Kif14 cDNA ORF clone, Mus caroli(Ryukyu mouse)

The following Kif14 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Kif14 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
OMv23067 XM_021160749.1
Latest version!
Mus caroli kinesin family member 14 (Kif14), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OMv23068 XM_021160757.2
Latest version!
Mus caroli kinesin family member 14 (Kif14), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
View Old Accession Versions >>
OMv23068 XM_021160757.1 Mus caroli kinesin family member 14 (Kif14), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
Hide Old Accession Versions >>

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

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

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

  • Reference Sequences (Refseq)
    CloneID OMv23067
    Clone ID Related Accession (Same CDS sequence) XM_021160749.1
    Accession Version XM_021160749.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5025bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product kinesin-like protein KIF14 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034570.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    ATGTCAGTAC ACACTTCGCA TAGCAGACAC AACGTCGGTA GCCTGGAGGT TTCTTCTTCA 
    CAGAAGATTT CAGCATCCAG TGGCCTCGTC CACAGCAGCC GGCTGGAACT GCACTTGAAG
    GCAGATATGT CAGAGTGTGA GAATCATGAT CCATTAGTGA ATGCTGGAAG TAAAACCATC
    GACATAAATA GCACTTATGT TATCTCTGCC TGTAAAAAAA CAAGAGAGAC TCCTGTTACC
    TCTGACCCCG GGAGACTGAC CCTTCAGAGA AGGGCTACTT GTGGGAACAA AGAATCGTCT
    TTACTTGGTA GTGAGTTGGG AGACACCACC AGAAGAACAG CAGACACAAG TCTGAGGTTA
    CAACGGCGGC ACGATAGAGC GGATTATGTG GGAAAGTGGG AGACACTGGA CCCTGTGGGA
    GGTAACCCAG GAAGTAACTC TACCTCGCAG GCAGCGAGGA CAGAAGCAGC AAAGCGTGTA
    AATAATGATA CCCGTGTCCT GTCGTCTGCA GTCTCCGTGA AAGACTCCAA CGACACCGGG
    TTGACGAGAT GCAAAGACCC ATGTCCTACC TCTAATGAAA AGGTGACAGT TAGGGACACA
    AACAGTAGAG CGCCTGTGGG TTCCCAGTGT CAGACTGAAG CTATGAGATC AGGACACTTA
    GTGGTGCAAC AGACCGAGAG CAAGTCTGAT ACCCCAGTGT CGGGAGGAAG ACACTCACAC
    CGTGGAAATG CTGGCAAGGA CACTGCTAAA CAAGTCGGTA CATTTGGGAG CTCAGATACA
    AGAACCCCAG TGAAATGTGT TTTAGAACAC AGATGGACAC CAAGGCATGA CCCGCCTCCA
    CCAAAAAGCC CAGCTTTATC CACACCGAAA AACAATGGGA AGGACATCCC GAAACATGGC
    AGTACATTCA GAAGTGCAAG CTCAGAATCG AGGACCCCGG TAAAATGTGT CCCAGAACAC
    AGATGGACAC CAAGGCATGA CCTGCCTCCA CCAAAAAGCC CAGCTTTATC AACACTGAAA
    AACAGGATTG CAAGCCCTCG AGTTAAACCA AGGCCCAAAA GTTCTCTTCT TGCAAATAAA
    AGGGAAAGCG CACAAGAAAG CACGCTCCCT CCAGAAGACA AAAGTATAGT TCAGAAGACC
    TTTACAGAAC CAGACTCCTT AAAAGTCGAG AACAGTCAGG TGACCGTGGC GGTGCGCGTG
    AGGCCTTTCA GCAAAAGAGA GAAGACTGAG AAAGCATCCC AGGTTGTCTT CACCAATGGG
    GAAGAAATAA CTGTGGAACA TCCCGATATG AAACAAGTTT ACTCTTTTAT TTACGATGTT
    TCCTTTTGGT CTTTTGATGA ATGTCACCCT GGCTATGCCA GCCAGACAAC TGTATATGAG
    ACACTGGCTG CACCACTCCT GGACAGAGCT TTTGAAGGCT ATAACACCTG TCTCTTTGCT
    TATGGCCAGA CTGGCTCTGG AAAGTCCTAT ACGATGATGG GGCTTAATGA AGAACCAGGA
    ATAATTCCCA GATTCTGTGA AGATCTCTTT GCTCAAATAG CCAAAAAACA AACCTCAGAG
    GTCAGCTACC ATCTTGAAAT GAGCTTCTTT GAAGTTTATA ATGAAAAAAT TCATGATCTT
    CTGGTTTGTA AAGGTGAAAA TGGGCAGAGG AAACAACCAC TGCGCGTGAG GGAGCACCCT
    GTTTCTGGAC CGTATGTTGA AGGTCTGTCA ATGAATGTTG TGAGTTCTTA CTCTGATATT
    CAGAGCTGGC TGGAACTGGG AAATAAACAG AGAGCCACGG CGGCCACCGG CATGAACGAT
    AAAAGCTCCC GGTCTCATTC TGTGTTCACC CTGGTGATGA CGCAGACCAA GACAGAGGTG
    GTGGAGGGGG AGGAACATGA CCACAGGATC ACGAGCCGCA TCAACCTCAT CGACCTGGCC
    GGCAGTGAGC GCTGCTCCAC CGCCCACTCG AGTGGGGAGC GACTGAAGGA AGGTGTGAGC
    ATTAACAAGT CCTTGCTGAC TTTGGGGAAG GTCATATCTG CACTCTCCGA GCAAGCAAAC
    GGAAAGAGGG TTTTTATTCC ATATCGGGAA TCCACTCTTA CATGGCTATT AAAAGAAAGC
    CTGGGTGGAA ATTCAAAAAC AGCCATGATT GCTACTGTCA GTCCTGCTGC CAGCAACATA
    GAGGAAACGC TGAGCACACT CAGATATGCC ACCCAAGCCC GCCTGATAGT CAATATCGCC
    AAAGTCAACG AGGACATGAA TGCAAAGTTG ATCAGAGAGT TGAAAGCAGA AATTGAAAAG
    TTAAAAGCTG CCCAGAGAAG CAGTCGGAAC ATTGACCCTG AACGGTACCG ACTCTGTCGG
    CAAGAGATAA CGTCCTTAAG GATGAAGCTG CATCAGCAGG AGAGAGACAT GGCAGAGATT
    CAGAGAGTAT GGAAGGAAAA GTTTGAACAG GCTGAAAAAA GAAAACTTCA AGAGACAAAG
    GAGTTACAGA AAGCGGGAGT TACATTTCAA ATGGACAACC ACTTGCCAAA CCTTGTCAAT
    CTCAATGAAG ACCCACAGCT GTCGGAGATG CTGCTCTACA TGGTAAAGGA GGGAGTAACC
    ACAGTTGGAA AGCACACACC AAGCTCAAGC CACGATATCC AGTTGTCTGG AGTGCTGATT
    GCCGATGATC ACTGTACTAT CAGAAATTTT GGAGGAACAG TGAGTATTGT CCCAGCTGGA
    GAAGCAAAGA CATACGTAAA CGGGACGCAC ATCTCAGAGC CCACAGTGTT ACATCATGGT
    GATCGGGTGG TTCTTGGTGG AGATCATTAT TTTAGATTTA ATCATCCAGT TGAAGTCCAG
    AAAGGAAAAA AACTGTCAAG TAGAAATAAT CTCACAACAA GCGAAGGCCC AAAAGATTTT
    GAGTTTGCCA AAAATGAGTT ACTTACAGCA CAGAGTTCTC GGCTTGAGGC AGAAATTAAA
    GATGCGCAGC TGAAGGCGAA GGAAGAAATG ATGCAAGGAA TTCAAATCGC AAAGGAGATG
    GCCCAGCAAG AACTTTCTTC CCAAAAAGCT GCGTATGAGC GCAAAATCCA GGCCCTAGAG
    GCGGAGCTGA GGGAAGAGTC TCAAAGGAAG AGATTGGAGG AATTAAATAA CCAAAAAGCT
    AGTCACAAGA TTGAGGAATT GGAAAGGGCG AAGCAGCATC TTGAACAGGA AGTATATGTG
    AACAAAAGGC GACTGGAGAT GGAGACCCTG GCCACAAAGC AGGCCTTAGA AGACCATAGA
    ATCCGACATG CGAGGATCTT AGAAGCTTTA GAAATTGAAA AGCAAAAGAT CGCTGAAGAA
    GTACAGATGC TTCAGGAGAA TCGGGGAAAC AGGGATAAAA CTTTCACCAT TCAGCCAAAC
    TGGAACTCCA TGAAACTCTC CACGATGATT CAGGAAGCCA ATGCCATCAG TGACAAATTT
    AAAAAGTGCT ATATTTTTGG CAGACATGAT GCATCAGACA AAAGCCGTTC TGATACCTCT
    GTTCGAGTTC GTAACCTCCA GCTTGGGATC TCAACTTTCT GGAGCCTGGA AAAGTTTGAA
    TCTAAACTTG CAGCAATGAA AGAGCTTTAT GAGAGTGACG GTGGTAACAG GGGTGAGGAT
    GTCTTCTGTG ACCCTGCAGA TGAGTGGGAG CCCGACATTA CAAGCACACC AGTTTCTTCC
    CTTTCCAGAA GGAGGAGCAG AAGTTTGATG AAGAACAGGA GAGTCTCTGG CTGTCTGCAT
    GACATCCATC CAATTCAGAG TATGCAGTCC TCACACTCAT CTGGATTAAT GGAAAAACCA
    AGCACCATTT ACTCAAATTC ATCAGAGTCC TTTCTTCCTG GGATTTGCAA AGAATTGATT
    GGCTCATCAA TAGATTTCCT CGGACAGAGT TTCCATGAAG AGAAAACTAT AGCAGATAGC
    CTGATAAATA ATCTCCTTAG GCTTCATAGT GGGGTGATTG CCATCTCCAA AGCCCATGAA
    GAGCAGGATG AAGAAAGTCA AGATAATCTG TTCTCTGACC GGGCGGCACA GGCTCTTACC
    ATCCAGGTTG CTTGTGCCTT TGGGCAGCTT GTGGTTTTGT TCAAACACTG GCTGGGTGAT
    TTTCTACCTT GTACTGGCTC AGCGAGGCTT GAAGATGAAT TGAGACAAGA TATTAAAAAA
    CTCGGAGGCT ATTTGCAATT GTTTTTGCAG GGATGCTGTT CGGATATTTC ATCGATGGTA
    AAAGAGGCTC AAAACAAAGT CATGGAGATT ATGCAGCAGG CTGTTCAGTG TGTGGGTCAG
    CTAGCCGTTC TGAAAGGGAG CAAGCTCTGT GTTCTGGAAA ACAGCAACAA AGTCTCCAGT
    GCCCAGGAGT TTTTGGCTGC TCTCCAGGAT GGTGTGACCT CGGGGATGAA GAGTCTCTTA
    GACTCTGGGC TGGAGACCGC ACAGGACCTC AGGCAGGACC TCTCCAGGCA GAGTGCACAA
    GAGGAGGTCA CTAAGCAGAT GAAAGCCAGT ACTGTGGAGT GGGTCGGGTC TCTGGAAAAT
    GCCGTCGCTG AATGGAGGAC GAAAAGCTTC AGAACTCAAG TACAAGAAGG TTCTAGACAA
    CAAATTTCCA AGCTGTTAAG CCTTGCGTCA GAATTCTTGA AGCTGAAGTC GTGCTTGCAA
    CAAACCGTTG AGATGATTGT ATCTGCGCTG AGAGGGTGCC CCAGTGACTT GCACTGTCTC
    AGAAGCTGCA TCAAGACTAT CTGCAGCCTG ACTCGCAAGC TTCACAGTGA CTTCAGCGCA
    CTCTCTGCCT CTGCTGGCAG CAGCGGAAAT GAACTGCCTC GTGCTGACTG TGAGGAACTA
    GAGTCTCTAG CTAAGTCACT CCTCCTATGT TTTGAATGTG GAGAAAGCCC TGGTTTGTCG
    AAACCCTGGG AGTCTTGTTC TTCGAATAGC AAGGAAGAGC AGTGCAAGTC AGACAGGGCT
    GACTGCGGGA AAAGCGAGCC AAGACACGTC TGTGAACCCC ACGGAGACGC AACCCCAGCA
    GTGTCCTCTG GGGACTGCAC CCACAATAGG ATTCAGTGGG TGTGA

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

    RefSeq XP_021016408.1
    CDS111..5135
    Translation

    Target ORF information:

    RefSeq Version XM_021160749.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli kinesin family member 14 (Kif14), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021160749.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    ATGTCAGTAC ACACTTCGCA TAGCAGACAC AACGTCGGTA GCCTGGAGGT TTCTTCTTCA 
    CAGAAGATTT CAGCATCCAG TGGCCTCGTC CACAGCAGCC GGCTGGAACT GCACTTGAAG
    GCAGATATGT CAGAGTGTGA GAATCATGAT CCATTAGTGA ATGCTGGAAG TAAAACCATC
    GACATAAATA GCACTTATGT TATCTCTGCC TGTAAAAAAA CAAGAGAGAC TCCTGTTACC
    TCTGACCCCG GGAGACTGAC CCTTCAGAGA AGGGCTACTT GTGGGAACAA AGAATCGTCT
    TTACTTGGTA GTGAGTTGGG AGACACCACC AGAAGAACAG CAGACACAAG TCTGAGGTTA
    CAACGGCGGC ACGATAGAGC GGATTATGTG GGAAAGTGGG AGACACTGGA CCCTGTGGGA
    GGTAACCCAG GAAGTAACTC TACCTCGCAG GCAGCGAGGA CAGAAGCAGC AAAGCGTGTA
    AATAATGATA CCCGTGTCCT GTCGTCTGCA GTCTCCGTGA AAGACTCCAA CGACACCGGG
    TTGACGAGAT GCAAAGACCC ATGTCCTACC TCTAATGAAA AGGTGACAGT TAGGGACACA
    AACAGTAGAG CGCCTGTGGG TTCCCAGTGT CAGACTGAAG CTATGAGATC AGGACACTTA
    GTGGTGCAAC AGACCGAGAG CAAGTCTGAT ACCCCAGTGT CGGGAGGAAG ACACTCACAC
    CGTGGAAATG CTGGCAAGGA CACTGCTAAA CAAGTCGGTA CATTTGGGAG CTCAGATACA
    AGAACCCCAG TGAAATGTGT TTTAGAACAC AGATGGACAC CAAGGCATGA CCCGCCTCCA
    CCAAAAAGCC CAGCTTTATC CACACCGAAA AACAATGGGA AGGACATCCC GAAACATGGC
    AGTACATTCA GAAGTGCAAG CTCAGAATCG AGGACCCCGG TAAAATGTGT CCCAGAACAC
    AGATGGACAC CAAGGCATGA CCTGCCTCCA CCAAAAAGCC CAGCTTTATC AACACTGAAA
    AACAGGATTG CAAGCCCTCG AGTTAAACCA AGGCCCAAAA GTTCTCTTCT TGCAAATAAA
    AGGGAAAGCG CACAAGAAAG CACGCTCCCT CCAGAAGACA AAAGTATAGT TCAGAAGACC
    TTTACAGAAC CAGACTCCTT AAAAGTCGAG AACAGTCAGG TGACCGTGGC GGTGCGCGTG
    AGGCCTTTCA GCAAAAGAGA GAAGACTGAG AAAGCATCCC AGGTTGTCTT CACCAATGGG
    GAAGAAATAA CTGTGGAACA TCCCGATATG AAACAAGTTT ACTCTTTTAT TTACGATGTT
    TCCTTTTGGT CTTTTGATGA ATGTCACCCT GGCTATGCCA GCCAGACAAC TGTATATGAG
    ACACTGGCTG CACCACTCCT GGACAGAGCT TTTGAAGGCT ATAACACCTG TCTCTTTGCT
    TATGGCCAGA CTGGCTCTGG AAAGTCCTAT ACGATGATGG GGCTTAATGA AGAACCAGGA
    ATAATTCCCA GATTCTGTGA AGATCTCTTT GCTCAAATAG CCAAAAAACA AACCTCAGAG
    GTCAGCTACC ATCTTGAAAT GAGCTTCTTT GAAGTTTATA ATGAAAAAAT TCATGATCTT
    CTGGTTTGTA AAGGTGAAAA TGGGCAGAGG AAACAACCAC TGCGCGTGAG GGAGCACCCT
    GTTTCTGGAC CGTATGTTGA AGGTCTGTCA ATGAATGTTG TGAGTTCTTA CTCTGATATT
    CAGAGCTGGC TGGAACTGGG AAATAAACAG AGAGCCACGG CGGCCACCGG CATGAACGAT
    AAAAGCTCCC GGTCTCATTC TGTGTTCACC CTGGTGATGA CGCAGACCAA GACAGAGGTG
    GTGGAGGGGG AGGAACATGA CCACAGGATC ACGAGCCGCA TCAACCTCAT CGACCTGGCC
    GGCAGTGAGC GCTGCTCCAC CGCCCACTCG AGTGGGGAGC GACTGAAGGA AGGTGTGAGC
    ATTAACAAGT CCTTGCTGAC TTTGGGGAAG GTCATATCTG CACTCTCCGA GCAAGCAAAC
    GGAAAGAGGG TTTTTATTCC ATATCGGGAA TCCACTCTTA CATGGCTATT AAAAGAAAGC
    CTGGGTGGAA ATTCAAAAAC AGCCATGATT GCTACTGTCA GTCCTGCTGC CAGCAACATA
    GAGGAAACGC TGAGCACACT CAGATATGCC ACCCAAGCCC GCCTGATAGT CAATATCGCC
    AAAGTCAACG AGGACATGAA TGCAAAGTTG ATCAGAGAGT TGAAAGCAGA AATTGAAAAG
    TTAAAAGCTG CCCAGAGAAG CAGTCGGAAC ATTGACCCTG AACGGTACCG ACTCTGTCGG
    CAAGAGATAA CGTCCTTAAG GATGAAGCTG CATCAGCAGG AGAGAGACAT GGCAGAGATT
    CAGAGAGTAT GGAAGGAAAA GTTTGAACAG GCTGAAAAAA GAAAACTTCA AGAGACAAAG
    GAGTTACAGA AAGCGGGAGT TACATTTCAA ATGGACAACC ACTTGCCAAA CCTTGTCAAT
    CTCAATGAAG ACCCACAGCT GTCGGAGATG CTGCTCTACA TGGTAAAGGA GGGAGTAACC
    ACAGTTGGAA AGCACACACC AAGCTCAAGC CACGATATCC AGTTGTCTGG AGTGCTGATT
    GCCGATGATC ACTGTACTAT CAGAAATTTT GGAGGAACAG TGAGTATTGT CCCAGCTGGA
    GAAGCAAAGA CATACGTAAA CGGGACGCAC ATCTCAGAGC CCACAGTGTT ACATCATGGT
    GATCGGGTGG TTCTTGGTGG AGATCATTAT TTTAGATTTA ATCATCCAGT TGAAGTCCAG
    AAAGGAAAAA AACTGTCAAG TAGAAATAAT CTCACAACAA GCGAAGGCCC AAAAGATTTT
    GAGTTTGCCA AAAATGAGTT ACTTACAGCA CAGAGTTCTC GGCTTGAGGC AGAAATTAAA
    GATGCGCAGC TGAAGGCGAA GGAAGAAATG ATGCAAGGAA TTCAAATCGC AAAGGAGATG
    GCCCAGCAAG AACTTTCTTC CCAAAAAGCT GCGTATGAGC GCAAAATCCA GGCCCTAGAG
    GCGGAGCTGA GGGAAGAGTC TCAAAGGAAG AGATTGGAGG AATTAAATAA CCAAAAAGCT
    AGTCACAAGA TTGAGGAATT GGAAAGGGCG AAGCAGCATC TTGAACAGGA AGTATATGTG
    AACAAAAGGC GACTGGAGAT GGAGACCCTG GCCACAAAGC AGGCCTTAGA AGACCATAGA
    ATCCGACATG CGAGGATCTT AGAAGCTTTA GAAATTGAAA AGCAAAAGAT CGCTGAAGAA
    GTACAGATGC TTCAGGAGAA TCGGGGAAAC AGGGATAAAA CTTTCACCAT TCAGCCAAAC
    TGGAACTCCA TGAAACTCTC CACGATGATT CAGGAAGCCA ATGCCATCAG TGACAAATTT
    AAAAAGTGCT ATATTTTTGG CAGACATGAT GCATCAGACA AAAGCCGTTC TGATACCTCT
    GTTCGAGTTC GTAACCTCCA GCTTGGGATC TCAACTTTCT GGAGCCTGGA AAAGTTTGAA
    TCTAAACTTG CAGCAATGAA AGAGCTTTAT GAGAGTGACG GTGGTAACAG GGGTGAGGAT
    GTCTTCTGTG ACCCTGCAGA TGAGTGGGAG CCCGACATTA CAAGCACACC AGTTTCTTCC
    CTTTCCAGAA GGAGGAGCAG AAGTTTGATG AAGAACAGGA GAGTCTCTGG CTGTCTGCAT
    GACATCCATC CAATTCAGAG TATGCAGTCC TCACACTCAT CTGGATTAAT GGAAAAACCA
    AGCACCATTT ACTCAAATTC ATCAGAGTCC TTTCTTCCTG GGATTTGCAA AGAATTGATT
    GGCTCATCAA TAGATTTCCT CGGACAGAGT TTCCATGAAG AGAAAACTAT AGCAGATAGC
    CTGATAAATA ATCTCCTTAG GCTTCATAGT GGGGTGATTG CCATCTCCAA AGCCCATGAA
    GAGCAGGATG AAGAAAGTCA AGATAATCTG TTCTCTGACC GGGCGGCACA GGCTCTTACC
    ATCCAGGTTG CTTGTGCCTT TGGGCAGCTT GTGGTTTTGT TCAAACACTG GCTGGGTGAT
    TTTCTACCTT GTACTGGCTC AGCGAGGCTT GAAGATGAAT TGAGACAAGA TATTAAAAAA
    CTCGGAGGCT ATTTGCAATT GTTTTTGCAG GGATGCTGTT CGGATATTTC ATCGATGGTA
    AAAGAGGCTC AAAACAAAGT CATGGAGATT ATGCAGCAGG CTGTTCAGTG TGTGGGTCAG
    CTAGCCGTTC TGAAAGGGAG CAAGCTCTGT GTTCTGGAAA ACAGCAACAA AGTCTCCAGT
    GCCCAGGAGT TTTTGGCTGC TCTCCAGGAT GGTGTGACCT CGGGGATGAA GAGTCTCTTA
    GACTCTGGGC TGGAGACCGC ACAGGACCTC AGGCAGGACC TCTCCAGGCA GAGTGCACAA
    GAGGAGGTCA CTAAGCAGAT GAAAGCCAGT ACTGTGGAGT GGGTCGGGTC TCTGGAAAAT
    GCCGTCGCTG AATGGAGGAC GAAAAGCTTC AGAACTCAAG TACAAGAAGG TTCTAGACAA
    CAAATTTCCA AGCTGTTAAG CCTTGCGTCA GAATTCTTGA AGCTGAAGTC GTGCTTGCAA
    CAAACCGTTG AGATGATTGT ATCTGCGCTG AGAGGGTGCC CCAGTGACTT GCACTGTCTC
    AGAAGCTGCA TCAAGACTAT CTGCAGCCTG ACTCGCAAGC TTCACAGTGA CTTCAGCGCA
    CTCTCTGCCT CTGCTGGCAG CAGCGGAAAT GAACTGCCTC GTGCTGACTG TGAGGAACTA
    GAGTCTCTAG CTAAGTCACT CCTCCTATGT TTTGAATGTG GAGAAAGCCC TGGTTTGTCG
    AAACCCTGGG AGTCTTGTTC TTCGAATAGC AAGGAAGAGC AGTGCAAGTC AGACAGGGCT
    GACTGCGGGA AAAGCGAGCC AAGACACGTC TGTGAACCCC ACGGAGACGC AACCCCAGCA
    GTGTCCTCTG GGGACTGCAC CCACAATAGG ATTCAGTGGG TGTGA

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

    CloneID OMv23068
    Clone ID Related Accession (Same CDS sequence) XM_021160757.1 , XM_021160757.2
    Accession Version XM_021160757.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4875bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    Product kinesin-like protein KIF14 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034570.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus caroli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    ATGTCAGTAC ACACTTCGCA TAGCAGACAC AACGTCGGTA GCCTGGAGGT TTCTTCTTCA 
    CAGAAGATTT CAGCATCCAG TGGCCTCGTC CACAGCAGCC GGCTGGAACT GCACTTGAAG
    GCAGATATGT CAGAGTGTGA GAATCATGAT CCATTAGTGA ATGCTGGAAG TAAAACCATC
    GACATAAATA GCACTTATGT TATCTCTGCC TGTAAAAAAA CAAGAGAGAC TCCTGTTACC
    TCTGACCCCG GGAGACTGAC CCTTCAGAGA AGGGCTACTT GTGGGAACAA AGAATCGTCT
    TTACTTGGTA GTGAGTTGGG AGACACCACC AGAAGAACAG CAGACACAAG TCTGAGGTTA
    CAACGGCGGC ACGATAGAGC GGATTATGTG GGAAAGTGGG AGACACTGGA CCCTGTGGGA
    GGTAACCCAG GAAGTAACTC TACCTCGCAG GCAGCGAGGA CAGAAGCAGC AAAGCGTGTA
    AATAATGATA CCCGTGTCCT GTCGTCTGCA GTCTCCGTGA AAGACTCCAA CGACACCGGG
    TTGACGAGAT GCAAAGACCC ATGTCCTACC TCTAATGAAA AGGTGACAGT TAGGGACACA
    AACAGTAGAG CGCCTGTGGG TTCCCAGTGT CAGACTGAAG CTATGAGATC AGGACACTTA
    GTGGTGCAAC AGACCGAGAG CAAGTCTGAT ACCCCAGTGT CGGGAGGAAG ACACTCACAC
    CGTGGAAATG CTGGCAAGGA CACTGCTAAA CAAGTCGGTA CATTTGGGAG CTCAGATACA
    AGAACCCCAG TGAAATGTGT TTTAGAACAC AGATGGACAC CAAGGCATGA CCTGCCTCCA
    CCAAAAAGCC CAGCTTTATC AACACTGAAA AACAGGATTG CAAGCCCTCG AGTTAAACCA
    AGGCCCAAAA GTTCTCTTCT TGCAAATAAA AGGGAAAGCG CACAAGAAAG CACGCTCCCT
    CCAGAAGACA AAAGTATAGT TCAGAAGACC TTTACAGAAC CAGACTCCTT AAAAGTCGAG
    AACAGTCAGG TGACCGTGGC GGTGCGCGTG AGGCCTTTCA GCAAAAGAGA GAAGACTGAG
    AAAGCATCCC AGGTTGTCTT CACCAATGGG GAAGAAATAA CTGTGGAACA TCCCGATATG
    AAACAAGTTT ACTCTTTTAT TTACGATGTT TCCTTTTGGT CTTTTGATGA ATGTCACCCT
    GGCTATGCCA GCCAGACAAC TGTATATGAG ACACTGGCTG CACCACTCCT GGACAGAGCT
    TTTGAAGGCT ATAACACCTG TCTCTTTGCT TATGGCCAGA CTGGCTCTGG AAAGTCCTAT
    ACGATGATGG GGCTTAATGA AGAACCAGGA ATAATTCCCA GATTCTGTGA AGATCTCTTT
    GCTCAAATAG CCAAAAAACA AACCTCAGAG GTCAGCTACC ATCTTGAAAT GAGCTTCTTT
    GAAGTTTATA ATGAAAAAAT TCATGATCTT CTGGTTTGTA AAGGTGAAAA TGGGCAGAGG
    AAACAACCAC TGCGCGTGAG GGAGCACCCT GTTTCTGGAC CGTATGTTGA AGGTCTGTCA
    ATGAATGTTG TGAGTTCTTA CTCTGATATT CAGAGCTGGC TGGAACTGGG AAATAAACAG
    AGAGCCACGG CGGCCACCGG CATGAACGAT AAAAGCTCCC GGTCTCATTC TGTGTTCACC
    CTGGTGATGA CGCAGACCAA GACAGAGGTG GTGGAGGGGG AGGAACATGA CCACAGGATC
    ACGAGCCGCA TCAACCTCAT CGACCTGGCC GGCAGTGAGC GCTGCTCCAC CGCCCACTCG
    AGTGGGGAGC GACTGAAGGA AGGTGTGAGC ATTAACAAGT CCTTGCTGAC TTTGGGGAAG
    GTCATATCTG CACTCTCCGA GCAAGCAAAC GGAAAGAGGG TTTTTATTCC ATATCGGGAA
    TCCACTCTTA CATGGCTATT AAAAGAAAGC CTGGGTGGAA ATTCAAAAAC AGCCATGATT
    GCTACTGTCA GTCCTGCTGC CAGCAACATA GAGGAAACGC TGAGCACACT CAGATATGCC
    ACCCAAGCCC GCCTGATAGT CAATATCGCC AAAGTCAACG AGGACATGAA TGCAAAGTTG
    ATCAGAGAGT TGAAAGCAGA AATTGAAAAG TTAAAAGCTG CCCAGAGAAG CAGTCGGAAC
    ATTGACCCTG AACGGTACCG ACTCTGTCGG CAAGAGATAA CGTCCTTAAG GATGAAGCTG
    CATCAGCAGG AGAGAGACAT GGCAGAGATT CAGAGAGTAT GGAAGGAAAA GTTTGAACAG
    GCTGAAAAAA GAAAACTTCA AGAGACAAAG GAGTTACAGA AAGCGGGAGT TACATTTCAA
    ATGGACAACC ACTTGCCAAA CCTTGTCAAT CTCAATGAAG ACCCACAGCT GTCGGAGATG
    CTGCTCTACA TGGTAAAGGA GGGAGTAACC ACAGTTGGAA AGCACACACC AAGCTCAAGC
    CACGATATCC AGTTGTCTGG AGTGCTGATT GCCGATGATC ACTGTACTAT CAGAAATTTT
    GGAGGAACAG TGAGTATTGT CCCAGCTGGA GAAGCAAAGA CATACGTAAA CGGGACGCAC
    ATCTCAGAGC CCACAGTGTT ACATCATGGT GATCGGGTGG TTCTTGGTGG AGATCATTAT
    TTTAGATTTA ATCATCCAGT TGAAGTCCAG AAAGGAAAAA AACTGTCAAG TAGAAATAAT
    CTCACAACAA GCGAAGGCCC AAAAGATTTT GAGTTTGCCA AAAATGAGTT ACTTACAGCA
    CAGAGTTCTC GGCTTGAGGC AGAAATTAAA GATGCGCAGC TGAAGGCGAA GGAAGAAATG
    ATGCAAGGAA TTCAAATCGC AAAGGAGATG GCCCAGCAAG AACTTTCTTC CCAAAAAGCT
    GCGTATGAGC GCAAAATCCA GGCCCTAGAG GCGGAGCTGA GGGAAGAGTC TCAAAGGAAG
    AGATTGGAGG AATTAAATAA CCAAAAAGCT AGTCACAAGA TTGAGGAATT GGAAAGGGCG
    AAGCAGCATC TTGAACAGGA AGTATATGTG AACAAAAGGC GACTGGAGAT GGAGACCCTG
    GCCACAAAGC AGGCCTTAGA AGACCATAGA ATCCGACATG CGAGGATCTT AGAAGCTTTA
    GAAATTGAAA AGCAAAAGAT CGCTGAAGAA GTACAGATGC TTCAGGAGAA TCGGGGAAAC
    AGGGATAAAA CTTTCACCAT TCAGCCAAAC TGGAACTCCA TGAAACTCTC CACGATGATT
    CAGGAAGCCA ATGCCATCAG TGACAAATTT AAAAAGTGCT ATATTTTTGG CAGACATGAT
    GCATCAGACA AAAGCCGTTC TGATACCTCT GTTCGAGTTC GTAACCTCCA GCTTGGGATC
    TCAACTTTCT GGAGCCTGGA AAAGTTTGAA TCTAAACTTG CAGCAATGAA AGAGCTTTAT
    GAGAGTGACG GTGGTAACAG GGGTGAGGAT GTCTTCTGTG ACCCTGCAGA TGAGTGGGAG
    CCCGACATTA CAAGCACACC AGTTTCTTCC CTTTCCAGAA GGAGGAGCAG AAGTTTGATG
    AAGAACAGGA GAGTCTCTGG CTGTCTGCAT GACATCCATC CAATTCAGAG TATGCAGTCC
    TCACACTCAT CTGGATTAAT GGAAAAACCA AGCACCATTT ACTCAAATTC ATCAGAGTCC
    TTTCTTCCTG GGATTTGCAA AGAATTGATT GGCTCATCAA TAGATTTCCT CGGACAGAGT
    TTCCATGAAG AGAAAACTAT AGCAGATAGC CTGATAAATA ATCTCCTTAG GCTTCATAGT
    GGGGTGATTG CCATCTCCAA AGCCCATGAA GAGCAGGATG AAGAAAGTCA AGATAATCTG
    TTCTCTGACC GGGCGGCACA GGCTCTTACC ATCCAGGTTG CTTGTGCCTT TGGGCAGCTT
    GTGGTTTTGT TCAAACACTG GCTGGGTGAT TTTCTACCTT GTACTGGCTC AGCGAGGCTT
    GAAGATGAAT TGAGACAAGA TATTAAAAAA CTCGGAGGCT ATTTGCAATT GTTTTTGCAG
    GGATGCTGTT CGGATATTTC ATCGATGGTA AAAGAGGCTC AAAACAAAGT CATGGAGATT
    ATGCAGCAGG CTGTTCAGTG TGTGGGTCAG CTAGCCGTTC TGAAAGGGAG CAAGCTCTGT
    GTTCTGGAAA ACAGCAACAA AGTCTCCAGT GCCCAGGAGT TTTTGGCTGC TCTCCAGGAT
    GGTGTGACCT CGGGGATGAA GAGTCTCTTA GACTCTGGGC TGGAGACCGC ACAGGACCTC
    AGGCAGGACC TCTCCAGGCA GAGTGCACAA GAGGAGGTCA CTAAGCAGAT GAAAGCCAGT
    ACTGTGGAGT GGGTCGGGTC TCTGGAAAAT GCCGTCGCTG AATGGAGGAC GAAAAGCTTC
    AGAACTCAAG TACAAGAAGG TTCTAGACAA CAAATTTCCA AGCTGTTAAG CCTTGCGTCA
    GAATTCTTGA AGCTGAAGTC GTGCTTGCAA CAAACCGTTG AGATGATTGT ATCTGCGCTG
    AGAGGGTGCC CCAGTGACTT GCACTGTCTC AGAAGCTGCA TCAAGACTAT CTGCAGCCTG
    ACTCGCAAGC TTCACAGTGA CTTCAGCGCA CTCTCTGCCT CTGCTGGCAG CAGCGGAAAT
    GAACTGCCTC GTGCTGACTG TGAGGAACTA GAGTCTCTAG CTAAGTCACT CCTCCTATGT
    TTTGAATGTG GAGAAAGCCC TGGTTTGTCG AAACCCTGGG AGTCTTGTTC TTCGAATAGC
    AAGGAAGAGC AGTGCAAGTC AGACAGGGCT GACTGCGGGA AAAGCGAGCC AAGACACGTC
    TGTGAACCCC ACGGAGACGC AACCCCAGCA GTGTCCTCTG GGGACTGCAC CCACAATAGG
    ATTCAGTGGG TGTGA

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

    RefSeq XP_021016416.1
    CDS1..4875
    Translation

    Target ORF information:

    RefSeq Version XM_021160757.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli kinesin family member 14 (Kif14), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021160757.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    ATGTCAGTAC ACACTTCGCA TAGCAGACAC AACGTCGGTA GCCTGGAGGT TTCTTCTTCA 
    CAGAAGATTT CAGCATCCAG TGGCCTCGTC CACAGCAGCC GGCTGGAACT GCACTTGAAG
    GCAGATATGT CAGAGTGTGA GAATCATGAT CCATTAGTGA ATGCTGGAAG TAAAACCATC
    GACATAAATA GCACTTATGT TATCTCTGCC TGTAAAAAAA CAAGAGAGAC TCCTGTTACC
    TCTGACCCCG GGAGACTGAC CCTTCAGAGA AGGGCTACTT GTGGGAACAA AGAATCGTCT
    TTACTTGGTA GTGAGTTGGG AGACACCACC AGAAGAACAG CAGACACAAG TCTGAGGTTA
    CAACGGCGGC ACGATAGAGC GGATTATGTG GGAAAGTGGG AGACACTGGA CCCTGTGGGA
    GGTAACCCAG GAAGTAACTC TACCTCGCAG GCAGCGAGGA CAGAAGCAGC AAAGCGTGTA
    AATAATGATA CCCGTGTCCT GTCGTCTGCA GTCTCCGTGA AAGACTCCAA CGACACCGGG
    TTGACGAGAT GCAAAGACCC ATGTCCTACC TCTAATGAAA AGGTGACAGT TAGGGACACA
    AACAGTAGAG CGCCTGTGGG TTCCCAGTGT CAGACTGAAG CTATGAGATC AGGACACTTA
    GTGGTGCAAC AGACCGAGAG CAAGTCTGAT ACCCCAGTGT CGGGAGGAAG ACACTCACAC
    CGTGGAAATG CTGGCAAGGA CACTGCTAAA CAAGTCGGTA CATTTGGGAG CTCAGATACA
    AGAACCCCAG TGAAATGTGT TTTAGAACAC AGATGGACAC CAAGGCATGA CCTGCCTCCA
    CCAAAAAGCC CAGCTTTATC AACACTGAAA AACAGGATTG CAAGCCCTCG AGTTAAACCA
    AGGCCCAAAA GTTCTCTTCT TGCAAATAAA AGGGAAAGCG CACAAGAAAG CACGCTCCCT
    CCAGAAGACA AAAGTATAGT TCAGAAGACC TTTACAGAAC CAGACTCCTT AAAAGTCGAG
    AACAGTCAGG TGACCGTGGC GGTGCGCGTG AGGCCTTTCA GCAAAAGAGA GAAGACTGAG
    AAAGCATCCC AGGTTGTCTT CACCAATGGG GAAGAAATAA CTGTGGAACA TCCCGATATG
    AAACAAGTTT ACTCTTTTAT TTACGATGTT TCCTTTTGGT CTTTTGATGA ATGTCACCCT
    GGCTATGCCA GCCAGACAAC TGTATATGAG ACACTGGCTG CACCACTCCT GGACAGAGCT
    TTTGAAGGCT ATAACACCTG TCTCTTTGCT TATGGCCAGA CTGGCTCTGG AAAGTCCTAT
    ACGATGATGG GGCTTAATGA AGAACCAGGA ATAATTCCCA GATTCTGTGA AGATCTCTTT
    GCTCAAATAG CCAAAAAACA AACCTCAGAG GTCAGCTACC ATCTTGAAAT GAGCTTCTTT
    GAAGTTTATA ATGAAAAAAT TCATGATCTT CTGGTTTGTA AAGGTGAAAA TGGGCAGAGG
    AAACAACCAC TGCGCGTGAG GGAGCACCCT GTTTCTGGAC CGTATGTTGA AGGTCTGTCA
    ATGAATGTTG TGAGTTCTTA CTCTGATATT CAGAGCTGGC TGGAACTGGG AAATAAACAG
    AGAGCCACGG CGGCCACCGG CATGAACGAT AAAAGCTCCC GGTCTCATTC TGTGTTCACC
    CTGGTGATGA CGCAGACCAA GACAGAGGTG GTGGAGGGGG AGGAACATGA CCACAGGATC
    ACGAGCCGCA TCAACCTCAT CGACCTGGCC GGCAGTGAGC GCTGCTCCAC CGCCCACTCG
    AGTGGGGAGC GACTGAAGGA AGGTGTGAGC ATTAACAAGT CCTTGCTGAC TTTGGGGAAG
    GTCATATCTG CACTCTCCGA GCAAGCAAAC GGAAAGAGGG TTTTTATTCC ATATCGGGAA
    TCCACTCTTA CATGGCTATT AAAAGAAAGC CTGGGTGGAA ATTCAAAAAC AGCCATGATT
    GCTACTGTCA GTCCTGCTGC CAGCAACATA GAGGAAACGC TGAGCACACT CAGATATGCC
    ACCCAAGCCC GCCTGATAGT CAATATCGCC AAAGTCAACG AGGACATGAA TGCAAAGTTG
    ATCAGAGAGT TGAAAGCAGA AATTGAAAAG TTAAAAGCTG CCCAGAGAAG CAGTCGGAAC
    ATTGACCCTG AACGGTACCG ACTCTGTCGG CAAGAGATAA CGTCCTTAAG GATGAAGCTG
    CATCAGCAGG AGAGAGACAT GGCAGAGATT CAGAGAGTAT GGAAGGAAAA GTTTGAACAG
    GCTGAAAAAA GAAAACTTCA AGAGACAAAG GAGTTACAGA AAGCGGGAGT TACATTTCAA
    ATGGACAACC ACTTGCCAAA CCTTGTCAAT CTCAATGAAG ACCCACAGCT GTCGGAGATG
    CTGCTCTACA TGGTAAAGGA GGGAGTAACC ACAGTTGGAA AGCACACACC AAGCTCAAGC
    CACGATATCC AGTTGTCTGG AGTGCTGATT GCCGATGATC ACTGTACTAT CAGAAATTTT
    GGAGGAACAG TGAGTATTGT CCCAGCTGGA GAAGCAAAGA CATACGTAAA CGGGACGCAC
    ATCTCAGAGC CCACAGTGTT ACATCATGGT GATCGGGTGG TTCTTGGTGG AGATCATTAT
    TTTAGATTTA ATCATCCAGT TGAAGTCCAG AAAGGAAAAA AACTGTCAAG TAGAAATAAT
    CTCACAACAA GCGAAGGCCC AAAAGATTTT GAGTTTGCCA AAAATGAGTT ACTTACAGCA
    CAGAGTTCTC GGCTTGAGGC AGAAATTAAA GATGCGCAGC TGAAGGCGAA GGAAGAAATG
    ATGCAAGGAA TTCAAATCGC AAAGGAGATG GCCCAGCAAG AACTTTCTTC CCAAAAAGCT
    GCGTATGAGC GCAAAATCCA GGCCCTAGAG GCGGAGCTGA GGGAAGAGTC TCAAAGGAAG
    AGATTGGAGG AATTAAATAA CCAAAAAGCT AGTCACAAGA TTGAGGAATT GGAAAGGGCG
    AAGCAGCATC TTGAACAGGA AGTATATGTG AACAAAAGGC GACTGGAGAT GGAGACCCTG
    GCCACAAAGC AGGCCTTAGA AGACCATAGA ATCCGACATG CGAGGATCTT AGAAGCTTTA
    GAAATTGAAA AGCAAAAGAT CGCTGAAGAA GTACAGATGC TTCAGGAGAA TCGGGGAAAC
    AGGGATAAAA CTTTCACCAT TCAGCCAAAC TGGAACTCCA TGAAACTCTC CACGATGATT
    CAGGAAGCCA ATGCCATCAG TGACAAATTT AAAAAGTGCT ATATTTTTGG CAGACATGAT
    GCATCAGACA AAAGCCGTTC TGATACCTCT GTTCGAGTTC GTAACCTCCA GCTTGGGATC
    TCAACTTTCT GGAGCCTGGA AAAGTTTGAA TCTAAACTTG CAGCAATGAA AGAGCTTTAT
    GAGAGTGACG GTGGTAACAG GGGTGAGGAT GTCTTCTGTG ACCCTGCAGA TGAGTGGGAG
    CCCGACATTA CAAGCACACC AGTTTCTTCC CTTTCCAGAA GGAGGAGCAG AAGTTTGATG
    AAGAACAGGA GAGTCTCTGG CTGTCTGCAT GACATCCATC CAATTCAGAG TATGCAGTCC
    TCACACTCAT CTGGATTAAT GGAAAAACCA AGCACCATTT ACTCAAATTC ATCAGAGTCC
    TTTCTTCCTG GGATTTGCAA AGAATTGATT GGCTCATCAA TAGATTTCCT CGGACAGAGT
    TTCCATGAAG AGAAAACTAT AGCAGATAGC CTGATAAATA ATCTCCTTAG GCTTCATAGT
    GGGGTGATTG CCATCTCCAA AGCCCATGAA GAGCAGGATG AAGAAAGTCA AGATAATCTG
    TTCTCTGACC GGGCGGCACA GGCTCTTACC ATCCAGGTTG CTTGTGCCTT TGGGCAGCTT
    GTGGTTTTGT TCAAACACTG GCTGGGTGAT TTTCTACCTT GTACTGGCTC AGCGAGGCTT
    GAAGATGAAT TGAGACAAGA TATTAAAAAA CTCGGAGGCT ATTTGCAATT GTTTTTGCAG
    GGATGCTGTT CGGATATTTC ATCGATGGTA AAAGAGGCTC AAAACAAAGT CATGGAGATT
    ATGCAGCAGG CTGTTCAGTG TGTGGGTCAG CTAGCCGTTC TGAAAGGGAG CAAGCTCTGT
    GTTCTGGAAA ACAGCAACAA AGTCTCCAGT GCCCAGGAGT TTTTGGCTGC TCTCCAGGAT
    GGTGTGACCT CGGGGATGAA GAGTCTCTTA GACTCTGGGC TGGAGACCGC ACAGGACCTC
    AGGCAGGACC TCTCCAGGCA GAGTGCACAA GAGGAGGTCA CTAAGCAGAT GAAAGCCAGT
    ACTGTGGAGT GGGTCGGGTC TCTGGAAAAT GCCGTCGCTG AATGGAGGAC GAAAAGCTTC
    AGAACTCAAG TACAAGAAGG TTCTAGACAA CAAATTTCCA AGCTGTTAAG CCTTGCGTCA
    GAATTCTTGA AGCTGAAGTC GTGCTTGCAA CAAACCGTTG AGATGATTGT ATCTGCGCTG
    AGAGGGTGCC CCAGTGACTT GCACTGTCTC AGAAGCTGCA TCAAGACTAT CTGCAGCCTG
    ACTCGCAAGC TTCACAGTGA CTTCAGCGCA CTCTCTGCCT CTGCTGGCAG CAGCGGAAAT
    GAACTGCCTC GTGCTGACTG TGAGGAACTA GAGTCTCTAG CTAAGTCACT CCTCCTATGT
    TTTGAATGTG GAGAAAGCCC TGGTTTGTCG AAACCCTGGG AGTCTTGTTC TTCGAATAGC
    AAGGAAGAGC AGTGCAAGTC AGACAGGGCT GACTGCGGGA AAAGCGAGCC AAGACACGTC
    TGTGAACCCC ACGGAGACGC AACCCCAGCA GTGTCCTCTG GGGACTGCAC CCACAATAGG
    ATTCAGTGGG TGTGA

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

    CloneID OMv23068
    Clone ID Related Accession (Same CDS sequence) XM_021160757.1 , XM_021160757.2
    Accession Version XM_021160757.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4875bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product kinesin-like protein KIF14 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034570.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 10, 2019 this sequence version replaced XM_021160757.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    ATGTCAGTAC ACACTTCGCA TAGCAGACAC AACGTCGGTA GCCTGGAGGT TTCTTCTTCA 
    CAGAAGATTT CAGCATCCAG TGGCCTCGTC CACAGCAGCC GGCTGGAACT GCACTTGAAG
    GCAGATATGT CAGAGTGTGA GAATCATGAT CCATTAGTGA ATGCTGGAAG TAAAACCATC
    GACATAAATA GCACTTATGT TATCTCTGCC TGTAAAAAAA CAAGAGAGAC TCCTGTTACC
    TCTGACCCCG GGAGACTGAC CCTTCAGAGA AGGGCTACTT GTGGGAACAA AGAATCGTCT
    TTACTTGGTA GTGAGTTGGG AGACACCACC AGAAGAACAG CAGACACAAG TCTGAGGTTA
    CAACGGCGGC ACGATAGAGC GGATTATGTG GGAAAGTGGG AGACACTGGA CCCTGTGGGA
    GGTAACCCAG GAAGTAACTC TACCTCGCAG GCAGCGAGGA CAGAAGCAGC AAAGCGTGTA
    AATAATGATA CCCGTGTCCT GTCGTCTGCA GTCTCCGTGA AAGACTCCAA CGACACCGGG
    TTGACGAGAT GCAAAGACCC ATGTCCTACC TCTAATGAAA AGGTGACAGT TAGGGACACA
    AACAGTAGAG CGCCTGTGGG TTCCCAGTGT CAGACTGAAG CTATGAGATC AGGACACTTA
    GTGGTGCAAC AGACCGAGAG CAAGTCTGAT ACCCCAGTGT CGGGAGGAAG ACACTCACAC
    CGTGGAAATG CTGGCAAGGA CACTGCTAAA CAAGTCGGTA CATTTGGGAG CTCAGATACA
    AGAACCCCAG TGAAATGTGT TTTAGAACAC AGATGGACAC CAAGGCATGA CCTGCCTCCA
    CCAAAAAGCC CAGCTTTATC AACACTGAAA AACAGGATTG CAAGCCCTCG AGTTAAACCA
    AGGCCCAAAA GTTCTCTTCT TGCAAATAAA AGGGAAAGCG CACAAGAAAG CACGCTCCCT
    CCAGAAGACA AAAGTATAGT TCAGAAGACC TTTACAGAAC CAGACTCCTT AAAAGTCGAG
    AACAGTCAGG TGACCGTGGC GGTGCGCGTG AGGCCTTTCA GCAAAAGAGA GAAGACTGAG
    AAAGCATCCC AGGTTGTCTT CACCAATGGG GAAGAAATAA CTGTGGAACA TCCCGATATG
    AAACAAGTTT ACTCTTTTAT TTACGATGTT TCCTTTTGGT CTTTTGATGA ATGTCACCCT
    GGCTATGCCA GCCAGACAAC TGTATATGAG ACACTGGCTG CACCACTCCT GGACAGAGCT
    TTTGAAGGCT ATAACACCTG TCTCTTTGCT TATGGCCAGA CTGGCTCTGG AAAGTCCTAT
    ACGATGATGG GGCTTAATGA AGAACCAGGA ATAATTCCCA GATTCTGTGA AGATCTCTTT
    GCTCAAATAG CCAAAAAACA AACCTCAGAG GTCAGCTACC ATCTTGAAAT GAGCTTCTTT
    GAAGTTTATA ATGAAAAAAT TCATGATCTT CTGGTTTGTA AAGGTGAAAA TGGGCAGAGG
    AAACAACCAC TGCGCGTGAG GGAGCACCCT GTTTCTGGAC CGTATGTTGA AGGTCTGTCA
    ATGAATGTTG TGAGTTCTTA CTCTGATATT CAGAGCTGGC TGGAACTGGG AAATAAACAG
    AGAGCCACGG CGGCCACCGG CATGAACGAT AAAAGCTCCC GGTCTCATTC TGTGTTCACC
    CTGGTGATGA CGCAGACCAA GACAGAGGTG GTGGAGGGGG AGGAACATGA CCACAGGATC
    ACGAGCCGCA TCAACCTCAT CGACCTGGCC GGCAGTGAGC GCTGCTCCAC CGCCCACTCG
    AGTGGGGAGC GACTGAAGGA AGGTGTGAGC ATTAACAAGT CCTTGCTGAC TTTGGGGAAG
    GTCATATCTG CACTCTCCGA GCAAGCAAAC GGAAAGAGGG TTTTTATTCC ATATCGGGAA
    TCCACTCTTA CATGGCTATT AAAAGAAAGC CTGGGTGGAA ATTCAAAAAC AGCCATGATT
    GCTACTGTCA GTCCTGCTGC CAGCAACATA GAGGAAACGC TGAGCACACT CAGATATGCC
    ACCCAAGCCC GCCTGATAGT CAATATCGCC AAAGTCAACG AGGACATGAA TGCAAAGTTG
    ATCAGAGAGT TGAAAGCAGA AATTGAAAAG TTAAAAGCTG CCCAGAGAAG CAGTCGGAAC
    ATTGACCCTG AACGGTACCG ACTCTGTCGG CAAGAGATAA CGTCCTTAAG GATGAAGCTG
    CATCAGCAGG AGAGAGACAT GGCAGAGATT CAGAGAGTAT GGAAGGAAAA GTTTGAACAG
    GCTGAAAAAA GAAAACTTCA AGAGACAAAG GAGTTACAGA AAGCGGGAGT TACATTTCAA
    ATGGACAACC ACTTGCCAAA CCTTGTCAAT CTCAATGAAG ACCCACAGCT GTCGGAGATG
    CTGCTCTACA TGGTAAAGGA GGGAGTAACC ACAGTTGGAA AGCACACACC AAGCTCAAGC
    CACGATATCC AGTTGTCTGG AGTGCTGATT GCCGATGATC ACTGTACTAT CAGAAATTTT
    GGAGGAACAG TGAGTATTGT CCCAGCTGGA GAAGCAAAGA CATACGTAAA CGGGACGCAC
    ATCTCAGAGC CCACAGTGTT ACATCATGGT GATCGGGTGG TTCTTGGTGG AGATCATTAT
    TTTAGATTTA ATCATCCAGT TGAAGTCCAG AAAGGAAAAA AACTGTCAAG TAGAAATAAT
    CTCACAACAA GCGAAGGCCC AAAAGATTTT GAGTTTGCCA AAAATGAGTT ACTTACAGCA
    CAGAGTTCTC GGCTTGAGGC AGAAATTAAA GATGCGCAGC TGAAGGCGAA GGAAGAAATG
    ATGCAAGGAA TTCAAATCGC AAAGGAGATG GCCCAGCAAG AACTTTCTTC CCAAAAAGCT
    GCGTATGAGC GCAAAATCCA GGCCCTAGAG GCGGAGCTGA GGGAAGAGTC TCAAAGGAAG
    AGATTGGAGG AATTAAATAA CCAAAAAGCT AGTCACAAGA TTGAGGAATT GGAAAGGGCG
    AAGCAGCATC TTGAACAGGA AGTATATGTG AACAAAAGGC GACTGGAGAT GGAGACCCTG
    GCCACAAAGC AGGCCTTAGA AGACCATAGA ATCCGACATG CGAGGATCTT AGAAGCTTTA
    GAAATTGAAA AGCAAAAGAT CGCTGAAGAA GTACAGATGC TTCAGGAGAA TCGGGGAAAC
    AGGGATAAAA CTTTCACCAT TCAGCCAAAC TGGAACTCCA TGAAACTCTC CACGATGATT
    CAGGAAGCCA ATGCCATCAG TGACAAATTT AAAAAGTGCT ATATTTTTGG CAGACATGAT
    GCATCAGACA AAAGCCGTTC TGATACCTCT GTTCGAGTTC GTAACCTCCA GCTTGGGATC
    TCAACTTTCT GGAGCCTGGA AAAGTTTGAA TCTAAACTTG CAGCAATGAA AGAGCTTTAT
    GAGAGTGACG GTGGTAACAG GGGTGAGGAT GTCTTCTGTG ACCCTGCAGA TGAGTGGGAG
    CCCGACATTA CAAGCACACC AGTTTCTTCC CTTTCCAGAA GGAGGAGCAG AAGTTTGATG
    AAGAACAGGA GAGTCTCTGG CTGTCTGCAT GACATCCATC CAATTCAGAG TATGCAGTCC
    TCACACTCAT CTGGATTAAT GGAAAAACCA AGCACCATTT ACTCAAATTC ATCAGAGTCC
    TTTCTTCCTG GGATTTGCAA AGAATTGATT GGCTCATCAA TAGATTTCCT CGGACAGAGT
    TTCCATGAAG AGAAAACTAT AGCAGATAGC CTGATAAATA ATCTCCTTAG GCTTCATAGT
    GGGGTGATTG CCATCTCCAA AGCCCATGAA GAGCAGGATG AAGAAAGTCA AGATAATCTG
    TTCTCTGACC GGGCGGCACA GGCTCTTACC ATCCAGGTTG CTTGTGCCTT TGGGCAGCTT
    GTGGTTTTGT TCAAACACTG GCTGGGTGAT TTTCTACCTT GTACTGGCTC AGCGAGGCTT
    GAAGATGAAT TGAGACAAGA TATTAAAAAA CTCGGAGGCT ATTTGCAATT GTTTTTGCAG
    GGATGCTGTT CGGATATTTC ATCGATGGTA AAAGAGGCTC AAAACAAAGT CATGGAGATT
    ATGCAGCAGG CTGTTCAGTG TGTGGGTCAG CTAGCCGTTC TGAAAGGGAG CAAGCTCTGT
    GTTCTGGAAA ACAGCAACAA AGTCTCCAGT GCCCAGGAGT TTTTGGCTGC TCTCCAGGAT
    GGTGTGACCT CGGGGATGAA GAGTCTCTTA GACTCTGGGC TGGAGACCGC ACAGGACCTC
    AGGCAGGACC TCTCCAGGCA GAGTGCACAA GAGGAGGTCA CTAAGCAGAT GAAAGCCAGT
    ACTGTGGAGT GGGTCGGGTC TCTGGAAAAT GCCGTCGCTG AATGGAGGAC GAAAAGCTTC
    AGAACTCAAG TACAAGAAGG TTCTAGACAA CAAATTTCCA AGCTGTTAAG CCTTGCGTCA
    GAATTCTTGA AGCTGAAGTC GTGCTTGCAA CAAACCGTTG AGATGATTGT ATCTGCGCTG
    AGAGGGTGCC CCAGTGACTT GCACTGTCTC AGAAGCTGCA TCAAGACTAT CTGCAGCCTG
    ACTCGCAAGC TTCACAGTGA CTTCAGCGCA CTCTCTGCCT CTGCTGGCAG CAGCGGAAAT
    GAACTGCCTC GTGCTGACTG TGAGGAACTA GAGTCTCTAG CTAAGTCACT CCTCCTATGT
    TTTGAATGTG GAGAAAGCCC TGGTTTGTCG AAACCCTGGG AGTCTTGTTC TTCGAATAGC
    AAGGAAGAGC AGTGCAAGTC AGACAGGGCT GACTGCGGGA AAAGCGAGCC AAGACACGTC
    TGTGAACCCC ACGGAGACGC AACCCCAGCA GTGTCCTCTG GGGACTGCAC CCACAATAGG
    ATTCAGTGGG TGTGA

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

    RefSeq XP_021016416.1
    CDS23..4897
    Translation

    Target ORF information:

    RefSeq Version XM_021160757.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli kinesin family member 14 (Kif14), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021160757.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    ATGTCAGTAC ACACTTCGCA TAGCAGACAC AACGTCGGTA GCCTGGAGGT TTCTTCTTCA 
    CAGAAGATTT CAGCATCCAG TGGCCTCGTC CACAGCAGCC GGCTGGAACT GCACTTGAAG
    GCAGATATGT CAGAGTGTGA GAATCATGAT CCATTAGTGA ATGCTGGAAG TAAAACCATC
    GACATAAATA GCACTTATGT TATCTCTGCC TGTAAAAAAA CAAGAGAGAC TCCTGTTACC
    TCTGACCCCG GGAGACTGAC CCTTCAGAGA AGGGCTACTT GTGGGAACAA AGAATCGTCT
    TTACTTGGTA GTGAGTTGGG AGACACCACC AGAAGAACAG CAGACACAAG TCTGAGGTTA
    CAACGGCGGC ACGATAGAGC GGATTATGTG GGAAAGTGGG AGACACTGGA CCCTGTGGGA
    GGTAACCCAG GAAGTAACTC TACCTCGCAG GCAGCGAGGA CAGAAGCAGC AAAGCGTGTA
    AATAATGATA CCCGTGTCCT GTCGTCTGCA GTCTCCGTGA AAGACTCCAA CGACACCGGG
    TTGACGAGAT GCAAAGACCC ATGTCCTACC TCTAATGAAA AGGTGACAGT TAGGGACACA
    AACAGTAGAG CGCCTGTGGG TTCCCAGTGT CAGACTGAAG CTATGAGATC AGGACACTTA
    GTGGTGCAAC AGACCGAGAG CAAGTCTGAT ACCCCAGTGT CGGGAGGAAG ACACTCACAC
    CGTGGAAATG CTGGCAAGGA CACTGCTAAA CAAGTCGGTA CATTTGGGAG CTCAGATACA
    AGAACCCCAG TGAAATGTGT TTTAGAACAC AGATGGACAC CAAGGCATGA CCTGCCTCCA
    CCAAAAAGCC CAGCTTTATC AACACTGAAA AACAGGATTG CAAGCCCTCG AGTTAAACCA
    AGGCCCAAAA GTTCTCTTCT TGCAAATAAA AGGGAAAGCG CACAAGAAAG CACGCTCCCT
    CCAGAAGACA AAAGTATAGT TCAGAAGACC TTTACAGAAC CAGACTCCTT AAAAGTCGAG
    AACAGTCAGG TGACCGTGGC GGTGCGCGTG AGGCCTTTCA GCAAAAGAGA GAAGACTGAG
    AAAGCATCCC AGGTTGTCTT CACCAATGGG GAAGAAATAA CTGTGGAACA TCCCGATATG
    AAACAAGTTT ACTCTTTTAT TTACGATGTT TCCTTTTGGT CTTTTGATGA ATGTCACCCT
    GGCTATGCCA GCCAGACAAC TGTATATGAG ACACTGGCTG CACCACTCCT GGACAGAGCT
    TTTGAAGGCT ATAACACCTG TCTCTTTGCT TATGGCCAGA CTGGCTCTGG AAAGTCCTAT
    ACGATGATGG GGCTTAATGA AGAACCAGGA ATAATTCCCA GATTCTGTGA AGATCTCTTT
    GCTCAAATAG CCAAAAAACA AACCTCAGAG GTCAGCTACC ATCTTGAAAT GAGCTTCTTT
    GAAGTTTATA ATGAAAAAAT TCATGATCTT CTGGTTTGTA AAGGTGAAAA TGGGCAGAGG
    AAACAACCAC TGCGCGTGAG GGAGCACCCT GTTTCTGGAC CGTATGTTGA AGGTCTGTCA
    ATGAATGTTG TGAGTTCTTA CTCTGATATT CAGAGCTGGC TGGAACTGGG AAATAAACAG
    AGAGCCACGG CGGCCACCGG CATGAACGAT AAAAGCTCCC GGTCTCATTC TGTGTTCACC
    CTGGTGATGA CGCAGACCAA GACAGAGGTG GTGGAGGGGG AGGAACATGA CCACAGGATC
    ACGAGCCGCA TCAACCTCAT CGACCTGGCC GGCAGTGAGC GCTGCTCCAC CGCCCACTCG
    AGTGGGGAGC GACTGAAGGA AGGTGTGAGC ATTAACAAGT CCTTGCTGAC TTTGGGGAAG
    GTCATATCTG CACTCTCCGA GCAAGCAAAC GGAAAGAGGG TTTTTATTCC ATATCGGGAA
    TCCACTCTTA CATGGCTATT AAAAGAAAGC CTGGGTGGAA ATTCAAAAAC AGCCATGATT
    GCTACTGTCA GTCCTGCTGC CAGCAACATA GAGGAAACGC TGAGCACACT CAGATATGCC
    ACCCAAGCCC GCCTGATAGT CAATATCGCC AAAGTCAACG AGGACATGAA TGCAAAGTTG
    ATCAGAGAGT TGAAAGCAGA AATTGAAAAG TTAAAAGCTG CCCAGAGAAG CAGTCGGAAC
    ATTGACCCTG AACGGTACCG ACTCTGTCGG CAAGAGATAA CGTCCTTAAG GATGAAGCTG
    CATCAGCAGG AGAGAGACAT GGCAGAGATT CAGAGAGTAT GGAAGGAAAA GTTTGAACAG
    GCTGAAAAAA GAAAACTTCA AGAGACAAAG GAGTTACAGA AAGCGGGAGT TACATTTCAA
    ATGGACAACC ACTTGCCAAA CCTTGTCAAT CTCAATGAAG ACCCACAGCT GTCGGAGATG
    CTGCTCTACA TGGTAAAGGA GGGAGTAACC ACAGTTGGAA AGCACACACC AAGCTCAAGC
    CACGATATCC AGTTGTCTGG AGTGCTGATT GCCGATGATC ACTGTACTAT CAGAAATTTT
    GGAGGAACAG TGAGTATTGT CCCAGCTGGA GAAGCAAAGA CATACGTAAA CGGGACGCAC
    ATCTCAGAGC CCACAGTGTT ACATCATGGT GATCGGGTGG TTCTTGGTGG AGATCATTAT
    TTTAGATTTA ATCATCCAGT TGAAGTCCAG AAAGGAAAAA AACTGTCAAG TAGAAATAAT
    CTCACAACAA GCGAAGGCCC AAAAGATTTT GAGTTTGCCA AAAATGAGTT ACTTACAGCA
    CAGAGTTCTC GGCTTGAGGC AGAAATTAAA GATGCGCAGC TGAAGGCGAA GGAAGAAATG
    ATGCAAGGAA TTCAAATCGC AAAGGAGATG GCCCAGCAAG AACTTTCTTC CCAAAAAGCT
    GCGTATGAGC GCAAAATCCA GGCCCTAGAG GCGGAGCTGA GGGAAGAGTC TCAAAGGAAG
    AGATTGGAGG AATTAAATAA CCAAAAAGCT AGTCACAAGA TTGAGGAATT GGAAAGGGCG
    AAGCAGCATC TTGAACAGGA AGTATATGTG AACAAAAGGC GACTGGAGAT GGAGACCCTG
    GCCACAAAGC AGGCCTTAGA AGACCATAGA ATCCGACATG CGAGGATCTT AGAAGCTTTA
    GAAATTGAAA AGCAAAAGAT CGCTGAAGAA GTACAGATGC TTCAGGAGAA TCGGGGAAAC
    AGGGATAAAA CTTTCACCAT TCAGCCAAAC TGGAACTCCA TGAAACTCTC CACGATGATT
    CAGGAAGCCA ATGCCATCAG TGACAAATTT AAAAAGTGCT ATATTTTTGG CAGACATGAT
    GCATCAGACA AAAGCCGTTC TGATACCTCT GTTCGAGTTC GTAACCTCCA GCTTGGGATC
    TCAACTTTCT GGAGCCTGGA AAAGTTTGAA TCTAAACTTG CAGCAATGAA AGAGCTTTAT
    GAGAGTGACG GTGGTAACAG GGGTGAGGAT GTCTTCTGTG ACCCTGCAGA TGAGTGGGAG
    CCCGACATTA CAAGCACACC AGTTTCTTCC CTTTCCAGAA GGAGGAGCAG AAGTTTGATG
    AAGAACAGGA GAGTCTCTGG CTGTCTGCAT GACATCCATC CAATTCAGAG TATGCAGTCC
    TCACACTCAT CTGGATTAAT GGAAAAACCA AGCACCATTT ACTCAAATTC ATCAGAGTCC
    TTTCTTCCTG GGATTTGCAA AGAATTGATT GGCTCATCAA TAGATTTCCT CGGACAGAGT
    TTCCATGAAG AGAAAACTAT AGCAGATAGC CTGATAAATA ATCTCCTTAG GCTTCATAGT
    GGGGTGATTG CCATCTCCAA AGCCCATGAA GAGCAGGATG AAGAAAGTCA AGATAATCTG
    TTCTCTGACC GGGCGGCACA GGCTCTTACC ATCCAGGTTG CTTGTGCCTT TGGGCAGCTT
    GTGGTTTTGT TCAAACACTG GCTGGGTGAT TTTCTACCTT GTACTGGCTC AGCGAGGCTT
    GAAGATGAAT TGAGACAAGA TATTAAAAAA CTCGGAGGCT ATTTGCAATT GTTTTTGCAG
    GGATGCTGTT CGGATATTTC ATCGATGGTA AAAGAGGCTC AAAACAAAGT CATGGAGATT
    ATGCAGCAGG CTGTTCAGTG TGTGGGTCAG CTAGCCGTTC TGAAAGGGAG CAAGCTCTGT
    GTTCTGGAAA ACAGCAACAA AGTCTCCAGT GCCCAGGAGT TTTTGGCTGC TCTCCAGGAT
    GGTGTGACCT CGGGGATGAA GAGTCTCTTA GACTCTGGGC TGGAGACCGC ACAGGACCTC
    AGGCAGGACC TCTCCAGGCA GAGTGCACAA GAGGAGGTCA CTAAGCAGAT GAAAGCCAGT
    ACTGTGGAGT GGGTCGGGTC TCTGGAAAAT GCCGTCGCTG AATGGAGGAC GAAAAGCTTC
    AGAACTCAAG TACAAGAAGG TTCTAGACAA CAAATTTCCA AGCTGTTAAG CCTTGCGTCA
    GAATTCTTGA AGCTGAAGTC GTGCTTGCAA CAAACCGTTG AGATGATTGT ATCTGCGCTG
    AGAGGGTGCC CCAGTGACTT GCACTGTCTC AGAAGCTGCA TCAAGACTAT CTGCAGCCTG
    ACTCGCAAGC TTCACAGTGA CTTCAGCGCA CTCTCTGCCT CTGCTGGCAG CAGCGGAAAT
    GAACTGCCTC GTGCTGACTG TGAGGAACTA GAGTCTCTAG CTAAGTCACT CCTCCTATGT
    TTTGAATGTG GAGAAAGCCC TGGTTTGTCG AAACCCTGGG AGTCTTGTTC TTCGAATAGC
    AAGGAAGAGC AGTGCAAGTC AGACAGGGCT GACTGCGGGA AAAGCGAGCC AAGACACGTC
    TGTGAACCCC ACGGAGACGC AACCCCAGCA GTGTCCTCTG GGGACTGCAC CCACAATAGG
    ATTCAGTGGG TGTGA

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