ORF » Species Summary » Mus caroli » Cep170 cDNA ORF clone

Cep170 cDNA ORF clone, Mus caroli(Ryukyu mouse)

The following Cep170 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Cep170 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
OMv23062 XM_021160699.2
Latest version!		 Mus caroli centrosomal protein 170 (Cep170), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMv23063 XM_021160708.2
Latest version!		 Mus caroli centrosomal protein 170 (Cep170), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMv23064 XM_021160717.2
Latest version!		 Mus caroli centrosomal protein 170 (Cep170), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMv23065 XM_021160724.1
Latest version!		 Mus caroli centrosomal protein 170 (Cep170), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMv66585 XM_029481035.1
Latest version!		 Mus caroli centrosomal protein 170 (Cep170), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMv66586 XM_029481036.1
Latest version!		 Mus caroli centrosomal protein 170 (Cep170), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMv66587 XM_029481037.1
Latest version!		 Mus caroli centrosomal protein 170 (Cep170), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMv23059 XM_021160674.2
Latest version!		 Mus caroli centrosomal protein 170 (Cep170), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OMv23060 XM_021160681.2
Latest version!		 Mus caroli centrosomal protein 170 (Cep170), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OMv23061 XM_021160690.2
Latest version!		 Mus caroli centrosomal protein 170 (Cep170), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OMv66583 XM_029481033.1
Latest version!		 Mus caroli centrosomal protein 170 (Cep170), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OMv66584 XM_029481034.1
Latest version!		 Mus caroli centrosomal protein 170 (Cep170), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
View Old Accession Versions >>
OMv23059 XM_021160674.1 Mus caroli centrosomal protein 170 (Cep170), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OMv23061 XM_021160690.1 Mus caroli centrosomal protein 170 (Cep170), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OMv23064 XM_021160717.1 Mus caroli centrosomal protein 170 (Cep170), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMv23062 XM_021160699.1 Mus caroli centrosomal protein 170 (Cep170), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMv23063 XM_021160708.1 Mus caroli centrosomal protein 170 (Cep170), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMv23060 XM_021160681.1 Mus caroli centrosomal protein 170 (Cep170), 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)
    Cep170 ( XM_021160699.2 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021016358.1 Mus caroli centrosomal protein 170 (Cep170), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OMv23062
    Clone ID Related Accession (Same CDS sequence) XM_021160699.2 , XM_021160699.1
    Accession Version XM_021160699.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4473bp)
    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 centrosomal protein of 170 kDa isoform X6
    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_021160699.1. ##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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGACGACTGT GAGCTCATGC TTCAGTCCCG AAGTGTGGAT 
    AAACAACATG CTGTAATCAA TTATGATGCA TCTATGGATG AACATTTGGT GAAAGATTTA 
    GGCAGCCTAA ATGGGACTTT TGTGAATGAT GTAAGGATAC CAGAGCAGAC GTACATCACT 
    TTGAAGCTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTCTTCAC TGTAGTACGA 
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCACGAGA AGTTTACCAT TCAGCTTCAA 
    TTGTCCCAGA AGTCTTCAGA ATCAGAATTA CCAAAATCAG CAAGTGCCAA AGGCACGGAC 
    TCAAAAGTGG AGGCTGCTGC AGAAGTGCAG CCCAGAGCCA CAGAAGCACT AAAATCTGAA 
    GAGAAACCCG TGGATGTCTC TGCTATGCCC CGAGGCACTC CATTATATGG GCAGCCGTCC 
    TGGTGGGGAG ACGAAGAGGA GGATGAACAA AGAGCTTTCA AGGCCAATGG CAAGCCTGAG 
    GGAAAAAGTC AGGAACCTGG GGCTTCAGGG TGCAGCATAG ATGCCAAGCA TGTGGAGGAA 
    CAGTCTGCAG CTGCAAGTGA AGAAGCACTT TTTCCATTCT GTAGGGAGCC AAGTTATTTT 
    GAAATTCCTA CAAAAGAATT CCAGCAGCCA TCACAAATAG CAGAGAGCAC TATTCATGAG 
    ATTCCAACAA AAGACACACC AAGTTCCCAT ACAGCAGGTG CAGGGCATGC TTCATTTACC 
    ATTGAATTTG ATGACAGTAC GCCAGGAAAA GTAACTATTA GAGACCATGT GACAAAATTC 
    ACTTCTGACC AGCGCCACAA GTCAAAGAAG GCCTCTCCAG GAACTCAAGA CTTGCCAGGA 
    ATTCAGACAG GAATGATGGC ACCAGAAAAT AAAGTAGCTG ACTGGCTAGC CCAAAACAAC 
    CCTCCTCAAA TGGTGTGGGA AAGAACAGAG GAGGATTCCA AGAGCATTAA AAGTGATGTT 
    CCTGTGTACT TGAAAAGGTT GAAAGGAAAC AAACATGATG ATGGTACACA GAGTGATTCA 
    GAGAATGCTG GGGCGCACAG GCGCTGTAGC AAGCGTGCAA CTCTGGAGGA ACATTTACGC 
    CGCCATCACT CAGAGCAGAA AAAGAAGGCC CAGTCCACCG AAAAGCATCA AGAACAGGCT 
    GCTGTATTTG GAGTAGATGA CAATCAGGAT TATAATAGGC CTATTATCAA TGAAAAGCAT 
    AAAGGTCTCA TAAAAGACTG GGCTCTCAAC TCTGCTGCAG TAGTAATGGA AGACAGAAAG 
    CCATTGAGCA CACCTGGGTT TCATAACTCA GAGGAAGCCA TATCTTCATC TGGAAGCAAA 
    CGTTGGGTTT CACAATGGGC TAGTTTGGCT GCTAATCATA CAAGGCATGA TCCAGAAGAA 
    AGGTTAATGG AATTGTCTGC AACTGTAGAA AACGAGACAG ATACTGGTGA AGCTGGTGTT 
    TCCCTAAGAA GTACTAGTTG TACAACTTCC TTGGCTAGTC AGGGAGAGAG GAAGAGGCGA 
    ACTCTTCCCC AGCTCCCAAA TGAAGAGAAG CTACTCGAGA GCTCCAGAGT GAAGGTCGTT 
    CCACAGAGGT CAGAGATAGG AGAAAAGCAA GACACGGAAC TGCAGGAAAA AGAAGCCCAG 
    GTATACCAAA GCGAGAAGCA CGATGCAGAC CGAGGCCTAA GTAAAATGAG CAGGGCAGTC 
    AATGGTGAGA GTCTTAAAAC TGGTGGAGAT GGTAAAGCCC TCCTTCACTC AGGAAACTCA 
    TCTAGCAAGG AGAAGAGTGA GACAGAAAAG GAAACTTCTT TGGTAAAACA AACATTGGCT 
    AAAATCCAGC AGCAAGAGCA AAAGGAGCAG GCCCAGTGGA CTCCTACTAA GTTTCCTTCA 
    AAAAATGCTT TAGGCCATAT AGATAAATGT AGGGAGGAAT CTTCTAAGCA AGAGTCCCAA 
    CTCTTAGAAA AAGTTTCAGG ACATTCTACA AGCAAAGGAG ACAGAGTAAT ACAAAATGAA 
    AGCAAGAGAA GGAAAGCTGA GGAAATTCCA AAATGCCAGG CTTCAAAAGG AGACAAGAAA 
    GAGTCTTCCA AATCATTAGT GCGCCAAGGG AGTTTCACCA TAGACAAGCC CAGTTCAAAC 
    ATCCCCATAG AACTTATCCC CCATATCAAT AAGCAGAATT CATCTGTACC CACTGCCTTA 
    GCACTGACAT CTGCAAGTAG ACTTCGAGAA AGGAGTGACT CTTTGGATAC TGATTCTAGC 
    ATGGACACAA CCTTGATTTT AAAAGACACA GAAGCAGTGA TGGCTTTTCT AGAAGCTAAA 
    CTGCGTGAAG ATAATAATAA AACTGATGAA GGCCCAGATA CTCCCAGTTA CAATAGAGAC 
    AATTCAATTT CACCAGAATC TGATGTAGAC ACAGCCAGTA CAATTAGTCT GGTGACTGGA 
    GAGACAGAAA GAAAGTCCAC CCAAAAGCGG AAGAGTTTCA CTAGTCTCTA TAAAGACAGG 
    TGTTCCACGA GTTCCCCATC CAAAGATGTT ACAAAGTCAA GCAGTAGGGA GAAAATTGAA 
    AAGAAAGCAA AAAGCCGCTC TACAGATATA GGTGCAAGAG CAGATGGTCG CAAATTTGTA 
    CAGTCCAGTG GAAGAATCCG GCAGCCTTCC ATAGACTTAA CAGATGATGA CCAGACCTCT 
    AGTGTACCTC ATTCTGCTAT TTCTGACATT ATGTCATCTG ACCAGGAAAC ATACTCCTGC 
    AAATCTCATG GACGGACTCC ACTTACCTCA GCCGATGAAC ACAACATACA TTCCAAACTG 
    GAAGGAAGCA AAGCAACAAA GTCTAAGACT TCTCCTGTTG CCTCTGGTTC AACAAGTAAA 
    TCCACTACTC TCCCAAGGCC ACGGCCCACC CGGACGTCCC TCCTGCGTAG AGCCCGGCTG 
    GGTGAAGCTT CTGACAGTGA ACTTGCTGAT GCTGACAAAG CATCCGTTGC TTCTGAAGTG 
    TCCACTACAA GTTCCACATC AAAACCACCC ACAGGAAGGC GAACCATCTC TAGGATTGAT 
    TTATTGGCTC AGCCTCGAAG AACAAGACTT GGCTCATTAT CCGCCCGTAG TGACTCTGAA 
    GCAACAATTT CAAGAAGCAG CGCATCTGCA CGCACTGCAG AAGCTGTCAT TAGGAGCGGA 
    GCCAGACTAG TGCCATCAGA TAAACTTTCT CCTAGAACTA GAGCTAACAG TATCTCTCGG 
    CTCTCCGATT CCAAGGTCAA GAGCATGAGC TCCACTCACG GCTCTCCTTC AGTAAATTCA 
    AGATGGAGGC GCTTTCCTAC TGATTATGCT TCCACCTCAG AAGATGAATT TGGATCAAAC 
    CGTAATTCCC CTAAACATAC TCGTCTACGT ACTTCTCCAG CCCTGAAAAC CACTCGCATG 
    CAGAGTACTG GATCAGCAAT GCCTGCTAGT TCTTCATTCA AGCACCGAAT TAAAGAACAG 
    GAAGACTATA TCCGAGATTG GACTGCCCAT CGAGAAGAGA TAGCCAGGAT CAGCCAAGAT 
    CTTGCTCTCA TTGCTCGGGA GATCAACGAC GTAGCAGGAG AAATAGATTC AGTGACTTCC 
    TCAGGCACTG CCCCGAGTAC CACAGTAAGC ACTGCCGCCA CCACCCCTGG CTCTGCCATA 
    GACACTAGAG AAGAGGTAGG AGATCTTCAT GGAGAAATGC ATAAGTTGGT TGATCGTGTT 
    TTTGATGAAA GTCTCAACTT CAGAAAGATA CCTCCATTAG TTCATTCTAA AACACCAGAA 
    GGAAACAACG GTCGGTCTGT TGACTCGAGG CCTCAGCCAG CCGAGCATCC TGATCACTTA 
    ACAATTACAA GACGGAGAAC CTGGAGTAGG GATGAAGTCA TGGGAGATAA TCTGCTATTG 
    TCATCAGTCT TTCAGTTCTC TAGGAAGATT AGACAATCCA TCGATAAAAC AGCTGGGAAA 
    ATCAGAATAT TGTTTAAAGA CAAAGACCGG AACTGGGATG ACATAGAAAA CAAGCTAAGA 
    GCTGAAAGCG AAGTCCCTAT CGTTAAAACT TCAAGCATGG AGATTTCTTC TATTTTACAG 
    GAGCTTAAAA GAGTTGAAAA ACAGTTGCAA GTGATAAATG CCATGATTGA CCCAGATGGA 
    ACTTTGGAGG CTCTTAACAA CATGGGATTT CCCAATGCTA TCCTGCCATC CCCACCAAAA 
    CAGAAGTCCA GCCCTGTTAA TAACCACAGC AGCCCTAGTC AGACGCCAGC ACTTTGCCCA 
    CCAGAAACTA GAGCCCTACA CCCTGCTGCT GCGGGAGCGG CGGCAGCAGC CTCCACTGAG 
    TTTGAGAATG CTGAATCTGA GGCTGATTTC AGTATCCATT TCAATAGGTT CAACCCTGAT 
    GGGGAAGAGG AGGATGTTAC AGTACATGAA TGA

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

    RefSeq XP_021016358.1
    CDS607..5079
    Translation

    Target ORF information:

    RefSeq Version XM_021160699.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli centrosomal protein 170 (Cep170), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021160699.2

    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGACGACTGT GAGCTCATGC TTCAGTCCCG AAGTGTGGAT 
    AAACAACATG CTGTAATCAA TTATGATGCA TCTATGGATG AACATTTGGT GAAAGATTTA 
    GGCAGCCTAA ATGGGACTTT TGTGAATGAT GTAAGGATAC CAGAGCAGAC GTACATCACT 
    TTGAAGCTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTCTTCAC TGTAGTACGA 
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCACGAGA AGTTTACCAT TCAGCTTCAA 
    TTGTCCCAGA AGTCTTCAGA ATCAGAATTA CCAAAATCAG CAAGTGCCAA AGGCACGGAC 
    TCAAAAGTGG AGGCTGCTGC AGAAGTGCAG CCCAGAGCCA CAGAAGCACT AAAATCTGAA 
    GAGAAACCCG TGGATGTCTC TGCTATGCCC CGAGGCACTC CATTATATGG GCAGCCGTCC 
    TGGTGGGGAG ACGAAGAGGA GGATGAACAA AGAGCTTTCA AGGCCAATGG CAAGCCTGAG 
    GGAAAAAGTC AGGAACCTGG GGCTTCAGGG TGCAGCATAG ATGCCAAGCA TGTGGAGGAA 
    CAGTCTGCAG CTGCAAGTGA AGAAGCACTT TTTCCATTCT GTAGGGAGCC AAGTTATTTT 
    GAAATTCCTA CAAAAGAATT CCAGCAGCCA TCACAAATAG CAGAGAGCAC TATTCATGAG 
    ATTCCAACAA AAGACACACC AAGTTCCCAT ACAGCAGGTG CAGGGCATGC TTCATTTACC 
    ATTGAATTTG ATGACAGTAC GCCAGGAAAA GTAACTATTA GAGACCATGT GACAAAATTC 
    ACTTCTGACC AGCGCCACAA GTCAAAGAAG GCCTCTCCAG GAACTCAAGA CTTGCCAGGA 
    ATTCAGACAG GAATGATGGC ACCAGAAAAT AAAGTAGCTG ACTGGCTAGC CCAAAACAAC 
    CCTCCTCAAA TGGTGTGGGA AAGAACAGAG GAGGATTCCA AGAGCATTAA AAGTGATGTT 
    CCTGTGTACT TGAAAAGGTT GAAAGGAAAC AAACATGATG ATGGTACACA GAGTGATTCA 
    GAGAATGCTG GGGCGCACAG GCGCTGTAGC AAGCGTGCAA CTCTGGAGGA ACATTTACGC 
    CGCCATCACT CAGAGCAGAA AAAGAAGGCC CAGTCCACCG AAAAGCATCA AGAACAGGCT 
    GCTGTATTTG GAGTAGATGA CAATCAGGAT TATAATAGGC CTATTATCAA TGAAAAGCAT 
    AAAGGTCTCA TAAAAGACTG GGCTCTCAAC TCTGCTGCAG TAGTAATGGA AGACAGAAAG 
    CCATTGAGCA CACCTGGGTT TCATAACTCA GAGGAAGCCA TATCTTCATC TGGAAGCAAA 
    CGTTGGGTTT CACAATGGGC TAGTTTGGCT GCTAATCATA CAAGGCATGA TCCAGAAGAA 
    AGGTTAATGG AATTGTCTGC AACTGTAGAA AACGAGACAG ATACTGGTGA AGCTGGTGTT 
    TCCCTAAGAA GTACTAGTTG TACAACTTCC TTGGCTAGTC AGGGAGAGAG GAAGAGGCGA 
    ACTCTTCCCC AGCTCCCAAA TGAAGAGAAG CTACTCGAGA GCTCCAGAGT GAAGGTCGTT 
    CCACAGAGGT CAGAGATAGG AGAAAAGCAA GACACGGAAC TGCAGGAAAA AGAAGCCCAG 
    GTATACCAAA GCGAGAAGCA CGATGCAGAC CGAGGCCTAA GTAAAATGAG CAGGGCAGTC 
    AATGGTGAGA GTCTTAAAAC TGGTGGAGAT GGTAAAGCCC TCCTTCACTC AGGAAACTCA 
    TCTAGCAAGG AGAAGAGTGA GACAGAAAAG GAAACTTCTT TGGTAAAACA AACATTGGCT 
    AAAATCCAGC AGCAAGAGCA AAAGGAGCAG GCCCAGTGGA CTCCTACTAA GTTTCCTTCA 
    AAAAATGCTT TAGGCCATAT AGATAAATGT AGGGAGGAAT CTTCTAAGCA AGAGTCCCAA 
    CTCTTAGAAA AAGTTTCAGG ACATTCTACA AGCAAAGGAG ACAGAGTAAT ACAAAATGAA 
    AGCAAGAGAA GGAAAGCTGA GGAAATTCCA AAATGCCAGG CTTCAAAAGG AGACAAGAAA 
    GAGTCTTCCA AATCATTAGT GCGCCAAGGG AGTTTCACCA TAGACAAGCC CAGTTCAAAC 
    ATCCCCATAG AACTTATCCC CCATATCAAT AAGCAGAATT CATCTGTACC CACTGCCTTA 
    GCACTGACAT CTGCAAGTAG ACTTCGAGAA AGGAGTGACT CTTTGGATAC TGATTCTAGC 
    ATGGACACAA CCTTGATTTT AAAAGACACA GAAGCAGTGA TGGCTTTTCT AGAAGCTAAA 
    CTGCGTGAAG ATAATAATAA AACTGATGAA GGCCCAGATA CTCCCAGTTA CAATAGAGAC 
    AATTCAATTT CACCAGAATC TGATGTAGAC ACAGCCAGTA CAATTAGTCT GGTGACTGGA 
    GAGACAGAAA GAAAGTCCAC CCAAAAGCGG AAGAGTTTCA CTAGTCTCTA TAAAGACAGG 
    TGTTCCACGA GTTCCCCATC CAAAGATGTT ACAAAGTCAA GCAGTAGGGA GAAAATTGAA 
    AAGAAAGCAA AAAGCCGCTC TACAGATATA GGTGCAAGAG CAGATGGTCG CAAATTTGTA 
    CAGTCCAGTG GAAGAATCCG GCAGCCTTCC ATAGACTTAA CAGATGATGA CCAGACCTCT 
    AGTGTACCTC ATTCTGCTAT TTCTGACATT ATGTCATCTG ACCAGGAAAC ATACTCCTGC 
    AAATCTCATG GACGGACTCC ACTTACCTCA GCCGATGAAC ACAACATACA TTCCAAACTG 
    GAAGGAAGCA AAGCAACAAA GTCTAAGACT TCTCCTGTTG CCTCTGGTTC AACAAGTAAA 
    TCCACTACTC TCCCAAGGCC ACGGCCCACC CGGACGTCCC TCCTGCGTAG AGCCCGGCTG 
    GGTGAAGCTT CTGACAGTGA ACTTGCTGAT GCTGACAAAG CATCCGTTGC TTCTGAAGTG 
    TCCACTACAA GTTCCACATC AAAACCACCC ACAGGAAGGC GAACCATCTC TAGGATTGAT 
    TTATTGGCTC AGCCTCGAAG AACAAGACTT GGCTCATTAT CCGCCCGTAG TGACTCTGAA 
    GCAACAATTT CAAGAAGCAG CGCATCTGCA CGCACTGCAG AAGCTGTCAT TAGGAGCGGA 
    GCCAGACTAG TGCCATCAGA TAAACTTTCT CCTAGAACTA GAGCTAACAG TATCTCTCGG 
    CTCTCCGATT CCAAGGTCAA GAGCATGAGC TCCACTCACG GCTCTCCTTC AGTAAATTCA 
    AGATGGAGGC GCTTTCCTAC TGATTATGCT TCCACCTCAG AAGATGAATT TGGATCAAAC 
    CGTAATTCCC CTAAACATAC TCGTCTACGT ACTTCTCCAG CCCTGAAAAC CACTCGCATG 
    CAGAGTACTG GATCAGCAAT GCCTGCTAGT TCTTCATTCA AGCACCGAAT TAAAGAACAG 
    GAAGACTATA TCCGAGATTG GACTGCCCAT CGAGAAGAGA TAGCCAGGAT CAGCCAAGAT 
    CTTGCTCTCA TTGCTCGGGA GATCAACGAC GTAGCAGGAG AAATAGATTC AGTGACTTCC 
    TCAGGCACTG CCCCGAGTAC CACAGTAAGC ACTGCCGCCA CCACCCCTGG CTCTGCCATA 
    GACACTAGAG AAGAGGTAGG AGATCTTCAT GGAGAAATGC ATAAGTTGGT TGATCGTGTT 
    TTTGATGAAA GTCTCAACTT CAGAAAGATA CCTCCATTAG TTCATTCTAA AACACCAGAA 
    GGAAACAACG GTCGGTCTGT TGACTCGAGG CCTCAGCCAG CCGAGCATCC TGATCACTTA 
    ACAATTACAA GACGGAGAAC CTGGAGTAGG GATGAAGTCA TGGGAGATAA TCTGCTATTG 
    TCATCAGTCT TTCAGTTCTC TAGGAAGATT AGACAATCCA TCGATAAAAC AGCTGGGAAA 
    ATCAGAATAT TGTTTAAAGA CAAAGACCGG AACTGGGATG ACATAGAAAA CAAGCTAAGA 
    GCTGAAAGCG AAGTCCCTAT CGTTAAAACT TCAAGCATGG AGATTTCTTC TATTTTACAG 
    GAGCTTAAAA GAGTTGAAAA ACAGTTGCAA GTGATAAATG CCATGATTGA CCCAGATGGA 
    ACTTTGGAGG CTCTTAACAA CATGGGATTT CCCAATGCTA TCCTGCCATC CCCACCAAAA 
    CAGAAGTCCA GCCCTGTTAA TAACCACAGC AGCCCTAGTC AGACGCCAGC ACTTTGCCCA 
    CCAGAAACTA GAGCCCTACA CCCTGCTGCT GCGGGAGCGG CGGCAGCAGC CTCCACTGAG 
    TTTGAGAATG CTGAATCTGA GGCTGATTTC AGTATCCATT TCAATAGGTT CAACCCTGAT 
    GGGGAAGAGG AGGATGTTAC AGTACATGAA TGA

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

    Cep170 ( XM_021160699.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021016358.1 Mus caroli centrosomal protein 170 (Cep170), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OMv23062
    Clone ID Related Accession (Same CDS sequence) XM_021160699.2 , XM_021160699.1
    Accession Version XM_021160699.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4473bp)
    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 centrosomal protein of 170 kDa isoform X4
    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGACGACTGT GAGCTCATGC TTCAGTCCCG AAGTGTGGAT 
    AAACAACATG CTGTAATCAA TTATGATGCA TCTATGGATG AACATTTGGT GAAAGATTTA 
    GGCAGCCTAA ATGGGACTTT TGTGAATGAT GTAAGGATAC CAGAGCAGAC GTACATCACT 
    TTGAAGCTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTCTTCAC TGTAGTACGA 
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCACGAGA AGTTTACCAT TCAGCTTCAA 
    TTGTCCCAGA AGTCTTCAGA ATCAGAATTA CCAAAATCAG CAAGTGCCAA AGGCACGGAC 
    TCAAAAGTGG AGGCTGCTGC AGAAGTGCAG CCCAGAGCCA CAGAAGCACT AAAATCTGAA 
    GAGAAACCCG TGGATGTCTC TGCTATGCCC CGAGGCACTC CATTATATGG GCAGCCGTCC 
    TGGTGGGGAG ACGAAGAGGA GGATGAACAA AGAGCTTTCA AGGCCAATGG CAAGCCTGAG 
    GGAAAAAGTC AGGAACCTGG GGCTTCAGGG TGCAGCATAG ATGCCAAGCA TGTGGAGGAA 
    CAGTCTGCAG CTGCAAGTGA AGAAGCACTT TTTCCATTCT GTAGGGAGCC AAGTTATTTT 
    GAAATTCCTA CAAAAGAATT CCAGCAGCCA TCACAAATAG CAGAGAGCAC TATTCATGAG 
    ATTCCAACAA AAGACACACC AAGTTCCCAT ACAGCAGGTG CAGGGCATGC TTCATTTACC 
    ATTGAATTTG ATGACAGTAC GCCAGGAAAA GTAACTATTA GAGACCATGT GACAAAATTC 
    ACTTCTGACC AGCGCCACAA GTCAAAGAAG GCCTCTCCAG GAACTCAAGA CTTGCCAGGA 
    ATTCAGACAG GAATGATGGC ACCAGAAAAT AAAGTAGCTG ACTGGCTAGC CCAAAACAAC 
    CCTCCTCAAA TGGTGTGGGA AAGAACAGAG GAGGATTCCA AGAGCATTAA AAGTGATGTT 
    CCTGTGTACT TGAAAAGGTT GAAAGGAAAC AAACATGATG ATGGTACACA GAGTGATTCA 
    GAGAATGCTG GGGCGCACAG GCGCTGTAGC AAGCGTGCAA CTCTGGAGGA ACATTTACGC 
    CGCCATCACT CAGAGCAGAA AAAGAAGGCC CAGTCCACCG AAAAGCATCA AGAACAGGCT 
    GCTGTATTTG GAGTAGATGA CAATCAGGAT TATAATAGGC CTATTATCAA TGAAAAGCAT 
    AAAGGTCTCA TAAAAGACTG GGCTCTCAAC TCTGCTGCAG TAGTAATGGA AGACAGAAAG 
    CCATTGAGCA CACCTGGGTT TCATAACTCA GAGGAAGCCA TATCTTCATC TGGAAGCAAA 
    CGTTGGGTTT CACAATGGGC TAGTTTGGCT GCTAATCATA CAAGGCATGA TCCAGAAGAA 
    AGGTTAATGG AATTGTCTGC AACTGTAGAA AACGAGACAG ATACTGGTGA AGCTGGTGTT 
    TCCCTAAGAA GTACTAGTTG TACAACTTCC TTGGCTAGTC AGGGAGAGAG GAAGAGGCGA 
    ACTCTTCCCC AGCTCCCAAA TGAAGAGAAG CTACTCGAGA GCTCCAGAGT GAAGGTCGTT 
    CCACAGAGGT CAGAGATAGG AGAAAAGCAA GACACGGAAC TGCAGGAAAA AGAAGCCCAG 
    GTATACCAAA GCGAGAAGCA CGATGCAGAC CGAGGCCTAA GTAAAATGAG CAGGGCAGTC 
    AATGGTGAGA GTCTTAAAAC TGGTGGAGAT GGTAAAGCCC TCCTTCACTC AGGAAACTCA 
    TCTAGCAAGG AGAAGAGTGA GACAGAAAAG GAAACTTCTT TGGTAAAACA AACATTGGCT 
    AAAATCCAGC AGCAAGAGCA AAAGGAGCAG GCCCAGTGGA CTCCTACTAA GTTTCCTTCA 
    AAAAATGCTT TAGGCCATAT AGATAAATGT AGGGAGGAAT CTTCTAAGCA AGAGTCCCAA 
    CTCTTAGAAA AAGTTTCAGG ACATTCTACA AGCAAAGGAG ACAGAGTAAT ACAAAATGAA 
    AGCAAGAGAA GGAAAGCTGA GGAAATTCCA AAATGCCAGG CTTCAAAAGG AGACAAGAAA 
    GAGTCTTCCA AATCATTAGT GCGCCAAGGG AGTTTCACCA TAGACAAGCC CAGTTCAAAC 
    ATCCCCATAG AACTTATCCC CCATATCAAT AAGCAGAATT CATCTGTACC CACTGCCTTA 
    GCACTGACAT CTGCAAGTAG ACTTCGAGAA AGGAGTGACT CTTTGGATAC TGATTCTAGC 
    ATGGACACAA CCTTGATTTT AAAAGACACA GAAGCAGTGA TGGCTTTTCT AGAAGCTAAA 
    CTGCGTGAAG ATAATAATAA AACTGATGAA GGCCCAGATA CTCCCAGTTA CAATAGAGAC 
    AATTCAATTT CACCAGAATC TGATGTAGAC ACAGCCAGTA CAATTAGTCT GGTGACTGGA 
    GAGACAGAAA GAAAGTCCAC CCAAAAGCGG AAGAGTTTCA CTAGTCTCTA TAAAGACAGG 
    TGTTCCACGA GTTCCCCATC CAAAGATGTT ACAAAGTCAA GCAGTAGGGA GAAAATTGAA 
    AAGAAAGCAA AAAGCCGCTC TACAGATATA GGTGCAAGAG CAGATGGTCG CAAATTTGTA 
    CAGTCCAGTG GAAGAATCCG GCAGCCTTCC ATAGACTTAA CAGATGATGA CCAGACCTCT 
    AGTGTACCTC ATTCTGCTAT TTCTGACATT ATGTCATCTG ACCAGGAAAC ATACTCCTGC 
    AAATCTCATG GACGGACTCC ACTTACCTCA GCCGATGAAC ACAACATACA TTCCAAACTG 
    GAAGGAAGCA AAGCAACAAA GTCTAAGACT TCTCCTGTTG CCTCTGGTTC AACAAGTAAA 
    TCCACTACTC TCCCAAGGCC ACGGCCCACC CGGACGTCCC TCCTGCGTAG AGCCCGGCTG 
    GGTGAAGCTT CTGACAGTGA ACTTGCTGAT GCTGACAAAG CATCCGTTGC TTCTGAAGTG 
    TCCACTACAA GTTCCACATC AAAACCACCC ACAGGAAGGC GAACCATCTC TAGGATTGAT 
    TTATTGGCTC AGCCTCGAAG AACAAGACTT GGCTCATTAT CCGCCCGTAG TGACTCTGAA 
    GCAACAATTT CAAGAAGCAG CGCATCTGCA CGCACTGCAG AAGCTGTCAT TAGGAGCGGA 
    GCCAGACTAG TGCCATCAGA TAAACTTTCT CCTAGAACTA GAGCTAACAG TATCTCTCGG 
    CTCTCCGATT CCAAGGTCAA GAGCATGAGC TCCACTCACG GCTCTCCTTC AGTAAATTCA 
    AGATGGAGGC GCTTTCCTAC TGATTATGCT TCCACCTCAG AAGATGAATT TGGATCAAAC 
    CGTAATTCCC CTAAACATAC TCGTCTACGT ACTTCTCCAG CCCTGAAAAC CACTCGCATG 
    CAGAGTACTG GATCAGCAAT GCCTGCTAGT TCTTCATTCA AGCACCGAAT TAAAGAACAG 
    GAAGACTATA TCCGAGATTG GACTGCCCAT CGAGAAGAGA TAGCCAGGAT CAGCCAAGAT 
    CTTGCTCTCA TTGCTCGGGA GATCAACGAC GTAGCAGGAG AAATAGATTC AGTGACTTCC 
    TCAGGCACTG CCCCGAGTAC CACAGTAAGC ACTGCCGCCA CCACCCCTGG CTCTGCCATA 
    GACACTAGAG AAGAGGTAGG AGATCTTCAT GGAGAAATGC ATAAGTTGGT TGATCGTGTT 
    TTTGATGAAA GTCTCAACTT CAGAAAGATA CCTCCATTAG TTCATTCTAA AACACCAGAA 
    GGAAACAACG GTCGGTCTGT TGACTCGAGG CCTCAGCCAG CCGAGCATCC TGATCACTTA 
    ACAATTACAA GACGGAGAAC CTGGAGTAGG GATGAAGTCA TGGGAGATAA TCTGCTATTG 
    TCATCAGTCT TTCAGTTCTC TAGGAAGATT AGACAATCCA TCGATAAAAC AGCTGGGAAA 
    ATCAGAATAT TGTTTAAAGA CAAAGACCGG AACTGGGATG ACATAGAAAA CAAGCTAAGA 
    GCTGAAAGCG AAGTCCCTAT CGTTAAAACT TCAAGCATGG AGATTTCTTC TATTTTACAG 
    GAGCTTAAAA GAGTTGAAAA ACAGTTGCAA GTGATAAATG CCATGATTGA CCCAGATGGA 
    ACTTTGGAGG CTCTTAACAA CATGGGATTT CCCAATGCTA TCCTGCCATC CCCACCAAAA 
    CAGAAGTCCA GCCCTGTTAA TAACCACAGC AGCCCTAGTC AGACGCCAGC ACTTTGCCCA 
    CCAGAAACTA GAGCCCTACA CCCTGCTGCT GCGGGAGCGG CGGCAGCAGC CTCCACTGAG 
    TTTGAGAATG CTGAATCTGA GGCTGATTTC AGTATCCATT TCAATAGGTT CAACCCTGAT 
    GGGGAAGAGG AGGATGTTAC AGTACATGAA TGA

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

    RefSeq XP_021016358.1
    CDS297..4769
    Translation

    Target ORF information:

    RefSeq Version XM_021160699.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli centrosomal protein 170 (Cep170), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021160699.1

    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGACGACTGT GAGCTCATGC TTCAGTCCCG AAGTGTGGAT 
    AAACAACATG CTGTAATCAA TTATGATGCA TCTATGGATG AACATTTGGT GAAAGATTTA 
    GGCAGCCTAA ATGGGACTTT TGTGAATGAT GTAAGGATAC CAGAGCAGAC GTACATCACT 
    TTGAAGCTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTCTTCAC TGTAGTACGA 
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCACGAGA AGTTTACCAT TCAGCTTCAA 
    TTGTCCCAGA AGTCTTCAGA ATCAGAATTA CCAAAATCAG CAAGTGCCAA AGGCACGGAC 
    TCAAAAGTGG AGGCTGCTGC AGAAGTGCAG CCCAGAGCCA CAGAAGCACT AAAATCTGAA 
    GAGAAACCCG TGGATGTCTC TGCTATGCCC CGAGGCACTC CATTATATGG GCAGCCGTCC 
    TGGTGGGGAG ACGAAGAGGA GGATGAACAA AGAGCTTTCA AGGCCAATGG CAAGCCTGAG 
    GGAAAAAGTC AGGAACCTGG GGCTTCAGGG TGCAGCATAG ATGCCAAGCA TGTGGAGGAA 
    CAGTCTGCAG CTGCAAGTGA AGAAGCACTT TTTCCATTCT GTAGGGAGCC AAGTTATTTT 
    GAAATTCCTA CAAAAGAATT CCAGCAGCCA TCACAAATAG CAGAGAGCAC TATTCATGAG 
    ATTCCAACAA AAGACACACC AAGTTCCCAT ACAGCAGGTG CAGGGCATGC TTCATTTACC 
    ATTGAATTTG ATGACAGTAC GCCAGGAAAA GTAACTATTA GAGACCATGT GACAAAATTC 
    ACTTCTGACC AGCGCCACAA GTCAAAGAAG GCCTCTCCAG GAACTCAAGA CTTGCCAGGA 
    ATTCAGACAG GAATGATGGC ACCAGAAAAT AAAGTAGCTG ACTGGCTAGC CCAAAACAAC 
    CCTCCTCAAA TGGTGTGGGA AAGAACAGAG GAGGATTCCA AGAGCATTAA AAGTGATGTT 
    CCTGTGTACT TGAAAAGGTT GAAAGGAAAC AAACATGATG ATGGTACACA GAGTGATTCA 
    GAGAATGCTG GGGCGCACAG GCGCTGTAGC AAGCGTGCAA CTCTGGAGGA ACATTTACGC 
    CGCCATCACT CAGAGCAGAA AAAGAAGGCC CAGTCCACCG AAAAGCATCA AGAACAGGCT 
    GCTGTATTTG GAGTAGATGA CAATCAGGAT TATAATAGGC CTATTATCAA TGAAAAGCAT 
    AAAGGTCTCA TAAAAGACTG GGCTCTCAAC TCTGCTGCAG TAGTAATGGA AGACAGAAAG 
    CCATTGAGCA CACCTGGGTT TCATAACTCA GAGGAAGCCA TATCTTCATC TGGAAGCAAA 
    CGTTGGGTTT CACAATGGGC TAGTTTGGCT GCTAATCATA CAAGGCATGA TCCAGAAGAA 
    AGGTTAATGG AATTGTCTGC AACTGTAGAA AACGAGACAG ATACTGGTGA AGCTGGTGTT 
    TCCCTAAGAA GTACTAGTTG TACAACTTCC TTGGCTAGTC AGGGAGAGAG GAAGAGGCGA 
    ACTCTTCCCC AGCTCCCAAA TGAAGAGAAG CTACTCGAGA GCTCCAGAGT GAAGGTCGTT 
    CCACAGAGGT CAGAGATAGG AGAAAAGCAA GACACGGAAC TGCAGGAAAA AGAAGCCCAG 
    GTATACCAAA GCGAGAAGCA CGATGCAGAC CGAGGCCTAA GTAAAATGAG CAGGGCAGTC 
    AATGGTGAGA GTCTTAAAAC TGGTGGAGAT GGTAAAGCCC TCCTTCACTC AGGAAACTCA 
    TCTAGCAAGG AGAAGAGTGA GACAGAAAAG GAAACTTCTT TGGTAAAACA AACATTGGCT 
    AAAATCCAGC AGCAAGAGCA AAAGGAGCAG GCCCAGTGGA CTCCTACTAA GTTTCCTTCA 
    AAAAATGCTT TAGGCCATAT AGATAAATGT AGGGAGGAAT CTTCTAAGCA AGAGTCCCAA 
    CTCTTAGAAA AAGTTTCAGG ACATTCTACA AGCAAAGGAG ACAGAGTAAT ACAAAATGAA 
    AGCAAGAGAA GGAAAGCTGA GGAAATTCCA AAATGCCAGG CTTCAAAAGG AGACAAGAAA 
    GAGTCTTCCA AATCATTAGT GCGCCAAGGG AGTTTCACCA TAGACAAGCC CAGTTCAAAC 
    ATCCCCATAG AACTTATCCC CCATATCAAT AAGCAGAATT CATCTGTACC CACTGCCTTA 
    GCACTGACAT CTGCAAGTAG ACTTCGAGAA AGGAGTGACT CTTTGGATAC TGATTCTAGC 
    ATGGACACAA CCTTGATTTT AAAAGACACA GAAGCAGTGA TGGCTTTTCT AGAAGCTAAA 
    CTGCGTGAAG ATAATAATAA AACTGATGAA GGCCCAGATA CTCCCAGTTA CAATAGAGAC 
    AATTCAATTT CACCAGAATC TGATGTAGAC ACAGCCAGTA CAATTAGTCT GGTGACTGGA 
    GAGACAGAAA GAAAGTCCAC CCAAAAGCGG AAGAGTTTCA CTAGTCTCTA TAAAGACAGG 
    TGTTCCACGA GTTCCCCATC CAAAGATGTT ACAAAGTCAA GCAGTAGGGA GAAAATTGAA 
    AAGAAAGCAA AAAGCCGCTC TACAGATATA GGTGCAAGAG CAGATGGTCG CAAATTTGTA 
    CAGTCCAGTG GAAGAATCCG GCAGCCTTCC ATAGACTTAA CAGATGATGA CCAGACCTCT 
    AGTGTACCTC ATTCTGCTAT TTCTGACATT ATGTCATCTG ACCAGGAAAC ATACTCCTGC 
    AAATCTCATG GACGGACTCC ACTTACCTCA GCCGATGAAC ACAACATACA TTCCAAACTG 
    GAAGGAAGCA AAGCAACAAA GTCTAAGACT TCTCCTGTTG CCTCTGGTTC AACAAGTAAA 
    TCCACTACTC TCCCAAGGCC ACGGCCCACC CGGACGTCCC TCCTGCGTAG AGCCCGGCTG 
    GGTGAAGCTT CTGACAGTGA ACTTGCTGAT GCTGACAAAG CATCCGTTGC TTCTGAAGTG 
    TCCACTACAA GTTCCACATC AAAACCACCC ACAGGAAGGC GAACCATCTC TAGGATTGAT 
    TTATTGGCTC AGCCTCGAAG AACAAGACTT GGCTCATTAT CCGCCCGTAG TGACTCTGAA 
    GCAACAATTT CAAGAAGCAG CGCATCTGCA CGCACTGCAG AAGCTGTCAT TAGGAGCGGA 
    GCCAGACTAG TGCCATCAGA TAAACTTTCT CCTAGAACTA GAGCTAACAG TATCTCTCGG 
    CTCTCCGATT CCAAGGTCAA GAGCATGAGC TCCACTCACG GCTCTCCTTC AGTAAATTCA 
    AGATGGAGGC GCTTTCCTAC TGATTATGCT TCCACCTCAG AAGATGAATT TGGATCAAAC 
    CGTAATTCCC CTAAACATAC TCGTCTACGT ACTTCTCCAG CCCTGAAAAC CACTCGCATG 
    CAGAGTACTG GATCAGCAAT GCCTGCTAGT TCTTCATTCA AGCACCGAAT TAAAGAACAG 
    GAAGACTATA TCCGAGATTG GACTGCCCAT CGAGAAGAGA TAGCCAGGAT CAGCCAAGAT 
    CTTGCTCTCA TTGCTCGGGA GATCAACGAC GTAGCAGGAG AAATAGATTC AGTGACTTCC 
    TCAGGCACTG CCCCGAGTAC CACAGTAAGC ACTGCCGCCA CCACCCCTGG CTCTGCCATA 
    GACACTAGAG AAGAGGTAGG AGATCTTCAT GGAGAAATGC ATAAGTTGGT TGATCGTGTT 
    TTTGATGAAA GTCTCAACTT CAGAAAGATA CCTCCATTAG TTCATTCTAA AACACCAGAA 
    GGAAACAACG GTCGGTCTGT TGACTCGAGG CCTCAGCCAG CCGAGCATCC TGATCACTTA 
    ACAATTACAA GACGGAGAAC CTGGAGTAGG GATGAAGTCA TGGGAGATAA TCTGCTATTG 
    TCATCAGTCT TTCAGTTCTC TAGGAAGATT AGACAATCCA TCGATAAAAC AGCTGGGAAA 
    ATCAGAATAT TGTTTAAAGA CAAAGACCGG AACTGGGATG ACATAGAAAA CAAGCTAAGA 
    GCTGAAAGCG AAGTCCCTAT CGTTAAAACT TCAAGCATGG AGATTTCTTC TATTTTACAG 
    GAGCTTAAAA GAGTTGAAAA ACAGTTGCAA GTGATAAATG CCATGATTGA CCCAGATGGA 
    ACTTTGGAGG CTCTTAACAA CATGGGATTT CCCAATGCTA TCCTGCCATC CCCACCAAAA 
    CAGAAGTCCA GCCCTGTTAA TAACCACAGC AGCCCTAGTC AGACGCCAGC ACTTTGCCCA 
    CCAGAAACTA GAGCCCTACA CCCTGCTGCT GCGGGAGCGG CGGCAGCAGC CTCCACTGAG 
    TTTGAGAATG CTGAATCTGA GGCTGATTTC AGTATCCATT TCAATAGGTT CAACCCTGAT 
    GGGGAAGAGG AGGATGTTAC AGTACATGAA TGA

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

    Cep170 ( XM_021160708.2 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021016367.1 Mus caroli centrosomal protein 170 (Cep170), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OMv23063
    Clone ID Related Accession (Same CDS sequence) XM_021160708.2 , XM_021160708.1
    Accession Version XM_021160708.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4443bp)
    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 centrosomal protein of 170 kDa isoform X7
    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_021160708.1. ##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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGACGACTGT GAGCTCATGC TTCAGTCCCG AAGTGTGGAT 
    AAACAACATG CTGTAATCAA TTATGATGCA TCTATGGATG AACATTTGGT GAAAGATTTA 
    GGCAGCCTAA ATGGGACTTT TGTGAATGAT GTAAGGATAC CAGAGCAGAC GTACATCACT 
    TTGAAGCTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTCTTCAC TGTAGTACGA 
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCACGAGA AGTTTACCAT TCAGCTTCAA 
    TTGTCCCAGA AGTCTTCAGA ATCAGAATTA CCAAAATCAG CAAGTGCCAA AGGCACGGAC 
    TCAAAAGTGG AGGCTGCTGC AGAAGTGCAG CCCAGAGCCA CAGAAGCACT AAAATCTGAA 
    GAGAAACCCG TGGATGTCTC TGCTATGCCC CGAGGCACTC CATTATATGG GCAGCCGTCC 
    TGGTGGGGAG ACGAAGAGGA GGATGAACAA AGAGCTTTCA AGGCCAATGG CAAGCCTGAG 
    GGAAAAAGTC AGGAACCTGG GGCTTCAGGG TGCAGCATAG ATGCCAAGCA TGTGGAGGAA 
    CAGTCTGCAG CTGCAAGTGA AGAAGCACTT TTTCCATTCT GTAGGGAGCC AAGTTATTTT 
    GAAATTCCTA CAAAAGAATT CCAGCAGCCA TCACAAATAG CAGAGAGCAC TATTCATGAG 
    ATTCCAACAA AAGACACACC AAGTTCCCAT ACAGCAGGTG CAGGGCATGC TTCATTTACC 
    ATTGAATTTG ATGACAGTAC GCCAGGAAAA GTAACTATTA GAGACCATGT GACAAAATTC 
    ACTTCTGACC AGCGCCACAA GTCAAAGAAG GCCTCTCCAG GAACTCAAGA CTTGCCAGGA 
    ATTCAGACAG GAATGATGGC ACCAGAAAAT AAAGTAGCTG ACTGGCTAGC CCAAAACAAC 
    CCTCCTCAAA TGGTGTGGGA AAGAACAGAG GAGGATTCCA AGAGCATTAA AAGTGATGTT 
    CCTGTGTACT TGAAAAGGTT GAAAGGAAAC AAACATGATG ATGGTACACA GAGTGATTCA 
    GAGAATGCTG GGGCGCACAG GCGCTGTAGC AAGCGTGCAA CTCTGGAGGA ACATTTACGC 
    CGCCATCACT CAGAGCAGAA AAAGAAGGCC CAGTCCACCG AAAAGCATCA AGAACAGGCT 
    GCTGTATTTG GAGTAGATGA CAATCAGGAT TATAATAGGC CTATTATCAA TGAAAAGCAT 
    AAAGGTCTCA TAAAAGACTG GGCTCTCAAC TCTGCTGCAG TAGTAATGGA AGACAGAAAG 
    CCATTGAGCA CACCTGGGTT TCATAACTCA GAGGAAGCCA TATCTTCATC TGGAAGCAAA 
    CGTTGGGTTT CACAATGGGC TAGTTTGGCT GCTAATCATA CAAGGCATGA TCCAGAAGAA 
    AGGTTAATGG AATTGTCTGC AACTGTAGAA AACGAGACAG ATACTGGTGA AGCTGGTGTT 
    TCCCTAAGAA GTACTAGTTG TACAACTTCC TTGGCTAGTC AGGGAGAGAG GAAGAGGCGA 
    ACTCTTCCCC AGCTCCCAAA TGAAGAGAAG CTACTCGAGA GCTCCAGAGT GAAGGTCGTT 
    CCACAGAGGT CAGAGATAGG AGAAAAGCAA GACACGGAAC TGCAGGAAAA AGAAGCCCAG 
    GTATACCAAA GCGAGAAGCA CGATGCAGAC CGAGGCCTAA GTAAAATGAG CAGGGCAGTC 
    AATGGTGAGA GTCTTAAAAC TGGTGGAGAT GGTAAAGCCC TCCTTCACTC AGGAAACTCA 
    TCTAGCAAGG AGAAGAGTGA GACAGAAAAG GAAACTTCTT TGGTAAAACA AACATTGGCT 
    AAAATCCAGC AGCAAGAGCA AAAGGAGCAG GCCCAGTGGA CTCCTACTAA GTTTCCTTCA 
    AAAAATGCTT TAGGCCATAT AGATAAATGT AGGGAGGAAT CTTCTAAGCA AGAGTCCCAA 
    CTCTTAGAAA AAGTTTCAGG ACATTCTACA AGCAAAGGAG ACAGAGTAAT ACAAAATGAA 
    AGCAAGAGAA GGAAAGCTGA GGAAATTCCA AAATGCCAGG CTTCAAAAGG AGACAAGAAA 
    GAGTCTTCCA AATCATTAGT GCGCCAAGGG AGTTTCACCA TAGACAAGCC CAGTTCAAAC 
    ATCCCCATAG AACTTATCCC CCATATCAAT AAGCAGAATT CATCTGTACC CACTGCCTTA 
    GCACTGACAT CTGCAAGTAG ACTTCGAGAA AGGAGTGACT CTTTGGATAC TGATTCTAGC 
    ATGGACACAA CCTTGATTTT AAAAGACACA GAAGCAGTGA TGGCTTTTCT AGAAGCTAAA 
    CTGCGTGAAG ATAATAATAA AACTGATGAA GGCCCAGATA CTCCCAGTTA CAATAGAGAC 
    AATTCAATTT CACCAGAATC TGATGTAGAC ACAGCCAGTA CAATTAGTCT GGTGACTGGA 
    GAGACAGAAA GAAAGTCCAC CCAAAAGCGG AAGAGTTTCA CTAGTCTCTA TAAAGACAGG 
    TGTTCCACGA GTTCCCCATC CAAAGATGTT ACAAAGTCAA GCAGTAGGGA GAAAATTGAA 
    AAGAAAGCAA AAAGCCGCTC TACAGATATA GGTGCAAGAG CAGATGGTCG CAAATTTGTA 
    CAGTCCAGTG GAAGAATCCG GCAGCCTTCC ATAGACTTAA CAGATGATGA CCAGACCTCT 
    AGTGTACCTC ATTCTGCTAT TTCTGACATT ATGTCATCTG ACCAGGAAAC ATACTCCTGC 
    AAATCTCATG GACGGACTCC ACTTACCTCA GCCGATGAAC ACAACATACA TTCCAAACTG 
    GAAGGAAGCA AAGCAACAAA GTCTAAGACT TCTCCTGTTG CCTCTGGTTC AACAAGTAAA 
    TCCACTACTC TCCCAAGGCC ACGGCCCACC CGGACGTCCC TCCTGCGTAG AGCCCGGCTG 
    GGTGAAGCTT CTGACAGTGA ACTTGCTGAT GCTGACAAAG CATCCGTTGC TTCTGAAGTG 
    TCCACTACAA GTTCCACATC AAAACCACCC ACAGGAAGGC GAACCATCTC TAGGATTGAT 
    TTATTGGCTC AGCCTCGAAG AACAAGACTT GGCTCATTAT CCGCCCGTAG TGACTCTGAA 
    GCAACAATTT CAAGAAGCAG CGCATCTGCA CGCACTGCAG AAGCTGTCAT TAGGAGCGGA 
    GCCAGACTAG TGCCATCAGA TAAACTTTCT CCTAGAACTA GAGCTAACAG TATCTCTCGG 
    CTCTCCGATT CCAAGGTCAA GAGCATGAGC TCCACTCACG GCTCTCCTTC AGTAAATTCA 
    AGATGGAGGC GCTTTCCTAC TGATTATGCT TCCACCTCAG AAGATGAATT TGGATCAAAC 
    CGTAATTCCC CTAAACATAC TCGTCTACGT ACTTCTCCAG CCCTGAAAAC CACTCGCATG 
    CAGAGTACTG GATCAGCAAT GCCTGCTAGT TCTTCATTCA AGCACCGAAT TAAAGAACAG 
    GAAGACTATA TCCGAGATTG GACTGCCCAT CGAGAAGAGA TAGCCAGGAT CAGCCAAGAT 
    CTTGCTCTCA TTGCTCGGGA GATCAACGAC GTAGCAGGAG AAATAGATTC AGTGACTTCC 
    TCAGGCACTG CCCCGAGTAC CACAGTAAGC ACTGCCGCCA CCACCCCTGG CTCTGCCATA 
    GACACTAGAG AAGAGTTGGT TGATCGTGTT TTTGATGAAA GTCTCAACTT CAGAAAGATA 
    CCTCCATTAG TTCATTCTAA AACACCAGAA GGAAACAACG GTCGGTCTGT TGACTCGAGG 
    CCTCAGCCAG CCGAGCATCC TGATCACTTA ACAATTACAA GACGGAGAAC CTGGAGTAGG 
    GATGAAGTCA TGGGAGATAA TCTGCTATTG TCATCAGTCT TTCAGTTCTC TAGGAAGATT 
    AGACAATCCA TCGATAAAAC AGCTGGGAAA ATCAGAATAT TGTTTAAAGA CAAAGACCGG 
    AACTGGGATG ACATAGAAAA CAAGCTAAGA GCTGAAAGCG AAGTCCCTAT CGTTAAAACT 
    TCAAGCATGG AGATTTCTTC TATTTTACAG GAGCTTAAAA GAGTTGAAAA ACAGTTGCAA 
    GTGATAAATG CCATGATTGA CCCAGATGGA ACTTTGGAGG CTCTTAACAA CATGGGATTT 
    CCCAATGCTA TCCTGCCATC CCCACCAAAA CAGAAGTCCA GCCCTGTTAA TAACCACAGC 
    AGCCCTAGTC AGACGCCAGC ACTTTGCCCA CCAGAAACTA GAGCCCTACA CCCTGCTGCT 
    GCGGGAGCGG CGGCAGCAGC CTCCACTGAG TTTGAGAATG CTGAATCTGA GGCTGATTTC 
    AGTATCCATT TCAATAGGTT CAACCCTGAT GGGGAAGAGG AGGATGTTAC AGTACATGAA 
    TGA

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

    RefSeq XP_021016367.1
    CDS606..5048
    Translation

    Target ORF information:

    RefSeq Version XM_021160708.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli centrosomal protein 170 (Cep170), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021160708.2

    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGACGACTGT GAGCTCATGC TTCAGTCCCG AAGTGTGGAT 
    AAACAACATG CTGTAATCAA TTATGATGCA TCTATGGATG AACATTTGGT GAAAGATTTA 
    GGCAGCCTAA ATGGGACTTT TGTGAATGAT GTAAGGATAC CAGAGCAGAC GTACATCACT 
    TTGAAGCTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTCTTCAC TGTAGTACGA 
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCACGAGA AGTTTACCAT TCAGCTTCAA 
    TTGTCCCAGA AGTCTTCAGA ATCAGAATTA CCAAAATCAG CAAGTGCCAA AGGCACGGAC 
    TCAAAAGTGG AGGCTGCTGC AGAAGTGCAG CCCAGAGCCA CAGAAGCACT AAAATCTGAA 
    GAGAAACCCG TGGATGTCTC TGCTATGCCC CGAGGCACTC CATTATATGG GCAGCCGTCC 
    TGGTGGGGAG ACGAAGAGGA GGATGAACAA AGAGCTTTCA AGGCCAATGG CAAGCCTGAG 
    GGAAAAAGTC AGGAACCTGG GGCTTCAGGG TGCAGCATAG ATGCCAAGCA TGTGGAGGAA 
    CAGTCTGCAG CTGCAAGTGA AGAAGCACTT TTTCCATTCT GTAGGGAGCC AAGTTATTTT 
    GAAATTCCTA CAAAAGAATT CCAGCAGCCA TCACAAATAG CAGAGAGCAC TATTCATGAG 
    ATTCCAACAA AAGACACACC AAGTTCCCAT ACAGCAGGTG CAGGGCATGC TTCATTTACC 
    ATTGAATTTG ATGACAGTAC GCCAGGAAAA GTAACTATTA GAGACCATGT GACAAAATTC 
    ACTTCTGACC AGCGCCACAA GTCAAAGAAG GCCTCTCCAG GAACTCAAGA CTTGCCAGGA 
    ATTCAGACAG GAATGATGGC ACCAGAAAAT AAAGTAGCTG ACTGGCTAGC CCAAAACAAC 
    CCTCCTCAAA TGGTGTGGGA AAGAACAGAG GAGGATTCCA AGAGCATTAA AAGTGATGTT 
    CCTGTGTACT TGAAAAGGTT GAAAGGAAAC AAACATGATG ATGGTACACA GAGTGATTCA 
    GAGAATGCTG GGGCGCACAG GCGCTGTAGC AAGCGTGCAA CTCTGGAGGA ACATTTACGC 
    CGCCATCACT CAGAGCAGAA AAAGAAGGCC CAGTCCACCG AAAAGCATCA AGAACAGGCT 
    GCTGTATTTG GAGTAGATGA CAATCAGGAT TATAATAGGC CTATTATCAA TGAAAAGCAT 
    AAAGGTCTCA TAAAAGACTG GGCTCTCAAC TCTGCTGCAG TAGTAATGGA AGACAGAAAG 
    CCATTGAGCA CACCTGGGTT TCATAACTCA GAGGAAGCCA TATCTTCATC TGGAAGCAAA 
    CGTTGGGTTT CACAATGGGC TAGTTTGGCT GCTAATCATA CAAGGCATGA TCCAGAAGAA 
    AGGTTAATGG AATTGTCTGC AACTGTAGAA AACGAGACAG ATACTGGTGA AGCTGGTGTT 
    TCCCTAAGAA GTACTAGTTG TACAACTTCC TTGGCTAGTC AGGGAGAGAG GAAGAGGCGA 
    ACTCTTCCCC AGCTCCCAAA TGAAGAGAAG CTACTCGAGA GCTCCAGAGT GAAGGTCGTT 
    CCACAGAGGT CAGAGATAGG AGAAAAGCAA GACACGGAAC TGCAGGAAAA AGAAGCCCAG 
    GTATACCAAA GCGAGAAGCA CGATGCAGAC CGAGGCCTAA GTAAAATGAG CAGGGCAGTC 
    AATGGTGAGA GTCTTAAAAC TGGTGGAGAT GGTAAAGCCC TCCTTCACTC AGGAAACTCA 
    TCTAGCAAGG AGAAGAGTGA GACAGAAAAG GAAACTTCTT TGGTAAAACA AACATTGGCT 
    AAAATCCAGC AGCAAGAGCA AAAGGAGCAG GCCCAGTGGA CTCCTACTAA GTTTCCTTCA 
    AAAAATGCTT TAGGCCATAT AGATAAATGT AGGGAGGAAT CTTCTAAGCA AGAGTCCCAA 
    CTCTTAGAAA AAGTTTCAGG ACATTCTACA AGCAAAGGAG ACAGAGTAAT ACAAAATGAA 
    AGCAAGAGAA GGAAAGCTGA GGAAATTCCA AAATGCCAGG CTTCAAAAGG AGACAAGAAA 
    GAGTCTTCCA AATCATTAGT GCGCCAAGGG AGTTTCACCA TAGACAAGCC CAGTTCAAAC 
    ATCCCCATAG AACTTATCCC CCATATCAAT AAGCAGAATT CATCTGTACC CACTGCCTTA 
    GCACTGACAT CTGCAAGTAG ACTTCGAGAA AGGAGTGACT CTTTGGATAC TGATTCTAGC 
    ATGGACACAA CCTTGATTTT AAAAGACACA GAAGCAGTGA TGGCTTTTCT AGAAGCTAAA 
    CTGCGTGAAG ATAATAATAA AACTGATGAA GGCCCAGATA CTCCCAGTTA CAATAGAGAC 
    AATTCAATTT CACCAGAATC TGATGTAGAC ACAGCCAGTA CAATTAGTCT GGTGACTGGA 
    GAGACAGAAA GAAAGTCCAC CCAAAAGCGG AAGAGTTTCA CTAGTCTCTA TAAAGACAGG 
    TGTTCCACGA GTTCCCCATC CAAAGATGTT ACAAAGTCAA GCAGTAGGGA GAAAATTGAA 
    AAGAAAGCAA AAAGCCGCTC TACAGATATA GGTGCAAGAG CAGATGGTCG CAAATTTGTA 
    CAGTCCAGTG GAAGAATCCG GCAGCCTTCC ATAGACTTAA CAGATGATGA CCAGACCTCT 
    AGTGTACCTC ATTCTGCTAT TTCTGACATT ATGTCATCTG ACCAGGAAAC ATACTCCTGC 
    AAATCTCATG GACGGACTCC ACTTACCTCA GCCGATGAAC ACAACATACA TTCCAAACTG 
    GAAGGAAGCA AAGCAACAAA GTCTAAGACT TCTCCTGTTG CCTCTGGTTC AACAAGTAAA 
    TCCACTACTC TCCCAAGGCC ACGGCCCACC CGGACGTCCC TCCTGCGTAG AGCCCGGCTG 
    GGTGAAGCTT CTGACAGTGA ACTTGCTGAT GCTGACAAAG CATCCGTTGC TTCTGAAGTG 
    TCCACTACAA GTTCCACATC AAAACCACCC ACAGGAAGGC GAACCATCTC TAGGATTGAT 
    TTATTGGCTC AGCCTCGAAG AACAAGACTT GGCTCATTAT CCGCCCGTAG TGACTCTGAA 
    GCAACAATTT CAAGAAGCAG CGCATCTGCA CGCACTGCAG AAGCTGTCAT TAGGAGCGGA 
    GCCAGACTAG TGCCATCAGA TAAACTTTCT CCTAGAACTA GAGCTAACAG TATCTCTCGG 
    CTCTCCGATT CCAAGGTCAA GAGCATGAGC TCCACTCACG GCTCTCCTTC AGTAAATTCA 
    AGATGGAGGC GCTTTCCTAC TGATTATGCT TCCACCTCAG AAGATGAATT TGGATCAAAC 
    CGTAATTCCC CTAAACATAC TCGTCTACGT ACTTCTCCAG CCCTGAAAAC CACTCGCATG 
    CAGAGTACTG GATCAGCAAT GCCTGCTAGT TCTTCATTCA AGCACCGAAT TAAAGAACAG 
    GAAGACTATA TCCGAGATTG GACTGCCCAT CGAGAAGAGA TAGCCAGGAT CAGCCAAGAT 
    CTTGCTCTCA TTGCTCGGGA GATCAACGAC GTAGCAGGAG AAATAGATTC AGTGACTTCC 
    TCAGGCACTG CCCCGAGTAC CACAGTAAGC ACTGCCGCCA CCACCCCTGG CTCTGCCATA 
    GACACTAGAG AAGAGTTGGT TGATCGTGTT TTTGATGAAA GTCTCAACTT CAGAAAGATA 
    CCTCCATTAG TTCATTCTAA AACACCAGAA GGAAACAACG GTCGGTCTGT TGACTCGAGG 
    CCTCAGCCAG CCGAGCATCC TGATCACTTA ACAATTACAA GACGGAGAAC CTGGAGTAGG 
    GATGAAGTCA TGGGAGATAA TCTGCTATTG TCATCAGTCT TTCAGTTCTC TAGGAAGATT 
    AGACAATCCA TCGATAAAAC AGCTGGGAAA ATCAGAATAT TGTTTAAAGA CAAAGACCGG 
    AACTGGGATG ACATAGAAAA CAAGCTAAGA GCTGAAAGCG AAGTCCCTAT CGTTAAAACT 
    TCAAGCATGG AGATTTCTTC TATTTTACAG GAGCTTAAAA GAGTTGAAAA ACAGTTGCAA 
    GTGATAAATG CCATGATTGA CCCAGATGGA ACTTTGGAGG CTCTTAACAA CATGGGATTT 
    CCCAATGCTA TCCTGCCATC CCCACCAAAA CAGAAGTCCA GCCCTGTTAA TAACCACAGC 
    AGCCCTAGTC AGACGCCAGC ACTTTGCCCA CCAGAAACTA GAGCCCTACA CCCTGCTGCT 
    GCGGGAGCGG CGGCAGCAGC CTCCACTGAG TTTGAGAATG CTGAATCTGA GGCTGATTTC 
    AGTATCCATT TCAATAGGTT CAACCCTGAT GGGGAAGAGG AGGATGTTAC AGTACATGAA 
    TGA

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

    Cep170 ( XM_021160708.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021016367.1 Mus caroli centrosomal protein 170 (Cep170), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OMv23063
    Clone ID Related Accession (Same CDS sequence) XM_021160708.2 , XM_021160708.1
    Accession Version XM_021160708.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4443bp)
    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 centrosomal protein of 170 kDa isoform X5
    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGACGACTGT GAGCTCATGC TTCAGTCCCG AAGTGTGGAT 
    AAACAACATG CTGTAATCAA TTATGATGCA TCTATGGATG AACATTTGGT GAAAGATTTA 
    GGCAGCCTAA ATGGGACTTT TGTGAATGAT GTAAGGATAC CAGAGCAGAC GTACATCACT 
    TTGAAGCTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTCTTCAC TGTAGTACGA 
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCACGAGA AGTTTACCAT TCAGCTTCAA 
    TTGTCCCAGA AGTCTTCAGA ATCAGAATTA CCAAAATCAG CAAGTGCCAA AGGCACGGAC 
    TCAAAAGTGG AGGCTGCTGC AGAAGTGCAG CCCAGAGCCA CAGAAGCACT AAAATCTGAA 
    GAGAAACCCG TGGATGTCTC TGCTATGCCC CGAGGCACTC CATTATATGG GCAGCCGTCC 
    TGGTGGGGAG ACGAAGAGGA GGATGAACAA AGAGCTTTCA AGGCCAATGG CAAGCCTGAG 
    GGAAAAAGTC AGGAACCTGG GGCTTCAGGG TGCAGCATAG ATGCCAAGCA TGTGGAGGAA 
    CAGTCTGCAG CTGCAAGTGA AGAAGCACTT TTTCCATTCT GTAGGGAGCC AAGTTATTTT 
    GAAATTCCTA CAAAAGAATT CCAGCAGCCA TCACAAATAG CAGAGAGCAC TATTCATGAG 
    ATTCCAACAA AAGACACACC AAGTTCCCAT ACAGCAGGTG CAGGGCATGC TTCATTTACC 
    ATTGAATTTG ATGACAGTAC GCCAGGAAAA GTAACTATTA GAGACCATGT GACAAAATTC 
    ACTTCTGACC AGCGCCACAA GTCAAAGAAG GCCTCTCCAG GAACTCAAGA CTTGCCAGGA 
    ATTCAGACAG GAATGATGGC ACCAGAAAAT AAAGTAGCTG ACTGGCTAGC CCAAAACAAC 
    CCTCCTCAAA TGGTGTGGGA AAGAACAGAG GAGGATTCCA AGAGCATTAA AAGTGATGTT 
    CCTGTGTACT TGAAAAGGTT GAAAGGAAAC AAACATGATG ATGGTACACA GAGTGATTCA 
    GAGAATGCTG GGGCGCACAG GCGCTGTAGC AAGCGTGCAA CTCTGGAGGA ACATTTACGC 
    CGCCATCACT CAGAGCAGAA AAAGAAGGCC CAGTCCACCG AAAAGCATCA AGAACAGGCT 
    GCTGTATTTG GAGTAGATGA CAATCAGGAT TATAATAGGC CTATTATCAA TGAAAAGCAT 
    AAAGGTCTCA TAAAAGACTG GGCTCTCAAC TCTGCTGCAG TAGTAATGGA AGACAGAAAG 
    CCATTGAGCA CACCTGGGTT TCATAACTCA GAGGAAGCCA TATCTTCATC TGGAAGCAAA 
    CGTTGGGTTT CACAATGGGC TAGTTTGGCT GCTAATCATA CAAGGCATGA TCCAGAAGAA 
    AGGTTAATGG AATTGTCTGC AACTGTAGAA AACGAGACAG ATACTGGTGA AGCTGGTGTT 
    TCCCTAAGAA GTACTAGTTG TACAACTTCC TTGGCTAGTC AGGGAGAGAG GAAGAGGCGA 
    ACTCTTCCCC AGCTCCCAAA TGAAGAGAAG CTACTCGAGA GCTCCAGAGT GAAGGTCGTT 
    CCACAGAGGT CAGAGATAGG AGAAAAGCAA GACACGGAAC TGCAGGAAAA AGAAGCCCAG 
    GTATACCAAA GCGAGAAGCA CGATGCAGAC CGAGGCCTAA GTAAAATGAG CAGGGCAGTC 
    AATGGTGAGA GTCTTAAAAC TGGTGGAGAT GGTAAAGCCC TCCTTCACTC AGGAAACTCA 
    TCTAGCAAGG AGAAGAGTGA GACAGAAAAG GAAACTTCTT TGGTAAAACA AACATTGGCT 
    AAAATCCAGC AGCAAGAGCA AAAGGAGCAG GCCCAGTGGA CTCCTACTAA GTTTCCTTCA 
    AAAAATGCTT TAGGCCATAT AGATAAATGT AGGGAGGAAT CTTCTAAGCA AGAGTCCCAA 
    CTCTTAGAAA AAGTTTCAGG ACATTCTACA AGCAAAGGAG ACAGAGTAAT ACAAAATGAA 
    AGCAAGAGAA GGAAAGCTGA GGAAATTCCA AAATGCCAGG CTTCAAAAGG AGACAAGAAA 
    GAGTCTTCCA AATCATTAGT GCGCCAAGGG AGTTTCACCA TAGACAAGCC CAGTTCAAAC 
    ATCCCCATAG AACTTATCCC CCATATCAAT AAGCAGAATT CATCTGTACC CACTGCCTTA 
    GCACTGACAT CTGCAAGTAG ACTTCGAGAA AGGAGTGACT CTTTGGATAC TGATTCTAGC 
    ATGGACACAA CCTTGATTTT AAAAGACACA GAAGCAGTGA TGGCTTTTCT AGAAGCTAAA 
    CTGCGTGAAG ATAATAATAA AACTGATGAA GGCCCAGATA CTCCCAGTTA CAATAGAGAC 
    AATTCAATTT CACCAGAATC TGATGTAGAC ACAGCCAGTA CAATTAGTCT GGTGACTGGA 
    GAGACAGAAA GAAAGTCCAC CCAAAAGCGG AAGAGTTTCA CTAGTCTCTA TAAAGACAGG 
    TGTTCCACGA GTTCCCCATC CAAAGATGTT ACAAAGTCAA GCAGTAGGGA GAAAATTGAA 
    AAGAAAGCAA AAAGCCGCTC TACAGATATA GGTGCAAGAG CAGATGGTCG CAAATTTGTA 
    CAGTCCAGTG GAAGAATCCG GCAGCCTTCC ATAGACTTAA CAGATGATGA CCAGACCTCT 
    AGTGTACCTC ATTCTGCTAT TTCTGACATT ATGTCATCTG ACCAGGAAAC ATACTCCTGC 
    AAATCTCATG GACGGACTCC ACTTACCTCA GCCGATGAAC ACAACATACA TTCCAAACTG 
    GAAGGAAGCA AAGCAACAAA GTCTAAGACT TCTCCTGTTG CCTCTGGTTC AACAAGTAAA 
    TCCACTACTC TCCCAAGGCC ACGGCCCACC CGGACGTCCC TCCTGCGTAG AGCCCGGCTG 
    GGTGAAGCTT CTGACAGTGA ACTTGCTGAT GCTGACAAAG CATCCGTTGC TTCTGAAGTG 
    TCCACTACAA GTTCCACATC AAAACCACCC ACAGGAAGGC GAACCATCTC TAGGATTGAT 
    TTATTGGCTC AGCCTCGAAG AACAAGACTT GGCTCATTAT CCGCCCGTAG TGACTCTGAA 
    GCAACAATTT CAAGAAGCAG CGCATCTGCA CGCACTGCAG AAGCTGTCAT TAGGAGCGGA 
    GCCAGACTAG TGCCATCAGA TAAACTTTCT CCTAGAACTA GAGCTAACAG TATCTCTCGG 
    CTCTCCGATT CCAAGGTCAA GAGCATGAGC TCCACTCACG GCTCTCCTTC AGTAAATTCA 
    AGATGGAGGC GCTTTCCTAC TGATTATGCT TCCACCTCAG AAGATGAATT TGGATCAAAC 
    CGTAATTCCC CTAAACATAC TCGTCTACGT ACTTCTCCAG CCCTGAAAAC CACTCGCATG 
    CAGAGTACTG GATCAGCAAT GCCTGCTAGT TCTTCATTCA AGCACCGAAT TAAAGAACAG 
    GAAGACTATA TCCGAGATTG GACTGCCCAT CGAGAAGAGA TAGCCAGGAT CAGCCAAGAT 
    CTTGCTCTCA TTGCTCGGGA GATCAACGAC GTAGCAGGAG AAATAGATTC AGTGACTTCC 
    TCAGGCACTG CCCCGAGTAC CACAGTAAGC ACTGCCGCCA CCACCCCTGG CTCTGCCATA 
    GACACTAGAG AAGAGTTGGT TGATCGTGTT TTTGATGAAA GTCTCAACTT CAGAAAGATA 
    CCTCCATTAG TTCATTCTAA AACACCAGAA GGAAACAACG GTCGGTCTGT TGACTCGAGG 
    CCTCAGCCAG CCGAGCATCC TGATCACTTA ACAATTACAA GACGGAGAAC CTGGAGTAGG 
    GATGAAGTCA TGGGAGATAA TCTGCTATTG TCATCAGTCT TTCAGTTCTC TAGGAAGATT 
    AGACAATCCA TCGATAAAAC AGCTGGGAAA ATCAGAATAT TGTTTAAAGA CAAAGACCGG 
    AACTGGGATG ACATAGAAAA CAAGCTAAGA GCTGAAAGCG AAGTCCCTAT CGTTAAAACT 
    TCAAGCATGG AGATTTCTTC TATTTTACAG GAGCTTAAAA GAGTTGAAAA ACAGTTGCAA 
    GTGATAAATG CCATGATTGA CCCAGATGGA ACTTTGGAGG CTCTTAACAA CATGGGATTT 
    CCCAATGCTA TCCTGCCATC CCCACCAAAA CAGAAGTCCA GCCCTGTTAA TAACCACAGC 
    AGCCCTAGTC AGACGCCAGC ACTTTGCCCA CCAGAAACTA GAGCCCTACA CCCTGCTGCT 
    GCGGGAGCGG CGGCAGCAGC CTCCACTGAG TTTGAGAATG CTGAATCTGA GGCTGATTTC 
    AGTATCCATT TCAATAGGTT CAACCCTGAT GGGGAAGAGG AGGATGTTAC AGTACATGAA 
    TGA

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

    RefSeq XP_021016367.1
    CDS297..4739
    Translation

    Target ORF information:

    RefSeq Version XM_021160708.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli centrosomal protein 170 (Cep170), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021160708.1

    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGACGACTGT GAGCTCATGC TTCAGTCCCG AAGTGTGGAT 
    AAACAACATG CTGTAATCAA TTATGATGCA TCTATGGATG AACATTTGGT GAAAGATTTA 
    GGCAGCCTAA ATGGGACTTT TGTGAATGAT GTAAGGATAC CAGAGCAGAC GTACATCACT 
    TTGAAGCTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTCTTCAC TGTAGTACGA 
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCACGAGA AGTTTACCAT TCAGCTTCAA 
    TTGTCCCAGA AGTCTTCAGA ATCAGAATTA CCAAAATCAG CAAGTGCCAA AGGCACGGAC 
    TCAAAAGTGG AGGCTGCTGC AGAAGTGCAG CCCAGAGCCA CAGAAGCACT AAAATCTGAA 
    GAGAAACCCG TGGATGTCTC TGCTATGCCC CGAGGCACTC CATTATATGG GCAGCCGTCC 
    TGGTGGGGAG ACGAAGAGGA GGATGAACAA AGAGCTTTCA AGGCCAATGG CAAGCCTGAG 
    GGAAAAAGTC AGGAACCTGG GGCTTCAGGG TGCAGCATAG ATGCCAAGCA TGTGGAGGAA 
    CAGTCTGCAG CTGCAAGTGA AGAAGCACTT TTTCCATTCT GTAGGGAGCC AAGTTATTTT 
    GAAATTCCTA CAAAAGAATT CCAGCAGCCA TCACAAATAG CAGAGAGCAC TATTCATGAG 
    ATTCCAACAA AAGACACACC AAGTTCCCAT ACAGCAGGTG CAGGGCATGC TTCATTTACC 
    ATTGAATTTG ATGACAGTAC GCCAGGAAAA GTAACTATTA GAGACCATGT GACAAAATTC 
    ACTTCTGACC AGCGCCACAA GTCAAAGAAG GCCTCTCCAG GAACTCAAGA CTTGCCAGGA 
    ATTCAGACAG GAATGATGGC ACCAGAAAAT AAAGTAGCTG ACTGGCTAGC CCAAAACAAC 
    CCTCCTCAAA TGGTGTGGGA AAGAACAGAG GAGGATTCCA AGAGCATTAA AAGTGATGTT 
    CCTGTGTACT TGAAAAGGTT GAAAGGAAAC AAACATGATG ATGGTACACA GAGTGATTCA 
    GAGAATGCTG GGGCGCACAG GCGCTGTAGC AAGCGTGCAA CTCTGGAGGA ACATTTACGC 
    CGCCATCACT CAGAGCAGAA AAAGAAGGCC CAGTCCACCG AAAAGCATCA AGAACAGGCT 
    GCTGTATTTG GAGTAGATGA CAATCAGGAT TATAATAGGC CTATTATCAA TGAAAAGCAT 
    AAAGGTCTCA TAAAAGACTG GGCTCTCAAC TCTGCTGCAG TAGTAATGGA AGACAGAAAG 
    CCATTGAGCA CACCTGGGTT TCATAACTCA GAGGAAGCCA TATCTTCATC TGGAAGCAAA 
    CGTTGGGTTT CACAATGGGC TAGTTTGGCT GCTAATCATA CAAGGCATGA TCCAGAAGAA 
    AGGTTAATGG AATTGTCTGC AACTGTAGAA AACGAGACAG ATACTGGTGA AGCTGGTGTT 
    TCCCTAAGAA GTACTAGTTG TACAACTTCC TTGGCTAGTC AGGGAGAGAG GAAGAGGCGA 
    ACTCTTCCCC AGCTCCCAAA TGAAGAGAAG CTACTCGAGA GCTCCAGAGT GAAGGTCGTT 
    CCACAGAGGT CAGAGATAGG AGAAAAGCAA GACACGGAAC TGCAGGAAAA AGAAGCCCAG 
    GTATACCAAA GCGAGAAGCA CGATGCAGAC CGAGGCCTAA GTAAAATGAG CAGGGCAGTC 
    AATGGTGAGA GTCTTAAAAC TGGTGGAGAT GGTAAAGCCC TCCTTCACTC AGGAAACTCA 
    TCTAGCAAGG AGAAGAGTGA GACAGAAAAG GAAACTTCTT TGGTAAAACA AACATTGGCT 
    AAAATCCAGC AGCAAGAGCA AAAGGAGCAG GCCCAGTGGA CTCCTACTAA GTTTCCTTCA 
    AAAAATGCTT TAGGCCATAT AGATAAATGT AGGGAGGAAT CTTCTAAGCA AGAGTCCCAA 
    CTCTTAGAAA AAGTTTCAGG ACATTCTACA AGCAAAGGAG ACAGAGTAAT ACAAAATGAA 
    AGCAAGAGAA GGAAAGCTGA GGAAATTCCA AAATGCCAGG CTTCAAAAGG AGACAAGAAA 
    GAGTCTTCCA AATCATTAGT GCGCCAAGGG AGTTTCACCA TAGACAAGCC CAGTTCAAAC 
    ATCCCCATAG AACTTATCCC CCATATCAAT AAGCAGAATT CATCTGTACC CACTGCCTTA 
    GCACTGACAT CTGCAAGTAG ACTTCGAGAA AGGAGTGACT CTTTGGATAC TGATTCTAGC 
    ATGGACACAA CCTTGATTTT AAAAGACACA GAAGCAGTGA TGGCTTTTCT AGAAGCTAAA 
    CTGCGTGAAG ATAATAATAA AACTGATGAA GGCCCAGATA CTCCCAGTTA CAATAGAGAC 
    AATTCAATTT CACCAGAATC TGATGTAGAC ACAGCCAGTA CAATTAGTCT GGTGACTGGA 
    GAGACAGAAA GAAAGTCCAC CCAAAAGCGG AAGAGTTTCA CTAGTCTCTA TAAAGACAGG 
    TGTTCCACGA GTTCCCCATC CAAAGATGTT ACAAAGTCAA GCAGTAGGGA GAAAATTGAA 
    AAGAAAGCAA AAAGCCGCTC TACAGATATA GGTGCAAGAG CAGATGGTCG CAAATTTGTA 
    CAGTCCAGTG GAAGAATCCG GCAGCCTTCC ATAGACTTAA CAGATGATGA CCAGACCTCT 
    AGTGTACCTC ATTCTGCTAT TTCTGACATT ATGTCATCTG ACCAGGAAAC ATACTCCTGC 
    AAATCTCATG GACGGACTCC ACTTACCTCA GCCGATGAAC ACAACATACA TTCCAAACTG 
    GAAGGAAGCA AAGCAACAAA GTCTAAGACT TCTCCTGTTG CCTCTGGTTC AACAAGTAAA 
    TCCACTACTC TCCCAAGGCC ACGGCCCACC CGGACGTCCC TCCTGCGTAG AGCCCGGCTG 
    GGTGAAGCTT CTGACAGTGA ACTTGCTGAT GCTGACAAAG CATCCGTTGC TTCTGAAGTG 
    TCCACTACAA GTTCCACATC AAAACCACCC ACAGGAAGGC GAACCATCTC TAGGATTGAT 
    TTATTGGCTC AGCCTCGAAG AACAAGACTT GGCTCATTAT CCGCCCGTAG TGACTCTGAA 
    GCAACAATTT CAAGAAGCAG CGCATCTGCA CGCACTGCAG AAGCTGTCAT TAGGAGCGGA 
    GCCAGACTAG TGCCATCAGA TAAACTTTCT CCTAGAACTA GAGCTAACAG TATCTCTCGG 
    CTCTCCGATT CCAAGGTCAA GAGCATGAGC TCCACTCACG GCTCTCCTTC AGTAAATTCA 
    AGATGGAGGC GCTTTCCTAC TGATTATGCT TCCACCTCAG AAGATGAATT TGGATCAAAC 
    CGTAATTCCC CTAAACATAC TCGTCTACGT ACTTCTCCAG CCCTGAAAAC CACTCGCATG 
    CAGAGTACTG GATCAGCAAT GCCTGCTAGT TCTTCATTCA AGCACCGAAT TAAAGAACAG 
    GAAGACTATA TCCGAGATTG GACTGCCCAT CGAGAAGAGA TAGCCAGGAT CAGCCAAGAT 
    CTTGCTCTCA TTGCTCGGGA GATCAACGAC GTAGCAGGAG AAATAGATTC AGTGACTTCC 
    TCAGGCACTG CCCCGAGTAC CACAGTAAGC ACTGCCGCCA CCACCCCTGG CTCTGCCATA 
    GACACTAGAG AAGAGTTGGT TGATCGTGTT TTTGATGAAA GTCTCAACTT CAGAAAGATA 
    CCTCCATTAG TTCATTCTAA AACACCAGAA GGAAACAACG GTCGGTCTGT TGACTCGAGG 
    CCTCAGCCAG CCGAGCATCC TGATCACTTA ACAATTACAA GACGGAGAAC CTGGAGTAGG 
    GATGAAGTCA TGGGAGATAA TCTGCTATTG TCATCAGTCT TTCAGTTCTC TAGGAAGATT 
    AGACAATCCA TCGATAAAAC AGCTGGGAAA ATCAGAATAT TGTTTAAAGA CAAAGACCGG 
    AACTGGGATG ACATAGAAAA CAAGCTAAGA GCTGAAAGCG AAGTCCCTAT CGTTAAAACT 
    TCAAGCATGG AGATTTCTTC TATTTTACAG GAGCTTAAAA GAGTTGAAAA ACAGTTGCAA 
    GTGATAAATG CCATGATTGA CCCAGATGGA ACTTTGGAGG CTCTTAACAA CATGGGATTT 
    CCCAATGCTA TCCTGCCATC CCCACCAAAA CAGAAGTCCA GCCCTGTTAA TAACCACAGC 
    AGCCCTAGTC AGACGCCAGC ACTTTGCCCA CCAGAAACTA GAGCCCTACA CCCTGCTGCT 
    GCGGGAGCGG CGGCAGCAGC CTCCACTGAG TTTGAGAATG CTGAATCTGA GGCTGATTTC 
    AGTATCCATT TCAATAGGTT CAACCCTGAT GGGGAAGAGG AGGATGTTAC AGTACATGAA 
    TGA

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

    Cep170 ( XM_021160717.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021016376.1 Mus caroli centrosomal protein 170 (Cep170), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OMv23064
    Clone ID Related Accession (Same CDS sequence) XM_021160717.1 , XM_021160717.2
    Accession Version XM_021160717.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4425bp)
    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 centrosomal protein of 170 kDa isoform X6
    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGACGACTGT GAGCTCATGC TTCAGTCCCG AAGTGTGGAT 
    AAACAACATG CTGTAATCAA TTATGATGCA TCTATGGATG AACATTTGGT GAAAGATTTA 
    GGCAGCCTAA ATGGGACTTT TGTGAATGAT GTAAGGATAC CAGAGCAGAC GTACATCACT 
    TTGAAGCTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTCTTCAC TGTAGTACGA 
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCACGAGA AGTTTACCAT TCAGCTTCAA 
    TTGTCCCAGA AGTCTTCAGA ATCAGAATTA CCAAAATCAG CAAGTGCCAA AGGCACGGAC 
    TCAAAAGTGG AGGCTGCTGC AGAAGTGCAG CCCAGAGCCA CAGAAGCACT AAAATCTGAA 
    GAGAAACCCG TGGATGTCTC TGCTATGCCC CGAGGCACTC CATTATATGG GCAGCCGTCC 
    TGGTGGGGAG ACGAAGAGGA GGATGAACAA AGAGCTTTCA AGGCCAATGG CAAGCCTGAG 
    GGAAAAAGTC AGGAACCTGG GGCTTCAGGG TGCAGCATAG ATGCCAAGCA TGTGGAGGAA 
    CAGTCTGCAG CTGCAAGTGA AGAAGCACTT TTTCCATTCT GTAGGGAGCC AAGTTATTTT 
    GAAATTCCTA CAAAAGAATT CCAGCAGCCA TCACAAATAG CAGAGAGCAC TATTCATGAG 
    ATTCCAACAA AAGACACACC AAGTTCCCAT ACAGCAGGTG CAGGGCATGC TTCATTTACC 
    ATTGAATTTG ATGACAGTAC GCCAGGAAAA GTAACTATTA GAGACCATGT GACAAAATTC 
    ACTTCTGACC AGCGCCACAA GTCAAAGAAG GCCTCTCCAG GAACTCAAGA CTTGCCAGGA 
    ATTCAGACAG GAATGATGGC ACCAGAAAAT AAAGTAGCTG ACTGGCTAGC CCAAAACAAC 
    CCTCCTCAAA TGGTGTGGGA AAGAACAGAG GAGGATTCCA AGAGCATTAA AAGTGATGTT 
    CCTGTGTACT TGAAAAGGTT GAAAGGAAAC AAACATGATG ATGGTACACA GAGTGATTCA 
    GAGAATGCTG GGGCGCACAG GCGCTGTAGC AAGCGTGCAA CTCTGGAGGA ACATTTACGC 
    CGCCATCACT CAGAGCAGAA AAAGAAGGCC CAGTCCACCG AAAAGCATCA AGAACAGGCT 
    GCTACTAGCT CTACGCATCA CAGAGGGGGG CATGGTGTTC CACATGGGAA ATTGTTAAAA 
    CAGAAATCAG AGGAGCCATC GGTGTCAATA CCCTTCCTAC AAACTGCATT ATTAAGAAGT 
    TCAGGGAGTC TTGGGCACAG ACCAAGCCAG GAGATGGATG TAATGTTAAA AAATCAAGCT 
    ACTTCTGCCT CTTCAGAAAA GGATAATGAT GATGACCAAA GTGACAAGGG TACTTATACC 
    ATTGAGTTAG AGAATCCCAA CAGTGAGGAG GTGGAAGCAA GAAAAATGAT TGACAAGGTA 
    TTTGGAGTAG ATGACAATCA GGATTATAAT AGGCCTATTA TCAATGAAAA GCATAAAGGT 
    CTCATAAAAG ACTGGGCTCT CAACTCTGCT GCAGTAGTAA TGGAAGACAG AAAGCCATTG 
    AGCACACCTG GGTTTCATAA CTCAGAGGAA GCCATATCTT CATCTGGAAG CAAACGTTGG 
    GTTTCACAAT GGGCTAGTTT GGCTGCTAAT CATACAAGGC ATGATCCAGA AGAAAGGTTA 
    ATGGAATTGT CTGCAACTGT AGAAAACGAG ACAGATACTG GTGAAGCTGG TGTTTCCCTA 
    AGAAGTACTA GTTGTACAAC TTCCTTGGCT AGTCAGGGAG AGAGGAAGAG GCGAACTCTT 
    CCCCAGCTCC CAAATGAAGA GAAGCTACTC GAGAGCTCCA GAGTGAAGGT CGTTCCACAG 
    AGGTCAGAGA TAGGAGAAAA GCAAGACACG GAACTGCAGG AAAAAGAAGC CCAGGTATAC 
    CAAAGCGAGA AGCACGATGC AGACCGAGGC CTAAGTAAAA TGAGCAGGGC AGTCAATGGT 
    GAGAGTCTTA AAACTGGTGG AGATGGTAAA GCCCTCCTTC ACTCAGGAAA CTCATCTAGC 
    AAGGAGAAGA GTGAGACAGA AAAGGAAACT TCTTTGGTAA AACAAACATT GGCTAAAATC 
    CAGCAGCAAG AGCAAAAGGA GCAGGCCCAG TGGACTCCTA CTAAGTTTCC TTCAAAAAAT 
    GCTTTAGGCC ATATAGATAA ATGTAGGGAG GAATCTTCTA AGCAAGAGTC CCAACTCTTA 
    GAAAAAGTTT CAGGACATTC TACAAGCAAA GGAGACAGAG TAATACAAAA TGAAAGCAAG 
    AGAAGGAAAG CTGAGGAAAT TCCAAAATGC CAGGCTTCAA AAGGAGACAA GAAAGAGTCT 
    TCCAAATCAT TAGTGCGCCA AGGGAGTTTC ACCATAGACA AGCCCAGTTC AAACATCCCC 
    ATAGAACTTA TCCCCCATAT CAATAAGCAG AATTCATCTG TACCCACTGC CTTAGCACTG 
    ACATCTGCAA GTAGACTTCG AGAAAGGAGT GACTCTTTGG ATACTGATTC TAGCATGGAC 
    ACAACCTTGA TTTTAAAAGA CACAGAAGCA GTGATGGCTT TTCTAGAAGC TAAACTGCGT 
    GAAGATAATA ATAAAACTGA TGAAGGCCCA GATACTCCCA GTTACAATAG AGACAATTCA 
    ATTTCACCAG AATCTGATGT AGACACAGCC AGTACAATTA GTCTGGTGAC TGGAGAGACA 
    GAAAGAAAGT CCACCCAAAA GCGGAAGAGT TTCACTAGTC TCTATAAAGA CAGGTGTTCC 
    ACGAGTTCCC CATCCAAAGA TGTTACAAAG TCAAGCAGTA GGGAGAAAAT TGAAAAGAAA 
    GCAAAAAGCC GCTCTACAGA TATAGGTGCA AGAGCAGATG GTCGCAAATT TGTACAGTCC 
    AGTGGAAGAA TCCGGCAGCC TTCCATAGAC TTAACAGATG ATGACCAGAC CTCTAGTGTA 
    CCTCATTCTG CTATTTCTGA CATTATGTCA TCTGACCAGG AAACATACTC CTGCAAATCT 
    CATGGACGGA CTCCACTTAC CTCAGCCGAT GAACACAACA TACATTCCAA ACTGGAAGGA 
    AGCAAAGCAA CAAAGTCTAA GACTTCTCCT GTTGCCTCTG GTTCAACAAG TAAATCCACT 
    ACTCTCCCAA GGCCACGGCC CACCCGGACG TCCCTCCTGC GTAGAGCCCG GCTGGGTGAA 
    GCTTCTGACA GTGAACTTGC TGATGCTGAC AAAGCATCCG TTGCTTCTGA AGTGTCCACT 
    ACAAGTTCCA CATCAAAACC ACCCACAGGA AGGCGAACCA TCTCTAGGAT TGATTTATTG 
    GCTCAGCCTC GAAGAACAAG ACTTGGCTCA TTATCCGCCC GTAGTGACTC TGAAGCAACA 
    ATTTCAAGAA GCAGCGCATC TGCACGCACT GCAGAAGCTG TCATTAGGAG CGGAGCCAGA 
    CTAGTGCCAT CAGATAAACT TTCTCCTAGA ACTAGAGCTA ACAGTATCTC TCGGCTCTCC 
    GATTCCAAGG TCAAGAGCAT GAGCTCCACT CACGGCTCTC CTTCAGTAAA TTCAAGATGG 
    AGGCGCTTTC CTACTGATTA TGCTTCCACC TCAGAAGATG AATTTGGATC AAACCGTAAT 
    TCCCCTAAAC ATACTCGTCT ACGTACTTCT CCAGCCCTGA AAACCACTCG CATGCAGAGT 
    ACTGGATCAG CAATGCCTGC TAGTTCTTCA TTCAAGCACC GAATTAAAGA ACAGGAAGAC 
    TATATCCGAG ATTGGACTGC CCATCGAGAA GAGATAGCCA GGATCAGCCA AGATCTTGCT 
    CTCATTGCTC GGGAGATCAA CGACGTAGCA GGAGAAATAG ATTCAGTGAC TTCCTCAGGC 
    ACTGCCCCGA GTACCACAGT AAGCACTGCC GCCACCACCC CTGGCTCTGC CATAGACACT 
    AGAGAAGAGG TAGGAGATCT TCATGGAGAA ATGCATAAGT TGGTTGATCG TGTTTTTGAT 
    GAAAGTCTCA ACTTCAGAAA GATACCTCCA TTAGTTCATT CTAAAACACC AGAAGGAAAC 
    AACGGTCGGT CTGTTGACTC GAGGCCTCAG CCAGCCGAGC ATCCTGATCA CTTAACAATT 
    ACAAGACGGA GAACCTGGAG TAGGGATGAA GTCATGGGAG ATAATCTGCT ATTGTCATCA 
    GTCTTTCAGT TCTCTAGGAA GATTAGACAA TCCATCGATA AAACAGCTGG GAAAATCAGC 
    AAGCGGTCTC CTCACCAGTC ACCCTGTCCA CCTGTGATGC TTTCTCTAGT CAACTTGTGC 
    CCACATGCAG GTGCAGTAGT GTTCGCTGGG GTGAAGCTCA TTTAA

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

    RefSeq XP_021016376.1
    CDS221..4645
    Translation

    Target ORF information:

    RefSeq Version XM_021160717.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli centrosomal protein 170 (Cep170), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021160717.1

    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGACGACTGT GAGCTCATGC TTCAGTCCCG AAGTGTGGAT 
    AAACAACATG CTGTAATCAA TTATGATGCA TCTATGGATG AACATTTGGT GAAAGATTTA 
    GGCAGCCTAA ATGGGACTTT TGTGAATGAT GTAAGGATAC CAGAGCAGAC GTACATCACT 
    TTGAAGCTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTCTTCAC TGTAGTACGA 
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCACGAGA AGTTTACCAT TCAGCTTCAA 
    TTGTCCCAGA AGTCTTCAGA ATCAGAATTA CCAAAATCAG CAAGTGCCAA AGGCACGGAC 
    TCAAAAGTGG AGGCTGCTGC AGAAGTGCAG CCCAGAGCCA CAGAAGCACT AAAATCTGAA 
    GAGAAACCCG TGGATGTCTC TGCTATGCCC CGAGGCACTC CATTATATGG GCAGCCGTCC 
    TGGTGGGGAG ACGAAGAGGA GGATGAACAA AGAGCTTTCA AGGCCAATGG CAAGCCTGAG 
    GGAAAAAGTC AGGAACCTGG GGCTTCAGGG TGCAGCATAG ATGCCAAGCA TGTGGAGGAA 
    CAGTCTGCAG CTGCAAGTGA AGAAGCACTT TTTCCATTCT GTAGGGAGCC AAGTTATTTT 
    GAAATTCCTA CAAAAGAATT CCAGCAGCCA TCACAAATAG CAGAGAGCAC TATTCATGAG 
    ATTCCAACAA AAGACACACC AAGTTCCCAT ACAGCAGGTG CAGGGCATGC TTCATTTACC 
    ATTGAATTTG ATGACAGTAC GCCAGGAAAA GTAACTATTA GAGACCATGT GACAAAATTC 
    ACTTCTGACC AGCGCCACAA GTCAAAGAAG GCCTCTCCAG GAACTCAAGA CTTGCCAGGA 
    ATTCAGACAG GAATGATGGC ACCAGAAAAT AAAGTAGCTG ACTGGCTAGC CCAAAACAAC 
    CCTCCTCAAA TGGTGTGGGA AAGAACAGAG GAGGATTCCA AGAGCATTAA AAGTGATGTT 
    CCTGTGTACT TGAAAAGGTT GAAAGGAAAC AAACATGATG ATGGTACACA GAGTGATTCA 
    GAGAATGCTG GGGCGCACAG GCGCTGTAGC AAGCGTGCAA CTCTGGAGGA ACATTTACGC 
    CGCCATCACT CAGAGCAGAA AAAGAAGGCC CAGTCCACCG AAAAGCATCA AGAACAGGCT 
    GCTACTAGCT CTACGCATCA CAGAGGGGGG CATGGTGTTC CACATGGGAA ATTGTTAAAA 
    CAGAAATCAG AGGAGCCATC GGTGTCAATA CCCTTCCTAC AAACTGCATT ATTAAGAAGT 
    TCAGGGAGTC TTGGGCACAG ACCAAGCCAG GAGATGGATG TAATGTTAAA AAATCAAGCT 
    ACTTCTGCCT CTTCAGAAAA GGATAATGAT GATGACCAAA GTGACAAGGG TACTTATACC 
    ATTGAGTTAG AGAATCCCAA CAGTGAGGAG GTGGAAGCAA GAAAAATGAT TGACAAGGTA 
    TTTGGAGTAG ATGACAATCA GGATTATAAT AGGCCTATTA TCAATGAAAA GCATAAAGGT 
    CTCATAAAAG ACTGGGCTCT CAACTCTGCT GCAGTAGTAA TGGAAGACAG AAAGCCATTG 
    AGCACACCTG GGTTTCATAA CTCAGAGGAA GCCATATCTT CATCTGGAAG CAAACGTTGG 
    GTTTCACAAT GGGCTAGTTT GGCTGCTAAT CATACAAGGC ATGATCCAGA AGAAAGGTTA 
    ATGGAATTGT CTGCAACTGT AGAAAACGAG ACAGATACTG GTGAAGCTGG TGTTTCCCTA 
    AGAAGTACTA GTTGTACAAC TTCCTTGGCT AGTCAGGGAG AGAGGAAGAG GCGAACTCTT 
    CCCCAGCTCC CAAATGAAGA GAAGCTACTC GAGAGCTCCA GAGTGAAGGT CGTTCCACAG 
    AGGTCAGAGA TAGGAGAAAA GCAAGACACG GAACTGCAGG AAAAAGAAGC CCAGGTATAC 
    CAAAGCGAGA AGCACGATGC AGACCGAGGC CTAAGTAAAA TGAGCAGGGC AGTCAATGGT 
    GAGAGTCTTA AAACTGGTGG AGATGGTAAA GCCCTCCTTC ACTCAGGAAA CTCATCTAGC 
    AAGGAGAAGA GTGAGACAGA AAAGGAAACT TCTTTGGTAA AACAAACATT GGCTAAAATC 
    CAGCAGCAAG AGCAAAAGGA GCAGGCCCAG TGGACTCCTA CTAAGTTTCC TTCAAAAAAT 
    GCTTTAGGCC ATATAGATAA ATGTAGGGAG GAATCTTCTA AGCAAGAGTC CCAACTCTTA 
    GAAAAAGTTT CAGGACATTC TACAAGCAAA GGAGACAGAG TAATACAAAA TGAAAGCAAG 
    AGAAGGAAAG CTGAGGAAAT TCCAAAATGC CAGGCTTCAA AAGGAGACAA GAAAGAGTCT 
    TCCAAATCAT TAGTGCGCCA AGGGAGTTTC ACCATAGACA AGCCCAGTTC AAACATCCCC 
    ATAGAACTTA TCCCCCATAT CAATAAGCAG AATTCATCTG TACCCACTGC CTTAGCACTG 
    ACATCTGCAA GTAGACTTCG AGAAAGGAGT GACTCTTTGG ATACTGATTC TAGCATGGAC 
    ACAACCTTGA TTTTAAAAGA CACAGAAGCA GTGATGGCTT TTCTAGAAGC TAAACTGCGT 
    GAAGATAATA ATAAAACTGA TGAAGGCCCA GATACTCCCA GTTACAATAG AGACAATTCA 
    ATTTCACCAG AATCTGATGT AGACACAGCC AGTACAATTA GTCTGGTGAC TGGAGAGACA 
    GAAAGAAAGT CCACCCAAAA GCGGAAGAGT TTCACTAGTC TCTATAAAGA CAGGTGTTCC 
    ACGAGTTCCC CATCCAAAGA TGTTACAAAG TCAAGCAGTA GGGAGAAAAT TGAAAAGAAA 
    GCAAAAAGCC GCTCTACAGA TATAGGTGCA AGAGCAGATG GTCGCAAATT TGTACAGTCC 
    AGTGGAAGAA TCCGGCAGCC TTCCATAGAC TTAACAGATG ATGACCAGAC CTCTAGTGTA 
    CCTCATTCTG CTATTTCTGA CATTATGTCA TCTGACCAGG AAACATACTC CTGCAAATCT 
    CATGGACGGA CTCCACTTAC CTCAGCCGAT GAACACAACA TACATTCCAA ACTGGAAGGA 
    AGCAAAGCAA CAAAGTCTAA GACTTCTCCT GTTGCCTCTG GTTCAACAAG TAAATCCACT 
    ACTCTCCCAA GGCCACGGCC CACCCGGACG TCCCTCCTGC GTAGAGCCCG GCTGGGTGAA 
    GCTTCTGACA GTGAACTTGC TGATGCTGAC AAAGCATCCG TTGCTTCTGA AGTGTCCACT 
    ACAAGTTCCA CATCAAAACC ACCCACAGGA AGGCGAACCA TCTCTAGGAT TGATTTATTG 
    GCTCAGCCTC GAAGAACAAG ACTTGGCTCA TTATCCGCCC GTAGTGACTC TGAAGCAACA 
    ATTTCAAGAA GCAGCGCATC TGCACGCACT GCAGAAGCTG TCATTAGGAG CGGAGCCAGA 
    CTAGTGCCAT CAGATAAACT TTCTCCTAGA ACTAGAGCTA ACAGTATCTC TCGGCTCTCC 
    GATTCCAAGG TCAAGAGCAT GAGCTCCACT CACGGCTCTC CTTCAGTAAA TTCAAGATGG 
    AGGCGCTTTC CTACTGATTA TGCTTCCACC TCAGAAGATG AATTTGGATC AAACCGTAAT 
    TCCCCTAAAC ATACTCGTCT ACGTACTTCT CCAGCCCTGA AAACCACTCG CATGCAGAGT 
    ACTGGATCAG CAATGCCTGC TAGTTCTTCA TTCAAGCACC GAATTAAAGA ACAGGAAGAC 
    TATATCCGAG ATTGGACTGC CCATCGAGAA GAGATAGCCA GGATCAGCCA AGATCTTGCT 
    CTCATTGCTC GGGAGATCAA CGACGTAGCA GGAGAAATAG ATTCAGTGAC TTCCTCAGGC 
    ACTGCCCCGA GTACCACAGT AAGCACTGCC GCCACCACCC CTGGCTCTGC CATAGACACT 
    AGAGAAGAGG TAGGAGATCT TCATGGAGAA ATGCATAAGT TGGTTGATCG TGTTTTTGAT 
    GAAAGTCTCA ACTTCAGAAA GATACCTCCA TTAGTTCATT CTAAAACACC AGAAGGAAAC 
    AACGGTCGGT CTGTTGACTC GAGGCCTCAG CCAGCCGAGC ATCCTGATCA CTTAACAATT 
    ACAAGACGGA GAACCTGGAG TAGGGATGAA GTCATGGGAG ATAATCTGCT ATTGTCATCA 
    GTCTTTCAGT TCTCTAGGAA GATTAGACAA TCCATCGATA AAACAGCTGG GAAAATCAGC 
    AAGCGGTCTC CTCACCAGTC ACCCTGTCCA CCTGTGATGC TTTCTCTAGT CAACTTGTGC 
    CCACATGCAG GTGCAGTAGT GTTCGCTGGG GTGAAGCTCA TTTAA

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

    Cep170 ( XM_021160717.2 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021016376.1 Mus caroli centrosomal protein 170 (Cep170), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OMv23064
    Clone ID Related Accession (Same CDS sequence) XM_021160717.1 , XM_021160717.2
    Accession Version XM_021160717.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4425bp)
    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 centrosomal protein of 170 kDa isoform X8
    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_021160717.1. ##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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGACGACTGT GAGCTCATGC TTCAGTCCCG AAGTGTGGAT 
    AAACAACATG CTGTAATCAA TTATGATGCA TCTATGGATG AACATTTGGT GAAAGATTTA 
    GGCAGCCTAA ATGGGACTTT TGTGAATGAT GTAAGGATAC CAGAGCAGAC GTACATCACT 
    TTGAAGCTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTCTTCAC TGTAGTACGA 
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCACGAGA AGTTTACCAT TCAGCTTCAA 
    TTGTCCCAGA AGTCTTCAGA ATCAGAATTA CCAAAATCAG CAAGTGCCAA AGGCACGGAC 
    TCAAAAGTGG AGGCTGCTGC AGAAGTGCAG CCCAGAGCCA CAGAAGCACT AAAATCTGAA 
    GAGAAACCCG TGGATGTCTC TGCTATGCCC CGAGGCACTC CATTATATGG GCAGCCGTCC 
    TGGTGGGGAG ACGAAGAGGA GGATGAACAA AGAGCTTTCA AGGCCAATGG CAAGCCTGAG 
    GGAAAAAGTC AGGAACCTGG GGCTTCAGGG TGCAGCATAG ATGCCAAGCA TGTGGAGGAA 
    CAGTCTGCAG CTGCAAGTGA AGAAGCACTT TTTCCATTCT GTAGGGAGCC AAGTTATTTT 
    GAAATTCCTA CAAAAGAATT CCAGCAGCCA TCACAAATAG CAGAGAGCAC TATTCATGAG 
    ATTCCAACAA AAGACACACC AAGTTCCCAT ACAGCAGGTG CAGGGCATGC TTCATTTACC 
    ATTGAATTTG ATGACAGTAC GCCAGGAAAA GTAACTATTA GAGACCATGT GACAAAATTC 
    ACTTCTGACC AGCGCCACAA GTCAAAGAAG GCCTCTCCAG GAACTCAAGA CTTGCCAGGA 
    ATTCAGACAG GAATGATGGC ACCAGAAAAT AAAGTAGCTG ACTGGCTAGC CCAAAACAAC 
    CCTCCTCAAA TGGTGTGGGA AAGAACAGAG GAGGATTCCA AGAGCATTAA AAGTGATGTT 
    CCTGTGTACT TGAAAAGGTT GAAAGGAAAC AAACATGATG ATGGTACACA GAGTGATTCA 
    GAGAATGCTG GGGCGCACAG GCGCTGTAGC AAGCGTGCAA CTCTGGAGGA ACATTTACGC 
    CGCCATCACT CAGAGCAGAA AAAGAAGGCC CAGTCCACCG AAAAGCATCA AGAACAGGCT 
    GCTACTAGCT CTACGCATCA CAGAGGGGGG CATGGTGTTC CACATGGGAA ATTGTTAAAA 
    CAGAAATCAG AGGAGCCATC GGTGTCAATA CCCTTCCTAC AAACTGCATT ATTAAGAAGT 
    TCAGGGAGTC TTGGGCACAG ACCAAGCCAG GAGATGGATG TAATGTTAAA AAATCAAGCT 
    ACTTCTGCCT CTTCAGAAAA GGATAATGAT GATGACCAAA GTGACAAGGG TACTTATACC 
    ATTGAGTTAG AGAATCCCAA CAGTGAGGAG GTGGAAGCAA GAAAAATGAT TGACAAGGTA 
    TTTGGAGTAG ATGACAATCA GGATTATAAT AGGCCTATTA TCAATGAAAA GCATAAAGGT 
    CTCATAAAAG ACTGGGCTCT CAACTCTGCT GCAGTAGTAA TGGAAGACAG AAAGCCATTG 
    AGCACACCTG GGTTTCATAA CTCAGAGGAA GCCATATCTT CATCTGGAAG CAAACGTTGG 
    GTTTCACAAT GGGCTAGTTT GGCTGCTAAT CATACAAGGC ATGATCCAGA AGAAAGGTTA 
    ATGGAATTGT CTGCAACTGT AGAAAACGAG ACAGATACTG GTGAAGCTGG TGTTTCCCTA 
    AGAAGTACTA GTTGTACAAC TTCCTTGGCT AGTCAGGGAG AGAGGAAGAG GCGAACTCTT 
    CCCCAGCTCC CAAATGAAGA GAAGCTACTC GAGAGCTCCA GAGTGAAGGT CGTTCCACAG 
    AGGTCAGAGA TAGGAGAAAA GCAAGACACG GAACTGCAGG AAAAAGAAGC CCAGGTATAC 
    CAAAGCGAGA AGCACGATGC AGACCGAGGC CTAAGTAAAA TGAGCAGGGC AGTCAATGGT 
    GAGAGTCTTA AAACTGGTGG AGATGGTAAA GCCCTCCTTC ACTCAGGAAA CTCATCTAGC 
    AAGGAGAAGA GTGAGACAGA AAAGGAAACT TCTTTGGTAA AACAAACATT GGCTAAAATC 
    CAGCAGCAAG AGCAAAAGGA GCAGGCCCAG TGGACTCCTA CTAAGTTTCC TTCAAAAAAT 
    GCTTTAGGCC ATATAGATAA ATGTAGGGAG GAATCTTCTA AGCAAGAGTC CCAACTCTTA 
    GAAAAAGTTT CAGGACATTC TACAAGCAAA GGAGACAGAG TAATACAAAA TGAAAGCAAG 
    AGAAGGAAAG CTGAGGAAAT TCCAAAATGC CAGGCTTCAA AAGGAGACAA GAAAGAGTCT 
    TCCAAATCAT TAGTGCGCCA AGGGAGTTTC ACCATAGACA AGCCCAGTTC AAACATCCCC 
    ATAGAACTTA TCCCCCATAT CAATAAGCAG AATTCATCTG TACCCACTGC CTTAGCACTG 
    ACATCTGCAA GTAGACTTCG AGAAAGGAGT GACTCTTTGG ATACTGATTC TAGCATGGAC 
    ACAACCTTGA TTTTAAAAGA CACAGAAGCA GTGATGGCTT TTCTAGAAGC TAAACTGCGT 
    GAAGATAATA ATAAAACTGA TGAAGGCCCA GATACTCCCA GTTACAATAG AGACAATTCA 
    ATTTCACCAG AATCTGATGT AGACACAGCC AGTACAATTA GTCTGGTGAC TGGAGAGACA 
    GAAAGAAAGT CCACCCAAAA GCGGAAGAGT TTCACTAGTC TCTATAAAGA CAGGTGTTCC 
    ACGAGTTCCC CATCCAAAGA TGTTACAAAG TCAAGCAGTA GGGAGAAAAT TGAAAAGAAA 
    GCAAAAAGCC GCTCTACAGA TATAGGTGCA AGAGCAGATG GTCGCAAATT TGTACAGTCC 
    AGTGGAAGAA TCCGGCAGCC TTCCATAGAC TTAACAGATG ATGACCAGAC CTCTAGTGTA 
    CCTCATTCTG CTATTTCTGA CATTATGTCA TCTGACCAGG AAACATACTC CTGCAAATCT 
    CATGGACGGA CTCCACTTAC CTCAGCCGAT GAACACAACA TACATTCCAA ACTGGAAGGA 
    AGCAAAGCAA CAAAGTCTAA GACTTCTCCT GTTGCCTCTG GTTCAACAAG TAAATCCACT 
    ACTCTCCCAA GGCCACGGCC CACCCGGACG TCCCTCCTGC GTAGAGCCCG GCTGGGTGAA 
    GCTTCTGACA GTGAACTTGC TGATGCTGAC AAAGCATCCG TTGCTTCTGA AGTGTCCACT 
    ACAAGTTCCA CATCAAAACC ACCCACAGGA AGGCGAACCA TCTCTAGGAT TGATTTATTG 
    GCTCAGCCTC GAAGAACAAG ACTTGGCTCA TTATCCGCCC GTAGTGACTC TGAAGCAACA 
    ATTTCAAGAA GCAGCGCATC TGCACGCACT GCAGAAGCTG TCATTAGGAG CGGAGCCAGA 
    CTAGTGCCAT CAGATAAACT TTCTCCTAGA ACTAGAGCTA ACAGTATCTC TCGGCTCTCC 
    GATTCCAAGG TCAAGAGCAT GAGCTCCACT CACGGCTCTC CTTCAGTAAA TTCAAGATGG 
    AGGCGCTTTC CTACTGATTA TGCTTCCACC TCAGAAGATG AATTTGGATC AAACCGTAAT 
    TCCCCTAAAC ATACTCGTCT ACGTACTTCT CCAGCCCTGA AAACCACTCG CATGCAGAGT 
    ACTGGATCAG CAATGCCTGC TAGTTCTTCA TTCAAGCACC GAATTAAAGA ACAGGAAGAC 
    TATATCCGAG ATTGGACTGC CCATCGAGAA GAGATAGCCA GGATCAGCCA AGATCTTGCT 
    CTCATTGCTC GGGAGATCAA CGACGTAGCA GGAGAAATAG ATTCAGTGAC TTCCTCAGGC 
    ACTGCCCCGA GTACCACAGT AAGCACTGCC GCCACCACCC CTGGCTCTGC CATAGACACT 
    AGAGAAGAGG TAGGAGATCT TCATGGAGAA ATGCATAAGT TGGTTGATCG TGTTTTTGAT 
    GAAAGTCTCA ACTTCAGAAA GATACCTCCA TTAGTTCATT CTAAAACACC AGAAGGAAAC 
    AACGGTCGGT CTGTTGACTC GAGGCCTCAG CCAGCCGAGC ATCCTGATCA CTTAACAATT 
    ACAAGACGGA GAACCTGGAG TAGGGATGAA GTCATGGGAG ATAATCTGCT ATTGTCATCA 
    GTCTTTCAGT TCTCTAGGAA GATTAGACAA TCCATCGATA AAACAGCTGG GAAAATCAGC 
    AAGCGGTCTC CTCACCAGTC ACCCTGTCCA CCTGTGATGC TTTCTCTAGT CAACTTGTGC 
    CCACATGCAG GTGCAGTAGT GTTCGCTGGG GTGAAGCTCA TTTAA

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

    RefSeq XP_021016376.1
    CDS610..5034
    Translation

    Target ORF information:

    RefSeq Version XM_021160717.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli centrosomal protein 170 (Cep170), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021160717.2

    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGACGACTGT GAGCTCATGC TTCAGTCCCG AAGTGTGGAT 
    AAACAACATG CTGTAATCAA TTATGATGCA TCTATGGATG AACATTTGGT GAAAGATTTA 
    GGCAGCCTAA ATGGGACTTT TGTGAATGAT GTAAGGATAC CAGAGCAGAC GTACATCACT 
    TTGAAGCTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTCTTCAC TGTAGTACGA 
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCACGAGA AGTTTACCAT TCAGCTTCAA 
    TTGTCCCAGA AGTCTTCAGA ATCAGAATTA CCAAAATCAG CAAGTGCCAA AGGCACGGAC 
    TCAAAAGTGG AGGCTGCTGC AGAAGTGCAG CCCAGAGCCA CAGAAGCACT AAAATCTGAA 
    GAGAAACCCG TGGATGTCTC TGCTATGCCC CGAGGCACTC CATTATATGG GCAGCCGTCC 
    TGGTGGGGAG ACGAAGAGGA GGATGAACAA AGAGCTTTCA AGGCCAATGG CAAGCCTGAG 
    GGAAAAAGTC AGGAACCTGG GGCTTCAGGG TGCAGCATAG ATGCCAAGCA TGTGGAGGAA 
    CAGTCTGCAG CTGCAAGTGA AGAAGCACTT TTTCCATTCT GTAGGGAGCC AAGTTATTTT 
    GAAATTCCTA CAAAAGAATT CCAGCAGCCA TCACAAATAG CAGAGAGCAC TATTCATGAG 
    ATTCCAACAA AAGACACACC AAGTTCCCAT ACAGCAGGTG CAGGGCATGC TTCATTTACC 
    ATTGAATTTG ATGACAGTAC GCCAGGAAAA GTAACTATTA GAGACCATGT GACAAAATTC 
    ACTTCTGACC AGCGCCACAA GTCAAAGAAG GCCTCTCCAG GAACTCAAGA CTTGCCAGGA 
    ATTCAGACAG GAATGATGGC ACCAGAAAAT AAAGTAGCTG ACTGGCTAGC CCAAAACAAC 
    CCTCCTCAAA TGGTGTGGGA AAGAACAGAG GAGGATTCCA AGAGCATTAA AAGTGATGTT 
    CCTGTGTACT TGAAAAGGTT GAAAGGAAAC AAACATGATG ATGGTACACA GAGTGATTCA 
    GAGAATGCTG GGGCGCACAG GCGCTGTAGC AAGCGTGCAA CTCTGGAGGA ACATTTACGC 
    CGCCATCACT CAGAGCAGAA AAAGAAGGCC CAGTCCACCG AAAAGCATCA AGAACAGGCT 
    GCTACTAGCT CTACGCATCA CAGAGGGGGG CATGGTGTTC CACATGGGAA ATTGTTAAAA 
    CAGAAATCAG AGGAGCCATC GGTGTCAATA CCCTTCCTAC AAACTGCATT ATTAAGAAGT 
    TCAGGGAGTC TTGGGCACAG ACCAAGCCAG GAGATGGATG TAATGTTAAA AAATCAAGCT 
    ACTTCTGCCT CTTCAGAAAA GGATAATGAT GATGACCAAA GTGACAAGGG TACTTATACC 
    ATTGAGTTAG AGAATCCCAA CAGTGAGGAG GTGGAAGCAA GAAAAATGAT TGACAAGGTA 
    TTTGGAGTAG ATGACAATCA GGATTATAAT AGGCCTATTA TCAATGAAAA GCATAAAGGT 
    CTCATAAAAG ACTGGGCTCT CAACTCTGCT GCAGTAGTAA TGGAAGACAG AAAGCCATTG 
    AGCACACCTG GGTTTCATAA CTCAGAGGAA GCCATATCTT CATCTGGAAG CAAACGTTGG 
    GTTTCACAAT GGGCTAGTTT GGCTGCTAAT CATACAAGGC ATGATCCAGA AGAAAGGTTA 
    ATGGAATTGT CTGCAACTGT AGAAAACGAG ACAGATACTG GTGAAGCTGG TGTTTCCCTA 
    AGAAGTACTA GTTGTACAAC TTCCTTGGCT AGTCAGGGAG AGAGGAAGAG GCGAACTCTT 
    CCCCAGCTCC CAAATGAAGA GAAGCTACTC GAGAGCTCCA GAGTGAAGGT CGTTCCACAG 
    AGGTCAGAGA TAGGAGAAAA GCAAGACACG GAACTGCAGG AAAAAGAAGC CCAGGTATAC 
    CAAAGCGAGA AGCACGATGC AGACCGAGGC CTAAGTAAAA TGAGCAGGGC AGTCAATGGT 
    GAGAGTCTTA AAACTGGTGG AGATGGTAAA GCCCTCCTTC ACTCAGGAAA CTCATCTAGC 
    AAGGAGAAGA GTGAGACAGA AAAGGAAACT TCTTTGGTAA AACAAACATT GGCTAAAATC 
    CAGCAGCAAG AGCAAAAGGA GCAGGCCCAG TGGACTCCTA CTAAGTTTCC TTCAAAAAAT 
    GCTTTAGGCC ATATAGATAA ATGTAGGGAG GAATCTTCTA AGCAAGAGTC CCAACTCTTA 
    GAAAAAGTTT CAGGACATTC TACAAGCAAA GGAGACAGAG TAATACAAAA TGAAAGCAAG 
    AGAAGGAAAG CTGAGGAAAT TCCAAAATGC CAGGCTTCAA AAGGAGACAA GAAAGAGTCT 
    TCCAAATCAT TAGTGCGCCA AGGGAGTTTC ACCATAGACA AGCCCAGTTC AAACATCCCC 
    ATAGAACTTA TCCCCCATAT CAATAAGCAG AATTCATCTG TACCCACTGC CTTAGCACTG 
    ACATCTGCAA GTAGACTTCG AGAAAGGAGT GACTCTTTGG ATACTGATTC TAGCATGGAC 
    ACAACCTTGA TTTTAAAAGA CACAGAAGCA GTGATGGCTT TTCTAGAAGC TAAACTGCGT 
    GAAGATAATA ATAAAACTGA TGAAGGCCCA GATACTCCCA GTTACAATAG AGACAATTCA 
    ATTTCACCAG AATCTGATGT AGACACAGCC AGTACAATTA GTCTGGTGAC TGGAGAGACA 
    GAAAGAAAGT CCACCCAAAA GCGGAAGAGT TTCACTAGTC TCTATAAAGA CAGGTGTTCC 
    ACGAGTTCCC CATCCAAAGA TGTTACAAAG TCAAGCAGTA GGGAGAAAAT TGAAAAGAAA 
    GCAAAAAGCC GCTCTACAGA TATAGGTGCA AGAGCAGATG GTCGCAAATT TGTACAGTCC 
    AGTGGAAGAA TCCGGCAGCC TTCCATAGAC TTAACAGATG ATGACCAGAC CTCTAGTGTA 
    CCTCATTCTG CTATTTCTGA CATTATGTCA TCTGACCAGG AAACATACTC CTGCAAATCT 
    CATGGACGGA CTCCACTTAC CTCAGCCGAT GAACACAACA TACATTCCAA ACTGGAAGGA 
    AGCAAAGCAA CAAAGTCTAA GACTTCTCCT GTTGCCTCTG GTTCAACAAG TAAATCCACT 
    ACTCTCCCAA GGCCACGGCC CACCCGGACG TCCCTCCTGC GTAGAGCCCG GCTGGGTGAA 
    GCTTCTGACA GTGAACTTGC TGATGCTGAC AAAGCATCCG TTGCTTCTGA AGTGTCCACT 
    ACAAGTTCCA CATCAAAACC ACCCACAGGA AGGCGAACCA TCTCTAGGAT TGATTTATTG 
    GCTCAGCCTC GAAGAACAAG ACTTGGCTCA TTATCCGCCC GTAGTGACTC TGAAGCAACA 
    ATTTCAAGAA GCAGCGCATC TGCACGCACT GCAGAAGCTG TCATTAGGAG CGGAGCCAGA 
    CTAGTGCCAT CAGATAAACT TTCTCCTAGA ACTAGAGCTA ACAGTATCTC TCGGCTCTCC 
    GATTCCAAGG TCAAGAGCAT GAGCTCCACT CACGGCTCTC CTTCAGTAAA TTCAAGATGG 
    AGGCGCTTTC CTACTGATTA TGCTTCCACC TCAGAAGATG AATTTGGATC AAACCGTAAT 
    TCCCCTAAAC ATACTCGTCT ACGTACTTCT CCAGCCCTGA AAACCACTCG CATGCAGAGT 
    ACTGGATCAG CAATGCCTGC TAGTTCTTCA TTCAAGCACC GAATTAAAGA ACAGGAAGAC 
    TATATCCGAG ATTGGACTGC CCATCGAGAA GAGATAGCCA GGATCAGCCA AGATCTTGCT 
    CTCATTGCTC GGGAGATCAA CGACGTAGCA GGAGAAATAG ATTCAGTGAC TTCCTCAGGC 
    ACTGCCCCGA GTACCACAGT AAGCACTGCC GCCACCACCC CTGGCTCTGC CATAGACACT 
    AGAGAAGAGG TAGGAGATCT TCATGGAGAA ATGCATAAGT TGGTTGATCG TGTTTTTGAT 
    GAAAGTCTCA ACTTCAGAAA GATACCTCCA TTAGTTCATT CTAAAACACC AGAAGGAAAC 
    AACGGTCGGT CTGTTGACTC GAGGCCTCAG CCAGCCGAGC ATCCTGATCA CTTAACAATT 
    ACAAGACGGA GAACCTGGAG TAGGGATGAA GTCATGGGAG ATAATCTGCT ATTGTCATCA 
    GTCTTTCAGT TCTCTAGGAA GATTAGACAA TCCATCGATA AAACAGCTGG GAAAATCAGC 
    AAGCGGTCTC CTCACCAGTC ACCCTGTCCA CCTGTGATGC TTTCTCTAGT CAACTTGTGC 
    CCACATGCAG GTGCAGTAGT GTTCGCTGGG GTGAAGCTCA TTTAA

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

    Cep170 ( XM_021160724.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021016383.1 Mus caroli centrosomal protein 170 (Cep170), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OMv23065
    Clone ID Related Accession (Same CDS sequence) XM_021160724.1
    Accession Version XM_021160724.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3702bp)
    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 centrosomal protein of 170 kDa isoform X7
    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGACGACTGT GAGCTCATGC TTCAGTCCCG AAGTGTGGAT 
    AAACAACATG CTGTAATCAA TTATGATGCA TCTATGGATG AACATTTGGT GAAAGATTTA 
    GGCAGCCTAA ATGGGACTTT TGTGAATGAT GTAAGGATAC CAGAGCAGAC GTACATCACT 
    TTGAAGCTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTCTTCAC TGTAGTACGA 
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCACGAGA AGTTTACCAT TCAGCTTCAA 
    TTGTCCCAGA AGTCTTCAGA ATCAGAATTA CCAAAATCAG CAAGTGCCAA AGGCACGGAC 
    TCAAAAGTGG AGGCTGCTGC AGAAGTGCAG CCCAGAGCCA CAGAAGCACT AAAATCTGAA 
    GAGAAACCCG TGGATGTCTC TGCTATGCCC CGAGGCACTC CATTATATGG GCAGCCGTCC 
    TGGTGGGGAG ACGAAGAGGA GGATGAACAA AGAGCTTTCA AGGCCAATGG CAAGCCTGAG 
    GGAAAAAGTC AGGAACCTGG GGCTTCAGGG TGCAGCATAG ATGCCAAGCA TGTGGAGGAA 
    CAGTCTGCAG CTGCAAGTGA AGAAGCACTT TTTCCATTCT GTAGGGAGCC AAGTTATTTT 
    GAAATTCCTA CAAAAGAATT CCAGCAGCCA TCACAAATAG CAGAGAGCAC TATTCATGAG 
    ATTCCAACAA AAGACACACC AAGTTCCCAT ACAGCAGGTG CAGGGCATGC TTCATTTACC 
    ATTGAATTTG ATGACAGTAC GCCAGGAAAA GTAACTATTA GAGACCATGT GACAAAATTC 
    ACTTCTGACC AGCGCCACAA GTCAAAGAAG GCCTCTCCAG GAACTCAAGA CTTGCCAGGA 
    ATTCAGACAG GAATGATGGC ACCAGAAAAT AAAGTAGCTG ACTGGCTAGC CCAAAACAAC 
    CCTCCTCAAA TGGTGTGGGA AAGAACAGAG GAGGATTCCA AGAGCATTAA AAGTGATGTT 
    CCTGTGTACT TGAAAAGGTT GAAAGGAAAC AAACATGATG ATGGTACACA GAGTGATTCA 
    GAGAATGCTG GGGCGCACAG GCGCTGTAGC AAGCGTGCAA CTCTGGAGGA ACATTTACGC 
    CGCCATCACT CAGAGCAGAA AAAGAAGGCC CAGTCCACCG AAAAGCATCA AGAACAGGCT 
    GCTACTAGCT CTACGCATCA CAGAGGGGGG CATGGTGTTC CACATGGGAA ATTGTTAAAA 
    CAGAAATCAG AGGAGCCATC GGTGTCAATA CCCTTCCTAC AAACTGCATT ATTAAGAAGT 
    TCAGGGAGTC TTGGGCACAG ACCAAGCCAG GAGATGGATG TAATGTTAAA AAATCAAGCT 
    ACTTCTGCCT CTTCAGAAAA GGATAATGAT GATGACCAAA GTGACAAGGG TACTTATACC 
    ATTGAGTTAG AGAATCCCAA CAGTGAGGAG GTGGAAGCAA GAAAAATGAT TGACAAGGTA 
    TTTGGAGTAG ATGACAATCA GGATTATAAT AGGCCTATTA TCAATGAAAA GCATAAAGGT 
    CTCATAAAAG ACTGGGCTCT CAACTCTGCT GCAGTAGTAA TGGAAGACAG AAAGCCATTG 
    AGCACACCTG GGTTTCATAA CTCAGAGGAA GCCATATCTT CATCTGGAAG CAAACGTTGG 
    GTTTCACAAT GGGCTAGTTT GGCTGCTAAT CATACAAGGC ATGATCCAGA AGAAAGGTTA 
    ATGGAATTGT CTGCAACTGT AGAAAACGAG ACAGATACTG GTGAAGCTGG TGTTTCCCTA 
    AGAAGTACTA GTTGTACAAC TTCCTTGGCT AGTCAGGGAG AGAGGAAGAG GCGAACTCTT 
    CCCCAGCTCC CAAATGAAGA GAAGCTACTC GAGAGCTCCA GAGTGAAGGT CGTTCCACAG 
    AGGTCAGAGA TAGGAGAAAA GCAAGACACG GAACTGCAGG AAAAAGAAGC CCAGGAAACA 
    TACTCCTGCA AATCTCATGG ACGGACTCCA CTTACCTCAG CCGATGAACA CAACATACAT 
    TCCAAACTGG AAGGAAGCAA AGCAACAAAG TCTAAGACTT CTCCTGTTGC CTCTGGTTCA 
    ACAAGTAAAT CCACTACTCT CCCAAGGCCA CGGCCCACCC GGACGTCCCT CCTGCGTAGA 
    GCCCGGCTGG GTGAAGCTTC TGACAGTGAA CTTGCTGATG CTGACAAAGC ATCCGTTGCT 
    TCTGAAGTGT CCACTACAAG TTCCACATCA AAACCACCCA CAGGAAGGCG AACCATCTCT 
    AGGATTGATT TATTGGCTCA GCCTCGAAGA ACAAGACTTG GCTCATTATC CGCCCGTAGT 
    GACTCTGAAG CAACAATTTC AAGAAGCAGC GCATCTGCAC GCACTGCAGA AGCTGTCATT 
    AGGAGCGGAG CCAGACTAGT GCCATCAGAT AAACTTTCTC CTAGAACTAG AGCTAACAGT 
    ATCTCTCGGC TCTCCGATTC CAAGGTCAAG AGCATGAGCT CCACTCACGG CTCTCCTTCA 
    GTAAATTCAA GATGGAGGCG CTTTCCTACT GATTATGCTT CCACCTCAGA AGATGAATTT 
    GGATCAAACC GTAATTCCCC TAAACATACT CGTCTACGTA CTTCTCCAGC CCTGAAAACC 
    ACTCGCATGC AGAGTACTGG ATCAGCAATG CCTGCTAGTT CTTCATTCAA GCACCGAATT 
    AAAGAACAGG AAGACTATAT CCGAGATTGG ACTGCCCATC GAGAAGAGAT AGCCAGGATC 
    AGCCAAGATC TTGCTCTCAT TGCTCGGGAG ATCAACGACG TAGCAGGAGA AATAGATTCA 
    GTGACTTCCT CAGGCACTGC CCCGAGTACC ACAGTAAGCA CTGCCGCCAC CACCCCTGGC 
    TCTGCCATAG ACACTAGAGA AGAGGTAGGA GATCTTCATG GAGAAATGCA TAAGTTGGTT 
    GATCGTGTTT TTGATGAAAG TCTCAACTTC AGAAAGATAC CTCCATTAGT TCATTCTAAA 
    ACACCAGAAG GAAACAACGG TCGGTCTGTT GACTCGAGGC CTCAGCCAGC CGAGCATCCT 
    GATCACTTAA CAATTACAAG ACGGAGAACC TGGAGTAGGG ATGAAGTCAT GGGAGATAAT 
    CTGCTATTGT CATCAGTCTT TCAGTTCTCT AGGAAGATTA GACAATCCAT CGATAAAACA 
    GCTGGGAAAA TCAGAATATT GTTTAAAGAC AAAGACCGGA ACTGGGATGA CATAGAAAAC 
    AAGCTAAGAG CTGAAAGCGA AGTCCCTATC GTTAAAACTT CAAGCATGGA GATTTCTTCT 
    ATTTTACAGG AGCTTAAAAG AGTTGAAAAA CAGTTGCAAG TGATAAATGC CATGATTGAC 
    CCAGATGGAA CTTTGGAGGC TCTTAACAAC ATGGGATTTC CCAATGCTAT CCTGCCATCC 
    CCACCAAAAC AGAAGTCCAG CCCTGTTAAT AACCACAGCA GCCCTAGTCA GACGCCAGCA 
    CTTTGCCCAC CAGAAACTAG AGCCCTACAC CCTGCTGCTG CGGGAGCGGC GGCAGCAGCC 
    TCCACTGAGT TTGAGAATGC TGAATCTGAG GCTGATTTCA GTATCCATTT CAATAGGTTC 
    AACCCTGATG GGGAAGAGGA GGATGTTACA GTACATGAAT GA

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

    RefSeq XP_021016383.1
    CDS221..3922
    Translation

    Target ORF information:

    RefSeq Version XM_021160724.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli centrosomal protein 170 (Cep170), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021160724.1

    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGACGACTGT GAGCTCATGC TTCAGTCCCG AAGTGTGGAT 
    AAACAACATG CTGTAATCAA TTATGATGCA TCTATGGATG AACATTTGGT GAAAGATTTA 
    GGCAGCCTAA ATGGGACTTT TGTGAATGAT GTAAGGATAC CAGAGCAGAC GTACATCACT 
    TTGAAGCTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTCTTCAC TGTAGTACGA 
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCACGAGA AGTTTACCAT TCAGCTTCAA 
    TTGTCCCAGA AGTCTTCAGA ATCAGAATTA CCAAAATCAG CAAGTGCCAA AGGCACGGAC 
    TCAAAAGTGG AGGCTGCTGC AGAAGTGCAG CCCAGAGCCA CAGAAGCACT AAAATCTGAA 
    GAGAAACCCG TGGATGTCTC TGCTATGCCC CGAGGCACTC CATTATATGG GCAGCCGTCC 
    TGGTGGGGAG ACGAAGAGGA GGATGAACAA AGAGCTTTCA AGGCCAATGG CAAGCCTGAG 
    GGAAAAAGTC AGGAACCTGG GGCTTCAGGG TGCAGCATAG ATGCCAAGCA TGTGGAGGAA 
    CAGTCTGCAG CTGCAAGTGA AGAAGCACTT TTTCCATTCT GTAGGGAGCC AAGTTATTTT 
    GAAATTCCTA CAAAAGAATT CCAGCAGCCA TCACAAATAG CAGAGAGCAC TATTCATGAG 
    ATTCCAACAA AAGACACACC AAGTTCCCAT ACAGCAGGTG CAGGGCATGC TTCATTTACC 
    ATTGAATTTG ATGACAGTAC GCCAGGAAAA GTAACTATTA GAGACCATGT GACAAAATTC 
    ACTTCTGACC AGCGCCACAA GTCAAAGAAG GCCTCTCCAG GAACTCAAGA CTTGCCAGGA 
    ATTCAGACAG GAATGATGGC ACCAGAAAAT AAAGTAGCTG ACTGGCTAGC CCAAAACAAC 
    CCTCCTCAAA TGGTGTGGGA AAGAACAGAG GAGGATTCCA AGAGCATTAA AAGTGATGTT 
    CCTGTGTACT TGAAAAGGTT GAAAGGAAAC AAACATGATG ATGGTACACA GAGTGATTCA 
    GAGAATGCTG GGGCGCACAG GCGCTGTAGC AAGCGTGCAA CTCTGGAGGA ACATTTACGC 
    CGCCATCACT CAGAGCAGAA AAAGAAGGCC CAGTCCACCG AAAAGCATCA AGAACAGGCT 
    GCTACTAGCT CTACGCATCA CAGAGGGGGG CATGGTGTTC CACATGGGAA ATTGTTAAAA 
    CAGAAATCAG AGGAGCCATC GGTGTCAATA CCCTTCCTAC AAACTGCATT ATTAAGAAGT 
    TCAGGGAGTC TTGGGCACAG ACCAAGCCAG GAGATGGATG TAATGTTAAA AAATCAAGCT 
    ACTTCTGCCT CTTCAGAAAA GGATAATGAT GATGACCAAA GTGACAAGGG TACTTATACC 
    ATTGAGTTAG AGAATCCCAA CAGTGAGGAG GTGGAAGCAA GAAAAATGAT TGACAAGGTA 
    TTTGGAGTAG ATGACAATCA GGATTATAAT AGGCCTATTA TCAATGAAAA GCATAAAGGT 
    CTCATAAAAG ACTGGGCTCT CAACTCTGCT GCAGTAGTAA TGGAAGACAG AAAGCCATTG 
    AGCACACCTG GGTTTCATAA CTCAGAGGAA GCCATATCTT CATCTGGAAG CAAACGTTGG 
    GTTTCACAAT GGGCTAGTTT GGCTGCTAAT CATACAAGGC ATGATCCAGA AGAAAGGTTA 
    ATGGAATTGT CTGCAACTGT AGAAAACGAG ACAGATACTG GTGAAGCTGG TGTTTCCCTA 
    AGAAGTACTA GTTGTACAAC TTCCTTGGCT AGTCAGGGAG AGAGGAAGAG GCGAACTCTT 
    CCCCAGCTCC CAAATGAAGA GAAGCTACTC GAGAGCTCCA GAGTGAAGGT CGTTCCACAG 
    AGGTCAGAGA TAGGAGAAAA GCAAGACACG GAACTGCAGG AAAAAGAAGC CCAGGAAACA 
    TACTCCTGCA AATCTCATGG ACGGACTCCA CTTACCTCAG CCGATGAACA CAACATACAT 
    TCCAAACTGG AAGGAAGCAA AGCAACAAAG TCTAAGACTT CTCCTGTTGC CTCTGGTTCA 
    ACAAGTAAAT CCACTACTCT CCCAAGGCCA CGGCCCACCC GGACGTCCCT CCTGCGTAGA 
    GCCCGGCTGG GTGAAGCTTC TGACAGTGAA CTTGCTGATG CTGACAAAGC ATCCGTTGCT 
    TCTGAAGTGT CCACTACAAG TTCCACATCA AAACCACCCA CAGGAAGGCG AACCATCTCT 
    AGGATTGATT TATTGGCTCA GCCTCGAAGA ACAAGACTTG GCTCATTATC CGCCCGTAGT 
    GACTCTGAAG CAACAATTTC AAGAAGCAGC GCATCTGCAC GCACTGCAGA AGCTGTCATT 
    AGGAGCGGAG CCAGACTAGT GCCATCAGAT AAACTTTCTC CTAGAACTAG AGCTAACAGT 
    ATCTCTCGGC TCTCCGATTC CAAGGTCAAG AGCATGAGCT CCACTCACGG CTCTCCTTCA 
    GTAAATTCAA GATGGAGGCG CTTTCCTACT GATTATGCTT CCACCTCAGA AGATGAATTT 
    GGATCAAACC GTAATTCCCC TAAACATACT CGTCTACGTA CTTCTCCAGC CCTGAAAACC 
    ACTCGCATGC AGAGTACTGG ATCAGCAATG CCTGCTAGTT CTTCATTCAA GCACCGAATT 
    AAAGAACAGG AAGACTATAT CCGAGATTGG ACTGCCCATC GAGAAGAGAT AGCCAGGATC 
    AGCCAAGATC TTGCTCTCAT TGCTCGGGAG ATCAACGACG TAGCAGGAGA AATAGATTCA 
    GTGACTTCCT CAGGCACTGC CCCGAGTACC ACAGTAAGCA CTGCCGCCAC CACCCCTGGC 
    TCTGCCATAG ACACTAGAGA AGAGGTAGGA GATCTTCATG GAGAAATGCA TAAGTTGGTT 
    GATCGTGTTT TTGATGAAAG TCTCAACTTC AGAAAGATAC CTCCATTAGT TCATTCTAAA 
    ACACCAGAAG GAAACAACGG TCGGTCTGTT GACTCGAGGC CTCAGCCAGC CGAGCATCCT 
    GATCACTTAA CAATTACAAG ACGGAGAACC TGGAGTAGGG ATGAAGTCAT GGGAGATAAT 
    CTGCTATTGT CATCAGTCTT TCAGTTCTCT AGGAAGATTA GACAATCCAT CGATAAAACA 
    GCTGGGAAAA TCAGAATATT GTTTAAAGAC AAAGACCGGA ACTGGGATGA CATAGAAAAC 
    AAGCTAAGAG CTGAAAGCGA AGTCCCTATC GTTAAAACTT CAAGCATGGA GATTTCTTCT 
    ATTTTACAGG AGCTTAAAAG AGTTGAAAAA CAGTTGCAAG TGATAAATGC CATGATTGAC 
    CCAGATGGAA CTTTGGAGGC TCTTAACAAC ATGGGATTTC CCAATGCTAT CCTGCCATCC 
    CCACCAAAAC AGAAGTCCAG CCCTGTTAAT AACCACAGCA GCCCTAGTCA GACGCCAGCA 
    CTTTGCCCAC CAGAAACTAG AGCCCTACAC CCTGCTGCTG CGGGAGCGGC GGCAGCAGCC 
    TCCACTGAGT TTGAGAATGC TGAATCTGAG GCTGATTTCA GTATCCATTT CAATAGGTTC 
    AACCCTGATG GGGAAGAGGA GGATGTTACA GTACATGAAT GA

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

    Cep170 ( XM_029481035.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029336895.1 Mus caroli centrosomal protein 170 (Cep170), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID OMv66585
    Clone ID Related Accession (Same CDS sequence) XM_029481035.1
    Accession Version XM_029481035.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4365bp)
    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 centrosomal protein of 170 kDa isoform X9
    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGACGACTGT GAGCTCATGC TTCAGTCCCG AAGTGTGGAT 
    AAACAACATG CTGTAATCAA TTATGATGCA TCTATGGATG AACATTTGGT GAAAGATTTA 
    GGCAGCCTAA ATGGGACTTT TGTGAATGAT GTAAGGATAC CAGAGCAGAC GTACATCACT 
    TTGAAGCTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTCTTCAC TGTAGTACGA 
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCACGAGA AGTTTACCAT TCAGCTTCAA 
    TTGTCCCAGA AGTCTTCAGA ATCAGAATTA CCAAAATCAG CAAGTGCCAA AGGCACGGAC 
    TCAAAAGTGG AGGCTGCTGC AGAAGTGCAG CCCAGAGCCA CAGAAGCACT AAAATCTGAA 
    GAGAAACCCG TGGATGTCTC TGCTATGCCC CGAGGCACTC CATTATATGG GCAGCCGTCC 
    TGGTGGGGAG ACGAAGAGGA GGATGAACAA AGAGCTTTCA AGGCCAATGG CAAGCCTGAG 
    GGAAAAAGTC AGGAACCTGG GGCTTCAGGG TGCAGCATAG ATGCCAAGCA TGTGGAGGAA 
    CAGTCTGCAG CTGCAAGTGA AGAAGCACTT TTTCCATTCT GTAGGGAGCC AAGTTATTTT 
    GAAATTCCTA CAAAAGAATT CCAGCAGCCA TCACAAATAG CAGAGAGCAC TATTCATGAG 
    ATTCCAACAA AAGACACACC AAGTTCCCAT ACAGCAGGTG CAGGGCATGC TTCATTTACC 
    ATTGAATTTG ATGACAGTAC GCCAGGAAAA GTAACTATTA GAGACCATGT GACAAAATTC 
    ACTTCTGACC AGCGCCACAA GTCAAAGAAG GCCTCTCCAG GAACTCAAGA CTTGCCAGGA 
    ATTCAGACAG GAATGATGGC ACCAGAAAAT AAAGTAGCTG ACTGGCTAGC CCAAAACAAC 
    CCTCCTCAAA TGGTGTGGGA AAGAACAGAG GAGGATTCCA AGAGCATTAA AAGTGATGTT 
    CCTGTGTACT TGAAAAGGTT GAAAGGAAAC AAACATGATG ATGGTACACA GAGTGATTCA 
    GAGAATGCTG GGGCGCACAG GCGCTGTAGC AAGCGTGCAA CTCTGGAGGA ACATTTACGC 
    CGCCATCACT CAGAGCAGAA AAAGAAGGCC CAGTCCACCG AAAAGCATCA AGAACAGGCT 
    GCTGTATTTG GAGTAGATGA CAATCAGGAT TATAATAGGC CTATTATCAA TGAAAAGCAT 
    AAAGGTCTCA TAAAAGACTG GGCTCTCAAC TCTGCTGCAG TAGTAATGGA AGACAGAAAG 
    CCATTGAGCA CACCTGGGTT TCATAACTCA GAGGAAGCCA TATCTTCATC TGGAAGCAAA 
    CGTTGGGTTT CACAATGGGC TAGTTTGGCT GCTAATCATA CAAGGCATGA TCCAGAAGAA 
    AGGTTAATGG AATTGTCTGC AACTGTAGAA AACGAGACAG ATACTGGTGA AGCTGGTGTT 
    TCCCTAAGAA GTACTAGTTG TACAACTTCC TTGGCTAGTC AGGGAGAGAG GAAGAGGCGA 
    ACTCTTCCCC AGCTCCCAAA TGAAGAGAAG CTACTCGAGA GCTCCAGAGT GAAGGTCGTT 
    CCACAGAGGT CAGAGATAGG AGAAAAGCAA GACACGGAAC TGCAGGAAAA AGAAGCCCAG 
    GTATACCAAA GCGAGAAGCA CGATGCAGAC CGAGGCCTAA GTAAAATGAG CAGGGCAGTC 
    AATGGTGAGA GTCTTAAAAC TGGTGGAGAT GGTAAAGCCC TCCTTCACTC AGGAAACTCA 
    TCTAGCAAGG AGAAGAGTGA GACAGAAAAG GAAACTTCTT TGGTAAAACA AACATTGGCT 
    AAAATCCAGC AGCAAGAGCA AAAGGAGCAG GCCCAGTGGA CTCCTACTAA GTTTCCTTCA 
    AAAAATGCTT TAGGCCATAT AGATAAATGT AGGGAGGAAT CTTCTAAGCA AGAGTCCCAA 
    CTCTTAGAAA AAGTTTCAGG ACATTCTACA AGCAAAGGAG ACAGAGTAAT ACAAAATGAA 
    AGCAAGAGAA GGAAAGCTGA GGAAATTCCA AAATGCCAGG CTTCAAAAGG AGACAAGAAA 
    GAGTCTTCCA AATCATTAGT GCGCCAAGGG AGTTTCACCA TAGACAAGCC CAGTTCAAAC 
    ATCCCCATAG AACTTATCCC CCATATCAAT AAGCAGAATT CATCTGTACC CACTGCCTTA 
    GCACTGACAT CTGCAAGTAG ACTTCGAGAA AGGAGTGACT CTTTGGATAC TGATTCTAGC 
    ATGGACACAA CCTTGATTTT AAAAGACACA GAAGCAGTGA TGGCTTTTCT AGAAGCTAAA 
    CTGCGTGAAG ATAATAATAA AACTGATGAA GGCCCAGATA CTCCCAGTTA CAATAGAGAC 
    AATTCAATTT CACCAGAATC TGATGTAGAC ACAGCCAGTA CAATTAGTCT GGTGACTGGA 
    GAGACAGAAA GAAAGTCCAC CCAAAAGCGG AAGAGTTTCA CTAGTCTCTA TAAAGACAGG 
    TGTTCCACGA GTTCCCCATC CAAAGATGTT ACAAAGTCAA GCAGTAGGGA GAAAATTGAA 
    AAGAAAGCAA AAAGCCGCTC TACAGATATA GGTGCAAGAG CAGATGGTCG CAAATTTGTA 
    CAGTCCAGTG GAAGAATCCG GCAGCCTTCC ATAGACTTAA CAGATGATGA CCAGACCTCT 
    AGTGTACCTC ATTCTGCTAT TTCTGACATT ATGTCATCTG ACCAGGAAAC ATACTCCTGC 
    AAATCTCATG GACGGACTCC ACTTACCTCA GCCGATGAAC ACAACATACA TTCCAAACTG 
    GAAGGAAGCA AAGCAACAAA GTCTAAGACT TCTCCTGTTG CCTCTGGTTC AACAAGTAAA 
    TCCACTACTC TCCCAAGGCC ACGGCCCACC CGGACGTCCC TCCTGCGTAG AGCCCGGCTG 
    GGTGAAGCTT CTGACAGTGA ACTTGCTGAT GCTGACAAAG CATCCGTTGC TTCTGAAGTG 
    TCCACTACAA GTTCCACATC AAAACCACCC ACAGGAAGGC GAACCATCTC TAGGATTGAT 
    TTATTGGCTC AGCCTCGAAG AACAAGACTT GGCTCATTAT CCGCCCGTAG TGACTCTGAA 
    GCAACAATTT CAAGAAGCAG CGCATCTGCA CGCACTGCAG AAGCTGTCAT TAGGAGCGGA 
    GCCAGACTAG TGCCATCAGA TAAACTTTCT CCTAGAACTA GAGCTAACAG TATCTCTCGG 
    CTCTCCGATT CCAAGGTCAA GAGCATGAGC TCCACTCACG GCTCTCCTTC AGCCCTGAAA 
    ACCACTCGCA TGCAGAGTAC TGGATCAGCA ATGCCTGCTA GTTCTTCATT CAAGCACCGA 
    ATTAAAGAAC AGGAAGACTA TATCCGAGAT TGGACTGCCC ATCGAGAAGA GATAGCCAGG 
    ATCAGCCAAG ATCTTGCTCT CATTGCTCGG GAGATCAACG ACGTAGCAGG AGAAATAGAT 
    TCAGTGACTT CCTCAGGCAC TGCCCCGAGT ACCACAGTAA GCACTGCCGC CACCACCCCT 
    GGCTCTGCCA TAGACACTAG AGAAGAGGTA GGAGATCTTC ATGGAGAAAT GCATAAGTTG 
    GTTGATCGTG TTTTTGATGA AAGTCTCAAC TTCAGAAAGA TACCTCCATT AGTTCATTCT 
    AAAACACCAG AAGGAAACAA CGGTCGGTCT GTTGACTCGA GGCCTCAGCC AGCCGAGCAT 
    CCTGATCACT TAACAATTAC AAGACGGAGA ACCTGGAGTA GGGATGAAGT CATGGGAGAT 
    AATCTGCTAT TGTCATCAGT CTTTCAGTTC TCTAGGAAGA TTAGACAATC CATCGATAAA 
    ACAGCTGGGA AAATCAGAAT ATTGTTTAAA GACAAAGACC GGAACTGGGA TGACATAGAA 
    AACAAGCTAA GAGCTGAAAG CGAAGTCCCT ATCGTTAAAA CTTCAAGCAT GGAGATTTCT 
    TCTATTTTAC AGGAGCTTAA AAGAGTTGAA AAACAGTTGC AAGTGATAAA TGCCATGATT 
    GACCCAGATG GAACTTTGGA GGCTCTTAAC AACATGGGAT TTCCCAATGC TATCCTGCCA 
    TCCCCACCAA AACAGAAGTC CAGCCCTGTT AATAACCACA GCAGCCCTAG TCAGACGCCA 
    GCACTTTGCC CACCAGAAAC TAGAGCCCTA CACCCTGCTG CTGCGGGAGC GGCGGCAGCA 
    GCCTCCACTG AGTTTGAGAA TGCTGAATCT GAGGCTGATT TCAGTATCCA TTTCAATAGG 
    TTCAACCCTG ATGGGGAAGA GGAGGATGTT ACAGTACATG AATGA

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

    RefSeq XP_029336895.1
    CDS607..4971
    Translation

    Target ORF information:

    RefSeq Version XM_029481035.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli centrosomal protein 170 (Cep170), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029481035.1

    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGACGACTGT GAGCTCATGC TTCAGTCCCG AAGTGTGGAT 
    AAACAACATG CTGTAATCAA TTATGATGCA TCTATGGATG AACATTTGGT GAAAGATTTA 
    GGCAGCCTAA ATGGGACTTT TGTGAATGAT GTAAGGATAC CAGAGCAGAC GTACATCACT 
    TTGAAGCTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTCTTCAC TGTAGTACGA 
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCACGAGA AGTTTACCAT TCAGCTTCAA 
    TTGTCCCAGA AGTCTTCAGA ATCAGAATTA CCAAAATCAG CAAGTGCCAA AGGCACGGAC 
    TCAAAAGTGG AGGCTGCTGC AGAAGTGCAG CCCAGAGCCA CAGAAGCACT AAAATCTGAA 
    GAGAAACCCG TGGATGTCTC TGCTATGCCC CGAGGCACTC CATTATATGG GCAGCCGTCC 
    TGGTGGGGAG ACGAAGAGGA GGATGAACAA AGAGCTTTCA AGGCCAATGG CAAGCCTGAG 
    GGAAAAAGTC AGGAACCTGG GGCTTCAGGG TGCAGCATAG ATGCCAAGCA TGTGGAGGAA 
    CAGTCTGCAG CTGCAAGTGA AGAAGCACTT TTTCCATTCT GTAGGGAGCC AAGTTATTTT 
    GAAATTCCTA CAAAAGAATT CCAGCAGCCA TCACAAATAG CAGAGAGCAC TATTCATGAG 
    ATTCCAACAA AAGACACACC AAGTTCCCAT ACAGCAGGTG CAGGGCATGC TTCATTTACC 
    ATTGAATTTG ATGACAGTAC GCCAGGAAAA GTAACTATTA GAGACCATGT GACAAAATTC 
    ACTTCTGACC AGCGCCACAA GTCAAAGAAG GCCTCTCCAG GAACTCAAGA CTTGCCAGGA 
    ATTCAGACAG GAATGATGGC ACCAGAAAAT AAAGTAGCTG ACTGGCTAGC CCAAAACAAC 
    CCTCCTCAAA TGGTGTGGGA AAGAACAGAG GAGGATTCCA AGAGCATTAA AAGTGATGTT 
    CCTGTGTACT TGAAAAGGTT GAAAGGAAAC AAACATGATG ATGGTACACA GAGTGATTCA 
    GAGAATGCTG GGGCGCACAG GCGCTGTAGC AAGCGTGCAA CTCTGGAGGA ACATTTACGC 
    CGCCATCACT CAGAGCAGAA AAAGAAGGCC CAGTCCACCG AAAAGCATCA AGAACAGGCT 
    GCTGTATTTG GAGTAGATGA CAATCAGGAT TATAATAGGC CTATTATCAA TGAAAAGCAT 
    AAAGGTCTCA TAAAAGACTG GGCTCTCAAC TCTGCTGCAG TAGTAATGGA AGACAGAAAG 
    CCATTGAGCA CACCTGGGTT TCATAACTCA GAGGAAGCCA TATCTTCATC TGGAAGCAAA 
    CGTTGGGTTT CACAATGGGC TAGTTTGGCT GCTAATCATA CAAGGCATGA TCCAGAAGAA 
    AGGTTAATGG AATTGTCTGC AACTGTAGAA AACGAGACAG ATACTGGTGA AGCTGGTGTT 
    TCCCTAAGAA GTACTAGTTG TACAACTTCC TTGGCTAGTC AGGGAGAGAG GAAGAGGCGA 
    ACTCTTCCCC AGCTCCCAAA TGAAGAGAAG CTACTCGAGA GCTCCAGAGT GAAGGTCGTT 
    CCACAGAGGT CAGAGATAGG AGAAAAGCAA GACACGGAAC TGCAGGAAAA AGAAGCCCAG 
    GTATACCAAA GCGAGAAGCA CGATGCAGAC CGAGGCCTAA GTAAAATGAG CAGGGCAGTC 
    AATGGTGAGA GTCTTAAAAC TGGTGGAGAT GGTAAAGCCC TCCTTCACTC AGGAAACTCA 
    TCTAGCAAGG AGAAGAGTGA GACAGAAAAG GAAACTTCTT TGGTAAAACA AACATTGGCT 
    AAAATCCAGC AGCAAGAGCA AAAGGAGCAG GCCCAGTGGA CTCCTACTAA GTTTCCTTCA 
    AAAAATGCTT TAGGCCATAT AGATAAATGT AGGGAGGAAT CTTCTAAGCA AGAGTCCCAA 
    CTCTTAGAAA AAGTTTCAGG ACATTCTACA AGCAAAGGAG ACAGAGTAAT ACAAAATGAA 
    AGCAAGAGAA GGAAAGCTGA GGAAATTCCA AAATGCCAGG CTTCAAAAGG AGACAAGAAA 
    GAGTCTTCCA AATCATTAGT GCGCCAAGGG AGTTTCACCA TAGACAAGCC CAGTTCAAAC 
    ATCCCCATAG AACTTATCCC CCATATCAAT AAGCAGAATT CATCTGTACC CACTGCCTTA 
    GCACTGACAT CTGCAAGTAG ACTTCGAGAA AGGAGTGACT CTTTGGATAC TGATTCTAGC 
    ATGGACACAA CCTTGATTTT AAAAGACACA GAAGCAGTGA TGGCTTTTCT AGAAGCTAAA 
    CTGCGTGAAG ATAATAATAA AACTGATGAA GGCCCAGATA CTCCCAGTTA CAATAGAGAC 
    AATTCAATTT CACCAGAATC TGATGTAGAC ACAGCCAGTA CAATTAGTCT GGTGACTGGA 
    GAGACAGAAA GAAAGTCCAC CCAAAAGCGG AAGAGTTTCA CTAGTCTCTA TAAAGACAGG 
    TGTTCCACGA GTTCCCCATC CAAAGATGTT ACAAAGTCAA GCAGTAGGGA GAAAATTGAA 
    AAGAAAGCAA AAAGCCGCTC TACAGATATA GGTGCAAGAG CAGATGGTCG CAAATTTGTA 
    CAGTCCAGTG GAAGAATCCG GCAGCCTTCC ATAGACTTAA CAGATGATGA CCAGACCTCT 
    AGTGTACCTC ATTCTGCTAT TTCTGACATT ATGTCATCTG ACCAGGAAAC ATACTCCTGC 
    AAATCTCATG GACGGACTCC ACTTACCTCA GCCGATGAAC ACAACATACA TTCCAAACTG 
    GAAGGAAGCA AAGCAACAAA GTCTAAGACT TCTCCTGTTG CCTCTGGTTC AACAAGTAAA 
    TCCACTACTC TCCCAAGGCC ACGGCCCACC CGGACGTCCC TCCTGCGTAG AGCCCGGCTG 
    GGTGAAGCTT CTGACAGTGA ACTTGCTGAT GCTGACAAAG CATCCGTTGC TTCTGAAGTG 
    TCCACTACAA GTTCCACATC AAAACCACCC ACAGGAAGGC GAACCATCTC TAGGATTGAT 
    TTATTGGCTC AGCCTCGAAG AACAAGACTT GGCTCATTAT CCGCCCGTAG TGACTCTGAA 
    GCAACAATTT CAAGAAGCAG CGCATCTGCA CGCACTGCAG AAGCTGTCAT TAGGAGCGGA 
    GCCAGACTAG TGCCATCAGA TAAACTTTCT CCTAGAACTA GAGCTAACAG TATCTCTCGG 
    CTCTCCGATT CCAAGGTCAA GAGCATGAGC TCCACTCACG GCTCTCCTTC AGCCCTGAAA 
    ACCACTCGCA TGCAGAGTAC TGGATCAGCA ATGCCTGCTA GTTCTTCATT CAAGCACCGA 
    ATTAAAGAAC AGGAAGACTA TATCCGAGAT TGGACTGCCC ATCGAGAAGA GATAGCCAGG 
    ATCAGCCAAG ATCTTGCTCT CATTGCTCGG GAGATCAACG ACGTAGCAGG AGAAATAGAT 
    TCAGTGACTT CCTCAGGCAC TGCCCCGAGT ACCACAGTAA GCACTGCCGC CACCACCCCT 
    GGCTCTGCCA TAGACACTAG AGAAGAGGTA GGAGATCTTC ATGGAGAAAT GCATAAGTTG 
    GTTGATCGTG TTTTTGATGA AAGTCTCAAC TTCAGAAAGA TACCTCCATT AGTTCATTCT 
    AAAACACCAG AAGGAAACAA CGGTCGGTCT GTTGACTCGA GGCCTCAGCC AGCCGAGCAT 
    CCTGATCACT TAACAATTAC AAGACGGAGA ACCTGGAGTA GGGATGAAGT CATGGGAGAT 
    AATCTGCTAT TGTCATCAGT CTTTCAGTTC TCTAGGAAGA TTAGACAATC CATCGATAAA 
    ACAGCTGGGA AAATCAGAAT ATTGTTTAAA GACAAAGACC GGAACTGGGA TGACATAGAA 
    AACAAGCTAA GAGCTGAAAG CGAAGTCCCT ATCGTTAAAA CTTCAAGCAT GGAGATTTCT 
    TCTATTTTAC AGGAGCTTAA AAGAGTTGAA AAACAGTTGC AAGTGATAAA TGCCATGATT 
    GACCCAGATG GAACTTTGGA GGCTCTTAAC AACATGGGAT TTCCCAATGC TATCCTGCCA 
    TCCCCACCAA AACAGAAGTC CAGCCCTGTT AATAACCACA GCAGCCCTAG TCAGACGCCA 
    GCACTTTGCC CACCAGAAAC TAGAGCCCTA CACCCTGCTG CTGCGGGAGC GGCGGCAGCA 
    GCCTCCACTG AGTTTGAGAA TGCTGAATCT GAGGCTGATT TCAGTATCCA TTTCAATAGG 
    TTCAACCCTG ATGGGGAAGA GGAGGATGTT ACAGTACATG AATGA

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

    Cep170 ( XM_029481036.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029336896.1 Mus caroli centrosomal protein 170 (Cep170), transcript variant X10, mRNA.
    Price & Availability↑
    CloneID OMv66586
    Clone ID Related Accession (Same CDS sequence) XM_029481036.1
    Accession Version XM_029481036.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4323bp)
    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 centrosomal protein of 170 kDa isoform X10
    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGACGACTGT GAGCTCATGC TTCAGTCCCG AAGTGTGGAT 
    AAACAACATG CTGTAATCAA TTATGATGCA TCTATGGATG AACATTTGGT GAAAGATTTA 
    GGCAGCCTAA ATGGGACTTT TGTGAATGAT GTAAGGATAC CAGAGCAGAC GTACATCACT 
    TTGAAGCTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTCTTCAC TGTAGTACGA 
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCACGAGA AGTTTACCAT TCAGCTTCAA 
    TTGTCCCAGA AGTCTTCAGA ATCAGAATTA CCAAAATCAG CAAGTGCCAA AGGCACGGAC 
    TCAAAAGTGG AGGCTGCTGC AGAAGTGCAG CCCAGAGCCA CAGAAGCACT AAAATCTGAA 
    GAGAAACCCG TGGATGTCTC TGCTATGCCC CGAGGCACTC CATTATATGG GCAGCCGTCC 
    TGGTGGGGAG ACGAAGAGGA GGATGAACAA AGAGCTTTCA AGGCCAATGG CAAGCCTGAG 
    GGAAAAAGTC AGGAACCTGG GGCTTCAGGG TGCAGCATAG ATGCCAAGCA TGTGGAGGAA 
    CAGTCTGCAG CTGCAAGTGA AGAAGCACTT TTTCCATTCT GTAGGGAGCC AAGTTATTTT 
    GAAATTCCTA CAAAAGAATT CCAGCAGCCA TCACAAATAG CAGAGAGCAC TATTCATGAG 
    ATTCCAACAA AAGACACACC AAGTTCCCAT ACAGCAGGTG CAGGGCATGC TTCATTTACC 
    ATTGAATTTG ATGACAGTAC GCCAGGAAAA GTAACTATTA GAGACCATGT GACAAAATTC 
    ACTTCTGACC AGCGCCACAA GTCAAAGAAG GCCTCTCCAG GAACTCAAGA CTTGCCAGGA 
    ATTCAGACAG GAATGATGGC ACCAGAAAAT AAAGTAGCTG ACTGGCTAGC CCAAAACAAC 
    CCTCCTCAAA TGGTGTGGGA AAGAACAGAG GAGGATTCCA AGAGCATTAA AAGTGATGTT 
    CCTGTGTACT TGAAAAGGTT GAAAGGAAAC AAACATGATG ATGGTACACA GAGTGATTCA 
    GAGAATGCTG GGGCGCACAG GCGCTGTAGC AAGCGTGCAA CTCTGGAGGA ACATTTACGC 
    CGCCATCACT CAGAGCAGAA AAAGAAGGCC CAGTCCACCG AAAAGCATCA AGAACAGGCT 
    GCTGAAGCCA TATCTTCATC TGGAAGCAAA CGTTGGGTTT CACAATGGGC TAGTTTGGCT 
    GCTAATCATA CAAGGCATGA TCCAGAAGAA AGGTTAATGG AATTGTCTGC AACTGTAGAA 
    AACGAGACAG ATACTGGTGA AGCTGGTGTT TCCCTAAGAA GTACTAGTTG TACAACTTCC 
    TTGGCTAGTC AGGGAGAGAG GAAGAGGCGA ACTCTTCCCC AGCTCCCAAA TGAAGAGAAG 
    CTACTCGAGA GCTCCAGAGT GAAGGTCGTT CCACAGAGGT CAGAGATAGG AGAAAAGCAA 
    GACACGGAAC TGCAGGAAAA AGAAGCCCAG GTATACCAAA GCGAGAAGCA CGATGCAGAC 
    CGAGGCCTAA GTAAAATGAG CAGGGCAGTC AATGGTGAGA GTCTTAAAAC TGGTGGAGAT 
    GGTAAAGCCC TCCTTCACTC AGGAAACTCA TCTAGCAAGG AGAAGAGTGA GACAGAAAAG 
    GAAACTTCTT TGGTAAAACA AACATTGGCT AAAATCCAGC AGCAAGAGCA AAAGGAGCAG 
    GCCCAGTGGA CTCCTACTAA GTTTCCTTCA AAAAATGCTT TAGGCCATAT AGATAAATGT 
    AGGGAGGAAT CTTCTAAGCA AGAGTCCCAA CTCTTAGAAA AAGTTTCAGG ACATTCTACA 
    AGCAAAGGAG ACAGAGTAAT ACAAAATGAA AGCAAGAGAA GGAAAGCTGA GGAAATTCCA 
    AAATGCCAGG CTTCAAAAGG AGACAAGAAA GAGTCTTCCA AATCATTAGT GCGCCAAGGG 
    AGTTTCACCA TAGACAAGCC CAGTTCAAAC ATCCCCATAG AACTTATCCC CCATATCAAT 
    AAGCAGAATT CATCTGTACC CACTGCCTTA GCACTGACAT CTGCAAGTAG ACTTCGAGAA 
    AGGAGTGACT CTTTGGATAC TGATTCTAGC ATGGACACAA CCTTGATTTT AAAAGACACA 
    GAAGCAGTGA TGGCTTTTCT AGAAGCTAAA CTGCGTGAAG ATAATAATAA AACTGATGAA 
    GGCCCAGATA CTCCCAGTTA CAATAGAGAC AATTCAATTT CACCAGAATC TGATGTAGAC 
    ACAGCCAGTA CAATTAGTCT GGTGACTGGA GAGACAGAAA GAAAGTCCAC CCAAAAGCGG 
    AAGAGTTTCA CTAGTCTCTA TAAAGACAGG TGTTCCACGA GTTCCCCATC CAAAGATGTT 
    ACAAAGTCAA GCAGTAGGGA GAAAATTGAA AAGAAAGCAA AAAGCCGCTC TACAGATATA 
    GGTGCAAGAG CAGATGGTCG CAAATTTGTA CAGTCCAGTG GAAGAATCCG GCAGCCTTCC 
    ATAGACTTAA CAGATGATGA CCAGACCTCT AGTGTACCTC ATTCTGCTAT TTCTGACATT 
    ATGTCATCTG ACCAGGAAAC ATACTCCTGC AAATCTCATG GACGGACTCC ACTTACCTCA 
    GCCGATGAAC ACAACATACA TTCCAAACTG GAAGGAAGCA AAGCAACAAA GTCTAAGACT 
    TCTCCTGTTG CCTCTGGTTC AACAAGTAAA TCCACTACTC TCCCAAGGCC ACGGCCCACC 
    CGGACGTCCC TCCTGCGTAG AGCCCGGCTG GGTGAAGCTT CTGACAGTGA ACTTGCTGAT 
    GCTGACAAAG CATCCGTTGC TTCTGAAGTG TCCACTACAA GTTCCACATC AAAACCACCC 
    ACAGGAAGGC GAACCATCTC TAGGATTGAT TTATTGGCTC AGCCTCGAAG AACAAGACTT 
    GGCTCATTAT CCGCCCGTAG TGACTCTGAA GCAACAATTT CAAGAAGCAG CGCATCTGCA 
    CGCACTGCAG AAGCTGTCAT TAGGAGCGGA GCCAGACTAG TGCCATCAGA TAAACTTTCT 
    CCTAGAACTA GAGCTAACAG TATCTCTCGG CTCTCCGATT CCAAGGTCAA GAGCATGAGC 
    TCCACTCACG GCTCTCCTTC AGTAAATTCA AGATGGAGGC GCTTTCCTAC TGATTATGCT 
    TCCACCTCAG AAGATGAATT TGGATCAAAC CGTAATTCCC CTAAACATAC TCGTCTACGT 
    ACTTCTCCAG CCCTGAAAAC CACTCGCATG CAGAGTACTG GATCAGCAAT GCCTGCTAGT 
    TCTTCATTCA AGCACCGAAT TAAAGAACAG GAAGACTATA TCCGAGATTG GACTGCCCAT 
    CGAGAAGAGA TAGCCAGGAT CAGCCAAGAT CTTGCTCTCA TTGCTCGGGA GATCAACGAC 
    GTAGCAGGAG AAATAGATTC AGTGACTTCC TCAGGCACTG CCCCGAGTAC CACAGTAAGC 
    ACTGCCGCCA CCACCCCTGG CTCTGCCATA GACACTAGAG AAGAGGTAGG AGATCTTCAT 
    GGAGAAATGC ATAAGTTGGT TGATCGTGTT TTTGATGAAA GTCTCAACTT CAGAAAGATA 
    CCTCCATTAG TTCATTCTAA AACACCAGAA GGAAACAACG GTCGGTCTGT TGACTCGAGG 
    CCTCAGCCAG CCGAGCATCC TGATCACTTA ACAATTACAA GACGGAGAAC CTGGAGTAGG 
    GATGAAGTCA TGGGAGATAA TCTGCTATTG TCATCAGTCT TTCAGTTCTC TAGGAAGATT 
    AGACAATCCA TCGATAAAAC AGCTGGGAAA ATCAGAATAT TGTTTAAAGA CAAAGACCGG 
    AACTGGGATG ACATAGAAAA CAAGCTAAGA GCTGAAAGCG AAGTCCCTAT CGTTAAAACT 
    TCAAGCATGG AGATTTCTTC TATTTTACAG GAGCTTAAAA GAGTTGAAAA ACAGTTGCAA 
    GTGATAAATG CCATGATTGA CCCAGATGGA ACTTTGGAGG CTCTTAACAA CATGGGATTT 
    CCCAATGCTA TCCTGCCATC CCCACCAAAA CAGAAGTCCA GCCCTGTTAA TAACCACAGC 
    AGCCCTAGTC AGACGCCAGC ACTTTGCCCA CCAGAAACTA GAGCCCTACA CCCTGCTGCT 
    GCGGGAGCGG CGGCAGCAGC CTCCACTGAG TTTGAGAATG CTGAATCTGA GGCTGATTTC 
    AGTATCCATT TCAATAGGTT CAACCCTGAT GGGGAAGAGG AGGATGTTAC AGTACATGAA 
    TGA

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

    RefSeq XP_029336896.1
    CDS606..4928
    Translation

    Target ORF information:

    RefSeq Version XM_029481036.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli centrosomal protein 170 (Cep170), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029481036.1

    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGACGACTGT GAGCTCATGC TTCAGTCCCG AAGTGTGGAT 
    AAACAACATG CTGTAATCAA TTATGATGCA TCTATGGATG AACATTTGGT GAAAGATTTA 
    GGCAGCCTAA ATGGGACTTT TGTGAATGAT GTAAGGATAC CAGAGCAGAC GTACATCACT 
    TTGAAGCTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTCTTCAC TGTAGTACGA 
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCACGAGA AGTTTACCAT TCAGCTTCAA 
    TTGTCCCAGA AGTCTTCAGA ATCAGAATTA CCAAAATCAG CAAGTGCCAA AGGCACGGAC 
    TCAAAAGTGG AGGCTGCTGC AGAAGTGCAG CCCAGAGCCA CAGAAGCACT AAAATCTGAA 
    GAGAAACCCG TGGATGTCTC TGCTATGCCC CGAGGCACTC CATTATATGG GCAGCCGTCC 
    TGGTGGGGAG ACGAAGAGGA GGATGAACAA AGAGCTTTCA AGGCCAATGG CAAGCCTGAG 
    GGAAAAAGTC AGGAACCTGG GGCTTCAGGG TGCAGCATAG ATGCCAAGCA TGTGGAGGAA 
    CAGTCTGCAG CTGCAAGTGA AGAAGCACTT TTTCCATTCT GTAGGGAGCC AAGTTATTTT 
    GAAATTCCTA CAAAAGAATT CCAGCAGCCA TCACAAATAG CAGAGAGCAC TATTCATGAG 
    ATTCCAACAA AAGACACACC AAGTTCCCAT ACAGCAGGTG CAGGGCATGC TTCATTTACC 
    ATTGAATTTG ATGACAGTAC GCCAGGAAAA GTAACTATTA GAGACCATGT GACAAAATTC 
    ACTTCTGACC AGCGCCACAA GTCAAAGAAG GCCTCTCCAG GAACTCAAGA CTTGCCAGGA 
    ATTCAGACAG GAATGATGGC ACCAGAAAAT AAAGTAGCTG ACTGGCTAGC CCAAAACAAC 
    CCTCCTCAAA TGGTGTGGGA AAGAACAGAG GAGGATTCCA AGAGCATTAA AAGTGATGTT 
    CCTGTGTACT TGAAAAGGTT GAAAGGAAAC AAACATGATG ATGGTACACA GAGTGATTCA 
    GAGAATGCTG GGGCGCACAG GCGCTGTAGC AAGCGTGCAA CTCTGGAGGA ACATTTACGC 
    CGCCATCACT CAGAGCAGAA AAAGAAGGCC CAGTCCACCG AAAAGCATCA AGAACAGGCT 
    GCTGAAGCCA TATCTTCATC TGGAAGCAAA CGTTGGGTTT CACAATGGGC TAGTTTGGCT 
    GCTAATCATA CAAGGCATGA TCCAGAAGAA AGGTTAATGG AATTGTCTGC AACTGTAGAA 
    AACGAGACAG ATACTGGTGA AGCTGGTGTT TCCCTAAGAA GTACTAGTTG TACAACTTCC 
    TTGGCTAGTC AGGGAGAGAG GAAGAGGCGA ACTCTTCCCC AGCTCCCAAA TGAAGAGAAG 
    CTACTCGAGA GCTCCAGAGT GAAGGTCGTT CCACAGAGGT CAGAGATAGG AGAAAAGCAA 
    GACACGGAAC TGCAGGAAAA AGAAGCCCAG GTATACCAAA GCGAGAAGCA CGATGCAGAC 
    CGAGGCCTAA GTAAAATGAG CAGGGCAGTC AATGGTGAGA GTCTTAAAAC TGGTGGAGAT 
    GGTAAAGCCC TCCTTCACTC AGGAAACTCA TCTAGCAAGG AGAAGAGTGA GACAGAAAAG 
    GAAACTTCTT TGGTAAAACA AACATTGGCT AAAATCCAGC AGCAAGAGCA AAAGGAGCAG 
    GCCCAGTGGA CTCCTACTAA GTTTCCTTCA AAAAATGCTT TAGGCCATAT AGATAAATGT 
    AGGGAGGAAT CTTCTAAGCA AGAGTCCCAA CTCTTAGAAA AAGTTTCAGG ACATTCTACA 
    AGCAAAGGAG ACAGAGTAAT ACAAAATGAA AGCAAGAGAA GGAAAGCTGA GGAAATTCCA 
    AAATGCCAGG CTTCAAAAGG AGACAAGAAA GAGTCTTCCA AATCATTAGT GCGCCAAGGG 
    AGTTTCACCA TAGACAAGCC CAGTTCAAAC ATCCCCATAG AACTTATCCC CCATATCAAT 
    AAGCAGAATT CATCTGTACC CACTGCCTTA GCACTGACAT CTGCAAGTAG ACTTCGAGAA 
    AGGAGTGACT CTTTGGATAC TGATTCTAGC ATGGACACAA CCTTGATTTT AAAAGACACA 
    GAAGCAGTGA TGGCTTTTCT AGAAGCTAAA CTGCGTGAAG ATAATAATAA AACTGATGAA 
    GGCCCAGATA CTCCCAGTTA CAATAGAGAC AATTCAATTT CACCAGAATC TGATGTAGAC 
    ACAGCCAGTA CAATTAGTCT GGTGACTGGA GAGACAGAAA GAAAGTCCAC CCAAAAGCGG 
    AAGAGTTTCA CTAGTCTCTA TAAAGACAGG TGTTCCACGA GTTCCCCATC CAAAGATGTT 
    ACAAAGTCAA GCAGTAGGGA GAAAATTGAA AAGAAAGCAA AAAGCCGCTC TACAGATATA 
    GGTGCAAGAG CAGATGGTCG CAAATTTGTA CAGTCCAGTG GAAGAATCCG GCAGCCTTCC 
    ATAGACTTAA CAGATGATGA CCAGACCTCT AGTGTACCTC ATTCTGCTAT TTCTGACATT 
    ATGTCATCTG ACCAGGAAAC ATACTCCTGC AAATCTCATG GACGGACTCC ACTTACCTCA 
    GCCGATGAAC ACAACATACA TTCCAAACTG GAAGGAAGCA AAGCAACAAA GTCTAAGACT 
    TCTCCTGTTG CCTCTGGTTC AACAAGTAAA TCCACTACTC TCCCAAGGCC ACGGCCCACC 
    CGGACGTCCC TCCTGCGTAG AGCCCGGCTG GGTGAAGCTT CTGACAGTGA ACTTGCTGAT 
    GCTGACAAAG CATCCGTTGC TTCTGAAGTG TCCACTACAA GTTCCACATC AAAACCACCC 
    ACAGGAAGGC GAACCATCTC TAGGATTGAT TTATTGGCTC AGCCTCGAAG AACAAGACTT 
    GGCTCATTAT CCGCCCGTAG TGACTCTGAA GCAACAATTT CAAGAAGCAG CGCATCTGCA 
    CGCACTGCAG AAGCTGTCAT TAGGAGCGGA GCCAGACTAG TGCCATCAGA TAAACTTTCT 
    CCTAGAACTA GAGCTAACAG TATCTCTCGG CTCTCCGATT CCAAGGTCAA GAGCATGAGC 
    TCCACTCACG GCTCTCCTTC AGTAAATTCA AGATGGAGGC GCTTTCCTAC TGATTATGCT 
    TCCACCTCAG AAGATGAATT TGGATCAAAC CGTAATTCCC CTAAACATAC TCGTCTACGT 
    ACTTCTCCAG CCCTGAAAAC CACTCGCATG CAGAGTACTG GATCAGCAAT GCCTGCTAGT 
    TCTTCATTCA AGCACCGAAT TAAAGAACAG GAAGACTATA TCCGAGATTG GACTGCCCAT 
    CGAGAAGAGA TAGCCAGGAT CAGCCAAGAT CTTGCTCTCA TTGCTCGGGA GATCAACGAC 
    GTAGCAGGAG AAATAGATTC AGTGACTTCC TCAGGCACTG CCCCGAGTAC CACAGTAAGC 
    ACTGCCGCCA CCACCCCTGG CTCTGCCATA GACACTAGAG AAGAGGTAGG AGATCTTCAT 
    GGAGAAATGC ATAAGTTGGT TGATCGTGTT TTTGATGAAA GTCTCAACTT CAGAAAGATA 
    CCTCCATTAG TTCATTCTAA AACACCAGAA GGAAACAACG GTCGGTCTGT TGACTCGAGG 
    CCTCAGCCAG CCGAGCATCC TGATCACTTA ACAATTACAA GACGGAGAAC CTGGAGTAGG 
    GATGAAGTCA TGGGAGATAA TCTGCTATTG TCATCAGTCT TTCAGTTCTC TAGGAAGATT 
    AGACAATCCA TCGATAAAAC AGCTGGGAAA ATCAGAATAT TGTTTAAAGA CAAAGACCGG 
    AACTGGGATG ACATAGAAAA CAAGCTAAGA GCTGAAAGCG AAGTCCCTAT CGTTAAAACT 
    TCAAGCATGG AGATTTCTTC TATTTTACAG GAGCTTAAAA GAGTTGAAAA ACAGTTGCAA 
    GTGATAAATG CCATGATTGA CCCAGATGGA ACTTTGGAGG CTCTTAACAA CATGGGATTT 
    CCCAATGCTA TCCTGCCATC CCCACCAAAA CAGAAGTCCA GCCCTGTTAA TAACCACAGC 
    AGCCCTAGTC AGACGCCAGC ACTTTGCCCA CCAGAAACTA GAGCCCTACA CCCTGCTGCT 
    GCGGGAGCGG CGGCAGCAGC CTCCACTGAG TTTGAGAATG CTGAATCTGA GGCTGATTTC 
    AGTATCCATT TCAATAGGTT CAACCCTGAT GGGGAAGAGG AGGATGTTAC AGTACATGAA 
    TGA

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

    Cep170 ( XM_029481037.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029336897.1 Mus caroli centrosomal protein 170 (Cep170), transcript variant X11, mRNA.
    Price & Availability↑
    CloneID OMv66587
    Clone ID Related Accession (Same CDS sequence) XM_029481037.1
    Accession Version XM_029481037.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4242bp)
    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 centrosomal protein of 170 kDa isoform X11
    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGACGACTGT GAGCTCATGC TTCAGTCCCG AAGTGTGGAT 
    AAACAACATG CTGTAATCAA TTATGATGCA TCTATGGATG AACATTTGGT GAAAGATTTA 
    GGCAGCCTAA ATGGGACTTT TGTGAATGAT GTAAGGATAC CAGAGCAGAC GTACATCACT 
    TTGAAGCTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTCTTCAC TGTAGTACGA 
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCACGAGA AGTTTACCAT TCAGCTTCAA 
    TTGTCCCAGA AGTCTTCAGA ATCAGAATTA CCAAAATCAG CAAGTGCCAA AGGCACGGAC 
    TCAAAAGTGG AGGCTGCTGC AGAAGTGCAG CCCAGAGCCA CAGAAGCACT AAAATCTGAA 
    GAGAAACCCG TGGATGTCTC TGCTATGCCC CGAGGCACTC CATTATATGG GCAGCCGTCC 
    TGGTGGGGAG ACGAAGAGGA GGATGAACAA AGAGCTTTCA AGGCCAATGG CAAGCCTGAG 
    GGAAAAAGTC AGGAACCTGG GGCTTCAGGG TGCAGCATAG ATGCCAAGCA TGTGGAGGAA 
    CAGTCTGCAG CTGCAAGTGA AGAAGCACTT TTTCCATTCT GTAGGGAGCC AAGTTATTTT 
    GAAATTCCTA CAAAAGAATT CCAGCAGCCA TCACAAATAG CAGAGAGCAC TATTCATGAG 
    ATTCCAACAA AAGACACACC AAGTTCCCAT ACAGCAGGTG CAGGGCATGC TTCATTTACC 
    ATTGAATTTG ATGACAGTAC GCCAGGAAAA GTAACTATTA GAGACCATGT GACAAAATTC 
    ACTTCTGACC AGCGCCACAA GTCAAAGAAG GCCTCTCCAG GAACTCAAGA CTTGCCAGGA 
    ATTCAGACAG GAATGATGGC ACCAGAAAAT AAAGTAGCTG ACTGGCTAGC CCAAAACAAC 
    CCTCCTCAAA TGGTGTGGGA AAGAACAGAG GAGGATTCCA AGAGCATTAA AAGTGATGTT 
    CCTGTGTACT TGAAAAGGTT GAAAGGAAAC AAACATGATG ATGGTACACA GAGTGATTCA 
    GAGAATGCTG GGGCGCACAG GCGCTGTAGC AAGCGTGCAA CTCTGGAGGA ACATTTACGC 
    CGCCATCACT CAGAGCAGAA AAAGAAGGCC CAGTCCACCG AAAAGCATCA AGAACAGGCT 
    GCTGAAGCCA TATCTTCATC TGGAAGCAAA CGTTGGGTTT CACAATGGGC TAGTTTGGCT 
    GCTAATCATA CAAGGCATGA TCCAGAAGAA AGGTTAATGG AATTGTCTGC AACTGTAGAA 
    AACGAGACAG ATACTGGTGA AGCTGGTGTT TCCCTAAGAA GTACTAGTTG TACAACTTCC 
    TTGGCTAGTC AGGGAGAGAG GAAGAGGCGA ACTCTTCCCC AGCTCCCAAA TGAAGAGAAG 
    CTACTCGAGA GCTCCAGAGT GAAGGTCGTT CCACAGAGGT CAGAGATAGG AGAAAAGCAA 
    GACACGGAAC TGCAGGAAAA AGAAGCCCAG GTATACCAAA GCGAGAAGCA CGATGCAGAC 
    CGAGGCCTAA GTAAAATGAG CAGGGCAGTC AATGGTGAGA GTCTTAAAAC TGGTGGAGAT 
    GGTAAAGCCC TCCTTCACTC AGGAAACTCA TCTAGCAAGG AGAAGAGTGA GACAGAAAAG 
    GAAACTTCTT TGGTAAAACA AACATTGGCT AAAATCCAGC AGCAAGAGCA AAAGGAGCAG 
    GCCCAGTGGA CTCCTACTAA GTTTCCTTCA AAAAATGCTT TAGGCCATAT AGATAAATGT 
    AGGGAGGAAT CTTCTAAGCA AGAGTCCCAA CTCTTAGAAA AAGTTTCAGG ACATTCTACA 
    AGCAAAGGAG ACAGAGTAAT ACAAAATGAA AGCAAGAGAA GGAAAGCTGA GGAAATTCCA 
    AAATGCCAGG CTTCAAAAGG AGACAAGAAA GAGTCTTCCA AATCATTAGT GCGCCAAGGG 
    AGTTTCACCA TAGACAAGCC CAGTTCAAAC ATCCCCATAG AACTTATCCC CCATATCAAT 
    AAGCAGAATT CATCTGTACC CACTGCCTTA GCACTGACAT CTGCAAGTAG ACTTCGAGAA 
    AGGAGTGACT CTTTGGATAC TGATTCTAGC ATGGACACAA CCTTGATTTT AAAAGACACA 
    GAAGCAGTGA TGGCTTTTCT AGAAGCTAAA CTGCGTGAAG ATAATAATAA AACTGATGAA 
    GGCCCAGATA CTCCCAGTTA CAATAGAGAC AATTCAATTT CACCAGAATC TGATGTAGAC 
    ACAGCCAGTA CAATTAGTCT GGTGACTGGA GAGACAGAAA GAAAGTCCAC CCAAAAGCGG 
    AAGAGTTTCA CTAGTCTCTA TAAAGACAGG TGTTCCACGA GTTCCCCATC CAAAGATGTT 
    ACAAAGTCAA GCAGTAGGGA GAAAATTGAA AAGAAAGCAA AAAGCCGCTC TACAGATATA 
    GGTGCAAGAG CAGATGGTCG CAAATTTGTA CAGTCCAGTG GAAGAATCCG GCAGCCTTCC 
    ATAGACTTAA CAGATGATGA CCAGACCTCT AGTGTACCTC ATTCTGCTAT TTCTGACATT 
    ATGTCATCTG ACCAGGAAAC ATACTCCTGC AAATCTCATG GACGGACTCC ACTTACCTCA 
    GCCGATGAAC ACAACATACA TTCCAAACTG GAAGGAAGCA AAGCAACAAA GTCTAAGACT 
    TCTCCTGTTG CCTCTGGTTC AACAAGTAAA TCCACTACTC TCCCAAGGCC ACGGCCCACC 
    CGGACGTCCC TCCTGCGTAG AGCCCGGCTG GGTGAAGCTT CTGACAGTGA ACTTGCTGAT 
    GCTGACAAAG CATCCGTTGC TTCTGAAGTG TCCACTACAA GTTCCACATC AAAACCACCC 
    ACAGGAAGGC GAACCATCTC TAGGATTGAT TTATTGGCTC AGCCTCGAAG AACAAGACTT 
    GGCTCATTAT CCGCCCGTAG TGACTCTGAA GCAACAATTT CAAGAAGCAG CGCATCTGCA 
    CGCACTGCAG AAGCTGTCAT TAGGAGCGGA GCCAGACTAG TGCCATCAGA TAAACTTTCT 
    CCTAGAACTA GAGCTAACAG TATCTCTCGG CTCTCCGATT CCAAGGTCAA GAGCATGAGC 
    TCCACTCACG GCTCTCCTTC AGTAAATTCA AGATGGAGGC GCTTTCCTAC TGATTATGCT 
    TCCACCTCAG AAGATGAATT TGGATCAAAC CGTAATTCCC CTAAACATAC TCGTCTACGT 
    ACTTCTCCAG CCCTGAAAAC CACTCGCATG CAGAGTACTG GATCAGCAAT GCCTGCTAGT 
    TCTTCATTCA AGCACCGAAT TAAAGAACAG GAAGACTATA TCCGAGATTG GACTGCCCAT 
    CGAGAAGAGA TAGCCAGGAT CAGCCAAGAT CTTGCTCTCA TTGCTCGGGA GATCAACGAC 
    GTAGCAGGAG AAATAGATTC AGTGACTTCC TCAGGCACTG CCCCGAGTAC CACATTGGTT 
    GATCGTGTTT TTGATGAAAG TCTCAACTTC AGAAAGATAC CTCCATTAGT TCATTCTAAA 
    ACACCAGAAG GAAACAACGG TCGGTCTGTT GACTCGAGGC CTCAGCCAGC CGAGCATCCT 
    GATCACTTAA CAATTACAAG ACGGAGAACC TGGAGTAGGG ATGAAGTCAT GGGAGATAAT 
    CTGCTATTGT CATCAGTCTT TCAGTTCTCT AGGAAGATTA GACAATCCAT CGATAAAACA 
    GCTGGGAAAA TCAGAATATT GTTTAAAGAC AAAGACCGGA ACTGGGATGA CATAGAAAAC 
    AAGCTAAGAG CTGAAAGCGA AGTCCCTATC GTTAAAACTT CAAGCATGGA GATTTCTTCT 
    ATTTTACAGG AGCTTAAAAG AGTTGAAAAA CAGTTGCAAG TGATAAATGC CATGATTGAC 
    CCAGATGGAA CTTTGGAGGC TCTTAACAAC ATGGGATTTC CCAATGCTAT CCTGCCATCC 
    CCACCAAAAC AGAAGTCCAG CCCTGTTAAT AACCACAGCA GCCCTAGTCA GACGCCAGCA 
    CTTTGCCCAC CAGAAACTAG AGCCCTACAC CCTGCTGCTG CGGGAGCGGC GGCAGCAGCC 
    TCCACTGAGT TTGAGAATGC TGAATCTGAG GCTGATTTCA GTATCCATTT CAATAGGTTC 
    AACCCTGATG GGGAAGAGGA GGATGTTACA GTACATGAAT GA

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

    RefSeq XP_029336897.1
    CDS606..4847
    Translation

    Target ORF information:

    RefSeq Version XM_029481037.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli centrosomal protein 170 (Cep170), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029481037.1

    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGACGACTGT GAGCTCATGC TTCAGTCCCG AAGTGTGGAT 
    AAACAACATG CTGTAATCAA TTATGATGCA TCTATGGATG AACATTTGGT GAAAGATTTA 
    GGCAGCCTAA ATGGGACTTT TGTGAATGAT GTAAGGATAC CAGAGCAGAC GTACATCACT 
    TTGAAGCTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTCTTCAC TGTAGTACGA 
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCACGAGA AGTTTACCAT TCAGCTTCAA 
    TTGTCCCAGA AGTCTTCAGA ATCAGAATTA CCAAAATCAG CAAGTGCCAA AGGCACGGAC 
    TCAAAAGTGG AGGCTGCTGC AGAAGTGCAG CCCAGAGCCA CAGAAGCACT AAAATCTGAA 
    GAGAAACCCG TGGATGTCTC TGCTATGCCC CGAGGCACTC CATTATATGG GCAGCCGTCC 
    TGGTGGGGAG ACGAAGAGGA GGATGAACAA AGAGCTTTCA AGGCCAATGG CAAGCCTGAG 
    GGAAAAAGTC AGGAACCTGG GGCTTCAGGG TGCAGCATAG ATGCCAAGCA TGTGGAGGAA 
    CAGTCTGCAG CTGCAAGTGA AGAAGCACTT TTTCCATTCT GTAGGGAGCC AAGTTATTTT 
    GAAATTCCTA CAAAAGAATT CCAGCAGCCA TCACAAATAG CAGAGAGCAC TATTCATGAG 
    ATTCCAACAA AAGACACACC AAGTTCCCAT ACAGCAGGTG CAGGGCATGC TTCATTTACC 
    ATTGAATTTG ATGACAGTAC GCCAGGAAAA GTAACTATTA GAGACCATGT GACAAAATTC 
    ACTTCTGACC AGCGCCACAA GTCAAAGAAG GCCTCTCCAG GAACTCAAGA CTTGCCAGGA 
    ATTCAGACAG GAATGATGGC ACCAGAAAAT AAAGTAGCTG ACTGGCTAGC CCAAAACAAC 
    CCTCCTCAAA TGGTGTGGGA AAGAACAGAG GAGGATTCCA AGAGCATTAA AAGTGATGTT 
    CCTGTGTACT TGAAAAGGTT GAAAGGAAAC AAACATGATG ATGGTACACA GAGTGATTCA 
    GAGAATGCTG GGGCGCACAG GCGCTGTAGC AAGCGTGCAA CTCTGGAGGA ACATTTACGC 
    CGCCATCACT CAGAGCAGAA AAAGAAGGCC CAGTCCACCG AAAAGCATCA AGAACAGGCT 
    GCTGAAGCCA TATCTTCATC TGGAAGCAAA CGTTGGGTTT CACAATGGGC TAGTTTGGCT 
    GCTAATCATA CAAGGCATGA TCCAGAAGAA AGGTTAATGG AATTGTCTGC AACTGTAGAA 
    AACGAGACAG ATACTGGTGA AGCTGGTGTT TCCCTAAGAA GTACTAGTTG TACAACTTCC 
    TTGGCTAGTC AGGGAGAGAG GAAGAGGCGA ACTCTTCCCC AGCTCCCAAA TGAAGAGAAG 
    CTACTCGAGA GCTCCAGAGT GAAGGTCGTT CCACAGAGGT CAGAGATAGG AGAAAAGCAA 
    GACACGGAAC TGCAGGAAAA AGAAGCCCAG GTATACCAAA GCGAGAAGCA CGATGCAGAC 
    CGAGGCCTAA GTAAAATGAG CAGGGCAGTC AATGGTGAGA GTCTTAAAAC TGGTGGAGAT 
    GGTAAAGCCC TCCTTCACTC AGGAAACTCA TCTAGCAAGG AGAAGAGTGA GACAGAAAAG 
    GAAACTTCTT TGGTAAAACA AACATTGGCT AAAATCCAGC AGCAAGAGCA AAAGGAGCAG 
    GCCCAGTGGA CTCCTACTAA GTTTCCTTCA AAAAATGCTT TAGGCCATAT AGATAAATGT 
    AGGGAGGAAT CTTCTAAGCA AGAGTCCCAA CTCTTAGAAA AAGTTTCAGG ACATTCTACA 
    AGCAAAGGAG ACAGAGTAAT ACAAAATGAA AGCAAGAGAA GGAAAGCTGA GGAAATTCCA 
    AAATGCCAGG CTTCAAAAGG AGACAAGAAA GAGTCTTCCA AATCATTAGT GCGCCAAGGG 
    AGTTTCACCA TAGACAAGCC CAGTTCAAAC ATCCCCATAG AACTTATCCC CCATATCAAT 
    AAGCAGAATT CATCTGTACC CACTGCCTTA GCACTGACAT CTGCAAGTAG ACTTCGAGAA 
    AGGAGTGACT CTTTGGATAC TGATTCTAGC ATGGACACAA CCTTGATTTT AAAAGACACA 
    GAAGCAGTGA TGGCTTTTCT AGAAGCTAAA CTGCGTGAAG ATAATAATAA AACTGATGAA 
    GGCCCAGATA CTCCCAGTTA CAATAGAGAC AATTCAATTT CACCAGAATC TGATGTAGAC 
    ACAGCCAGTA CAATTAGTCT GGTGACTGGA GAGACAGAAA GAAAGTCCAC CCAAAAGCGG 
    AAGAGTTTCA CTAGTCTCTA TAAAGACAGG TGTTCCACGA GTTCCCCATC CAAAGATGTT 
    ACAAAGTCAA GCAGTAGGGA GAAAATTGAA AAGAAAGCAA AAAGCCGCTC TACAGATATA 
    GGTGCAAGAG CAGATGGTCG CAAATTTGTA CAGTCCAGTG GAAGAATCCG GCAGCCTTCC 
    ATAGACTTAA CAGATGATGA CCAGACCTCT AGTGTACCTC ATTCTGCTAT TTCTGACATT 
    ATGTCATCTG ACCAGGAAAC ATACTCCTGC AAATCTCATG GACGGACTCC ACTTACCTCA 
    GCCGATGAAC ACAACATACA TTCCAAACTG GAAGGAAGCA AAGCAACAAA GTCTAAGACT 
    TCTCCTGTTG CCTCTGGTTC AACAAGTAAA TCCACTACTC TCCCAAGGCC ACGGCCCACC 
    CGGACGTCCC TCCTGCGTAG AGCCCGGCTG GGTGAAGCTT CTGACAGTGA ACTTGCTGAT 
    GCTGACAAAG CATCCGTTGC TTCTGAAGTG TCCACTACAA GTTCCACATC AAAACCACCC 
    ACAGGAAGGC GAACCATCTC TAGGATTGAT TTATTGGCTC AGCCTCGAAG AACAAGACTT 
    GGCTCATTAT CCGCCCGTAG TGACTCTGAA GCAACAATTT CAAGAAGCAG CGCATCTGCA 
    CGCACTGCAG AAGCTGTCAT TAGGAGCGGA GCCAGACTAG TGCCATCAGA TAAACTTTCT 
    CCTAGAACTA GAGCTAACAG TATCTCTCGG CTCTCCGATT CCAAGGTCAA GAGCATGAGC 
    TCCACTCACG GCTCTCCTTC AGTAAATTCA AGATGGAGGC GCTTTCCTAC TGATTATGCT 
    TCCACCTCAG AAGATGAATT TGGATCAAAC CGTAATTCCC CTAAACATAC TCGTCTACGT 
    ACTTCTCCAG CCCTGAAAAC CACTCGCATG CAGAGTACTG GATCAGCAAT GCCTGCTAGT 
    TCTTCATTCA AGCACCGAAT TAAAGAACAG GAAGACTATA TCCGAGATTG GACTGCCCAT 
    CGAGAAGAGA TAGCCAGGAT CAGCCAAGAT CTTGCTCTCA TTGCTCGGGA GATCAACGAC 
    GTAGCAGGAG AAATAGATTC AGTGACTTCC TCAGGCACTG CCCCGAGTAC CACATTGGTT 
    GATCGTGTTT TTGATGAAAG TCTCAACTTC AGAAAGATAC CTCCATTAGT TCATTCTAAA 
    ACACCAGAAG GAAACAACGG TCGGTCTGTT GACTCGAGGC CTCAGCCAGC CGAGCATCCT 
    GATCACTTAA CAATTACAAG ACGGAGAACC TGGAGTAGGG ATGAAGTCAT GGGAGATAAT 
    CTGCTATTGT CATCAGTCTT TCAGTTCTCT AGGAAGATTA GACAATCCAT CGATAAAACA 
    GCTGGGAAAA TCAGAATATT GTTTAAAGAC AAAGACCGGA ACTGGGATGA CATAGAAAAC 
    AAGCTAAGAG CTGAAAGCGA AGTCCCTATC GTTAAAACTT CAAGCATGGA GATTTCTTCT 
    ATTTTACAGG AGCTTAAAAG AGTTGAAAAA CAGTTGCAAG TGATAAATGC CATGATTGAC 
    CCAGATGGAA CTTTGGAGGC TCTTAACAAC ATGGGATTTC CCAATGCTAT CCTGCCATCC 
    CCACCAAAAC AGAAGTCCAG CCCTGTTAAT AACCACAGCA GCCCTAGTCA GACGCCAGCA 
    CTTTGCCCAC CAGAAACTAG AGCCCTACAC CCTGCTGCTG CGGGAGCGGC GGCAGCAGCC 
    TCCACTGAGT TTGAGAATGC TGAATCTGAG GCTGATTTCA GTATCCATTT CAATAGGTTC 
    AACCCTGATG GGGAAGAGGA GGATGTTACA GTACATGAAT GA

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

    Cep170 ( XM_021160674.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021016333.1 Mus caroli centrosomal protein 170 (Cep170), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OMv23059
    Clone ID Related Accession (Same CDS sequence) XM_021160674.1 , XM_021160674.2
    Accession Version XM_021160674.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4767bp)
    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 centrosomal protein of 170 kDa 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 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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGACGACTGT GAGCTCATGC TTCAGTCCCG AAGTGTGGAT 
    AAACAACATG CTGTAATCAA TTATGATGCA TCTATGGATG AACATTTGGT GAAAGATTTA 
    GGCAGCCTAA ATGGGACTTT TGTGAATGAT GTAAGGATAC CAGAGCAGAC GTACATCACT 
    TTGAAGCTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTCTTCAC TGTAGTACGA 
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCACGAGA AGTTTACCAT TCAGCTTCAA 
    TTGTCCCAGA AGTCTTCAGA ATCAGAATTA CCAAAATCAG CAAGTGCCAA AGGCACGGAC 
    TCAAAAGTGG AGGCTGCTGC AGAAGTGCAG CCCAGAGCCA CAGAAGCACT AAAATCTGAA 
    GAGAAACCCG TGGATGTCTC TGCTATGCCC CGAGGCACTC CATTATATGG GCAGCCGTCC 
    TGGTGGGGAG ACGAAGAGGA GGATGAACAA AGAGCTTTCA AGGCCAATGG CAAGCCTGAG 
    GGAAAAAGTC AGGAACCTGG GGCTTCAGGG TGCAGCATAG ATGCCAAGCA TGTGGAGGAA 
    CAGTCTGCAG CTGCAAGTGA AGAAGCACTT TTTCCATTCT GTAGGGAGCC AAGTTATTTT 
    GAAATTCCTA CAAAAGAATT CCAGCAGCCA TCACAAATAG CAGAGAGCAC TATTCATGAG 
    ATTCCAACAA AAGACACACC AAGTTCCCAT ACAGCAGGTG CAGGGCATGC TTCATTTACC 
    ATTGAATTTG ATGACAGTAC GCCAGGAAAA GTAACTATTA GAGACCATGT GACAAAATTC 
    ACTTCTGACC AGCGCCACAA GTCAAAGAAG GCCTCTCCAG GAACTCAAGA CTTGCCAGGA 
    ATTCAGACAG GAATGATGGC ACCAGAAAAT AAAGTAGCTG ACTGGCTAGC CCAAAACAAC 
    CCTCCTCAAA TGGTGTGGGA AAGAACAGAG GAGGATTCCA AGAGCATTAA AAGTGATGTT 
    CCTGTGTACT TGAAAAGGTT GAAAGGAAAC AAACATGATG ATGGTACACA GAGTGATTCA 
    GAGAATGCTG GGGCGCACAG GCGCTGTAGC AAGCGTGCAA CTCTGGAGGA ACATTTACGC 
    CGCCATCACT CAGAGCAGAA AAAGAAGGCC CAGTCCACCG AAAAGCATCA AGAACAGGCT 
    GCTACTAGCT CTACGCATCA CAGAGGGGGG CATGGTGTTC CACATGGGAA ATTGTTAAAA 
    CAGAAATCAG AGGAGCCATC GGTGTCAATA CCCTTCCTAC AAACTGCATT ATTAAGAAGT 
    TCAGGGAGTC TTGGGCACAG ACCAAGCCAG GAGATGGATG TAATGTTAAA AAATCAAGCT 
    ACTTCTGCCT CTTCAGAAAA GGATAATGAT GATGACCAAA GTGACAAGGG TACTTATACC 
    ATTGAGTTAG AGAATCCCAA CAGTGAGGAG GTGGAAGCAA GAAAAATGAT TGACAAGGTA 
    TTTGGAGTAG ATGACAATCA GGATTATAAT AGGCCTATTA TCAATGAAAA GCATAAAGGT 
    CTCATAAAAG ACTGGGCTCT CAACTCTGCT GCAGTAGTAA TGGAAGACAG AAAGCCATTG 
    AGCACACCTG GGTTTCATAA CTCAGAGGAA GCCATATCTT CATCTGGAAG CAAACGTTGG 
    GTTTCACAAT GGGCTAGTTT GGCTGCTAAT CATACAAGGC ATGATCCAGA AGAAAGGTTA 
    ATGGAATTGT CTGCAACTGT AGAAAACGAG ACAGATACTG GTGAAGCTGG TGTTTCCCTA 
    AGAAGTACTA GTTGTACAAC TTCCTTGGCT AGTCAGGGAG AGAGGAAGAG GCGAACTCTT 
    CCCCAGCTCC CAAATGAAGA GAAGCTACTC GAGAGCTCCA GAGTGAAGGT CGTTCCACAG 
    AGGTCAGAGA TAGGAGAAAA GCAAGACACG GAACTGCAGG AAAAAGAAGC CCAGGTATAC 
    CAAAGCGAGA AGCACGATGC AGACCGAGGC CTAAGTAAAA TGAGCAGGGC AGTCAATGGT 
    GAGAGTCTTA AAACTGGTGG AGATGGTAAA GCCCTCCTTC ACTCAGGAAA CTCATCTAGC 
    AAGGAGAAGA GTGAGACAGA AAAGGAAACT TCTTTGGTAA AACAAACATT GGCTAAAATC 
    CAGCAGCAAG AGCAAAAGGA GCAGGCCCAG TGGACTCCTA CTAAGTTTCC TTCAAAAAAT 
    GCTTTAGGCC ATATAGATAA ATGTAGGGAG GAATCTTCTA AGCAAGAGTC CCAACTCTTA 
    GAAAAAGTTT CAGGACATTC TACAAGCAAA GGAGACAGAG TAATACAAAA TGAAAGCAAG 
    AGAAGGAAAG CTGAGGAAAT TCCAAAATGC CAGGCTTCAA AAGGAGACAA GAAAGAGTCT 
    TCCAAATCAT TAGTGCGCCA AGGGAGTTTC ACCATAGACA AGCCCAGTTC AAACATCCCC 
    ATAGAACTTA TCCCCCATAT CAATAAGCAG AATTCATCTG TACCCACTGC CTTAGCACTG 
    ACATCTGCAA GTAGACTTCG AGAAAGGAGT GACTCTTTGG ATACTGATTC TAGCATGGAC 
    ACAACCTTGA TTTTAAAAGA CACAGAAGCA GTGATGGCTT TTCTAGAAGC TAAACTGCGT 
    GAAGATAATA ATAAAACTGA TGAAGGCCCA GATACTCCCA GTTACAATAG AGACAATTCA 
    ATTTCACCAG AATCTGATGT AGACACAGCC AGTACAATTA GTCTGGTGAC TGGAGAGACA 
    GAAAGAAAGT CCACCCAAAA GCGGAAGAGT TTCACTAGTC TCTATAAAGA CAGGTGTTCC 
    ACGAGTTCCC CATCCAAAGA TGTTACAAAG TCAAGCAGTA GGGAGAAAAT TGAAAAGAAA 
    GCAAAAAGCC GCTCTACAGA TATAGGTGCA AGAGCAGATG GTCGCAAATT TGTACAGTCC 
    AGTGGAAGAA TCCGGCAGCC TTCCATAGAC TTAACAGATG ATGACCAGAC CTCTAGTGTA 
    CCTCATTCTG CTATTTCTGA CATTATGTCA TCTGACCAGG AAACATACTC CTGCAAATCT 
    CATGGACGGA CTCCACTTAC CTCAGCCGAT GAACACAACA TACATTCCAA ACTGGAAGGA 
    AGCAAAGCAA CAAAGTCTAA GACTTCTCCT GTTGCCTCTG GTTCAACAAG TAAATCCACT 
    ACTCTCCCAA GGCCACGGCC CACCCGGACG TCCCTCCTGC GTAGAGCCCG GCTGGGTGAA 
    GCTTCTGACA GTGAACTTGC TGATGCTGAC AAAGCATCCG TTGCTTCTGA AGTGTCCACT 
    ACAAGTTCCA CATCAAAACC ACCCACAGGA AGGCGAACCA TCTCTAGGAT TGATTTATTG 
    GCTCAGCCTC GAAGAACAAG ACTTGGCTCA TTATCCGCCC GTAGTGACTC TGAAGCAACA 
    ATTTCAAGAA GCAGCGCATC TGCACGCACT GCAGAAGCTG TCATTAGGAG CGGAGCCAGA 
    CTAGTGCCAT CAGATAAACT TTCTCCTAGA ACTAGAGCTA ACAGTATCTC TCGGCTCTCC 
    GATTCCAAGG TCAAGAGCAT GAGCTCCACT CACGGCTCTC CTTCAGTAAA TTCAAGATGG 
    AGGCGCTTTC CTACTGATTA TGCTTCCACC TCAGAAGATG AATTTGGATC AAACCGTAAT 
    TCCCCTAAAC ATACTCGTCT ACGTACTTCT CCAGCCCTGA AAACCACTCG CATGCAGAGT 
    ACTGGATCAG CAATGCCTGC TAGTTCTTCA TTCAAGCACC GAATTAAAGA ACAGGAAGAC 
    TATATCCGAG ATTGGACTGC CCATCGAGAA GAGATAGCCA GGATCAGCCA AGATCTTGCT 
    CTCATTGCTC GGGAGATCAA CGACGTAGCA GGAGAAATAG ATTCAGTGAC TTCCTCAGGC 
    ACTGCCCCGA GTACCACAGT AAGCACTGCC GCCACCACCC CTGGCTCTGC CATAGACACT 
    AGAGAAGAGG TAGGAGATCT TCATGGAGAA ATGCATAAGT TGGTTGATCG TGTTTTTGAT 
    GAAAGTCTCA ACTTCAGAAA GATACCTCCA TTAGTTCATT CTAAAACACC AGAAGGAAAC 
    AACGGTCGGT CTGTTGACTC GAGGCCTCAG CCAGCCGAGC ATCCTGATCA CTTAACAATT 
    ACAAGACGGA GAACCTGGAG TAGGGATGAA GTCATGGGAG ATAATCTGCT ATTGTCATCA 
    GTCTTTCAGT TCTCTAGGAA GATTAGACAA TCCATCGATA AAACAGCTGG GAAAATCAGA 
    ATATTGTTTA AAGACAAAGA CCGGAACTGG GATGACATAG AAAACAAGCT AAGAGCTGAA 
    AGCGAAGTCC CTATCGTTAA AACTTCAAGC ATGGAGATTT CTTCTATTTT ACAGGAGCTT 
    AAAAGAGTTG AAAAACAGTT GCAAGTGATA AATGCCATGA TTGACCCAGA TGGAACTTTG 
    GAGGCTCTTA ACAACATGGG ATTTCCCAAT GCTATCCTGC CATCCCCACC AAAACAGAAG 
    TCCAGCCCTG TTAATAACCA CAGCAGCCCT AGTCAGACGC CAGCACTTTG CCCACCAGAA 
    ACTAGAGCCC TACACCCTGC TGCTGCGGGA GCGGCGGCAG CAGCCTCCAC TGAGTTTGAG 
    AATGCTGAAT CTGAGGCTGA TTTCAGTATC CATTTCAATA GGTTCAACCC TGATGGGGAA 
    GAGGAGGATG TTACAGTACA TGAATGA

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

    RefSeq XP_021016333.1
    CDS221..4987
    Translation

    Target ORF information:

    RefSeq Version XM_021160674.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli centrosomal protein 170 (Cep170), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021160674.1

    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGACGACTGT GAGCTCATGC TTCAGTCCCG AAGTGTGGAT 
    AAACAACATG CTGTAATCAA TTATGATGCA TCTATGGATG AACATTTGGT GAAAGATTTA 
    GGCAGCCTAA ATGGGACTTT TGTGAATGAT GTAAGGATAC CAGAGCAGAC GTACATCACT 
    TTGAAGCTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTCTTCAC TGTAGTACGA 
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCACGAGA AGTTTACCAT TCAGCTTCAA 
    TTGTCCCAGA AGTCTTCAGA ATCAGAATTA CCAAAATCAG CAAGTGCCAA AGGCACGGAC 
    TCAAAAGTGG AGGCTGCTGC AGAAGTGCAG CCCAGAGCCA CAGAAGCACT AAAATCTGAA 
    GAGAAACCCG TGGATGTCTC TGCTATGCCC CGAGGCACTC CATTATATGG GCAGCCGTCC 
    TGGTGGGGAG ACGAAGAGGA GGATGAACAA AGAGCTTTCA AGGCCAATGG CAAGCCTGAG 
    GGAAAAAGTC AGGAACCTGG GGCTTCAGGG TGCAGCATAG ATGCCAAGCA TGTGGAGGAA 
    CAGTCTGCAG CTGCAAGTGA AGAAGCACTT TTTCCATTCT GTAGGGAGCC AAGTTATTTT 
    GAAATTCCTA CAAAAGAATT CCAGCAGCCA TCACAAATAG CAGAGAGCAC TATTCATGAG 
    ATTCCAACAA AAGACACACC AAGTTCCCAT ACAGCAGGTG CAGGGCATGC TTCATTTACC 
    ATTGAATTTG ATGACAGTAC GCCAGGAAAA GTAACTATTA GAGACCATGT GACAAAATTC 
    ACTTCTGACC AGCGCCACAA GTCAAAGAAG GCCTCTCCAG GAACTCAAGA CTTGCCAGGA 
    ATTCAGACAG GAATGATGGC ACCAGAAAAT AAAGTAGCTG ACTGGCTAGC CCAAAACAAC 
    CCTCCTCAAA TGGTGTGGGA AAGAACAGAG GAGGATTCCA AGAGCATTAA AAGTGATGTT 
    CCTGTGTACT TGAAAAGGTT GAAAGGAAAC AAACATGATG ATGGTACACA GAGTGATTCA 
    GAGAATGCTG GGGCGCACAG GCGCTGTAGC AAGCGTGCAA CTCTGGAGGA ACATTTACGC 
    CGCCATCACT CAGAGCAGAA AAAGAAGGCC CAGTCCACCG AAAAGCATCA AGAACAGGCT 
    GCTACTAGCT CTACGCATCA CAGAGGGGGG CATGGTGTTC CACATGGGAA ATTGTTAAAA 
    CAGAAATCAG AGGAGCCATC GGTGTCAATA CCCTTCCTAC AAACTGCATT ATTAAGAAGT 
    TCAGGGAGTC TTGGGCACAG ACCAAGCCAG GAGATGGATG TAATGTTAAA AAATCAAGCT 
    ACTTCTGCCT CTTCAGAAAA GGATAATGAT GATGACCAAA GTGACAAGGG TACTTATACC 
    ATTGAGTTAG AGAATCCCAA CAGTGAGGAG GTGGAAGCAA GAAAAATGAT TGACAAGGTA 
    TTTGGAGTAG ATGACAATCA GGATTATAAT AGGCCTATTA TCAATGAAAA GCATAAAGGT 
    CTCATAAAAG ACTGGGCTCT CAACTCTGCT GCAGTAGTAA TGGAAGACAG AAAGCCATTG 
    AGCACACCTG GGTTTCATAA CTCAGAGGAA GCCATATCTT CATCTGGAAG CAAACGTTGG 
    GTTTCACAAT GGGCTAGTTT GGCTGCTAAT CATACAAGGC ATGATCCAGA AGAAAGGTTA 
    ATGGAATTGT CTGCAACTGT AGAAAACGAG ACAGATACTG GTGAAGCTGG TGTTTCCCTA 
    AGAAGTACTA GTTGTACAAC TTCCTTGGCT AGTCAGGGAG AGAGGAAGAG GCGAACTCTT 
    CCCCAGCTCC CAAATGAAGA GAAGCTACTC GAGAGCTCCA GAGTGAAGGT CGTTCCACAG 
    AGGTCAGAGA TAGGAGAAAA GCAAGACACG GAACTGCAGG AAAAAGAAGC CCAGGTATAC 
    CAAAGCGAGA AGCACGATGC AGACCGAGGC CTAAGTAAAA TGAGCAGGGC AGTCAATGGT 
    GAGAGTCTTA AAACTGGTGG AGATGGTAAA GCCCTCCTTC ACTCAGGAAA CTCATCTAGC 
    AAGGAGAAGA GTGAGACAGA AAAGGAAACT TCTTTGGTAA AACAAACATT GGCTAAAATC 
    CAGCAGCAAG AGCAAAAGGA GCAGGCCCAG TGGACTCCTA CTAAGTTTCC TTCAAAAAAT 
    GCTTTAGGCC ATATAGATAA ATGTAGGGAG GAATCTTCTA AGCAAGAGTC CCAACTCTTA 
    GAAAAAGTTT CAGGACATTC TACAAGCAAA GGAGACAGAG TAATACAAAA TGAAAGCAAG 
    AGAAGGAAAG CTGAGGAAAT TCCAAAATGC CAGGCTTCAA AAGGAGACAA GAAAGAGTCT 
    TCCAAATCAT TAGTGCGCCA AGGGAGTTTC ACCATAGACA AGCCCAGTTC AAACATCCCC 
    ATAGAACTTA TCCCCCATAT CAATAAGCAG AATTCATCTG TACCCACTGC CTTAGCACTG 
    ACATCTGCAA GTAGACTTCG AGAAAGGAGT GACTCTTTGG ATACTGATTC TAGCATGGAC 
    ACAACCTTGA TTTTAAAAGA CACAGAAGCA GTGATGGCTT TTCTAGAAGC TAAACTGCGT 
    GAAGATAATA ATAAAACTGA TGAAGGCCCA GATACTCCCA GTTACAATAG AGACAATTCA 
    ATTTCACCAG AATCTGATGT AGACACAGCC AGTACAATTA GTCTGGTGAC TGGAGAGACA 
    GAAAGAAAGT CCACCCAAAA GCGGAAGAGT TTCACTAGTC TCTATAAAGA CAGGTGTTCC 
    ACGAGTTCCC CATCCAAAGA TGTTACAAAG TCAAGCAGTA GGGAGAAAAT TGAAAAGAAA 
    GCAAAAAGCC GCTCTACAGA TATAGGTGCA AGAGCAGATG GTCGCAAATT TGTACAGTCC 
    AGTGGAAGAA TCCGGCAGCC TTCCATAGAC TTAACAGATG ATGACCAGAC CTCTAGTGTA 
    CCTCATTCTG CTATTTCTGA CATTATGTCA TCTGACCAGG AAACATACTC CTGCAAATCT 
    CATGGACGGA CTCCACTTAC CTCAGCCGAT GAACACAACA TACATTCCAA ACTGGAAGGA 
    AGCAAAGCAA CAAAGTCTAA GACTTCTCCT GTTGCCTCTG GTTCAACAAG TAAATCCACT 
    ACTCTCCCAA GGCCACGGCC CACCCGGACG TCCCTCCTGC GTAGAGCCCG GCTGGGTGAA 
    GCTTCTGACA GTGAACTTGC TGATGCTGAC AAAGCATCCG TTGCTTCTGA AGTGTCCACT 
    ACAAGTTCCA CATCAAAACC ACCCACAGGA AGGCGAACCA TCTCTAGGAT TGATTTATTG 
    GCTCAGCCTC GAAGAACAAG ACTTGGCTCA TTATCCGCCC GTAGTGACTC TGAAGCAACA 
    ATTTCAAGAA GCAGCGCATC TGCACGCACT GCAGAAGCTG TCATTAGGAG CGGAGCCAGA 
    CTAGTGCCAT CAGATAAACT TTCTCCTAGA ACTAGAGCTA ACAGTATCTC TCGGCTCTCC 
    GATTCCAAGG TCAAGAGCAT GAGCTCCACT CACGGCTCTC CTTCAGTAAA TTCAAGATGG 
    AGGCGCTTTC CTACTGATTA TGCTTCCACC TCAGAAGATG AATTTGGATC AAACCGTAAT 
    TCCCCTAAAC ATACTCGTCT ACGTACTTCT CCAGCCCTGA AAACCACTCG CATGCAGAGT 
    ACTGGATCAG CAATGCCTGC TAGTTCTTCA TTCAAGCACC GAATTAAAGA ACAGGAAGAC 
    TATATCCGAG ATTGGACTGC CCATCGAGAA GAGATAGCCA GGATCAGCCA AGATCTTGCT 
    CTCATTGCTC GGGAGATCAA CGACGTAGCA GGAGAAATAG ATTCAGTGAC TTCCTCAGGC 
    ACTGCCCCGA GTACCACAGT AAGCACTGCC GCCACCACCC CTGGCTCTGC CATAGACACT 
    AGAGAAGAGG TAGGAGATCT TCATGGAGAA ATGCATAAGT TGGTTGATCG TGTTTTTGAT 
    GAAAGTCTCA ACTTCAGAAA GATACCTCCA TTAGTTCATT CTAAAACACC AGAAGGAAAC 
    AACGGTCGGT CTGTTGACTC GAGGCCTCAG CCAGCCGAGC ATCCTGATCA CTTAACAATT 
    ACAAGACGGA GAACCTGGAG TAGGGATGAA GTCATGGGAG ATAATCTGCT ATTGTCATCA 
    GTCTTTCAGT TCTCTAGGAA GATTAGACAA TCCATCGATA AAACAGCTGG GAAAATCAGA 
    ATATTGTTTA AAGACAAAGA CCGGAACTGG GATGACATAG AAAACAAGCT AAGAGCTGAA 
    AGCGAAGTCC CTATCGTTAA AACTTCAAGC ATGGAGATTT CTTCTATTTT ACAGGAGCTT 
    AAAAGAGTTG AAAAACAGTT GCAAGTGATA AATGCCATGA TTGACCCAGA TGGAACTTTG 
    GAGGCTCTTA ACAACATGGG ATTTCCCAAT GCTATCCTGC CATCCCCACC AAAACAGAAG 
    TCCAGCCCTG TTAATAACCA CAGCAGCCCT AGTCAGACGC CAGCACTTTG CCCACCAGAA 
    ACTAGAGCCC TACACCCTGC TGCTGCGGGA GCGGCGGCAG CAGCCTCCAC TGAGTTTGAG 
    AATGCTGAAT CTGAGGCTGA TTTCAGTATC CATTTCAATA GGTTCAACCC TGATGGGGAA 
    GAGGAGGATG TTACAGTACA TGAATGA

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

    Cep170 ( XM_021160674.2 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021016333.1 Mus caroli centrosomal protein 170 (Cep170), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OMv23059
    Clone ID Related Accession (Same CDS sequence) XM_021160674.1 , XM_021160674.2
    Accession Version XM_021160674.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4767bp)
    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 centrosomal protein of 170 kDa 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 On Jun 10, 2019 this sequence version replaced XM_021160674.1. ##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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGACGACTGT GAGCTCATGC TTCAGTCCCG AAGTGTGGAT 
    AAACAACATG CTGTAATCAA TTATGATGCA TCTATGGATG AACATTTGGT GAAAGATTTA 
    GGCAGCCTAA ATGGGACTTT TGTGAATGAT GTAAGGATAC CAGAGCAGAC GTACATCACT 
    TTGAAGCTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTCTTCAC TGTAGTACGA 
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCACGAGA AGTTTACCAT TCAGCTTCAA 
    TTGTCCCAGA AGTCTTCAGA ATCAGAATTA CCAAAATCAG CAAGTGCCAA AGGCACGGAC 
    TCAAAAGTGG AGGCTGCTGC AGAAGTGCAG CCCAGAGCCA CAGAAGCACT AAAATCTGAA 
    GAGAAACCCG TGGATGTCTC TGCTATGCCC CGAGGCACTC CATTATATGG GCAGCCGTCC 
    TGGTGGGGAG ACGAAGAGGA GGATGAACAA AGAGCTTTCA AGGCCAATGG CAAGCCTGAG 
    GGAAAAAGTC AGGAACCTGG GGCTTCAGGG TGCAGCATAG ATGCCAAGCA TGTGGAGGAA 
    CAGTCTGCAG CTGCAAGTGA AGAAGCACTT TTTCCATTCT GTAGGGAGCC AAGTTATTTT 
    GAAATTCCTA CAAAAGAATT CCAGCAGCCA TCACAAATAG CAGAGAGCAC TATTCATGAG 
    ATTCCAACAA AAGACACACC AAGTTCCCAT ACAGCAGGTG CAGGGCATGC TTCATTTACC 
    ATTGAATTTG ATGACAGTAC GCCAGGAAAA GTAACTATTA GAGACCATGT GACAAAATTC 
    ACTTCTGACC AGCGCCACAA GTCAAAGAAG GCCTCTCCAG GAACTCAAGA CTTGCCAGGA 
    ATTCAGACAG GAATGATGGC ACCAGAAAAT AAAGTAGCTG ACTGGCTAGC CCAAAACAAC 
    CCTCCTCAAA TGGTGTGGGA AAGAACAGAG GAGGATTCCA AGAGCATTAA AAGTGATGTT 
    CCTGTGTACT TGAAAAGGTT GAAAGGAAAC AAACATGATG ATGGTACACA GAGTGATTCA 
    GAGAATGCTG GGGCGCACAG GCGCTGTAGC AAGCGTGCAA CTCTGGAGGA ACATTTACGC 
    CGCCATCACT CAGAGCAGAA AAAGAAGGCC CAGTCCACCG AAAAGCATCA AGAACAGGCT 
    GCTACTAGCT CTACGCATCA CAGAGGGGGG CATGGTGTTC CACATGGGAA ATTGTTAAAA 
    CAGAAATCAG AGGAGCCATC GGTGTCAATA CCCTTCCTAC AAACTGCATT ATTAAGAAGT 
    TCAGGGAGTC TTGGGCACAG ACCAAGCCAG GAGATGGATG TAATGTTAAA AAATCAAGCT 
    ACTTCTGCCT CTTCAGAAAA GGATAATGAT GATGACCAAA GTGACAAGGG TACTTATACC 
    ATTGAGTTAG AGAATCCCAA CAGTGAGGAG GTGGAAGCAA GAAAAATGAT TGACAAGGTA 
    TTTGGAGTAG ATGACAATCA GGATTATAAT AGGCCTATTA TCAATGAAAA GCATAAAGGT 
    CTCATAAAAG ACTGGGCTCT CAACTCTGCT GCAGTAGTAA TGGAAGACAG AAAGCCATTG 
    AGCACACCTG GGTTTCATAA CTCAGAGGAA GCCATATCTT CATCTGGAAG CAAACGTTGG 
    GTTTCACAAT GGGCTAGTTT GGCTGCTAAT CATACAAGGC ATGATCCAGA AGAAAGGTTA 
    ATGGAATTGT CTGCAACTGT AGAAAACGAG ACAGATACTG GTGAAGCTGG TGTTTCCCTA 
    AGAAGTACTA GTTGTACAAC TTCCTTGGCT AGTCAGGGAG AGAGGAAGAG GCGAACTCTT 
    CCCCAGCTCC CAAATGAAGA GAAGCTACTC GAGAGCTCCA GAGTGAAGGT CGTTCCACAG 
    AGGTCAGAGA TAGGAGAAAA GCAAGACACG GAACTGCAGG AAAAAGAAGC CCAGGTATAC 
    CAAAGCGAGA AGCACGATGC AGACCGAGGC CTAAGTAAAA TGAGCAGGGC AGTCAATGGT 
    GAGAGTCTTA AAACTGGTGG AGATGGTAAA GCCCTCCTTC ACTCAGGAAA CTCATCTAGC 
    AAGGAGAAGA GTGAGACAGA AAAGGAAACT TCTTTGGTAA AACAAACATT GGCTAAAATC 
    CAGCAGCAAG AGCAAAAGGA GCAGGCCCAG TGGACTCCTA CTAAGTTTCC TTCAAAAAAT 
    GCTTTAGGCC ATATAGATAA ATGTAGGGAG GAATCTTCTA AGCAAGAGTC CCAACTCTTA 
    GAAAAAGTTT CAGGACATTC TACAAGCAAA GGAGACAGAG TAATACAAAA TGAAAGCAAG 
    AGAAGGAAAG CTGAGGAAAT TCCAAAATGC CAGGCTTCAA AAGGAGACAA GAAAGAGTCT 
    TCCAAATCAT TAGTGCGCCA AGGGAGTTTC ACCATAGACA AGCCCAGTTC AAACATCCCC 
    ATAGAACTTA TCCCCCATAT CAATAAGCAG AATTCATCTG TACCCACTGC CTTAGCACTG 
    ACATCTGCAA GTAGACTTCG AGAAAGGAGT GACTCTTTGG ATACTGATTC TAGCATGGAC 
    ACAACCTTGA TTTTAAAAGA CACAGAAGCA GTGATGGCTT TTCTAGAAGC TAAACTGCGT 
    GAAGATAATA ATAAAACTGA TGAAGGCCCA GATACTCCCA GTTACAATAG AGACAATTCA 
    ATTTCACCAG AATCTGATGT AGACACAGCC AGTACAATTA GTCTGGTGAC TGGAGAGACA 
    GAAAGAAAGT CCACCCAAAA GCGGAAGAGT TTCACTAGTC TCTATAAAGA CAGGTGTTCC 
    ACGAGTTCCC CATCCAAAGA TGTTACAAAG TCAAGCAGTA GGGAGAAAAT TGAAAAGAAA 
    GCAAAAAGCC GCTCTACAGA TATAGGTGCA AGAGCAGATG GTCGCAAATT TGTACAGTCC 
    AGTGGAAGAA TCCGGCAGCC TTCCATAGAC TTAACAGATG ATGACCAGAC CTCTAGTGTA 
    CCTCATTCTG CTATTTCTGA CATTATGTCA TCTGACCAGG AAACATACTC CTGCAAATCT 
    CATGGACGGA CTCCACTTAC CTCAGCCGAT GAACACAACA TACATTCCAA ACTGGAAGGA 
    AGCAAAGCAA CAAAGTCTAA GACTTCTCCT GTTGCCTCTG GTTCAACAAG TAAATCCACT 
    ACTCTCCCAA GGCCACGGCC CACCCGGACG TCCCTCCTGC GTAGAGCCCG GCTGGGTGAA 
    GCTTCTGACA GTGAACTTGC TGATGCTGAC AAAGCATCCG TTGCTTCTGA AGTGTCCACT 
    ACAAGTTCCA CATCAAAACC ACCCACAGGA AGGCGAACCA TCTCTAGGAT TGATTTATTG 
    GCTCAGCCTC GAAGAACAAG ACTTGGCTCA TTATCCGCCC GTAGTGACTC TGAAGCAACA 
    ATTTCAAGAA GCAGCGCATC TGCACGCACT GCAGAAGCTG TCATTAGGAG CGGAGCCAGA 
    CTAGTGCCAT CAGATAAACT TTCTCCTAGA ACTAGAGCTA ACAGTATCTC TCGGCTCTCC 
    GATTCCAAGG TCAAGAGCAT GAGCTCCACT CACGGCTCTC CTTCAGTAAA TTCAAGATGG 
    AGGCGCTTTC CTACTGATTA TGCTTCCACC TCAGAAGATG AATTTGGATC AAACCGTAAT 
    TCCCCTAAAC ATACTCGTCT ACGTACTTCT CCAGCCCTGA AAACCACTCG CATGCAGAGT 
    ACTGGATCAG CAATGCCTGC TAGTTCTTCA TTCAAGCACC GAATTAAAGA ACAGGAAGAC 
    TATATCCGAG ATTGGACTGC CCATCGAGAA GAGATAGCCA GGATCAGCCA AGATCTTGCT 
    CTCATTGCTC GGGAGATCAA CGACGTAGCA GGAGAAATAG ATTCAGTGAC TTCCTCAGGC 
    ACTGCCCCGA GTACCACAGT AAGCACTGCC GCCACCACCC CTGGCTCTGC CATAGACACT 
    AGAGAAGAGG TAGGAGATCT TCATGGAGAA ATGCATAAGT TGGTTGATCG TGTTTTTGAT 
    GAAAGTCTCA ACTTCAGAAA GATACCTCCA TTAGTTCATT CTAAAACACC AGAAGGAAAC 
    AACGGTCGGT CTGTTGACTC GAGGCCTCAG CCAGCCGAGC ATCCTGATCA CTTAACAATT 
    ACAAGACGGA GAACCTGGAG TAGGGATGAA GTCATGGGAG ATAATCTGCT ATTGTCATCA 
    GTCTTTCAGT TCTCTAGGAA GATTAGACAA TCCATCGATA AAACAGCTGG GAAAATCAGA 
    ATATTGTTTA AAGACAAAGA CCGGAACTGG GATGACATAG AAAACAAGCT AAGAGCTGAA 
    AGCGAAGTCC CTATCGTTAA AACTTCAAGC ATGGAGATTT CTTCTATTTT ACAGGAGCTT 
    AAAAGAGTTG AAAAACAGTT GCAAGTGATA AATGCCATGA TTGACCCAGA TGGAACTTTG 
    GAGGCTCTTA ACAACATGGG ATTTCCCAAT GCTATCCTGC CATCCCCACC AAAACAGAAG 
    TCCAGCCCTG TTAATAACCA CAGCAGCCCT AGTCAGACGC CAGCACTTTG CCCACCAGAA 
    ACTAGAGCCC TACACCCTGC TGCTGCGGGA GCGGCGGCAG CAGCCTCCAC TGAGTTTGAG 
    AATGCTGAAT CTGAGGCTGA TTTCAGTATC CATTTCAATA GGTTCAACCC TGATGGGGAA 
    GAGGAGGATG TTACAGTACA TGAATGA

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

    RefSeq XP_021016333.1
    CDS607..5373
    Translation

    Target ORF information:

    RefSeq Version XM_021160674.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli centrosomal protein 170 (Cep170), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021160674.2

    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGACGACTGT GAGCTCATGC TTCAGTCCCG AAGTGTGGAT 
    AAACAACATG CTGTAATCAA TTATGATGCA TCTATGGATG AACATTTGGT GAAAGATTTA 
    GGCAGCCTAA ATGGGACTTT TGTGAATGAT GTAAGGATAC CAGAGCAGAC GTACATCACT 
    TTGAAGCTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTCTTCAC TGTAGTACGA 
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCACGAGA AGTTTACCAT TCAGCTTCAA 
    TTGTCCCAGA AGTCTTCAGA ATCAGAATTA CCAAAATCAG CAAGTGCCAA AGGCACGGAC 
    TCAAAAGTGG AGGCTGCTGC AGAAGTGCAG CCCAGAGCCA CAGAAGCACT AAAATCTGAA 
    GAGAAACCCG TGGATGTCTC TGCTATGCCC CGAGGCACTC CATTATATGG GCAGCCGTCC 
    TGGTGGGGAG ACGAAGAGGA GGATGAACAA AGAGCTTTCA AGGCCAATGG CAAGCCTGAG 
    GGAAAAAGTC AGGAACCTGG GGCTTCAGGG TGCAGCATAG ATGCCAAGCA TGTGGAGGAA 
    CAGTCTGCAG CTGCAAGTGA AGAAGCACTT TTTCCATTCT GTAGGGAGCC AAGTTATTTT 
    GAAATTCCTA CAAAAGAATT CCAGCAGCCA TCACAAATAG CAGAGAGCAC TATTCATGAG 
    ATTCCAACAA AAGACACACC AAGTTCCCAT ACAGCAGGTG CAGGGCATGC TTCATTTACC 
    ATTGAATTTG ATGACAGTAC GCCAGGAAAA GTAACTATTA GAGACCATGT GACAAAATTC 
    ACTTCTGACC AGCGCCACAA GTCAAAGAAG GCCTCTCCAG GAACTCAAGA CTTGCCAGGA 
    ATTCAGACAG GAATGATGGC ACCAGAAAAT AAAGTAGCTG ACTGGCTAGC CCAAAACAAC 
    CCTCCTCAAA TGGTGTGGGA AAGAACAGAG GAGGATTCCA AGAGCATTAA AAGTGATGTT 
    CCTGTGTACT TGAAAAGGTT GAAAGGAAAC AAACATGATG ATGGTACACA GAGTGATTCA 
    GAGAATGCTG GGGCGCACAG GCGCTGTAGC AAGCGTGCAA CTCTGGAGGA ACATTTACGC 
    CGCCATCACT CAGAGCAGAA AAAGAAGGCC CAGTCCACCG AAAAGCATCA AGAACAGGCT 
    GCTACTAGCT CTACGCATCA CAGAGGGGGG CATGGTGTTC CACATGGGAA ATTGTTAAAA 
    CAGAAATCAG AGGAGCCATC GGTGTCAATA CCCTTCCTAC AAACTGCATT ATTAAGAAGT 
    TCAGGGAGTC TTGGGCACAG ACCAAGCCAG GAGATGGATG TAATGTTAAA AAATCAAGCT 
    ACTTCTGCCT CTTCAGAAAA GGATAATGAT GATGACCAAA GTGACAAGGG TACTTATACC 
    ATTGAGTTAG AGAATCCCAA CAGTGAGGAG GTGGAAGCAA GAAAAATGAT TGACAAGGTA 
    TTTGGAGTAG ATGACAATCA GGATTATAAT AGGCCTATTA TCAATGAAAA GCATAAAGGT 
    CTCATAAAAG ACTGGGCTCT CAACTCTGCT GCAGTAGTAA TGGAAGACAG AAAGCCATTG 
    AGCACACCTG GGTTTCATAA CTCAGAGGAA GCCATATCTT CATCTGGAAG CAAACGTTGG 
    GTTTCACAAT GGGCTAGTTT GGCTGCTAAT CATACAAGGC ATGATCCAGA AGAAAGGTTA 
    ATGGAATTGT CTGCAACTGT AGAAAACGAG ACAGATACTG GTGAAGCTGG TGTTTCCCTA 
    AGAAGTACTA GTTGTACAAC TTCCTTGGCT AGTCAGGGAG AGAGGAAGAG GCGAACTCTT 
    CCCCAGCTCC CAAATGAAGA GAAGCTACTC GAGAGCTCCA GAGTGAAGGT CGTTCCACAG 
    AGGTCAGAGA TAGGAGAAAA GCAAGACACG GAACTGCAGG AAAAAGAAGC CCAGGTATAC 
    CAAAGCGAGA AGCACGATGC AGACCGAGGC CTAAGTAAAA TGAGCAGGGC AGTCAATGGT 
    GAGAGTCTTA AAACTGGTGG AGATGGTAAA GCCCTCCTTC ACTCAGGAAA CTCATCTAGC 
    AAGGAGAAGA GTGAGACAGA AAAGGAAACT TCTTTGGTAA AACAAACATT GGCTAAAATC 
    CAGCAGCAAG AGCAAAAGGA GCAGGCCCAG TGGACTCCTA CTAAGTTTCC TTCAAAAAAT 
    GCTTTAGGCC ATATAGATAA ATGTAGGGAG GAATCTTCTA AGCAAGAGTC CCAACTCTTA 
    GAAAAAGTTT CAGGACATTC TACAAGCAAA GGAGACAGAG TAATACAAAA TGAAAGCAAG 
    AGAAGGAAAG CTGAGGAAAT TCCAAAATGC CAGGCTTCAA AAGGAGACAA GAAAGAGTCT 
    TCCAAATCAT TAGTGCGCCA AGGGAGTTTC ACCATAGACA AGCCCAGTTC AAACATCCCC 
    ATAGAACTTA TCCCCCATAT CAATAAGCAG AATTCATCTG TACCCACTGC CTTAGCACTG 
    ACATCTGCAA GTAGACTTCG AGAAAGGAGT GACTCTTTGG ATACTGATTC TAGCATGGAC 
    ACAACCTTGA TTTTAAAAGA CACAGAAGCA GTGATGGCTT TTCTAGAAGC TAAACTGCGT 
    GAAGATAATA ATAAAACTGA TGAAGGCCCA GATACTCCCA GTTACAATAG AGACAATTCA 
    ATTTCACCAG AATCTGATGT AGACACAGCC AGTACAATTA GTCTGGTGAC TGGAGAGACA 
    GAAAGAAAGT CCACCCAAAA GCGGAAGAGT TTCACTAGTC TCTATAAAGA CAGGTGTTCC 
    ACGAGTTCCC CATCCAAAGA TGTTACAAAG TCAAGCAGTA GGGAGAAAAT TGAAAAGAAA 
    GCAAAAAGCC GCTCTACAGA TATAGGTGCA AGAGCAGATG GTCGCAAATT TGTACAGTCC 
    AGTGGAAGAA TCCGGCAGCC TTCCATAGAC TTAACAGATG ATGACCAGAC CTCTAGTGTA 
    CCTCATTCTG CTATTTCTGA CATTATGTCA TCTGACCAGG AAACATACTC CTGCAAATCT 
    CATGGACGGA CTCCACTTAC CTCAGCCGAT GAACACAACA TACATTCCAA ACTGGAAGGA 
    AGCAAAGCAA CAAAGTCTAA GACTTCTCCT GTTGCCTCTG GTTCAACAAG TAAATCCACT 
    ACTCTCCCAA GGCCACGGCC CACCCGGACG TCCCTCCTGC GTAGAGCCCG GCTGGGTGAA 
    GCTTCTGACA GTGAACTTGC TGATGCTGAC AAAGCATCCG TTGCTTCTGA AGTGTCCACT 
    ACAAGTTCCA CATCAAAACC ACCCACAGGA AGGCGAACCA TCTCTAGGAT TGATTTATTG 
    GCTCAGCCTC GAAGAACAAG ACTTGGCTCA TTATCCGCCC GTAGTGACTC TGAAGCAACA 
    ATTTCAAGAA GCAGCGCATC TGCACGCACT GCAGAAGCTG TCATTAGGAG CGGAGCCAGA 
    CTAGTGCCAT CAGATAAACT TTCTCCTAGA ACTAGAGCTA ACAGTATCTC TCGGCTCTCC 
    GATTCCAAGG TCAAGAGCAT GAGCTCCACT CACGGCTCTC CTTCAGTAAA TTCAAGATGG 
    AGGCGCTTTC CTACTGATTA TGCTTCCACC TCAGAAGATG AATTTGGATC AAACCGTAAT 
    TCCCCTAAAC ATACTCGTCT ACGTACTTCT CCAGCCCTGA AAACCACTCG CATGCAGAGT 
    ACTGGATCAG CAATGCCTGC TAGTTCTTCA TTCAAGCACC GAATTAAAGA ACAGGAAGAC 
    TATATCCGAG ATTGGACTGC CCATCGAGAA GAGATAGCCA GGATCAGCCA AGATCTTGCT 
    CTCATTGCTC GGGAGATCAA CGACGTAGCA GGAGAAATAG ATTCAGTGAC TTCCTCAGGC 
    ACTGCCCCGA GTACCACAGT AAGCACTGCC GCCACCACCC CTGGCTCTGC CATAGACACT 
    AGAGAAGAGG TAGGAGATCT TCATGGAGAA ATGCATAAGT TGGTTGATCG TGTTTTTGAT 
    GAAAGTCTCA ACTTCAGAAA GATACCTCCA TTAGTTCATT CTAAAACACC AGAAGGAAAC 
    AACGGTCGGT CTGTTGACTC GAGGCCTCAG CCAGCCGAGC ATCCTGATCA CTTAACAATT 
    ACAAGACGGA GAACCTGGAG TAGGGATGAA GTCATGGGAG ATAATCTGCT ATTGTCATCA 
    GTCTTTCAGT TCTCTAGGAA GATTAGACAA TCCATCGATA AAACAGCTGG GAAAATCAGA 
    ATATTGTTTA AAGACAAAGA CCGGAACTGG GATGACATAG AAAACAAGCT AAGAGCTGAA 
    AGCGAAGTCC CTATCGTTAA AACTTCAAGC ATGGAGATTT CTTCTATTTT ACAGGAGCTT 
    AAAAGAGTTG AAAAACAGTT GCAAGTGATA AATGCCATGA TTGACCCAGA TGGAACTTTG 
    GAGGCTCTTA ACAACATGGG ATTTCCCAAT GCTATCCTGC CATCCCCACC AAAACAGAAG 
    TCCAGCCCTG TTAATAACCA CAGCAGCCCT AGTCAGACGC CAGCACTTTG CCCACCAGAA 
    ACTAGAGCCC TACACCCTGC TGCTGCGGGA GCGGCGGCAG CAGCCTCCAC TGAGTTTGAG 
    AATGCTGAAT CTGAGGCTGA TTTCAGTATC CATTTCAATA GGTTCAACCC TGATGGGGAA 
    GAGGAGGATG TTACAGTACA TGAATGA

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

    Cep170 ( XM_021160681.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021016340.1 Mus caroli centrosomal protein 170 (Cep170), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OMv23060
    Clone ID Related Accession (Same CDS sequence) XM_021160681.1 , XM_021160681.2
    Accession Version XM_021160681.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4737bp)
    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 centrosomal protein of 170 kDa 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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGACGACTGT GAGCTCATGC TTCAGTCCCG AAGTGTGGAT 
    AAACAACATG CTGTAATCAA TTATGATGCA TCTATGGATG AACATTTGGT GAAAGATTTA 
    GGCAGCCTAA ATGGGACTTT TGTGAATGAT GTAAGGATAC CAGAGCAGAC GTACATCACT 
    TTGAAGCTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTCTTCAC TGTAGTACGA 
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCACGAGA AGTTTACCAT TCAGCTTCAA 
    TTGTCCCAGA AGTCTTCAGA ATCAGAATTA CCAAAATCAG CAAGTGCCAA AGGCACGGAC 
    TCAAAAGTGG AGGCTGCTGC AGAAGTGCAG CCCAGAGCCA CAGAAGCACT AAAATCTGAA 
    GAGAAACCCG TGGATGTCTC TGCTATGCCC CGAGGCACTC CATTATATGG GCAGCCGTCC 
    TGGTGGGGAG ACGAAGAGGA GGATGAACAA AGAGCTTTCA AGGCCAATGG CAAGCCTGAG 
    GGAAAAAGTC AGGAACCTGG GGCTTCAGGG TGCAGCATAG ATGCCAAGCA TGTGGAGGAA 
    CAGTCTGCAG CTGCAAGTGA AGAAGCACTT TTTCCATTCT GTAGGGAGCC AAGTTATTTT 
    GAAATTCCTA CAAAAGAATT CCAGCAGCCA TCACAAATAG CAGAGAGCAC TATTCATGAG 
    ATTCCAACAA AAGACACACC AAGTTCCCAT ACAGCAGGTG CAGGGCATGC TTCATTTACC 
    ATTGAATTTG ATGACAGTAC GCCAGGAAAA GTAACTATTA GAGACCATGT GACAAAATTC 
    ACTTCTGACC AGCGCCACAA GTCAAAGAAG GCCTCTCCAG GAACTCAAGA CTTGCCAGGA 
    ATTCAGACAG GAATGATGGC ACCAGAAAAT AAAGTAGCTG ACTGGCTAGC CCAAAACAAC 
    CCTCCTCAAA TGGTGTGGGA AAGAACAGAG GAGGATTCCA AGAGCATTAA AAGTGATGTT 
    CCTGTGTACT TGAAAAGGTT GAAAGGAAAC AAACATGATG ATGGTACACA GAGTGATTCA 
    GAGAATGCTG GGGCGCACAG GCGCTGTAGC AAGCGTGCAA CTCTGGAGGA ACATTTACGC 
    CGCCATCACT CAGAGCAGAA AAAGAAGGCC CAGTCCACCG AAAAGCATCA AGAACAGGCT 
    GCTACTAGCT CTACGCATCA CAGAGGGGGG CATGGTGTTC CACATGGGAA ATTGTTAAAA 
    CAGAAATCAG AGGAGCCATC GGTGTCAATA CCCTTCCTAC AAACTGCATT ATTAAGAAGT 
    TCAGGGAGTC TTGGGCACAG ACCAAGCCAG GAGATGGATG TAATGTTAAA AAATCAAGCT 
    ACTTCTGCCT CTTCAGAAAA GGATAATGAT GATGACCAAA GTGACAAGGG TACTTATACC 
    ATTGAGTTAG AGAATCCCAA CAGTGAGGAG GTGGAAGCAA GAAAAATGAT TGACAAGGTA 
    TTTGGAGTAG ATGACAATCA GGATTATAAT AGGCCTATTA TCAATGAAAA GCATAAAGGT 
    CTCATAAAAG ACTGGGCTCT CAACTCTGCT GCAGTAGTAA TGGAAGACAG AAAGCCATTG 
    AGCACACCTG GGTTTCATAA CTCAGAGGAA GCCATATCTT CATCTGGAAG CAAACGTTGG 
    GTTTCACAAT GGGCTAGTTT GGCTGCTAAT CATACAAGGC ATGATCCAGA AGAAAGGTTA 
    ATGGAATTGT CTGCAACTGT AGAAAACGAG ACAGATACTG GTGAAGCTGG TGTTTCCCTA 
    AGAAGTACTA GTTGTACAAC TTCCTTGGCT AGTCAGGGAG AGAGGAAGAG GCGAACTCTT 
    CCCCAGCTCC CAAATGAAGA GAAGCTACTC GAGAGCTCCA GAGTGAAGGT CGTTCCACAG 
    AGGTCAGAGA TAGGAGAAAA GCAAGACACG GAACTGCAGG AAAAAGAAGC CCAGGTATAC 
    CAAAGCGAGA AGCACGATGC AGACCGAGGC CTAAGTAAAA TGAGCAGGGC AGTCAATGGT 
    GAGAGTCTTA AAACTGGTGG AGATGGTAAA GCCCTCCTTC ACTCAGGAAA CTCATCTAGC 
    AAGGAGAAGA GTGAGACAGA AAAGGAAACT TCTTTGGTAA AACAAACATT GGCTAAAATC 
    CAGCAGCAAG AGCAAAAGGA GCAGGCCCAG TGGACTCCTA CTAAGTTTCC TTCAAAAAAT 
    GCTTTAGGCC ATATAGATAA ATGTAGGGAG GAATCTTCTA AGCAAGAGTC CCAACTCTTA 
    GAAAAAGTTT CAGGACATTC TACAAGCAAA GGAGACAGAG TAATACAAAA TGAAAGCAAG 
    AGAAGGAAAG CTGAGGAAAT TCCAAAATGC CAGGCTTCAA AAGGAGACAA GAAAGAGTCT 
    TCCAAATCAT TAGTGCGCCA AGGGAGTTTC ACCATAGACA AGCCCAGTTC AAACATCCCC 
    ATAGAACTTA TCCCCCATAT CAATAAGCAG AATTCATCTG TACCCACTGC CTTAGCACTG 
    ACATCTGCAA GTAGACTTCG AGAAAGGAGT GACTCTTTGG ATACTGATTC TAGCATGGAC 
    ACAACCTTGA TTTTAAAAGA CACAGAAGCA GTGATGGCTT TTCTAGAAGC TAAACTGCGT 
    GAAGATAATA ATAAAACTGA TGAAGGCCCA GATACTCCCA GTTACAATAG AGACAATTCA 
    ATTTCACCAG AATCTGATGT AGACACAGCC AGTACAATTA GTCTGGTGAC TGGAGAGACA 
    GAAAGAAAGT CCACCCAAAA GCGGAAGAGT TTCACTAGTC TCTATAAAGA CAGGTGTTCC 
    ACGAGTTCCC CATCCAAAGA TGTTACAAAG TCAAGCAGTA GGGAGAAAAT TGAAAAGAAA 
    GCAAAAAGCC GCTCTACAGA TATAGGTGCA AGAGCAGATG GTCGCAAATT TGTACAGTCC 
    AGTGGAAGAA TCCGGCAGCC TTCCATAGAC TTAACAGATG ATGACCAGAC CTCTAGTGTA 
    CCTCATTCTG CTATTTCTGA CATTATGTCA TCTGACCAGG AAACATACTC CTGCAAATCT 
    CATGGACGGA CTCCACTTAC CTCAGCCGAT GAACACAACA TACATTCCAA ACTGGAAGGA 
    AGCAAAGCAA CAAAGTCTAA GACTTCTCCT GTTGCCTCTG GTTCAACAAG TAAATCCACT 
    ACTCTCCCAA GGCCACGGCC CACCCGGACG TCCCTCCTGC GTAGAGCCCG GCTGGGTGAA 
    GCTTCTGACA GTGAACTTGC TGATGCTGAC AAAGCATCCG TTGCTTCTGA AGTGTCCACT 
    ACAAGTTCCA CATCAAAACC ACCCACAGGA AGGCGAACCA TCTCTAGGAT TGATTTATTG 
    GCTCAGCCTC GAAGAACAAG ACTTGGCTCA TTATCCGCCC GTAGTGACTC TGAAGCAACA 
    ATTTCAAGAA GCAGCGCATC TGCACGCACT GCAGAAGCTG TCATTAGGAG CGGAGCCAGA 
    CTAGTGCCAT CAGATAAACT TTCTCCTAGA ACTAGAGCTA ACAGTATCTC TCGGCTCTCC 
    GATTCCAAGG TCAAGAGCAT GAGCTCCACT CACGGCTCTC CTTCAGTAAA TTCAAGATGG 
    AGGCGCTTTC CTACTGATTA TGCTTCCACC TCAGAAGATG AATTTGGATC AAACCGTAAT 
    TCCCCTAAAC ATACTCGTCT ACGTACTTCT CCAGCCCTGA AAACCACTCG CATGCAGAGT 
    ACTGGATCAG CAATGCCTGC TAGTTCTTCA TTCAAGCACC GAATTAAAGA ACAGGAAGAC 
    TATATCCGAG ATTGGACTGC CCATCGAGAA GAGATAGCCA GGATCAGCCA AGATCTTGCT 
    CTCATTGCTC GGGAGATCAA CGACGTAGCA GGAGAAATAG ATTCAGTGAC TTCCTCAGGC 
    ACTGCCCCGA GTACCACAGT AAGCACTGCC GCCACCACCC CTGGCTCTGC CATAGACACT 
    AGAGAAGAGT TGGTTGATCG TGTTTTTGAT GAAAGTCTCA ACTTCAGAAA GATACCTCCA 
    TTAGTTCATT CTAAAACACC AGAAGGAAAC AACGGTCGGT CTGTTGACTC GAGGCCTCAG 
    CCAGCCGAGC ATCCTGATCA CTTAACAATT ACAAGACGGA GAACCTGGAG TAGGGATGAA 
    GTCATGGGAG ATAATCTGCT ATTGTCATCA GTCTTTCAGT TCTCTAGGAA GATTAGACAA 
    TCCATCGATA AAACAGCTGG GAAAATCAGA ATATTGTTTA AAGACAAAGA CCGGAACTGG 
    GATGACATAG AAAACAAGCT AAGAGCTGAA AGCGAAGTCC CTATCGTTAA AACTTCAAGC 
    ATGGAGATTT CTTCTATTTT ACAGGAGCTT AAAAGAGTTG AAAAACAGTT GCAAGTGATA 
    AATGCCATGA TTGACCCAGA TGGAACTTTG GAGGCTCTTA ACAACATGGG ATTTCCCAAT 
    GCTATCCTGC CATCCCCACC AAAACAGAAG TCCAGCCCTG TTAATAACCA CAGCAGCCCT 
    AGTCAGACGC CAGCACTTTG CCCACCAGAA ACTAGAGCCC TACACCCTGC TGCTGCGGGA 
    GCGGCGGCAG CAGCCTCCAC TGAGTTTGAG AATGCTGAAT CTGAGGCTGA TTTCAGTATC 
    CATTTCAATA GGTTCAACCC TGATGGGGAA GAGGAGGATG TTACAGTACA TGAATGA

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

    RefSeq XP_021016340.1
    CDS221..4957
    Translation

    Target ORF information:

    RefSeq Version XM_021160681.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli centrosomal protein 170 (Cep170), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021160681.1

    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGACGACTGT GAGCTCATGC TTCAGTCCCG AAGTGTGGAT 
    AAACAACATG CTGTAATCAA TTATGATGCA TCTATGGATG AACATTTGGT GAAAGATTTA 
    GGCAGCCTAA ATGGGACTTT TGTGAATGAT GTAAGGATAC CAGAGCAGAC GTACATCACT 
    TTGAAGCTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTCTTCAC TGTAGTACGA 
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCACGAGA AGTTTACCAT TCAGCTTCAA 
    TTGTCCCAGA AGTCTTCAGA ATCAGAATTA CCAAAATCAG CAAGTGCCAA AGGCACGGAC 
    TCAAAAGTGG AGGCTGCTGC AGAAGTGCAG CCCAGAGCCA CAGAAGCACT AAAATCTGAA 
    GAGAAACCCG TGGATGTCTC TGCTATGCCC CGAGGCACTC CATTATATGG GCAGCCGTCC 
    TGGTGGGGAG ACGAAGAGGA GGATGAACAA AGAGCTTTCA AGGCCAATGG CAAGCCTGAG 
    GGAAAAAGTC AGGAACCTGG GGCTTCAGGG TGCAGCATAG ATGCCAAGCA TGTGGAGGAA 
    CAGTCTGCAG CTGCAAGTGA AGAAGCACTT TTTCCATTCT GTAGGGAGCC AAGTTATTTT 
    GAAATTCCTA CAAAAGAATT CCAGCAGCCA TCACAAATAG CAGAGAGCAC TATTCATGAG 
    ATTCCAACAA AAGACACACC AAGTTCCCAT ACAGCAGGTG CAGGGCATGC TTCATTTACC 
    ATTGAATTTG ATGACAGTAC GCCAGGAAAA GTAACTATTA GAGACCATGT GACAAAATTC 
    ACTTCTGACC AGCGCCACAA GTCAAAGAAG GCCTCTCCAG GAACTCAAGA CTTGCCAGGA 
    ATTCAGACAG GAATGATGGC ACCAGAAAAT AAAGTAGCTG ACTGGCTAGC CCAAAACAAC 
    CCTCCTCAAA TGGTGTGGGA AAGAACAGAG GAGGATTCCA AGAGCATTAA AAGTGATGTT 
    CCTGTGTACT TGAAAAGGTT GAAAGGAAAC AAACATGATG ATGGTACACA GAGTGATTCA 
    GAGAATGCTG GGGCGCACAG GCGCTGTAGC AAGCGTGCAA CTCTGGAGGA ACATTTACGC 
    CGCCATCACT CAGAGCAGAA AAAGAAGGCC CAGTCCACCG AAAAGCATCA AGAACAGGCT 
    GCTACTAGCT CTACGCATCA CAGAGGGGGG CATGGTGTTC CACATGGGAA ATTGTTAAAA 
    CAGAAATCAG AGGAGCCATC GGTGTCAATA CCCTTCCTAC AAACTGCATT ATTAAGAAGT 
    TCAGGGAGTC TTGGGCACAG ACCAAGCCAG GAGATGGATG TAATGTTAAA AAATCAAGCT 
    ACTTCTGCCT CTTCAGAAAA GGATAATGAT GATGACCAAA GTGACAAGGG TACTTATACC 
    ATTGAGTTAG AGAATCCCAA CAGTGAGGAG GTGGAAGCAA GAAAAATGAT TGACAAGGTA 
    TTTGGAGTAG ATGACAATCA GGATTATAAT AGGCCTATTA TCAATGAAAA GCATAAAGGT 
    CTCATAAAAG ACTGGGCTCT CAACTCTGCT GCAGTAGTAA TGGAAGACAG AAAGCCATTG 
    AGCACACCTG GGTTTCATAA CTCAGAGGAA GCCATATCTT CATCTGGAAG CAAACGTTGG 
    GTTTCACAAT GGGCTAGTTT GGCTGCTAAT CATACAAGGC ATGATCCAGA AGAAAGGTTA 
    ATGGAATTGT CTGCAACTGT AGAAAACGAG ACAGATACTG GTGAAGCTGG TGTTTCCCTA 
    AGAAGTACTA GTTGTACAAC TTCCTTGGCT AGTCAGGGAG AGAGGAAGAG GCGAACTCTT 
    CCCCAGCTCC CAAATGAAGA GAAGCTACTC GAGAGCTCCA GAGTGAAGGT CGTTCCACAG 
    AGGTCAGAGA TAGGAGAAAA GCAAGACACG GAACTGCAGG AAAAAGAAGC CCAGGTATAC 
    CAAAGCGAGA AGCACGATGC AGACCGAGGC CTAAGTAAAA TGAGCAGGGC AGTCAATGGT 
    GAGAGTCTTA AAACTGGTGG AGATGGTAAA GCCCTCCTTC ACTCAGGAAA CTCATCTAGC 
    AAGGAGAAGA GTGAGACAGA AAAGGAAACT TCTTTGGTAA AACAAACATT GGCTAAAATC 
    CAGCAGCAAG AGCAAAAGGA GCAGGCCCAG TGGACTCCTA CTAAGTTTCC TTCAAAAAAT 
    GCTTTAGGCC ATATAGATAA ATGTAGGGAG GAATCTTCTA AGCAAGAGTC CCAACTCTTA 
    GAAAAAGTTT CAGGACATTC TACAAGCAAA GGAGACAGAG TAATACAAAA TGAAAGCAAG 
    AGAAGGAAAG CTGAGGAAAT TCCAAAATGC CAGGCTTCAA AAGGAGACAA GAAAGAGTCT 
    TCCAAATCAT TAGTGCGCCA AGGGAGTTTC ACCATAGACA AGCCCAGTTC AAACATCCCC 
    ATAGAACTTA TCCCCCATAT CAATAAGCAG AATTCATCTG TACCCACTGC CTTAGCACTG 
    ACATCTGCAA GTAGACTTCG AGAAAGGAGT GACTCTTTGG ATACTGATTC TAGCATGGAC 
    ACAACCTTGA TTTTAAAAGA CACAGAAGCA GTGATGGCTT TTCTAGAAGC TAAACTGCGT 
    GAAGATAATA ATAAAACTGA TGAAGGCCCA GATACTCCCA GTTACAATAG AGACAATTCA 
    ATTTCACCAG AATCTGATGT AGACACAGCC AGTACAATTA GTCTGGTGAC TGGAGAGACA 
    GAAAGAAAGT CCACCCAAAA GCGGAAGAGT TTCACTAGTC TCTATAAAGA CAGGTGTTCC 
    ACGAGTTCCC CATCCAAAGA TGTTACAAAG TCAAGCAGTA GGGAGAAAAT TGAAAAGAAA 
    GCAAAAAGCC GCTCTACAGA TATAGGTGCA AGAGCAGATG GTCGCAAATT TGTACAGTCC 
    AGTGGAAGAA TCCGGCAGCC TTCCATAGAC TTAACAGATG ATGACCAGAC CTCTAGTGTA 
    CCTCATTCTG CTATTTCTGA CATTATGTCA TCTGACCAGG AAACATACTC CTGCAAATCT 
    CATGGACGGA CTCCACTTAC CTCAGCCGAT GAACACAACA TACATTCCAA ACTGGAAGGA 
    AGCAAAGCAA CAAAGTCTAA GACTTCTCCT GTTGCCTCTG GTTCAACAAG TAAATCCACT 
    ACTCTCCCAA GGCCACGGCC CACCCGGACG TCCCTCCTGC GTAGAGCCCG GCTGGGTGAA 
    GCTTCTGACA GTGAACTTGC TGATGCTGAC AAAGCATCCG TTGCTTCTGA AGTGTCCACT 
    ACAAGTTCCA CATCAAAACC ACCCACAGGA AGGCGAACCA TCTCTAGGAT TGATTTATTG 
    GCTCAGCCTC GAAGAACAAG ACTTGGCTCA TTATCCGCCC GTAGTGACTC TGAAGCAACA 
    ATTTCAAGAA GCAGCGCATC TGCACGCACT GCAGAAGCTG TCATTAGGAG CGGAGCCAGA 
    CTAGTGCCAT CAGATAAACT TTCTCCTAGA ACTAGAGCTA ACAGTATCTC TCGGCTCTCC 
    GATTCCAAGG TCAAGAGCAT GAGCTCCACT CACGGCTCTC CTTCAGTAAA TTCAAGATGG 
    AGGCGCTTTC CTACTGATTA TGCTTCCACC TCAGAAGATG AATTTGGATC AAACCGTAAT 
    TCCCCTAAAC ATACTCGTCT ACGTACTTCT CCAGCCCTGA AAACCACTCG CATGCAGAGT 
    ACTGGATCAG CAATGCCTGC TAGTTCTTCA TTCAAGCACC GAATTAAAGA ACAGGAAGAC 
    TATATCCGAG ATTGGACTGC CCATCGAGAA GAGATAGCCA GGATCAGCCA AGATCTTGCT 
    CTCATTGCTC GGGAGATCAA CGACGTAGCA GGAGAAATAG ATTCAGTGAC TTCCTCAGGC 
    ACTGCCCCGA GTACCACAGT AAGCACTGCC GCCACCACCC CTGGCTCTGC CATAGACACT 
    AGAGAAGAGT TGGTTGATCG TGTTTTTGAT GAAAGTCTCA ACTTCAGAAA GATACCTCCA 
    TTAGTTCATT CTAAAACACC AGAAGGAAAC AACGGTCGGT CTGTTGACTC GAGGCCTCAG 
    CCAGCCGAGC ATCCTGATCA CTTAACAATT ACAAGACGGA GAACCTGGAG TAGGGATGAA 
    GTCATGGGAG ATAATCTGCT ATTGTCATCA GTCTTTCAGT TCTCTAGGAA GATTAGACAA 
    TCCATCGATA AAACAGCTGG GAAAATCAGA ATATTGTTTA AAGACAAAGA CCGGAACTGG 
    GATGACATAG AAAACAAGCT AAGAGCTGAA AGCGAAGTCC CTATCGTTAA AACTTCAAGC 
    ATGGAGATTT CTTCTATTTT ACAGGAGCTT AAAAGAGTTG AAAAACAGTT GCAAGTGATA 
    AATGCCATGA TTGACCCAGA TGGAACTTTG GAGGCTCTTA ACAACATGGG ATTTCCCAAT 
    GCTATCCTGC CATCCCCACC AAAACAGAAG TCCAGCCCTG TTAATAACCA CAGCAGCCCT 
    AGTCAGACGC CAGCACTTTG CCCACCAGAA ACTAGAGCCC TACACCCTGC TGCTGCGGGA 
    GCGGCGGCAG CAGCCTCCAC TGAGTTTGAG AATGCTGAAT CTGAGGCTGA TTTCAGTATC 
    CATTTCAATA GGTTCAACCC TGATGGGGAA GAGGAGGATG TTACAGTACA TGAATGA

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

    Cep170 ( XM_021160681.2 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021016340.1 Mus caroli centrosomal protein 170 (Cep170), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OMv23060
    Clone ID Related Accession (Same CDS sequence) XM_021160681.1 , XM_021160681.2
    Accession Version XM_021160681.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4737bp)
    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 centrosomal protein of 170 kDa 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_021160681.1. ##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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGACGACTGT GAGCTCATGC TTCAGTCCCG AAGTGTGGAT 
    AAACAACATG CTGTAATCAA TTATGATGCA TCTATGGATG AACATTTGGT GAAAGATTTA 
    GGCAGCCTAA ATGGGACTTT TGTGAATGAT GTAAGGATAC CAGAGCAGAC GTACATCACT 
    TTGAAGCTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTCTTCAC TGTAGTACGA 
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCACGAGA AGTTTACCAT TCAGCTTCAA 
    TTGTCCCAGA AGTCTTCAGA ATCAGAATTA CCAAAATCAG CAAGTGCCAA AGGCACGGAC 
    TCAAAAGTGG AGGCTGCTGC AGAAGTGCAG CCCAGAGCCA CAGAAGCACT AAAATCTGAA 
    GAGAAACCCG TGGATGTCTC TGCTATGCCC CGAGGCACTC CATTATATGG GCAGCCGTCC 
    TGGTGGGGAG ACGAAGAGGA GGATGAACAA AGAGCTTTCA AGGCCAATGG CAAGCCTGAG 
    GGAAAAAGTC AGGAACCTGG GGCTTCAGGG TGCAGCATAG ATGCCAAGCA TGTGGAGGAA 
    CAGTCTGCAG CTGCAAGTGA AGAAGCACTT TTTCCATTCT GTAGGGAGCC AAGTTATTTT 
    GAAATTCCTA CAAAAGAATT CCAGCAGCCA TCACAAATAG CAGAGAGCAC TATTCATGAG 
    ATTCCAACAA AAGACACACC AAGTTCCCAT ACAGCAGGTG CAGGGCATGC TTCATTTACC 
    ATTGAATTTG ATGACAGTAC GCCAGGAAAA GTAACTATTA GAGACCATGT GACAAAATTC 
    ACTTCTGACC AGCGCCACAA GTCAAAGAAG GCCTCTCCAG GAACTCAAGA CTTGCCAGGA 
    ATTCAGACAG GAATGATGGC ACCAGAAAAT AAAGTAGCTG ACTGGCTAGC CCAAAACAAC 
    CCTCCTCAAA TGGTGTGGGA AAGAACAGAG GAGGATTCCA AGAGCATTAA AAGTGATGTT 
    CCTGTGTACT TGAAAAGGTT GAAAGGAAAC AAACATGATG ATGGTACACA GAGTGATTCA 
    GAGAATGCTG GGGCGCACAG GCGCTGTAGC AAGCGTGCAA CTCTGGAGGA ACATTTACGC 
    CGCCATCACT CAGAGCAGAA AAAGAAGGCC CAGTCCACCG AAAAGCATCA AGAACAGGCT 
    GCTACTAGCT CTACGCATCA CAGAGGGGGG CATGGTGTTC CACATGGGAA ATTGTTAAAA 
    CAGAAATCAG AGGAGCCATC GGTGTCAATA CCCTTCCTAC AAACTGCATT ATTAAGAAGT 
    TCAGGGAGTC TTGGGCACAG ACCAAGCCAG GAGATGGATG TAATGTTAAA AAATCAAGCT 
    ACTTCTGCCT CTTCAGAAAA GGATAATGAT GATGACCAAA GTGACAAGGG TACTTATACC 
    ATTGAGTTAG AGAATCCCAA CAGTGAGGAG GTGGAAGCAA GAAAAATGAT TGACAAGGTA 
    TTTGGAGTAG ATGACAATCA GGATTATAAT AGGCCTATTA TCAATGAAAA GCATAAAGGT 
    CTCATAAAAG ACTGGGCTCT CAACTCTGCT GCAGTAGTAA TGGAAGACAG AAAGCCATTG 
    AGCACACCTG GGTTTCATAA CTCAGAGGAA GCCATATCTT CATCTGGAAG CAAACGTTGG 
    GTTTCACAAT GGGCTAGTTT GGCTGCTAAT CATACAAGGC ATGATCCAGA AGAAAGGTTA 
    ATGGAATTGT CTGCAACTGT AGAAAACGAG ACAGATACTG GTGAAGCTGG TGTTTCCCTA 
    AGAAGTACTA GTTGTACAAC TTCCTTGGCT AGTCAGGGAG AGAGGAAGAG GCGAACTCTT 
    CCCCAGCTCC CAAATGAAGA GAAGCTACTC GAGAGCTCCA GAGTGAAGGT CGTTCCACAG 
    AGGTCAGAGA TAGGAGAAAA GCAAGACACG GAACTGCAGG AAAAAGAAGC CCAGGTATAC 
    CAAAGCGAGA AGCACGATGC AGACCGAGGC CTAAGTAAAA TGAGCAGGGC AGTCAATGGT 
    GAGAGTCTTA AAACTGGTGG AGATGGTAAA GCCCTCCTTC ACTCAGGAAA CTCATCTAGC 
    AAGGAGAAGA GTGAGACAGA AAAGGAAACT TCTTTGGTAA AACAAACATT GGCTAAAATC 
    CAGCAGCAAG AGCAAAAGGA GCAGGCCCAG TGGACTCCTA CTAAGTTTCC TTCAAAAAAT 
    GCTTTAGGCC ATATAGATAA ATGTAGGGAG GAATCTTCTA AGCAAGAGTC CCAACTCTTA 
    GAAAAAGTTT CAGGACATTC TACAAGCAAA GGAGACAGAG TAATACAAAA TGAAAGCAAG 
    AGAAGGAAAG CTGAGGAAAT TCCAAAATGC CAGGCTTCAA AAGGAGACAA GAAAGAGTCT 
    TCCAAATCAT TAGTGCGCCA AGGGAGTTTC ACCATAGACA AGCCCAGTTC AAACATCCCC 
    ATAGAACTTA TCCCCCATAT CAATAAGCAG AATTCATCTG TACCCACTGC CTTAGCACTG 
    ACATCTGCAA GTAGACTTCG AGAAAGGAGT GACTCTTTGG ATACTGATTC TAGCATGGAC 
    ACAACCTTGA TTTTAAAAGA CACAGAAGCA GTGATGGCTT TTCTAGAAGC TAAACTGCGT 
    GAAGATAATA ATAAAACTGA TGAAGGCCCA GATACTCCCA GTTACAATAG AGACAATTCA 
    ATTTCACCAG AATCTGATGT AGACACAGCC AGTACAATTA GTCTGGTGAC TGGAGAGACA 
    GAAAGAAAGT CCACCCAAAA GCGGAAGAGT TTCACTAGTC TCTATAAAGA CAGGTGTTCC 
    ACGAGTTCCC CATCCAAAGA TGTTACAAAG TCAAGCAGTA GGGAGAAAAT TGAAAAGAAA 
    GCAAAAAGCC GCTCTACAGA TATAGGTGCA AGAGCAGATG GTCGCAAATT TGTACAGTCC 
    AGTGGAAGAA TCCGGCAGCC TTCCATAGAC TTAACAGATG ATGACCAGAC CTCTAGTGTA 
    CCTCATTCTG CTATTTCTGA CATTATGTCA TCTGACCAGG AAACATACTC CTGCAAATCT 
    CATGGACGGA CTCCACTTAC CTCAGCCGAT GAACACAACA TACATTCCAA ACTGGAAGGA 
    AGCAAAGCAA CAAAGTCTAA GACTTCTCCT GTTGCCTCTG GTTCAACAAG TAAATCCACT 
    ACTCTCCCAA GGCCACGGCC CACCCGGACG TCCCTCCTGC GTAGAGCCCG GCTGGGTGAA 
    GCTTCTGACA GTGAACTTGC TGATGCTGAC AAAGCATCCG TTGCTTCTGA AGTGTCCACT 
    ACAAGTTCCA CATCAAAACC ACCCACAGGA AGGCGAACCA TCTCTAGGAT TGATTTATTG 
    GCTCAGCCTC GAAGAACAAG ACTTGGCTCA TTATCCGCCC GTAGTGACTC TGAAGCAACA 
    ATTTCAAGAA GCAGCGCATC TGCACGCACT GCAGAAGCTG TCATTAGGAG CGGAGCCAGA 
    CTAGTGCCAT CAGATAAACT TTCTCCTAGA ACTAGAGCTA ACAGTATCTC TCGGCTCTCC 
    GATTCCAAGG TCAAGAGCAT GAGCTCCACT CACGGCTCTC CTTCAGTAAA TTCAAGATGG 
    AGGCGCTTTC CTACTGATTA TGCTTCCACC TCAGAAGATG AATTTGGATC AAACCGTAAT 
    TCCCCTAAAC ATACTCGTCT ACGTACTTCT CCAGCCCTGA AAACCACTCG CATGCAGAGT 
    ACTGGATCAG CAATGCCTGC TAGTTCTTCA TTCAAGCACC GAATTAAAGA ACAGGAAGAC 
    TATATCCGAG ATTGGACTGC CCATCGAGAA GAGATAGCCA GGATCAGCCA AGATCTTGCT 
    CTCATTGCTC GGGAGATCAA CGACGTAGCA GGAGAAATAG ATTCAGTGAC TTCCTCAGGC 
    ACTGCCCCGA GTACCACAGT AAGCACTGCC GCCACCACCC CTGGCTCTGC CATAGACACT 
    AGAGAAGAGT TGGTTGATCG TGTTTTTGAT GAAAGTCTCA ACTTCAGAAA GATACCTCCA 
    TTAGTTCATT CTAAAACACC AGAAGGAAAC AACGGTCGGT CTGTTGACTC GAGGCCTCAG 
    CCAGCCGAGC ATCCTGATCA CTTAACAATT ACAAGACGGA GAACCTGGAG TAGGGATGAA 
    GTCATGGGAG ATAATCTGCT ATTGTCATCA GTCTTTCAGT TCTCTAGGAA GATTAGACAA 
    TCCATCGATA AAACAGCTGG GAAAATCAGA ATATTGTTTA AAGACAAAGA CCGGAACTGG 
    GATGACATAG AAAACAAGCT AAGAGCTGAA AGCGAAGTCC CTATCGTTAA AACTTCAAGC 
    ATGGAGATTT CTTCTATTTT ACAGGAGCTT AAAAGAGTTG AAAAACAGTT GCAAGTGATA 
    AATGCCATGA TTGACCCAGA TGGAACTTTG GAGGCTCTTA ACAACATGGG ATTTCCCAAT 
    GCTATCCTGC CATCCCCACC AAAACAGAAG TCCAGCCCTG TTAATAACCA CAGCAGCCCT 
    AGTCAGACGC CAGCACTTTG CCCACCAGAA ACTAGAGCCC TACACCCTGC TGCTGCGGGA 
    GCGGCGGCAG CAGCCTCCAC TGAGTTTGAG AATGCTGAAT CTGAGGCTGA TTTCAGTATC 
    CATTTCAATA GGTTCAACCC TGATGGGGAA GAGGAGGATG TTACAGTACA TGAATGA

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

    RefSeq XP_021016340.1
    CDS607..5343
    Translation

    Target ORF information:

    RefSeq Version XM_021160681.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli centrosomal protein 170 (Cep170), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021160681.2

    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGACGACTGT GAGCTCATGC TTCAGTCCCG AAGTGTGGAT 
    AAACAACATG CTGTAATCAA TTATGATGCA TCTATGGATG AACATTTGGT GAAAGATTTA 
    GGCAGCCTAA ATGGGACTTT TGTGAATGAT GTAAGGATAC CAGAGCAGAC GTACATCACT 
    TTGAAGCTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTCTTCAC TGTAGTACGA 
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCACGAGA AGTTTACCAT TCAGCTTCAA 
    TTGTCCCAGA AGTCTTCAGA ATCAGAATTA CCAAAATCAG CAAGTGCCAA AGGCACGGAC 
    TCAAAAGTGG AGGCTGCTGC AGAAGTGCAG CCCAGAGCCA CAGAAGCACT AAAATCTGAA 
    GAGAAACCCG TGGATGTCTC TGCTATGCCC CGAGGCACTC CATTATATGG GCAGCCGTCC 
    TGGTGGGGAG ACGAAGAGGA GGATGAACAA AGAGCTTTCA AGGCCAATGG CAAGCCTGAG 
    GGAAAAAGTC AGGAACCTGG GGCTTCAGGG TGCAGCATAG ATGCCAAGCA TGTGGAGGAA 
    CAGTCTGCAG CTGCAAGTGA AGAAGCACTT TTTCCATTCT GTAGGGAGCC AAGTTATTTT 
    GAAATTCCTA CAAAAGAATT CCAGCAGCCA TCACAAATAG CAGAGAGCAC TATTCATGAG 
    ATTCCAACAA AAGACACACC AAGTTCCCAT ACAGCAGGTG CAGGGCATGC TTCATTTACC 
    ATTGAATTTG ATGACAGTAC GCCAGGAAAA GTAACTATTA GAGACCATGT GACAAAATTC 
    ACTTCTGACC AGCGCCACAA GTCAAAGAAG GCCTCTCCAG GAACTCAAGA CTTGCCAGGA 
    ATTCAGACAG GAATGATGGC ACCAGAAAAT AAAGTAGCTG ACTGGCTAGC CCAAAACAAC 
    CCTCCTCAAA TGGTGTGGGA AAGAACAGAG GAGGATTCCA AGAGCATTAA AAGTGATGTT 
    CCTGTGTACT TGAAAAGGTT GAAAGGAAAC AAACATGATG ATGGTACACA GAGTGATTCA 
    GAGAATGCTG GGGCGCACAG GCGCTGTAGC AAGCGTGCAA CTCTGGAGGA ACATTTACGC 
    CGCCATCACT CAGAGCAGAA AAAGAAGGCC CAGTCCACCG AAAAGCATCA AGAACAGGCT 
    GCTACTAGCT CTACGCATCA CAGAGGGGGG CATGGTGTTC CACATGGGAA ATTGTTAAAA 
    CAGAAATCAG AGGAGCCATC GGTGTCAATA CCCTTCCTAC AAACTGCATT ATTAAGAAGT 
    TCAGGGAGTC TTGGGCACAG ACCAAGCCAG GAGATGGATG TAATGTTAAA AAATCAAGCT 
    ACTTCTGCCT CTTCAGAAAA GGATAATGAT GATGACCAAA GTGACAAGGG TACTTATACC 
    ATTGAGTTAG AGAATCCCAA CAGTGAGGAG GTGGAAGCAA GAAAAATGAT TGACAAGGTA 
    TTTGGAGTAG ATGACAATCA GGATTATAAT AGGCCTATTA TCAATGAAAA GCATAAAGGT 
    CTCATAAAAG ACTGGGCTCT CAACTCTGCT GCAGTAGTAA TGGAAGACAG AAAGCCATTG 
    AGCACACCTG GGTTTCATAA CTCAGAGGAA GCCATATCTT CATCTGGAAG CAAACGTTGG 
    GTTTCACAAT GGGCTAGTTT GGCTGCTAAT CATACAAGGC ATGATCCAGA AGAAAGGTTA 
    ATGGAATTGT CTGCAACTGT AGAAAACGAG ACAGATACTG GTGAAGCTGG TGTTTCCCTA 
    AGAAGTACTA GTTGTACAAC TTCCTTGGCT AGTCAGGGAG AGAGGAAGAG GCGAACTCTT 
    CCCCAGCTCC CAAATGAAGA GAAGCTACTC GAGAGCTCCA GAGTGAAGGT CGTTCCACAG 
    AGGTCAGAGA TAGGAGAAAA GCAAGACACG GAACTGCAGG AAAAAGAAGC CCAGGTATAC 
    CAAAGCGAGA AGCACGATGC AGACCGAGGC CTAAGTAAAA TGAGCAGGGC AGTCAATGGT 
    GAGAGTCTTA AAACTGGTGG AGATGGTAAA GCCCTCCTTC ACTCAGGAAA CTCATCTAGC 
    AAGGAGAAGA GTGAGACAGA AAAGGAAACT TCTTTGGTAA AACAAACATT GGCTAAAATC 
    CAGCAGCAAG AGCAAAAGGA GCAGGCCCAG TGGACTCCTA CTAAGTTTCC TTCAAAAAAT 
    GCTTTAGGCC ATATAGATAA ATGTAGGGAG GAATCTTCTA AGCAAGAGTC CCAACTCTTA 
    GAAAAAGTTT CAGGACATTC TACAAGCAAA GGAGACAGAG TAATACAAAA TGAAAGCAAG 
    AGAAGGAAAG CTGAGGAAAT TCCAAAATGC CAGGCTTCAA AAGGAGACAA GAAAGAGTCT 
    TCCAAATCAT TAGTGCGCCA AGGGAGTTTC ACCATAGACA AGCCCAGTTC AAACATCCCC 
    ATAGAACTTA TCCCCCATAT CAATAAGCAG AATTCATCTG TACCCACTGC CTTAGCACTG 
    ACATCTGCAA GTAGACTTCG AGAAAGGAGT GACTCTTTGG ATACTGATTC TAGCATGGAC 
    ACAACCTTGA TTTTAAAAGA CACAGAAGCA GTGATGGCTT TTCTAGAAGC TAAACTGCGT 
    GAAGATAATA ATAAAACTGA TGAAGGCCCA GATACTCCCA GTTACAATAG AGACAATTCA 
    ATTTCACCAG AATCTGATGT AGACACAGCC AGTACAATTA GTCTGGTGAC TGGAGAGACA 
    GAAAGAAAGT CCACCCAAAA GCGGAAGAGT TTCACTAGTC TCTATAAAGA CAGGTGTTCC 
    ACGAGTTCCC CATCCAAAGA TGTTACAAAG TCAAGCAGTA GGGAGAAAAT TGAAAAGAAA 
    GCAAAAAGCC GCTCTACAGA TATAGGTGCA AGAGCAGATG GTCGCAAATT TGTACAGTCC 
    AGTGGAAGAA TCCGGCAGCC TTCCATAGAC TTAACAGATG ATGACCAGAC CTCTAGTGTA 
    CCTCATTCTG CTATTTCTGA CATTATGTCA TCTGACCAGG AAACATACTC CTGCAAATCT 
    CATGGACGGA CTCCACTTAC CTCAGCCGAT GAACACAACA TACATTCCAA ACTGGAAGGA 
    AGCAAAGCAA CAAAGTCTAA GACTTCTCCT GTTGCCTCTG GTTCAACAAG TAAATCCACT 
    ACTCTCCCAA GGCCACGGCC CACCCGGACG TCCCTCCTGC GTAGAGCCCG GCTGGGTGAA 
    GCTTCTGACA GTGAACTTGC TGATGCTGAC AAAGCATCCG TTGCTTCTGA AGTGTCCACT 
    ACAAGTTCCA CATCAAAACC ACCCACAGGA AGGCGAACCA TCTCTAGGAT TGATTTATTG 
    GCTCAGCCTC GAAGAACAAG ACTTGGCTCA TTATCCGCCC GTAGTGACTC TGAAGCAACA 
    ATTTCAAGAA GCAGCGCATC TGCACGCACT GCAGAAGCTG TCATTAGGAG CGGAGCCAGA 
    CTAGTGCCAT CAGATAAACT TTCTCCTAGA ACTAGAGCTA ACAGTATCTC TCGGCTCTCC 
    GATTCCAAGG TCAAGAGCAT GAGCTCCACT CACGGCTCTC CTTCAGTAAA TTCAAGATGG 
    AGGCGCTTTC CTACTGATTA TGCTTCCACC TCAGAAGATG AATTTGGATC AAACCGTAAT 
    TCCCCTAAAC ATACTCGTCT ACGTACTTCT CCAGCCCTGA AAACCACTCG CATGCAGAGT 
    ACTGGATCAG CAATGCCTGC TAGTTCTTCA TTCAAGCACC GAATTAAAGA ACAGGAAGAC 
    TATATCCGAG ATTGGACTGC CCATCGAGAA GAGATAGCCA GGATCAGCCA AGATCTTGCT 
    CTCATTGCTC GGGAGATCAA CGACGTAGCA GGAGAAATAG ATTCAGTGAC TTCCTCAGGC 
    ACTGCCCCGA GTACCACAGT AAGCACTGCC GCCACCACCC CTGGCTCTGC CATAGACACT 
    AGAGAAGAGT TGGTTGATCG TGTTTTTGAT GAAAGTCTCA ACTTCAGAAA GATACCTCCA 
    TTAGTTCATT CTAAAACACC AGAAGGAAAC AACGGTCGGT CTGTTGACTC GAGGCCTCAG 
    CCAGCCGAGC ATCCTGATCA CTTAACAATT ACAAGACGGA GAACCTGGAG TAGGGATGAA 
    GTCATGGGAG ATAATCTGCT ATTGTCATCA GTCTTTCAGT TCTCTAGGAA GATTAGACAA 
    TCCATCGATA AAACAGCTGG GAAAATCAGA ATATTGTTTA AAGACAAAGA CCGGAACTGG 
    GATGACATAG AAAACAAGCT AAGAGCTGAA AGCGAAGTCC CTATCGTTAA AACTTCAAGC 
    ATGGAGATTT CTTCTATTTT ACAGGAGCTT AAAAGAGTTG AAAAACAGTT GCAAGTGATA 
    AATGCCATGA TTGACCCAGA TGGAACTTTG GAGGCTCTTA ACAACATGGG ATTTCCCAAT 
    GCTATCCTGC CATCCCCACC AAAACAGAAG TCCAGCCCTG TTAATAACCA CAGCAGCCCT 
    AGTCAGACGC CAGCACTTTG CCCACCAGAA ACTAGAGCCC TACACCCTGC TGCTGCGGGA 
    GCGGCGGCAG CAGCCTCCAC TGAGTTTGAG AATGCTGAAT CTGAGGCTGA TTTCAGTATC 
    CATTTCAATA GGTTCAACCC TGATGGGGAA GAGGAGGATG TTACAGTACA TGAATGA

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

    Cep170 ( XM_021160690.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021016349.1 Mus caroli centrosomal protein 170 (Cep170), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OMv23061
    Clone ID Related Accession (Same CDS sequence) XM_021160690.1 , XM_021160690.2
    Accession Version XM_021160690.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4686bp)
    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 centrosomal protein of 170 kDa isoform X3
    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGACGACTGT GAGCTCATGC TTCAGTCCCG AAGTGTGGAT 
    AAACAACATG CTGTAATCAA TTATGATGCA TCTATGGATG AACATTTGGT GAAAGATTTA 
    GGCAGCCTAA ATGGGACTTT TGTGAATGAT GTAAGGATAC CAGAGCAGAC GTACATCACT 
    TTGAAGCTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTCTTCAC TGTAGTACGA 
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCACGAGA AGTTTACCAT TCAGCTTCAA 
    TTGTCCCAGA AGTCTTCAGA ATCAGAATTA CCAAAATCAG CAAGTGCCAA AGGCACGGAC 
    TCAAAAGTGG AGGCTGCTGC AGAAGTGCAG CCCAGAGCCA CAGAAGCACT AAAATCTGAA 
    GAGAAACCCG TGGATGTCTC TGCTATGCCC CGAGGCACTC CATTATATGG GCAGCCGTCC 
    TGGTGGGGAG ACGAAGAGGA GGATGAACAA AGAGCTTTCA AGGCCAATGG CAAGCCTGAG 
    GGAAAAAGTC AGGAACCTGG GGCTTCAGGG TGCAGCATAG ATGCCAAGCA TGTGGAGGAA 
    CAGTCTGCAG CTGCAAGTGA AGAAGCACTT TTTCCATTCT GTAGGGAGCC AAGTTATTTT 
    GAAATTCCTA CAAAAGAATT CCAGCAGCCA TCACAAATAG CAGAGAGCAC TATTCATGAG 
    ATTCCAACAA AAGACACACC AAGTTCCCAT ACAGCAGGTG CAGGGCATGC TTCATTTACC 
    ATTGAATTTG ATGACAGTAC GCCAGGAAAA GTAACTATTA GAGACCATGT GACAAAATTC 
    ACTTCTGACC AGCGCCACAA GTCAAAGAAG GCCTCTCCAG GAACTCAAGA CTTGCCAGGA 
    ATTCAGACAG GAATGATGGC ACCAGAAAAT AAAGTAGCTG ACTGGCTAGC CCAAAACAAC 
    CCTCCTCAAA TGGTGTGGGA AAGAACAGAG GAGGATTCCA AGAGCATTAA AAGTGATGTT 
    CCTGTGTACT TGAAAAGGTT GAAAGGAAAC AAACATGATG ATGGTACACA GAGTGATTCA 
    GAGAATGCTG GGGCGCACAG GCGCTGTAGC AAGCGTGCAA CTCTGGAGGA ACATTTACGC 
    CGCCATCACT CAGAGCAGAA AAAGAAGGCC CAGTCCACCG AAAAGCATCA AGAACAGGCT 
    GCTACTAGCT CTACGCATCA CAGAGGGGGG CATGGTGTTC CACATGGGAA ATTGTTAAAA 
    CAGAAATCAG AGGAGCCATC GGTGTCAATA CCCTTCCTAC AAACTGCATT ATTAAGAAGT 
    TCAGGGAGTC TTGGGCACAG ACCAAGCCAG GAGATGGATG TAATGTTAAA AAATCAAGCT 
    ACTTCTGCCT CTTCAGAAAA GGATAATGAT GATGACCAAA GTGACAAGGG TACTTATACC 
    ATTGAGTTAG AGAATCCCAA CAGTGAGGAG GTGGAAGCAA GAAAAATGAT TGACAAGGTA 
    TTTGGAGTAG ATGACAATCA GGATTATAAT AGGCCTATTA TCAATGAAAA GCATAAAGGT 
    CTCATAAAAG ACTGGGCTCT CAACTCTGCT GCAGTAGTAA TGGAAGACAG AAAGCCATTG 
    AGCACACCTG GGTTTCATAA CTCAGAGGAA GCCATATCTT CATCTGGAAG CAAACGTTGG 
    GTTTCACAAT GGGCTAGTTT GGCTGCTAAT CATACAAGGC ATGATCCAGA AGAAAGGTTA 
    ATGGAATTGT CTGCAACTGT AGAAAACGAG ACAGATACTG GTGAAGCTGG TGTTTCCCTA 
    AGAAGTACTA GTTGTACAAC TTCCTTGGCT AGTCAGGGAG AGAGGAAGAG GCGAACTCTT 
    CCCCAGCTCC CAAATGAAGA GAAGCTACTC GAGAGCTCCA GAGTGAAGGT CGTTCCACAG 
    AGGTCAGAGA TAGGAGAAAA GCAAGACACG GAACTGCAGG AAAAAGAAGC CCAGGTATAC 
    CAAAGCGAGA AGCACGATGC AGACCGAGGC CTAAGTAAAA TGAGCAGGGC AGTCAATGGT 
    GAGAGTCTTA AAACTGGTGG AGATGGTAAA GCCCTCCTTC ACTCAGGAAA CTCATCTAGC 
    AAGGAGAAGA GTGAGACAGA AAAGGAAACT TCTTTGGTAA AACAAACATT GGCTAAAATC 
    CAGCAGCAAG AGCAAAAGGA GCAGGCCCAG TGGACTCCTA CTAAGTTTCC TTCAAAAAAT 
    GCTTTAGGCC ATATAGATAA ATGTAGGGAG GAATCTTCTA AGCAAGAGTC CCAACTCTTA 
    GAAAAAGTTT CAGGACATTC TACAAGCAAA GGAGACAGAG TAATACAAAA TGAAAGCAAG 
    AGAAGGAAAG CTGAGGAAAT TCCAAAATGC CAGGCTTCAA AAGGAGACAA GAAAGAGTCT 
    TCCAAATCAT TAGTGCGCCA AGGGAGTTTC ACCATAGACA AGCCCAGTTC AAACATCCCC 
    ATAGAACTTA TCCCCCATAT CAATAAGCAG AATTCATCTG TACCCACTGC CTTAGCACTG 
    ACATCTGCAA GTAGACTTCG AGAAAGGAGT GACTCTTTGG ATACTGATTC TAGCATGGAC 
    ACAACCTTGA TTTTAAAAGA CACAGAAGCA GTGATGGCTT TTCTAGAAGC TAAACTGCGT 
    GAAGATAATA ATAAAACTGA TGAAGGCCCA GATACTCCCA GTTACAATAG AGACAATTCA 
    ATTTCACCAG AATCTGATGT AGACACAGCC AGTACAATTA GTCTGGTGAC TGGAGAGACA 
    GAAAGAAAGT CCACCCAAAA GCGGAAGAGT TTCACTAGTC TCTATAAAGA CAGGTGTTCC 
    ACGAGTTCCC CATCCAAAGA TGTTACAAAG TCAAGCAGTA GGGAGAAAAT TGAAAAGAAA 
    GCAAAAAGCC GCTCTACAGA TATAGGTGCA AGAGCAGATG GTCGCAAATT TGTACAGTCC 
    AGTGGAAGAA TCCGGCAGCC TTCCATAGAC TTAACAGATG ATGACCAGAC CTCTAGTGTA 
    CCTCATTCTG CTATTTCTGA CATTATGTCA TCTGACCAGG AAACATACTC CTGCAAATCT 
    CATGGACGGA CTCCACTTAC CTCAGCCGAT GAACACAACA TACATTCCAA ACTGGAAGGA 
    AGCAAAGCAA CAAAGTCTAA GACTTCTCCT GTTGCCTCTG GTTCAACAAG TAAATCCACT 
    ACTCTCCCAA GGCCACGGCC CACCCGGACG TCCCTCCTGC GTAGAGCCCG GCTGGGTGAA 
    GCTTCTGACA GTGAACTTGC TGATGCTGAC AAAGCATCCG TTGCTTCTGA AGTGTCCACT 
    ACAAGTTCCA CATCAAAACC ACCCACAGGA AGGCGAACCA TCTCTAGGAT TGATTTATTG 
    GCTCAGCCTC GAAGAACAAG ACTTGGCTCA TTATCCGCCC GTAGTGACTC TGAAGCAACA 
    ATTTCAAGAA GCAGCGCATC TGCACGCACT GCAGAAGCTG TCATTAGGAG CGGAGCCAGA 
    CTAGTGCCAT CAGATAAACT TTCTCCTAGA ACTAGAGCTA ACAGTATCTC TCGGCTCTCC 
    GATTCCAAGG TCAAGAGCAT GAGCTCCACT CACGGCTCTC CTTCAGTAAA TTCAAGATGG 
    AGGCGCTTTC CTACTGATTA TGCTTCCACC TCAGAAGATG AATTTGGATC AAACCGTAAT 
    TCCCCTAAAC ATACTCGTCT ACGTACTTCT CCAGCCCTGA AAACCACTCG CATGCAGAGT 
    ACTGGATCAG CAATGCCTGC TAGTTCTTCA TTCAAGCACC GAATTAAAGA ACAGGAAGAC 
    TATATCCGAG ATTGGACTGC CCATCGAGAA GAGATAGCCA GGATCAGCCA AGATCTTGCT 
    CTCATTGCTC GGGAGATCAA CGACGTAGCA GGAGAAATAG ATTCAGTGAC TTCCTCAGGC 
    ACTGCCCCGA GTACCACATT GGTTGATCGT GTTTTTGATG AAAGTCTCAA CTTCAGAAAG 
    ATACCTCCAT TAGTTCATTC TAAAACACCA GAAGGAAACA ACGGTCGGTC TGTTGACTCG 
    AGGCCTCAGC CAGCCGAGCA TCCTGATCAC TTAACAATTA CAAGACGGAG AACCTGGAGT 
    AGGGATGAAG TCATGGGAGA TAATCTGCTA TTGTCATCAG TCTTTCAGTT CTCTAGGAAG 
    ATTAGACAAT CCATCGATAA AACAGCTGGG AAAATCAGAA TATTGTTTAA AGACAAAGAC 
    CGGAACTGGG ATGACATAGA AAACAAGCTA AGAGCTGAAA GCGAAGTCCC TATCGTTAAA 
    ACTTCAAGCA TGGAGATTTC TTCTATTTTA CAGGAGCTTA AAAGAGTTGA AAAACAGTTG 
    CAAGTGATAA ATGCCATGAT TGACCCAGAT GGAACTTTGG AGGCTCTTAA CAACATGGGA 
    TTTCCCAATG CTATCCTGCC ATCCCCACCA AAACAGAAGT CCAGCCCTGT TAATAACCAC 
    AGCAGCCCTA GTCAGACGCC AGCACTTTGC CCACCAGAAA CTAGAGCCCT ACACCCTGCT 
    GCTGCGGGAG CGGCGGCAGC AGCCTCCACT GAGTTTGAGA ATGCTGAATC TGAGGCTGAT 
    TTCAGTATCC ATTTCAATAG GTTCAACCCT GATGGGGAAG AGGAGGATGT TACAGTACAT 
    GAATGA

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

    RefSeq XP_021016349.1
    CDS221..4906
    Translation

    Target ORF information:

    RefSeq Version XM_021160690.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli centrosomal protein 170 (Cep170), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021160690.1

    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGACGACTGT GAGCTCATGC TTCAGTCCCG AAGTGTGGAT 
    AAACAACATG CTGTAATCAA TTATGATGCA TCTATGGATG AACATTTGGT GAAAGATTTA 
    GGCAGCCTAA ATGGGACTTT TGTGAATGAT GTAAGGATAC CAGAGCAGAC GTACATCACT 
    TTGAAGCTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTCTTCAC TGTAGTACGA 
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCACGAGA AGTTTACCAT TCAGCTTCAA 
    TTGTCCCAGA AGTCTTCAGA ATCAGAATTA CCAAAATCAG CAAGTGCCAA AGGCACGGAC 
    TCAAAAGTGG AGGCTGCTGC AGAAGTGCAG CCCAGAGCCA CAGAAGCACT AAAATCTGAA 
    GAGAAACCCG TGGATGTCTC TGCTATGCCC CGAGGCACTC CATTATATGG GCAGCCGTCC 
    TGGTGGGGAG ACGAAGAGGA GGATGAACAA AGAGCTTTCA AGGCCAATGG CAAGCCTGAG 
    GGAAAAAGTC AGGAACCTGG GGCTTCAGGG TGCAGCATAG ATGCCAAGCA TGTGGAGGAA 
    CAGTCTGCAG CTGCAAGTGA AGAAGCACTT TTTCCATTCT GTAGGGAGCC AAGTTATTTT 
    GAAATTCCTA CAAAAGAATT CCAGCAGCCA TCACAAATAG CAGAGAGCAC TATTCATGAG 
    ATTCCAACAA AAGACACACC AAGTTCCCAT ACAGCAGGTG CAGGGCATGC TTCATTTACC 
    ATTGAATTTG ATGACAGTAC GCCAGGAAAA GTAACTATTA GAGACCATGT GACAAAATTC 
    ACTTCTGACC AGCGCCACAA GTCAAAGAAG GCCTCTCCAG GAACTCAAGA CTTGCCAGGA 
    ATTCAGACAG GAATGATGGC ACCAGAAAAT AAAGTAGCTG ACTGGCTAGC CCAAAACAAC 
    CCTCCTCAAA TGGTGTGGGA AAGAACAGAG GAGGATTCCA AGAGCATTAA AAGTGATGTT 
    CCTGTGTACT TGAAAAGGTT GAAAGGAAAC AAACATGATG ATGGTACACA GAGTGATTCA 
    GAGAATGCTG GGGCGCACAG GCGCTGTAGC AAGCGTGCAA CTCTGGAGGA ACATTTACGC 
    CGCCATCACT CAGAGCAGAA AAAGAAGGCC CAGTCCACCG AAAAGCATCA AGAACAGGCT 
    GCTACTAGCT CTACGCATCA CAGAGGGGGG CATGGTGTTC CACATGGGAA ATTGTTAAAA 
    CAGAAATCAG AGGAGCCATC GGTGTCAATA CCCTTCCTAC AAACTGCATT ATTAAGAAGT 
    TCAGGGAGTC TTGGGCACAG ACCAAGCCAG GAGATGGATG TAATGTTAAA AAATCAAGCT 
    ACTTCTGCCT CTTCAGAAAA GGATAATGAT GATGACCAAA GTGACAAGGG TACTTATACC 
    ATTGAGTTAG AGAATCCCAA CAGTGAGGAG GTGGAAGCAA GAAAAATGAT TGACAAGGTA 
    TTTGGAGTAG ATGACAATCA GGATTATAAT AGGCCTATTA TCAATGAAAA GCATAAAGGT 
    CTCATAAAAG ACTGGGCTCT CAACTCTGCT GCAGTAGTAA TGGAAGACAG AAAGCCATTG 
    AGCACACCTG GGTTTCATAA CTCAGAGGAA GCCATATCTT CATCTGGAAG CAAACGTTGG 
    GTTTCACAAT GGGCTAGTTT GGCTGCTAAT CATACAAGGC ATGATCCAGA AGAAAGGTTA 
    ATGGAATTGT CTGCAACTGT AGAAAACGAG ACAGATACTG GTGAAGCTGG TGTTTCCCTA 
    AGAAGTACTA GTTGTACAAC TTCCTTGGCT AGTCAGGGAG AGAGGAAGAG GCGAACTCTT 
    CCCCAGCTCC CAAATGAAGA GAAGCTACTC GAGAGCTCCA GAGTGAAGGT CGTTCCACAG 
    AGGTCAGAGA TAGGAGAAAA GCAAGACACG GAACTGCAGG AAAAAGAAGC CCAGGTATAC 
    CAAAGCGAGA AGCACGATGC AGACCGAGGC CTAAGTAAAA TGAGCAGGGC AGTCAATGGT 
    GAGAGTCTTA AAACTGGTGG AGATGGTAAA GCCCTCCTTC ACTCAGGAAA CTCATCTAGC 
    AAGGAGAAGA GTGAGACAGA AAAGGAAACT TCTTTGGTAA AACAAACATT GGCTAAAATC 
    CAGCAGCAAG AGCAAAAGGA GCAGGCCCAG TGGACTCCTA CTAAGTTTCC TTCAAAAAAT 
    GCTTTAGGCC ATATAGATAA ATGTAGGGAG GAATCTTCTA AGCAAGAGTC CCAACTCTTA 
    GAAAAAGTTT CAGGACATTC TACAAGCAAA GGAGACAGAG TAATACAAAA TGAAAGCAAG 
    AGAAGGAAAG CTGAGGAAAT TCCAAAATGC CAGGCTTCAA AAGGAGACAA GAAAGAGTCT 
    TCCAAATCAT TAGTGCGCCA AGGGAGTTTC ACCATAGACA AGCCCAGTTC AAACATCCCC 
    ATAGAACTTA TCCCCCATAT CAATAAGCAG AATTCATCTG TACCCACTGC CTTAGCACTG 
    ACATCTGCAA GTAGACTTCG AGAAAGGAGT GACTCTTTGG ATACTGATTC TAGCATGGAC 
    ACAACCTTGA TTTTAAAAGA CACAGAAGCA GTGATGGCTT TTCTAGAAGC TAAACTGCGT 
    GAAGATAATA ATAAAACTGA TGAAGGCCCA GATACTCCCA GTTACAATAG AGACAATTCA 
    ATTTCACCAG AATCTGATGT AGACACAGCC AGTACAATTA GTCTGGTGAC TGGAGAGACA 
    GAAAGAAAGT CCACCCAAAA GCGGAAGAGT TTCACTAGTC TCTATAAAGA CAGGTGTTCC 
    ACGAGTTCCC CATCCAAAGA TGTTACAAAG TCAAGCAGTA GGGAGAAAAT TGAAAAGAAA 
    GCAAAAAGCC GCTCTACAGA TATAGGTGCA AGAGCAGATG GTCGCAAATT TGTACAGTCC 
    AGTGGAAGAA TCCGGCAGCC TTCCATAGAC TTAACAGATG ATGACCAGAC CTCTAGTGTA 
    CCTCATTCTG CTATTTCTGA CATTATGTCA TCTGACCAGG AAACATACTC CTGCAAATCT 
    CATGGACGGA CTCCACTTAC CTCAGCCGAT GAACACAACA TACATTCCAA ACTGGAAGGA 
    AGCAAAGCAA CAAAGTCTAA GACTTCTCCT GTTGCCTCTG GTTCAACAAG TAAATCCACT 
    ACTCTCCCAA GGCCACGGCC CACCCGGACG TCCCTCCTGC GTAGAGCCCG GCTGGGTGAA 
    GCTTCTGACA GTGAACTTGC TGATGCTGAC AAAGCATCCG TTGCTTCTGA AGTGTCCACT 
    ACAAGTTCCA CATCAAAACC ACCCACAGGA AGGCGAACCA TCTCTAGGAT TGATTTATTG 
    GCTCAGCCTC GAAGAACAAG ACTTGGCTCA TTATCCGCCC GTAGTGACTC TGAAGCAACA 
    ATTTCAAGAA GCAGCGCATC TGCACGCACT GCAGAAGCTG TCATTAGGAG CGGAGCCAGA 
    CTAGTGCCAT CAGATAAACT TTCTCCTAGA ACTAGAGCTA ACAGTATCTC TCGGCTCTCC 
    GATTCCAAGG TCAAGAGCAT GAGCTCCACT CACGGCTCTC CTTCAGTAAA TTCAAGATGG 
    AGGCGCTTTC CTACTGATTA TGCTTCCACC TCAGAAGATG AATTTGGATC AAACCGTAAT 
    TCCCCTAAAC ATACTCGTCT ACGTACTTCT CCAGCCCTGA AAACCACTCG CATGCAGAGT 
    ACTGGATCAG CAATGCCTGC TAGTTCTTCA TTCAAGCACC GAATTAAAGA ACAGGAAGAC 
    TATATCCGAG ATTGGACTGC CCATCGAGAA GAGATAGCCA GGATCAGCCA AGATCTTGCT 
    CTCATTGCTC GGGAGATCAA CGACGTAGCA GGAGAAATAG ATTCAGTGAC TTCCTCAGGC 
    ACTGCCCCGA GTACCACATT GGTTGATCGT GTTTTTGATG AAAGTCTCAA CTTCAGAAAG 
    ATACCTCCAT TAGTTCATTC TAAAACACCA GAAGGAAACA ACGGTCGGTC TGTTGACTCG 
    AGGCCTCAGC CAGCCGAGCA TCCTGATCAC TTAACAATTA CAAGACGGAG AACCTGGAGT 
    AGGGATGAAG TCATGGGAGA TAATCTGCTA TTGTCATCAG TCTTTCAGTT CTCTAGGAAG 
    ATTAGACAAT CCATCGATAA AACAGCTGGG AAAATCAGAA TATTGTTTAA AGACAAAGAC 
    CGGAACTGGG ATGACATAGA AAACAAGCTA AGAGCTGAAA GCGAAGTCCC TATCGTTAAA 
    ACTTCAAGCA TGGAGATTTC TTCTATTTTA CAGGAGCTTA AAAGAGTTGA AAAACAGTTG 
    CAAGTGATAA ATGCCATGAT TGACCCAGAT GGAACTTTGG AGGCTCTTAA CAACATGGGA 
    TTTCCCAATG CTATCCTGCC ATCCCCACCA AAACAGAAGT CCAGCCCTGT TAATAACCAC 
    AGCAGCCCTA GTCAGACGCC AGCACTTTGC CCACCAGAAA CTAGAGCCCT ACACCCTGCT 
    GCTGCGGGAG CGGCGGCAGC AGCCTCCACT GAGTTTGAGA ATGCTGAATC TGAGGCTGAT 
    TTCAGTATCC ATTTCAATAG GTTCAACCCT GATGGGGAAG AGGAGGATGT TACAGTACAT 
    GAATGA

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

    Cep170 ( XM_021160690.2 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021016349.1 Mus caroli centrosomal protein 170 (Cep170), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OMv23061
    Clone ID Related Accession (Same CDS sequence) XM_021160690.1 , XM_021160690.2
    Accession Version XM_021160690.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4686bp)
    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 centrosomal protein of 170 kDa isoform X3
    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_021160690.1. ##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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGACGACTGT GAGCTCATGC TTCAGTCCCG AAGTGTGGAT 
    AAACAACATG CTGTAATCAA TTATGATGCA TCTATGGATG AACATTTGGT GAAAGATTTA 
    GGCAGCCTAA ATGGGACTTT TGTGAATGAT GTAAGGATAC CAGAGCAGAC GTACATCACT 
    TTGAAGCTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTCTTCAC TGTAGTACGA 
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCACGAGA AGTTTACCAT TCAGCTTCAA 
    TTGTCCCAGA AGTCTTCAGA ATCAGAATTA CCAAAATCAG CAAGTGCCAA AGGCACGGAC 
    TCAAAAGTGG AGGCTGCTGC AGAAGTGCAG CCCAGAGCCA CAGAAGCACT AAAATCTGAA 
    GAGAAACCCG TGGATGTCTC TGCTATGCCC CGAGGCACTC CATTATATGG GCAGCCGTCC 
    TGGTGGGGAG ACGAAGAGGA GGATGAACAA AGAGCTTTCA AGGCCAATGG CAAGCCTGAG 
    GGAAAAAGTC AGGAACCTGG GGCTTCAGGG TGCAGCATAG ATGCCAAGCA TGTGGAGGAA 
    CAGTCTGCAG CTGCAAGTGA AGAAGCACTT TTTCCATTCT GTAGGGAGCC AAGTTATTTT 
    GAAATTCCTA CAAAAGAATT CCAGCAGCCA TCACAAATAG CAGAGAGCAC TATTCATGAG 
    ATTCCAACAA AAGACACACC AAGTTCCCAT ACAGCAGGTG CAGGGCATGC TTCATTTACC 
    ATTGAATTTG ATGACAGTAC GCCAGGAAAA GTAACTATTA GAGACCATGT GACAAAATTC 
    ACTTCTGACC AGCGCCACAA GTCAAAGAAG GCCTCTCCAG GAACTCAAGA CTTGCCAGGA 
    ATTCAGACAG GAATGATGGC ACCAGAAAAT AAAGTAGCTG ACTGGCTAGC CCAAAACAAC 
    CCTCCTCAAA TGGTGTGGGA AAGAACAGAG GAGGATTCCA AGAGCATTAA AAGTGATGTT 
    CCTGTGTACT TGAAAAGGTT GAAAGGAAAC AAACATGATG ATGGTACACA GAGTGATTCA 
    GAGAATGCTG GGGCGCACAG GCGCTGTAGC AAGCGTGCAA CTCTGGAGGA ACATTTACGC 
    CGCCATCACT CAGAGCAGAA AAAGAAGGCC CAGTCCACCG AAAAGCATCA AGAACAGGCT 
    GCTACTAGCT CTACGCATCA CAGAGGGGGG CATGGTGTTC CACATGGGAA ATTGTTAAAA 
    CAGAAATCAG AGGAGCCATC GGTGTCAATA CCCTTCCTAC AAACTGCATT ATTAAGAAGT 
    TCAGGGAGTC TTGGGCACAG ACCAAGCCAG GAGATGGATG TAATGTTAAA AAATCAAGCT 
    ACTTCTGCCT CTTCAGAAAA GGATAATGAT GATGACCAAA GTGACAAGGG TACTTATACC 
    ATTGAGTTAG AGAATCCCAA CAGTGAGGAG GTGGAAGCAA GAAAAATGAT TGACAAGGTA 
    TTTGGAGTAG ATGACAATCA GGATTATAAT AGGCCTATTA TCAATGAAAA GCATAAAGGT 
    CTCATAAAAG ACTGGGCTCT CAACTCTGCT GCAGTAGTAA TGGAAGACAG AAAGCCATTG 
    AGCACACCTG GGTTTCATAA CTCAGAGGAA GCCATATCTT CATCTGGAAG CAAACGTTGG 
    GTTTCACAAT GGGCTAGTTT GGCTGCTAAT CATACAAGGC ATGATCCAGA AGAAAGGTTA 
    ATGGAATTGT CTGCAACTGT AGAAAACGAG ACAGATACTG GTGAAGCTGG TGTTTCCCTA 
    AGAAGTACTA GTTGTACAAC TTCCTTGGCT AGTCAGGGAG AGAGGAAGAG GCGAACTCTT 
    CCCCAGCTCC CAAATGAAGA GAAGCTACTC GAGAGCTCCA GAGTGAAGGT CGTTCCACAG 
    AGGTCAGAGA TAGGAGAAAA GCAAGACACG GAACTGCAGG AAAAAGAAGC CCAGGTATAC 
    CAAAGCGAGA AGCACGATGC AGACCGAGGC CTAAGTAAAA TGAGCAGGGC AGTCAATGGT 
    GAGAGTCTTA AAACTGGTGG AGATGGTAAA GCCCTCCTTC ACTCAGGAAA CTCATCTAGC 
    AAGGAGAAGA GTGAGACAGA AAAGGAAACT TCTTTGGTAA AACAAACATT GGCTAAAATC 
    CAGCAGCAAG AGCAAAAGGA GCAGGCCCAG TGGACTCCTA CTAAGTTTCC TTCAAAAAAT 
    GCTTTAGGCC ATATAGATAA ATGTAGGGAG GAATCTTCTA AGCAAGAGTC CCAACTCTTA 
    GAAAAAGTTT CAGGACATTC TACAAGCAAA GGAGACAGAG TAATACAAAA TGAAAGCAAG 
    AGAAGGAAAG CTGAGGAAAT TCCAAAATGC CAGGCTTCAA AAGGAGACAA GAAAGAGTCT 
    TCCAAATCAT TAGTGCGCCA AGGGAGTTTC ACCATAGACA AGCCCAGTTC AAACATCCCC 
    ATAGAACTTA TCCCCCATAT CAATAAGCAG AATTCATCTG TACCCACTGC CTTAGCACTG 
    ACATCTGCAA GTAGACTTCG AGAAAGGAGT GACTCTTTGG ATACTGATTC TAGCATGGAC 
    ACAACCTTGA TTTTAAAAGA CACAGAAGCA GTGATGGCTT TTCTAGAAGC TAAACTGCGT 
    GAAGATAATA ATAAAACTGA TGAAGGCCCA GATACTCCCA GTTACAATAG AGACAATTCA 
    ATTTCACCAG AATCTGATGT AGACACAGCC AGTACAATTA GTCTGGTGAC TGGAGAGACA 
    GAAAGAAAGT CCACCCAAAA GCGGAAGAGT TTCACTAGTC TCTATAAAGA CAGGTGTTCC 
    ACGAGTTCCC CATCCAAAGA TGTTACAAAG TCAAGCAGTA GGGAGAAAAT TGAAAAGAAA 
    GCAAAAAGCC GCTCTACAGA TATAGGTGCA AGAGCAGATG GTCGCAAATT TGTACAGTCC 
    AGTGGAAGAA TCCGGCAGCC TTCCATAGAC TTAACAGATG ATGACCAGAC CTCTAGTGTA 
    CCTCATTCTG CTATTTCTGA CATTATGTCA TCTGACCAGG AAACATACTC CTGCAAATCT 
    CATGGACGGA CTCCACTTAC CTCAGCCGAT GAACACAACA TACATTCCAA ACTGGAAGGA 
    AGCAAAGCAA CAAAGTCTAA GACTTCTCCT GTTGCCTCTG GTTCAACAAG TAAATCCACT 
    ACTCTCCCAA GGCCACGGCC CACCCGGACG TCCCTCCTGC GTAGAGCCCG GCTGGGTGAA 
    GCTTCTGACA GTGAACTTGC TGATGCTGAC AAAGCATCCG TTGCTTCTGA AGTGTCCACT 
    ACAAGTTCCA CATCAAAACC ACCCACAGGA AGGCGAACCA TCTCTAGGAT TGATTTATTG 
    GCTCAGCCTC GAAGAACAAG ACTTGGCTCA TTATCCGCCC GTAGTGACTC TGAAGCAACA 
    ATTTCAAGAA GCAGCGCATC TGCACGCACT GCAGAAGCTG TCATTAGGAG CGGAGCCAGA 
    CTAGTGCCAT CAGATAAACT TTCTCCTAGA ACTAGAGCTA ACAGTATCTC TCGGCTCTCC 
    GATTCCAAGG TCAAGAGCAT GAGCTCCACT CACGGCTCTC CTTCAGTAAA TTCAAGATGG 
    AGGCGCTTTC CTACTGATTA TGCTTCCACC TCAGAAGATG AATTTGGATC AAACCGTAAT 
    TCCCCTAAAC ATACTCGTCT ACGTACTTCT CCAGCCCTGA AAACCACTCG CATGCAGAGT 
    ACTGGATCAG CAATGCCTGC TAGTTCTTCA TTCAAGCACC GAATTAAAGA ACAGGAAGAC 
    TATATCCGAG ATTGGACTGC CCATCGAGAA GAGATAGCCA GGATCAGCCA AGATCTTGCT 
    CTCATTGCTC GGGAGATCAA CGACGTAGCA GGAGAAATAG ATTCAGTGAC TTCCTCAGGC 
    ACTGCCCCGA GTACCACATT GGTTGATCGT GTTTTTGATG AAAGTCTCAA CTTCAGAAAG 
    ATACCTCCAT TAGTTCATTC TAAAACACCA GAAGGAAACA ACGGTCGGTC TGTTGACTCG 
    AGGCCTCAGC CAGCCGAGCA TCCTGATCAC TTAACAATTA CAAGACGGAG AACCTGGAGT 
    AGGGATGAAG TCATGGGAGA TAATCTGCTA TTGTCATCAG TCTTTCAGTT CTCTAGGAAG 
    ATTAGACAAT CCATCGATAA AACAGCTGGG AAAATCAGAA TATTGTTTAA AGACAAAGAC 
    CGGAACTGGG ATGACATAGA AAACAAGCTA AGAGCTGAAA GCGAAGTCCC TATCGTTAAA 
    ACTTCAAGCA TGGAGATTTC TTCTATTTTA CAGGAGCTTA AAAGAGTTGA AAAACAGTTG 
    CAAGTGATAA ATGCCATGAT TGACCCAGAT GGAACTTTGG AGGCTCTTAA CAACATGGGA 
    TTTCCCAATG CTATCCTGCC ATCCCCACCA AAACAGAAGT CCAGCCCTGT TAATAACCAC 
    AGCAGCCCTA GTCAGACGCC AGCACTTTGC CCACCAGAAA CTAGAGCCCT ACACCCTGCT 
    GCTGCGGGAG CGGCGGCAGC AGCCTCCACT GAGTTTGAGA ATGCTGAATC TGAGGCTGAT 
    TTCAGTATCC ATTTCAATAG GTTCAACCCT GATGGGGAAG AGGAGGATGT TACAGTACAT 
    GAATGA

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

    RefSeq XP_021016349.1
    CDS607..5292
    Translation

    Target ORF information:

    RefSeq Version XM_021160690.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli centrosomal protein 170 (Cep170), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021160690.2

    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGACGACTGT GAGCTCATGC TTCAGTCCCG AAGTGTGGAT 
    AAACAACATG CTGTAATCAA TTATGATGCA TCTATGGATG AACATTTGGT GAAAGATTTA 
    GGCAGCCTAA ATGGGACTTT TGTGAATGAT GTAAGGATAC CAGAGCAGAC GTACATCACT 
    TTGAAGCTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTCTTCAC TGTAGTACGA 
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCACGAGA AGTTTACCAT TCAGCTTCAA 
    TTGTCCCAGA AGTCTTCAGA ATCAGAATTA CCAAAATCAG CAAGTGCCAA AGGCACGGAC 
    TCAAAAGTGG AGGCTGCTGC AGAAGTGCAG CCCAGAGCCA CAGAAGCACT AAAATCTGAA 
    GAGAAACCCG TGGATGTCTC TGCTATGCCC CGAGGCACTC CATTATATGG GCAGCCGTCC 
    TGGTGGGGAG ACGAAGAGGA GGATGAACAA AGAGCTTTCA AGGCCAATGG CAAGCCTGAG 
    GGAAAAAGTC AGGAACCTGG GGCTTCAGGG TGCAGCATAG ATGCCAAGCA TGTGGAGGAA 
    CAGTCTGCAG CTGCAAGTGA AGAAGCACTT TTTCCATTCT GTAGGGAGCC AAGTTATTTT 
    GAAATTCCTA CAAAAGAATT CCAGCAGCCA TCACAAATAG CAGAGAGCAC TATTCATGAG 
    ATTCCAACAA AAGACACACC AAGTTCCCAT ACAGCAGGTG CAGGGCATGC TTCATTTACC 
    ATTGAATTTG ATGACAGTAC GCCAGGAAAA GTAACTATTA GAGACCATGT GACAAAATTC 
    ACTTCTGACC AGCGCCACAA GTCAAAGAAG GCCTCTCCAG GAACTCAAGA CTTGCCAGGA 
    ATTCAGACAG GAATGATGGC ACCAGAAAAT AAAGTAGCTG ACTGGCTAGC CCAAAACAAC 
    CCTCCTCAAA TGGTGTGGGA AAGAACAGAG GAGGATTCCA AGAGCATTAA AAGTGATGTT 
    CCTGTGTACT TGAAAAGGTT GAAAGGAAAC AAACATGATG ATGGTACACA GAGTGATTCA 
    GAGAATGCTG GGGCGCACAG GCGCTGTAGC AAGCGTGCAA CTCTGGAGGA ACATTTACGC 
    CGCCATCACT CAGAGCAGAA AAAGAAGGCC CAGTCCACCG AAAAGCATCA AGAACAGGCT 
    GCTACTAGCT CTACGCATCA CAGAGGGGGG CATGGTGTTC CACATGGGAA ATTGTTAAAA 
    CAGAAATCAG AGGAGCCATC GGTGTCAATA CCCTTCCTAC AAACTGCATT ATTAAGAAGT 
    TCAGGGAGTC TTGGGCACAG ACCAAGCCAG GAGATGGATG TAATGTTAAA AAATCAAGCT 
    ACTTCTGCCT CTTCAGAAAA GGATAATGAT GATGACCAAA GTGACAAGGG TACTTATACC 
    ATTGAGTTAG AGAATCCCAA CAGTGAGGAG GTGGAAGCAA GAAAAATGAT TGACAAGGTA 
    TTTGGAGTAG ATGACAATCA GGATTATAAT AGGCCTATTA TCAATGAAAA GCATAAAGGT 
    CTCATAAAAG ACTGGGCTCT CAACTCTGCT GCAGTAGTAA TGGAAGACAG AAAGCCATTG 
    AGCACACCTG GGTTTCATAA CTCAGAGGAA GCCATATCTT CATCTGGAAG CAAACGTTGG 
    GTTTCACAAT GGGCTAGTTT GGCTGCTAAT CATACAAGGC ATGATCCAGA AGAAAGGTTA 
    ATGGAATTGT CTGCAACTGT AGAAAACGAG ACAGATACTG GTGAAGCTGG TGTTTCCCTA 
    AGAAGTACTA GTTGTACAAC TTCCTTGGCT AGTCAGGGAG AGAGGAAGAG GCGAACTCTT 
    CCCCAGCTCC CAAATGAAGA GAAGCTACTC GAGAGCTCCA GAGTGAAGGT CGTTCCACAG 
    AGGTCAGAGA TAGGAGAAAA GCAAGACACG GAACTGCAGG AAAAAGAAGC CCAGGTATAC 
    CAAAGCGAGA AGCACGATGC AGACCGAGGC CTAAGTAAAA TGAGCAGGGC AGTCAATGGT 
    GAGAGTCTTA AAACTGGTGG AGATGGTAAA GCCCTCCTTC ACTCAGGAAA CTCATCTAGC 
    AAGGAGAAGA GTGAGACAGA AAAGGAAACT TCTTTGGTAA AACAAACATT GGCTAAAATC 
    CAGCAGCAAG AGCAAAAGGA GCAGGCCCAG TGGACTCCTA CTAAGTTTCC TTCAAAAAAT 
    GCTTTAGGCC ATATAGATAA ATGTAGGGAG GAATCTTCTA AGCAAGAGTC CCAACTCTTA 
    GAAAAAGTTT CAGGACATTC TACAAGCAAA GGAGACAGAG TAATACAAAA TGAAAGCAAG 
    AGAAGGAAAG CTGAGGAAAT TCCAAAATGC CAGGCTTCAA AAGGAGACAA GAAAGAGTCT 
    TCCAAATCAT TAGTGCGCCA AGGGAGTTTC ACCATAGACA AGCCCAGTTC AAACATCCCC 
    ATAGAACTTA TCCCCCATAT CAATAAGCAG AATTCATCTG TACCCACTGC CTTAGCACTG 
    ACATCTGCAA GTAGACTTCG AGAAAGGAGT GACTCTTTGG ATACTGATTC TAGCATGGAC 
    ACAACCTTGA TTTTAAAAGA CACAGAAGCA GTGATGGCTT TTCTAGAAGC TAAACTGCGT 
    GAAGATAATA ATAAAACTGA TGAAGGCCCA GATACTCCCA GTTACAATAG AGACAATTCA 
    ATTTCACCAG AATCTGATGT AGACACAGCC AGTACAATTA GTCTGGTGAC TGGAGAGACA 
    GAAAGAAAGT CCACCCAAAA GCGGAAGAGT TTCACTAGTC TCTATAAAGA CAGGTGTTCC 
    ACGAGTTCCC CATCCAAAGA TGTTACAAAG TCAAGCAGTA GGGAGAAAAT TGAAAAGAAA 
    GCAAAAAGCC GCTCTACAGA TATAGGTGCA AGAGCAGATG GTCGCAAATT TGTACAGTCC 
    AGTGGAAGAA TCCGGCAGCC TTCCATAGAC TTAACAGATG ATGACCAGAC CTCTAGTGTA 
    CCTCATTCTG CTATTTCTGA CATTATGTCA TCTGACCAGG AAACATACTC CTGCAAATCT 
    CATGGACGGA CTCCACTTAC CTCAGCCGAT GAACACAACA TACATTCCAA ACTGGAAGGA 
    AGCAAAGCAA CAAAGTCTAA GACTTCTCCT GTTGCCTCTG GTTCAACAAG TAAATCCACT 
    ACTCTCCCAA GGCCACGGCC CACCCGGACG TCCCTCCTGC GTAGAGCCCG GCTGGGTGAA 
    GCTTCTGACA GTGAACTTGC TGATGCTGAC AAAGCATCCG TTGCTTCTGA AGTGTCCACT 
    ACAAGTTCCA CATCAAAACC ACCCACAGGA AGGCGAACCA TCTCTAGGAT TGATTTATTG 
    GCTCAGCCTC GAAGAACAAG ACTTGGCTCA TTATCCGCCC GTAGTGACTC TGAAGCAACA 
    ATTTCAAGAA GCAGCGCATC TGCACGCACT GCAGAAGCTG TCATTAGGAG CGGAGCCAGA 
    CTAGTGCCAT CAGATAAACT TTCTCCTAGA ACTAGAGCTA ACAGTATCTC TCGGCTCTCC 
    GATTCCAAGG TCAAGAGCAT GAGCTCCACT CACGGCTCTC CTTCAGTAAA TTCAAGATGG 
    AGGCGCTTTC CTACTGATTA TGCTTCCACC TCAGAAGATG AATTTGGATC AAACCGTAAT 
    TCCCCTAAAC ATACTCGTCT ACGTACTTCT CCAGCCCTGA AAACCACTCG CATGCAGAGT 
    ACTGGATCAG CAATGCCTGC TAGTTCTTCA TTCAAGCACC GAATTAAAGA ACAGGAAGAC 
    TATATCCGAG ATTGGACTGC CCATCGAGAA GAGATAGCCA GGATCAGCCA AGATCTTGCT 
    CTCATTGCTC GGGAGATCAA CGACGTAGCA GGAGAAATAG ATTCAGTGAC TTCCTCAGGC 
    ACTGCCCCGA GTACCACATT GGTTGATCGT GTTTTTGATG AAAGTCTCAA CTTCAGAAAG 
    ATACCTCCAT TAGTTCATTC TAAAACACCA GAAGGAAACA ACGGTCGGTC TGTTGACTCG 
    AGGCCTCAGC CAGCCGAGCA TCCTGATCAC TTAACAATTA CAAGACGGAG AACCTGGAGT 
    AGGGATGAAG TCATGGGAGA TAATCTGCTA TTGTCATCAG TCTTTCAGTT CTCTAGGAAG 
    ATTAGACAAT CCATCGATAA AACAGCTGGG AAAATCAGAA TATTGTTTAA AGACAAAGAC 
    CGGAACTGGG ATGACATAGA AAACAAGCTA AGAGCTGAAA GCGAAGTCCC TATCGTTAAA 
    ACTTCAAGCA TGGAGATTTC TTCTATTTTA CAGGAGCTTA AAAGAGTTGA AAAACAGTTG 
    CAAGTGATAA ATGCCATGAT TGACCCAGAT GGAACTTTGG AGGCTCTTAA CAACATGGGA 
    TTTCCCAATG CTATCCTGCC ATCCCCACCA AAACAGAAGT CCAGCCCTGT TAATAACCAC 
    AGCAGCCCTA GTCAGACGCC AGCACTTTGC CCACCAGAAA CTAGAGCCCT ACACCCTGCT 
    GCTGCGGGAG CGGCGGCAGC AGCCTCCACT GAGTTTGAGA ATGCTGAATC TGAGGCTGAT 
    TTCAGTATCC ATTTCAATAG GTTCAACCCT GATGGGGAAG AGGAGGATGT TACAGTACAT 
    GAATGA

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

    Cep170 ( XM_029481033.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029336893.1 Mus caroli centrosomal protein 170 (Cep170), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OMv66583
    Clone ID Related Accession (Same CDS sequence) XM_029481033.1
    Accession Version XM_029481033.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4659bp)
    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 centrosomal protein of 170 kDa isoform X4
    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGACGACTGT GAGCTCATGC TTCAGTCCCG AAGTGTGGAT 
    AAACAACATG CTGTAATCAA TTATGATGCA TCTATGGATG AACATTTGGT GAAAGATTTA 
    GGCAGCCTAA ATGGGACTTT TGTGAATGAT GTAAGGATAC CAGAGCAGAC GTACATCACT 
    TTGAAGCTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTCTTCAC TGTAGTACGA 
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCACGAGA AGTTTACCAT TCAGCTTCAA 
    TTGTCCCAGA AGTCTTCAGA ATCAGAATTA CCAAAATCAG CAAGTGCCAA AGGCACGGAC 
    TCAAAAGTGG AGGCTGCTGC AGAAGTGCAG CCCAGAGCCA CAGAAGCACT AAAATCTGAA 
    GAGAAACCCG TGGATGTCTC TGCTATGCCC CGAGGCACTC CATTATATGG GCAGCCGTCC 
    TGGTGGGGAG ACGAAGAGGA GGATGAACAA AGAGCTTTCA AGGCCAATGG CAAGCCTGAG 
    GGAAAAAGTC AGGAACCTGG GGCTTCAGGG TGCAGCATAG ATGCCAAGCA TGTGGAGGAA 
    CAGTCTGCAG CTGCAAGTGA AGAAGCACTT TTTCCATTCT GTAGGGAGCC AAGTTATTTT 
    GAAATTCCTA CAAAAGAATT CCAGCAGCCA TCACAAATAG CAGAGAGCAC TATTCATGAG 
    ATTCCAACAA AAGACACACC AAGTTCCCAT ACAGCAGGTG CAGGGCATGC TTCATTTACC 
    ATTGAATTTG ATGACAGTAC GCCAGGAAAA GTAACTATTA GAGACCATGT GACAAAATTC 
    ACTTCTGACC AGCGCCACAA GTCAAAGAAG GCCTCTCCAG GAACTCAAGA CTTGCCAGGA 
    ATTCAGACAG GAATGATGGC ACCAGAAAAT AAAGTAGCTG ACTGGCTAGC CCAAAACAAC 
    CCTCCTCAAA TGGTGTGGGA AAGAACAGAG GAGGATTCCA AGAGCATTAA AAGTGATGTT 
    CCTGTGTACT TGAAAAGGTT GAAAGGAAAC AAACATGATG ATGGTACACA GAGTGATTCA 
    GAGAATGCTG GGGCGCACAG GCGCTGTAGC AAGCGTGCAA CTCTGGAGGA ACATTTACGC 
    CGCCATCACT CAGAGCAGAA AAAGAAGGCC CAGTCCACCG AAAAGCATCA AGAACAGGCT 
    GCTACTAGCT CTACGCATCA CAGAGGGGGG CATGGTGTTC CACATGGGAA ATTGTTAAAA 
    CAGAAATCAG AGGAGCCATC GGTGTCAATA CCCTTCCTAC AAACTGCATT ATTAAGAAGT 
    TCAGGGAGTC TTGGGCACAG ACCAAGCCAG GAGATGGATG TAATGTTAAA AAATCAAGCT 
    ACTTCTGCCT CTTCAGAAAA GGATAATGAT GATGACCAAA GTGACAAGGG TACTTATACC 
    ATTGAGTTAG AGAATCCCAA CAGTGAGGAG GTGGAAGCAA GAAAAATGAT TGACAAGGTA 
    TTTGGAGTAG ATGACAATCA GGATTATAAT AGGCCTATTA TCAATGAAAA GCATAAAGGT 
    CTCATAAAAG ACTGGGCTCT CAACTCTGCT GCAGTAGTAA TGGAAGACAG AAAGCCATTG 
    AGCACACCTG GGTTTCATAA CTCAGAGGAA GCCATATCTT CATCTGGAAG CAAACGTTGG 
    GTTTCACAAT GGGCTAGTTT GGCTGCTAAT CATACAAGGC ATGATCCAGA AGAAAGGTTA 
    ATGGAATTGT CTGCAACTGT AGAAAACGAG ACAGATACTG GTGAAGCTGG TGTTTCCCTA 
    AGAAGTACTA GTTGTACAAC TTCCTTGGCT AGTCAGGGAG AGAGGAAGAG GCGAACTCTT 
    CCCCAGCTCC CAAATGAAGA GAAGCTACTC GAGAGCTCCA GAGTGAAGGT CGTTCCACAG 
    AGGTCAGAGA TAGGAGAAAA GCAAGACACG GAACTGCAGG AAAAAGAAGC CCAGGTATAC 
    CAAAGCGAGA AGCACGATGC AGACCGAGGC CTAAGTAAAA TGAGCAGGGC AGTCAATGGT 
    GAGAGTCTTA AAACTGGTGG AGATGGTAAA GCCCTCCTTC ACTCAGGAAA CTCATCTAGC 
    AAGGAGAAGA GTGAGACAGA AAAGGAAACT TCTTTGGTAA AACAAACATT GGCTAAAATC 
    CAGCAGCAAG AGCAAAAGGA GCAGGCCCAG TGGACTCCTA CTAAGTTTCC TTCAAAAAAT 
    GCTTTAGGCC ATATAGATAA ATGTAGGGAG GAATCTTCTA AGCAAGAGTC CCAACTCTTA 
    GAAAAAGTTT CAGGACATTC TACAAGCAAA GGAGACAGAG TAATACAAAA TGAAAGCAAG 
    AGAAGGAAAG CTGAGGAAAT TCCAAAATGC CAGGCTTCAA AAGGAGACAA GAAAGAGTCT 
    TCCAAATCAT TAGTGCGCCA AGGGAGTTTC ACCATAGACA AGCCCAGTTC AAACATCCCC 
    ATAGAACTTA TCCCCCATAT CAATAAGCAG AATTCATCTG TACCCACTGC CTTAGCACTG 
    ACATCTGCAA GTAGACTTCG AGAAAGGAGT GACTCTTTGG ATACTGATTC TAGCATGGAC 
    ACAACCTTGA TTTTAAAAGA CACAGAAGCA GTGATGGCTT TTCTAGAAGC TAAACTGCGT 
    GAAGATAATA ATAAAACTGA TGAAGGCCCA GATACTCCCA GTTACAATAG AGACAATTCA 
    ATTTCACCAG AATCTGATGT AGACACAGCC AGTACAATTA GTCTGGTGAC TGGAGAGACA 
    GAAAGAAAGT CCACCCAAAA GCGGAAGAGT TTCACTAGTC TCTATAAAGA CAGGTGTTCC 
    ACGAGTTCCC CATCCAAAGA TGTTACAAAG TCAAGCAGTA GGGAGAAAAT TGAAAAGAAA 
    GCAAAAAGCC GCTCTACAGA TATAGGTGCA AGAGCAGATG GTCGCAAATT TGTACAGTCC 
    AGTGGAAGAA TCCGGCAGCC TTCCATAGAC TTAACAGATG ATGACCAGAC CTCTAGTGTA 
    CCTCATTCTG CTATTTCTGA CATTATGTCA TCTGACCAGG AAACATACTC CTGCAAATCT 
    CATGGACGGA CTCCACTTAC CTCAGCCGAT GAACACAACA TACATTCCAA ACTGGAAGGA 
    AGCAAAGCAA CAAAGTCTAA GACTTCTCCT GTTGCCTCTG GTTCAACAAG TAAATCCACT 
    ACTCTCCCAA GGCCACGGCC CACCCGGACG TCCCTCCTGC GTAGAGCCCG GCTGGGTGAA 
    GCTTCTGACA GTGAACTTGC TGATGCTGAC AAAGCATCCG TTGCTTCTGA AGTGTCCACT 
    ACAAGTTCCA CATCAAAACC ACCCACAGGA AGGCGAACCA TCTCTAGGAT TGATTTATTG 
    GCTCAGCCTC GAAGAACAAG ACTTGGCTCA TTATCCGCCC GTAGTGACTC TGAAGCAACA 
    ATTTCAAGAA GCAGCGCATC TGCACGCACT GCAGAAGCTG TCATTAGGAG CGGAGCCAGA 
    CTAGTGCCAT CAGATAAACT TTCTCCTAGA ACTAGAGCTA ACAGTATCTC TCGGCTCTCC 
    GATTCCAAGG TCAAGAGCAT GAGCTCCACT CACGGCTCTC CTTCAGCCCT GAAAACCACT 
    CGCATGCAGA GTACTGGATC AGCAATGCCT GCTAGTTCTT CATTCAAGCA CCGAATTAAA 
    GAACAGGAAG ACTATATCCG AGATTGGACT GCCCATCGAG AAGAGATAGC CAGGATCAGC 
    CAAGATCTTG CTCTCATTGC TCGGGAGATC AACGACGTAG CAGGAGAAAT AGATTCAGTG 
    ACTTCCTCAG GCACTGCCCC GAGTACCACA GTAAGCACTG CCGCCACCAC CCCTGGCTCT 
    GCCATAGACA CTAGAGAAGA GGTAGGAGAT CTTCATGGAG AAATGCATAA GTTGGTTGAT 
    CGTGTTTTTG ATGAAAGTCT CAACTTCAGA AAGATACCTC CATTAGTTCA TTCTAAAACA 
    CCAGAAGGAA ACAACGGTCG GTCTGTTGAC TCGAGGCCTC AGCCAGCCGA GCATCCTGAT 
    CACTTAACAA TTACAAGACG GAGAACCTGG AGTAGGGATG AAGTCATGGG AGATAATCTG 
    CTATTGTCAT CAGTCTTTCA GTTCTCTAGG AAGATTAGAC AATCCATCGA TAAAACAGCT 
    GGGAAAATCA GAATATTGTT TAAAGACAAA GACCGGAACT GGGATGACAT AGAAAACAAG 
    CTAAGAGCTG AAAGCGAAGT CCCTATCGTT AAAACTTCAA GCATGGAGAT TTCTTCTATT 
    TTACAGGAGC TTAAAAGAGT TGAAAAACAG TTGCAAGTGA TAAATGCCAT GATTGACCCA 
    GATGGAACTT TGGAGGCTCT TAACAACATG GGATTTCCCA ATGCTATCCT GCCATCCCCA 
    CCAAAACAGA AGTCCAGCCC TGTTAATAAC CACAGCAGCC CTAGTCAGAC GCCAGCACTT 
    TGCCCACCAG AAACTAGAGC CCTACACCCT GCTGCTGCGG GAGCGGCGGC AGCAGCCTCC 
    ACTGAGTTTG AGAATGCTGA ATCTGAGGCT GATTTCAGTA TCCATTTCAA TAGGTTCAAC 
    CCTGATGGGG AAGAGGAGGA TGTTACAGTA CATGAATGA

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

    RefSeq XP_029336893.1
    CDS608..5266
    Translation

    Target ORF information:

    RefSeq Version XM_029481033.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli centrosomal protein 170 (Cep170), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029481033.1

    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGACGACTGT GAGCTCATGC TTCAGTCCCG AAGTGTGGAT 
    AAACAACATG CTGTAATCAA TTATGATGCA TCTATGGATG AACATTTGGT GAAAGATTTA 
    GGCAGCCTAA ATGGGACTTT TGTGAATGAT GTAAGGATAC CAGAGCAGAC GTACATCACT 
    TTGAAGCTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTCTTCAC TGTAGTACGA 
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCACGAGA AGTTTACCAT TCAGCTTCAA 
    TTGTCCCAGA AGTCTTCAGA ATCAGAATTA CCAAAATCAG CAAGTGCCAA AGGCACGGAC 
    TCAAAAGTGG AGGCTGCTGC AGAAGTGCAG CCCAGAGCCA CAGAAGCACT AAAATCTGAA 
    GAGAAACCCG TGGATGTCTC TGCTATGCCC CGAGGCACTC CATTATATGG GCAGCCGTCC 
    TGGTGGGGAG ACGAAGAGGA GGATGAACAA AGAGCTTTCA AGGCCAATGG CAAGCCTGAG 
    GGAAAAAGTC AGGAACCTGG GGCTTCAGGG TGCAGCATAG ATGCCAAGCA TGTGGAGGAA 
    CAGTCTGCAG CTGCAAGTGA AGAAGCACTT TTTCCATTCT GTAGGGAGCC AAGTTATTTT 
    GAAATTCCTA CAAAAGAATT CCAGCAGCCA TCACAAATAG CAGAGAGCAC TATTCATGAG 
    ATTCCAACAA AAGACACACC AAGTTCCCAT ACAGCAGGTG CAGGGCATGC TTCATTTACC 
    ATTGAATTTG ATGACAGTAC GCCAGGAAAA GTAACTATTA GAGACCATGT GACAAAATTC 
    ACTTCTGACC AGCGCCACAA GTCAAAGAAG GCCTCTCCAG GAACTCAAGA CTTGCCAGGA 
    ATTCAGACAG GAATGATGGC ACCAGAAAAT AAAGTAGCTG ACTGGCTAGC CCAAAACAAC 
    CCTCCTCAAA TGGTGTGGGA AAGAACAGAG GAGGATTCCA AGAGCATTAA AAGTGATGTT 
    CCTGTGTACT TGAAAAGGTT GAAAGGAAAC AAACATGATG ATGGTACACA GAGTGATTCA 
    GAGAATGCTG GGGCGCACAG GCGCTGTAGC AAGCGTGCAA CTCTGGAGGA ACATTTACGC 
    CGCCATCACT CAGAGCAGAA AAAGAAGGCC CAGTCCACCG AAAAGCATCA AGAACAGGCT 
    GCTACTAGCT CTACGCATCA CAGAGGGGGG CATGGTGTTC CACATGGGAA ATTGTTAAAA 
    CAGAAATCAG AGGAGCCATC GGTGTCAATA CCCTTCCTAC AAACTGCATT ATTAAGAAGT 
    TCAGGGAGTC TTGGGCACAG ACCAAGCCAG GAGATGGATG TAATGTTAAA AAATCAAGCT 
    ACTTCTGCCT CTTCAGAAAA GGATAATGAT GATGACCAAA GTGACAAGGG TACTTATACC 
    ATTGAGTTAG AGAATCCCAA CAGTGAGGAG GTGGAAGCAA GAAAAATGAT TGACAAGGTA 
    TTTGGAGTAG ATGACAATCA GGATTATAAT AGGCCTATTA TCAATGAAAA GCATAAAGGT 
    CTCATAAAAG ACTGGGCTCT CAACTCTGCT GCAGTAGTAA TGGAAGACAG AAAGCCATTG 
    AGCACACCTG GGTTTCATAA CTCAGAGGAA GCCATATCTT CATCTGGAAG CAAACGTTGG 
    GTTTCACAAT GGGCTAGTTT GGCTGCTAAT CATACAAGGC ATGATCCAGA AGAAAGGTTA 
    ATGGAATTGT CTGCAACTGT AGAAAACGAG ACAGATACTG GTGAAGCTGG TGTTTCCCTA 
    AGAAGTACTA GTTGTACAAC TTCCTTGGCT AGTCAGGGAG AGAGGAAGAG GCGAACTCTT 
    CCCCAGCTCC CAAATGAAGA GAAGCTACTC GAGAGCTCCA GAGTGAAGGT CGTTCCACAG 
    AGGTCAGAGA TAGGAGAAAA GCAAGACACG GAACTGCAGG AAAAAGAAGC CCAGGTATAC 
    CAAAGCGAGA AGCACGATGC AGACCGAGGC CTAAGTAAAA TGAGCAGGGC AGTCAATGGT 
    GAGAGTCTTA AAACTGGTGG AGATGGTAAA GCCCTCCTTC ACTCAGGAAA CTCATCTAGC 
    AAGGAGAAGA GTGAGACAGA AAAGGAAACT TCTTTGGTAA AACAAACATT GGCTAAAATC 
    CAGCAGCAAG AGCAAAAGGA GCAGGCCCAG TGGACTCCTA CTAAGTTTCC TTCAAAAAAT 
    GCTTTAGGCC ATATAGATAA ATGTAGGGAG GAATCTTCTA AGCAAGAGTC CCAACTCTTA 
    GAAAAAGTTT CAGGACATTC TACAAGCAAA GGAGACAGAG TAATACAAAA TGAAAGCAAG 
    AGAAGGAAAG CTGAGGAAAT TCCAAAATGC CAGGCTTCAA AAGGAGACAA GAAAGAGTCT 
    TCCAAATCAT TAGTGCGCCA AGGGAGTTTC ACCATAGACA AGCCCAGTTC AAACATCCCC 
    ATAGAACTTA TCCCCCATAT CAATAAGCAG AATTCATCTG TACCCACTGC CTTAGCACTG 
    ACATCTGCAA GTAGACTTCG AGAAAGGAGT GACTCTTTGG ATACTGATTC TAGCATGGAC 
    ACAACCTTGA TTTTAAAAGA CACAGAAGCA GTGATGGCTT TTCTAGAAGC TAAACTGCGT 
    GAAGATAATA ATAAAACTGA TGAAGGCCCA GATACTCCCA GTTACAATAG AGACAATTCA 
    ATTTCACCAG AATCTGATGT AGACACAGCC AGTACAATTA GTCTGGTGAC TGGAGAGACA 
    GAAAGAAAGT CCACCCAAAA GCGGAAGAGT TTCACTAGTC TCTATAAAGA CAGGTGTTCC 
    ACGAGTTCCC CATCCAAAGA TGTTACAAAG TCAAGCAGTA GGGAGAAAAT TGAAAAGAAA 
    GCAAAAAGCC GCTCTACAGA TATAGGTGCA AGAGCAGATG GTCGCAAATT TGTACAGTCC 
    AGTGGAAGAA TCCGGCAGCC TTCCATAGAC TTAACAGATG ATGACCAGAC CTCTAGTGTA 
    CCTCATTCTG CTATTTCTGA CATTATGTCA TCTGACCAGG AAACATACTC CTGCAAATCT 
    CATGGACGGA CTCCACTTAC CTCAGCCGAT GAACACAACA TACATTCCAA ACTGGAAGGA 
    AGCAAAGCAA CAAAGTCTAA GACTTCTCCT GTTGCCTCTG GTTCAACAAG TAAATCCACT 
    ACTCTCCCAA GGCCACGGCC CACCCGGACG TCCCTCCTGC GTAGAGCCCG GCTGGGTGAA 
    GCTTCTGACA GTGAACTTGC TGATGCTGAC AAAGCATCCG TTGCTTCTGA AGTGTCCACT 
    ACAAGTTCCA CATCAAAACC ACCCACAGGA AGGCGAACCA TCTCTAGGAT TGATTTATTG 
    GCTCAGCCTC GAAGAACAAG ACTTGGCTCA TTATCCGCCC GTAGTGACTC TGAAGCAACA 
    ATTTCAAGAA GCAGCGCATC TGCACGCACT GCAGAAGCTG TCATTAGGAG CGGAGCCAGA 
    CTAGTGCCAT CAGATAAACT TTCTCCTAGA ACTAGAGCTA ACAGTATCTC TCGGCTCTCC 
    GATTCCAAGG TCAAGAGCAT GAGCTCCACT CACGGCTCTC CTTCAGCCCT GAAAACCACT 
    CGCATGCAGA GTACTGGATC AGCAATGCCT GCTAGTTCTT CATTCAAGCA CCGAATTAAA 
    GAACAGGAAG ACTATATCCG AGATTGGACT GCCCATCGAG AAGAGATAGC CAGGATCAGC 
    CAAGATCTTG CTCTCATTGC TCGGGAGATC AACGACGTAG CAGGAGAAAT AGATTCAGTG 
    ACTTCCTCAG GCACTGCCCC GAGTACCACA GTAAGCACTG CCGCCACCAC CCCTGGCTCT 
    GCCATAGACA CTAGAGAAGA GGTAGGAGAT CTTCATGGAG AAATGCATAA GTTGGTTGAT 
    CGTGTTTTTG ATGAAAGTCT CAACTTCAGA AAGATACCTC CATTAGTTCA TTCTAAAACA 
    CCAGAAGGAA ACAACGGTCG GTCTGTTGAC TCGAGGCCTC AGCCAGCCGA GCATCCTGAT 
    CACTTAACAA TTACAAGACG GAGAACCTGG AGTAGGGATG AAGTCATGGG AGATAATCTG 
    CTATTGTCAT CAGTCTTTCA GTTCTCTAGG AAGATTAGAC AATCCATCGA TAAAACAGCT 
    GGGAAAATCA GAATATTGTT TAAAGACAAA GACCGGAACT GGGATGACAT AGAAAACAAG 
    CTAAGAGCTG AAAGCGAAGT CCCTATCGTT AAAACTTCAA GCATGGAGAT TTCTTCTATT 
    TTACAGGAGC TTAAAAGAGT TGAAAAACAG TTGCAAGTGA TAAATGCCAT GATTGACCCA 
    GATGGAACTT TGGAGGCTCT TAACAACATG GGATTTCCCA ATGCTATCCT GCCATCCCCA 
    CCAAAACAGA AGTCCAGCCC TGTTAATAAC CACAGCAGCC CTAGTCAGAC GCCAGCACTT 
    TGCCCACCAG AAACTAGAGC CCTACACCCT GCTGCTGCGG GAGCGGCGGC AGCAGCCTCC 
    ACTGAGTTTG AGAATGCTGA ATCTGAGGCT GATTTCAGTA TCCATTTCAA TAGGTTCAAC 
    CCTGATGGGG AAGAGGAGGA TGTTACAGTA CATGAATGA

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

    Cep170 ( XM_029481034.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029336894.1 Mus caroli centrosomal protein 170 (Cep170), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OMv66584
    Clone ID Related Accession (Same CDS sequence) XM_029481034.1
    Accession Version XM_029481034.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4617bp)
    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 centrosomal protein of 170 kDa isoform X5
    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGACGACTGT GAGCTCATGC TTCAGTCCCG AAGTGTGGAT 
    AAACAACATG CTGTAATCAA TTATGATGCA TCTATGGATG AACATTTGGT GAAAGATTTA 
    GGCAGCCTAA ATGGGACTTT TGTGAATGAT GTAAGGATAC CAGAGCAGAC GTACATCACT 
    TTGAAGCTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTCTTCAC TGTAGTACGA 
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCACGAGA AGTTTACCAT TCAGCTTCAA 
    TTGTCCCAGA AGTCTTCAGA ATCAGAATTA CCAAAATCAG CAAGTGCCAA AGGCACGGAC 
    TCAAAAGTGG AGGCTGCTGC AGAAGTGCAG CCCAGAGCCA CAGAAGCACT AAAATCTGAA 
    GAGAAACCCG TGGATGTCTC TGCTATGCCC CGAGGCACTC CATTATATGG GCAGCCGTCC 
    TGGTGGGGAG ACGAAGAGGA GGATGAACAA AGAGCTTTCA AGGCCAATGG CAAGCCTGAG 
    GGAAAAAGTC AGGAACCTGG GGCTTCAGGG TGCAGCATAG ATGCCAAGCA TGTGGAGGAA 
    CAGTCTGCAG CTGCAAGTGA AGAAGCACTT TTTCCATTCT GTAGGGAGCC AAGTTATTTT 
    GAAATTCCTA CAAAAGAATT CCAGCAGCCA TCACAAATAG CAGAGAGCAC TATTCATGAG 
    ATTCCAACAA AAGACACACC AAGTTCCCAT ACAGCAGGTG CAGGGCATGC TTCATTTACC 
    ATTGAATTTG ATGACAGTAC GCCAGGAAAA GTAACTATTA GAGACCATGT GACAAAATTC 
    ACTTCTGACC AGCGCCACAA GTCAAAGAAG GCCTCTCCAG GAACTCAAGA CTTGCCAGGA 
    ATTCAGACAG GAATGATGGC ACCAGAAAAT AAAGTAGCTG ACTGGCTAGC CCAAAACAAC 
    CCTCCTCAAA TGGTGTGGGA AAGAACAGAG GAGGATTCCA AGAGCATTAA AAGTGATGTT 
    CCTGTGTACT TGAAAAGGTT GAAAGGAAAC AAACATGATG ATGGTACACA GAGTGATTCA 
    GAGAATGCTG GGGCGCACAG GCGCTGTAGC AAGCGTGCAA CTCTGGAGGA ACATTTACGC 
    CGCCATCACT CAGAGCAGAA AAAGAAGGCC CAGTCCACCG AAAAGCATCA AGAACAGGCT 
    GCTACTAGCT CTACGCATCA CAGAGGGGGG CATGGTGTTC CACATGGGAA ATTGTTAAAA 
    CAGAAATCAG AGGAGCCATC GGTGTCAATA CCCTTCCTAC AAACTGCATT ATTAAGAAGT 
    TCAGGGAGTC TTGGGCACAG ACCAAGCCAG GAGATGGATG TAATGTTAAA AAATCAAGCT 
    ACTTCTGCCT CTTCAGAAAA GGATAATGAT GATGACCAAA GTGACAAGGG TACTTATACC 
    ATTGAGTTAG AGAATCCCAA CAGTGAGGAG GTGGAAGCAA GAAAAATGAT TGACAAGGAA 
    GCCATATCTT CATCTGGAAG CAAACGTTGG GTTTCACAAT GGGCTAGTTT GGCTGCTAAT 
    CATACAAGGC ATGATCCAGA AGAAAGGTTA ATGGAATTGT CTGCAACTGT AGAAAACGAG 
    ACAGATACTG GTGAAGCTGG TGTTTCCCTA AGAAGTACTA GTTGTACAAC TTCCTTGGCT 
    AGTCAGGGAG AGAGGAAGAG GCGAACTCTT CCCCAGCTCC CAAATGAAGA GAAGCTACTC 
    GAGAGCTCCA GAGTGAAGGT CGTTCCACAG AGGTCAGAGA TAGGAGAAAA GCAAGACACG 
    GAACTGCAGG AAAAAGAAGC CCAGGTATAC CAAAGCGAGA AGCACGATGC AGACCGAGGC 
    CTAAGTAAAA TGAGCAGGGC AGTCAATGGT GAGAGTCTTA AAACTGGTGG AGATGGTAAA 
    GCCCTCCTTC ACTCAGGAAA CTCATCTAGC AAGGAGAAGA GTGAGACAGA AAAGGAAACT 
    TCTTTGGTAA AACAAACATT GGCTAAAATC CAGCAGCAAG AGCAAAAGGA GCAGGCCCAG 
    TGGACTCCTA CTAAGTTTCC TTCAAAAAAT GCTTTAGGCC ATATAGATAA ATGTAGGGAG 
    GAATCTTCTA AGCAAGAGTC CCAACTCTTA GAAAAAGTTT CAGGACATTC TACAAGCAAA 
    GGAGACAGAG TAATACAAAA TGAAAGCAAG AGAAGGAAAG CTGAGGAAAT TCCAAAATGC 
    CAGGCTTCAA AAGGAGACAA GAAAGAGTCT TCCAAATCAT TAGTGCGCCA AGGGAGTTTC 
    ACCATAGACA AGCCCAGTTC AAACATCCCC ATAGAACTTA TCCCCCATAT CAATAAGCAG 
    AATTCATCTG TACCCACTGC CTTAGCACTG ACATCTGCAA GTAGACTTCG AGAAAGGAGT 
    GACTCTTTGG ATACTGATTC TAGCATGGAC ACAACCTTGA TTTTAAAAGA CACAGAAGCA 
    GTGATGGCTT TTCTAGAAGC TAAACTGCGT GAAGATAATA ATAAAACTGA TGAAGGCCCA 
    GATACTCCCA GTTACAATAG AGACAATTCA ATTTCACCAG AATCTGATGT AGACACAGCC 
    AGTACAATTA GTCTGGTGAC TGGAGAGACA GAAAGAAAGT CCACCCAAAA GCGGAAGAGT 
    TTCACTAGTC TCTATAAAGA CAGGTGTTCC ACGAGTTCCC CATCCAAAGA TGTTACAAAG 
    TCAAGCAGTA GGGAGAAAAT TGAAAAGAAA GCAAAAAGCC GCTCTACAGA TATAGGTGCA 
    AGAGCAGATG GTCGCAAATT TGTACAGTCC AGTGGAAGAA TCCGGCAGCC TTCCATAGAC 
    TTAACAGATG ATGACCAGAC CTCTAGTGTA CCTCATTCTG CTATTTCTGA CATTATGTCA 
    TCTGACCAGG AAACATACTC CTGCAAATCT CATGGACGGA CTCCACTTAC CTCAGCCGAT 
    GAACACAACA TACATTCCAA ACTGGAAGGA AGCAAAGCAA CAAAGTCTAA GACTTCTCCT 
    GTTGCCTCTG GTTCAACAAG TAAATCCACT ACTCTCCCAA GGCCACGGCC CACCCGGACG 
    TCCCTCCTGC GTAGAGCCCG GCTGGGTGAA GCTTCTGACA GTGAACTTGC TGATGCTGAC 
    AAAGCATCCG TTGCTTCTGA AGTGTCCACT ACAAGTTCCA CATCAAAACC ACCCACAGGA 
    AGGCGAACCA TCTCTAGGAT TGATTTATTG GCTCAGCCTC GAAGAACAAG ACTTGGCTCA 
    TTATCCGCCC GTAGTGACTC TGAAGCAACA ATTTCAAGAA GCAGCGCATC TGCACGCACT 
    GCAGAAGCTG TCATTAGGAG CGGAGCCAGA CTAGTGCCAT CAGATAAACT TTCTCCTAGA 
    ACTAGAGCTA ACAGTATCTC TCGGCTCTCC GATTCCAAGG TCAAGAGCAT GAGCTCCACT 
    CACGGCTCTC CTTCAGTAAA TTCAAGATGG AGGCGCTTTC CTACTGATTA TGCTTCCACC 
    TCAGAAGATG AATTTGGATC AAACCGTAAT TCCCCTAAAC ATACTCGTCT ACGTACTTCT 
    CCAGCCCTGA AAACCACTCG CATGCAGAGT ACTGGATCAG CAATGCCTGC TAGTTCTTCA 
    TTCAAGCACC GAATTAAAGA ACAGGAAGAC TATATCCGAG ATTGGACTGC CCATCGAGAA 
    GAGATAGCCA GGATCAGCCA AGATCTTGCT CTCATTGCTC GGGAGATCAA CGACGTAGCA 
    GGAGAAATAG ATTCAGTGAC TTCCTCAGGC ACTGCCCCGA GTACCACAGT AAGCACTGCC 
    GCCACCACCC CTGGCTCTGC CATAGACACT AGAGAAGAGG TAGGAGATCT TCATGGAGAA 
    ATGCATAAGT TGGTTGATCG TGTTTTTGAT GAAAGTCTCA ACTTCAGAAA GATACCTCCA 
    TTAGTTCATT CTAAAACACC AGAAGGAAAC AACGGTCGGT CTGTTGACTC GAGGCCTCAG 
    CCAGCCGAGC ATCCTGATCA CTTAACAATT ACAAGACGGA GAACCTGGAG TAGGGATGAA 
    GTCATGGGAG ATAATCTGCT ATTGTCATCA GTCTTTCAGT TCTCTAGGAA GATTAGACAA 
    TCCATCGATA AAACAGCTGG GAAAATCAGA ATATTGTTTA AAGACAAAGA CCGGAACTGG 
    GATGACATAG AAAACAAGCT AAGAGCTGAA AGCGAAGTCC CTATCGTTAA AACTTCAAGC 
    ATGGAGATTT CTTCTATTTT ACAGGAGCTT AAAAGAGTTG AAAAACAGTT GCAAGTGATA 
    AATGCCATGA TTGACCCAGA TGGAACTTTG GAGGCTCTTA ACAACATGGG ATTTCCCAAT 
    GCTATCCTGC CATCCCCACC AAAACAGAAG TCCAGCCCTG TTAATAACCA CAGCAGCCCT 
    AGTCAGACGC CAGCACTTTG CCCACCAGAA ACTAGAGCCC TACACCCTGC TGCTGCGGGA 
    GCGGCGGCAG CAGCCTCCAC TGAGTTTGAG AATGCTGAAT CTGAGGCTGA TTTCAGTATC 
    CATTTCAATA GGTTCAACCC TGATGGGGAA GAGGAGGATG TTACAGTACA TGAATGA

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

    RefSeq XP_029336894.1
    CDS607..5223
    Translation

    Target ORF information:

    RefSeq Version XM_029481034.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli centrosomal protein 170 (Cep170), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029481034.1

    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGACGACTGT GAGCTCATGC TTCAGTCCCG AAGTGTGGAT 
    AAACAACATG CTGTAATCAA TTATGATGCA TCTATGGATG AACATTTGGT GAAAGATTTA 
    GGCAGCCTAA ATGGGACTTT TGTGAATGAT GTAAGGATAC CAGAGCAGAC GTACATCACT 
    TTGAAGCTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTCTTCAC TGTAGTACGA 
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCACGAGA AGTTTACCAT TCAGCTTCAA 
    TTGTCCCAGA AGTCTTCAGA ATCAGAATTA CCAAAATCAG CAAGTGCCAA AGGCACGGAC 
    TCAAAAGTGG AGGCTGCTGC AGAAGTGCAG CCCAGAGCCA CAGAAGCACT AAAATCTGAA 
    GAGAAACCCG TGGATGTCTC TGCTATGCCC CGAGGCACTC CATTATATGG GCAGCCGTCC 
    TGGTGGGGAG ACGAAGAGGA GGATGAACAA AGAGCTTTCA AGGCCAATGG CAAGCCTGAG 
    GGAAAAAGTC AGGAACCTGG GGCTTCAGGG TGCAGCATAG ATGCCAAGCA TGTGGAGGAA 
    CAGTCTGCAG CTGCAAGTGA AGAAGCACTT TTTCCATTCT GTAGGGAGCC AAGTTATTTT 
    GAAATTCCTA CAAAAGAATT CCAGCAGCCA TCACAAATAG CAGAGAGCAC TATTCATGAG 
    ATTCCAACAA AAGACACACC AAGTTCCCAT ACAGCAGGTG CAGGGCATGC TTCATTTACC 
    ATTGAATTTG ATGACAGTAC GCCAGGAAAA GTAACTATTA GAGACCATGT GACAAAATTC 
    ACTTCTGACC AGCGCCACAA GTCAAAGAAG GCCTCTCCAG GAACTCAAGA CTTGCCAGGA 
    ATTCAGACAG GAATGATGGC ACCAGAAAAT AAAGTAGCTG ACTGGCTAGC CCAAAACAAC 
    CCTCCTCAAA TGGTGTGGGA AAGAACAGAG GAGGATTCCA AGAGCATTAA AAGTGATGTT 
    CCTGTGTACT TGAAAAGGTT GAAAGGAAAC AAACATGATG ATGGTACACA GAGTGATTCA 
    GAGAATGCTG GGGCGCACAG GCGCTGTAGC AAGCGTGCAA CTCTGGAGGA ACATTTACGC 
    CGCCATCACT CAGAGCAGAA AAAGAAGGCC CAGTCCACCG AAAAGCATCA AGAACAGGCT 
    GCTACTAGCT CTACGCATCA CAGAGGGGGG CATGGTGTTC CACATGGGAA ATTGTTAAAA 
    CAGAAATCAG AGGAGCCATC GGTGTCAATA CCCTTCCTAC AAACTGCATT ATTAAGAAGT 
    TCAGGGAGTC TTGGGCACAG ACCAAGCCAG GAGATGGATG TAATGTTAAA AAATCAAGCT 
    ACTTCTGCCT CTTCAGAAAA GGATAATGAT GATGACCAAA GTGACAAGGG TACTTATACC 
    ATTGAGTTAG AGAATCCCAA CAGTGAGGAG GTGGAAGCAA GAAAAATGAT TGACAAGGAA 
    GCCATATCTT CATCTGGAAG CAAACGTTGG GTTTCACAAT GGGCTAGTTT GGCTGCTAAT 
    CATACAAGGC ATGATCCAGA AGAAAGGTTA ATGGAATTGT CTGCAACTGT AGAAAACGAG 
    ACAGATACTG GTGAAGCTGG TGTTTCCCTA AGAAGTACTA GTTGTACAAC TTCCTTGGCT 
    AGTCAGGGAG AGAGGAAGAG GCGAACTCTT CCCCAGCTCC CAAATGAAGA GAAGCTACTC 
    GAGAGCTCCA GAGTGAAGGT CGTTCCACAG AGGTCAGAGA TAGGAGAAAA GCAAGACACG 
    GAACTGCAGG AAAAAGAAGC CCAGGTATAC CAAAGCGAGA AGCACGATGC AGACCGAGGC 
    CTAAGTAAAA TGAGCAGGGC AGTCAATGGT GAGAGTCTTA AAACTGGTGG AGATGGTAAA 
    GCCCTCCTTC ACTCAGGAAA CTCATCTAGC AAGGAGAAGA GTGAGACAGA AAAGGAAACT 
    TCTTTGGTAA AACAAACATT GGCTAAAATC CAGCAGCAAG AGCAAAAGGA GCAGGCCCAG 
    TGGACTCCTA CTAAGTTTCC TTCAAAAAAT GCTTTAGGCC ATATAGATAA ATGTAGGGAG 
    GAATCTTCTA AGCAAGAGTC CCAACTCTTA GAAAAAGTTT CAGGACATTC TACAAGCAAA 
    GGAGACAGAG TAATACAAAA TGAAAGCAAG AGAAGGAAAG CTGAGGAAAT TCCAAAATGC 
    CAGGCTTCAA AAGGAGACAA GAAAGAGTCT TCCAAATCAT TAGTGCGCCA AGGGAGTTTC 
    ACCATAGACA AGCCCAGTTC AAACATCCCC ATAGAACTTA TCCCCCATAT CAATAAGCAG 
    AATTCATCTG TACCCACTGC CTTAGCACTG ACATCTGCAA GTAGACTTCG AGAAAGGAGT 
    GACTCTTTGG ATACTGATTC TAGCATGGAC ACAACCTTGA TTTTAAAAGA CACAGAAGCA 
    GTGATGGCTT TTCTAGAAGC TAAACTGCGT GAAGATAATA ATAAAACTGA TGAAGGCCCA 
    GATACTCCCA GTTACAATAG AGACAATTCA ATTTCACCAG AATCTGATGT AGACACAGCC 
    AGTACAATTA GTCTGGTGAC TGGAGAGACA GAAAGAAAGT CCACCCAAAA GCGGAAGAGT 
    TTCACTAGTC TCTATAAAGA CAGGTGTTCC ACGAGTTCCC CATCCAAAGA TGTTACAAAG 
    TCAAGCAGTA GGGAGAAAAT TGAAAAGAAA GCAAAAAGCC GCTCTACAGA TATAGGTGCA 
    AGAGCAGATG GTCGCAAATT TGTACAGTCC AGTGGAAGAA TCCGGCAGCC TTCCATAGAC 
    TTAACAGATG ATGACCAGAC CTCTAGTGTA CCTCATTCTG CTATTTCTGA CATTATGTCA 
    TCTGACCAGG AAACATACTC CTGCAAATCT CATGGACGGA CTCCACTTAC CTCAGCCGAT 
    GAACACAACA TACATTCCAA ACTGGAAGGA AGCAAAGCAA CAAAGTCTAA GACTTCTCCT 
    GTTGCCTCTG GTTCAACAAG TAAATCCACT ACTCTCCCAA GGCCACGGCC CACCCGGACG 
    TCCCTCCTGC GTAGAGCCCG GCTGGGTGAA GCTTCTGACA GTGAACTTGC TGATGCTGAC 
    AAAGCATCCG TTGCTTCTGA AGTGTCCACT ACAAGTTCCA CATCAAAACC ACCCACAGGA 
    AGGCGAACCA TCTCTAGGAT TGATTTATTG GCTCAGCCTC GAAGAACAAG ACTTGGCTCA 
    TTATCCGCCC GTAGTGACTC TGAAGCAACA ATTTCAAGAA GCAGCGCATC TGCACGCACT 
    GCAGAAGCTG TCATTAGGAG CGGAGCCAGA CTAGTGCCAT CAGATAAACT TTCTCCTAGA 
    ACTAGAGCTA ACAGTATCTC TCGGCTCTCC GATTCCAAGG TCAAGAGCAT GAGCTCCACT 
    CACGGCTCTC CTTCAGTAAA TTCAAGATGG AGGCGCTTTC CTACTGATTA TGCTTCCACC 
    TCAGAAGATG AATTTGGATC AAACCGTAAT TCCCCTAAAC ATACTCGTCT ACGTACTTCT 
    CCAGCCCTGA AAACCACTCG CATGCAGAGT ACTGGATCAG CAATGCCTGC TAGTTCTTCA 
    TTCAAGCACC GAATTAAAGA ACAGGAAGAC TATATCCGAG ATTGGACTGC CCATCGAGAA 
    GAGATAGCCA GGATCAGCCA AGATCTTGCT CTCATTGCTC GGGAGATCAA CGACGTAGCA 
    GGAGAAATAG ATTCAGTGAC TTCCTCAGGC ACTGCCCCGA GTACCACAGT AAGCACTGCC 
    GCCACCACCC CTGGCTCTGC CATAGACACT AGAGAAGAGG TAGGAGATCT TCATGGAGAA 
    ATGCATAAGT TGGTTGATCG TGTTTTTGAT GAAAGTCTCA ACTTCAGAAA GATACCTCCA 
    TTAGTTCATT CTAAAACACC AGAAGGAAAC AACGGTCGGT CTGTTGACTC GAGGCCTCAG 
    CCAGCCGAGC ATCCTGATCA CTTAACAATT ACAAGACGGA GAACCTGGAG TAGGGATGAA 
    GTCATGGGAG ATAATCTGCT ATTGTCATCA GTCTTTCAGT TCTCTAGGAA GATTAGACAA 
    TCCATCGATA AAACAGCTGG GAAAATCAGA ATATTGTTTA AAGACAAAGA CCGGAACTGG 
    GATGACATAG AAAACAAGCT AAGAGCTGAA AGCGAAGTCC CTATCGTTAA AACTTCAAGC 
    ATGGAGATTT CTTCTATTTT ACAGGAGCTT AAAAGAGTTG AAAAACAGTT GCAAGTGATA 
    AATGCCATGA TTGACCCAGA TGGAACTTTG GAGGCTCTTA ACAACATGGG ATTTCCCAAT 
    GCTATCCTGC CATCCCCACC AAAACAGAAG TCCAGCCCTG TTAATAACCA CAGCAGCCCT 
    AGTCAGACGC CAGCACTTTG CCCACCAGAA ACTAGAGCCC TACACCCTGC TGCTGCGGGA 
    GCGGCGGCAG CAGCCTCCAC TGAGTTTGAG AATGCTGAAT CTGAGGCTGA TTTCAGTATC 
    CATTTCAATA GGTTCAACCC TGATGGGGAA GAGGAGGATG TTACAGTACA TGAATGA

    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
050-3174-7589(受注専用)

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