGACTGT CATCCCAAAT TCAGGTTGTG GGAAATGTGG GACGACTTCA TGGTGTCACA 
    CCTGTAAAAC TGTGTCGAAA AGAATTACGT CAAATTTCCG CCTTGGAACT ATCATTGCGA 
    CGTTCCAGTC TTGGAGTTGG CATTGGATCA ATGGCTGCTG ATTCCATCGA AGTATCTAGG 
    AAACCAAGGG ACTTAAAAAC TTAG

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

    KIF27 ( XM_017014902.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016870391.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OHu69489
    Clone ID Related Accession (Same CDS sequence) XM_017014900.1 , XM_017014901.2 , XM_017014901.1 , XM_011518849.2 , XM_011518848.2 , XM_011518848.3 , XM_017014902.1 , XM_011518850.2
    Accession Version XM_017014902.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4284bp)
    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 KIF27 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) 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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGCCCCTGGC AAAAACCACT 
    TTACTTTCTA CTTCTATGGA TTTGCCTATT CTAAACATTT CATACAACTG GAATCATACA 
    AATGAAAAAA TAATAGAACA ACAACTTCTT GTGGATCAAC TGAGTGAAGA ACTAACAAAA 
    CTTAACCTGT CAGTGACTTC TTCAGCTAAA GAAAATTGTG GAGATGGGCC AGATGCCAGG 
    ATCCCTGAAA GGAGACCATA TACTGTACCA TTTGATACTC ATTTGGGGCA TTATATTTAT 
    ATCCCATCAA GACAAGATTC CAGGAAGGTC CACACAAGTC CGCCTATGTA CTCTCTGGAT 
    CGAATATTTG CTGGATTTCG AACACGAAGT CAGATGCTGT TGGGTCACAT AGAAGAACAA 
    GATAAGGTCC TCCACTGCCA ATTTTCTGAT AACAGTGATG ATGAAGAATC AGAAGGCCAA 
    GAGAAATCTG GAACTAGATG TAGAAGTCGT TCATGGATTC AGAAGCCAGA CTCTGTTTGT 
    TCCCTTGTTG AATTGAGTGA TACTCAGGAT GAAACACAAA AGTCAGATTT GGAGAATGAA 
    GATTTAAAGA TTGATTGTCT CCAGGAGAGT CAAGAATTGA ATTTGCAAAA ATTAAAGAAT 
    TCAGAACGCA TACTTACTGA AGCTAAACAA AAAATGAGAG AACTTACAAT TAACATCAAG 
    ATGAAGGAAG ATCTGATTAA AGAATTAATA AAAACAGGTA ATGATGCCAA GTCTGTAAGC 
    AAGCAGTATT CTTTGAAAGT AACAAAGCTA GAGCATGATG CAGAACAGGC AAAAGTCGAA 
    CTGATTGAAA CACAAAAGCA GCTACAGGAG CTGGAAAACA AAGATCTTTC TGATGTTGCA 
    ATGAAGGTAA AATTACAGAA AGAGTTTCGT AAAAAGATGG ATGCTGCAAA GCTGAGAGTT 
    CAGGTCTTGC AGAAGAAGCA ACAAGATAGT AAGAAACTGG CATCACTGTC AATCCAAAAT 
    GAGAAACGTG CTAATGAGCT AGAGCAGAGT GTAGATCACA TGAAATATCA AAAGATACAG 
    CTACAAAGAA AACTACGAGA AGAAAATGAA AAAAGGAAGC AACTGGATGC AGTAATTAAG 
    CGGGACCAGC AAAAAATCAA AGAAATACAA TTAAAAACAG GACAGGAAGA AGGTCTAAAA 
    CCGAAAGCTG AGGACCTTGA TGCATGTAAC TTGAAAAGGA GAAAAGGTTC GTTTGGAAGT 
    ATAGACCATC TCCAGAAATT GGATGAGCAA AAGAAATGGT TAGATGAAGA AGTAGAGAAA 
    GTTCTGAACC AACGCCAAGA ATTAGAGGAG CTGGAAGCAG ACTTAAAGAA ACGGGAGGCC 
    ATAGTTTCTA AGAAGGAGGC TCTGTTACAG GAGAAGAGTC ACCTGGAAAA TAAGAAATTG 
    AGATCTAGTC AGGCCTTAAA CACAGATAGT TTGAAAATAT CAACTCGCCT GAACTTACTG 
    GAACAAGAGT TGTCTGAAAA GAATGTGCAG CTCCAGACCA GTACAGCTGA GGAGAAAACA 
    AAGATTTCAG AACAAGTTGA AGTCCTCCAG AAAGAAAAGG ATCAGCTCCA GAAACGCAGA 
    CACAATGTGG ATGAAAAACT TAAAAATGGT AGAGTGTTAT CACCTGAAGA AGAACATGTT 
    CTTTTCCAAC TTGAAGAAGG GATTGAAGCT TTGGAAGCTG CAATTGAATA CAGGAATGAA 
    AGTATCCAGA ATCGCCAGAA GTCACTTAGA GCATCATTCC ATAACCTCTC TCGTGGTGAA 
    GCAAATGTCT TGGAAAAGCT AGCTTGCCTG AGTCCTGTTG AGATTAGAAC TATTCTTTTC 
    AGATATTTCA ATAAGGTGGT GAATTTGCGA GAAGCTGAAC GGAAACAACA GTTATATAAT 
    GAAGAAATGA AAATGAAAGT TCTGGAACGG GATAATATGG TTCGTGAATT AGAATCTGCA 
    CTGGACCATC TAAAATTGCA GTGTGACCGG AGACTGACCC TCCAGCAAAA GGAACACGAA 
    CAAAAGATGC AGTTGCTATT ACATCATTTC AAAGAACAAG ATGGAGAAGG CATTATGGAA 
    ACTTTCAAAA CATATGAAGA TAAAATCCAG CAGTTGGAAA AAGATCTTTA TTTCTATAAG 
    AAAACCAGCC GGGATCATAA GAAGAAACTT AAGGAACTGG TAGGGGAAGC AATTCGGCGG 
    CAACTAGCAC CATCAGAGTA TCAAGAGGCT GGAGATGGAG TCCTGAAGCC AGAAGGAGGA 
    GGCATGCTTT CAGAAGAATT AAAATGGGCA TCCAGACCTG AAAGTATGAA ATTAAGTGGA 
    AGAGAAAGAG AAATGGACAG TTCAGCAAGC AGCTTAAGAA CACAGCCAAA TCCTCAAAAG 
    CTCTGGGAAG ATATCCCAGA ATTACCTCCA ATTCATAGTT CTTTAGCACC CCCCAGTGGG 
    CATATGTTAG GTAATGAGAA TAAAACAGAA ACAGATGATA ATCAGTTTAC AAAATCTCAC 
    AGTCGACTGT CATCCCAAAT TCAGGTTGTG GGAAATGTGG GACGACTTCA TGGTGTCACA 
    CCTGTAAAAC TGTGTCGAAA AGAATTACGT CAAATTTCCG CCTTGGAACT ATCATTGCGA 
    CGTTCCAGTC TTGGAGTTGG CATTGGATCA ATGGCTGCTG ATTCCATCGA AGTATCTAGG 
    AAACCAAGGG ACTTAAAAAC TTAG

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

    RefSeq XP_016870391.1
    CDS380..4663
    Translation

    Target ORF information:

    RefSeq Version XM_017014902.1
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017014902.1

    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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGCCCCTGGC AAAAACCACT 
    TTACTTTCTA CTTCTATGGA TTTGCCTATT CTAAACATTT CATACAACTG GAATCATACA 
    AATGAAAAAA TAATAGAACA ACAACTTCTT GTGGATCAAC TGAGTGAAGA ACTAACAAAA 
    CTTAACCTGT CAGTGACTTC TTCAGCTAAA GAAAATTGTG GAGATGGGCC AGATGCCAGG 
    ATCCCTGAAA GGAGACCATA TACTGTACCA TTTGATACTC ATTTGGGGCA TTATATTTAT 
    ATCCCATCAA GACAAGATTC CAGGAAGGTC CACACAAGTC CGCCTATGTA CTCTCTGGAT 
    CGAATATTTG CTGGATTTCG AACACGAAGT CAGATGCTGT TGGGTCACAT AGAAGAACAA 
    GATAAGGTCC TCCACTGCCA ATTTTCTGAT AACAGTGATG ATGAAGAATC AGAAGGCCAA 
    GAGAAATCTG GAACTAGATG TAGAAGTCGT TCATGGATTC AGAAGCCAGA CTCTGTTTGT 
    TCCCTTGTTG AATTGAGTGA TACTCAGGAT GAAACACAAA AGTCAGATTT GGAGAATGAA 
    GATTTAAAGA TTGATTGTCT CCAGGAGAGT CAAGAATTGA ATTTGCAAAA ATTAAAGAAT 
    TCAGAACGCA TACTTACTGA AGCTAAACAA AAAATGAGAG AACTTACAAT TAACATCAAG 
    ATGAAGGAAG ATCTGATTAA AGAATTAATA AAAACAGGTA ATGATGCCAA GTCTGTAAGC 
    AAGCAGTATT CTTTGAAAGT AACAAAGCTA GAGCATGATG CAGAACAGGC AAAAGTCGAA 
    CTGATTGAAA CACAAAAGCA GCTACAGGAG CTGGAAAACA AAGATCTTTC TGATGTTGCA 
    ATGAAGGTAA AATTACAGAA AGAGTTTCGT AAAAAGATGG ATGCTGCAAA GCTGAGAGTT 
    CAGGTCTTGC AGAAGAAGCA ACAAGATAGT AAGAAACTGG CATCACTGTC AATCCAAAAT 
    GAGAAACGTG CTAATGAGCT AGAGCAGAGT GTAGATCACA TGAAATATCA AAAGATACAG 
    CTACAAAGAA AACTACGAGA AGAAAATGAA AAAAGGAAGC AACTGGATGC AGTAATTAAG 
    CGGGACCAGC AAAAAATCAA AGAAATACAA TTAAAAACAG GACAGGAAGA AGGTCTAAAA 
    CCGAAAGCTG AGGACCTTGA TGCATGTAAC TTGAAAAGGA GAAAAGGTTC GTTTGGAAGT 
    ATAGACCATC TCCAGAAATT GGATGAGCAA AAGAAATGGT TAGATGAAGA AGTAGAGAAA 
    GTTCTGAACC AACGCCAAGA ATTAGAGGAG CTGGAAGCAG ACTTAAAGAA ACGGGAGGCC 
    ATAGTTTCTA AGAAGGAGGC TCTGTTACAG GAGAAGAGTC ACCTGGAAAA TAAGAAATTG 
    AGATCTAGTC AGGCCTTAAA CACAGATAGT TTGAAAATAT CAACTCGCCT GAACTTACTG 
    GAACAAGAGT TGTCTGAAAA GAATGTGCAG CTCCAGACCA GTACAGCTGA GGAGAAAACA 
    AAGATTTCAG AACAAGTTGA AGTCCTCCAG AAAGAAAAGG ATCAGCTCCA GAAACGCAGA 
    CACAATGTGG ATGAAAAACT TAAAAATGGT AGAGTGTTAT CACCTGAAGA AGAACATGTT 
    CTTTTCCAAC TTGAAGAAGG GATTGAAGCT TTGGAAGCTG CAATTGAATA CAGGAATGAA 
    AGTATCCAGA ATCGCCAGAA GTCACTTAGA GCATCATTCC ATAACCTCTC TCGTGGTGAA 
    GCAAATGTCT TGGAAAAGCT AGCTTGCCTG AGTCCTGTTG AGATTAGAAC TATTCTTTTC 
    AGATATTTCA ATAAGGTGGT GAATTTGCGA GAAGCTGAAC GGAAACAACA GTTATATAAT 
    GAAGAAATGA AAATGAAAGT TCTGGAACGG GATAATATGG TTCGTGAATT AGAATCTGCA 
    CTGGACCATC TAAAATTGCA GTGTGACCGG AGACTGACCC TCCAGCAAAA GGAACACGAA 
    CAAAAGATGC AGTTGCTATT ACATCATTTC AAAGAACAAG ATGGAGAAGG CATTATGGAA 
    ACTTTCAAAA CATATGAAGA TAAAATCCAG CAGTTGGAAA AAGATCTTTA TTTCTATAAG 
    AAAACCAGCC GGGATCATAA GAAGAAACTT AAGGAACTGG TAGGGGAAGC AATTCGGCGG 
    CAACTAGCAC CATCAGAGTA TCAAGAGGCT GGAGATGGAG TCCTGAAGCC AGAAGGAGGA 
    GGCATGCTTT CAGAAGAATT AAAATGGGCA TCCAGACCTG AAAGTATGAA ATTAAGTGGA 
    AGAGAAAGAG AAATGGACAG TTCAGCAAGC AGCTTAAGAA CACAGCCAAA TCCTCAAAAG 
    CTCTGGGAAG ATATCCCAGA ATTACCTCCA ATTCATAGTT CTTTAGCACC CCCCAGTGGG 
    CATATGTTAG GTAATGAGAA TAAAACAGAA ACAGATGATA ATCAGTTTAC AAAATCTCAC 
    AGTCGACTGT CATCCCAAAT TCAGGTTGTG GGAAATGTGG GACGACTTCA TGGTGTCACA 
    CCTGTAAAAC TGTGTCGAAA AGAATTACGT CAAATTTCCG CCTTGGAACT ATCATTGCGA 
    CGTTCCAGTC TTGGAGTTGG CATTGGATCA ATGGCTGCTG ATTCCATCGA AGTATCTAGG 
    AAACCAAGGG ACTTAAAAAC TTAG

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

    KIF27 ( XM_011518850.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011517152.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OHu69489
    Clone ID Related Accession (Same CDS sequence) XM_017014900.1 , XM_017014901.2 , XM_017014901.1 , XM_011518849.2 , XM_011518848.2 , XM_011518848.3 , XM_017014902.1 , XM_011518850.2
    Accession Version XM_011518850.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4284bp)
    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 KIF27 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) 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_011518850.1. ##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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGCCCCTGGC AAAAACCACT 
    TTACTTTCTA CTTCTATGGA TTTGCCTATT CTAAACATTT CATACAACTG GAATCATACA 
    AATGAAAAAA TAATAGAACA ACAACTTCTT GTGGATCAAC TGAGTGAAGA ACTAACAAAA 
    CTTAACCTGT CAGTGACTTC TTCAGCTAAA GAAAATTGTG GAGATGGGCC AGATGCCAGG 
    ATCCCTGAAA GGAGACCATA TACTGTACCA TTTGATACTC ATTTGGGGCA TTATATTTAT 
    ATCCCATCAA GACAAGATTC CAGGAAGGTC CACACAAGTC CGCCTATGTA CTCTCTGGAT 
    CGAATATTTG CTGGATTTCG AACACGAAGT CAGATGCTGT TGGGTCACAT AGAAGAACAA 
    GATAAGGTCC TCCACTGCCA ATTTTCTGAT AACAGTGATG ATGAAGAATC AGAAGGCCAA 
    GAGAAATCTG GAACTAGATG TAGAAGTCGT TCATGGATTC AGAAGCCAGA CTCTGTTTGT 
    TCCCTTGTTG AATTGAGTGA TACTCAGGAT GAAACACAAA AGTCAGATTT GGAGAATGAA 
    GATTTAAAGA TTGATTGTCT CCAGGAGAGT CAAGAATTGA ATTTGCAAAA ATTAAAGAAT 
    TCAGAACGCA TACTTACTGA AGCTAAACAA AAAATGAGAG AACTTACAAT TAACATCAAG 
    ATGAAGGAAG ATCTGATTAA AGAATTAATA AAAACAGGTA ATGATGCCAA GTCTGTAAGC 
    AAGCAGTATT CTTTGAAAGT AACAAAGCTA GAGCATGATG CAGAACAGGC AAAAGTCGAA 
    CTGATTGAAA CACAAAAGCA GCTACAGGAG CTGGAAAACA AAGATCTTTC TGATGTTGCA 
    ATGAAGGTAA AATTACAGAA AGAGTTTCGT AAAAAGATGG ATGCTGCAAA GCTGAGAGTT 
    CAGGTCTTGC AGAAGAAGCA ACAAGATAGT AAGAAACTGG CATCACTGTC AATCCAAAAT 
    GAGAAACGTG CTAATGAGCT AGAGCAGAGT GTAGATCACA TGAAATATCA AAAGATACAG 
    CTACAAAGAA AACTACGAGA AGAAAATGAA AAAAGGAAGC AACTGGATGC AGTAATTAAG 
    CGGGACCAGC AAAAAATCAA AGAAATACAA TTAAAAACAG GACAGGAAGA AGGTCTAAAA 
    CCGAAAGCTG AGGACCTTGA TGCATGTAAC TTGAAAAGGA GAAAAGGTTC GTTTGGAAGT 
    ATAGACCATC TCCAGAAATT GGATGAGCAA AAGAAATGGT TAGATGAAGA AGTAGAGAAA 
    GTTCTGAACC AACGCCAAGA ATTAGAGGAG CTGGAAGCAG ACTTAAAGAA ACGGGAGGCC 
    ATAGTTTCTA AGAAGGAGGC TCTGTTACAG GAGAAGAGTC ACCTGGAAAA TAAGAAATTG 
    AGATCTAGTC AGGCCTTAAA CACAGATAGT TTGAAAATAT CAACTCGCCT GAACTTACTG 
    GAACAAGAGT TGTCTGAAAA GAATGTGCAG CTCCAGACCA GTACAGCTGA GGAGAAAACA 
    AAGATTTCAG AACAAGTTGA AGTCCTCCAG AAAGAAAAGG ATCAGCTCCA GAAACGCAGA 
    CACAATGTGG ATGAAAAACT TAAAAATGGT AGAGTGTTAT CACCTGAAGA AGAACATGTT 
    CTTTTCCAAC TTGAAGAAGG GATTGAAGCT TTGGAAGCTG CAATTGAATA CAGGAATGAA 
    AGTATCCAGA ATCGCCAGAA GTCACTTAGA GCATCATTCC ATAACCTCTC TCGTGGTGAA 
    GCAAATGTCT TGGAAAAGCT AGCTTGCCTG AGTCCTGTTG AGATTAGAAC TATTCTTTTC 
    AGATATTTCA ATAAGGTGGT GAATTTGCGA GAAGCTGAAC GGAAACAACA GTTATATAAT 
    GAAGAAATGA AAATGAAAGT TCTGGAACGG GATAATATGG TTCGTGAATT AGAATCTGCA 
    CTGGACCATC TAAAATTGCA GTGTGACCGG AGACTGACCC TCCAGCAAAA GGAACACGAA 
    CAAAAGATGC AGTTGCTATT ACATCATTTC AAAGAACAAG ATGGAGAAGG CATTATGGAA 
    ACTTTCAAAA CATATGAAGA TAAAATCCAG CAGTTGGAAA AAGATCTTTA TTTCTATAAG 
    AAAACCAGCC GGGATCATAA GAAGAAACTT AAGGAACTGG TAGGGGAAGC AATTCGGCGG 
    CAACTAGCAC CATCAGAGTA TCAAGAGGCT GGAGATGGAG TCCTGAAGCC AGAAGGAGGA 
    GGCATGCTTT CAGAAGAATT AAAATGGGCA TCCAGACCTG AAAGTATGAA ATTAAGTGGA 
    AGAGAAAGAG AAATGGACAG TTCAGCAAGC AGCTTAAGAA CACAGCCAAA TCCTCAAAAG 
    CTCTGGGAAG ATATCCCAGA ATTACCTCCA ATTCATAGTT CTTTAGCACC CCCCAGTGGG 
    CATATGTTAG GTAATGAGAA TAAAACAGAA ACAGATGATA ATCAGTTTAC AAAATCTCAC 
    AGTCGACTGT CATCCCAAAT TCAGGTTGTG GGAAATGTGG GACGACTTCA TGGTGTCACA 
    CCTGTAAAAC TGTGTCGAAA AGAATTACGT CAAATTTCCG CCTTGGAACT ATCATTGCGA 
    CGTTCCAGTC TTGGAGTTGG CATTGGATCA ATGGCTGCTG ATTCCATCGA AGTATCTAGG 
    AAACCAAGGG ACTTAAAAAC TTAG

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

    RefSeq XP_011517152.1
    CDS273..4556
    Translation

    Target ORF information:

    RefSeq Version XM_011518850.2
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011518850.2

    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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGCCCCTGGC AAAAACCACT 
    TTACTTTCTA CTTCTATGGA TTTGCCTATT CTAAACATTT CATACAACTG GAATCATACA 
    AATGAAAAAA TAATAGAACA ACAACTTCTT GTGGATCAAC TGAGTGAAGA ACTAACAAAA 
    CTTAACCTGT CAGTGACTTC TTCAGCTAAA GAAAATTGTG GAGATGGGCC AGATGCCAGG 
    ATCCCTGAAA GGAGACCATA TACTGTACCA TTTGATACTC ATTTGGGGCA TTATATTTAT 
    ATCCCATCAA GACAAGATTC CAGGAAGGTC CACACAAGTC CGCCTATGTA CTCTCTGGAT 
    CGAATATTTG CTGGATTTCG AACACGAAGT CAGATGCTGT TGGGTCACAT AGAAGAACAA 
    GATAAGGTCC TCCACTGCCA ATTTTCTGAT AACAGTGATG ATGAAGAATC AGAAGGCCAA 
    GAGAAATCTG GAACTAGATG TAGAAGTCGT TCATGGATTC AGAAGCCAGA CTCTGTTTGT 
    TCCCTTGTTG AATTGAGTGA TACTCAGGAT GAAACACAAA AGTCAGATTT GGAGAATGAA 
    GATTTAAAGA TTGATTGTCT CCAGGAGAGT CAAGAATTGA ATTTGCAAAA ATTAAAGAAT 
    TCAGAACGCA TACTTACTGA AGCTAAACAA AAAATGAGAG AACTTACAAT TAACATCAAG 
    ATGAAGGAAG ATCTGATTAA AGAATTAATA AAAACAGGTA ATGATGCCAA GTCTGTAAGC 
    AAGCAGTATT CTTTGAAAGT AACAAAGCTA GAGCATGATG CAGAACAGGC AAAAGTCGAA 
    CTGATTGAAA CACAAAAGCA GCTACAGGAG CTGGAAAACA AAGATCTTTC TGATGTTGCA 
    ATGAAGGTAA AATTACAGAA AGAGTTTCGT AAAAAGATGG ATGCTGCAAA GCTGAGAGTT 
    CAGGTCTTGC AGAAGAAGCA ACAAGATAGT AAGAAACTGG CATCACTGTC AATCCAAAAT 
    GAGAAACGTG CTAATGAGCT AGAGCAGAGT GTAGATCACA TGAAATATCA AAAGATACAG 
    CTACAAAGAA AACTACGAGA AGAAAATGAA AAAAGGAAGC AACTGGATGC AGTAATTAAG 
    CGGGACCAGC AAAAAATCAA AGAAATACAA TTAAAAACAG GACAGGAAGA AGGTCTAAAA 
    CCGAAAGCTG AGGACCTTGA TGCATGTAAC TTGAAAAGGA GAAAAGGTTC GTTTGGAAGT 
    ATAGACCATC TCCAGAAATT GGATGAGCAA AAGAAATGGT TAGATGAAGA AGTAGAGAAA 
    GTTCTGAACC AACGCCAAGA ATTAGAGGAG CTGGAAGCAG ACTTAAAGAA ACGGGAGGCC 
    ATAGTTTCTA AGAAGGAGGC TCTGTTACAG GAGAAGAGTC ACCTGGAAAA TAAGAAATTG 
    AGATCTAGTC AGGCCTTAAA CACAGATAGT TTGAAAATAT CAACTCGCCT GAACTTACTG 
    GAACAAGAGT TGTCTGAAAA GAATGTGCAG CTCCAGACCA GTACAGCTGA GGAGAAAACA 
    AAGATTTCAG AACAAGTTGA AGTCCTCCAG AAAGAAAAGG ATCAGCTCCA GAAACGCAGA 
    CACAATGTGG ATGAAAAACT TAAAAATGGT AGAGTGTTAT CACCTGAAGA AGAACATGTT 
    CTTTTCCAAC TTGAAGAAGG GATTGAAGCT TTGGAAGCTG CAATTGAATA CAGGAATGAA 
    AGTATCCAGA ATCGCCAGAA GTCACTTAGA GCATCATTCC ATAACCTCTC TCGTGGTGAA 
    GCAAATGTCT TGGAAAAGCT AGCTTGCCTG AGTCCTGTTG AGATTAGAAC TATTCTTTTC 
    AGATATTTCA ATAAGGTGGT GAATTTGCGA GAAGCTGAAC GGAAACAACA GTTATATAAT 
    GAAGAAATGA AAATGAAAGT TCTGGAACGG GATAATATGG TTCGTGAATT AGAATCTGCA 
    CTGGACCATC TAAAATTGCA GTGTGACCGG AGACTGACCC TCCAGCAAAA GGAACACGAA 
    CAAAAGATGC AGTTGCTATT ACATCATTTC AAAGAACAAG ATGGAGAAGG CATTATGGAA 
    ACTTTCAAAA CATATGAAGA TAAAATCCAG CAGTTGGAAA AAGATCTTTA TTTCTATAAG 
    AAAACCAGCC GGGATCATAA GAAGAAACTT AAGGAACTGG TAGGGGAAGC AATTCGGCGG 
    CAACTAGCAC CATCAGAGTA TCAAGAGGCT GGAGATGGAG TCCTGAAGCC AGAAGGAGGA 
    GGCATGCTTT CAGAAGAATT AAAATGGGCA TCCAGACCTG AAAGTATGAA ATTAAGTGGA 
    AGAGAAAGAG AAATGGACAG TTCAGCAAGC AGCTTAAGAA CACAGCCAAA TCCTCAAAAG 
    CTCTGGGAAG ATATCCCAGA ATTACCTCCA ATTCATAGTT CTTTAGCACC CCCCAGTGGG 
    CATATGTTAG GTAATGAGAA TAAAACAGAA ACAGATGATA ATCAGTTTAC AAAATCTCAC 
    AGTCGACTGT CATCCCAAAT TCAGGTTGTG GGAAATGTGG GACGACTTCA TGGTGTCACA 
    CCTGTAAAAC TGTGTCGAAA AGAATTACGT CAAATTTCCG CCTTGGAACT ATCATTGCGA 
    CGTTCCAGTC TTGGAGTTGG CATTGGATCA ATGGCTGCTG ATTCCATCGA AGTATCTAGG 
    AAACCAAGGG ACTTAAAAAC TTAG

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

    KIF27 ( XM_017014905.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016870394.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID OHu69491
    Clone ID Related Accession (Same CDS sequence) XM_017014905.1
    Accession Version XM_017014905.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4086bp)
    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 KIF27 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: 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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGCCCCTGGC AAAAACCACT 
    TTACTTTCTA CTTCTATGGA TTTGCCTATT CTAAACATTT CATACAACTG GAATCATACA 
    AATGAAAAAA TAATAGAACA ACAACTTCTT GTGGATCAAC TGAGTGAAGA ACTAACAAAA 
    CTTAACCTGT CAGTGACTTC TTCAGCTAAA GAAAATTGTG GAGATGGGCC AGATGCCAGG 
    ATCCCTGAAA GGAGACCATA TACTGTACCA TTTGATACTC ATTTGGGGCA TTATATTTAT 
    ATCCCATCAA GACAAGATTC CAGGAAGGTC CACACAAGTC CGCCTATGTA CTCTCTGGAT 
    CGAATATTTG CTGGATTTCG AACACGAAGT CAGATGCTGT TGGGTCACAT AGAAGAACAA 
    GATAAGGTCC TCCACTGCCA ATTTTCTGAT AACAGTGATG ATGAAGAATC AGAAGGCCAA 
    GAGAAATCTG GAACTAGATG TAGAAGTCGT TCATGGATTC AGAAGCCAGA CTCTGTTTGT 
    TCCCTTGTTG AATTGAGTGA TACTCAGGAT GAAACACAAA AGTCAGATTT GGAGAATGAA 
    GATTTAAAGA TTGATTGTCT CCAGGAGAGT CAAGAATTGA ATTTGCAAAA ATTAAAGAAT 
    TCAGAACGCA TACTTACTGA AGCTAAACAA AAAATGAGAG AACTTACAAT TAACATCAAG 
    ATGAAGGAAG ATCTGATTAA AGAATTAATA AAAACAGGTA ATGATGCCAA GTCTGTAAGC 
    AAGCAGTATT CTTTGAAAGT AACAAAGCTA GAGCATGATG CAGAACAGGC AAAAGTCGAA 
    CTGATTGAAA CACAAAAGCA GCTACAGGAG CTGGAAAACA AAGATCTTTC TGATGTTGCA 
    ATGAAGGTAA AATTACAGAA AGAGTTTCGT AAAAAGATGG ATGCTGCAAA GCTGAGAGTT 
    CAGGAAATAC AATTAAAAAC AGGACAGGAA GAAGGTCTAA AACCGAAAGC TGAGGACCTT 
    GATGCATGTA ACTTGAAAAG GAGAAAAGGT TCGTTTGGAA GTATAGACCA TCTCCAGAAA 
    TTGGATGAGC AAAAGAAATG GTTAGATGAA GAAGTAGAGA AAGTTCTGAA CCAACGCCAA 
    GAATTAGAGG AGCTGGAAGC AGACTTAAAG AAACGGGAGG CCATAGTTTC TAAGAAGGAG 
    GCTCTGTTAC AGGAGAAGAG TCACCTGGAA AATAAGAAAT TGAGATCTAG TCAGGCCTTA 
    AACACAGATA GTTTGAAAAT ATCAACTCGC CTGAACTTAC TGGAACAAGA GTTGTCTGAA 
    AAGAATGTGC AGCTCCAGAC CAGTACAGCT GAGGAGAAAA CAAAGATTTC AGAACAAGTT 
    GAAGTCCTCC AGAAAGAAAA GGATCAGCTC CAGAAACGCA GACACAATGT GGATGAAAAA 
    CTTAAAAATG GTAGAGTGTT ATCACCTGAA GAAGAACATG TTCTTTTCCA ACTTGAAGAA 
    GGGATTGAAG CTTTGGAAGC TGCAATTGAA TACAGGAATG AAAGTATCCA GAATCGCCAG 
    AAGTCACTTA GAGCATCATT CCATAACCTC TCTCGTGGTG AAGCAAATGT CTTGGAAAAG 
    CTAGCTTGCC TGAGTCCTGT TGAGATTAGA ACTATTCTTT TCAGATATTT CAATAAGGTG 
    GTGAATTTGC GAGAAGCTGA ACGGAAACAA CAGTTATATA ATGAAGAAAT GAAAATGAAA 
    GTTCTGGAAC GGGATAATAT GGTTCGTGAA TTAGAATCTG CACTGGACCA TCTAAAATTG 
    CAGTGTGACC GGAGACTGAC CCTCCAGCAA AAGGAACACG AACAAAAGAT GCAGTTGCTA 
    TTACATCATT TCAAAGAACA AGATGGAGAA GGCATTATGG AAACTTTCAA AACATATGAA 
    GATAAAATCC AGCAGTTGGA AAAAGATCTT TATTTCTATA AGAAAACCAG CCGGGATCAT 
    AAGAAGAAAC TTAAGGAACT GGTAGGGGAA GCAATTCGGC GGCAACTAGC ACCATCAGAG 
    TATCAAGAGG CTGGAGATGG AGTCCTGAAG CCAGAAGGAG GAGGCATGCT TTCAGAAGAA 
    TTAAAATGGG CATCCAGACC TGAAAGTATG AAATTAAGTG GAAGAGAAAG AGAAATGGAC 
    AGTTCAGCAA GCAGCTTAAG AACACAGCCA AATCCTCAAA AGCTCTGGGA AGATATCCCA 
    GAATTACCTC CAATTCATAG TTCTTTAGCA CCCCCCAGTG GGCATATGTT AGGTAATGAG 
    AATAAAACAG AAACAGATGA TAATCAGTTT ACAAAATCTC ACAGTCGACT GTCATCCCAA 
    ATTCAGGTTG TGGGAAATGT GGGACGACTT CATGGTGTCA CACCTGTAAA ACTGTGTCGA 
    AAAGAATTAC GTCAAATTTC CGCCTTGGAA CTATCATTGC GACGTTCCAG TCTTGGAGTT 
    GGCATTGGAT CAATGGCTGC TGATTCCATC GAAGTATCTA GGAAACCAAG GGACTTAAAA 
    ACTTAG

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

    RefSeq XP_016870394.1
    CDS403..4488
    Translation

    Target ORF information:

    RefSeq Version XM_017014905.1
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017014905.1

    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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGCCCCTGGC AAAAACCACT 
    TTACTTTCTA CTTCTATGGA TTTGCCTATT CTAAACATTT CATACAACTG GAATCATACA 
    AATGAAAAAA TAATAGAACA ACAACTTCTT GTGGATCAAC TGAGTGAAGA ACTAACAAAA 
    CTTAACCTGT CAGTGACTTC TTCAGCTAAA GAAAATTGTG GAGATGGGCC AGATGCCAGG 
    ATCCCTGAAA GGAGACCATA TACTGTACCA TTTGATACTC ATTTGGGGCA TTATATTTAT 
    ATCCCATCAA GACAAGATTC CAGGAAGGTC CACACAAGTC CGCCTATGTA CTCTCTGGAT 
    CGAATATTTG CTGGATTTCG AACACGAAGT CAGATGCTGT TGGGTCACAT AGAAGAACAA 
    GATAAGGTCC TCCACTGCCA ATTTTCTGAT AACAGTGATG ATGAAGAATC AGAAGGCCAA 
    GAGAAATCTG GAACTAGATG TAGAAGTCGT TCATGGATTC AGAAGCCAGA CTCTGTTTGT 
    TCCCTTGTTG AATTGAGTGA TACTCAGGAT GAAACACAAA AGTCAGATTT GGAGAATGAA 
    GATTTAAAGA TTGATTGTCT CCAGGAGAGT CAAGAATTGA ATTTGCAAAA ATTAAAGAAT 
    TCAGAACGCA TACTTACTGA AGCTAAACAA AAAATGAGAG AACTTACAAT TAACATCAAG 
    ATGAAGGAAG ATCTGATTAA AGAATTAATA AAAACAGGTA ATGATGCCAA GTCTGTAAGC 
    AAGCAGTATT CTTTGAAAGT AACAAAGCTA GAGCATGATG CAGAACAGGC AAAAGTCGAA 
    CTGATTGAAA CACAAAAGCA GCTACAGGAG CTGGAAAACA AAGATCTTTC TGATGTTGCA 
    ATGAAGGTAA AATTACAGAA AGAGTTTCGT AAAAAGATGG ATGCTGCAAA GCTGAGAGTT 
    CAGGAAATAC AATTAAAAAC AGGACAGGAA GAAGGTCTAA AACCGAAAGC TGAGGACCTT 
    GATGCATGTA ACTTGAAAAG GAGAAAAGGT TCGTTTGGAA GTATAGACCA TCTCCAGAAA 
    TTGGATGAGC AAAAGAAATG GTTAGATGAA GAAGTAGAGA AAGTTCTGAA CCAACGCCAA 
    GAATTAGAGG AGCTGGAAGC AGACTTAAAG AAACGGGAGG CCATAGTTTC TAAGAAGGAG 
    GCTCTGTTAC AGGAGAAGAG TCACCTGGAA AATAAGAAAT TGAGATCTAG TCAGGCCTTA 
    AACACAGATA GTTTGAAAAT ATCAACTCGC CTGAACTTAC TGGAACAAGA GTTGTCTGAA 
    AAGAATGTGC AGCTCCAGAC CAGTACAGCT GAGGAGAAAA CAAAGATTTC AGAACAAGTT 
    GAAGTCCTCC AGAAAGAAAA GGATCAGCTC CAGAAACGCA GACACAATGT GGATGAAAAA 
    CTTAAAAATG GTAGAGTGTT ATCACCTGAA GAAGAACATG TTCTTTTCCA ACTTGAAGAA 
    GGGATTGAAG CTTTGGAAGC TGCAATTGAA TACAGGAATG AAAGTATCCA GAATCGCCAG 
    AAGTCACTTA GAGCATCATT CCATAACCTC TCTCGTGGTG AAGCAAATGT CTTGGAAAAG 
    CTAGCTTGCC TGAGTCCTGT TGAGATTAGA ACTATTCTTT TCAGATATTT CAATAAGGTG 
    GTGAATTTGC GAGAAGCTGA ACGGAAACAA CAGTTATATA ATGAAGAAAT GAAAATGAAA 
    GTTCTGGAAC GGGATAATAT GGTTCGTGAA TTAGAATCTG CACTGGACCA TCTAAAATTG 
    CAGTGTGACC GGAGACTGAC CCTCCAGCAA AAGGAACACG AACAAAAGAT GCAGTTGCTA 
    TTACATCATT TCAAAGAACA AGATGGAGAA GGCATTATGG AAACTTTCAA AACATATGAA 
    GATAAAATCC AGCAGTTGGA AAAAGATCTT TATTTCTATA AGAAAACCAG CCGGGATCAT 
    AAGAAGAAAC TTAAGGAACT GGTAGGGGAA GCAATTCGGC GGCAACTAGC ACCATCAGAG 
    TATCAAGAGG CTGGAGATGG AGTCCTGAAG CCAGAAGGAG GAGGCATGCT TTCAGAAGAA 
    TTAAAATGGG CATCCAGACC TGAAAGTATG AAATTAAGTG GAAGAGAAAG AGAAATGGAC 
    AGTTCAGCAA GCAGCTTAAG AACACAGCCA AATCCTCAAA AGCTCTGGGA AGATATCCCA 
    GAATTACCTC CAATTCATAG TTCTTTAGCA CCCCCCAGTG GGCATATGTT AGGTAATGAG 
    AATAAAACAG AAACAGATGA TAATCAGTTT ACAAAATCTC ACAGTCGACT GTCATCCCAA 
    ATTCAGGTTG TGGGAAATGT GGGACGACTT CATGGTGTCA CACCTGTAAA ACTGTGTCGA 
    AAAGAATTAC GTCAAATTTC CGCCTTGGAA CTATCATTGC GACGTTCCAG TCTTGGAGTT 
    GGCATTGGAT CAATGGCTGC TGATTCCATC GAAGTATCTA GGAAACCAAG GGACTTAAAA 
    ACTTAG

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

    KIF27 ( XM_017014906.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016870395.1 Homo sapiens kinesin family member 27 (KIF27), transcript variant X10, mRNA.
    Price & Availability↑
    CloneID OHu69492
    Clone ID Related Accession (Same CDS sequence) XM_017014906.1
    Accession Version XM_017014906.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4068bp)
    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 KIF27 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: 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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGCCCCTGGC AAAAACCACT 
    TTACTTTCTA CTTCTATGGA TTTGCCTATT CTAAACATTT CATACAACTG GAATCATACA 
    AATGAAAAAA TAATAGAACA ACAACTTCTT GTGGATCAAC TGAGTGAAGA ACTAACAAAA 
    CTTAACCTGT CAGTGACTTC TTCAGCTAAA GAAAATTGTG GAGATGGGCC AGATGCCAGG 
    ATCCCTGAAA GGAGACCATA TACTGTACCA TTTGATACTC ATTTGGGGCA TTATATTTAT 
    ATCCCATCAA GACAAGATTC CAGGAAGGTC CACACAAGTC CGCCTATGTA CTCTCTGGAT 
    CGAATATTTG CTGGATTTCG AACACGAAGT CAGATGCTGT TGGGTCACAT AGAAGAACAA 
    GATAAGGTCC TCCACTGCCA ATTTTCTGAT AACAGTGATG ATGAAGAATC AGAAGGCCAA 
    GAGAAATCTG GAACTAGATG TAGAAGTCGT TCATGGATTC AGAAGCCAGA CTCTGTTTGT 
    TCCCTTGTTG AATTGAGTGA TACTCAGGAT GAAACACAAA AGTCAGATTT GGAGAATGAA 
    GATTTAAAGA TTGATTGTCT CCAGGAGAGT CAAGAATTGA ATTTGCAAAA ATTAAAGAAT 
    TCAGAACGCA TACTTACTGA AGCTAAACAA AAAATGAGAG AACTTACAAT TAACATCAAG 
    ATGAAGGAAG ATCTGATTAA AGAATTAATA AAAACAGGTA ATGATGCCAA GTCTGTAAGC 
    AAGCAGTATT CTTTGAAAGT AACAAAGCTA GAGCATGATG CAGAACAGGC AAAAGTCGAA 
    CTGATTGAAA CACAAAAGCA GCTACAGGAG CTGGAAAACA AAGATCTTTC TGATGTTGCA 
    ATGAAGGTAA AATTACAGAA AGAGTTTCGT AAAAAGATGG ATGCTGCAAA GCTGAGAGTT 
    CAGGTCTTGC AGAAGAAGCA ACAAGATAGT AAGAAACTGG CATCACTGTC AATCCAAAAT 
    GAGAAACGTG CTAATGAGCT AGAGCAGAGT GTAGATCACA TGAAATATCA AAAGATACAG 
    CTACAAAGAA AACTACGAGA AGAAAATGAA AAAAGGAAGC AACTGGATGC AGTAATTAAG 
    CGGGACCAGC AAAAAATCAA AGAAATACAA TTAAAAACAG GACAGGAAGA AGGTCTAAAA 
    CCGAAAGCTG AGGACCTTGA TGCATGTAAC TTGAAAAGGA GAAAAGGTTC GTTTGGAAGT 
    ATAGACCATC TCCAGAAATT GGATGAGCAA AAGAAATGGT TAGATGAAGA AGTAGAGAAA 
    GTTCTGAACC AACGCCAAGA ATTAGAGGAG CTGGAAGCAG ACTTAAAGAA ACGGGAGGCC 
    ATAGTTTCTA AGAAGGAGGC TCTGTTACAG GAGAAGAGTC ACCTGGAAAA TAAGAAATTG 
    AGATCTAGTC AGGAAGAACA TGTTCTTTTC CAACTTGAAG AAGGGATTGA AGCTTTGGAA 
    GCTGCAATTG AATACAGGAA TGAAAGTATC CAGAATCGCC AGAAGTCACT TAGAGCATCA 
    TTCCATAACC TCTCTCGTGG TGAAGCAAAT GTCTTGGAAA AGCTAGCTTG CCTGAGTCCT 
    GTTGAGATTA GAACTATTCT TTTCAGATAT TTCAATAAGG TGGTGAATTT GCGAGAAGCT 
    GAACGGAAAC AACAGTTATA TAATGAAGAA ATGAAAATGA AAGTTCTGGA ACGGGATAAT 
    ATGGTTCGTG AATTAGAATC TGCACTGGAC CATCTAAAAT TGCAGTGTGA CCGGAGACTG 
    ACCCTCCAGC AAAAGGAACA CGAACAAAAG ATGCAGTTGC TATTACATCA TTTCAAAGAA 
    CAAGATGGAG AAGGCATTAT GGAAACTTTC AAAACATATG AAGATAAAAT CCAGCAGTTG 
    GAAAAAGATC TTTATTTCTA TAAGAAAACC AGCCGGGATC ATAAGAAGAA ACTTAAGGAA 
    CTGGTAGGGG AAGCAATTCG GCGGCAACTA GCACCATCAG AGTATCAAGA GGCTGGAGAT 
    GGAGTCCTGA AGCCAGAAGG AGGAGGCATG CTTTCAGAAG AATTAAAATG GGCATCCAGA 
    CCTGAAAGTA TGAAATTAAG TGGAAGAGAA AGAGAAATGG ACAGTTCAGC AAGCAGCTTA 
    AGAACACAGC CAAATCCTCA AAAGCTCTGG GAAGATATCC CAGAATTACC TCCAATTCAT 
    AGTTCTTTAG CACCCCCCAG TGGGCATATG TTAGGTAATG AGAATAAAAC AGAAACAGAT 
    GATAATCAGT TTACAAAATC TCACAGTCGA CTGTCATCCC AAATTCAGGT TGTGGGAAAT 
    GTGGGACGAC TTCATGGTGT CACACCTGTA AAACTGTGTC GAAAAGAATT ACGTCAAATT 
    TCCGCCTTGG AACTATCATT GCGACGTTCC AGTCTTGGAG TTGGCATTGG ATCAATGGCT 
    GCTGATTCCA TCGAAGTATC TAGGAAACCA AGGGACTTAA AAACTTAG

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

    RefSeq XP_016870395.1
    CDS403..4470
    Translation

    Target ORF information:

    RefSeq Version XM_017014906.1
    Organism Homo sapiens(human)
    Definition Homo sapiens kinesin family member 27 (KIF27), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017014906.1

    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
    ATGGAAGAAA TACCAGTAAA AGTTGCTGTA AGAATTAGAC CTCTGCTTTG CAAAGAAGCT 
    CTTCATAATC ATCAAGTTTG TGTGAGAGTT ATTCCAAACA GCCAGCAAGT TATCATTGGG 
    AGAGATAGAG TCTTCACTTT TGATTTTGTT TTTGGCAAAA ATTCCACTCA AGATGAAGTT 
    TATAACACAT GTATAAAGCC CCTAGTGTTG TCACTCATTG AGGGCTATAA TGCAACTGTT 
    TTTGCCTATG GACAAACTGG ATCTGGGAAG ACATACACCA TTGGAGGGGG CCATATTGCT 
    TCAGTTGTGG AGGGCCAAAA GGGTATCATT CCTCGAGCTA TTCAAGAAAT ATTTCAAAGC 
    ATCTCTGAAC ATCCTAGCAT TGACTTTAAT GTAAAAGTAT CTTATATAGA AGTGTACAAG 
    GAAGACCTAA GAGATCTTCT AGAATTGGAG ACATCCATGA AGGATCTTCA CATCCGAGAA 
    GATGAAAAAG GAAACACAGT GATTGTTGGG GCCAAGGAAT GCCATGTGGA GAGTGCAGGT 
    GAAGTGATGA GTCTTTTGGA GATGGGGAAT GCAGCCAGAC ATACAGGTAC CACTCAAATG 
    AATGAGCACT CCAGCAGATC ACATGCAATT TTTACAATCA GCATTTGTCA AGTTCATAAA 
    AATATGGAGG CAGCTGAAGA TGGATCATGG TATTCCCCTC GGCATATTGT CTCAAAGTTC 
    CACTTTGTGG ATTTGGCAGG ATCAGAAAGA GTAACCAAAA CGGGGAATAC TGGTGAACGG 
    TTCAAAGAAT CCATTCAAAT CAATAGTGGA TTGCTGGCTT TAGGAAATGT AATAAGCGCT 
    CTTGGGGACC CACGCAGGAA GAGTTCACAT ATTCCATATA GGGATGCTAA AATTACCCGG 
    CTTCTGAAAG ATTCTCTGGG AGGCAGTGCT AAGACTGTCA TGATCACATG TGTCAGCCCC 
    TCCTCCTCGA ATTTTGATGA GTCCTTAAAT TCTCTCAAAT ATGCCAACAG AGCACGGAAC 
    ATTAGAAACA AACCCACTGT AAACTTCAGC CCCGAGTCAG ACCGTATAGA TGAAATGGAA 
    TTTGAGATTA AATTGCTTCG AGAAGCTTTG CAAAGCCAGC AGGCTGGTGT CAGCCAAACT 
    ACCCAGATCA ATCGAGAAGG GAGTCCTGAT ACAAATAGGA TTCATTCTCT TGAGGAGCAA 
    GTAGCTCAGC TTCAAGGAGA ATGTCTGGGT TACCAGTGTT GTGTAGAAGA AGCCTTTACC 
    TTCCTGGTTG ACCTAAAAGA TACTGTCAGA CTAAACGAAA AGCAGCAACA CAAACTGCAG 
    GAGTGGTTTA ACATGATCCA AGAGGTCAGG AAGGCTGTCC TCACCTCATT TCGAGGAATC 
    GGAGGCACTG CAAGTCTGGA AGAAGGACCA CAGCATGTTA CAGTTCTCCA GCTGAAGAGA 
    GAGCTTAAGA AATGCCAGTG TGTGCTTGCT GCTGATGAAG TAGTATTTAA TCAGAAGGAA 
    CTGGAGGTGA AGGAACTGAA GAATCAAGTG CAGATGATGG TACAGGAAAA CAAAGGGCAT 
    GCTGTATCTT TGAAAGAAGC GCAAAAAGTG AATAGACTGC AGCCCCTGGC AAAAACCACT 
    TTACTTTCTA CTTCTATGGA TTTGCCTATT CTAAACATTT CATACAACTG GAATCATACA 
    AATGAAAAAA TAATAGAACA ACAACTTCTT GTGGATCAAC TGAGTGAAGA ACTAACAAAA 
    CTTAACCTGT CAGTGACTTC TTCAGCTAAA GAAAATTGTG GAGATGGGCC AGATGCCAGG 
    ATCCCTGAAA GGAGACCATA TACTGTACCA TTTGATACTC ATTTGGGGCA TTATATTTAT 
    ATCCCATCAA GACAAGATTC CAGGAAGGTC CACACAAGTC CGCCTATGTA CTCTCTGGAT 
    CGAATATTTG CTGGATTTCG AACACGAAGT CAGATGCTGT TGGGTCACAT AGAAGAACAA 
    GATAAGGTCC TCCACTGCCA ATTTTCTGAT AACAGTGATG ATGAAGAATC AGAAGGCCAA 
    GAGAAATCTG GAACTAGATG TAGAAGTCGT TCATGGATTC AGAAGCCAGA CTCTGTTTGT 
    TCCCTTGTTG AATTGAGTGA TACTCAGGAT GAAACACAAA AGTCAGATTT GGAGAATGAA 
    GATTTAAAGA TTGATTGTCT CCAGGAGAGT CAAGAATTGA ATTTGCAAAA ATTAAAGAAT 
    TCAGAACGCA TACTTACTGA AGCTAAACAA AAAATGAGAG AACTTACAAT TAACATCAAG 
    ATGAAGGAAG ATCTGATTAA AGAATTAATA AAAACAGGTA ATGATGCCAA GTCTGTAAGC 
    AAGCAGTATT CTTTGAAAGT AACAAAGCTA GAGCATGATG CAGAACAGGC AAAAGTCGAA 
    CTGATTGAAA CACAAAAGCA GCTACAGGAG CTGGAAAACA AAGATCTTTC TGATGTTGCA 
    ATGAAGGTAA AATTACAGAA AGAGTTTCGT AAAAAGATGG ATGCTGCAAA GCTGAGAGTT 
    CAGGTCTTGC AGAAGAAGCA ACAAGATAGT AAGAAACTGG CATCACTGTC AATCCAAAAT 
    GAGAAACGTG CTAATGAGCT AGAGCAGAGT GTAGATCACA TGAAATATCA AAAGATACAG 
    CTACAAAGAA AACTACGAGA AGAAAATGAA AAAAGGAAGC AACTGGATGC AGTAATTAAG 
    CGGGACCAGC AAAAAATCAA AGAAATACAA TTAAAAACAG GACAGGAAGA AGGTCTAAAA 
    CCGAAAGCTG AGGACCTTGA TGCATGTAAC TTGAAAAGGA GAAAAGGTTC GTTTGGAAGT 
    ATAGACCATC TCCAGAAATT GGATGAGCAA AAGAAATGGT TAGATGAAGA AGTAGAGAAA 
    GTTCTGAACC AACGCCAAGA ATTAGAGGAG CTGGAAGCAG ACTTAAAGAA ACGGGAGGCC 
    ATAGTTTCTA AGAAGGAGGC TCTGTTACAG GAGAAGAGTC ACCTGGAAAA TAAGAAATTG 
    AGATCTAGTC AGGAAGAACA TGTTCTTTTC CAACTTGAAG AAGGGATTGA AGCTTTGGAA 
    GCTGCAATTG AATACAGGAA TGAAAGTATC CAGAATCGCC AGAAGTCACT TAGAGCATCA 
    TTCCATAACC TCTCTCGTGG TGAAGCAAAT GTCTTGGAAA AGCTAGCTTG CCTGAGTCCT 
    GTTGAGATTA GAACTATTCT TTTCAGATAT TTCAATAAGG TGGTGAATTT GCGAGAAGCT 
    GAACGGAAAC AACAGTTATA TAATGAAGAA ATGAAAATGA AAGTTCTGGA ACGGGATAAT 
    ATGGTTCGTG AATTAGAATC TGCACTGGAC CATCTAAAAT TGCAGTGTGA CCGGAGACTG 
    ACCCTCCAGC AAAAGGAACA CGAACAAAAG ATGCAGTTGC TATTACATCA TTTCAAAGAA 
    CAAGATGGAG AAGGCATTAT GGAAACTTTC AAAACATATG AAGATAAAAT CCAGCAGTTG 
    GAAAAAGATC TTTATTTCTA TAAGAAAACC AGCCGGGATC ATAAGAAGAA ACTTAAGGAA 
    CTGGTAGGGG AAGCAATTCG GCGGCAACTA GCACCATCAG AGTATCAAGA GGCTGGAGAT 
    GGAGTCCTGA AGCCAGAAGG AGGAGGCATG CTTTCAGAAG AATTAAAATG GGCATCCAGA 
    CCTGAAAGTA TGAAATTAAG TGGAAGAGAA AGAGAAATGG ACAGTTCAGC AAGCAGCTTA 
    AGAACACAGC CAAATCCTCA AAAGCTCTGG GAAGATATCC CAGAATTACC TCCAATTCAT 
    AGTTCTTTAG CACCCCCCAG TGGGCATATG TTAGGTAATG AGAATAAAAC AGAAACAGAT 
    GATAATCAGT TTACAAAATC TCACAGTCGA CTGTCATCCC AAATTCAGGT TGTGGGAAAT 
    GTGGGACGAC TTCATGGTGT CACACCTGTA AAACTGTGTC GAAAAGAATT ACGTCAAATT 
    TCCGCCTTGG AACTATCATT GCGACGTTCC AGTCTTGGAG TTGGCATTGG ATCAATGGCT 
    GCTGATTCCA TCGAAGTATC TAGGAAACCA AGGGACTTAA AAACTTAG

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

見積依頼

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03-6811-6572

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03-6811-6573
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