CEP170 cDNA ORF clone, Homo sapiens(human)

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.

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***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
OHu90873 XM_017002945.2
Latest version!
Homo sapiens centrosomal protein 170 (CEP170), transcript variant X26, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu90874 XM_017002946.2
Latest version!
Homo sapiens centrosomal protein 170 (CEP170), transcript variant X27, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu90875 XM_017002948.2
Latest version!
Homo sapiens centrosomal protein 170 (CEP170), transcript variant X29, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu90875 XM_017002947.2
Latest version!
Homo sapiens centrosomal protein 170 (CEP170), transcript variant X28, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu90876 XM_017002949.2
Latest version!
Homo sapiens centrosomal protein 170 (CEP170), transcript variant X30, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu90877 XM_017002950.2
Latest version!
Homo sapiens centrosomal protein 170 (CEP170), transcript variant X31, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu90878 XM_017002951.2
Latest version!
Homo sapiens centrosomal protein 170 (CEP170), transcript variant X32, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu90869 XM_017002940.2
Latest version!
Homo sapiens centrosomal protein 170 (CEP170), transcript variant X17, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu90869 XM_017002935.2
Latest version!
Homo sapiens centrosomal protein 170 (CEP170), transcript variant X15, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu90869 XM_017002939.2
Latest version!
Homo sapiens centrosomal protein 170 (CEP170), transcript variant X16, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu90870 XM_017002937.2
Latest version!
Homo sapiens centrosomal protein 170 (CEP170), transcript variant X18, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu90870 XM_017002941.2
Latest version!
Homo sapiens centrosomal protein 170 (CEP170), transcript variant X19, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu90871 XM_017002938.2
Latest version!
Homo sapiens centrosomal protein 170 (CEP170), transcript variant X20, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu90872 XM_017002942.2
Latest version!
Homo sapiens centrosomal protein 170 (CEP170), transcript variant X21, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu90872 XM_017002943.2
Latest version!
Homo sapiens centrosomal protein 170 (CEP170), transcript variant X22, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu17291 NM_001042404.1
Latest version!
Homo sapiens centrosomal protein 170 (CEP170), transcript variant beta, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $384.30
$549.00
OHu17369 NM_001042405.1
Latest version!
Homo sapiens centrosomal protein 170 (CEP170), transcript variant gamma, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu18583 NM_014812.3
Latest version!
Homo sapiens centrosomal protein 170 (CEP170), transcript variant alpha, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $923.30
$1319.00
OHu18583 XM_017002936.2
Latest version!
Homo sapiens centrosomal protein 170 (CEP170), transcript variant X14, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $923.30
$1319.00
OHu35160 XM_017002932.1
Latest version!
Homo sapiens centrosomal protein 170 (CEP170), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu35160 XM_011544336.2
Latest version!
Homo sapiens centrosomal protein 170 (CEP170), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu35160 XM_011544334.3
Latest version!
Homo sapiens centrosomal protein 170 (CEP170), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu35160 XM_011544335.3
Latest version!
Homo sapiens centrosomal protein 170 (CEP170), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu35160 XM_006711843.4
Latest version!
Homo sapiens centrosomal protein 170 (CEP170), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu35161 XM_011544337.3
Latest version!
Homo sapiens centrosomal protein 170 (CEP170), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu35162 XM_011544338.3
Latest version!
Homo sapiens centrosomal protein 170 (CEP170), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu35163 XM_011544339.3
Latest version!
Homo sapiens centrosomal protein 170 (CEP170), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu35164 XM_011544340.3
Latest version!
Homo sapiens centrosomal protein 170 (CEP170), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu35165 XM_017002934.2
Latest version!
Homo sapiens centrosomal protein 170 (CEP170), transcript variant X13, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu35165 XM_017002933.2
Latest version!
Homo sapiens centrosomal protein 170 (CEP170), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu35165 XM_011544341.3
Latest version!
Homo sapiens centrosomal protein 170 (CEP170), transcript variant X12, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu35166 XM_011544342.3
Latest version!
Homo sapiens centrosomal protein 170 (CEP170), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu35167 XM_017002944.2
Latest version!
Homo sapiens centrosomal protein 170 (CEP170), transcript variant X24, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu35167 XM_011544344.3
Latest version!
Homo sapiens centrosomal protein 170 (CEP170), transcript variant X25, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu63397 XM_011544343.3
Latest version!
Homo sapiens centrosomal protein 170 (CEP170), transcript variant X23, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
View Old Accession Versions >>
OHu90875 XM_017002947.1 Homo sapiens centrosomal protein 170 (CEP170), transcript variant X28, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu90876 XM_017002949.1 Homo sapiens centrosomal protein 170 (CEP170), transcript variant X30, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu35165 XM_017002933.1 Homo sapiens centrosomal protein 170 (CEP170), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu35160 XM_011544335.2 Homo sapiens centrosomal protein 170 (CEP170), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu90871 XM_017002938.1 Homo sapiens centrosomal protein 170 (CEP170), transcript variant X17, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu90877 XM_017002950.1 Homo sapiens centrosomal protein 170 (CEP170), transcript variant X31, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu90878 XM_017002951.1 Homo sapiens centrosomal protein 170 (CEP170), transcript variant X32, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu35165 XM_017002934.1 Homo sapiens centrosomal protein 170 (CEP170), transcript variant X13, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu90875 XM_017002948.1 Homo sapiens centrosomal protein 170 (CEP170), transcript variant X29, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu18583 NM_014812.2 Homo sapiens centrosomal protein 170 (CEP170), transcript variant alpha, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $923.30
$1319.00
OHu35160 XM_006711843.3 Homo sapiens centrosomal protein 170 (CEP170), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu35160 XM_011544334.2 Homo sapiens centrosomal protein 170 (CEP170), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu35164 XM_011544340.2 Homo sapiens centrosomal protein 170 (CEP170), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu35162 XM_011544338.2 Homo sapiens centrosomal protein 170 (CEP170), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu35163 XM_011544339.2 Homo sapiens centrosomal protein 170 (CEP170), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu35166 XM_011544342.2 Homo sapiens centrosomal protein 170 (CEP170), transcript variant X12, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu90869 XM_017002935.1 Homo sapiens centrosomal protein 170 (CEP170), transcript variant X14, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu35167 XM_017002944.1 Homo sapiens centrosomal protein 170 (CEP170), transcript variant X24, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu90874 XM_017002946.1 Homo sapiens centrosomal protein 170 (CEP170), transcript variant X27, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu90869 XM_017002939.1 Homo sapiens centrosomal protein 170 (CEP170), transcript variant X18, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu90870 XM_017002941.1 Homo sapiens centrosomal protein 170 (CEP170), transcript variant X20, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu90872 XM_017002942.1 Homo sapiens centrosomal protein 170 (CEP170), transcript variant X21, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu90869 XM_017002940.1 Homo sapiens centrosomal protein 170 (CEP170), transcript variant X19, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu90873 XM_017002945.1 Homo sapiens centrosomal protein 170 (CEP170), transcript variant X26, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu35161 XM_011544337.2 Homo sapiens centrosomal protein 170 (CEP170), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu35165 XM_011544341.2 Homo sapiens centrosomal protein 170 (CEP170), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu18583 XM_017002936.1 Homo sapiens centrosomal protein 170 (CEP170), transcript variant X15, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $923.30
$1319.00
OHu90870 XM_017002937.1 Homo sapiens centrosomal protein 170 (CEP170), transcript variant X16, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu90872 XM_017002943.1 Homo sapiens centrosomal protein 170 (CEP170), transcript variant X22, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu63397 XM_011544343.2 Homo sapiens centrosomal protein 170 (CEP170), transcript variant X23, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu35167 XM_011544344.2 Homo sapiens centrosomal protein 170 (CEP170), transcript variant X25, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
Hide Old Accession Versions >>

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

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

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

  • Reference Sequences (Refseq)
    CloneID OHu90873
    Clone ID Related Accession (Same CDS sequence) XM_017002945.2 , XM_017002945.1
    Accession Version XM_017002945.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4410bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product centrosomal protein of 170 kDa isoform X15
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017002945.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTGTGTTTGG AGTAGATGAC AATCAGGATT ATAATAGGCC TGTTATCAAC
    GAAAAACATA AAGATCTAAT AAAAGATTGG GCTCTCAGTT CTGCTGCAGC AGTAATGGAA
    GAAAGAAAAC CACTGACTAC ATCTGGATTT CACCACTCAG AGGAAGGCAC ATCTTCATCT
    GGAAGCAAAC GTTGGGTTTC ACAGTGGGCT AGTTTGGCTG CCAATCATAC AAGGCATGAT
    CAAGAAGAAA GGATAATGGA ATTTTCTGCA CCTCTTCCTT TAGAGAATGA GACAGAGATC
    AGTGAGTCTG GCATGACAGT GAGAAGTACT GGCTCTGCAA CTTCCTTGGC TAGCCAGGGA
    GAGAGAAGGA GACGAACTCT TCCCCAGCTT CCAAATGAAG AAAAGTCTCT TGAGAGCCAC
    AGAGCAAAGG TTGTAACACA GAGGTCAGAG ATAGGAGAAA AACAAGACAC AGAACTTCAG
    GAGAAAGAAA CACCTACACA GGTATACCAG AAAGATAAAC AAGATGCTGA CAGACCCTTG
    AGTAAAATGA ACAGGGCAGT AAATGGAGAG ACTCTCAAAA CTGGTGGAGA TAATAAAACC
    CTACTTCACT TAGGCAGCTC TGCTCCTGGA AAAGAGAAAA GTGAAACTGA TAAGGAAACT
    TCTTTGGTAA AGCAAACATT AGCAAAACTT CAACAACAAG AACAAAGGGA GGAGGCTCAG
    TGGACACCTA CTAAATTGTC TTCCAAAAAT GTTTCAGGTC AGACAGATAA ATGTAGGGAG
    GAAACTTTTA AACAAGAATC ACAACCTCCA GAAAAAAATT CAGGACATTC TACAAGCAAA
    GGAGACAGAG TGGCACAAAG TGAGAGCAAG AGAAGAAAAG CTGAGGAAAT TCTGAAAAGT
    CAGACTCCAA AGGGAGGAGA CAAGAAGGAA TCCTCCAAGT CATTAGTGCG ACAAGGGAGC
    TTCACTATAG AAAAACCCAG CCCAAACATA CCCATAGAAC TTATTCCCCA TATAAATAAA
    CAGACTTCCT CTACTCCTTC TTCTTTAGCA TTAACATCTG CAAGTAGAAT ACGAGAAAGA
    AGTGAGTCTT TGGATCCTGA TTCTAGTATG GACACAACCC TTATTCTAAA AGACACAGAA
    GCAGTAATGG CTTTTCTAGA AGCTAAACTA CGTGAAGATA ATAAAACTGA TGAAGGACCA
    GATACTCCCA GTTATAATAG AGACAATTCT ATTTCACCAG AATCTGATGT AGATACAGCT
    AGTACAATCA GTCTGGTTAC TGGAGAAACT GAAAGAAAGT CAACCCAAAA GCGAAAGAGT
    TTCACTAGCC TCTATAAAGA TAGGTGTTCC ACAGGTTCTC CTTCCAAAGA TGTTACAAAA
    TCATCATCTT CAGGTGCTAG GGAAAAAATG GAAAAGAAAA CAAAAAGTCG TTCCACAGAT
    GTGGGTTCAA GAGCAGATGG TCGTAAATTT GTTCAGTCCA GTGGGAGAAT AAGACAGCCC
    TCAGTAGACT TAACAGATGA TGACCAAACC TCTAGTGTAC CTCATTCTGC CATCTCTGAT
    ATTATGTCAT CTGATCAAGA AACTTACTCT TGTAAACCTC ATGGACGGAC TCCACTTACC
    TCAGCTGATG AGCATGTACA TTCCAAACTG GAAGGAAGTA AAGTAACGAA ATCTAAGACT
    TCTCCGGTGG TATCTGGTTC ATCTAGTAAA TCAACCACCC TTCCAAGGCC ACGACCTACC
    AGGACTTCCC TCTTGCGCAG AGCACGACTT GGTGAAGCTT CAGACAGTGA ACTTGCTGAT
    GCTGACAAAG CATCTGTTGC TTCTGAAGTA TCCACAACAA GTTCTACATC AAAACCTCCC
    ACAGGAAGGC GTAACATCTC TCGGATTGAT TTATTGGCTC AGCCTCGTAG AACACGACTT
    GGCTCACTGT CAGCTCGTAG TGACTCTGAA GCAACAATTT CTAGAAGTAG TGCCTCTTCG
    AGGACCGCAG AAGCCATCAT TAGAAGTGGA GCCAGACTAG TACCATCAGA TAAATTTTCT
    CCTAGAATTA GAGCTAACAG TATCTCTCGA CTCTCAGACT CCAAGGTCAA AAGTATGACC
    TCAGCTCATG GCTCTGCTTC AGTAAATTCA AGATGGAGGC GCTTTCCTAC TGATTATGCT
    TCCACCTCAG AAGATGAATT TGGATCAAAC CGTAATTCCC CTAAACATAC CCGTCTACGT
    ACTTCTCCAG CCCTGAAAAC CACTCGCTTG CAGAGCGCTG GATCAGCAAT GCCTACTAGT
    TCTTCATTCA AACACCGGAT TAAAGAGCAG GAAGACTACA TCCGAGATTG GACTGCTCAT
    CGAGAAGAGA TAGCCAGGAT CAGCCAAGAT CTTGCTCTCA TTGCTCGGGA GATCAACGAT
    GTAGCAGGAG AGATAGATTC AGTGACTTCA TCAGGCACTG CCCCTAGTAC CACATTGGTT
    GATCGTGTTT TTGATGAAAG CCTCAACTTC CGAAAGATTC CTCCATTAGT TCATTCCAAA
    ACACCAGAAG GAAACAACGG TCGATCTGGT GATCCAAGAC CTCAAGCAGC AGAGCCTCCC
    GATCACTTAA CAATTACAAG GCGGAGAACC TGGAGCAGGG ATGAAGTCAT GGGAGATAAT
    CTGCTGCTGT CATCCGTCTT TCAGTTCTCT AAGAAGATAA GACAATCTAT AGATAAGACA
    GCTGGAAAGA TCAGAATATT ATTTAAAGAC AAAGATCGGA ATTGGGATGA CATAGAAAGC
    AAATTAAGAG CCGAAAGTGA AGTCCCTATT GTGAAAACCT CAAGCATGGA GATTTCTTCT
    ATCTTACAGG AACTGAAAAG AGTAGAAAAG CAGCTGCAAG CAATCAATGC TATGATTGAT
    CCTGATGGAA CTTTGGAGGC TCTGAACAAC ATGGGATTTC CCAGTGCTAT GTTGCCATCT
    CCACCGAAAC AGAAGTCCAG CCCTGTGAAT AACCACCACA GCCCGGGTCA GACACCAACA
    CTTGGCCAAC CAGAAGCTAG GGCTCTTCAT CCTGCTGCTG TTTCAGCCGC AGCTGAATTT
    GAGAATGCTG AATCTGAGGC TGATTTCAGT ATACATTTCA ATAGATTCAA CCCCGATGGG
    GAAGAGGAAG ATGTTACAGT ACAAGAATGA

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

    RefSeq XP_016858434.1
    CDS234..4643
    Translation

    Target ORF information:

    RefSeq Version XM_017002945.2
    Organism Homo sapiens(human)
    Definition Homo sapiens centrosomal protein 170 (CEP170), transcript variant X26, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017002945.2

    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 AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTGTGTTTGG AGTAGATGAC AATCAGGATT ATAATAGGCC TGTTATCAAC
    GAAAAACATA AAGATCTAAT AAAAGATTGG GCTCTCAGTT CTGCTGCAGC AGTAATGGAA
    GAAAGAAAAC CACTGACTAC ATCTGGATTT CACCACTCAG AGGAAGGCAC ATCTTCATCT
    GGAAGCAAAC GTTGGGTTTC ACAGTGGGCT AGTTTGGCTG CCAATCATAC AAGGCATGAT
    CAAGAAGAAA GGATAATGGA ATTTTCTGCA CCTCTTCCTT TAGAGAATGA GACAGAGATC
    AGTGAGTCTG GCATGACAGT GAGAAGTACT GGCTCTGCAA CTTCCTTGGC TAGCCAGGGA
    GAGAGAAGGA GACGAACTCT TCCCCAGCTT CCAAATGAAG AAAAGTCTCT TGAGAGCCAC
    AGAGCAAAGG TTGTAACACA GAGGTCAGAG ATAGGAGAAA AACAAGACAC AGAACTTCAG
    GAGAAAGAAA CACCTACACA GGTATACCAG AAAGATAAAC AAGATGCTGA CAGACCCTTG
    AGTAAAATGA ACAGGGCAGT AAATGGAGAG ACTCTCAAAA CTGGTGGAGA TAATAAAACC
    CTACTTCACT TAGGCAGCTC TGCTCCTGGA AAAGAGAAAA GTGAAACTGA TAAGGAAACT
    TCTTTGGTAA AGCAAACATT AGCAAAACTT CAACAACAAG AACAAAGGGA GGAGGCTCAG
    TGGACACCTA CTAAATTGTC TTCCAAAAAT GTTTCAGGTC AGACAGATAA ATGTAGGGAG
    GAAACTTTTA AACAAGAATC ACAACCTCCA GAAAAAAATT CAGGACATTC TACAAGCAAA
    GGAGACAGAG TGGCACAAAG TGAGAGCAAG AGAAGAAAAG CTGAGGAAAT TCTGAAAAGT
    CAGACTCCAA AGGGAGGAGA CAAGAAGGAA TCCTCCAAGT CATTAGTGCG ACAAGGGAGC
    TTCACTATAG AAAAACCCAG CCCAAACATA CCCATAGAAC TTATTCCCCA TATAAATAAA
    CAGACTTCCT CTACTCCTTC TTCTTTAGCA TTAACATCTG CAAGTAGAAT ACGAGAAAGA
    AGTGAGTCTT TGGATCCTGA TTCTAGTATG GACACAACCC TTATTCTAAA AGACACAGAA
    GCAGTAATGG CTTTTCTAGA AGCTAAACTA CGTGAAGATA ATAAAACTGA TGAAGGACCA
    GATACTCCCA GTTATAATAG AGACAATTCT ATTTCACCAG AATCTGATGT AGATACAGCT
    AGTACAATCA GTCTGGTTAC TGGAGAAACT GAAAGAAAGT CAACCCAAAA GCGAAAGAGT
    TTCACTAGCC TCTATAAAGA TAGGTGTTCC ACAGGTTCTC CTTCCAAAGA TGTTACAAAA
    TCATCATCTT CAGGTGCTAG GGAAAAAATG GAAAAGAAAA CAAAAAGTCG TTCCACAGAT
    GTGGGTTCAA GAGCAGATGG TCGTAAATTT GTTCAGTCCA GTGGGAGAAT AAGACAGCCC
    TCAGTAGACT TAACAGATGA TGACCAAACC TCTAGTGTAC CTCATTCTGC CATCTCTGAT
    ATTATGTCAT CTGATCAAGA AACTTACTCT TGTAAACCTC ATGGACGGAC TCCACTTACC
    TCAGCTGATG AGCATGTACA TTCCAAACTG GAAGGAAGTA AAGTAACGAA ATCTAAGACT
    TCTCCGGTGG TATCTGGTTC ATCTAGTAAA TCAACCACCC TTCCAAGGCC ACGACCTACC
    AGGACTTCCC TCTTGCGCAG AGCACGACTT GGTGAAGCTT CAGACAGTGA ACTTGCTGAT
    GCTGACAAAG CATCTGTTGC TTCTGAAGTA TCCACAACAA GTTCTACATC AAAACCTCCC
    ACAGGAAGGC GTAACATCTC TCGGATTGAT TTATTGGCTC AGCCTCGTAG AACACGACTT
    GGCTCACTGT CAGCTCGTAG TGACTCTGAA GCAACAATTT CTAGAAGTAG TGCCTCTTCG
    AGGACCGCAG AAGCCATCAT TAGAAGTGGA GCCAGACTAG TACCATCAGA TAAATTTTCT
    CCTAGAATTA GAGCTAACAG TATCTCTCGA CTCTCAGACT CCAAGGTCAA AAGTATGACC
    TCAGCTCATG GCTCTGCTTC AGTAAATTCA AGATGGAGGC GCTTTCCTAC TGATTATGCT
    TCCACCTCAG AAGATGAATT TGGATCAAAC CGTAATTCCC CTAAACATAC CCGTCTACGT
    ACTTCTCCAG CCCTGAAAAC CACTCGCTTG CAGAGCGCTG GATCAGCAAT GCCTACTAGT
    TCTTCATTCA AACACCGGAT TAAAGAGCAG GAAGACTACA TCCGAGATTG GACTGCTCAT
    CGAGAAGAGA TAGCCAGGAT CAGCCAAGAT CTTGCTCTCA TTGCTCGGGA GATCAACGAT
    GTAGCAGGAG AGATAGATTC AGTGACTTCA TCAGGCACTG CCCCTAGTAC CACATTGGTT
    GATCGTGTTT TTGATGAAAG CCTCAACTTC CGAAAGATTC CTCCATTAGT TCATTCCAAA
    ACACCAGAAG GAAACAACGG TCGATCTGGT GATCCAAGAC CTCAAGCAGC AGAGCCTCCC
    GATCACTTAA CAATTACAAG GCGGAGAACC TGGAGCAGGG ATGAAGTCAT GGGAGATAAT
    CTGCTGCTGT CATCCGTCTT TCAGTTCTCT AAGAAGATAA GACAATCTAT AGATAAGACA
    GCTGGAAAGA TCAGAATATT ATTTAAAGAC AAAGATCGGA ATTGGGATGA CATAGAAAGC
    AAATTAAGAG CCGAAAGTGA AGTCCCTATT GTGAAAACCT CAAGCATGGA GATTTCTTCT
    ATCTTACAGG AACTGAAAAG AGTAGAAAAG CAGCTGCAAG CAATCAATGC TATGATTGAT
    CCTGATGGAA CTTTGGAGGC TCTGAACAAC ATGGGATTTC CCAGTGCTAT GTTGCCATCT
    CCACCGAAAC AGAAGTCCAG CCCTGTGAAT AACCACCACA GCCCGGGTCA GACACCAACA
    CTTGGCCAAC CAGAAGCTAG GGCTCTTCAT CCTGCTGCTG TTTCAGCCGC AGCTGAATTT
    GAGAATGCTG AATCTGAGGC TGATTTCAGT ATACATTTCA ATAGATTCAA CCCCGATGGG
    GAAGAGGAAG ATGTTACAGT ACAAGAATGA

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

    CloneID OHu90873
    Clone ID Related Accession (Same CDS sequence) XM_017002945.2 , XM_017002945.1
    Accession Version XM_017002945.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4410bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product centrosomal protein of 170 kDa isoform X15
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTGTGTTTGG AGTAGATGAC AATCAGGATT ATAATAGGCC TGTTATCAAC
    GAAAAACATA AAGATCTAAT AAAAGATTGG GCTCTCAGTT CTGCTGCAGC AGTAATGGAA
    GAAAGAAAAC CACTGACTAC ATCTGGATTT CACCACTCAG AGGAAGGCAC ATCTTCATCT
    GGAAGCAAAC GTTGGGTTTC ACAGTGGGCT AGTTTGGCTG CCAATCATAC AAGGCATGAT
    CAAGAAGAAA GGATAATGGA ATTTTCTGCA CCTCTTCCTT TAGAGAATGA GACAGAGATC
    AGTGAGTCTG GCATGACAGT GAGAAGTACT GGCTCTGCAA CTTCCTTGGC TAGCCAGGGA
    GAGAGAAGGA GACGAACTCT TCCCCAGCTT CCAAATGAAG AAAAGTCTCT TGAGAGCCAC
    AGAGCAAAGG TTGTAACACA GAGGTCAGAG ATAGGAGAAA AACAAGACAC AGAACTTCAG
    GAGAAAGAAA CACCTACACA GGTATACCAG AAAGATAAAC AAGATGCTGA CAGACCCTTG
    AGTAAAATGA ACAGGGCAGT AAATGGAGAG ACTCTCAAAA CTGGTGGAGA TAATAAAACC
    CTACTTCACT TAGGCAGCTC TGCTCCTGGA AAAGAGAAAA GTGAAACTGA TAAGGAAACT
    TCTTTGGTAA AGCAAACATT AGCAAAACTT CAACAACAAG AACAAAGGGA GGAGGCTCAG
    TGGACACCTA CTAAATTGTC TTCCAAAAAT GTTTCAGGTC AGACAGATAA ATGTAGGGAG
    GAAACTTTTA AACAAGAATC ACAACCTCCA GAAAAAAATT CAGGACATTC TACAAGCAAA
    GGAGACAGAG TGGCACAAAG TGAGAGCAAG AGAAGAAAAG CTGAGGAAAT TCTGAAAAGT
    CAGACTCCAA AGGGAGGAGA CAAGAAGGAA TCCTCCAAGT CATTAGTGCG ACAAGGGAGC
    TTCACTATAG AAAAACCCAG CCCAAACATA CCCATAGAAC TTATTCCCCA TATAAATAAA
    CAGACTTCCT CTACTCCTTC TTCTTTAGCA TTAACATCTG CAAGTAGAAT ACGAGAAAGA
    AGTGAGTCTT TGGATCCTGA TTCTAGTATG GACACAACCC TTATTCTAAA AGACACAGAA
    GCAGTAATGG CTTTTCTAGA AGCTAAACTA CGTGAAGATA ATAAAACTGA TGAAGGACCA
    GATACTCCCA GTTATAATAG AGACAATTCT ATTTCACCAG AATCTGATGT AGATACAGCT
    AGTACAATCA GTCTGGTTAC TGGAGAAACT GAAAGAAAGT CAACCCAAAA GCGAAAGAGT
    TTCACTAGCC TCTATAAAGA TAGGTGTTCC ACAGGTTCTC CTTCCAAAGA TGTTACAAAA
    TCATCATCTT CAGGTGCTAG GGAAAAAATG GAAAAGAAAA CAAAAAGTCG TTCCACAGAT
    GTGGGTTCAA GAGCAGATGG TCGTAAATTT GTTCAGTCCA GTGGGAGAAT AAGACAGCCC
    TCAGTAGACT TAACAGATGA TGACCAAACC TCTAGTGTAC CTCATTCTGC CATCTCTGAT
    ATTATGTCAT CTGATCAAGA AACTTACTCT TGTAAACCTC ATGGACGGAC TCCACTTACC
    TCAGCTGATG AGCATGTACA TTCCAAACTG GAAGGAAGTA AAGTAACGAA ATCTAAGACT
    TCTCCGGTGG TATCTGGTTC ATCTAGTAAA TCAACCACCC TTCCAAGGCC ACGACCTACC
    AGGACTTCCC TCTTGCGCAG AGCACGACTT GGTGAAGCTT CAGACAGTGA ACTTGCTGAT
    GCTGACAAAG CATCTGTTGC TTCTGAAGTA TCCACAACAA GTTCTACATC AAAACCTCCC
    ACAGGAAGGC GTAACATCTC TCGGATTGAT TTATTGGCTC AGCCTCGTAG AACACGACTT
    GGCTCACTGT CAGCTCGTAG TGACTCTGAA GCAACAATTT CTAGAAGTAG TGCCTCTTCG
    AGGACCGCAG AAGCCATCAT TAGAAGTGGA GCCAGACTAG TACCATCAGA TAAATTTTCT
    CCTAGAATTA GAGCTAACAG TATCTCTCGA CTCTCAGACT CCAAGGTCAA AAGTATGACC
    TCAGCTCATG GCTCTGCTTC AGTAAATTCA AGATGGAGGC GCTTTCCTAC TGATTATGCT
    TCCACCTCAG AAGATGAATT TGGATCAAAC CGTAATTCCC CTAAACATAC CCGTCTACGT
    ACTTCTCCAG CCCTGAAAAC CACTCGCTTG CAGAGCGCTG GATCAGCAAT GCCTACTAGT
    TCTTCATTCA AACACCGGAT TAAAGAGCAG GAAGACTACA TCCGAGATTG GACTGCTCAT
    CGAGAAGAGA TAGCCAGGAT CAGCCAAGAT CTTGCTCTCA TTGCTCGGGA GATCAACGAT
    GTAGCAGGAG AGATAGATTC AGTGACTTCA TCAGGCACTG CCCCTAGTAC CACATTGGTT
    GATCGTGTTT TTGATGAAAG CCTCAACTTC CGAAAGATTC CTCCATTAGT TCATTCCAAA
    ACACCAGAAG GAAACAACGG TCGATCTGGT GATCCAAGAC CTCAAGCAGC AGAGCCTCCC
    GATCACTTAA CAATTACAAG GCGGAGAACC TGGAGCAGGG ATGAAGTCAT GGGAGATAAT
    CTGCTGCTGT CATCCGTCTT TCAGTTCTCT AAGAAGATAA GACAATCTAT AGATAAGACA
    GCTGGAAAGA TCAGAATATT ATTTAAAGAC AAAGATCGGA ATTGGGATGA CATAGAAAGC
    AAATTAAGAG CCGAAAGTGA AGTCCCTATT GTGAAAACCT CAAGCATGGA GATTTCTTCT
    ATCTTACAGG AACTGAAAAG AGTAGAAAAG CAGCTGCAAG CAATCAATGC TATGATTGAT
    CCTGATGGAA CTTTGGAGGC TCTGAACAAC ATGGGATTTC CCAGTGCTAT GTTGCCATCT
    CCACCGAAAC AGAAGTCCAG CCCTGTGAAT AACCACCACA GCCCGGGTCA GACACCAACA
    CTTGGCCAAC CAGAAGCTAG GGCTCTTCAT CCTGCTGCTG TTTCAGCCGC AGCTGAATTT
    GAGAATGCTG AATCTGAGGC TGATTTCAGT ATACATTTCA ATAGATTCAA CCCCGATGGG
    GAAGAGGAAG ATGTTACAGT ACAAGAATGA

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

    RefSeq XP_016858434.1
    CDS939..5348
    Translation

    Target ORF information:

    RefSeq Version XM_017002945.1
    Organism Homo sapiens(human)
    Definition Homo sapiens centrosomal protein 170 (CEP170), transcript variant X26, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017002945.1

    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 AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTGTGTTTGG AGTAGATGAC AATCAGGATT ATAATAGGCC TGTTATCAAC
    GAAAAACATA AAGATCTAAT AAAAGATTGG GCTCTCAGTT CTGCTGCAGC AGTAATGGAA
    GAAAGAAAAC CACTGACTAC ATCTGGATTT CACCACTCAG AGGAAGGCAC ATCTTCATCT
    GGAAGCAAAC GTTGGGTTTC ACAGTGGGCT AGTTTGGCTG CCAATCATAC AAGGCATGAT
    CAAGAAGAAA GGATAATGGA ATTTTCTGCA CCTCTTCCTT TAGAGAATGA GACAGAGATC
    AGTGAGTCTG GCATGACAGT GAGAAGTACT GGCTCTGCAA CTTCCTTGGC TAGCCAGGGA
    GAGAGAAGGA GACGAACTCT TCCCCAGCTT CCAAATGAAG AAAAGTCTCT TGAGAGCCAC
    AGAGCAAAGG TTGTAACACA GAGGTCAGAG ATAGGAGAAA AACAAGACAC AGAACTTCAG
    GAGAAAGAAA CACCTACACA GGTATACCAG AAAGATAAAC AAGATGCTGA CAGACCCTTG
    AGTAAAATGA ACAGGGCAGT AAATGGAGAG ACTCTCAAAA CTGGTGGAGA TAATAAAACC
    CTACTTCACT TAGGCAGCTC TGCTCCTGGA AAAGAGAAAA GTGAAACTGA TAAGGAAACT
    TCTTTGGTAA AGCAAACATT AGCAAAACTT CAACAACAAG AACAAAGGGA GGAGGCTCAG
    TGGACACCTA CTAAATTGTC TTCCAAAAAT GTTTCAGGTC AGACAGATAA ATGTAGGGAG
    GAAACTTTTA AACAAGAATC ACAACCTCCA GAAAAAAATT CAGGACATTC TACAAGCAAA
    GGAGACAGAG TGGCACAAAG TGAGAGCAAG AGAAGAAAAG CTGAGGAAAT TCTGAAAAGT
    CAGACTCCAA AGGGAGGAGA CAAGAAGGAA TCCTCCAAGT CATTAGTGCG ACAAGGGAGC
    TTCACTATAG AAAAACCCAG CCCAAACATA CCCATAGAAC TTATTCCCCA TATAAATAAA
    CAGACTTCCT CTACTCCTTC TTCTTTAGCA TTAACATCTG CAAGTAGAAT ACGAGAAAGA
    AGTGAGTCTT TGGATCCTGA TTCTAGTATG GACACAACCC TTATTCTAAA AGACACAGAA
    GCAGTAATGG CTTTTCTAGA AGCTAAACTA CGTGAAGATA ATAAAACTGA TGAAGGACCA
    GATACTCCCA GTTATAATAG AGACAATTCT ATTTCACCAG AATCTGATGT AGATACAGCT
    AGTACAATCA GTCTGGTTAC TGGAGAAACT GAAAGAAAGT CAACCCAAAA GCGAAAGAGT
    TTCACTAGCC TCTATAAAGA TAGGTGTTCC ACAGGTTCTC CTTCCAAAGA TGTTACAAAA
    TCATCATCTT CAGGTGCTAG GGAAAAAATG GAAAAGAAAA CAAAAAGTCG TTCCACAGAT
    GTGGGTTCAA GAGCAGATGG TCGTAAATTT GTTCAGTCCA GTGGGAGAAT AAGACAGCCC
    TCAGTAGACT TAACAGATGA TGACCAAACC TCTAGTGTAC CTCATTCTGC CATCTCTGAT
    ATTATGTCAT CTGATCAAGA AACTTACTCT TGTAAACCTC ATGGACGGAC TCCACTTACC
    TCAGCTGATG AGCATGTACA TTCCAAACTG GAAGGAAGTA AAGTAACGAA ATCTAAGACT
    TCTCCGGTGG TATCTGGTTC ATCTAGTAAA TCAACCACCC TTCCAAGGCC ACGACCTACC
    AGGACTTCCC TCTTGCGCAG AGCACGACTT GGTGAAGCTT CAGACAGTGA ACTTGCTGAT
    GCTGACAAAG CATCTGTTGC TTCTGAAGTA TCCACAACAA GTTCTACATC AAAACCTCCC
    ACAGGAAGGC GTAACATCTC TCGGATTGAT TTATTGGCTC AGCCTCGTAG AACACGACTT
    GGCTCACTGT CAGCTCGTAG TGACTCTGAA GCAACAATTT CTAGAAGTAG TGCCTCTTCG
    AGGACCGCAG AAGCCATCAT TAGAAGTGGA GCCAGACTAG TACCATCAGA TAAATTTTCT
    CCTAGAATTA GAGCTAACAG TATCTCTCGA CTCTCAGACT CCAAGGTCAA AAGTATGACC
    TCAGCTCATG GCTCTGCTTC AGTAAATTCA AGATGGAGGC GCTTTCCTAC TGATTATGCT
    TCCACCTCAG AAGATGAATT TGGATCAAAC CGTAATTCCC CTAAACATAC CCGTCTACGT
    ACTTCTCCAG CCCTGAAAAC CACTCGCTTG CAGAGCGCTG GATCAGCAAT GCCTACTAGT
    TCTTCATTCA AACACCGGAT TAAAGAGCAG GAAGACTACA TCCGAGATTG GACTGCTCAT
    CGAGAAGAGA TAGCCAGGAT CAGCCAAGAT CTTGCTCTCA TTGCTCGGGA GATCAACGAT
    GTAGCAGGAG AGATAGATTC AGTGACTTCA TCAGGCACTG CCCCTAGTAC CACATTGGTT
    GATCGTGTTT TTGATGAAAG CCTCAACTTC CGAAAGATTC CTCCATTAGT TCATTCCAAA
    ACACCAGAAG GAAACAACGG TCGATCTGGT GATCCAAGAC CTCAAGCAGC AGAGCCTCCC
    GATCACTTAA CAATTACAAG GCGGAGAACC TGGAGCAGGG ATGAAGTCAT GGGAGATAAT
    CTGCTGCTGT CATCCGTCTT TCAGTTCTCT AAGAAGATAA GACAATCTAT AGATAAGACA
    GCTGGAAAGA TCAGAATATT ATTTAAAGAC AAAGATCGGA ATTGGGATGA CATAGAAAGC
    AAATTAAGAG CCGAAAGTGA AGTCCCTATT GTGAAAACCT CAAGCATGGA GATTTCTTCT
    ATCTTACAGG AACTGAAAAG AGTAGAAAAG CAGCTGCAAG CAATCAATGC TATGATTGAT
    CCTGATGGAA CTTTGGAGGC TCTGAACAAC ATGGGATTTC CCAGTGCTAT GTTGCCATCT
    CCACCGAAAC AGAAGTCCAG CCCTGTGAAT AACCACCACA GCCCGGGTCA GACACCAACA
    CTTGGCCAAC CAGAAGCTAG GGCTCTTCAT CCTGCTGCTG TTTCAGCCGC AGCTGAATTT
    GAGAATGCTG AATCTGAGGC TGATTTCAGT ATACATTTCA ATAGATTCAA CCCCGATGGG
    GAAGAGGAAG ATGTTACAGT ACAAGAATGA

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

    CloneID OHu90874
    Clone ID Related Accession (Same CDS sequence) XM_017002946.1 , XM_017002946.2
    Accession Version XM_017002946.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4308bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product centrosomal protein of 170 kDa isoform X16
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGAAATAAAC ATGATGATGG TACGCAAAGT
    GATTCAGAGA ACGCTGGGGC TCACAGGCGC TGTAGCAAAC GTGCAACTCT TGAGGAACAC
    TTAAGACGCC ACCATTCAGA ACACAAAAAG CTACAGAAGG TCCAGGCTAC TGAAAAGCAT
    CAAGACCAAG CTGTTACTAG CTCTGCGCAT CACAGAGGGG GGCATGGTGT TCCACATGGG
    AAATTGTTAA AACAGAAATC AGAGGAGCCA TCGGTGTCAA TACCCTTCCT ACAAACTGCA
    TTATTAAGAA GTTCAGGGAG TCTTGGGCAC AGACCAAGCC AGGAGATGGA TAAAATGTTA
    AAAAATCAAG CAACTTCTGC TACTTCTGAA AAGGATAATG ATGATGACCA AAGTGACAAG
    GGTACTTATA CCATTGAGTT AGAGAATCCC AACAGTGAGG AAGTGGAAGC AAGAAAAATG
    ATTGACAAGG TGTTTGGAGT AGATGACAAT CAGGATTATA ATAGGCCTGT TATCAACGAA
    AAACATAAAG ATCTAATAAA AGATTGGGCT CTCAGTTCTG CTGCAGCAGT AATGGAAGAA
    AGAAAACCAC TGACTACATC TGGATTTCAC CACTCAGAGG AAGGCACATC TTCATCTGGA
    AGCAAACGTT GGGTTTCACA GTGGGCTAGT TTGGCTGCCA ATCATACAAG GCATGATCAA
    GAAGAAAGGA TAATGGAATT TTCTGCACCT CTTCCTTTAG AGAATGAGAC AGAGATCAGT
    GAGTCTGGCA TGACAGTGAG AAGTACTGGC TCTGCAACTT CCTTGGCTAG CCAGGGAGAG
    AGAAGGAGAC GAACTCTTCC CCAGCTTCCA AATGAAGAAA AGTCTCTTGA GAGCCACAGA
    GCAAAGGTTG TAACACAGAG GTCAGAGATA GGAGAAAAAC AAGACACAGA ACTTCAGGAG
    AAAGAAACAC CTACACAGGT ATACCAGAAA GATAAACAAG ATGCTGACAG ACCCTTGAGT
    AAAATGAACA GGGCAGTAAA TGGAGAGACT CTCAAAACTG GTGGAGATAA TAAAACCCTA
    CTTCACTTAG GCAGCTCTGC TCCTGGAAAA GAGAAAAGTG AAACTGATAA GGAAACTTCT
    TTGGTAAAGC AAACATTAGC AAAACTTCAA CAACAAGAAC AAAGGGAGGA GGCTCAGTGG
    ACACCTACTA AATTGTCTTC CAAAAATGTT TCAGGTCAGA CAGATAAATG TAGGGAGGAA
    ACTTTTAAAC AAGAATCACA ACCTCCAGAA AAAAATTCAG GACATTCTAC AAGCAAAGGA
    GACAGAGTGG CACAAAGTGA GAGCAAGAGA AGAAAAGCTG AGGAAATTCT GAAAAGTCAG
    ACTCCAAAGG GAGGAGACAA GAAGGAATCC TCCAAGTCAT TAGTGCGACA AGGGAGCTTC
    ACTATAGAAA AACCCAGCCC AAACATACCC ATAGAACTTA TTCCCCATAT AAATAAACAG
    ACTTCCTCTA CTCCTTCTTC TTTAGCATTA ACATCTGCAA GTAGAATACG AGAAAGAAGT
    GAGTCTTTGG ATCCTGATTC TAGTATGGAC ACAACCCTTA TTCTAAAAGA CACAGAAGCA
    GTAATGGCTT TTCTAGAAGC TAAACTACGT GAAGATAATA AAACTGATGA AGGACCAGAT
    ACTCCCAGTT ATAATAGAGA CAATTCTATT TCACCAGAAT CTGATGTAGA TACAGCTAGT
    ACAATCAGTC TGGTTACTGG AGAAACTGAA AGAAAGTCAA CCCAAAAGCG AAAGAGTTTC
    ACTAGCCTCT ATAAAGATAG GTGTTCCACA GGTTCTCCTT CCAAAGATGT TACAAAATCA
    TCATCTTCAG GTGCTAGGGA AAAAATGGAA AAGAAAACAA AAAGTCGTTC CACAGATGTG
    GGTTCAAGAG CAGATGGTCG TAAATTTGTT CAGTCCAGTG GGAGAATAAG ACAGCCCTCA
    GTAGACTTAA CAGATGATGA CCAAACCTCT AGTGTACCTC ATTCTGCCAT CTCTGATATT
    ATGTCATCTG ATCAAGAAAC TTACTCTTGT AAACCTCATG GACGGACTCC ACTTACCTCA
    GCTGATGAGC ATGTACATTC CAAACTGGAA GGAAGTAAAG TAACGAAATC TAAGACTTCT
    CCGGTGGTAT CTGGTTCATC TAGTAAATCA ACCACCCTTC CAAGGCCACG ACCTACCAGG
    ACTTCCCTCT TGCGCAGAGC ACGACTTGGT GAAGCTTCAG ACAGTGAACT TGCTGATGCT
    GACAAAGCAT CTGTTGCTTC TGAAGTATCC ACAACAAGTT CTACATCAAA ACCTCCCACA
    GGAAGGCGTA ACATCTCTCG GATTGATTTA TTGGCTCAGC CTCGTAGAAC ACGACTTGGC
    TCACTGTCAG CTCGTAGTGA CTCTGAAGCA ACAATTTCTA GAAGTAGTGC CTCTTCGAGG
    ACCGCAGAAG CCATCATTAG AAGTGGAGCC AGACTAGTAC CATCAGATAA ATTTTCTCCT
    AGAATTAGAG CTAACAGTAT CTCTCGACTC TCAGACTCCA AGGTCAAAAG TATGACCTCA
    GCTCATGGCT CTGCTTCAGT AAATTCAAGA TGGAGGCGCT TTCCTACTGA TTATGCTTCC
    ACCTCAGAAG ATGAATTTGG ATCAAACCGT AATTCCCCTA AACATACCCG TCTACGTACT
    TCTCCAGCCC TGAAAACCAC TCGCTTGCAG AGCGCTGGAT CAGCAATGCC TACTAGTTCT
    TCATTCAAAC ACCGGATTAA AGAGCAGGAA GACTACATCC GAGATTGGAC TGCTCATCGA
    GAAGAGATAG CCAGGATCAG CCAAGATCTT GCTCTCATTG CTCGGGAGAT CAACGATGTA
    GCAGGAGAGA TAGATTCAGT GACTTCATCA GGCACTGCCC CTAGTACCAC AGTAAGCACT
    GCTGCCACCA CCCCTGGCTC TGCCATAGAC ACTAGAGAAG AGGTAGGAGA TCTTCATGGA
    GAAATGCATA AGTTGGTTGA TCGTGTTTTT GATGAAAGCC TCAACTTCCG AAAGATTCCT
    CCATTAGTTC ATTCCAAAAC ACCAGAAGGA AACAACGGTC GATCTGGTGA TCCAAGACCT
    CAAGCAGCAG AGCCTCCCGA TCACTTAACA ATTACAAGGC GGAGAACCTG GAGCAGGGAT
    GAAGTCATGG GAGATAATCT GCTGCTGTCA TCCGTCTTTC AGTTCTCTAA GAAGATAAGA
    CAATCTATAG ATAAGACAGC TGGAAAGATC AGAATATTAT TTAAAGACAA AGATCGGAAT
    TGGGATGACA TAGAAAGCAA ATTAAGAGCC GAAAGTGAAG TCCCTATTGT GAAAACCTCA
    AGCATGGAGA TTTCTTCTAT CTTACAGGAA CTGAAAAGAG TAGAAAAGCA GCTGCAAGCA
    ATCAATGCTA TGATTGATCC TGATGGAACT TTGGAGGCTC TGAACAACAT GGGATTTCCC
    AGTGCTATGT TGCCATCTCC ACCGAAACAG AAGTCCAGCC CTGTGAATAA CCACCACAGC
    CCGGGTCAGA CACCAACACT TGGCCAACCA GAAGCTAGGG CTCTTCATCC TGCTGCTGTT
    TCAGCCGCAG CTGAATTTGA GAATGCTGAA TCTGAGGCTG ATTTCAGTAT ACATTTCAAT
    AGATTCAACC CCGATGGGGA AGAGGAAGAT GTTACAGTAC AAGAATGA

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

    RefSeq XP_016858435.1
    CDS889..5196
    Translation

    Target ORF information:

    RefSeq Version XM_017002946.1
    Organism Homo sapiens(human)
    Definition Homo sapiens centrosomal protein 170 (CEP170), transcript variant X27, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017002946.1

    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGAAATAAAC ATGATGATGG TACGCAAAGT
    GATTCAGAGA ACGCTGGGGC TCACAGGCGC TGTAGCAAAC GTGCAACTCT TGAGGAACAC
    TTAAGACGCC ACCATTCAGA ACACAAAAAG CTACAGAAGG TCCAGGCTAC TGAAAAGCAT
    CAAGACCAAG CTGTTACTAG CTCTGCGCAT CACAGAGGGG GGCATGGTGT TCCACATGGG
    AAATTGTTAA AACAGAAATC AGAGGAGCCA TCGGTGTCAA TACCCTTCCT ACAAACTGCA
    TTATTAAGAA GTTCAGGGAG TCTTGGGCAC AGACCAAGCC AGGAGATGGA TAAAATGTTA
    AAAAATCAAG CAACTTCTGC TACTTCTGAA AAGGATAATG ATGATGACCA AAGTGACAAG
    GGTACTTATA CCATTGAGTT AGAGAATCCC AACAGTGAGG AAGTGGAAGC AAGAAAAATG
    ATTGACAAGG TGTTTGGAGT AGATGACAAT CAGGATTATA ATAGGCCTGT TATCAACGAA
    AAACATAAAG ATCTAATAAA AGATTGGGCT CTCAGTTCTG CTGCAGCAGT AATGGAAGAA
    AGAAAACCAC TGACTACATC TGGATTTCAC CACTCAGAGG AAGGCACATC TTCATCTGGA
    AGCAAACGTT GGGTTTCACA GTGGGCTAGT TTGGCTGCCA ATCATACAAG GCATGATCAA
    GAAGAAAGGA TAATGGAATT TTCTGCACCT CTTCCTTTAG AGAATGAGAC AGAGATCAGT
    GAGTCTGGCA TGACAGTGAG AAGTACTGGC TCTGCAACTT CCTTGGCTAG CCAGGGAGAG
    AGAAGGAGAC GAACTCTTCC CCAGCTTCCA AATGAAGAAA AGTCTCTTGA GAGCCACAGA
    GCAAAGGTTG TAACACAGAG GTCAGAGATA GGAGAAAAAC AAGACACAGA ACTTCAGGAG
    AAAGAAACAC CTACACAGGT ATACCAGAAA GATAAACAAG ATGCTGACAG ACCCTTGAGT
    AAAATGAACA GGGCAGTAAA TGGAGAGACT CTCAAAACTG GTGGAGATAA TAAAACCCTA
    CTTCACTTAG GCAGCTCTGC TCCTGGAAAA GAGAAAAGTG AAACTGATAA GGAAACTTCT
    TTGGTAAAGC AAACATTAGC AAAACTTCAA CAACAAGAAC AAAGGGAGGA GGCTCAGTGG
    ACACCTACTA AATTGTCTTC CAAAAATGTT TCAGGTCAGA CAGATAAATG TAGGGAGGAA
    ACTTTTAAAC AAGAATCACA ACCTCCAGAA AAAAATTCAG GACATTCTAC AAGCAAAGGA
    GACAGAGTGG CACAAAGTGA GAGCAAGAGA AGAAAAGCTG AGGAAATTCT GAAAAGTCAG
    ACTCCAAAGG GAGGAGACAA GAAGGAATCC TCCAAGTCAT TAGTGCGACA AGGGAGCTTC
    ACTATAGAAA AACCCAGCCC AAACATACCC ATAGAACTTA TTCCCCATAT AAATAAACAG
    ACTTCCTCTA CTCCTTCTTC TTTAGCATTA ACATCTGCAA GTAGAATACG AGAAAGAAGT
    GAGTCTTTGG ATCCTGATTC TAGTATGGAC ACAACCCTTA TTCTAAAAGA CACAGAAGCA
    GTAATGGCTT TTCTAGAAGC TAAACTACGT GAAGATAATA AAACTGATGA AGGACCAGAT
    ACTCCCAGTT ATAATAGAGA CAATTCTATT TCACCAGAAT CTGATGTAGA TACAGCTAGT
    ACAATCAGTC TGGTTACTGG AGAAACTGAA AGAAAGTCAA CCCAAAAGCG AAAGAGTTTC
    ACTAGCCTCT ATAAAGATAG GTGTTCCACA GGTTCTCCTT CCAAAGATGT TACAAAATCA
    TCATCTTCAG GTGCTAGGGA AAAAATGGAA AAGAAAACAA AAAGTCGTTC CACAGATGTG
    GGTTCAAGAG CAGATGGTCG TAAATTTGTT CAGTCCAGTG GGAGAATAAG ACAGCCCTCA
    GTAGACTTAA CAGATGATGA CCAAACCTCT AGTGTACCTC ATTCTGCCAT CTCTGATATT
    ATGTCATCTG ATCAAGAAAC TTACTCTTGT AAACCTCATG GACGGACTCC ACTTACCTCA
    GCTGATGAGC ATGTACATTC CAAACTGGAA GGAAGTAAAG TAACGAAATC TAAGACTTCT
    CCGGTGGTAT CTGGTTCATC TAGTAAATCA ACCACCCTTC CAAGGCCACG ACCTACCAGG
    ACTTCCCTCT TGCGCAGAGC ACGACTTGGT GAAGCTTCAG ACAGTGAACT TGCTGATGCT
    GACAAAGCAT CTGTTGCTTC TGAAGTATCC ACAACAAGTT CTACATCAAA ACCTCCCACA
    GGAAGGCGTA ACATCTCTCG GATTGATTTA TTGGCTCAGC CTCGTAGAAC ACGACTTGGC
    TCACTGTCAG CTCGTAGTGA CTCTGAAGCA ACAATTTCTA GAAGTAGTGC CTCTTCGAGG
    ACCGCAGAAG CCATCATTAG AAGTGGAGCC AGACTAGTAC CATCAGATAA ATTTTCTCCT
    AGAATTAGAG CTAACAGTAT CTCTCGACTC TCAGACTCCA AGGTCAAAAG TATGACCTCA
    GCTCATGGCT CTGCTTCAGT AAATTCAAGA TGGAGGCGCT TTCCTACTGA TTATGCTTCC
    ACCTCAGAAG ATGAATTTGG ATCAAACCGT AATTCCCCTA AACATACCCG TCTACGTACT
    TCTCCAGCCC TGAAAACCAC TCGCTTGCAG AGCGCTGGAT CAGCAATGCC TACTAGTTCT
    TCATTCAAAC ACCGGATTAA AGAGCAGGAA GACTACATCC GAGATTGGAC TGCTCATCGA
    GAAGAGATAG CCAGGATCAG CCAAGATCTT GCTCTCATTG CTCGGGAGAT CAACGATGTA
    GCAGGAGAGA TAGATTCAGT GACTTCATCA GGCACTGCCC CTAGTACCAC AGTAAGCACT
    GCTGCCACCA CCCCTGGCTC TGCCATAGAC ACTAGAGAAG AGGTAGGAGA TCTTCATGGA
    GAAATGCATA AGTTGGTTGA TCGTGTTTTT GATGAAAGCC TCAACTTCCG AAAGATTCCT
    CCATTAGTTC ATTCCAAAAC ACCAGAAGGA AACAACGGTC GATCTGGTGA TCCAAGACCT
    CAAGCAGCAG AGCCTCCCGA TCACTTAACA ATTACAAGGC GGAGAACCTG GAGCAGGGAT
    GAAGTCATGG GAGATAATCT GCTGCTGTCA TCCGTCTTTC AGTTCTCTAA GAAGATAAGA
    CAATCTATAG ATAAGACAGC TGGAAAGATC AGAATATTAT TTAAAGACAA AGATCGGAAT
    TGGGATGACA TAGAAAGCAA ATTAAGAGCC GAAAGTGAAG TCCCTATTGT GAAAACCTCA
    AGCATGGAGA TTTCTTCTAT CTTACAGGAA CTGAAAAGAG TAGAAAAGCA GCTGCAAGCA
    ATCAATGCTA TGATTGATCC TGATGGAACT TTGGAGGCTC TGAACAACAT GGGATTTCCC
    AGTGCTATGT TGCCATCTCC ACCGAAACAG AAGTCCAGCC CTGTGAATAA CCACCACAGC
    CCGGGTCAGA CACCAACACT TGGCCAACCA GAAGCTAGGG CTCTTCATCC TGCTGCTGTT
    TCAGCCGCAG CTGAATTTGA GAATGCTGAA TCTGAGGCTG ATTTCAGTAT ACATTTCAAT
    AGATTCAACC CCGATGGGGA AGAGGAAGAT GTTACAGTAC AAGAATGA

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

    CloneID OHu90874
    Clone ID Related Accession (Same CDS sequence) XM_017002946.1 , XM_017002946.2
    Accession Version XM_017002946.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4308bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product centrosomal protein of 170 kDa isoform X16
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017002946.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGAAATAAAC ATGATGATGG TACGCAAAGT
    GATTCAGAGA ACGCTGGGGC TCACAGGCGC TGTAGCAAAC GTGCAACTCT TGAGGAACAC
    TTAAGACGCC ACCATTCAGA ACACAAAAAG CTACAGAAGG TCCAGGCTAC TGAAAAGCAT
    CAAGACCAAG CTGTTACTAG CTCTGCGCAT CACAGAGGGG GGCATGGTGT TCCACATGGG
    AAATTGTTAA AACAGAAATC AGAGGAGCCA TCGGTGTCAA TACCCTTCCT ACAAACTGCA
    TTATTAAGAA GTTCAGGGAG TCTTGGGCAC AGACCAAGCC AGGAGATGGA TAAAATGTTA
    AAAAATCAAG CAACTTCTGC TACTTCTGAA AAGGATAATG ATGATGACCA AAGTGACAAG
    GGTACTTATA CCATTGAGTT AGAGAATCCC AACAGTGAGG AAGTGGAAGC AAGAAAAATG
    ATTGACAAGG TGTTTGGAGT AGATGACAAT CAGGATTATA ATAGGCCTGT TATCAACGAA
    AAACATAAAG ATCTAATAAA AGATTGGGCT CTCAGTTCTG CTGCAGCAGT AATGGAAGAA
    AGAAAACCAC TGACTACATC TGGATTTCAC CACTCAGAGG AAGGCACATC TTCATCTGGA
    AGCAAACGTT GGGTTTCACA GTGGGCTAGT TTGGCTGCCA ATCATACAAG GCATGATCAA
    GAAGAAAGGA TAATGGAATT TTCTGCACCT CTTCCTTTAG AGAATGAGAC AGAGATCAGT
    GAGTCTGGCA TGACAGTGAG AAGTACTGGC TCTGCAACTT CCTTGGCTAG CCAGGGAGAG
    AGAAGGAGAC GAACTCTTCC CCAGCTTCCA AATGAAGAAA AGTCTCTTGA GAGCCACAGA
    GCAAAGGTTG TAACACAGAG GTCAGAGATA GGAGAAAAAC AAGACACAGA ACTTCAGGAG
    AAAGAAACAC CTACACAGGT ATACCAGAAA GATAAACAAG ATGCTGACAG ACCCTTGAGT
    AAAATGAACA GGGCAGTAAA TGGAGAGACT CTCAAAACTG GTGGAGATAA TAAAACCCTA
    CTTCACTTAG GCAGCTCTGC TCCTGGAAAA GAGAAAAGTG AAACTGATAA GGAAACTTCT
    TTGGTAAAGC AAACATTAGC AAAACTTCAA CAACAAGAAC AAAGGGAGGA GGCTCAGTGG
    ACACCTACTA AATTGTCTTC CAAAAATGTT TCAGGTCAGA CAGATAAATG TAGGGAGGAA
    ACTTTTAAAC AAGAATCACA ACCTCCAGAA AAAAATTCAG GACATTCTAC AAGCAAAGGA
    GACAGAGTGG CACAAAGTGA GAGCAAGAGA AGAAAAGCTG AGGAAATTCT GAAAAGTCAG
    ACTCCAAAGG GAGGAGACAA GAAGGAATCC TCCAAGTCAT TAGTGCGACA AGGGAGCTTC
    ACTATAGAAA AACCCAGCCC AAACATACCC ATAGAACTTA TTCCCCATAT AAATAAACAG
    ACTTCCTCTA CTCCTTCTTC TTTAGCATTA ACATCTGCAA GTAGAATACG AGAAAGAAGT
    GAGTCTTTGG ATCCTGATTC TAGTATGGAC ACAACCCTTA TTCTAAAAGA CACAGAAGCA
    GTAATGGCTT TTCTAGAAGC TAAACTACGT GAAGATAATA AAACTGATGA AGGACCAGAT
    ACTCCCAGTT ATAATAGAGA CAATTCTATT TCACCAGAAT CTGATGTAGA TACAGCTAGT
    ACAATCAGTC TGGTTACTGG AGAAACTGAA AGAAAGTCAA CCCAAAAGCG AAAGAGTTTC
    ACTAGCCTCT ATAAAGATAG GTGTTCCACA GGTTCTCCTT CCAAAGATGT TACAAAATCA
    TCATCTTCAG GTGCTAGGGA AAAAATGGAA AAGAAAACAA AAAGTCGTTC CACAGATGTG
    GGTTCAAGAG CAGATGGTCG TAAATTTGTT CAGTCCAGTG GGAGAATAAG ACAGCCCTCA
    GTAGACTTAA CAGATGATGA CCAAACCTCT AGTGTACCTC ATTCTGCCAT CTCTGATATT
    ATGTCATCTG ATCAAGAAAC TTACTCTTGT AAACCTCATG GACGGACTCC ACTTACCTCA
    GCTGATGAGC ATGTACATTC CAAACTGGAA GGAAGTAAAG TAACGAAATC TAAGACTTCT
    CCGGTGGTAT CTGGTTCATC TAGTAAATCA ACCACCCTTC CAAGGCCACG ACCTACCAGG
    ACTTCCCTCT TGCGCAGAGC ACGACTTGGT GAAGCTTCAG ACAGTGAACT TGCTGATGCT
    GACAAAGCAT CTGTTGCTTC TGAAGTATCC ACAACAAGTT CTACATCAAA ACCTCCCACA
    GGAAGGCGTA ACATCTCTCG GATTGATTTA TTGGCTCAGC CTCGTAGAAC ACGACTTGGC
    TCACTGTCAG CTCGTAGTGA CTCTGAAGCA ACAATTTCTA GAAGTAGTGC CTCTTCGAGG
    ACCGCAGAAG CCATCATTAG AAGTGGAGCC AGACTAGTAC CATCAGATAA ATTTTCTCCT
    AGAATTAGAG CTAACAGTAT CTCTCGACTC TCAGACTCCA AGGTCAAAAG TATGACCTCA
    GCTCATGGCT CTGCTTCAGT AAATTCAAGA TGGAGGCGCT TTCCTACTGA TTATGCTTCC
    ACCTCAGAAG ATGAATTTGG ATCAAACCGT AATTCCCCTA AACATACCCG TCTACGTACT
    TCTCCAGCCC TGAAAACCAC TCGCTTGCAG AGCGCTGGAT CAGCAATGCC TACTAGTTCT
    TCATTCAAAC ACCGGATTAA AGAGCAGGAA GACTACATCC GAGATTGGAC TGCTCATCGA
    GAAGAGATAG CCAGGATCAG CCAAGATCTT GCTCTCATTG CTCGGGAGAT CAACGATGTA
    GCAGGAGAGA TAGATTCAGT GACTTCATCA GGCACTGCCC CTAGTACCAC AGTAAGCACT
    GCTGCCACCA CCCCTGGCTC TGCCATAGAC ACTAGAGAAG AGGTAGGAGA TCTTCATGGA
    GAAATGCATA AGTTGGTTGA TCGTGTTTTT GATGAAAGCC TCAACTTCCG AAAGATTCCT
    CCATTAGTTC ATTCCAAAAC ACCAGAAGGA AACAACGGTC GATCTGGTGA TCCAAGACCT
    CAAGCAGCAG AGCCTCCCGA TCACTTAACA ATTACAAGGC GGAGAACCTG GAGCAGGGAT
    GAAGTCATGG GAGATAATCT GCTGCTGTCA TCCGTCTTTC AGTTCTCTAA GAAGATAAGA
    CAATCTATAG ATAAGACAGC TGGAAAGATC AGAATATTAT TTAAAGACAA AGATCGGAAT
    TGGGATGACA TAGAAAGCAA ATTAAGAGCC GAAAGTGAAG TCCCTATTGT GAAAACCTCA
    AGCATGGAGA TTTCTTCTAT CTTACAGGAA CTGAAAAGAG TAGAAAAGCA GCTGCAAGCA
    ATCAATGCTA TGATTGATCC TGATGGAACT TTGGAGGCTC TGAACAACAT GGGATTTCCC
    AGTGCTATGT TGCCATCTCC ACCGAAACAG AAGTCCAGCC CTGTGAATAA CCACCACAGC
    CCGGGTCAGA CACCAACACT TGGCCAACCA GAAGCTAGGG CTCTTCATCC TGCTGCTGTT
    TCAGCCGCAG CTGAATTTGA GAATGCTGAA TCTGAGGCTG ATTTCAGTAT ACATTTCAAT
    AGATTCAACC CCGATGGGGA AGAGGAAGAT GTTACAGTAC AAGAATGA

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

    RefSeq XP_016858435.1
    CDS234..4541
    Translation

    Target ORF information:

    RefSeq Version XM_017002946.2
    Organism Homo sapiens(human)
    Definition Homo sapiens centrosomal protein 170 (CEP170), transcript variant X27, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017002946.2

    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGAAATAAAC ATGATGATGG TACGCAAAGT
    GATTCAGAGA ACGCTGGGGC TCACAGGCGC TGTAGCAAAC GTGCAACTCT TGAGGAACAC
    TTAAGACGCC ACCATTCAGA ACACAAAAAG CTACAGAAGG TCCAGGCTAC TGAAAAGCAT
    CAAGACCAAG CTGTTACTAG CTCTGCGCAT CACAGAGGGG GGCATGGTGT TCCACATGGG
    AAATTGTTAA AACAGAAATC AGAGGAGCCA TCGGTGTCAA TACCCTTCCT ACAAACTGCA
    TTATTAAGAA GTTCAGGGAG TCTTGGGCAC AGACCAAGCC AGGAGATGGA TAAAATGTTA
    AAAAATCAAG CAACTTCTGC TACTTCTGAA AAGGATAATG ATGATGACCA AAGTGACAAG
    GGTACTTATA CCATTGAGTT AGAGAATCCC AACAGTGAGG AAGTGGAAGC AAGAAAAATG
    ATTGACAAGG TGTTTGGAGT AGATGACAAT CAGGATTATA ATAGGCCTGT TATCAACGAA
    AAACATAAAG ATCTAATAAA AGATTGGGCT CTCAGTTCTG CTGCAGCAGT AATGGAAGAA
    AGAAAACCAC TGACTACATC TGGATTTCAC CACTCAGAGG AAGGCACATC TTCATCTGGA
    AGCAAACGTT GGGTTTCACA GTGGGCTAGT TTGGCTGCCA ATCATACAAG GCATGATCAA
    GAAGAAAGGA TAATGGAATT TTCTGCACCT CTTCCTTTAG AGAATGAGAC AGAGATCAGT
    GAGTCTGGCA TGACAGTGAG AAGTACTGGC TCTGCAACTT CCTTGGCTAG CCAGGGAGAG
    AGAAGGAGAC GAACTCTTCC CCAGCTTCCA AATGAAGAAA AGTCTCTTGA GAGCCACAGA
    GCAAAGGTTG TAACACAGAG GTCAGAGATA GGAGAAAAAC AAGACACAGA ACTTCAGGAG
    AAAGAAACAC CTACACAGGT ATACCAGAAA GATAAACAAG ATGCTGACAG ACCCTTGAGT
    AAAATGAACA GGGCAGTAAA TGGAGAGACT CTCAAAACTG GTGGAGATAA TAAAACCCTA
    CTTCACTTAG GCAGCTCTGC TCCTGGAAAA GAGAAAAGTG AAACTGATAA GGAAACTTCT
    TTGGTAAAGC AAACATTAGC AAAACTTCAA CAACAAGAAC AAAGGGAGGA GGCTCAGTGG
    ACACCTACTA AATTGTCTTC CAAAAATGTT TCAGGTCAGA CAGATAAATG TAGGGAGGAA
    ACTTTTAAAC AAGAATCACA ACCTCCAGAA AAAAATTCAG GACATTCTAC AAGCAAAGGA
    GACAGAGTGG CACAAAGTGA GAGCAAGAGA AGAAAAGCTG AGGAAATTCT GAAAAGTCAG
    ACTCCAAAGG GAGGAGACAA GAAGGAATCC TCCAAGTCAT TAGTGCGACA AGGGAGCTTC
    ACTATAGAAA AACCCAGCCC AAACATACCC ATAGAACTTA TTCCCCATAT AAATAAACAG
    ACTTCCTCTA CTCCTTCTTC TTTAGCATTA ACATCTGCAA GTAGAATACG AGAAAGAAGT
    GAGTCTTTGG ATCCTGATTC TAGTATGGAC ACAACCCTTA TTCTAAAAGA CACAGAAGCA
    GTAATGGCTT TTCTAGAAGC TAAACTACGT GAAGATAATA AAACTGATGA AGGACCAGAT
    ACTCCCAGTT ATAATAGAGA CAATTCTATT TCACCAGAAT CTGATGTAGA TACAGCTAGT
    ACAATCAGTC TGGTTACTGG AGAAACTGAA AGAAAGTCAA CCCAAAAGCG AAAGAGTTTC
    ACTAGCCTCT ATAAAGATAG GTGTTCCACA GGTTCTCCTT CCAAAGATGT TACAAAATCA
    TCATCTTCAG GTGCTAGGGA AAAAATGGAA AAGAAAACAA AAAGTCGTTC CACAGATGTG
    GGTTCAAGAG CAGATGGTCG TAAATTTGTT CAGTCCAGTG GGAGAATAAG ACAGCCCTCA
    GTAGACTTAA CAGATGATGA CCAAACCTCT AGTGTACCTC ATTCTGCCAT CTCTGATATT
    ATGTCATCTG ATCAAGAAAC TTACTCTTGT AAACCTCATG GACGGACTCC ACTTACCTCA
    GCTGATGAGC ATGTACATTC CAAACTGGAA GGAAGTAAAG TAACGAAATC TAAGACTTCT
    CCGGTGGTAT CTGGTTCATC TAGTAAATCA ACCACCCTTC CAAGGCCACG ACCTACCAGG
    ACTTCCCTCT TGCGCAGAGC ACGACTTGGT GAAGCTTCAG ACAGTGAACT TGCTGATGCT
    GACAAAGCAT CTGTTGCTTC TGAAGTATCC ACAACAAGTT CTACATCAAA ACCTCCCACA
    GGAAGGCGTA ACATCTCTCG GATTGATTTA TTGGCTCAGC CTCGTAGAAC ACGACTTGGC
    TCACTGTCAG CTCGTAGTGA CTCTGAAGCA ACAATTTCTA GAAGTAGTGC CTCTTCGAGG
    ACCGCAGAAG CCATCATTAG AAGTGGAGCC AGACTAGTAC CATCAGATAA ATTTTCTCCT
    AGAATTAGAG CTAACAGTAT CTCTCGACTC TCAGACTCCA AGGTCAAAAG TATGACCTCA
    GCTCATGGCT CTGCTTCAGT AAATTCAAGA TGGAGGCGCT TTCCTACTGA TTATGCTTCC
    ACCTCAGAAG ATGAATTTGG ATCAAACCGT AATTCCCCTA AACATACCCG TCTACGTACT
    TCTCCAGCCC TGAAAACCAC TCGCTTGCAG AGCGCTGGAT CAGCAATGCC TACTAGTTCT
    TCATTCAAAC ACCGGATTAA AGAGCAGGAA GACTACATCC GAGATTGGAC TGCTCATCGA
    GAAGAGATAG CCAGGATCAG CCAAGATCTT GCTCTCATTG CTCGGGAGAT CAACGATGTA
    GCAGGAGAGA TAGATTCAGT GACTTCATCA GGCACTGCCC CTAGTACCAC AGTAAGCACT
    GCTGCCACCA CCCCTGGCTC TGCCATAGAC ACTAGAGAAG AGGTAGGAGA TCTTCATGGA
    GAAATGCATA AGTTGGTTGA TCGTGTTTTT GATGAAAGCC TCAACTTCCG AAAGATTCCT
    CCATTAGTTC ATTCCAAAAC ACCAGAAGGA AACAACGGTC GATCTGGTGA TCCAAGACCT
    CAAGCAGCAG AGCCTCCCGA TCACTTAACA ATTACAAGGC GGAGAACCTG GAGCAGGGAT
    GAAGTCATGG GAGATAATCT GCTGCTGTCA TCCGTCTTTC AGTTCTCTAA GAAGATAAGA
    CAATCTATAG ATAAGACAGC TGGAAAGATC AGAATATTAT TTAAAGACAA AGATCGGAAT
    TGGGATGACA TAGAAAGCAA ATTAAGAGCC GAAAGTGAAG TCCCTATTGT GAAAACCTCA
    AGCATGGAGA TTTCTTCTAT CTTACAGGAA CTGAAAAGAG TAGAAAAGCA GCTGCAAGCA
    ATCAATGCTA TGATTGATCC TGATGGAACT TTGGAGGCTC TGAACAACAT GGGATTTCCC
    AGTGCTATGT TGCCATCTCC ACCGAAACAG AAGTCCAGCC CTGTGAATAA CCACCACAGC
    CCGGGTCAGA CACCAACACT TGGCCAACCA GAAGCTAGGG CTCTTCATCC TGCTGCTGTT
    TCAGCCGCAG CTGAATTTGA GAATGCTGAA TCTGAGGCTG ATTTCAGTAT ACATTTCAAT
    AGATTCAACC CCGATGGGGA AGAGGAAGAT GTTACAGTAC AAGAATGA

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

    CloneID OHu90875
    Clone ID Related Accession (Same CDS sequence) XM_017002947.1 , XM_017002947.2 , XM_017002948.2 , XM_017002948.1
    Accession Version XM_017002947.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4353bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product centrosomal protein of 170 kDa isoform X17
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTGTGTTTGG AGTAGATGAC AATCAGGATT ATAATAGGCC TGTTATCAAC
    GAAAAACATA AAGATCTAAT AAAAGATTGG GCTCTCAGTT CTGCTGCAGC AGTAATGGAA
    GAAAGAAAAC CACTGACTAC ATCTGGATTT CACCACTCAG AGGAAGGCAC ATCTTCATCT
    GGAAGCAAAC GTTGGGTTTC ACAGTGGGCT AGTTTGGCTG CCAATCATAC AAGGCATGAT
    CAAGAAGAAA GGATAATGGA ATTTTCTGCA CCTCTTCCTT TAGAGAATGA GACAGAGATC
    AGTGAGTCTG GCATGACAGT GAGAAGTACT GGCTCTGCAA CTTCCTTGGC TAGCCAGGGA
    GAGAGAAGGA GACGAACTCT TCCCCAGCTT CCAAATGAAG AAAAGTCTCT TGAGAGCCAC
    AGAGCAAAGG TTGTAACACA GAGGTCAGAG ATAGGAGAAA AACAAGACAC AGAACTTCAG
    GAGAAAGAAA CACCTACACA GGTATACCAG AAAGATAAAC AAGATGCTGA CAGACCCTTG
    AGTAAAATGA ACAGGGCAGT AAATGGAGAG ACTCTCAAAA CTGGTGGAGA TAATAAAACC
    CTACTTCACT TAGGCAGCTC TGCTCCTGGA AAAGAGAAAA GTGAAACTGA TAAGGAAACT
    TCTTTGGTAA AGCAAACATT AGCAAAACTT CAACAACAAG AACAAAGGGA GGAGGCTCAG
    TGGACACCTA CTAAATTGTC TTCCAAAAAT GTTTCAGGTC AGACAGATAA ATGTAGGGAG
    GAAACTTTTA AACAAGAATC ACAACCTCCA GAAAAAAATT CAGGACATTC TACAAGCAAA
    GGAGACAGAG TGGCACAAAG TGAGAGCAAG AGAAGAAAAG CTGAGGAAAT TCTGAAAAGT
    CAGACTCCAA AGGGAGGAGA CAAGAAGGAA TCCTCCAAGT CATTAGTGCG ACAAGGGAGC
    TTCACTATAG AAAAACCCAG CCCAAACATA CCCATAGAAC TTATTCCCCA TATAAATAAA
    CAGACTTCCT CTACTCCTTC TTCTTTAGCA TTAACATCTG CAAGTAGAAT ACGAGAAAGA
    AGTGAGTCTT TGGATCCTGA TTCTAGTATG GACACAACCC TTATTCTAAA AGACACAGAA
    GCAGTAATGG CTTTTCTAGA AGCTAAACTA CGTGAAGATA ATAAAACTGA TGAAGGACCA
    GATACTCCCA GTTATAATAG AGACAATTCT ATTTCACCAG AATCTGATGT AGATACAGCT
    AGTACAATCA GTCTGGTTAC TGGAGAAACT GAAAGAAAGT CAACCCAAAA GCGAAAGAGT
    TTCACTAGCC TCTATAAAGA TAGGTGTTCC ACAGGTTCTC CTTCCAAAGA TGTTACAAAA
    TCATCATCTT CAGGTGCTAG GGAAAAAATG GAAAAGAAAA CAAAAAGTCG TTCCACAGAT
    GTGGGTTCAA GAGCAGATGG TCGTAAATTT GTTCAGTCCA GTGGGAGAAT AAGACAGCCC
    TCAGTAGACT TAACAGATGA TGACCAAACC TCTAGTGTAC CTCATTCTGC CATCTCTGAT
    ATTATGTCAT CTGATCAAGA AACTTACTCT TGTAAACCTC ATGGACGGAC TCCACTTACC
    TCAGCTGATG AGCATGTACA TTCCAAACTG GAAGGAAGTA AAGTAACGAA ATCTAAGACT
    TCTCCGGTGG TATCTGGTTC ATCTAGTAAA TCAACCACCC TTCCAAGGCC ACGACCTACC
    AGGACTTCCC TCTTGCGCAG AGCACGACTT GGTGAAGCTT CAGACAGTGA ACTTGCTGAT
    GCTGACAAAG CATCTGTTGC TTCTGAAGTA TCCACAACAA GTTCTACATC AAAACCTCCC
    ACAGGAAGGC GTAACATCTC TCGGATTGAT TTATTGGCTC AGCCTCGTAG AACACGACTT
    GGCTCACTGT CAGCTCGTAG TGACTCTGAA GCAACAATTT CTAGAAGTAG TGCCTCTTCG
    AGGACCGCAG AAGCCATCAT TAGAAGTGGA GCCAGACTAG TACCATCAGA TAAATTTTCT
    CCTAGAATTA GAGCTAACAG TATCTCTCGA CTCTCAGACT CCAAGGTCAA AAGTATGACC
    TCAGCTCATG GCTCTGCTTC AGCCCTGAAA ACCACTCGCT TGCAGAGCGC TGGATCAGCA
    ATGCCTACTA GTTCTTCATT CAAACACCGG ATTAAAGAGC AGGAAGACTA CATCCGAGAT
    TGGACTGCTC ATCGAGAAGA GATAGCCAGG ATCAGCCAAG ATCTTGCTCT CATTGCTCGG
    GAGATCAACG ATGTAGCAGG AGAGATAGAT TCAGTGACTT CATCAGGCAC TGCCCCTAGT
    ACCACAGTAA GCACTGCTGC CACCACCCCT GGCTCTGCCA TAGACACTAG AGAAGAGTTG
    GTTGATCGTG TTTTTGATGA AAGCCTCAAC TTCCGAAAGA TTCCTCCATT AGTTCATTCC
    AAAACACCAG AAGGAAACAA CGGTCGATCT GGTGATCCAA GACCTCAAGC AGCAGAGCCT
    CCCGATCACT TAACAATTAC AAGGCGGAGA ACCTGGAGCA GGGATGAAGT CATGGGAGAT
    AATCTGCTGC TGTCATCCGT CTTTCAGTTC TCTAAGAAGA TAAGACAATC TATAGATAAG
    ACAGCTGGAA AGATCAGAAT ATTATTTAAA GACAAAGATC GGAATTGGGA TGACATAGAA
    AGCAAATTAA GAGCCGAAAG TGAAGTCCCT ATTGTGAAAA CCTCAAGCAT GGAGATTTCT
    TCTATCTTAC AGGAACTGAA AAGAGTAGAA AAGCAGCTGC AAGCAATCAA TGCTATGATT
    GATCCTGATG GAACTTTGGA GGCTCTGAAC AACATGGGAT TTCCCAGTGC TATGTTGCCA
    TCTCCACCGA AACAGAAGTC CAGCCCTGTG AATAACCACC ACAGCCCGGG TCAGACACCA
    ACACTTGGCC AACCAGAAGC TAGGGCTCTT CATCCTGCTG CTGTTTCAGC CGCAGCTGAA
    TTTGAGAATG CTGAATCTGA GGCTGATTTC AGTATACATT TCAATAGATT CAACCCCGAT
    GGGGAAGAGG AAGATGTTAC AGTACAAGAA TGA

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

    RefSeq XP_016858436.1
    CDS939..5291
    Translation

    Target ORF information:

    RefSeq Version XM_017002947.1
    Organism Homo sapiens(human)
    Definition Homo sapiens centrosomal protein 170 (CEP170), transcript variant X28, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017002947.1

    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 AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTGTGTTTGG AGTAGATGAC AATCAGGATT ATAATAGGCC TGTTATCAAC
    GAAAAACATA AAGATCTAAT AAAAGATTGG GCTCTCAGTT CTGCTGCAGC AGTAATGGAA
    GAAAGAAAAC CACTGACTAC ATCTGGATTT CACCACTCAG AGGAAGGCAC ATCTTCATCT
    GGAAGCAAAC GTTGGGTTTC ACAGTGGGCT AGTTTGGCTG CCAATCATAC AAGGCATGAT
    CAAGAAGAAA GGATAATGGA ATTTTCTGCA CCTCTTCCTT TAGAGAATGA GACAGAGATC
    AGTGAGTCTG GCATGACAGT GAGAAGTACT GGCTCTGCAA CTTCCTTGGC TAGCCAGGGA
    GAGAGAAGGA GACGAACTCT TCCCCAGCTT CCAAATGAAG AAAAGTCTCT TGAGAGCCAC
    AGAGCAAAGG TTGTAACACA GAGGTCAGAG ATAGGAGAAA AACAAGACAC AGAACTTCAG
    GAGAAAGAAA CACCTACACA GGTATACCAG AAAGATAAAC AAGATGCTGA CAGACCCTTG
    AGTAAAATGA ACAGGGCAGT AAATGGAGAG ACTCTCAAAA CTGGTGGAGA TAATAAAACC
    CTACTTCACT TAGGCAGCTC TGCTCCTGGA AAAGAGAAAA GTGAAACTGA TAAGGAAACT
    TCTTTGGTAA AGCAAACATT AGCAAAACTT CAACAACAAG AACAAAGGGA GGAGGCTCAG
    TGGACACCTA CTAAATTGTC TTCCAAAAAT GTTTCAGGTC AGACAGATAA ATGTAGGGAG
    GAAACTTTTA AACAAGAATC ACAACCTCCA GAAAAAAATT CAGGACATTC TACAAGCAAA
    GGAGACAGAG TGGCACAAAG TGAGAGCAAG AGAAGAAAAG CTGAGGAAAT TCTGAAAAGT
    CAGACTCCAA AGGGAGGAGA CAAGAAGGAA TCCTCCAAGT CATTAGTGCG ACAAGGGAGC
    TTCACTATAG AAAAACCCAG CCCAAACATA CCCATAGAAC TTATTCCCCA TATAAATAAA
    CAGACTTCCT CTACTCCTTC TTCTTTAGCA TTAACATCTG CAAGTAGAAT ACGAGAAAGA
    AGTGAGTCTT TGGATCCTGA TTCTAGTATG GACACAACCC TTATTCTAAA AGACACAGAA
    GCAGTAATGG CTTTTCTAGA AGCTAAACTA CGTGAAGATA ATAAAACTGA TGAAGGACCA
    GATACTCCCA GTTATAATAG AGACAATTCT ATTTCACCAG AATCTGATGT AGATACAGCT
    AGTACAATCA GTCTGGTTAC TGGAGAAACT GAAAGAAAGT CAACCCAAAA GCGAAAGAGT
    TTCACTAGCC TCTATAAAGA TAGGTGTTCC ACAGGTTCTC CTTCCAAAGA TGTTACAAAA
    TCATCATCTT CAGGTGCTAG GGAAAAAATG GAAAAGAAAA CAAAAAGTCG TTCCACAGAT
    GTGGGTTCAA GAGCAGATGG TCGTAAATTT GTTCAGTCCA GTGGGAGAAT AAGACAGCCC
    TCAGTAGACT TAACAGATGA TGACCAAACC TCTAGTGTAC CTCATTCTGC CATCTCTGAT
    ATTATGTCAT CTGATCAAGA AACTTACTCT TGTAAACCTC ATGGACGGAC TCCACTTACC
    TCAGCTGATG AGCATGTACA TTCCAAACTG GAAGGAAGTA AAGTAACGAA ATCTAAGACT
    TCTCCGGTGG TATCTGGTTC ATCTAGTAAA TCAACCACCC TTCCAAGGCC ACGACCTACC
    AGGACTTCCC TCTTGCGCAG AGCACGACTT GGTGAAGCTT CAGACAGTGA ACTTGCTGAT
    GCTGACAAAG CATCTGTTGC TTCTGAAGTA TCCACAACAA GTTCTACATC AAAACCTCCC
    ACAGGAAGGC GTAACATCTC TCGGATTGAT TTATTGGCTC AGCCTCGTAG AACACGACTT
    GGCTCACTGT CAGCTCGTAG TGACTCTGAA GCAACAATTT CTAGAAGTAG TGCCTCTTCG
    AGGACCGCAG AAGCCATCAT TAGAAGTGGA GCCAGACTAG TACCATCAGA TAAATTTTCT
    CCTAGAATTA GAGCTAACAG TATCTCTCGA CTCTCAGACT CCAAGGTCAA AAGTATGACC
    TCAGCTCATG GCTCTGCTTC AGCCCTGAAA ACCACTCGCT TGCAGAGCGC TGGATCAGCA
    ATGCCTACTA GTTCTTCATT CAAACACCGG ATTAAAGAGC AGGAAGACTA CATCCGAGAT
    TGGACTGCTC ATCGAGAAGA GATAGCCAGG ATCAGCCAAG ATCTTGCTCT CATTGCTCGG
    GAGATCAACG ATGTAGCAGG AGAGATAGAT TCAGTGACTT CATCAGGCAC TGCCCCTAGT
    ACCACAGTAA GCACTGCTGC CACCACCCCT GGCTCTGCCA TAGACACTAG AGAAGAGTTG
    GTTGATCGTG TTTTTGATGA AAGCCTCAAC TTCCGAAAGA TTCCTCCATT AGTTCATTCC
    AAAACACCAG AAGGAAACAA CGGTCGATCT GGTGATCCAA GACCTCAAGC AGCAGAGCCT
    CCCGATCACT TAACAATTAC AAGGCGGAGA ACCTGGAGCA GGGATGAAGT CATGGGAGAT
    AATCTGCTGC TGTCATCCGT CTTTCAGTTC TCTAAGAAGA TAAGACAATC TATAGATAAG
    ACAGCTGGAA AGATCAGAAT ATTATTTAAA GACAAAGATC GGAATTGGGA TGACATAGAA
    AGCAAATTAA GAGCCGAAAG TGAAGTCCCT ATTGTGAAAA CCTCAAGCAT GGAGATTTCT
    TCTATCTTAC AGGAACTGAA AAGAGTAGAA AAGCAGCTGC AAGCAATCAA TGCTATGATT
    GATCCTGATG GAACTTTGGA GGCTCTGAAC AACATGGGAT TTCCCAGTGC TATGTTGCCA
    TCTCCACCGA AACAGAAGTC CAGCCCTGTG AATAACCACC ACAGCCCGGG TCAGACACCA
    ACACTTGGCC AACCAGAAGC TAGGGCTCTT CATCCTGCTG CTGTTTCAGC CGCAGCTGAA
    TTTGAGAATG CTGAATCTGA GGCTGATTTC AGTATACATT TCAATAGATT CAACCCCGAT
    GGGGAAGAGG AAGATGTTAC AGTACAAGAA TGA

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

    CloneID OHu90875
    Clone ID Related Accession (Same CDS sequence) XM_017002947.1 , XM_017002947.2 , XM_017002948.2 , XM_017002948.1
    Accession Version XM_017002947.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4353bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product centrosomal protein of 170 kDa isoform X17
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017002947.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTGTGTTTGG AGTAGATGAC AATCAGGATT ATAATAGGCC TGTTATCAAC
    GAAAAACATA AAGATCTAAT AAAAGATTGG GCTCTCAGTT CTGCTGCAGC AGTAATGGAA
    GAAAGAAAAC CACTGACTAC ATCTGGATTT CACCACTCAG AGGAAGGCAC ATCTTCATCT
    GGAAGCAAAC GTTGGGTTTC ACAGTGGGCT AGTTTGGCTG CCAATCATAC AAGGCATGAT
    CAAGAAGAAA GGATAATGGA ATTTTCTGCA CCTCTTCCTT TAGAGAATGA GACAGAGATC
    AGTGAGTCTG GCATGACAGT GAGAAGTACT GGCTCTGCAA CTTCCTTGGC TAGCCAGGGA
    GAGAGAAGGA GACGAACTCT TCCCCAGCTT CCAAATGAAG AAAAGTCTCT TGAGAGCCAC
    AGAGCAAAGG TTGTAACACA GAGGTCAGAG ATAGGAGAAA AACAAGACAC AGAACTTCAG
    GAGAAAGAAA CACCTACACA GGTATACCAG AAAGATAAAC AAGATGCTGA CAGACCCTTG
    AGTAAAATGA ACAGGGCAGT AAATGGAGAG ACTCTCAAAA CTGGTGGAGA TAATAAAACC
    CTACTTCACT TAGGCAGCTC TGCTCCTGGA AAAGAGAAAA GTGAAACTGA TAAGGAAACT
    TCTTTGGTAA AGCAAACATT AGCAAAACTT CAACAACAAG AACAAAGGGA GGAGGCTCAG
    TGGACACCTA CTAAATTGTC TTCCAAAAAT GTTTCAGGTC AGACAGATAA ATGTAGGGAG
    GAAACTTTTA AACAAGAATC ACAACCTCCA GAAAAAAATT CAGGACATTC TACAAGCAAA
    GGAGACAGAG TGGCACAAAG TGAGAGCAAG AGAAGAAAAG CTGAGGAAAT TCTGAAAAGT
    CAGACTCCAA AGGGAGGAGA CAAGAAGGAA TCCTCCAAGT CATTAGTGCG ACAAGGGAGC
    TTCACTATAG AAAAACCCAG CCCAAACATA CCCATAGAAC TTATTCCCCA TATAAATAAA
    CAGACTTCCT CTACTCCTTC TTCTTTAGCA TTAACATCTG CAAGTAGAAT ACGAGAAAGA
    AGTGAGTCTT TGGATCCTGA TTCTAGTATG GACACAACCC TTATTCTAAA AGACACAGAA
    GCAGTAATGG CTTTTCTAGA AGCTAAACTA CGTGAAGATA ATAAAACTGA TGAAGGACCA
    GATACTCCCA GTTATAATAG AGACAATTCT ATTTCACCAG AATCTGATGT AGATACAGCT
    AGTACAATCA GTCTGGTTAC TGGAGAAACT GAAAGAAAGT CAACCCAAAA GCGAAAGAGT
    TTCACTAGCC TCTATAAAGA TAGGTGTTCC ACAGGTTCTC CTTCCAAAGA TGTTACAAAA
    TCATCATCTT CAGGTGCTAG GGAAAAAATG GAAAAGAAAA CAAAAAGTCG TTCCACAGAT
    GTGGGTTCAA GAGCAGATGG TCGTAAATTT GTTCAGTCCA GTGGGAGAAT AAGACAGCCC
    TCAGTAGACT TAACAGATGA TGACCAAACC TCTAGTGTAC CTCATTCTGC CATCTCTGAT
    ATTATGTCAT CTGATCAAGA AACTTACTCT TGTAAACCTC ATGGACGGAC TCCACTTACC
    TCAGCTGATG AGCATGTACA TTCCAAACTG GAAGGAAGTA AAGTAACGAA ATCTAAGACT
    TCTCCGGTGG TATCTGGTTC ATCTAGTAAA TCAACCACCC TTCCAAGGCC ACGACCTACC
    AGGACTTCCC TCTTGCGCAG AGCACGACTT GGTGAAGCTT CAGACAGTGA ACTTGCTGAT
    GCTGACAAAG CATCTGTTGC TTCTGAAGTA TCCACAACAA GTTCTACATC AAAACCTCCC
    ACAGGAAGGC GTAACATCTC TCGGATTGAT TTATTGGCTC AGCCTCGTAG AACACGACTT
    GGCTCACTGT CAGCTCGTAG TGACTCTGAA GCAACAATTT CTAGAAGTAG TGCCTCTTCG
    AGGACCGCAG AAGCCATCAT TAGAAGTGGA GCCAGACTAG TACCATCAGA TAAATTTTCT
    CCTAGAATTA GAGCTAACAG TATCTCTCGA CTCTCAGACT CCAAGGTCAA AAGTATGACC
    TCAGCTCATG GCTCTGCTTC AGCCCTGAAA ACCACTCGCT TGCAGAGCGC TGGATCAGCA
    ATGCCTACTA GTTCTTCATT CAAACACCGG ATTAAAGAGC AGGAAGACTA CATCCGAGAT
    TGGACTGCTC ATCGAGAAGA GATAGCCAGG ATCAGCCAAG ATCTTGCTCT CATTGCTCGG
    GAGATCAACG ATGTAGCAGG AGAGATAGAT TCAGTGACTT CATCAGGCAC TGCCCCTAGT
    ACCACAGTAA GCACTGCTGC CACCACCCCT GGCTCTGCCA TAGACACTAG AGAAGAGTTG
    GTTGATCGTG TTTTTGATGA AAGCCTCAAC TTCCGAAAGA TTCCTCCATT AGTTCATTCC
    AAAACACCAG AAGGAAACAA CGGTCGATCT GGTGATCCAA GACCTCAAGC AGCAGAGCCT
    CCCGATCACT TAACAATTAC AAGGCGGAGA ACCTGGAGCA GGGATGAAGT CATGGGAGAT
    AATCTGCTGC TGTCATCCGT CTTTCAGTTC TCTAAGAAGA TAAGACAATC TATAGATAAG
    ACAGCTGGAA AGATCAGAAT ATTATTTAAA GACAAAGATC GGAATTGGGA TGACATAGAA
    AGCAAATTAA GAGCCGAAAG TGAAGTCCCT ATTGTGAAAA CCTCAAGCAT GGAGATTTCT
    TCTATCTTAC AGGAACTGAA AAGAGTAGAA AAGCAGCTGC AAGCAATCAA TGCTATGATT
    GATCCTGATG GAACTTTGGA GGCTCTGAAC AACATGGGAT TTCCCAGTGC TATGTTGCCA
    TCTCCACCGA AACAGAAGTC CAGCCCTGTG AATAACCACC ACAGCCCGGG TCAGACACCA
    ACACTTGGCC AACCAGAAGC TAGGGCTCTT CATCCTGCTG CTGTTTCAGC CGCAGCTGAA
    TTTGAGAATG CTGAATCTGA GGCTGATTTC AGTATACATT TCAATAGATT CAACCCCGAT
    GGGGAAGAGG AAGATGTTAC AGTACAAGAA TGA

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

    RefSeq XP_016858436.1
    CDS234..4586
    Translation

    Target ORF information:

    RefSeq Version XM_017002947.2
    Organism Homo sapiens(human)
    Definition Homo sapiens centrosomal protein 170 (CEP170), transcript variant X28, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017002947.2

    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTGTGTTTGG AGTAGATGAC AATCAGGATT ATAATAGGCC TGTTATCAAC
    GAAAAACATA AAGATCTAAT AAAAGATTGG GCTCTCAGTT CTGCTGCAGC AGTAATGGAA
    GAAAGAAAAC CACTGACTAC ATCTGGATTT CACCACTCAG AGGAAGGCAC ATCTTCATCT
    GGAAGCAAAC GTTGGGTTTC ACAGTGGGCT AGTTTGGCTG CCAATCATAC AAGGCATGAT
    CAAGAAGAAA GGATAATGGA ATTTTCTGCA CCTCTTCCTT TAGAGAATGA GACAGAGATC
    AGTGAGTCTG GCATGACAGT GAGAAGTACT GGCTCTGCAA CTTCCTTGGC TAGCCAGGGA
    GAGAGAAGGA GACGAACTCT TCCCCAGCTT CCAAATGAAG AAAAGTCTCT TGAGAGCCAC
    AGAGCAAAGG TTGTAACACA GAGGTCAGAG ATAGGAGAAA AACAAGACAC AGAACTTCAG
    GAGAAAGAAA CACCTACACA GGTATACCAG AAAGATAAAC AAGATGCTGA CAGACCCTTG
    AGTAAAATGA ACAGGGCAGT AAATGGAGAG ACTCTCAAAA CTGGTGGAGA TAATAAAACC
    CTACTTCACT TAGGCAGCTC TGCTCCTGGA AAAGAGAAAA GTGAAACTGA TAAGGAAACT
    TCTTTGGTAA AGCAAACATT AGCAAAACTT CAACAACAAG AACAAAGGGA GGAGGCTCAG
    TGGACACCTA CTAAATTGTC TTCCAAAAAT GTTTCAGGTC AGACAGATAA ATGTAGGGAG
    GAAACTTTTA AACAAGAATC ACAACCTCCA GAAAAAAATT CAGGACATTC TACAAGCAAA
    GGAGACAGAG TGGCACAAAG TGAGAGCAAG AGAAGAAAAG CTGAGGAAAT TCTGAAAAGT
    CAGACTCCAA AGGGAGGAGA CAAGAAGGAA TCCTCCAAGT CATTAGTGCG ACAAGGGAGC
    TTCACTATAG AAAAACCCAG CCCAAACATA CCCATAGAAC TTATTCCCCA TATAAATAAA
    CAGACTTCCT CTACTCCTTC TTCTTTAGCA TTAACATCTG CAAGTAGAAT ACGAGAAAGA
    AGTGAGTCTT TGGATCCTGA TTCTAGTATG GACACAACCC TTATTCTAAA AGACACAGAA
    GCAGTAATGG CTTTTCTAGA AGCTAAACTA CGTGAAGATA ATAAAACTGA TGAAGGACCA
    GATACTCCCA GTTATAATAG AGACAATTCT ATTTCACCAG AATCTGATGT AGATACAGCT
    AGTACAATCA GTCTGGTTAC TGGAGAAACT GAAAGAAAGT CAACCCAAAA GCGAAAGAGT
    TTCACTAGCC TCTATAAAGA TAGGTGTTCC ACAGGTTCTC CTTCCAAAGA TGTTACAAAA
    TCATCATCTT CAGGTGCTAG GGAAAAAATG GAAAAGAAAA CAAAAAGTCG TTCCACAGAT
    GTGGGTTCAA GAGCAGATGG TCGTAAATTT GTTCAGTCCA GTGGGAGAAT AAGACAGCCC
    TCAGTAGACT TAACAGATGA TGACCAAACC TCTAGTGTAC CTCATTCTGC CATCTCTGAT
    ATTATGTCAT CTGATCAAGA AACTTACTCT TGTAAACCTC ATGGACGGAC TCCACTTACC
    TCAGCTGATG AGCATGTACA TTCCAAACTG GAAGGAAGTA AAGTAACGAA ATCTAAGACT
    TCTCCGGTGG TATCTGGTTC ATCTAGTAAA TCAACCACCC TTCCAAGGCC ACGACCTACC
    AGGACTTCCC TCTTGCGCAG AGCACGACTT GGTGAAGCTT CAGACAGTGA ACTTGCTGAT
    GCTGACAAAG CATCTGTTGC TTCTGAAGTA TCCACAACAA GTTCTACATC AAAACCTCCC
    ACAGGAAGGC GTAACATCTC TCGGATTGAT TTATTGGCTC AGCCTCGTAG AACACGACTT
    GGCTCACTGT CAGCTCGTAG TGACTCTGAA GCAACAATTT CTAGAAGTAG TGCCTCTTCG
    AGGACCGCAG AAGCCATCAT TAGAAGTGGA GCCAGACTAG TACCATCAGA TAAATTTTCT
    CCTAGAATTA GAGCTAACAG TATCTCTCGA CTCTCAGACT CCAAGGTCAA AAGTATGACC
    TCAGCTCATG GCTCTGCTTC AGCCCTGAAA ACCACTCGCT TGCAGAGCGC TGGATCAGCA
    ATGCCTACTA GTTCTTCATT CAAACACCGG ATTAAAGAGC AGGAAGACTA CATCCGAGAT
    TGGACTGCTC ATCGAGAAGA GATAGCCAGG ATCAGCCAAG ATCTTGCTCT CATTGCTCGG
    GAGATCAACG ATGTAGCAGG AGAGATAGAT TCAGTGACTT CATCAGGCAC TGCCCCTAGT
    ACCACAGTAA GCACTGCTGC CACCACCCCT GGCTCTGCCA TAGACACTAG AGAAGAGTTG
    GTTGATCGTG TTTTTGATGA AAGCCTCAAC TTCCGAAAGA TTCCTCCATT AGTTCATTCC
    AAAACACCAG AAGGAAACAA CGGTCGATCT GGTGATCCAA GACCTCAAGC AGCAGAGCCT
    CCCGATCACT TAACAATTAC AAGGCGGAGA ACCTGGAGCA GGGATGAAGT CATGGGAGAT
    AATCTGCTGC TGTCATCCGT CTTTCAGTTC TCTAAGAAGA TAAGACAATC TATAGATAAG
    ACAGCTGGAA AGATCAGAAT ATTATTTAAA GACAAAGATC GGAATTGGGA TGACATAGAA
    AGCAAATTAA GAGCCGAAAG TGAAGTCCCT ATTGTGAAAA CCTCAAGCAT GGAGATTTCT
    TCTATCTTAC AGGAACTGAA AAGAGTAGAA AAGCAGCTGC AAGCAATCAA TGCTATGATT
    GATCCTGATG GAACTTTGGA GGCTCTGAAC AACATGGGAT TTCCCAGTGC TATGTTGCCA
    TCTCCACCGA AACAGAAGTC CAGCCCTGTG AATAACCACC ACAGCCCGGG TCAGACACCA
    ACACTTGGCC AACCAGAAGC TAGGGCTCTT CATCCTGCTG CTGTTTCAGC CGCAGCTGAA
    TTTGAGAATG CTGAATCTGA GGCTGATTTC AGTATACATT TCAATAGATT CAACCCCGAT
    GGGGAAGAGG AAGATGTTAC AGTACAAGAA TGA

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

    CloneID OHu90875
    Clone ID Related Accession (Same CDS sequence) XM_017002947.1 , XM_017002947.2 , XM_017002948.2 , XM_017002948.1
    Accession Version XM_017002948.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4353bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product centrosomal protein of 170 kDa isoform X17
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017002948.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTGTGTTTGG AGTAGATGAC AATCAGGATT ATAATAGGCC TGTTATCAAC
    GAAAAACATA AAGATCTAAT AAAAGATTGG GCTCTCAGTT CTGCTGCAGC AGTAATGGAA
    GAAAGAAAAC CACTGACTAC ATCTGGATTT CACCACTCAG AGGAAGGCAC ATCTTCATCT
    GGAAGCAAAC GTTGGGTTTC ACAGTGGGCT AGTTTGGCTG CCAATCATAC AAGGCATGAT
    CAAGAAGAAA GGATAATGGA ATTTTCTGCA CCTCTTCCTT TAGAGAATGA GACAGAGATC
    AGTGAGTCTG GCATGACAGT GAGAAGTACT GGCTCTGCAA CTTCCTTGGC TAGCCAGGGA
    GAGAGAAGGA GACGAACTCT TCCCCAGCTT CCAAATGAAG AAAAGTCTCT TGAGAGCCAC
    AGAGCAAAGG TTGTAACACA GAGGTCAGAG ATAGGAGAAA AACAAGACAC AGAACTTCAG
    GAGAAAGAAA CACCTACACA GGTATACCAG AAAGATAAAC AAGATGCTGA CAGACCCTTG
    AGTAAAATGA ACAGGGCAGT AAATGGAGAG ACTCTCAAAA CTGGTGGAGA TAATAAAACC
    CTACTTCACT TAGGCAGCTC TGCTCCTGGA AAAGAGAAAA GTGAAACTGA TAAGGAAACT
    TCTTTGGTAA AGCAAACATT AGCAAAACTT CAACAACAAG AACAAAGGGA GGAGGCTCAG
    TGGACACCTA CTAAATTGTC TTCCAAAAAT GTTTCAGGTC AGACAGATAA ATGTAGGGAG
    GAAACTTTTA AACAAGAATC ACAACCTCCA GAAAAAAATT CAGGACATTC TACAAGCAAA
    GGAGACAGAG TGGCACAAAG TGAGAGCAAG AGAAGAAAAG CTGAGGAAAT TCTGAAAAGT
    CAGACTCCAA AGGGAGGAGA CAAGAAGGAA TCCTCCAAGT CATTAGTGCG ACAAGGGAGC
    TTCACTATAG AAAAACCCAG CCCAAACATA CCCATAGAAC TTATTCCCCA TATAAATAAA
    CAGACTTCCT CTACTCCTTC TTCTTTAGCA TTAACATCTG CAAGTAGAAT ACGAGAAAGA
    AGTGAGTCTT TGGATCCTGA TTCTAGTATG GACACAACCC TTATTCTAAA AGACACAGAA
    GCAGTAATGG CTTTTCTAGA AGCTAAACTA CGTGAAGATA ATAAAACTGA TGAAGGACCA
    GATACTCCCA GTTATAATAG AGACAATTCT ATTTCACCAG AATCTGATGT AGATACAGCT
    AGTACAATCA GTCTGGTTAC TGGAGAAACT GAAAGAAAGT CAACCCAAAA GCGAAAGAGT
    TTCACTAGCC TCTATAAAGA TAGGTGTTCC ACAGGTTCTC CTTCCAAAGA TGTTACAAAA
    TCATCATCTT CAGGTGCTAG GGAAAAAATG GAAAAGAAAA CAAAAAGTCG TTCCACAGAT
    GTGGGTTCAA GAGCAGATGG TCGTAAATTT GTTCAGTCCA GTGGGAGAAT AAGACAGCCC
    TCAGTAGACT TAACAGATGA TGACCAAACC TCTAGTGTAC CTCATTCTGC CATCTCTGAT
    ATTATGTCAT CTGATCAAGA AACTTACTCT TGTAAACCTC ATGGACGGAC TCCACTTACC
    TCAGCTGATG AGCATGTACA TTCCAAACTG GAAGGAAGTA AAGTAACGAA ATCTAAGACT
    TCTCCGGTGG TATCTGGTTC ATCTAGTAAA TCAACCACCC TTCCAAGGCC ACGACCTACC
    AGGACTTCCC TCTTGCGCAG AGCACGACTT GGTGAAGCTT CAGACAGTGA ACTTGCTGAT
    GCTGACAAAG CATCTGTTGC TTCTGAAGTA TCCACAACAA GTTCTACATC AAAACCTCCC
    ACAGGAAGGC GTAACATCTC TCGGATTGAT TTATTGGCTC AGCCTCGTAG AACACGACTT
    GGCTCACTGT CAGCTCGTAG TGACTCTGAA GCAACAATTT CTAGAAGTAG TGCCTCTTCG
    AGGACCGCAG AAGCCATCAT TAGAAGTGGA GCCAGACTAG TACCATCAGA TAAATTTTCT
    CCTAGAATTA GAGCTAACAG TATCTCTCGA CTCTCAGACT CCAAGGTCAA AAGTATGACC
    TCAGCTCATG GCTCTGCTTC AGCCCTGAAA ACCACTCGCT TGCAGAGCGC TGGATCAGCA
    ATGCCTACTA GTTCTTCATT CAAACACCGG ATTAAAGAGC AGGAAGACTA CATCCGAGAT
    TGGACTGCTC ATCGAGAAGA GATAGCCAGG ATCAGCCAAG ATCTTGCTCT CATTGCTCGG
    GAGATCAACG ATGTAGCAGG AGAGATAGAT TCAGTGACTT CATCAGGCAC TGCCCCTAGT
    ACCACAGTAA GCACTGCTGC CACCACCCCT GGCTCTGCCA TAGACACTAG AGAAGAGTTG
    GTTGATCGTG TTTTTGATGA AAGCCTCAAC TTCCGAAAGA TTCCTCCATT AGTTCATTCC
    AAAACACCAG AAGGAAACAA CGGTCGATCT GGTGATCCAA GACCTCAAGC AGCAGAGCCT
    CCCGATCACT TAACAATTAC AAGGCGGAGA ACCTGGAGCA GGGATGAAGT CATGGGAGAT
    AATCTGCTGC TGTCATCCGT CTTTCAGTTC TCTAAGAAGA TAAGACAATC TATAGATAAG
    ACAGCTGGAA AGATCAGAAT ATTATTTAAA GACAAAGATC GGAATTGGGA TGACATAGAA
    AGCAAATTAA GAGCCGAAAG TGAAGTCCCT ATTGTGAAAA CCTCAAGCAT GGAGATTTCT
    TCTATCTTAC AGGAACTGAA AAGAGTAGAA AAGCAGCTGC AAGCAATCAA TGCTATGATT
    GATCCTGATG GAACTTTGGA GGCTCTGAAC AACATGGGAT TTCCCAGTGC TATGTTGCCA
    TCTCCACCGA AACAGAAGTC CAGCCCTGTG AATAACCACC ACAGCCCGGG TCAGACACCA
    ACACTTGGCC AACCAGAAGC TAGGGCTCTT CATCCTGCTG CTGTTTCAGC CGCAGCTGAA
    TTTGAGAATG CTGAATCTGA GGCTGATTTC AGTATACATT TCAATAGATT CAACCCCGAT
    GGGGAAGAGG AAGATGTTAC AGTACAAGAA TGA

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

    RefSeq XP_016858437.1
    CDS259..4611
    Translation

    Target ORF information:

    RefSeq Version XM_017002948.2
    Organism Homo sapiens(human)
    Definition Homo sapiens centrosomal protein 170 (CEP170), transcript variant X29, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017002948.2

    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTGTGTTTGG AGTAGATGAC AATCAGGATT ATAATAGGCC TGTTATCAAC
    GAAAAACATA AAGATCTAAT AAAAGATTGG GCTCTCAGTT CTGCTGCAGC AGTAATGGAA
    GAAAGAAAAC CACTGACTAC ATCTGGATTT CACCACTCAG AGGAAGGCAC ATCTTCATCT
    GGAAGCAAAC GTTGGGTTTC ACAGTGGGCT AGTTTGGCTG CCAATCATAC AAGGCATGAT
    CAAGAAGAAA GGATAATGGA ATTTTCTGCA CCTCTTCCTT TAGAGAATGA GACAGAGATC
    AGTGAGTCTG GCATGACAGT GAGAAGTACT GGCTCTGCAA CTTCCTTGGC TAGCCAGGGA
    GAGAGAAGGA GACGAACTCT TCCCCAGCTT CCAAATGAAG AAAAGTCTCT TGAGAGCCAC
    AGAGCAAAGG TTGTAACACA GAGGTCAGAG ATAGGAGAAA AACAAGACAC AGAACTTCAG
    GAGAAAGAAA CACCTACACA GGTATACCAG AAAGATAAAC AAGATGCTGA CAGACCCTTG
    AGTAAAATGA ACAGGGCAGT AAATGGAGAG ACTCTCAAAA CTGGTGGAGA TAATAAAACC
    CTACTTCACT TAGGCAGCTC TGCTCCTGGA AAAGAGAAAA GTGAAACTGA TAAGGAAACT
    TCTTTGGTAA AGCAAACATT AGCAAAACTT CAACAACAAG AACAAAGGGA GGAGGCTCAG
    TGGACACCTA CTAAATTGTC TTCCAAAAAT GTTTCAGGTC AGACAGATAA ATGTAGGGAG
    GAAACTTTTA AACAAGAATC ACAACCTCCA GAAAAAAATT CAGGACATTC TACAAGCAAA
    GGAGACAGAG TGGCACAAAG TGAGAGCAAG AGAAGAAAAG CTGAGGAAAT TCTGAAAAGT
    CAGACTCCAA AGGGAGGAGA CAAGAAGGAA TCCTCCAAGT CATTAGTGCG ACAAGGGAGC
    TTCACTATAG AAAAACCCAG CCCAAACATA CCCATAGAAC TTATTCCCCA TATAAATAAA
    CAGACTTCCT CTACTCCTTC TTCTTTAGCA TTAACATCTG CAAGTAGAAT ACGAGAAAGA
    AGTGAGTCTT TGGATCCTGA TTCTAGTATG GACACAACCC TTATTCTAAA AGACACAGAA
    GCAGTAATGG CTTTTCTAGA AGCTAAACTA CGTGAAGATA ATAAAACTGA TGAAGGACCA
    GATACTCCCA GTTATAATAG AGACAATTCT ATTTCACCAG AATCTGATGT AGATACAGCT
    AGTACAATCA GTCTGGTTAC TGGAGAAACT GAAAGAAAGT CAACCCAAAA GCGAAAGAGT
    TTCACTAGCC TCTATAAAGA TAGGTGTTCC ACAGGTTCTC CTTCCAAAGA TGTTACAAAA
    TCATCATCTT CAGGTGCTAG GGAAAAAATG GAAAAGAAAA CAAAAAGTCG TTCCACAGAT
    GTGGGTTCAA GAGCAGATGG TCGTAAATTT GTTCAGTCCA GTGGGAGAAT AAGACAGCCC
    TCAGTAGACT TAACAGATGA TGACCAAACC TCTAGTGTAC CTCATTCTGC CATCTCTGAT
    ATTATGTCAT CTGATCAAGA AACTTACTCT TGTAAACCTC ATGGACGGAC TCCACTTACC
    TCAGCTGATG AGCATGTACA TTCCAAACTG GAAGGAAGTA AAGTAACGAA ATCTAAGACT
    TCTCCGGTGG TATCTGGTTC ATCTAGTAAA TCAACCACCC TTCCAAGGCC ACGACCTACC
    AGGACTTCCC TCTTGCGCAG AGCACGACTT GGTGAAGCTT CAGACAGTGA ACTTGCTGAT
    GCTGACAAAG CATCTGTTGC TTCTGAAGTA TCCACAACAA GTTCTACATC AAAACCTCCC
    ACAGGAAGGC GTAACATCTC TCGGATTGAT TTATTGGCTC AGCCTCGTAG AACACGACTT
    GGCTCACTGT CAGCTCGTAG TGACTCTGAA GCAACAATTT CTAGAAGTAG TGCCTCTTCG
    AGGACCGCAG AAGCCATCAT TAGAAGTGGA GCCAGACTAG TACCATCAGA TAAATTTTCT
    CCTAGAATTA GAGCTAACAG TATCTCTCGA CTCTCAGACT CCAAGGTCAA AAGTATGACC
    TCAGCTCATG GCTCTGCTTC AGCCCTGAAA ACCACTCGCT TGCAGAGCGC TGGATCAGCA
    ATGCCTACTA GTTCTTCATT CAAACACCGG ATTAAAGAGC AGGAAGACTA CATCCGAGAT
    TGGACTGCTC ATCGAGAAGA GATAGCCAGG ATCAGCCAAG ATCTTGCTCT CATTGCTCGG
    GAGATCAACG ATGTAGCAGG AGAGATAGAT TCAGTGACTT CATCAGGCAC TGCCCCTAGT
    ACCACAGTAA GCACTGCTGC CACCACCCCT GGCTCTGCCA TAGACACTAG AGAAGAGTTG
    GTTGATCGTG TTTTTGATGA AAGCCTCAAC TTCCGAAAGA TTCCTCCATT AGTTCATTCC
    AAAACACCAG AAGGAAACAA CGGTCGATCT GGTGATCCAA GACCTCAAGC AGCAGAGCCT
    CCCGATCACT TAACAATTAC AAGGCGGAGA ACCTGGAGCA GGGATGAAGT CATGGGAGAT
    AATCTGCTGC TGTCATCCGT CTTTCAGTTC TCTAAGAAGA TAAGACAATC TATAGATAAG
    ACAGCTGGAA AGATCAGAAT ATTATTTAAA GACAAAGATC GGAATTGGGA TGACATAGAA
    AGCAAATTAA GAGCCGAAAG TGAAGTCCCT ATTGTGAAAA CCTCAAGCAT GGAGATTTCT
    TCTATCTTAC AGGAACTGAA AAGAGTAGAA AAGCAGCTGC AAGCAATCAA TGCTATGATT
    GATCCTGATG GAACTTTGGA GGCTCTGAAC AACATGGGAT TTCCCAGTGC TATGTTGCCA
    TCTCCACCGA AACAGAAGTC CAGCCCTGTG AATAACCACC ACAGCCCGGG TCAGACACCA
    ACACTTGGCC AACCAGAAGC TAGGGCTCTT CATCCTGCTG CTGTTTCAGC CGCAGCTGAA
    TTTGAGAATG CTGAATCTGA GGCTGATTTC AGTATACATT TCAATAGATT CAACCCCGAT
    GGGGAAGAGG AAGATGTTAC AGTACAAGAA TGA

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

    CloneID OHu90875
    Clone ID Related Accession (Same CDS sequence) XM_017002947.1 , XM_017002947.2 , XM_017002948.2 , XM_017002948.1
    Accession Version XM_017002948.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4353bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product centrosomal protein of 170 kDa isoform X17
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTGTGTTTGG AGTAGATGAC AATCAGGATT ATAATAGGCC TGTTATCAAC
    GAAAAACATA AAGATCTAAT AAAAGATTGG GCTCTCAGTT CTGCTGCAGC AGTAATGGAA
    GAAAGAAAAC CACTGACTAC ATCTGGATTT CACCACTCAG AGGAAGGCAC ATCTTCATCT
    GGAAGCAAAC GTTGGGTTTC ACAGTGGGCT AGTTTGGCTG CCAATCATAC AAGGCATGAT
    CAAGAAGAAA GGATAATGGA ATTTTCTGCA CCTCTTCCTT TAGAGAATGA GACAGAGATC
    AGTGAGTCTG GCATGACAGT GAGAAGTACT GGCTCTGCAA CTTCCTTGGC TAGCCAGGGA
    GAGAGAAGGA GACGAACTCT TCCCCAGCTT CCAAATGAAG AAAAGTCTCT TGAGAGCCAC
    AGAGCAAAGG TTGTAACACA GAGGTCAGAG ATAGGAGAAA AACAAGACAC AGAACTTCAG
    GAGAAAGAAA CACCTACACA GGTATACCAG AAAGATAAAC AAGATGCTGA CAGACCCTTG
    AGTAAAATGA ACAGGGCAGT AAATGGAGAG ACTCTCAAAA CTGGTGGAGA TAATAAAACC
    CTACTTCACT TAGGCAGCTC TGCTCCTGGA AAAGAGAAAA GTGAAACTGA TAAGGAAACT
    TCTTTGGTAA AGCAAACATT AGCAAAACTT CAACAACAAG AACAAAGGGA GGAGGCTCAG
    TGGACACCTA CTAAATTGTC TTCCAAAAAT GTTTCAGGTC AGACAGATAA ATGTAGGGAG
    GAAACTTTTA AACAAGAATC ACAACCTCCA GAAAAAAATT CAGGACATTC TACAAGCAAA
    GGAGACAGAG TGGCACAAAG TGAGAGCAAG AGAAGAAAAG CTGAGGAAAT TCTGAAAAGT
    CAGACTCCAA AGGGAGGAGA CAAGAAGGAA TCCTCCAAGT CATTAGTGCG ACAAGGGAGC
    TTCACTATAG AAAAACCCAG CCCAAACATA CCCATAGAAC TTATTCCCCA TATAAATAAA
    CAGACTTCCT CTACTCCTTC TTCTTTAGCA TTAACATCTG CAAGTAGAAT ACGAGAAAGA
    AGTGAGTCTT TGGATCCTGA TTCTAGTATG GACACAACCC TTATTCTAAA AGACACAGAA
    GCAGTAATGG CTTTTCTAGA AGCTAAACTA CGTGAAGATA ATAAAACTGA TGAAGGACCA
    GATACTCCCA GTTATAATAG AGACAATTCT ATTTCACCAG AATCTGATGT AGATACAGCT
    AGTACAATCA GTCTGGTTAC TGGAGAAACT GAAAGAAAGT CAACCCAAAA GCGAAAGAGT
    TTCACTAGCC TCTATAAAGA TAGGTGTTCC ACAGGTTCTC CTTCCAAAGA TGTTACAAAA
    TCATCATCTT CAGGTGCTAG GGAAAAAATG GAAAAGAAAA CAAAAAGTCG TTCCACAGAT
    GTGGGTTCAA GAGCAGATGG TCGTAAATTT GTTCAGTCCA GTGGGAGAAT AAGACAGCCC
    TCAGTAGACT TAACAGATGA TGACCAAACC TCTAGTGTAC CTCATTCTGC CATCTCTGAT
    ATTATGTCAT CTGATCAAGA AACTTACTCT TGTAAACCTC ATGGACGGAC TCCACTTACC
    TCAGCTGATG AGCATGTACA TTCCAAACTG GAAGGAAGTA AAGTAACGAA ATCTAAGACT
    TCTCCGGTGG TATCTGGTTC ATCTAGTAAA TCAACCACCC TTCCAAGGCC ACGACCTACC
    AGGACTTCCC TCTTGCGCAG AGCACGACTT GGTGAAGCTT CAGACAGTGA ACTTGCTGAT
    GCTGACAAAG CATCTGTTGC TTCTGAAGTA TCCACAACAA GTTCTACATC AAAACCTCCC
    ACAGGAAGGC GTAACATCTC TCGGATTGAT TTATTGGCTC AGCCTCGTAG AACACGACTT
    GGCTCACTGT CAGCTCGTAG TGACTCTGAA GCAACAATTT CTAGAAGTAG TGCCTCTTCG
    AGGACCGCAG AAGCCATCAT TAGAAGTGGA GCCAGACTAG TACCATCAGA TAAATTTTCT
    CCTAGAATTA GAGCTAACAG TATCTCTCGA CTCTCAGACT CCAAGGTCAA AAGTATGACC
    TCAGCTCATG GCTCTGCTTC AGCCCTGAAA ACCACTCGCT TGCAGAGCGC TGGATCAGCA
    ATGCCTACTA GTTCTTCATT CAAACACCGG ATTAAAGAGC AGGAAGACTA CATCCGAGAT
    TGGACTGCTC ATCGAGAAGA GATAGCCAGG ATCAGCCAAG ATCTTGCTCT CATTGCTCGG
    GAGATCAACG ATGTAGCAGG AGAGATAGAT TCAGTGACTT CATCAGGCAC TGCCCCTAGT
    ACCACAGTAA GCACTGCTGC CACCACCCCT GGCTCTGCCA TAGACACTAG AGAAGAGTTG
    GTTGATCGTG TTTTTGATGA AAGCCTCAAC TTCCGAAAGA TTCCTCCATT AGTTCATTCC
    AAAACACCAG AAGGAAACAA CGGTCGATCT GGTGATCCAA GACCTCAAGC AGCAGAGCCT
    CCCGATCACT TAACAATTAC AAGGCGGAGA ACCTGGAGCA GGGATGAAGT CATGGGAGAT
    AATCTGCTGC TGTCATCCGT CTTTCAGTTC TCTAAGAAGA TAAGACAATC TATAGATAAG
    ACAGCTGGAA AGATCAGAAT ATTATTTAAA GACAAAGATC GGAATTGGGA TGACATAGAA
    AGCAAATTAA GAGCCGAAAG TGAAGTCCCT ATTGTGAAAA CCTCAAGCAT GGAGATTTCT
    TCTATCTTAC AGGAACTGAA AAGAGTAGAA AAGCAGCTGC AAGCAATCAA TGCTATGATT
    GATCCTGATG GAACTTTGGA GGCTCTGAAC AACATGGGAT TTCCCAGTGC TATGTTGCCA
    TCTCCACCGA AACAGAAGTC CAGCCCTGTG AATAACCACC ACAGCCCGGG TCAGACACCA
    ACACTTGGCC AACCAGAAGC TAGGGCTCTT CATCCTGCTG CTGTTTCAGC CGCAGCTGAA
    TTTGAGAATG CTGAATCTGA GGCTGATTTC AGTATACATT TCAATAGATT CAACCCCGAT
    GGGGAAGAGG AAGATGTTAC AGTACAAGAA TGA

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

    RefSeq XP_016858437.1
    CDS932..5284
    Translation

    Target ORF information:

    RefSeq Version XM_017002948.1
    Organism Homo sapiens(human)
    Definition Homo sapiens centrosomal protein 170 (CEP170), transcript variant X29, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017002948.1

    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 AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTGTGTTTGG AGTAGATGAC AATCAGGATT ATAATAGGCC TGTTATCAAC
    GAAAAACATA AAGATCTAAT AAAAGATTGG GCTCTCAGTT CTGCTGCAGC AGTAATGGAA
    GAAAGAAAAC CACTGACTAC ATCTGGATTT CACCACTCAG AGGAAGGCAC ATCTTCATCT
    GGAAGCAAAC GTTGGGTTTC ACAGTGGGCT AGTTTGGCTG CCAATCATAC AAGGCATGAT
    CAAGAAGAAA GGATAATGGA ATTTTCTGCA CCTCTTCCTT TAGAGAATGA GACAGAGATC
    AGTGAGTCTG GCATGACAGT GAGAAGTACT GGCTCTGCAA CTTCCTTGGC TAGCCAGGGA
    GAGAGAAGGA GACGAACTCT TCCCCAGCTT CCAAATGAAG AAAAGTCTCT TGAGAGCCAC
    AGAGCAAAGG TTGTAACACA GAGGTCAGAG ATAGGAGAAA AACAAGACAC AGAACTTCAG
    GAGAAAGAAA CACCTACACA GGTATACCAG AAAGATAAAC AAGATGCTGA CAGACCCTTG
    AGTAAAATGA ACAGGGCAGT AAATGGAGAG ACTCTCAAAA CTGGTGGAGA TAATAAAACC
    CTACTTCACT TAGGCAGCTC TGCTCCTGGA AAAGAGAAAA GTGAAACTGA TAAGGAAACT
    TCTTTGGTAA AGCAAACATT AGCAAAACTT CAACAACAAG AACAAAGGGA GGAGGCTCAG
    TGGACACCTA CTAAATTGTC TTCCAAAAAT GTTTCAGGTC AGACAGATAA ATGTAGGGAG
    GAAACTTTTA AACAAGAATC ACAACCTCCA GAAAAAAATT CAGGACATTC TACAAGCAAA
    GGAGACAGAG TGGCACAAAG TGAGAGCAAG AGAAGAAAAG CTGAGGAAAT TCTGAAAAGT
    CAGACTCCAA AGGGAGGAGA CAAGAAGGAA TCCTCCAAGT CATTAGTGCG ACAAGGGAGC
    TTCACTATAG AAAAACCCAG CCCAAACATA CCCATAGAAC TTATTCCCCA TATAAATAAA
    CAGACTTCCT CTACTCCTTC TTCTTTAGCA TTAACATCTG CAAGTAGAAT ACGAGAAAGA
    AGTGAGTCTT TGGATCCTGA TTCTAGTATG GACACAACCC TTATTCTAAA AGACACAGAA
    GCAGTAATGG CTTTTCTAGA AGCTAAACTA CGTGAAGATA ATAAAACTGA TGAAGGACCA
    GATACTCCCA GTTATAATAG AGACAATTCT ATTTCACCAG AATCTGATGT AGATACAGCT
    AGTACAATCA GTCTGGTTAC TGGAGAAACT GAAAGAAAGT CAACCCAAAA GCGAAAGAGT
    TTCACTAGCC TCTATAAAGA TAGGTGTTCC ACAGGTTCTC CTTCCAAAGA TGTTACAAAA
    TCATCATCTT CAGGTGCTAG GGAAAAAATG GAAAAGAAAA CAAAAAGTCG TTCCACAGAT
    GTGGGTTCAA GAGCAGATGG TCGTAAATTT GTTCAGTCCA GTGGGAGAAT AAGACAGCCC
    TCAGTAGACT TAACAGATGA TGACCAAACC TCTAGTGTAC CTCATTCTGC CATCTCTGAT
    ATTATGTCAT CTGATCAAGA AACTTACTCT TGTAAACCTC ATGGACGGAC TCCACTTACC
    TCAGCTGATG AGCATGTACA TTCCAAACTG GAAGGAAGTA AAGTAACGAA ATCTAAGACT
    TCTCCGGTGG TATCTGGTTC ATCTAGTAAA TCAACCACCC TTCCAAGGCC ACGACCTACC
    AGGACTTCCC TCTTGCGCAG AGCACGACTT GGTGAAGCTT CAGACAGTGA ACTTGCTGAT
    GCTGACAAAG CATCTGTTGC TTCTGAAGTA TCCACAACAA GTTCTACATC AAAACCTCCC
    ACAGGAAGGC GTAACATCTC TCGGATTGAT TTATTGGCTC AGCCTCGTAG AACACGACTT
    GGCTCACTGT CAGCTCGTAG TGACTCTGAA GCAACAATTT CTAGAAGTAG TGCCTCTTCG
    AGGACCGCAG AAGCCATCAT TAGAAGTGGA GCCAGACTAG TACCATCAGA TAAATTTTCT
    CCTAGAATTA GAGCTAACAG TATCTCTCGA CTCTCAGACT CCAAGGTCAA AAGTATGACC
    TCAGCTCATG GCTCTGCTTC AGCCCTGAAA ACCACTCGCT TGCAGAGCGC TGGATCAGCA
    ATGCCTACTA GTTCTTCATT CAAACACCGG ATTAAAGAGC AGGAAGACTA CATCCGAGAT
    TGGACTGCTC ATCGAGAAGA GATAGCCAGG ATCAGCCAAG ATCTTGCTCT CATTGCTCGG
    GAGATCAACG ATGTAGCAGG AGAGATAGAT TCAGTGACTT CATCAGGCAC TGCCCCTAGT
    ACCACAGTAA GCACTGCTGC CACCACCCCT GGCTCTGCCA TAGACACTAG AGAAGAGTTG
    GTTGATCGTG TTTTTGATGA AAGCCTCAAC TTCCGAAAGA TTCCTCCATT AGTTCATTCC
    AAAACACCAG AAGGAAACAA CGGTCGATCT GGTGATCCAA GACCTCAAGC AGCAGAGCCT
    CCCGATCACT TAACAATTAC AAGGCGGAGA ACCTGGAGCA GGGATGAAGT CATGGGAGAT
    AATCTGCTGC TGTCATCCGT CTTTCAGTTC TCTAAGAAGA TAAGACAATC TATAGATAAG
    ACAGCTGGAA AGATCAGAAT ATTATTTAAA GACAAAGATC GGAATTGGGA TGACATAGAA
    AGCAAATTAA GAGCCGAAAG TGAAGTCCCT ATTGTGAAAA CCTCAAGCAT GGAGATTTCT
    TCTATCTTAC AGGAACTGAA AAGAGTAGAA AAGCAGCTGC AAGCAATCAA TGCTATGATT
    GATCCTGATG GAACTTTGGA GGCTCTGAAC AACATGGGAT TTCCCAGTGC TATGTTGCCA
    TCTCCACCGA AACAGAAGTC CAGCCCTGTG AATAACCACC ACAGCCCGGG TCAGACACCA
    ACACTTGGCC AACCAGAAGC TAGGGCTCTT CATCCTGCTG CTGTTTCAGC CGCAGCTGAA
    TTTGAGAATG CTGAATCTGA GGCTGATTTC AGTATACATT TCAATAGATT CAACCCCGAT
    GGGGAAGAGG AAGATGTTAC AGTACAAGAA TGA

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

    CloneID OHu90876
    Clone ID Related Accession (Same CDS sequence) XM_017002949.1 , XM_017002949.2
    Accession Version XM_017002949.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4302bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product centrosomal protein of 170 kDa isoform X18
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTGTGTTTGG AGTAGATGAC AATCAGGATT ATAATAGGCC TGTTATCAAC
    GAAAAACATA AAGATCTAAT AAAAGATTGG GCTCTCAGTT CTGCTGCAGC AGTAATGGAA
    GAAAGAAAAC CACTGACTAC ATCTGGATTT CACCACTCAG AGGAAGGCAC ATCTTCATCT
    GGAAGCAAAC GTTGGGTTTC ACAGTGGGCT AGTTTGGCTG CCAATCATAC AAGGCATGAT
    CAAGAAGAAA GGATAATGGA ATTTTCTGCA CCTCTTCCTT TAGAGAATGA GACAGAGATC
    AGTGAGTCTG GCATGACAGT GAGAAGTACT GGCTCTGCAA CTTCCTTGGC TAGCCAGGGA
    GAGAGAAGGA GACGAACTCT TCCCCAGCTT CCAAATGAAG AAAAGTCTCT TGAGAGCCAC
    AGAGCAAAGG TTGTAACACA GAGGTCAGAG ATAGGAGAAA AACAAGACAC AGAACTTCAG
    GAGAAAGAAA CACCTACACA GGTATACCAG AAAGATAAAC AAGATGCTGA CAGACCCTTG
    AGTAAAATGA ACAGGGCAGT AAATGGAGAG ACTCTCAAAA CTGGTGGAGA TAATAAAACC
    CTACTTCACT TAGGCAGCTC TGCTCCTGGA AAAGAGAAAA GTGAAACTGA TAAGGAAACT
    TCTTTGGTAA AGCAAACATT AGCAAAACTT CAACAACAAG AACAAAGGGA GGAGGCTCAG
    TGGACACCTA CTAAATTGTC TTCCAAAAAT GTTTCAGGTC AGACAGATAA ATGTAGGGAG
    GAAACTTTTA AACAAGAATC ACAACCTCCA GAAAAAAATT CAGGACATTC TACAAGCAAA
    GGAGACAGAG TGGCACAAAG TGAGAGCAAG AGAAGAAAAG CTGAGGAAAT TCTGAAAAGT
    CAGACTCCAA AGGGAGGAGA CAAGAAGGAA TCCTCCAAGT CATTAGTGCG ACAAGGGAGC
    TTCACTATAG AAAAACCCAG CCCAAACATA CCCATAGAAC TTATTCCCCA TATAAATAAA
    CAGACTTCCT CTACTCCTTC TTCTTTAGCA TTAACATCTG CAAGTAGAAT ACGAGAAAGA
    AGTGAGTCTT TGGATCCTGA TTCTAGTATG GACACAACCC TTATTCTAAA AGACACAGAA
    GCAGTAATGG CTTTTCTAGA AGCTAAACTA CGTGAAGATA ATAAAACTGA TGAAGGACCA
    GATACTCCCA GTTATAATAG AGACAATTCT ATTTCACCAG AATCTGATGT AGATACAGCT
    AGTACAATCA GTCTGGTTAC TGGAGAAACT GAAAGAAAGT CAACCCAAAA GCGAAAGAGT
    TTCACTAGCC TCTATAAAGA TAGGTGTTCC ACAGGTTCTC CTTCCAAAGA TGTTACAAAA
    TCATCATCTT CAGGTGCTAG GGAAAAAATG GAAAAGAAAA CAAAAAGTCG TTCCACAGAT
    GTGGGTTCAA GAGCAGATGG TCGTAAATTT GTTCAGTCCA GTGGGAGAAT AAGACAGCCC
    TCAGTAGACT TAACAGATGA TGACCAAACC TCTAGTGTAC CTCATTCTGC CATCTCTGAT
    ATTATGTCAT CTGATCAAGA AACTTACTCT TGTAAACCTC ATGGACGGAC TCCACTTACC
    TCAGCTGATG AGCATGTACA TTCCAAACTG GAAGGAAGTA AAGTAACGAA ATCTAAGACT
    TCTCCGGTGG TATCTGGTTC ATCTAGTAAA TCAACCACCC TTCCAAGGCC ACGACCTACC
    AGGACTTCCC TCTTGCGCAG AGCACGACTT GGTGAAGCTT CAGACAGTGA ACTTGCTGAT
    GCTGACAAAG CATCTGTTGC TTCTGAAGTA TCCACAACAA GTTCTACATC AAAACCTCCC
    ACAGGAAGGC GTAACATCTC TCGGATTGAT TTATTGGCTC AGCCTCGTAG AACACGACTT
    GGCTCACTGT CAGCTCGTAG TGACTCTGAA GCAACAATTT CTAGAAGTAG TGCCTCTTCG
    AGGACCGCAG AAGCCATCAT TAGAAGTGGA GCCAGACTAG TACCATCAGA TAAATTTTCT
    CCTAGAATTA GAGCTAACAG TATCTCTCGA CTCTCAGACT CCAAGGTCAA AAGTATGACC
    TCAGCTCATG GCTCTGCTTC AGCCCTGAAA ACCACTCGCT TGCAGAGCGC TGGATCAGCA
    ATGCCTACTA GTTCTTCATT CAAACACCGG ATTAAAGAGC AGGAAGACTA CATCCGAGAT
    TGGACTGCTC ATCGAGAAGA GATAGCCAGG ATCAGCCAAG ATCTTGCTCT CATTGCTCGG
    GAGATCAACG ATGTAGCAGG AGAGATAGAT TCAGTGACTT CATCAGGCAC TGCCCCTAGT
    ACCACATTGG TTGATCGTGT TTTTGATGAA AGCCTCAACT TCCGAAAGAT TCCTCCATTA
    GTTCATTCCA AAACACCAGA AGGAAACAAC GGTCGATCTG GTGATCCAAG ACCTCAAGCA
    GCAGAGCCTC CCGATCACTT AACAATTACA AGGCGGAGAA CCTGGAGCAG GGATGAAGTC
    ATGGGAGATA ATCTGCTGCT GTCATCCGTC TTTCAGTTCT CTAAGAAGAT AAGACAATCT
    ATAGATAAGA CAGCTGGAAA GATCAGAATA TTATTTAAAG ACAAAGATCG GAATTGGGAT
    GACATAGAAA GCAAATTAAG AGCCGAAAGT GAAGTCCCTA TTGTGAAAAC CTCAAGCATG
    GAGATTTCTT CTATCTTACA GGAACTGAAA AGAGTAGAAA AGCAGCTGCA AGCAATCAAT
    GCTATGATTG ATCCTGATGG AACTTTGGAG GCTCTGAACA ACATGGGATT TCCCAGTGCT
    ATGTTGCCAT CTCCACCGAA ACAGAAGTCC AGCCCTGTGA ATAACCACCA CAGCCCGGGT
    CAGACACCAA CACTTGGCCA ACCAGAAGCT AGGGCTCTTC ATCCTGCTGC TGTTTCAGCC
    GCAGCTGAAT TTGAGAATGC TGAATCTGAG GCTGATTTCA GTATACATTT CAATAGATTC
    AACCCCGATG GGGAAGAGGA AGATGTTACA GTACAAGAAT GA

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

    RefSeq XP_016858438.1
    CDS939..5240
    Translation

    Target ORF information:

    RefSeq Version XM_017002949.1
    Organism Homo sapiens(human)
    Definition Homo sapiens centrosomal protein 170 (CEP170), transcript variant X30, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017002949.1

    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTGTGTTTGG AGTAGATGAC AATCAGGATT ATAATAGGCC TGTTATCAAC
    GAAAAACATA AAGATCTAAT AAAAGATTGG GCTCTCAGTT CTGCTGCAGC AGTAATGGAA
    GAAAGAAAAC CACTGACTAC ATCTGGATTT CACCACTCAG AGGAAGGCAC ATCTTCATCT
    GGAAGCAAAC GTTGGGTTTC ACAGTGGGCT AGTTTGGCTG CCAATCATAC AAGGCATGAT
    CAAGAAGAAA GGATAATGGA ATTTTCTGCA CCTCTTCCTT TAGAGAATGA GACAGAGATC
    AGTGAGTCTG GCATGACAGT GAGAAGTACT GGCTCTGCAA CTTCCTTGGC TAGCCAGGGA
    GAGAGAAGGA GACGAACTCT TCCCCAGCTT CCAAATGAAG AAAAGTCTCT TGAGAGCCAC
    AGAGCAAAGG TTGTAACACA GAGGTCAGAG ATAGGAGAAA AACAAGACAC AGAACTTCAG
    GAGAAAGAAA CACCTACACA GGTATACCAG AAAGATAAAC AAGATGCTGA CAGACCCTTG
    AGTAAAATGA ACAGGGCAGT AAATGGAGAG ACTCTCAAAA CTGGTGGAGA TAATAAAACC
    CTACTTCACT TAGGCAGCTC TGCTCCTGGA AAAGAGAAAA GTGAAACTGA TAAGGAAACT
    TCTTTGGTAA AGCAAACATT AGCAAAACTT CAACAACAAG AACAAAGGGA GGAGGCTCAG
    TGGACACCTA CTAAATTGTC TTCCAAAAAT GTTTCAGGTC AGACAGATAA ATGTAGGGAG
    GAAACTTTTA AACAAGAATC ACAACCTCCA GAAAAAAATT CAGGACATTC TACAAGCAAA
    GGAGACAGAG TGGCACAAAG TGAGAGCAAG AGAAGAAAAG CTGAGGAAAT TCTGAAAAGT
    CAGACTCCAA AGGGAGGAGA CAAGAAGGAA TCCTCCAAGT CATTAGTGCG ACAAGGGAGC
    TTCACTATAG AAAAACCCAG CCCAAACATA CCCATAGAAC TTATTCCCCA TATAAATAAA
    CAGACTTCCT CTACTCCTTC TTCTTTAGCA TTAACATCTG CAAGTAGAAT ACGAGAAAGA
    AGTGAGTCTT TGGATCCTGA TTCTAGTATG GACACAACCC TTATTCTAAA AGACACAGAA
    GCAGTAATGG CTTTTCTAGA AGCTAAACTA CGTGAAGATA ATAAAACTGA TGAAGGACCA
    GATACTCCCA GTTATAATAG AGACAATTCT ATTTCACCAG AATCTGATGT AGATACAGCT
    AGTACAATCA GTCTGGTTAC TGGAGAAACT GAAAGAAAGT CAACCCAAAA GCGAAAGAGT
    TTCACTAGCC TCTATAAAGA TAGGTGTTCC ACAGGTTCTC CTTCCAAAGA TGTTACAAAA
    TCATCATCTT CAGGTGCTAG GGAAAAAATG GAAAAGAAAA CAAAAAGTCG TTCCACAGAT
    GTGGGTTCAA GAGCAGATGG TCGTAAATTT GTTCAGTCCA GTGGGAGAAT AAGACAGCCC
    TCAGTAGACT TAACAGATGA TGACCAAACC TCTAGTGTAC CTCATTCTGC CATCTCTGAT
    ATTATGTCAT CTGATCAAGA AACTTACTCT TGTAAACCTC ATGGACGGAC TCCACTTACC
    TCAGCTGATG AGCATGTACA TTCCAAACTG GAAGGAAGTA AAGTAACGAA ATCTAAGACT
    TCTCCGGTGG TATCTGGTTC ATCTAGTAAA TCAACCACCC TTCCAAGGCC ACGACCTACC
    AGGACTTCCC TCTTGCGCAG AGCACGACTT GGTGAAGCTT CAGACAGTGA ACTTGCTGAT
    GCTGACAAAG CATCTGTTGC TTCTGAAGTA TCCACAACAA GTTCTACATC AAAACCTCCC
    ACAGGAAGGC GTAACATCTC TCGGATTGAT TTATTGGCTC AGCCTCGTAG AACACGACTT
    GGCTCACTGT CAGCTCGTAG TGACTCTGAA GCAACAATTT CTAGAAGTAG TGCCTCTTCG
    AGGACCGCAG AAGCCATCAT TAGAAGTGGA GCCAGACTAG TACCATCAGA TAAATTTTCT
    CCTAGAATTA GAGCTAACAG TATCTCTCGA CTCTCAGACT CCAAGGTCAA AAGTATGACC
    TCAGCTCATG GCTCTGCTTC AGCCCTGAAA ACCACTCGCT TGCAGAGCGC TGGATCAGCA
    ATGCCTACTA GTTCTTCATT CAAACACCGG ATTAAAGAGC AGGAAGACTA CATCCGAGAT
    TGGACTGCTC ATCGAGAAGA GATAGCCAGG ATCAGCCAAG ATCTTGCTCT CATTGCTCGG
    GAGATCAACG ATGTAGCAGG AGAGATAGAT TCAGTGACTT CATCAGGCAC TGCCCCTAGT
    ACCACATTGG TTGATCGTGT TTTTGATGAA AGCCTCAACT TCCGAAAGAT TCCTCCATTA
    GTTCATTCCA AAACACCAGA AGGAAACAAC GGTCGATCTG GTGATCCAAG ACCTCAAGCA
    GCAGAGCCTC CCGATCACTT AACAATTACA AGGCGGAGAA CCTGGAGCAG GGATGAAGTC
    ATGGGAGATA ATCTGCTGCT GTCATCCGTC TTTCAGTTCT CTAAGAAGAT AAGACAATCT
    ATAGATAAGA CAGCTGGAAA GATCAGAATA TTATTTAAAG ACAAAGATCG GAATTGGGAT
    GACATAGAAA GCAAATTAAG AGCCGAAAGT GAAGTCCCTA TTGTGAAAAC CTCAAGCATG
    GAGATTTCTT CTATCTTACA GGAACTGAAA AGAGTAGAAA AGCAGCTGCA AGCAATCAAT
    GCTATGATTG ATCCTGATGG AACTTTGGAG GCTCTGAACA ACATGGGATT TCCCAGTGCT
    ATGTTGCCAT CTCCACCGAA ACAGAAGTCC AGCCCTGTGA ATAACCACCA CAGCCCGGGT
    CAGACACCAA CACTTGGCCA ACCAGAAGCT AGGGCTCTTC ATCCTGCTGC TGTTTCAGCC
    GCAGCTGAAT TTGAGAATGC TGAATCTGAG GCTGATTTCA GTATACATTT CAATAGATTC
    AACCCCGATG GGGAAGAGGA AGATGTTACA GTACAAGAAT GA

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

    CloneID OHu90876
    Clone ID Related Accession (Same CDS sequence) XM_017002949.1 , XM_017002949.2
    Accession Version XM_017002949.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4302bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product centrosomal protein of 170 kDa isoform X18
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017002949.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTGTGTTTGG AGTAGATGAC AATCAGGATT ATAATAGGCC TGTTATCAAC
    GAAAAACATA AAGATCTAAT AAAAGATTGG GCTCTCAGTT CTGCTGCAGC AGTAATGGAA
    GAAAGAAAAC CACTGACTAC ATCTGGATTT CACCACTCAG AGGAAGGCAC ATCTTCATCT
    GGAAGCAAAC GTTGGGTTTC ACAGTGGGCT AGTTTGGCTG CCAATCATAC AAGGCATGAT
    CAAGAAGAAA GGATAATGGA ATTTTCTGCA CCTCTTCCTT TAGAGAATGA GACAGAGATC
    AGTGAGTCTG GCATGACAGT GAGAAGTACT GGCTCTGCAA CTTCCTTGGC TAGCCAGGGA
    GAGAGAAGGA GACGAACTCT TCCCCAGCTT CCAAATGAAG AAAAGTCTCT TGAGAGCCAC
    AGAGCAAAGG TTGTAACACA GAGGTCAGAG ATAGGAGAAA AACAAGACAC AGAACTTCAG
    GAGAAAGAAA CACCTACACA GGTATACCAG AAAGATAAAC AAGATGCTGA CAGACCCTTG
    AGTAAAATGA ACAGGGCAGT AAATGGAGAG ACTCTCAAAA CTGGTGGAGA TAATAAAACC
    CTACTTCACT TAGGCAGCTC TGCTCCTGGA AAAGAGAAAA GTGAAACTGA TAAGGAAACT
    TCTTTGGTAA AGCAAACATT AGCAAAACTT CAACAACAAG AACAAAGGGA GGAGGCTCAG
    TGGACACCTA CTAAATTGTC TTCCAAAAAT GTTTCAGGTC AGACAGATAA ATGTAGGGAG
    GAAACTTTTA AACAAGAATC ACAACCTCCA GAAAAAAATT CAGGACATTC TACAAGCAAA
    GGAGACAGAG TGGCACAAAG TGAGAGCAAG AGAAGAAAAG CTGAGGAAAT TCTGAAAAGT
    CAGACTCCAA AGGGAGGAGA CAAGAAGGAA TCCTCCAAGT CATTAGTGCG ACAAGGGAGC
    TTCACTATAG AAAAACCCAG CCCAAACATA CCCATAGAAC TTATTCCCCA TATAAATAAA
    CAGACTTCCT CTACTCCTTC TTCTTTAGCA TTAACATCTG CAAGTAGAAT ACGAGAAAGA
    AGTGAGTCTT TGGATCCTGA TTCTAGTATG GACACAACCC TTATTCTAAA AGACACAGAA
    GCAGTAATGG CTTTTCTAGA AGCTAAACTA CGTGAAGATA ATAAAACTGA TGAAGGACCA
    GATACTCCCA GTTATAATAG AGACAATTCT ATTTCACCAG AATCTGATGT AGATACAGCT
    AGTACAATCA GTCTGGTTAC TGGAGAAACT GAAAGAAAGT CAACCCAAAA GCGAAAGAGT
    TTCACTAGCC TCTATAAAGA TAGGTGTTCC ACAGGTTCTC CTTCCAAAGA TGTTACAAAA
    TCATCATCTT CAGGTGCTAG GGAAAAAATG GAAAAGAAAA CAAAAAGTCG TTCCACAGAT
    GTGGGTTCAA GAGCAGATGG TCGTAAATTT GTTCAGTCCA GTGGGAGAAT AAGACAGCCC
    TCAGTAGACT TAACAGATGA TGACCAAACC TCTAGTGTAC CTCATTCTGC CATCTCTGAT
    ATTATGTCAT CTGATCAAGA AACTTACTCT TGTAAACCTC ATGGACGGAC TCCACTTACC
    TCAGCTGATG AGCATGTACA TTCCAAACTG GAAGGAAGTA AAGTAACGAA ATCTAAGACT
    TCTCCGGTGG TATCTGGTTC ATCTAGTAAA TCAACCACCC TTCCAAGGCC ACGACCTACC
    AGGACTTCCC TCTTGCGCAG AGCACGACTT GGTGAAGCTT CAGACAGTGA ACTTGCTGAT
    GCTGACAAAG CATCTGTTGC TTCTGAAGTA TCCACAACAA GTTCTACATC AAAACCTCCC
    ACAGGAAGGC GTAACATCTC TCGGATTGAT TTATTGGCTC AGCCTCGTAG AACACGACTT
    GGCTCACTGT CAGCTCGTAG TGACTCTGAA GCAACAATTT CTAGAAGTAG TGCCTCTTCG
    AGGACCGCAG AAGCCATCAT TAGAAGTGGA GCCAGACTAG TACCATCAGA TAAATTTTCT
    CCTAGAATTA GAGCTAACAG TATCTCTCGA CTCTCAGACT CCAAGGTCAA AAGTATGACC
    TCAGCTCATG GCTCTGCTTC AGCCCTGAAA ACCACTCGCT TGCAGAGCGC TGGATCAGCA
    ATGCCTACTA GTTCTTCATT CAAACACCGG ATTAAAGAGC AGGAAGACTA CATCCGAGAT
    TGGACTGCTC ATCGAGAAGA GATAGCCAGG ATCAGCCAAG ATCTTGCTCT CATTGCTCGG
    GAGATCAACG ATGTAGCAGG AGAGATAGAT TCAGTGACTT CATCAGGCAC TGCCCCTAGT
    ACCACATTGG TTGATCGTGT TTTTGATGAA AGCCTCAACT TCCGAAAGAT TCCTCCATTA
    GTTCATTCCA AAACACCAGA AGGAAACAAC GGTCGATCTG GTGATCCAAG ACCTCAAGCA
    GCAGAGCCTC CCGATCACTT AACAATTACA AGGCGGAGAA CCTGGAGCAG GGATGAAGTC
    ATGGGAGATA ATCTGCTGCT GTCATCCGTC TTTCAGTTCT CTAAGAAGAT AAGACAATCT
    ATAGATAAGA CAGCTGGAAA GATCAGAATA TTATTTAAAG ACAAAGATCG GAATTGGGAT
    GACATAGAAA GCAAATTAAG AGCCGAAAGT GAAGTCCCTA TTGTGAAAAC CTCAAGCATG
    GAGATTTCTT CTATCTTACA GGAACTGAAA AGAGTAGAAA AGCAGCTGCA AGCAATCAAT
    GCTATGATTG ATCCTGATGG AACTTTGGAG GCTCTGAACA ACATGGGATT TCCCAGTGCT
    ATGTTGCCAT CTCCACCGAA ACAGAAGTCC AGCCCTGTGA ATAACCACCA CAGCCCGGGT
    CAGACACCAA CACTTGGCCA ACCAGAAGCT AGGGCTCTTC ATCCTGCTGC TGTTTCAGCC
    GCAGCTGAAT TTGAGAATGC TGAATCTGAG GCTGATTTCA GTATACATTT CAATAGATTC
    AACCCCGATG GGGAAGAGGA AGATGTTACA GTACAAGAAT GA

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

    RefSeq XP_016858438.1
    CDS234..4535
    Translation

    Target ORF information:

    RefSeq Version XM_017002949.2
    Organism Homo sapiens(human)
    Definition Homo sapiens centrosomal protein 170 (CEP170), transcript variant X30, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017002949.2

    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTGTGTTTGG AGTAGATGAC AATCAGGATT ATAATAGGCC TGTTATCAAC
    GAAAAACATA AAGATCTAAT AAAAGATTGG GCTCTCAGTT CTGCTGCAGC AGTAATGGAA
    GAAAGAAAAC CACTGACTAC ATCTGGATTT CACCACTCAG AGGAAGGCAC ATCTTCATCT
    GGAAGCAAAC GTTGGGTTTC ACAGTGGGCT AGTTTGGCTG CCAATCATAC AAGGCATGAT
    CAAGAAGAAA GGATAATGGA ATTTTCTGCA CCTCTTCCTT TAGAGAATGA GACAGAGATC
    AGTGAGTCTG GCATGACAGT GAGAAGTACT GGCTCTGCAA CTTCCTTGGC TAGCCAGGGA
    GAGAGAAGGA GACGAACTCT TCCCCAGCTT CCAAATGAAG AAAAGTCTCT TGAGAGCCAC
    AGAGCAAAGG TTGTAACACA GAGGTCAGAG ATAGGAGAAA AACAAGACAC AGAACTTCAG
    GAGAAAGAAA CACCTACACA GGTATACCAG AAAGATAAAC AAGATGCTGA CAGACCCTTG
    AGTAAAATGA ACAGGGCAGT AAATGGAGAG ACTCTCAAAA CTGGTGGAGA TAATAAAACC
    CTACTTCACT TAGGCAGCTC TGCTCCTGGA AAAGAGAAAA GTGAAACTGA TAAGGAAACT
    TCTTTGGTAA AGCAAACATT AGCAAAACTT CAACAACAAG AACAAAGGGA GGAGGCTCAG
    TGGACACCTA CTAAATTGTC TTCCAAAAAT GTTTCAGGTC AGACAGATAA ATGTAGGGAG
    GAAACTTTTA AACAAGAATC ACAACCTCCA GAAAAAAATT CAGGACATTC TACAAGCAAA
    GGAGACAGAG TGGCACAAAG TGAGAGCAAG AGAAGAAAAG CTGAGGAAAT TCTGAAAAGT
    CAGACTCCAA AGGGAGGAGA CAAGAAGGAA TCCTCCAAGT CATTAGTGCG ACAAGGGAGC
    TTCACTATAG AAAAACCCAG CCCAAACATA CCCATAGAAC TTATTCCCCA TATAAATAAA
    CAGACTTCCT CTACTCCTTC TTCTTTAGCA TTAACATCTG CAAGTAGAAT ACGAGAAAGA
    AGTGAGTCTT TGGATCCTGA TTCTAGTATG GACACAACCC TTATTCTAAA AGACACAGAA
    GCAGTAATGG CTTTTCTAGA AGCTAAACTA CGTGAAGATA ATAAAACTGA TGAAGGACCA
    GATACTCCCA GTTATAATAG AGACAATTCT ATTTCACCAG AATCTGATGT AGATACAGCT
    AGTACAATCA GTCTGGTTAC TGGAGAAACT GAAAGAAAGT CAACCCAAAA GCGAAAGAGT
    TTCACTAGCC TCTATAAAGA TAGGTGTTCC ACAGGTTCTC CTTCCAAAGA TGTTACAAAA
    TCATCATCTT CAGGTGCTAG GGAAAAAATG GAAAAGAAAA CAAAAAGTCG TTCCACAGAT
    GTGGGTTCAA GAGCAGATGG TCGTAAATTT GTTCAGTCCA GTGGGAGAAT AAGACAGCCC
    TCAGTAGACT TAACAGATGA TGACCAAACC TCTAGTGTAC CTCATTCTGC CATCTCTGAT
    ATTATGTCAT CTGATCAAGA AACTTACTCT TGTAAACCTC ATGGACGGAC TCCACTTACC
    TCAGCTGATG AGCATGTACA TTCCAAACTG GAAGGAAGTA AAGTAACGAA ATCTAAGACT
    TCTCCGGTGG TATCTGGTTC ATCTAGTAAA TCAACCACCC TTCCAAGGCC ACGACCTACC
    AGGACTTCCC TCTTGCGCAG AGCACGACTT GGTGAAGCTT CAGACAGTGA ACTTGCTGAT
    GCTGACAAAG CATCTGTTGC TTCTGAAGTA TCCACAACAA GTTCTACATC AAAACCTCCC
    ACAGGAAGGC GTAACATCTC TCGGATTGAT TTATTGGCTC AGCCTCGTAG AACACGACTT
    GGCTCACTGT CAGCTCGTAG TGACTCTGAA GCAACAATTT CTAGAAGTAG TGCCTCTTCG
    AGGACCGCAG AAGCCATCAT TAGAAGTGGA GCCAGACTAG TACCATCAGA TAAATTTTCT
    CCTAGAATTA GAGCTAACAG TATCTCTCGA CTCTCAGACT CCAAGGTCAA AAGTATGACC
    TCAGCTCATG GCTCTGCTTC AGCCCTGAAA ACCACTCGCT TGCAGAGCGC TGGATCAGCA
    ATGCCTACTA GTTCTTCATT CAAACACCGG ATTAAAGAGC AGGAAGACTA CATCCGAGAT
    TGGACTGCTC ATCGAGAAGA GATAGCCAGG ATCAGCCAAG ATCTTGCTCT CATTGCTCGG
    GAGATCAACG ATGTAGCAGG AGAGATAGAT TCAGTGACTT CATCAGGCAC TGCCCCTAGT
    ACCACATTGG TTGATCGTGT TTTTGATGAA AGCCTCAACT TCCGAAAGAT TCCTCCATTA
    GTTCATTCCA AAACACCAGA AGGAAACAAC GGTCGATCTG GTGATCCAAG ACCTCAAGCA
    GCAGAGCCTC CCGATCACTT AACAATTACA AGGCGGAGAA CCTGGAGCAG GGATGAAGTC
    ATGGGAGATA ATCTGCTGCT GTCATCCGTC TTTCAGTTCT CTAAGAAGAT AAGACAATCT
    ATAGATAAGA CAGCTGGAAA GATCAGAATA TTATTTAAAG ACAAAGATCG GAATTGGGAT
    GACATAGAAA GCAAATTAAG AGCCGAAAGT GAAGTCCCTA TTGTGAAAAC CTCAAGCATG
    GAGATTTCTT CTATCTTACA GGAACTGAAA AGAGTAGAAA AGCAGCTGCA AGCAATCAAT
    GCTATGATTG ATCCTGATGG AACTTTGGAG GCTCTGAACA ACATGGGATT TCCCAGTGCT
    ATGTTGCCAT CTCCACCGAA ACAGAAGTCC AGCCCTGTGA ATAACCACCA CAGCCCGGGT
    CAGACACCAA CACTTGGCCA ACCAGAAGCT AGGGCTCTTC ATCCTGCTGC TGTTTCAGCC
    GCAGCTGAAT TTGAGAATGC TGAATCTGAG GCTGATTTCA GTATACATTT CAATAGATTC
    AACCCCGATG GGGAAGAGGA AGATGTTACA GTACAAGAAT GA

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

    CloneID OHu90877
    Clone ID Related Accession (Same CDS sequence) XM_017002950.1 , XM_017002950.2
    Accession Version XM_017002950.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4227bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product centrosomal protein of 170 kDa isoform X19
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGAAATAAAC ATGATGATGG TACGCAAAGT
    GATTCAGAGA ACGCTGGGGC TCACAGGCGC TGTAGCAAAC GTGCAACTCT TGAGGAACAC
    TTAAGACGCC ACCATTCAGA ACACAAAAAG CTACAGAAGG TCCAGGCTAC TGAAAAGCAT
    CAAGACCAAG CTGTTACTAG CTCTGCGCAT CACAGAGGGG GGCATGGTGT TCCACATGGG
    AAATTGTTAA AACAGAAATC AGAGGAGCCA TCGGTGTCAA TACCCTTCCT ACAAACTGCA
    TTATTAAGAA GTTCAGGGAG TCTTGGGCAC AGACCAAGCC AGGAGATGGA TAAAATGTTA
    AAAAATCAAG CAACTTCTGC TACTTCTGAA AAGGATAATG ATGATGACCA AAGTGACAAG
    GGTACTTATA CCATTGAGTT AGAGAATCCC AACAGTGAGG AAGTGGAAGC AAGAAAAATG
    ATTGACAAGG TGTTTGGAGT AGATGACAAT CAGGATTATA ATAGGCCTGT TATCAACGAA
    AAACATAAAG ATCTAATAAA AGATTGGGCT CTCAGTTCTG CTGCAGCAGT AATGGAAGAA
    AGAAAACCAC TGACTACATC TGGATTTCAC CACTCAGAGG AAGGCACATC TTCATCTGGA
    AGCAAACGTT GGGTTTCACA GTGGGCTAGT TTGGCTGCCA ATCATACAAG GCATGATCAA
    GAAGAAAGGA TAATGGAATT TTCTGCACCT CTTCCTTTAG AGAATGAGAC AGAGATCAGT
    GAGTCTGGCA TGACAGTGAG AAGTACTGGC TCTGCAACTT CCTTGGCTAG CCAGGGAGAG
    AGAAGGAGAC GAACTCTTCC CCAGCTTCCA AATGAAGAAA AGTCTCTTGA GAGCCACAGA
    GCAAAGGTTG TAACACAGAG GTCAGAGATA GGAGAAAAAC AAGACACAGA ACTTCAGGAG
    AAAGAAACAC CTACACAGGT ATACCAGAAA GATAAACAAG ATGCTGACAG ACCCTTGAGT
    AAAATGAACA GGGCAGTAAA TGGAGAGACT CTCAAAACTG GTGGAGATAA TAAAACCCTA
    CTTCACTTAG GCAGCTCTGC TCCTGGAAAA GAGAAAAGTG AAACTGATAA GGAAACTTCT
    TTGGTAAAGC AAACATTAGC AAAACTTCAA CAACAAGAAC AAAGGGAGGA GGCTCAGTGG
    ACACCTACTA AATTGTCTTC CAAAAATGTT TCAGGTCAGA CAGATAAATG TAGGGAGGAA
    ACTTTTAAAC AAGAATCACA ACCTCCAGAA AAAAATTCAG GACATTCTAC AAGCAAAGGA
    GACAGAGTGG CACAAAGTGA GAGCAAGAGA AGAAAAGCTG AGGAAATTCT GAAAAGTCAG
    ACTCCAAAGG GAGGAGACAA GAAGGAATCC TCCAAGTCAT TAGTGCGACA AGGGAGCTTC
    ACTATAGAAA AACCCAGCCC AAACATACCC ATAGAACTTA TTCCCCATAT AAATAAACAG
    ACTTCCTCTA CTCCTTCTTC TTTAGCATTA ACATCTGCAA GTAGAATACG AGAAAGAAGT
    GAGTCTTTGG ATCCTGATTC TAGTATGGAC ACAACCCTTA TTCTAAAAGA CACAGAAGCA
    GTAATGGCTT TTCTAGAAGC TAAACTACGT GAAGATAATA AAACTGATGA AGGACCAGAT
    ACTCCCAGTT ATAATAGAGA CAATTCTATT TCACCAGAAT CTGATGTAGA TACAGCTAGT
    ACAATCAGTC TGGTTACTGG AGAAACTGAA AGAAAGTCAA CCCAAAAGCG AAAGAGTTTC
    ACTAGCCTCT ATAAAGATAG GTGTTCCACA GGTTCTCCTT CCAAAGATGT TACAAAATCA
    TCATCTTCAG GTGCTAGGGA AAAAATGGAA AAGAAAACAA AAAGTCGTTC CACAGATGTG
    GGTTCAAGAG CAGATGGTCG TAAATTTGTT CAGTCCAGTG GGAGAATAAG ACAGCCCTCA
    GTAGACTTAA CAGATGATGA CCAAACCTCT AGTGTACCTC ATTCTGCCAT CTCTGATATT
    ATGTCATCTG ATCAAGAAAC TTACTCTTGT AAACCTCATG GACGGACTCC ACTTACCTCA
    GCTGATGAGC ATGTACATTC CAAACTGGAA GGAAGTAAAG TAACGAAATC TAAGACTTCT
    CCGGTGGTAT CTGGTTCATC TAGTAAATCA ACCACCCTTC CAAGGCCACG ACCTACCAGG
    ACTTCCCTCT TGCGCAGAGC ACGACTTGGT GAAGCTTCAG ACAGTGAACT TGCTGATGCT
    GACAAAGCAT CTGTTGCTTC TGAAGTATCC ACAACAAGTT CTACATCAAA ACCTCCCACA
    GGAAGGCGTA ACATCTCTCG GATTGATTTA TTGGCTCAGC CTCGTAGAAC ACGACTTGGC
    TCACTGTCAG CTCGTAGTGA CTCTGAAGCA ACAATTTCTA GAAGTAGTGC CTCTTCGAGG
    ACCGCAGAAG CCATCATTAG AAGTGGAGCC AGACTAGTAC CATCAGATAA ATTTTCTCCT
    AGAATTAGAG CTAACAGTAT CTCTCGACTC TCAGACTCCA AGGTCAAAAG TATGACCTCA
    GCTCATGGCT CTGCTTCAGT AAATTCAAGA TGGAGGCGCT TTCCTACTGA TTATGCTTCC
    ACCTCAGAAG ATGAATTTGG ATCAAACCGT AATTCCCCTA AACATACCCG TCTACGTACT
    TCTCCAGCCC TGAAAACCAC TCGCTTGCAG AGCGCTGGAT CAGCAATGCC TACTAGTTCT
    TCATTCAAAC ACCGGATTAA AGAGCAGGAA GACTACATCC GAGATTGGAC TGCTCATCGA
    GAAGAGATAG CCAGGATCAG CCAAGATCTT GCTCTCATTG CTCGGGAGAT CAACGATGTA
    GCAGGAGAGA TAGATTCAGT GACTTCATCA GGCACTGCCC CTAGTACCAC ATTGGTTGAT
    CGTGTTTTTG ATGAAAGCCT CAACTTCCGA AAGATTCCTC CATTAGTTCA TTCCAAAACA
    CCAGAAGGAA ACAACGGTCG ATCTGGTGAT CCAAGACCTC AAGCAGCAGA GCCTCCCGAT
    CACTTAACAA TTACAAGGCG GAGAACCTGG AGCAGGGATG AAGTCATGGG AGATAATCTG
    CTGCTGTCAT CCGTCTTTCA GTTCTCTAAG AAGATAAGAC AATCTATAGA TAAGACAGCT
    GGAAAGATCA GAATATTATT TAAAGACAAA GATCGGAATT GGGATGACAT AGAAAGCAAA
    TTAAGAGCCG AAAGTGAAGT CCCTATTGTG AAAACCTCAA GCATGGAGAT TTCTTCTATC
    TTACAGGAAC TGAAAAGAGT AGAAAAGCAG CTGCAAGCAA TCAATGCTAT GATTGATCCT
    GATGGAACTT TGGAGGCTCT GAACAACATG GGATTTCCCA GTGCTATGTT GCCATCTCCA
    CCGAAACAGA AGTCCAGCCC TGTGAATAAC CACCACAGCC CGGGTCAGAC ACCAACACTT
    GGCCAACCAG AAGCTAGGGC TCTTCATCCT GCTGCTGTTT CAGCCGCAGC TGAATTTGAG
    AATGCTGAAT CTGAGGCTGA TTTCAGTATA CATTTCAATA GATTCAACCC CGATGGGGAA
    GAGGAAGATG TTACAGTACA AGAATGA

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

    RefSeq XP_016858439.1
    CDS889..5115
    Translation

    Target ORF information:

    RefSeq Version XM_017002950.1
    Organism Homo sapiens(human)
    Definition Homo sapiens centrosomal protein 170 (CEP170), transcript variant X31, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017002950.1

    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 AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGAAATAAAC ATGATGATGG TACGCAAAGT
    GATTCAGAGA ACGCTGGGGC TCACAGGCGC TGTAGCAAAC GTGCAACTCT TGAGGAACAC
    TTAAGACGCC ACCATTCAGA ACACAAAAAG CTACAGAAGG TCCAGGCTAC TGAAAAGCAT
    CAAGACCAAG CTGTTACTAG CTCTGCGCAT CACAGAGGGG GGCATGGTGT TCCACATGGG
    AAATTGTTAA AACAGAAATC AGAGGAGCCA TCGGTGTCAA TACCCTTCCT ACAAACTGCA
    TTATTAAGAA GTTCAGGGAG TCTTGGGCAC AGACCAAGCC AGGAGATGGA TAAAATGTTA
    AAAAATCAAG CAACTTCTGC TACTTCTGAA AAGGATAATG ATGATGACCA AAGTGACAAG
    GGTACTTATA CCATTGAGTT AGAGAATCCC AACAGTGAGG AAGTGGAAGC AAGAAAAATG
    ATTGACAAGG TGTTTGGAGT AGATGACAAT CAGGATTATA ATAGGCCTGT TATCAACGAA
    AAACATAAAG ATCTAATAAA AGATTGGGCT CTCAGTTCTG CTGCAGCAGT AATGGAAGAA
    AGAAAACCAC TGACTACATC TGGATTTCAC CACTCAGAGG AAGGCACATC TTCATCTGGA
    AGCAAACGTT GGGTTTCACA GTGGGCTAGT TTGGCTGCCA ATCATACAAG GCATGATCAA
    GAAGAAAGGA TAATGGAATT TTCTGCACCT CTTCCTTTAG AGAATGAGAC AGAGATCAGT
    GAGTCTGGCA TGACAGTGAG AAGTACTGGC TCTGCAACTT CCTTGGCTAG CCAGGGAGAG
    AGAAGGAGAC GAACTCTTCC CCAGCTTCCA AATGAAGAAA AGTCTCTTGA GAGCCACAGA
    GCAAAGGTTG TAACACAGAG GTCAGAGATA GGAGAAAAAC AAGACACAGA ACTTCAGGAG
    AAAGAAACAC CTACACAGGT ATACCAGAAA GATAAACAAG ATGCTGACAG ACCCTTGAGT
    AAAATGAACA GGGCAGTAAA TGGAGAGACT CTCAAAACTG GTGGAGATAA TAAAACCCTA
    CTTCACTTAG GCAGCTCTGC TCCTGGAAAA GAGAAAAGTG AAACTGATAA GGAAACTTCT
    TTGGTAAAGC AAACATTAGC AAAACTTCAA CAACAAGAAC AAAGGGAGGA GGCTCAGTGG
    ACACCTACTA AATTGTCTTC CAAAAATGTT TCAGGTCAGA CAGATAAATG TAGGGAGGAA
    ACTTTTAAAC AAGAATCACA ACCTCCAGAA AAAAATTCAG GACATTCTAC AAGCAAAGGA
    GACAGAGTGG CACAAAGTGA GAGCAAGAGA AGAAAAGCTG AGGAAATTCT GAAAAGTCAG
    ACTCCAAAGG GAGGAGACAA GAAGGAATCC TCCAAGTCAT TAGTGCGACA AGGGAGCTTC
    ACTATAGAAA AACCCAGCCC AAACATACCC ATAGAACTTA TTCCCCATAT AAATAAACAG
    ACTTCCTCTA CTCCTTCTTC TTTAGCATTA ACATCTGCAA GTAGAATACG AGAAAGAAGT
    GAGTCTTTGG ATCCTGATTC TAGTATGGAC ACAACCCTTA TTCTAAAAGA CACAGAAGCA
    GTAATGGCTT TTCTAGAAGC TAAACTACGT GAAGATAATA AAACTGATGA AGGACCAGAT
    ACTCCCAGTT ATAATAGAGA CAATTCTATT TCACCAGAAT CTGATGTAGA TACAGCTAGT
    ACAATCAGTC TGGTTACTGG AGAAACTGAA AGAAAGTCAA CCCAAAAGCG AAAGAGTTTC
    ACTAGCCTCT ATAAAGATAG GTGTTCCACA GGTTCTCCTT CCAAAGATGT TACAAAATCA
    TCATCTTCAG GTGCTAGGGA AAAAATGGAA AAGAAAACAA AAAGTCGTTC CACAGATGTG
    GGTTCAAGAG CAGATGGTCG TAAATTTGTT CAGTCCAGTG GGAGAATAAG ACAGCCCTCA
    GTAGACTTAA CAGATGATGA CCAAACCTCT AGTGTACCTC ATTCTGCCAT CTCTGATATT
    ATGTCATCTG ATCAAGAAAC TTACTCTTGT AAACCTCATG GACGGACTCC ACTTACCTCA
    GCTGATGAGC ATGTACATTC CAAACTGGAA GGAAGTAAAG TAACGAAATC TAAGACTTCT
    CCGGTGGTAT CTGGTTCATC TAGTAAATCA ACCACCCTTC CAAGGCCACG ACCTACCAGG
    ACTTCCCTCT TGCGCAGAGC ACGACTTGGT GAAGCTTCAG ACAGTGAACT TGCTGATGCT
    GACAAAGCAT CTGTTGCTTC TGAAGTATCC ACAACAAGTT CTACATCAAA ACCTCCCACA
    GGAAGGCGTA ACATCTCTCG GATTGATTTA TTGGCTCAGC CTCGTAGAAC ACGACTTGGC
    TCACTGTCAG CTCGTAGTGA CTCTGAAGCA ACAATTTCTA GAAGTAGTGC CTCTTCGAGG
    ACCGCAGAAG CCATCATTAG AAGTGGAGCC AGACTAGTAC CATCAGATAA ATTTTCTCCT
    AGAATTAGAG CTAACAGTAT CTCTCGACTC TCAGACTCCA AGGTCAAAAG TATGACCTCA
    GCTCATGGCT CTGCTTCAGT AAATTCAAGA TGGAGGCGCT TTCCTACTGA TTATGCTTCC
    ACCTCAGAAG ATGAATTTGG ATCAAACCGT AATTCCCCTA AACATACCCG TCTACGTACT
    TCTCCAGCCC TGAAAACCAC TCGCTTGCAG AGCGCTGGAT CAGCAATGCC TACTAGTTCT
    TCATTCAAAC ACCGGATTAA AGAGCAGGAA GACTACATCC GAGATTGGAC TGCTCATCGA
    GAAGAGATAG CCAGGATCAG CCAAGATCTT GCTCTCATTG CTCGGGAGAT CAACGATGTA
    GCAGGAGAGA TAGATTCAGT GACTTCATCA GGCACTGCCC CTAGTACCAC ATTGGTTGAT
    CGTGTTTTTG ATGAAAGCCT CAACTTCCGA AAGATTCCTC CATTAGTTCA TTCCAAAACA
    CCAGAAGGAA ACAACGGTCG ATCTGGTGAT CCAAGACCTC AAGCAGCAGA GCCTCCCGAT
    CACTTAACAA TTACAAGGCG GAGAACCTGG AGCAGGGATG AAGTCATGGG AGATAATCTG
    CTGCTGTCAT CCGTCTTTCA GTTCTCTAAG AAGATAAGAC AATCTATAGA TAAGACAGCT
    GGAAAGATCA GAATATTATT TAAAGACAAA GATCGGAATT GGGATGACAT AGAAAGCAAA
    TTAAGAGCCG AAAGTGAAGT CCCTATTGTG AAAACCTCAA GCATGGAGAT TTCTTCTATC
    TTACAGGAAC TGAAAAGAGT AGAAAAGCAG CTGCAAGCAA TCAATGCTAT GATTGATCCT
    GATGGAACTT TGGAGGCTCT GAACAACATG GGATTTCCCA GTGCTATGTT GCCATCTCCA
    CCGAAACAGA AGTCCAGCCC TGTGAATAAC CACCACAGCC CGGGTCAGAC ACCAACACTT
    GGCCAACCAG AAGCTAGGGC TCTTCATCCT GCTGCTGTTT CAGCCGCAGC TGAATTTGAG
    AATGCTGAAT CTGAGGCTGA TTTCAGTATA CATTTCAATA GATTCAACCC CGATGGGGAA
    GAGGAAGATG TTACAGTACA AGAATGA

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

    CloneID OHu90877
    Clone ID Related Accession (Same CDS sequence) XM_017002950.1 , XM_017002950.2
    Accession Version XM_017002950.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4227bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product centrosomal protein of 170 kDa isoform X19
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017002950.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGAAATAAAC ATGATGATGG TACGCAAAGT
    GATTCAGAGA ACGCTGGGGC TCACAGGCGC TGTAGCAAAC GTGCAACTCT TGAGGAACAC
    TTAAGACGCC ACCATTCAGA ACACAAAAAG CTACAGAAGG TCCAGGCTAC TGAAAAGCAT
    CAAGACCAAG CTGTTACTAG CTCTGCGCAT CACAGAGGGG GGCATGGTGT TCCACATGGG
    AAATTGTTAA AACAGAAATC AGAGGAGCCA TCGGTGTCAA TACCCTTCCT ACAAACTGCA
    TTATTAAGAA GTTCAGGGAG TCTTGGGCAC AGACCAAGCC AGGAGATGGA TAAAATGTTA
    AAAAATCAAG CAACTTCTGC TACTTCTGAA AAGGATAATG ATGATGACCA AAGTGACAAG
    GGTACTTATA CCATTGAGTT AGAGAATCCC AACAGTGAGG AAGTGGAAGC AAGAAAAATG
    ATTGACAAGG TGTTTGGAGT AGATGACAAT CAGGATTATA ATAGGCCTGT TATCAACGAA
    AAACATAAAG ATCTAATAAA AGATTGGGCT CTCAGTTCTG CTGCAGCAGT AATGGAAGAA
    AGAAAACCAC TGACTACATC TGGATTTCAC CACTCAGAGG AAGGCACATC TTCATCTGGA
    AGCAAACGTT GGGTTTCACA GTGGGCTAGT TTGGCTGCCA ATCATACAAG GCATGATCAA
    GAAGAAAGGA TAATGGAATT TTCTGCACCT CTTCCTTTAG AGAATGAGAC AGAGATCAGT
    GAGTCTGGCA TGACAGTGAG AAGTACTGGC TCTGCAACTT CCTTGGCTAG CCAGGGAGAG
    AGAAGGAGAC GAACTCTTCC CCAGCTTCCA AATGAAGAAA AGTCTCTTGA GAGCCACAGA
    GCAAAGGTTG TAACACAGAG GTCAGAGATA GGAGAAAAAC AAGACACAGA ACTTCAGGAG
    AAAGAAACAC CTACACAGGT ATACCAGAAA GATAAACAAG ATGCTGACAG ACCCTTGAGT
    AAAATGAACA GGGCAGTAAA TGGAGAGACT CTCAAAACTG GTGGAGATAA TAAAACCCTA
    CTTCACTTAG GCAGCTCTGC TCCTGGAAAA GAGAAAAGTG AAACTGATAA GGAAACTTCT
    TTGGTAAAGC AAACATTAGC AAAACTTCAA CAACAAGAAC AAAGGGAGGA GGCTCAGTGG
    ACACCTACTA AATTGTCTTC CAAAAATGTT TCAGGTCAGA CAGATAAATG TAGGGAGGAA
    ACTTTTAAAC AAGAATCACA ACCTCCAGAA AAAAATTCAG GACATTCTAC AAGCAAAGGA
    GACAGAGTGG CACAAAGTGA GAGCAAGAGA AGAAAAGCTG AGGAAATTCT GAAAAGTCAG
    ACTCCAAAGG GAGGAGACAA GAAGGAATCC TCCAAGTCAT TAGTGCGACA AGGGAGCTTC
    ACTATAGAAA AACCCAGCCC AAACATACCC ATAGAACTTA TTCCCCATAT AAATAAACAG
    ACTTCCTCTA CTCCTTCTTC TTTAGCATTA ACATCTGCAA GTAGAATACG AGAAAGAAGT
    GAGTCTTTGG ATCCTGATTC TAGTATGGAC ACAACCCTTA TTCTAAAAGA CACAGAAGCA
    GTAATGGCTT TTCTAGAAGC TAAACTACGT GAAGATAATA AAACTGATGA AGGACCAGAT
    ACTCCCAGTT ATAATAGAGA CAATTCTATT TCACCAGAAT CTGATGTAGA TACAGCTAGT
    ACAATCAGTC TGGTTACTGG AGAAACTGAA AGAAAGTCAA CCCAAAAGCG AAAGAGTTTC
    ACTAGCCTCT ATAAAGATAG GTGTTCCACA GGTTCTCCTT CCAAAGATGT TACAAAATCA
    TCATCTTCAG GTGCTAGGGA AAAAATGGAA AAGAAAACAA AAAGTCGTTC CACAGATGTG
    GGTTCAAGAG CAGATGGTCG TAAATTTGTT CAGTCCAGTG GGAGAATAAG ACAGCCCTCA
    GTAGACTTAA CAGATGATGA CCAAACCTCT AGTGTACCTC ATTCTGCCAT CTCTGATATT
    ATGTCATCTG ATCAAGAAAC TTACTCTTGT AAACCTCATG GACGGACTCC ACTTACCTCA
    GCTGATGAGC ATGTACATTC CAAACTGGAA GGAAGTAAAG TAACGAAATC TAAGACTTCT
    CCGGTGGTAT CTGGTTCATC TAGTAAATCA ACCACCCTTC CAAGGCCACG ACCTACCAGG
    ACTTCCCTCT TGCGCAGAGC ACGACTTGGT GAAGCTTCAG ACAGTGAACT TGCTGATGCT
    GACAAAGCAT CTGTTGCTTC TGAAGTATCC ACAACAAGTT CTACATCAAA ACCTCCCACA
    GGAAGGCGTA ACATCTCTCG GATTGATTTA TTGGCTCAGC CTCGTAGAAC ACGACTTGGC
    TCACTGTCAG CTCGTAGTGA CTCTGAAGCA ACAATTTCTA GAAGTAGTGC CTCTTCGAGG
    ACCGCAGAAG CCATCATTAG AAGTGGAGCC AGACTAGTAC CATCAGATAA ATTTTCTCCT
    AGAATTAGAG CTAACAGTAT CTCTCGACTC TCAGACTCCA AGGTCAAAAG TATGACCTCA
    GCTCATGGCT CTGCTTCAGT AAATTCAAGA TGGAGGCGCT TTCCTACTGA TTATGCTTCC
    ACCTCAGAAG ATGAATTTGG ATCAAACCGT AATTCCCCTA AACATACCCG TCTACGTACT
    TCTCCAGCCC TGAAAACCAC TCGCTTGCAG AGCGCTGGAT CAGCAATGCC TACTAGTTCT
    TCATTCAAAC ACCGGATTAA AGAGCAGGAA GACTACATCC GAGATTGGAC TGCTCATCGA
    GAAGAGATAG CCAGGATCAG CCAAGATCTT GCTCTCATTG CTCGGGAGAT CAACGATGTA
    GCAGGAGAGA TAGATTCAGT GACTTCATCA GGCACTGCCC CTAGTACCAC ATTGGTTGAT
    CGTGTTTTTG ATGAAAGCCT CAACTTCCGA AAGATTCCTC CATTAGTTCA TTCCAAAACA
    CCAGAAGGAA ACAACGGTCG ATCTGGTGAT CCAAGACCTC AAGCAGCAGA GCCTCCCGAT
    CACTTAACAA TTACAAGGCG GAGAACCTGG AGCAGGGATG AAGTCATGGG AGATAATCTG
    CTGCTGTCAT CCGTCTTTCA GTTCTCTAAG AAGATAAGAC AATCTATAGA TAAGACAGCT
    GGAAAGATCA GAATATTATT TAAAGACAAA GATCGGAATT GGGATGACAT AGAAAGCAAA
    TTAAGAGCCG AAAGTGAAGT CCCTATTGTG AAAACCTCAA GCATGGAGAT TTCTTCTATC
    TTACAGGAAC TGAAAAGAGT AGAAAAGCAG CTGCAAGCAA TCAATGCTAT GATTGATCCT
    GATGGAACTT TGGAGGCTCT GAACAACATG GGATTTCCCA GTGCTATGTT GCCATCTCCA
    CCGAAACAGA AGTCCAGCCC TGTGAATAAC CACCACAGCC CGGGTCAGAC ACCAACACTT
    GGCCAACCAG AAGCTAGGGC TCTTCATCCT GCTGCTGTTT CAGCCGCAGC TGAATTTGAG
    AATGCTGAAT CTGAGGCTGA TTTCAGTATA CATTTCAATA GATTCAACCC CGATGGGGAA
    GAGGAAGATG TTACAGTACA AGAATGA

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

    RefSeq XP_016858439.1
    CDS234..4460
    Translation

    Target ORF information:

    RefSeq Version XM_017002950.2
    Organism Homo sapiens(human)
    Definition Homo sapiens centrosomal protein 170 (CEP170), transcript variant X31, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017002950.2

    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGAAATAAAC ATGATGATGG TACGCAAAGT
    GATTCAGAGA ACGCTGGGGC TCACAGGCGC TGTAGCAAAC GTGCAACTCT TGAGGAACAC
    TTAAGACGCC ACCATTCAGA ACACAAAAAG CTACAGAAGG TCCAGGCTAC TGAAAAGCAT
    CAAGACCAAG CTGTTACTAG CTCTGCGCAT CACAGAGGGG GGCATGGTGT TCCACATGGG
    AAATTGTTAA AACAGAAATC AGAGGAGCCA TCGGTGTCAA TACCCTTCCT ACAAACTGCA
    TTATTAAGAA GTTCAGGGAG TCTTGGGCAC AGACCAAGCC AGGAGATGGA TAAAATGTTA
    AAAAATCAAG CAACTTCTGC TACTTCTGAA AAGGATAATG ATGATGACCA AAGTGACAAG
    GGTACTTATA CCATTGAGTT AGAGAATCCC AACAGTGAGG AAGTGGAAGC AAGAAAAATG
    ATTGACAAGG TGTTTGGAGT AGATGACAAT CAGGATTATA ATAGGCCTGT TATCAACGAA
    AAACATAAAG ATCTAATAAA AGATTGGGCT CTCAGTTCTG CTGCAGCAGT AATGGAAGAA
    AGAAAACCAC TGACTACATC TGGATTTCAC CACTCAGAGG AAGGCACATC TTCATCTGGA
    AGCAAACGTT GGGTTTCACA GTGGGCTAGT TTGGCTGCCA ATCATACAAG GCATGATCAA
    GAAGAAAGGA TAATGGAATT TTCTGCACCT CTTCCTTTAG AGAATGAGAC AGAGATCAGT
    GAGTCTGGCA TGACAGTGAG AAGTACTGGC TCTGCAACTT CCTTGGCTAG CCAGGGAGAG
    AGAAGGAGAC GAACTCTTCC CCAGCTTCCA AATGAAGAAA AGTCTCTTGA GAGCCACAGA
    GCAAAGGTTG TAACACAGAG GTCAGAGATA GGAGAAAAAC AAGACACAGA ACTTCAGGAG
    AAAGAAACAC CTACACAGGT ATACCAGAAA GATAAACAAG ATGCTGACAG ACCCTTGAGT
    AAAATGAACA GGGCAGTAAA TGGAGAGACT CTCAAAACTG GTGGAGATAA TAAAACCCTA
    CTTCACTTAG GCAGCTCTGC TCCTGGAAAA GAGAAAAGTG AAACTGATAA GGAAACTTCT
    TTGGTAAAGC AAACATTAGC AAAACTTCAA CAACAAGAAC AAAGGGAGGA GGCTCAGTGG
    ACACCTACTA AATTGTCTTC CAAAAATGTT TCAGGTCAGA CAGATAAATG TAGGGAGGAA
    ACTTTTAAAC AAGAATCACA ACCTCCAGAA AAAAATTCAG GACATTCTAC AAGCAAAGGA
    GACAGAGTGG CACAAAGTGA GAGCAAGAGA AGAAAAGCTG AGGAAATTCT GAAAAGTCAG
    ACTCCAAAGG GAGGAGACAA GAAGGAATCC TCCAAGTCAT TAGTGCGACA AGGGAGCTTC
    ACTATAGAAA AACCCAGCCC AAACATACCC ATAGAACTTA TTCCCCATAT AAATAAACAG
    ACTTCCTCTA CTCCTTCTTC TTTAGCATTA ACATCTGCAA GTAGAATACG AGAAAGAAGT
    GAGTCTTTGG ATCCTGATTC TAGTATGGAC ACAACCCTTA TTCTAAAAGA CACAGAAGCA
    GTAATGGCTT TTCTAGAAGC TAAACTACGT GAAGATAATA AAACTGATGA AGGACCAGAT
    ACTCCCAGTT ATAATAGAGA CAATTCTATT TCACCAGAAT CTGATGTAGA TACAGCTAGT
    ACAATCAGTC TGGTTACTGG AGAAACTGAA AGAAAGTCAA CCCAAAAGCG AAAGAGTTTC
    ACTAGCCTCT ATAAAGATAG GTGTTCCACA GGTTCTCCTT CCAAAGATGT TACAAAATCA
    TCATCTTCAG GTGCTAGGGA AAAAATGGAA AAGAAAACAA AAAGTCGTTC CACAGATGTG
    GGTTCAAGAG CAGATGGTCG TAAATTTGTT CAGTCCAGTG GGAGAATAAG ACAGCCCTCA
    GTAGACTTAA CAGATGATGA CCAAACCTCT AGTGTACCTC ATTCTGCCAT CTCTGATATT
    ATGTCATCTG ATCAAGAAAC TTACTCTTGT AAACCTCATG GACGGACTCC ACTTACCTCA
    GCTGATGAGC ATGTACATTC CAAACTGGAA GGAAGTAAAG TAACGAAATC TAAGACTTCT
    CCGGTGGTAT CTGGTTCATC TAGTAAATCA ACCACCCTTC CAAGGCCACG ACCTACCAGG
    ACTTCCCTCT TGCGCAGAGC ACGACTTGGT GAAGCTTCAG ACAGTGAACT TGCTGATGCT
    GACAAAGCAT CTGTTGCTTC TGAAGTATCC ACAACAAGTT CTACATCAAA ACCTCCCACA
    GGAAGGCGTA ACATCTCTCG GATTGATTTA TTGGCTCAGC CTCGTAGAAC ACGACTTGGC
    TCACTGTCAG CTCGTAGTGA CTCTGAAGCA ACAATTTCTA GAAGTAGTGC CTCTTCGAGG
    ACCGCAGAAG CCATCATTAG AAGTGGAGCC AGACTAGTAC CATCAGATAA ATTTTCTCCT
    AGAATTAGAG CTAACAGTAT CTCTCGACTC TCAGACTCCA AGGTCAAAAG TATGACCTCA
    GCTCATGGCT CTGCTTCAGT AAATTCAAGA TGGAGGCGCT TTCCTACTGA TTATGCTTCC
    ACCTCAGAAG ATGAATTTGG ATCAAACCGT AATTCCCCTA AACATACCCG TCTACGTACT
    TCTCCAGCCC TGAAAACCAC TCGCTTGCAG AGCGCTGGAT CAGCAATGCC TACTAGTTCT
    TCATTCAAAC ACCGGATTAA AGAGCAGGAA GACTACATCC GAGATTGGAC TGCTCATCGA
    GAAGAGATAG CCAGGATCAG CCAAGATCTT GCTCTCATTG CTCGGGAGAT CAACGATGTA
    GCAGGAGAGA TAGATTCAGT GACTTCATCA GGCACTGCCC CTAGTACCAC ATTGGTTGAT
    CGTGTTTTTG ATGAAAGCCT CAACTTCCGA AAGATTCCTC CATTAGTTCA TTCCAAAACA
    CCAGAAGGAA ACAACGGTCG ATCTGGTGAT CCAAGACCTC AAGCAGCAGA GCCTCCCGAT
    CACTTAACAA TTACAAGGCG GAGAACCTGG AGCAGGGATG AAGTCATGGG AGATAATCTG
    CTGCTGTCAT CCGTCTTTCA GTTCTCTAAG AAGATAAGAC AATCTATAGA TAAGACAGCT
    GGAAAGATCA GAATATTATT TAAAGACAAA GATCGGAATT GGGATGACAT AGAAAGCAAA
    TTAAGAGCCG AAAGTGAAGT CCCTATTGTG AAAACCTCAA GCATGGAGAT TTCTTCTATC
    TTACAGGAAC TGAAAAGAGT AGAAAAGCAG CTGCAAGCAA TCAATGCTAT GATTGATCCT
    GATGGAACTT TGGAGGCTCT GAACAACATG GGATTTCCCA GTGCTATGTT GCCATCTCCA
    CCGAAACAGA AGTCCAGCCC TGTGAATAAC CACCACAGCC CGGGTCAGAC ACCAACACTT
    GGCCAACCAG AAGCTAGGGC TCTTCATCCT GCTGCTGTTT CAGCCGCAGC TGAATTTGAG
    AATGCTGAAT CTGAGGCTGA TTTCAGTATA CATTTCAATA GATTCAACCC CGATGGGGAA
    GAGGAAGATG TTACAGTACA AGAATGA

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

    CloneID OHu90878
    Clone ID Related Accession (Same CDS sequence) XM_017002951.1 , XM_017002951.2
    Accession Version XM_017002951.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4014bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product centrosomal protein of 170 kDa isoform X20
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGAAATAAAC ATGATGATGG TACGCAAAGT
    GATTCAGAGA ACGCTGGGGC TCACAGGCGC TGTAGCAAAC GTGCAACTCT TGAGGAACAC
    TTAAGACGCC ACCATTCAGA ACACAAAAAG CTACAGAAGG TCCAGGCTAC TGAAAAGCAT
    CAAGACCAAG CTGTTGTGTT TGGAGTAGAT GACAATCAGG ATTATAATAG GCCTGTTATC
    AACGAAAAAC ATAAAGATCT AATAAAAGAT TGGGCTCTCA GTTCTGCTGC AGCAGTAATG
    GAAGAAAGAA AACCACTGAC TACATCTGGA TTTCACCACT CAGAGGAAGG CACATCTTCA
    TCTGGAAGCA AACGTTGGGT TTCACAGTGG GCTAGTTTGG CTGCCAATCA TACAAGGCAT
    GATCAAGAAG AAAGGATAAT GGAATTTTCT GCACCTCTTC CTTTAGAGAA TGAGACAGAG
    ATCAGTGAGT CTGGCATGAC AGTGAGAAGT ACTGGCTCTG CAACTTCCTT GGCTAGCCAG
    GGAGAGAGAA GGAGACGAAC TCTTCCCCAG CTTCCAAATG AAGAAAAGTC TCTTGAGAGC
    CACAGAGCAA AGGTTGTAAC ACAGAGGTCA GAGATAGGAG AAAAACAAGA CACAGAACTT
    CAGGAGAAAG AAACACCTAC ACAGGTATAC CAGAAAGATA AACAAGATGC TGACAGACCC
    TTGAGTAAAA TGAACAGGGC AGTAAATGGA GAGACTCTCA AAACTGGTGG AGATAATAAA
    ACCCTACTTC ACTTAGGCAG CTCTGCTCCT GGAAAAGAGA AAAGTGAAAC TGATAAGGAA
    ACTTCTTTGG TAAAGCAAAC ATTAGCAAAA CTTCAACAAC AAGAACAAAG GGAGGAGGCT
    CAGTGGACAC CTACTAAATT GTCTTCCAAA AATGTTTCAG GTCAGACAGA TAAATGTAGG
    GAGGAAACTT TTAAACAAGA ATCACAACCT CCAGAAAAAA ATTCAGGACA TTCTACAAGC
    AAAGGAGACA GAGTGGCACA AAGTGAGAGC AAGAGAAGAA AAGCTGAGGA AATTCTGAAA
    AGTCAGACTC CAAAGGGAGG AGACAAGAAG GAATCCTCCA AGTCATTAGT GCGACAAGGG
    AGCTTCACTA TAGAAAAACC CAGCCCAAAC ATACCCATAG AACTTATTCC CCATATAAAT
    AAACAGACTT CCTCTACTCC TTCTTCTTTA GCATTAACAT CTGCAAGTAG AATACGAGAA
    AGAAGTGAGT CTTTGGATCC TGATTCTAGT ATGGACACAA CCCTTATTCT AAAAGACACA
    GAAGCAGTAA TGGCTTTTCT AGAAGCTAAA CTACGTGAAG ATAATAAAAC TGATGAAGGA
    CCAGATACTC CCAGTTATAA TAGAGACAAT TCTATTTCAC CAGAATCTGA TGTAGATACA
    GCTAGTACAA TCAGTCTGGT TACTGGAGAA ACTGAAAGAA AGTCAACCCA AAAGCGAAAG
    AGTTTCACTA GCCTCTATAA AGATAGGTGT TCCACAGGTT CTCCTTCCAA AGATGTTACA
    AAATCATCAT CTTCAGGTGC TAGGGAAAAA ATGGAAAAGA AAACAAAAAG TCGTTCCACA
    GATGTGGGTT CAAGAGCAGA TGGTCGTAAA TTTGTTCAGT CCAGTGGGAG AATAAGACAG
    CCCTCAGTAG ACTTAACAGA TGATGACCAA ACCTCTAGTG TACCTCATTC TGCCATCTCT
    GATATTATGT CATCTGATCA AGAAACTTAC TCTTGTAAAC CTCATGGACG GACTCCACTT
    ACCTCAGCTG ATGAGCATGT ACATTCCAAA CTGGAAGGAA GTAAAGTAAC GAAATCTAAG
    ACTTCTCCGG TGGTATCTGG TTCATCTAGT AAATCAACCA CCCTTCCAAG GCCACGACCT
    ACCAGGACTT CCCTCTTGCG CAGAGCACGA CTTGGTGAAG CTTCAGACAG TGAACTTGCT
    GATGCTGACA AAGCATCTGT TGCTTCTGAA GTATCCACAA CAAGTTCTAC ATCAAAACCT
    CCCACAGGAA GGCGTAACAT CTCTCGGATT GATTTATTGG CTCAGCCTCG TAGAACACGA
    CTTGGCTCAC TGTCAGCTCG TAGTGACTCT GAAGCAACAA TTTCTAGAAG TAGTGCCTCT
    TCGAGGACCG CAGAAGCCAT CATTAGAAGT GGAGCCAGAC TAGTACCATC AGATAAATTT
    TCTCCTAGAA TTAGAGCTAA CAGTATCTCT CGACTCTCAG ACTCCAAGGT CAAAAGTATG
    ACCTCAGCTC ATGGCTCTGC TTCAGTAAAT TCAAGATGGA GGCGCTTTCC TACTGATTAT
    GCTTCCACCT CAGAAGATGA ATTTGGATCA AACCGTAATT CCCCTAAACA TACCCGTCTA
    CGTACTTCTC CAGCCCTGAA AACCACTCGC TTGCAGAGCG CTGGATCAGC AATGCCTACT
    AGTTCTTCAT TCAAACACCG GATTAAAGAG CAGGAAGACT ACATCCGAGA TTGGACTGCT
    CATCGAGAAG AGATAGCCAG GATCAGCCAA GATCTTGCTC TCATTGCTCG GGAGATCAAC
    GATGTAGCAG GAGAGATAGA TTCAGTGACT TCATCAGGCA CTGCCCCTAG TACCACAGTA
    AGCACTGCTG CCACCACCCC TGGCTCTGCC ATAGACACTA GAGAAGAGGT AGGAGATCTT
    CATGGAGAAA TGCATAAGTT GGTTGATCGT GTTTTTGATG AAAGCCTCAA CTTCCGAAAG
    ATTCCTCCAT TAGTTCATTC CAAAACACCA GAAGGAAACA ACGGTCGATC TGGTGATCCA
    AGACCTCAAG CAGCAGAGCC TCCCGATCAC TTAACAATTA CAAGGCGGAG AACCTGGAGC
    AGGGATGAAG TCATGGGAGA TAATCTGCTG CTGTCATCCG TCTTTCAGTT CTCTAAGAAG
    ATAAGACAAT CTATAGATAA GACAGCTGGA AAGATCAGAA TATTATTTAA AGACAAAGAT
    CGGAATTGGG ATGACATAGA AAGCAAATTA AGAGCCGAAA GTGAAGTCCC TATTGTGAAA
    ACCTCAAGCA TGGAGATTTC TTCTATCTTA CAGGAACTGA AAAGAGTAGA AAAGCAGCTG
    CAAGCAATCA ATGCTATGAT TGATCCTGAT GGAACTTTGG AGGCTCTGAA CAACATGGGA
    TTTCCCAGTG CTATGTTGCC ATCTCCACCG AAACAGAAGT CCAGCCCTGT GAATAACCAC
    CACAGCCCGG GTCAGACACC AACACTTGGC CAACCAGAAG CTAGGGCTCT TCATCCTGCT
    GCTGTTTCAG CCGCAGCTGA ATTTGAGAAT GCTGAATCTG AGGCTGATTT CAGTATACAT
    TTCAATAGAT TCAACCCCGA TGGGGAAGAG GAAGATGTTA CAGTACAAGA ATGA

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

    RefSeq XP_016858440.1
    CDS889..4902
    Translation

    Target ORF information:

    RefSeq Version XM_017002951.1
    Organism Homo sapiens(human)
    Definition Homo sapiens centrosomal protein 170 (CEP170), transcript variant X32, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017002951.1

    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGAAATAAAC ATGATGATGG TACGCAAAGT
    GATTCAGAGA ACGCTGGGGC TCACAGGCGC TGTAGCAAAC GTGCAACTCT TGAGGAACAC
    TTAAGACGCC ACCATTCAGA ACACAAAAAG CTACAGAAGG TCCAGGCTAC TGAAAAGCAT
    CAAGACCAAG CTGTTGTGTT TGGAGTAGAT GACAATCAGG ATTATAATAG GCCTGTTATC
    AACGAAAAAC ATAAAGATCT AATAAAAGAT TGGGCTCTCA GTTCTGCTGC AGCAGTAATG
    GAAGAAAGAA AACCACTGAC TACATCTGGA TTTCACCACT CAGAGGAAGG CACATCTTCA
    TCTGGAAGCA AACGTTGGGT TTCACAGTGG GCTAGTTTGG CTGCCAATCA TACAAGGCAT
    GATCAAGAAG AAAGGATAAT GGAATTTTCT GCACCTCTTC CTTTAGAGAA TGAGACAGAG
    ATCAGTGAGT CTGGCATGAC AGTGAGAAGT ACTGGCTCTG CAACTTCCTT GGCTAGCCAG
    GGAGAGAGAA GGAGACGAAC TCTTCCCCAG CTTCCAAATG AAGAAAAGTC TCTTGAGAGC
    CACAGAGCAA AGGTTGTAAC ACAGAGGTCA GAGATAGGAG AAAAACAAGA CACAGAACTT
    CAGGAGAAAG AAACACCTAC ACAGGTATAC CAGAAAGATA AACAAGATGC TGACAGACCC
    TTGAGTAAAA TGAACAGGGC AGTAAATGGA GAGACTCTCA AAACTGGTGG AGATAATAAA
    ACCCTACTTC ACTTAGGCAG CTCTGCTCCT GGAAAAGAGA AAAGTGAAAC TGATAAGGAA
    ACTTCTTTGG TAAAGCAAAC ATTAGCAAAA CTTCAACAAC AAGAACAAAG GGAGGAGGCT
    CAGTGGACAC CTACTAAATT GTCTTCCAAA AATGTTTCAG GTCAGACAGA TAAATGTAGG
    GAGGAAACTT TTAAACAAGA ATCACAACCT CCAGAAAAAA ATTCAGGACA TTCTACAAGC
    AAAGGAGACA GAGTGGCACA AAGTGAGAGC AAGAGAAGAA AAGCTGAGGA AATTCTGAAA
    AGTCAGACTC CAAAGGGAGG AGACAAGAAG GAATCCTCCA AGTCATTAGT GCGACAAGGG
    AGCTTCACTA TAGAAAAACC CAGCCCAAAC ATACCCATAG AACTTATTCC CCATATAAAT
    AAACAGACTT CCTCTACTCC TTCTTCTTTA GCATTAACAT CTGCAAGTAG AATACGAGAA
    AGAAGTGAGT CTTTGGATCC TGATTCTAGT ATGGACACAA CCCTTATTCT AAAAGACACA
    GAAGCAGTAA TGGCTTTTCT AGAAGCTAAA CTACGTGAAG ATAATAAAAC TGATGAAGGA
    CCAGATACTC CCAGTTATAA TAGAGACAAT TCTATTTCAC CAGAATCTGA TGTAGATACA
    GCTAGTACAA TCAGTCTGGT TACTGGAGAA ACTGAAAGAA AGTCAACCCA AAAGCGAAAG
    AGTTTCACTA GCCTCTATAA AGATAGGTGT TCCACAGGTT CTCCTTCCAA AGATGTTACA
    AAATCATCAT CTTCAGGTGC TAGGGAAAAA ATGGAAAAGA AAACAAAAAG TCGTTCCACA
    GATGTGGGTT CAAGAGCAGA TGGTCGTAAA TTTGTTCAGT CCAGTGGGAG AATAAGACAG
    CCCTCAGTAG ACTTAACAGA TGATGACCAA ACCTCTAGTG TACCTCATTC TGCCATCTCT
    GATATTATGT CATCTGATCA AGAAACTTAC TCTTGTAAAC CTCATGGACG GACTCCACTT
    ACCTCAGCTG ATGAGCATGT ACATTCCAAA CTGGAAGGAA GTAAAGTAAC GAAATCTAAG
    ACTTCTCCGG TGGTATCTGG TTCATCTAGT AAATCAACCA CCCTTCCAAG GCCACGACCT
    ACCAGGACTT CCCTCTTGCG CAGAGCACGA CTTGGTGAAG CTTCAGACAG TGAACTTGCT
    GATGCTGACA AAGCATCTGT TGCTTCTGAA GTATCCACAA CAAGTTCTAC ATCAAAACCT
    CCCACAGGAA GGCGTAACAT CTCTCGGATT GATTTATTGG CTCAGCCTCG TAGAACACGA
    CTTGGCTCAC TGTCAGCTCG TAGTGACTCT GAAGCAACAA TTTCTAGAAG TAGTGCCTCT
    TCGAGGACCG CAGAAGCCAT CATTAGAAGT GGAGCCAGAC TAGTACCATC AGATAAATTT
    TCTCCTAGAA TTAGAGCTAA CAGTATCTCT CGACTCTCAG ACTCCAAGGT CAAAAGTATG
    ACCTCAGCTC ATGGCTCTGC TTCAGTAAAT TCAAGATGGA GGCGCTTTCC TACTGATTAT
    GCTTCCACCT CAGAAGATGA ATTTGGATCA AACCGTAATT CCCCTAAACA TACCCGTCTA
    CGTACTTCTC CAGCCCTGAA AACCACTCGC TTGCAGAGCG CTGGATCAGC AATGCCTACT
    AGTTCTTCAT TCAAACACCG GATTAAAGAG CAGGAAGACT ACATCCGAGA TTGGACTGCT
    CATCGAGAAG AGATAGCCAG GATCAGCCAA GATCTTGCTC TCATTGCTCG GGAGATCAAC
    GATGTAGCAG GAGAGATAGA TTCAGTGACT TCATCAGGCA CTGCCCCTAG TACCACAGTA
    AGCACTGCTG CCACCACCCC TGGCTCTGCC ATAGACACTA GAGAAGAGGT AGGAGATCTT
    CATGGAGAAA TGCATAAGTT GGTTGATCGT GTTTTTGATG AAAGCCTCAA CTTCCGAAAG
    ATTCCTCCAT TAGTTCATTC CAAAACACCA GAAGGAAACA ACGGTCGATC TGGTGATCCA
    AGACCTCAAG CAGCAGAGCC TCCCGATCAC TTAACAATTA CAAGGCGGAG AACCTGGAGC
    AGGGATGAAG TCATGGGAGA TAATCTGCTG CTGTCATCCG TCTTTCAGTT CTCTAAGAAG
    ATAAGACAAT CTATAGATAA GACAGCTGGA AAGATCAGAA TATTATTTAA AGACAAAGAT
    CGGAATTGGG ATGACATAGA AAGCAAATTA AGAGCCGAAA GTGAAGTCCC TATTGTGAAA
    ACCTCAAGCA TGGAGATTTC TTCTATCTTA CAGGAACTGA AAAGAGTAGA AAAGCAGCTG
    CAAGCAATCA ATGCTATGAT TGATCCTGAT GGAACTTTGG AGGCTCTGAA CAACATGGGA
    TTTCCCAGTG CTATGTTGCC ATCTCCACCG AAACAGAAGT CCAGCCCTGT GAATAACCAC
    CACAGCCCGG GTCAGACACC AACACTTGGC CAACCAGAAG CTAGGGCTCT TCATCCTGCT
    GCTGTTTCAG CCGCAGCTGA ATTTGAGAAT GCTGAATCTG AGGCTGATTT CAGTATACAT
    TTCAATAGAT TCAACCCCGA TGGGGAAGAG GAAGATGTTA CAGTACAAGA ATGA

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

    CloneID OHu90878
    Clone ID Related Accession (Same CDS sequence) XM_017002951.1 , XM_017002951.2
    Accession Version XM_017002951.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4014bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product centrosomal protein of 170 kDa isoform X20
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017002951.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGAAATAAAC ATGATGATGG TACGCAAAGT
    GATTCAGAGA ACGCTGGGGC TCACAGGCGC TGTAGCAAAC GTGCAACTCT TGAGGAACAC
    TTAAGACGCC ACCATTCAGA ACACAAAAAG CTACAGAAGG TCCAGGCTAC TGAAAAGCAT
    CAAGACCAAG CTGTTGTGTT TGGAGTAGAT GACAATCAGG ATTATAATAG GCCTGTTATC
    AACGAAAAAC ATAAAGATCT AATAAAAGAT TGGGCTCTCA GTTCTGCTGC AGCAGTAATG
    GAAGAAAGAA AACCACTGAC TACATCTGGA TTTCACCACT CAGAGGAAGG CACATCTTCA
    TCTGGAAGCA AACGTTGGGT TTCACAGTGG GCTAGTTTGG CTGCCAATCA TACAAGGCAT
    GATCAAGAAG AAAGGATAAT GGAATTTTCT GCACCTCTTC CTTTAGAGAA TGAGACAGAG
    ATCAGTGAGT CTGGCATGAC AGTGAGAAGT ACTGGCTCTG CAACTTCCTT GGCTAGCCAG
    GGAGAGAGAA GGAGACGAAC TCTTCCCCAG CTTCCAAATG AAGAAAAGTC TCTTGAGAGC
    CACAGAGCAA AGGTTGTAAC ACAGAGGTCA GAGATAGGAG AAAAACAAGA CACAGAACTT
    CAGGAGAAAG AAACACCTAC ACAGGTATAC CAGAAAGATA AACAAGATGC TGACAGACCC
    TTGAGTAAAA TGAACAGGGC AGTAAATGGA GAGACTCTCA AAACTGGTGG AGATAATAAA
    ACCCTACTTC ACTTAGGCAG CTCTGCTCCT GGAAAAGAGA AAAGTGAAAC TGATAAGGAA
    ACTTCTTTGG TAAAGCAAAC ATTAGCAAAA CTTCAACAAC AAGAACAAAG GGAGGAGGCT
    CAGTGGACAC CTACTAAATT GTCTTCCAAA AATGTTTCAG GTCAGACAGA TAAATGTAGG
    GAGGAAACTT TTAAACAAGA ATCACAACCT CCAGAAAAAA ATTCAGGACA TTCTACAAGC
    AAAGGAGACA GAGTGGCACA AAGTGAGAGC AAGAGAAGAA AAGCTGAGGA AATTCTGAAA
    AGTCAGACTC CAAAGGGAGG AGACAAGAAG GAATCCTCCA AGTCATTAGT GCGACAAGGG
    AGCTTCACTA TAGAAAAACC CAGCCCAAAC ATACCCATAG AACTTATTCC CCATATAAAT
    AAACAGACTT CCTCTACTCC TTCTTCTTTA GCATTAACAT CTGCAAGTAG AATACGAGAA
    AGAAGTGAGT CTTTGGATCC TGATTCTAGT ATGGACACAA CCCTTATTCT AAAAGACACA
    GAAGCAGTAA TGGCTTTTCT AGAAGCTAAA CTACGTGAAG ATAATAAAAC TGATGAAGGA
    CCAGATACTC CCAGTTATAA TAGAGACAAT TCTATTTCAC CAGAATCTGA TGTAGATACA
    GCTAGTACAA TCAGTCTGGT TACTGGAGAA ACTGAAAGAA AGTCAACCCA AAAGCGAAAG
    AGTTTCACTA GCCTCTATAA AGATAGGTGT TCCACAGGTT CTCCTTCCAA AGATGTTACA
    AAATCATCAT CTTCAGGTGC TAGGGAAAAA ATGGAAAAGA AAACAAAAAG TCGTTCCACA
    GATGTGGGTT CAAGAGCAGA TGGTCGTAAA TTTGTTCAGT CCAGTGGGAG AATAAGACAG
    CCCTCAGTAG ACTTAACAGA TGATGACCAA ACCTCTAGTG TACCTCATTC TGCCATCTCT
    GATATTATGT CATCTGATCA AGAAACTTAC TCTTGTAAAC CTCATGGACG GACTCCACTT
    ACCTCAGCTG ATGAGCATGT ACATTCCAAA CTGGAAGGAA GTAAAGTAAC GAAATCTAAG
    ACTTCTCCGG TGGTATCTGG TTCATCTAGT AAATCAACCA CCCTTCCAAG GCCACGACCT
    ACCAGGACTT CCCTCTTGCG CAGAGCACGA CTTGGTGAAG CTTCAGACAG TGAACTTGCT
    GATGCTGACA AAGCATCTGT TGCTTCTGAA GTATCCACAA CAAGTTCTAC ATCAAAACCT
    CCCACAGGAA GGCGTAACAT CTCTCGGATT GATTTATTGG CTCAGCCTCG TAGAACACGA
    CTTGGCTCAC TGTCAGCTCG TAGTGACTCT GAAGCAACAA TTTCTAGAAG TAGTGCCTCT
    TCGAGGACCG CAGAAGCCAT CATTAGAAGT GGAGCCAGAC TAGTACCATC AGATAAATTT
    TCTCCTAGAA TTAGAGCTAA CAGTATCTCT CGACTCTCAG ACTCCAAGGT CAAAAGTATG
    ACCTCAGCTC ATGGCTCTGC TTCAGTAAAT TCAAGATGGA GGCGCTTTCC TACTGATTAT
    GCTTCCACCT CAGAAGATGA ATTTGGATCA AACCGTAATT CCCCTAAACA TACCCGTCTA
    CGTACTTCTC CAGCCCTGAA AACCACTCGC TTGCAGAGCG CTGGATCAGC AATGCCTACT
    AGTTCTTCAT TCAAACACCG GATTAAAGAG CAGGAAGACT ACATCCGAGA TTGGACTGCT
    CATCGAGAAG AGATAGCCAG GATCAGCCAA GATCTTGCTC TCATTGCTCG GGAGATCAAC
    GATGTAGCAG GAGAGATAGA TTCAGTGACT TCATCAGGCA CTGCCCCTAG TACCACAGTA
    AGCACTGCTG CCACCACCCC TGGCTCTGCC ATAGACACTA GAGAAGAGGT AGGAGATCTT
    CATGGAGAAA TGCATAAGTT GGTTGATCGT GTTTTTGATG AAAGCCTCAA CTTCCGAAAG
    ATTCCTCCAT TAGTTCATTC CAAAACACCA GAAGGAAACA ACGGTCGATC TGGTGATCCA
    AGACCTCAAG CAGCAGAGCC TCCCGATCAC TTAACAATTA CAAGGCGGAG AACCTGGAGC
    AGGGATGAAG TCATGGGAGA TAATCTGCTG CTGTCATCCG TCTTTCAGTT CTCTAAGAAG
    ATAAGACAAT CTATAGATAA GACAGCTGGA AAGATCAGAA TATTATTTAA AGACAAAGAT
    CGGAATTGGG ATGACATAGA AAGCAAATTA AGAGCCGAAA GTGAAGTCCC TATTGTGAAA
    ACCTCAAGCA TGGAGATTTC TTCTATCTTA CAGGAACTGA AAAGAGTAGA AAAGCAGCTG
    CAAGCAATCA ATGCTATGAT TGATCCTGAT GGAACTTTGG AGGCTCTGAA CAACATGGGA
    TTTCCCAGTG CTATGTTGCC ATCTCCACCG AAACAGAAGT CCAGCCCTGT GAATAACCAC
    CACAGCCCGG GTCAGACACC AACACTTGGC CAACCAGAAG CTAGGGCTCT TCATCCTGCT
    GCTGTTTCAG CCGCAGCTGA ATTTGAGAAT GCTGAATCTG AGGCTGATTT CAGTATACAT
    TTCAATAGAT TCAACCCCGA TGGGGAAGAG GAAGATGTTA CAGTACAAGA ATGA

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

    RefSeq XP_016858440.1
    CDS234..4247
    Translation

    Target ORF information:

    RefSeq Version XM_017002951.2
    Organism Homo sapiens(human)
    Definition Homo sapiens centrosomal protein 170 (CEP170), transcript variant X32, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017002951.2

    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGAAATAAAC ATGATGATGG TACGCAAAGT
    GATTCAGAGA ACGCTGGGGC TCACAGGCGC TGTAGCAAAC GTGCAACTCT TGAGGAACAC
    TTAAGACGCC ACCATTCAGA ACACAAAAAG CTACAGAAGG TCCAGGCTAC TGAAAAGCAT
    CAAGACCAAG CTGTTGTGTT TGGAGTAGAT GACAATCAGG ATTATAATAG GCCTGTTATC
    AACGAAAAAC ATAAAGATCT AATAAAAGAT TGGGCTCTCA GTTCTGCTGC AGCAGTAATG
    GAAGAAAGAA AACCACTGAC TACATCTGGA TTTCACCACT CAGAGGAAGG CACATCTTCA
    TCTGGAAGCA AACGTTGGGT TTCACAGTGG GCTAGTTTGG CTGCCAATCA TACAAGGCAT
    GATCAAGAAG AAAGGATAAT GGAATTTTCT GCACCTCTTC CTTTAGAGAA TGAGACAGAG
    ATCAGTGAGT CTGGCATGAC AGTGAGAAGT ACTGGCTCTG CAACTTCCTT GGCTAGCCAG
    GGAGAGAGAA GGAGACGAAC TCTTCCCCAG CTTCCAAATG AAGAAAAGTC TCTTGAGAGC
    CACAGAGCAA AGGTTGTAAC ACAGAGGTCA GAGATAGGAG AAAAACAAGA CACAGAACTT
    CAGGAGAAAG AAACACCTAC ACAGGTATAC CAGAAAGATA AACAAGATGC TGACAGACCC
    TTGAGTAAAA TGAACAGGGC AGTAAATGGA GAGACTCTCA AAACTGGTGG AGATAATAAA
    ACCCTACTTC ACTTAGGCAG CTCTGCTCCT GGAAAAGAGA AAAGTGAAAC TGATAAGGAA
    ACTTCTTTGG TAAAGCAAAC ATTAGCAAAA CTTCAACAAC AAGAACAAAG GGAGGAGGCT
    CAGTGGACAC CTACTAAATT GTCTTCCAAA AATGTTTCAG GTCAGACAGA TAAATGTAGG
    GAGGAAACTT TTAAACAAGA ATCACAACCT CCAGAAAAAA ATTCAGGACA TTCTACAAGC
    AAAGGAGACA GAGTGGCACA AAGTGAGAGC AAGAGAAGAA AAGCTGAGGA AATTCTGAAA
    AGTCAGACTC CAAAGGGAGG AGACAAGAAG GAATCCTCCA AGTCATTAGT GCGACAAGGG
    AGCTTCACTA TAGAAAAACC CAGCCCAAAC ATACCCATAG AACTTATTCC CCATATAAAT
    AAACAGACTT CCTCTACTCC TTCTTCTTTA GCATTAACAT CTGCAAGTAG AATACGAGAA
    AGAAGTGAGT CTTTGGATCC TGATTCTAGT ATGGACACAA CCCTTATTCT AAAAGACACA
    GAAGCAGTAA TGGCTTTTCT AGAAGCTAAA CTACGTGAAG ATAATAAAAC TGATGAAGGA
    CCAGATACTC CCAGTTATAA TAGAGACAAT TCTATTTCAC CAGAATCTGA TGTAGATACA
    GCTAGTACAA TCAGTCTGGT TACTGGAGAA ACTGAAAGAA AGTCAACCCA AAAGCGAAAG
    AGTTTCACTA GCCTCTATAA AGATAGGTGT TCCACAGGTT CTCCTTCCAA AGATGTTACA
    AAATCATCAT CTTCAGGTGC TAGGGAAAAA ATGGAAAAGA AAACAAAAAG TCGTTCCACA
    GATGTGGGTT CAAGAGCAGA TGGTCGTAAA TTTGTTCAGT CCAGTGGGAG AATAAGACAG
    CCCTCAGTAG ACTTAACAGA TGATGACCAA ACCTCTAGTG TACCTCATTC TGCCATCTCT
    GATATTATGT CATCTGATCA AGAAACTTAC TCTTGTAAAC CTCATGGACG GACTCCACTT
    ACCTCAGCTG ATGAGCATGT ACATTCCAAA CTGGAAGGAA GTAAAGTAAC GAAATCTAAG
    ACTTCTCCGG TGGTATCTGG TTCATCTAGT AAATCAACCA CCCTTCCAAG GCCACGACCT
    ACCAGGACTT CCCTCTTGCG CAGAGCACGA CTTGGTGAAG CTTCAGACAG TGAACTTGCT
    GATGCTGACA AAGCATCTGT TGCTTCTGAA GTATCCACAA CAAGTTCTAC ATCAAAACCT
    CCCACAGGAA GGCGTAACAT CTCTCGGATT GATTTATTGG CTCAGCCTCG TAGAACACGA
    CTTGGCTCAC TGTCAGCTCG TAGTGACTCT GAAGCAACAA TTTCTAGAAG TAGTGCCTCT
    TCGAGGACCG CAGAAGCCAT CATTAGAAGT GGAGCCAGAC TAGTACCATC AGATAAATTT
    TCTCCTAGAA TTAGAGCTAA CAGTATCTCT CGACTCTCAG ACTCCAAGGT CAAAAGTATG
    ACCTCAGCTC ATGGCTCTGC TTCAGTAAAT TCAAGATGGA GGCGCTTTCC TACTGATTAT
    GCTTCCACCT CAGAAGATGA ATTTGGATCA AACCGTAATT CCCCTAAACA TACCCGTCTA
    CGTACTTCTC CAGCCCTGAA AACCACTCGC TTGCAGAGCG CTGGATCAGC AATGCCTACT
    AGTTCTTCAT TCAAACACCG GATTAAAGAG CAGGAAGACT ACATCCGAGA TTGGACTGCT
    CATCGAGAAG AGATAGCCAG GATCAGCCAA GATCTTGCTC TCATTGCTCG GGAGATCAAC
    GATGTAGCAG GAGAGATAGA TTCAGTGACT TCATCAGGCA CTGCCCCTAG TACCACAGTA
    AGCACTGCTG CCACCACCCC TGGCTCTGCC ATAGACACTA GAGAAGAGGT AGGAGATCTT
    CATGGAGAAA TGCATAAGTT GGTTGATCGT GTTTTTGATG AAAGCCTCAA CTTCCGAAAG
    ATTCCTCCAT TAGTTCATTC CAAAACACCA GAAGGAAACA ACGGTCGATC TGGTGATCCA
    AGACCTCAAG CAGCAGAGCC TCCCGATCAC TTAACAATTA CAAGGCGGAG AACCTGGAGC
    AGGGATGAAG TCATGGGAGA TAATCTGCTG CTGTCATCCG TCTTTCAGTT CTCTAAGAAG
    ATAAGACAAT CTATAGATAA GACAGCTGGA AAGATCAGAA TATTATTTAA AGACAAAGAT
    CGGAATTGGG ATGACATAGA AAGCAAATTA AGAGCCGAAA GTGAAGTCCC TATTGTGAAA
    ACCTCAAGCA TGGAGATTTC TTCTATCTTA CAGGAACTGA AAAGAGTAGA AAAGCAGCTG
    CAAGCAATCA ATGCTATGAT TGATCCTGAT GGAACTTTGG AGGCTCTGAA CAACATGGGA
    TTTCCCAGTG CTATGTTGCC ATCTCCACCG AAACAGAAGT CCAGCCCTGT GAATAACCAC
    CACAGCCCGG GTCAGACACC AACACTTGGC CAACCAGAAG CTAGGGCTCT TCATCCTGCT
    GCTGTTTCAG CCGCAGCTGA ATTTGAGAAT GCTGAATCTG AGGCTGATTT CAGTATACAT
    TTCAATAGAT TCAACCCCGA TGGGGAAGAG GAAGATGTTA CAGTACAAGA ATGA

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

    CloneID OHu90869
    Clone ID Related Accession (Same CDS sequence) XM_017002940.2 , XM_017002939.1 , XM_017002935.1 , XM_017002935.2 , XM_017002939.2 , XM_017002940.1
    Accession Version XM_017002940.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4704bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product 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_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017002940.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGTAAA TTCAAGATGG AGGCGCTTTC CTACTGATTA TGCTTCCACC
    TCAGAAGATG AATTTGGATC AAACCGTAAT TCCCCTAAAC ATACCCGTCT ACGTACTTCT
    CCAGCCCTGA AAACCACTCG CTTGCAGAGC GCTGGATCAG CAATGCCTAC TAGTTCTTCA
    TTCAAACACC GGATTAAAGA GCAGGAAGAC TACATCCGAG ATTGGACTGC TCATCGAGAA
    GAGATAGCCA GGATCAGCCA AGATCTTGCT CTCATTGCTC GGGAGATCAA CGATGTAGCA
    GGAGAGATAG ATTCAGTGAC TTCATCAGGC ACTGCCCCTA GTACCACATT GGTTGATCGT
    GTTTTTGATG AAAGCCTCAA CTTCCGAAAG ATTCCTCCAT TAGTTCATTC CAAAACACCA
    GAAGGAAACA ACGGTCGATC TGGTGATCCA AGACCTCAAG CAGCAGAGCC TCCCGATCAC
    TTAACAATTA CAAGGCGGAG AACCTGGAGC AGGGATGAAG TCATGGGAGA TAATCTGCTG
    CTGTCATCCG TCTTTCAGTT CTCTAAGAAG ATAAGACAAT CTATAGATAA GACAGCTGGA
    AAGATCAGAA TATTATTTAA AGACAAAGAT CGGAATTGGG ATGACATAGA AAGCAAATTA
    AGAGCCGAAA GTGAAGTCCC TATTGTGAAA ACCTCAAGCA TGGAGATTTC TTCTATCTTA
    CAGGAACTGA AAAGAGTAGA AAAGCAGCTG CAAGCAATCA ATGCTATGAT TGATCCTGAT
    GGAACTTTGG AGGCTCTGAA CAACATGGGA TTTCCCAGTG CTATGTTGCC ATCTCCACCG
    AAACAGAAGT CCAGCCCTGT GAATAACCAC CACAGCCCGG GTCAGACACC AACACTTGGC
    CAACCAGAAG CTAGGGCTCT TCATCCTGCT GCTGTTTCAG CCGCAGCTGA ATTTGAGAAT
    GCTGAATCTG AGGCTGATTT CAGTATACAT TTCAATAGAT TCAACCCCGA TGGGGAAGAG
    GAAGATGTTA CAGTACAAGA ATGA

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

    RefSeq XP_016858429.1
    CDS346..5049
    Translation

    Target ORF information:

    RefSeq Version XM_017002940.2
    Organism Homo sapiens(human)
    Definition Homo sapiens centrosomal protein 170 (CEP170), transcript variant X17, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017002940.2

    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 AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGTAAA TTCAAGATGG AGGCGCTTTC CTACTGATTA TGCTTCCACC
    TCAGAAGATG AATTTGGATC AAACCGTAAT TCCCCTAAAC ATACCCGTCT ACGTACTTCT
    CCAGCCCTGA AAACCACTCG CTTGCAGAGC GCTGGATCAG CAATGCCTAC TAGTTCTTCA
    TTCAAACACC GGATTAAAGA GCAGGAAGAC TACATCCGAG ATTGGACTGC TCATCGAGAA
    GAGATAGCCA GGATCAGCCA AGATCTTGCT CTCATTGCTC GGGAGATCAA CGATGTAGCA
    GGAGAGATAG ATTCAGTGAC TTCATCAGGC ACTGCCCCTA GTACCACATT GGTTGATCGT
    GTTTTTGATG AAAGCCTCAA CTTCCGAAAG ATTCCTCCAT TAGTTCATTC CAAAACACCA
    GAAGGAAACA ACGGTCGATC TGGTGATCCA AGACCTCAAG CAGCAGAGCC TCCCGATCAC
    TTAACAATTA CAAGGCGGAG AACCTGGAGC AGGGATGAAG TCATGGGAGA TAATCTGCTG
    CTGTCATCCG TCTTTCAGTT CTCTAAGAAG ATAAGACAAT CTATAGATAA GACAGCTGGA
    AAGATCAGAA TATTATTTAA AGACAAAGAT CGGAATTGGG ATGACATAGA AAGCAAATTA
    AGAGCCGAAA GTGAAGTCCC TATTGTGAAA ACCTCAAGCA TGGAGATTTC TTCTATCTTA
    CAGGAACTGA AAAGAGTAGA AAAGCAGCTG CAAGCAATCA ATGCTATGAT TGATCCTGAT
    GGAACTTTGG AGGCTCTGAA CAACATGGGA TTTCCCAGTG CTATGTTGCC ATCTCCACCG
    AAACAGAAGT CCAGCCCTGT GAATAACCAC CACAGCCCGG GTCAGACACC AACACTTGGC
    CAACCAGAAG CTAGGGCTCT TCATCCTGCT GCTGTTTCAG CCGCAGCTGA ATTTGAGAAT
    GCTGAATCTG AGGCTGATTT CAGTATACAT TTCAATAGAT TCAACCCCGA TGGGGAAGAG
    GAAGATGTTA CAGTACAAGA ATGA

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

    CloneID OHu90869
    Clone ID Related Accession (Same CDS sequence) XM_017002940.2 , XM_017002939.1 , XM_017002935.1 , XM_017002935.2 , XM_017002939.2 , XM_017002940.1
    Accession Version XM_017002939.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4704bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product 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_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGTAAA TTCAAGATGG AGGCGCTTTC CTACTGATTA TGCTTCCACC
    TCAGAAGATG AATTTGGATC AAACCGTAAT TCCCCTAAAC ATACCCGTCT ACGTACTTCT
    CCAGCCCTGA AAACCACTCG CTTGCAGAGC GCTGGATCAG CAATGCCTAC TAGTTCTTCA
    TTCAAACACC GGATTAAAGA GCAGGAAGAC TACATCCGAG ATTGGACTGC TCATCGAGAA
    GAGATAGCCA GGATCAGCCA AGATCTTGCT CTCATTGCTC GGGAGATCAA CGATGTAGCA
    GGAGAGATAG ATTCAGTGAC TTCATCAGGC ACTGCCCCTA GTACCACATT GGTTGATCGT
    GTTTTTGATG AAAGCCTCAA CTTCCGAAAG ATTCCTCCAT TAGTTCATTC CAAAACACCA
    GAAGGAAACA ACGGTCGATC TGGTGATCCA AGACCTCAAG CAGCAGAGCC TCCCGATCAC
    TTAACAATTA CAAGGCGGAG AACCTGGAGC AGGGATGAAG TCATGGGAGA TAATCTGCTG
    CTGTCATCCG TCTTTCAGTT CTCTAAGAAG ATAAGACAAT CTATAGATAA GACAGCTGGA
    AAGATCAGAA TATTATTTAA AGACAAAGAT CGGAATTGGG ATGACATAGA AAGCAAATTA
    AGAGCCGAAA GTGAAGTCCC TATTGTGAAA ACCTCAAGCA TGGAGATTTC TTCTATCTTA
    CAGGAACTGA AAAGAGTAGA AAAGCAGCTG CAAGCAATCA ATGCTATGAT TGATCCTGAT
    GGAACTTTGG AGGCTCTGAA CAACATGGGA TTTCCCAGTG CTATGTTGCC ATCTCCACCG
    AAACAGAAGT CCAGCCCTGT GAATAACCAC CACAGCCCGG GTCAGACACC AACACTTGGC
    CAACCAGAAG CTAGGGCTCT TCATCCTGCT GCTGTTTCAG CCGCAGCTGA ATTTGAGAAT
    GCTGAATCTG AGGCTGATTT CAGTATACAT TTCAATAGAT TCAACCCCGA TGGGGAAGAG
    GAAGATGTTA CAGTACAAGA ATGA

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

    RefSeq XP_016858428.1
    CDS709..5412
    Translation

    Target ORF information:

    RefSeq Version XM_017002939.1
    Organism Homo sapiens(human)
    Definition Homo sapiens centrosomal protein 170 (CEP170), transcript variant X18, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017002939.1

    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 AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGTAAA TTCAAGATGG AGGCGCTTTC CTACTGATTA TGCTTCCACC
    TCAGAAGATG AATTTGGATC AAACCGTAAT TCCCCTAAAC ATACCCGTCT ACGTACTTCT
    CCAGCCCTGA AAACCACTCG CTTGCAGAGC GCTGGATCAG CAATGCCTAC TAGTTCTTCA
    TTCAAACACC GGATTAAAGA GCAGGAAGAC TACATCCGAG ATTGGACTGC TCATCGAGAA
    GAGATAGCCA GGATCAGCCA AGATCTTGCT CTCATTGCTC GGGAGATCAA CGATGTAGCA
    GGAGAGATAG ATTCAGTGAC TTCATCAGGC ACTGCCCCTA GTACCACATT GGTTGATCGT
    GTTTTTGATG AAAGCCTCAA CTTCCGAAAG ATTCCTCCAT TAGTTCATTC CAAAACACCA
    GAAGGAAACA ACGGTCGATC TGGTGATCCA AGACCTCAAG CAGCAGAGCC TCCCGATCAC
    TTAACAATTA CAAGGCGGAG AACCTGGAGC AGGGATGAAG TCATGGGAGA TAATCTGCTG
    CTGTCATCCG TCTTTCAGTT CTCTAAGAAG ATAAGACAAT CTATAGATAA GACAGCTGGA
    AAGATCAGAA TATTATTTAA AGACAAAGAT CGGAATTGGG ATGACATAGA AAGCAAATTA
    AGAGCCGAAA GTGAAGTCCC TATTGTGAAA ACCTCAAGCA TGGAGATTTC TTCTATCTTA
    CAGGAACTGA AAAGAGTAGA AAAGCAGCTG CAAGCAATCA ATGCTATGAT TGATCCTGAT
    GGAACTTTGG AGGCTCTGAA CAACATGGGA TTTCCCAGTG CTATGTTGCC ATCTCCACCG
    AAACAGAAGT CCAGCCCTGT GAATAACCAC CACAGCCCGG GTCAGACACC AACACTTGGC
    CAACCAGAAG CTAGGGCTCT TCATCCTGCT GCTGTTTCAG CCGCAGCTGA ATTTGAGAAT
    GCTGAATCTG AGGCTGATTT CAGTATACAT TTCAATAGAT TCAACCCCGA TGGGGAAGAG
    GAAGATGTTA CAGTACAAGA ATGA

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

    CloneID OHu90869
    Clone ID Related Accession (Same CDS sequence) XM_017002940.2 , XM_017002939.1 , XM_017002935.1 , XM_017002935.2 , XM_017002939.2 , XM_017002940.1
    Accession Version XM_017002935.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4704bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product 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_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGTAAA TTCAAGATGG AGGCGCTTTC CTACTGATTA TGCTTCCACC
    TCAGAAGATG AATTTGGATC AAACCGTAAT TCCCCTAAAC ATACCCGTCT ACGTACTTCT
    CCAGCCCTGA AAACCACTCG CTTGCAGAGC GCTGGATCAG CAATGCCTAC TAGTTCTTCA
    TTCAAACACC GGATTAAAGA GCAGGAAGAC TACATCCGAG ATTGGACTGC TCATCGAGAA
    GAGATAGCCA GGATCAGCCA AGATCTTGCT CTCATTGCTC GGGAGATCAA CGATGTAGCA
    GGAGAGATAG ATTCAGTGAC TTCATCAGGC ACTGCCCCTA GTACCACATT GGTTGATCGT
    GTTTTTGATG AAAGCCTCAA CTTCCGAAAG ATTCCTCCAT TAGTTCATTC CAAAACACCA
    GAAGGAAACA ACGGTCGATC TGGTGATCCA AGACCTCAAG CAGCAGAGCC TCCCGATCAC
    TTAACAATTA CAAGGCGGAG AACCTGGAGC AGGGATGAAG TCATGGGAGA TAATCTGCTG
    CTGTCATCCG TCTTTCAGTT CTCTAAGAAG ATAAGACAAT CTATAGATAA GACAGCTGGA
    AAGATCAGAA TATTATTTAA AGACAAAGAT CGGAATTGGG ATGACATAGA AAGCAAATTA
    AGAGCCGAAA GTGAAGTCCC TATTGTGAAA ACCTCAAGCA TGGAGATTTC TTCTATCTTA
    CAGGAACTGA AAAGAGTAGA AAAGCAGCTG CAAGCAATCA ATGCTATGAT TGATCCTGAT
    GGAACTTTGG AGGCTCTGAA CAACATGGGA TTTCCCAGTG CTATGTTGCC ATCTCCACCG
    AAACAGAAGT CCAGCCCTGT GAATAACCAC CACAGCCCGG GTCAGACACC AACACTTGGC
    CAACCAGAAG CTAGGGCTCT TCATCCTGCT GCTGTTTCAG CCGCAGCTGA ATTTGAGAAT
    GCTGAATCTG AGGCTGATTT CAGTATACAT TTCAATAGAT TCAACCCCGA TGGGGAAGAG
    GAAGATGTTA CAGTACAAGA ATGA

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

    RefSeq XP_016858424.1
    CDS889..5592
    Translation

    Target ORF information:

    RefSeq Version XM_017002935.1
    Organism Homo sapiens(human)
    Definition Homo sapiens centrosomal protein 170 (CEP170), transcript variant X14, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017002935.1

    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 AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGTAAA TTCAAGATGG AGGCGCTTTC CTACTGATTA TGCTTCCACC
    TCAGAAGATG AATTTGGATC AAACCGTAAT TCCCCTAAAC ATACCCGTCT ACGTACTTCT
    CCAGCCCTGA AAACCACTCG CTTGCAGAGC GCTGGATCAG CAATGCCTAC TAGTTCTTCA
    TTCAAACACC GGATTAAAGA GCAGGAAGAC TACATCCGAG ATTGGACTGC TCATCGAGAA
    GAGATAGCCA GGATCAGCCA AGATCTTGCT CTCATTGCTC GGGAGATCAA CGATGTAGCA
    GGAGAGATAG ATTCAGTGAC TTCATCAGGC ACTGCCCCTA GTACCACATT GGTTGATCGT
    GTTTTTGATG AAAGCCTCAA CTTCCGAAAG ATTCCTCCAT TAGTTCATTC CAAAACACCA
    GAAGGAAACA ACGGTCGATC TGGTGATCCA AGACCTCAAG CAGCAGAGCC TCCCGATCAC
    TTAACAATTA CAAGGCGGAG AACCTGGAGC AGGGATGAAG TCATGGGAGA TAATCTGCTG
    CTGTCATCCG TCTTTCAGTT CTCTAAGAAG ATAAGACAAT CTATAGATAA GACAGCTGGA
    AAGATCAGAA TATTATTTAA AGACAAAGAT CGGAATTGGG ATGACATAGA AAGCAAATTA
    AGAGCCGAAA GTGAAGTCCC TATTGTGAAA ACCTCAAGCA TGGAGATTTC TTCTATCTTA
    CAGGAACTGA AAAGAGTAGA AAAGCAGCTG CAAGCAATCA ATGCTATGAT TGATCCTGAT
    GGAACTTTGG AGGCTCTGAA CAACATGGGA TTTCCCAGTG CTATGTTGCC ATCTCCACCG
    AAACAGAAGT CCAGCCCTGT GAATAACCAC CACAGCCCGG GTCAGACACC AACACTTGGC
    CAACCAGAAG CTAGGGCTCT TCATCCTGCT GCTGTTTCAG CCGCAGCTGA ATTTGAGAAT
    GCTGAATCTG AGGCTGATTT CAGTATACAT TTCAATAGAT TCAACCCCGA TGGGGAAGAG
    GAAGATGTTA CAGTACAAGA ATGA

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

    CloneID OHu90869
    Clone ID Related Accession (Same CDS sequence) XM_017002940.2 , XM_017002939.1 , XM_017002935.1 , XM_017002935.2 , XM_017002939.2 , XM_017002940.1
    Accession Version XM_017002935.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4704bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product 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_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017002935.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGTAAA TTCAAGATGG AGGCGCTTTC CTACTGATTA TGCTTCCACC
    TCAGAAGATG AATTTGGATC AAACCGTAAT TCCCCTAAAC ATACCCGTCT ACGTACTTCT
    CCAGCCCTGA AAACCACTCG CTTGCAGAGC GCTGGATCAG CAATGCCTAC TAGTTCTTCA
    TTCAAACACC GGATTAAAGA GCAGGAAGAC TACATCCGAG ATTGGACTGC TCATCGAGAA
    GAGATAGCCA GGATCAGCCA AGATCTTGCT CTCATTGCTC GGGAGATCAA CGATGTAGCA
    GGAGAGATAG ATTCAGTGAC TTCATCAGGC ACTGCCCCTA GTACCACATT GGTTGATCGT
    GTTTTTGATG AAAGCCTCAA CTTCCGAAAG ATTCCTCCAT TAGTTCATTC CAAAACACCA
    GAAGGAAACA ACGGTCGATC TGGTGATCCA AGACCTCAAG CAGCAGAGCC TCCCGATCAC
    TTAACAATTA CAAGGCGGAG AACCTGGAGC AGGGATGAAG TCATGGGAGA TAATCTGCTG
    CTGTCATCCG TCTTTCAGTT CTCTAAGAAG ATAAGACAAT CTATAGATAA GACAGCTGGA
    AAGATCAGAA TATTATTTAA AGACAAAGAT CGGAATTGGG ATGACATAGA AAGCAAATTA
    AGAGCCGAAA GTGAAGTCCC TATTGTGAAA ACCTCAAGCA TGGAGATTTC TTCTATCTTA
    CAGGAACTGA AAAGAGTAGA AAAGCAGCTG CAAGCAATCA ATGCTATGAT TGATCCTGAT
    GGAACTTTGG AGGCTCTGAA CAACATGGGA TTTCCCAGTG CTATGTTGCC ATCTCCACCG
    AAACAGAAGT CCAGCCCTGT GAATAACCAC CACAGCCCGG GTCAGACACC AACACTTGGC
    CAACCAGAAG CTAGGGCTCT TCATCCTGCT GCTGTTTCAG CCGCAGCTGA ATTTGAGAAT
    GCTGAATCTG AGGCTGATTT CAGTATACAT TTCAATAGAT TCAACCCCGA TGGGGAAGAG
    GAAGATGTTA CAGTACAAGA ATGA

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

    RefSeq XP_016858424.1
    CDS788..5491
    Translation

    Target ORF information:

    RefSeq Version XM_017002935.2
    Organism Homo sapiens(human)
    Definition Homo sapiens centrosomal protein 170 (CEP170), transcript variant X15, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017002935.2

    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 AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGTAAA TTCAAGATGG AGGCGCTTTC CTACTGATTA TGCTTCCACC
    TCAGAAGATG AATTTGGATC AAACCGTAAT TCCCCTAAAC ATACCCGTCT ACGTACTTCT
    CCAGCCCTGA AAACCACTCG CTTGCAGAGC GCTGGATCAG CAATGCCTAC TAGTTCTTCA
    TTCAAACACC GGATTAAAGA GCAGGAAGAC TACATCCGAG ATTGGACTGC TCATCGAGAA
    GAGATAGCCA GGATCAGCCA AGATCTTGCT CTCATTGCTC GGGAGATCAA CGATGTAGCA
    GGAGAGATAG ATTCAGTGAC TTCATCAGGC ACTGCCCCTA GTACCACATT GGTTGATCGT
    GTTTTTGATG AAAGCCTCAA CTTCCGAAAG ATTCCTCCAT TAGTTCATTC CAAAACACCA
    GAAGGAAACA ACGGTCGATC TGGTGATCCA AGACCTCAAG CAGCAGAGCC TCCCGATCAC
    TTAACAATTA CAAGGCGGAG AACCTGGAGC AGGGATGAAG TCATGGGAGA TAATCTGCTG
    CTGTCATCCG TCTTTCAGTT CTCTAAGAAG ATAAGACAAT CTATAGATAA GACAGCTGGA
    AAGATCAGAA TATTATTTAA AGACAAAGAT CGGAATTGGG ATGACATAGA AAGCAAATTA
    AGAGCCGAAA GTGAAGTCCC TATTGTGAAA ACCTCAAGCA TGGAGATTTC TTCTATCTTA
    CAGGAACTGA AAAGAGTAGA AAAGCAGCTG CAAGCAATCA ATGCTATGAT TGATCCTGAT
    GGAACTTTGG AGGCTCTGAA CAACATGGGA TTTCCCAGTG CTATGTTGCC ATCTCCACCG
    AAACAGAAGT CCAGCCCTGT GAATAACCAC CACAGCCCGG GTCAGACACC AACACTTGGC
    CAACCAGAAG CTAGGGCTCT TCATCCTGCT GCTGTTTCAG CCGCAGCTGA ATTTGAGAAT
    GCTGAATCTG AGGCTGATTT CAGTATACAT TTCAATAGAT TCAACCCCGA TGGGGAAGAG
    GAAGATGTTA CAGTACAAGA ATGA

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

    CloneID OHu90869
    Clone ID Related Accession (Same CDS sequence) XM_017002940.2 , XM_017002939.1 , XM_017002935.1 , XM_017002935.2 , XM_017002939.2 , XM_017002940.1
    Accession Version XM_017002939.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4704bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product 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_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017002939.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGTAAA TTCAAGATGG AGGCGCTTTC CTACTGATTA TGCTTCCACC
    TCAGAAGATG AATTTGGATC AAACCGTAAT TCCCCTAAAC ATACCCGTCT ACGTACTTCT
    CCAGCCCTGA AAACCACTCG CTTGCAGAGC GCTGGATCAG CAATGCCTAC TAGTTCTTCA
    TTCAAACACC GGATTAAAGA GCAGGAAGAC TACATCCGAG ATTGGACTGC TCATCGAGAA
    GAGATAGCCA GGATCAGCCA AGATCTTGCT CTCATTGCTC GGGAGATCAA CGATGTAGCA
    GGAGAGATAG ATTCAGTGAC TTCATCAGGC ACTGCCCCTA GTACCACATT GGTTGATCGT
    GTTTTTGATG AAAGCCTCAA CTTCCGAAAG ATTCCTCCAT TAGTTCATTC CAAAACACCA
    GAAGGAAACA ACGGTCGATC TGGTGATCCA AGACCTCAAG CAGCAGAGCC TCCCGATCAC
    TTAACAATTA CAAGGCGGAG AACCTGGAGC AGGGATGAAG TCATGGGAGA TAATCTGCTG
    CTGTCATCCG TCTTTCAGTT CTCTAAGAAG ATAAGACAAT CTATAGATAA GACAGCTGGA
    AAGATCAGAA TATTATTTAA AGACAAAGAT CGGAATTGGG ATGACATAGA AAGCAAATTA
    AGAGCCGAAA GTGAAGTCCC TATTGTGAAA ACCTCAAGCA TGGAGATTTC TTCTATCTTA
    CAGGAACTGA AAAGAGTAGA AAAGCAGCTG CAAGCAATCA ATGCTATGAT TGATCCTGAT
    GGAACTTTGG AGGCTCTGAA CAACATGGGA TTTCCCAGTG CTATGTTGCC ATCTCCACCG
    AAACAGAAGT CCAGCCCTGT GAATAACCAC CACAGCCCGG GTCAGACACC AACACTTGGC
    CAACCAGAAG CTAGGGCTCT TCATCCTGCT GCTGTTTCAG CCGCAGCTGA ATTTGAGAAT
    GCTGAATCTG AGGCTGATTT CAGTATACAT TTCAATAGAT TCAACCCCGA TGGGGAAGAG
    GAAGATGTTA CAGTACAAGA ATGA

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

    RefSeq XP_016858428.1
    CDS258..4961
    Translation

    Target ORF information:

    RefSeq Version XM_017002939.2
    Organism Homo sapiens(human)
    Definition Homo sapiens centrosomal protein 170 (CEP170), transcript variant X16, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017002939.2

    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 AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGTAAA TTCAAGATGG AGGCGCTTTC CTACTGATTA TGCTTCCACC
    TCAGAAGATG AATTTGGATC AAACCGTAAT TCCCCTAAAC ATACCCGTCT ACGTACTTCT
    CCAGCCCTGA AAACCACTCG CTTGCAGAGC GCTGGATCAG CAATGCCTAC TAGTTCTTCA
    TTCAAACACC GGATTAAAGA GCAGGAAGAC TACATCCGAG ATTGGACTGC TCATCGAGAA
    GAGATAGCCA GGATCAGCCA AGATCTTGCT CTCATTGCTC GGGAGATCAA CGATGTAGCA
    GGAGAGATAG ATTCAGTGAC TTCATCAGGC ACTGCCCCTA GTACCACATT GGTTGATCGT
    GTTTTTGATG AAAGCCTCAA CTTCCGAAAG ATTCCTCCAT TAGTTCATTC CAAAACACCA
    GAAGGAAACA ACGGTCGATC TGGTGATCCA AGACCTCAAG CAGCAGAGCC TCCCGATCAC
    TTAACAATTA CAAGGCGGAG AACCTGGAGC AGGGATGAAG TCATGGGAGA TAATCTGCTG
    CTGTCATCCG TCTTTCAGTT CTCTAAGAAG ATAAGACAAT CTATAGATAA GACAGCTGGA
    AAGATCAGAA TATTATTTAA AGACAAAGAT CGGAATTGGG ATGACATAGA AAGCAAATTA
    AGAGCCGAAA GTGAAGTCCC TATTGTGAAA ACCTCAAGCA TGGAGATTTC TTCTATCTTA
    CAGGAACTGA AAAGAGTAGA AAAGCAGCTG CAAGCAATCA ATGCTATGAT TGATCCTGAT
    GGAACTTTGG AGGCTCTGAA CAACATGGGA TTTCCCAGTG CTATGTTGCC ATCTCCACCG
    AAACAGAAGT CCAGCCCTGT GAATAACCAC CACAGCCCGG GTCAGACACC AACACTTGGC
    CAACCAGAAG CTAGGGCTCT TCATCCTGCT GCTGTTTCAG CCGCAGCTGA ATTTGAGAAT
    GCTGAATCTG AGGCTGATTT CAGTATACAT TTCAATAGAT TCAACCCCGA TGGGGAAGAG
    GAAGATGTTA CAGTACAAGA ATGA

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

    CloneID OHu90869
    Clone ID Related Accession (Same CDS sequence) XM_017002940.2 , XM_017002939.1 , XM_017002935.1 , XM_017002935.2 , XM_017002939.2 , XM_017002940.1
    Accession Version XM_017002940.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4704bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product 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_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGTAAA TTCAAGATGG AGGCGCTTTC CTACTGATTA TGCTTCCACC
    TCAGAAGATG AATTTGGATC AAACCGTAAT TCCCCTAAAC ATACCCGTCT ACGTACTTCT
    CCAGCCCTGA AAACCACTCG CTTGCAGAGC GCTGGATCAG CAATGCCTAC TAGTTCTTCA
    TTCAAACACC GGATTAAAGA GCAGGAAGAC TACATCCGAG ATTGGACTGC TCATCGAGAA
    GAGATAGCCA GGATCAGCCA AGATCTTGCT CTCATTGCTC GGGAGATCAA CGATGTAGCA
    GGAGAGATAG ATTCAGTGAC TTCATCAGGC ACTGCCCCTA GTACCACATT GGTTGATCGT
    GTTTTTGATG AAAGCCTCAA CTTCCGAAAG ATTCCTCCAT TAGTTCATTC CAAAACACCA
    GAAGGAAACA ACGGTCGATC TGGTGATCCA AGACCTCAAG CAGCAGAGCC TCCCGATCAC
    TTAACAATTA CAAGGCGGAG AACCTGGAGC AGGGATGAAG TCATGGGAGA TAATCTGCTG
    CTGTCATCCG TCTTTCAGTT CTCTAAGAAG ATAAGACAAT CTATAGATAA GACAGCTGGA
    AAGATCAGAA TATTATTTAA AGACAAAGAT CGGAATTGGG ATGACATAGA AAGCAAATTA
    AGAGCCGAAA GTGAAGTCCC TATTGTGAAA ACCTCAAGCA TGGAGATTTC TTCTATCTTA
    CAGGAACTGA AAAGAGTAGA AAAGCAGCTG CAAGCAATCA ATGCTATGAT TGATCCTGAT
    GGAACTTTGG AGGCTCTGAA CAACATGGGA TTTCCCAGTG CTATGTTGCC ATCTCCACCG
    AAACAGAAGT CCAGCCCTGT GAATAACCAC CACAGCCCGG GTCAGACACC AACACTTGGC
    CAACCAGAAG CTAGGGCTCT TCATCCTGCT GCTGTTTCAG CCGCAGCTGA ATTTGAGAAT
    GCTGAATCTG AGGCTGATTT CAGTATACAT TTCAATAGAT TCAACCCCGA TGGGGAAGAG
    GAAGATGTTA CAGTACAAGA ATGA

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

    RefSeq XP_016858429.1
    CDS352..5055
    Translation

    Target ORF information:

    RefSeq Version XM_017002940.1
    Organism Homo sapiens(human)
    Definition Homo sapiens centrosomal protein 170 (CEP170), transcript variant X19, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017002940.1

    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 AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGTAAA TTCAAGATGG AGGCGCTTTC CTACTGATTA TGCTTCCACC
    TCAGAAGATG AATTTGGATC AAACCGTAAT TCCCCTAAAC ATACCCGTCT ACGTACTTCT
    CCAGCCCTGA AAACCACTCG CTTGCAGAGC GCTGGATCAG CAATGCCTAC TAGTTCTTCA
    TTCAAACACC GGATTAAAGA GCAGGAAGAC TACATCCGAG ATTGGACTGC TCATCGAGAA
    GAGATAGCCA GGATCAGCCA AGATCTTGCT CTCATTGCTC GGGAGATCAA CGATGTAGCA
    GGAGAGATAG ATTCAGTGAC TTCATCAGGC ACTGCCCCTA GTACCACATT GGTTGATCGT
    GTTTTTGATG AAAGCCTCAA CTTCCGAAAG ATTCCTCCAT TAGTTCATTC CAAAACACCA
    GAAGGAAACA ACGGTCGATC TGGTGATCCA AGACCTCAAG CAGCAGAGCC TCCCGATCAC
    TTAACAATTA CAAGGCGGAG AACCTGGAGC AGGGATGAAG TCATGGGAGA TAATCTGCTG
    CTGTCATCCG TCTTTCAGTT CTCTAAGAAG ATAAGACAAT CTATAGATAA GACAGCTGGA
    AAGATCAGAA TATTATTTAA AGACAAAGAT CGGAATTGGG ATGACATAGA AAGCAAATTA
    AGAGCCGAAA GTGAAGTCCC TATTGTGAAA ACCTCAAGCA TGGAGATTTC TTCTATCTTA
    CAGGAACTGA AAAGAGTAGA AAAGCAGCTG CAAGCAATCA ATGCTATGAT TGATCCTGAT
    GGAACTTTGG AGGCTCTGAA CAACATGGGA TTTCCCAGTG CTATGTTGCC ATCTCCACCG
    AAACAGAAGT CCAGCCCTGT GAATAACCAC CACAGCCCGG GTCAGACACC AACACTTGGC
    CAACCAGAAG CTAGGGCTCT TCATCCTGCT GCTGTTTCAG CCGCAGCTGA ATTTGAGAAT
    GCTGAATCTG AGGCTGATTT CAGTATACAT TTCAATAGAT TCAACCCCGA TGGGGAAGAG
    GAAGATGTTA CAGTACAAGA ATGA

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

    CloneID OHu90870
    Clone ID Related Accession (Same CDS sequence) XM_017002937.1 , XM_017002941.1 , XM_017002941.2 , XM_017002937.2
    Accession Version XM_017002937.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4677bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product 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_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGCCCT GAAAACCACT CGCTTGCAGA GCGCTGGATC AGCAATGCCT
    ACTAGTTCTT CATTCAAACA CCGGATTAAA GAGCAGGAAG ACTACATCCG AGATTGGACT
    GCTCATCGAG AAGAGATAGC CAGGATCAGC CAAGATCTTG CTCTCATTGC TCGGGAGATC
    AACGATGTAG CAGGAGAGAT AGATTCAGTG ACTTCATCAG GCACTGCCCC TAGTACCACA
    GTAAGCACTG CTGCCACCAC CCCTGGCTCT GCCATAGACA CTAGAGAAGA GGTAGGAGAT
    CTTCATGGAG AAATGCATAA GTTGGTTGAT CGTGTTTTTG ATGAAAGCCT CAACTTCCGA
    AAGATTCCTC CATTAGTTCA TTCCAAAACA CCAGAAGGAA ACAACGGTCG ATCTGGTGAT
    CCAAGACCTC AAGCAGCAGA GCCTCCCGAT CACTTAACAA TTACAAGGCG GAGAACCTGG
    AGCAGGGATG AAGTCATGGG AGATAATCTG CTGCTGTCAT CCGTCTTTCA GTTCTCTAAG
    AAGATAAGAC AATCTATAGA TAAGACAGCT GGAAAGATCA GAATATTATT TAAAGACAAA
    GATCGGAATT GGGATGACAT AGAAAGCAAA TTAAGAGCCG AAAGTGAAGT CCCTATTGTG
    AAAACCTCAA GCATGGAGAT TTCTTCTATC TTACAGGAAC TGAAAAGAGT AGAAAAGCAG
    CTGCAAGCAA TCAATGCTAT GATTGATCCT GATGGAACTT TGGAGGCTCT GAACAACATG
    GGATTTCCCA GTGCTATGTT GCCATCTCCA CCGAAACAGA AGTCCAGCCC TGTGAATAAC
    CACCACAGCC CGGGTCAGAC ACCAACACTT GGCCAACCAG AAGCTAGGGC TCTTCATCCT
    GCTGCTGTTT CAGCCGCAGC TGAATTTGAG AATGCTGAAT CTGAGGCTGA TTTCAGTATA
    CATTTCAATA GATTCAACCC CGATGGGGAA GAGGAAGATG TTACAGTACA AGAATGA

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

    RefSeq XP_016858426.1
    CDS889..5565
    Translation

    Target ORF information:

    RefSeq Version XM_017002937.1
    Organism Homo sapiens(human)
    Definition Homo sapiens centrosomal protein 170 (CEP170), transcript variant X16, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017002937.1

    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 AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGCCCT GAAAACCACT CGCTTGCAGA GCGCTGGATC AGCAATGCCT
    ACTAGTTCTT CATTCAAACA CCGGATTAAA GAGCAGGAAG ACTACATCCG AGATTGGACT
    GCTCATCGAG AAGAGATAGC CAGGATCAGC CAAGATCTTG CTCTCATTGC TCGGGAGATC
    AACGATGTAG CAGGAGAGAT AGATTCAGTG ACTTCATCAG GCACTGCCCC TAGTACCACA
    GTAAGCACTG CTGCCACCAC CCCTGGCTCT GCCATAGACA CTAGAGAAGA GGTAGGAGAT
    CTTCATGGAG AAATGCATAA GTTGGTTGAT CGTGTTTTTG ATGAAAGCCT CAACTTCCGA
    AAGATTCCTC CATTAGTTCA TTCCAAAACA CCAGAAGGAA ACAACGGTCG ATCTGGTGAT
    CCAAGACCTC AAGCAGCAGA GCCTCCCGAT CACTTAACAA TTACAAGGCG GAGAACCTGG
    AGCAGGGATG AAGTCATGGG AGATAATCTG CTGCTGTCAT CCGTCTTTCA GTTCTCTAAG
    AAGATAAGAC AATCTATAGA TAAGACAGCT GGAAAGATCA GAATATTATT TAAAGACAAA
    GATCGGAATT GGGATGACAT AGAAAGCAAA TTAAGAGCCG AAAGTGAAGT CCCTATTGTG
    AAAACCTCAA GCATGGAGAT TTCTTCTATC TTACAGGAAC TGAAAAGAGT AGAAAAGCAG
    CTGCAAGCAA TCAATGCTAT GATTGATCCT GATGGAACTT TGGAGGCTCT GAACAACATG
    GGATTTCCCA GTGCTATGTT GCCATCTCCA CCGAAACAGA AGTCCAGCCC TGTGAATAAC
    CACCACAGCC CGGGTCAGAC ACCAACACTT GGCCAACCAG AAGCTAGGGC TCTTCATCCT
    GCTGCTGTTT CAGCCGCAGC TGAATTTGAG AATGCTGAAT CTGAGGCTGA TTTCAGTATA
    CATTTCAATA GATTCAACCC CGATGGGGAA GAGGAAGATG TTACAGTACA AGAATGA

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

    CloneID OHu90870
    Clone ID Related Accession (Same CDS sequence) XM_017002937.1 , XM_017002941.1 , XM_017002941.2 , XM_017002937.2
    Accession Version XM_017002941.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4677bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product 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_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGCCCT GAAAACCACT CGCTTGCAGA GCGCTGGATC AGCAATGCCT
    ACTAGTTCTT CATTCAAACA CCGGATTAAA GAGCAGGAAG ACTACATCCG AGATTGGACT
    GCTCATCGAG AAGAGATAGC CAGGATCAGC CAAGATCTTG CTCTCATTGC TCGGGAGATC
    AACGATGTAG CAGGAGAGAT AGATTCAGTG ACTTCATCAG GCACTGCCCC TAGTACCACA
    GTAAGCACTG CTGCCACCAC CCCTGGCTCT GCCATAGACA CTAGAGAAGA GGTAGGAGAT
    CTTCATGGAG AAATGCATAA GTTGGTTGAT CGTGTTTTTG ATGAAAGCCT CAACTTCCGA
    AAGATTCCTC CATTAGTTCA TTCCAAAACA CCAGAAGGAA ACAACGGTCG ATCTGGTGAT
    CCAAGACCTC AAGCAGCAGA GCCTCCCGAT CACTTAACAA TTACAAGGCG GAGAACCTGG
    AGCAGGGATG AAGTCATGGG AGATAATCTG CTGCTGTCAT CCGTCTTTCA GTTCTCTAAG
    AAGATAAGAC AATCTATAGA TAAGACAGCT GGAAAGATCA GAATATTATT TAAAGACAAA
    GATCGGAATT GGGATGACAT AGAAAGCAAA TTAAGAGCCG AAAGTGAAGT CCCTATTGTG
    AAAACCTCAA GCATGGAGAT TTCTTCTATC TTACAGGAAC TGAAAAGAGT AGAAAAGCAG
    CTGCAAGCAA TCAATGCTAT GATTGATCCT GATGGAACTT TGGAGGCTCT GAACAACATG
    GGATTTCCCA GTGCTATGTT GCCATCTCCA CCGAAACAGA AGTCCAGCCC TGTGAATAAC
    CACCACAGCC CGGGTCAGAC ACCAACACTT GGCCAACCAG AAGCTAGGGC TCTTCATCCT
    GCTGCTGTTT CAGCCGCAGC TGAATTTGAG AATGCTGAAT CTGAGGCTGA TTTCAGTATA
    CATTTCAATA GATTCAACCC CGATGGGGAA GAGGAAGATG TTACAGTACA AGAATGA

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

    RefSeq XP_016858430.1
    CDS709..5385
    Translation

    Target ORF information:

    RefSeq Version XM_017002941.1
    Organism Homo sapiens(human)
    Definition Homo sapiens centrosomal protein 170 (CEP170), transcript variant X20, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017002941.1

    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 AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGCCCT GAAAACCACT CGCTTGCAGA GCGCTGGATC AGCAATGCCT
    ACTAGTTCTT CATTCAAACA CCGGATTAAA GAGCAGGAAG ACTACATCCG AGATTGGACT
    GCTCATCGAG AAGAGATAGC CAGGATCAGC CAAGATCTTG CTCTCATTGC TCGGGAGATC
    AACGATGTAG CAGGAGAGAT AGATTCAGTG ACTTCATCAG GCACTGCCCC TAGTACCACA
    GTAAGCACTG CTGCCACCAC CCCTGGCTCT GCCATAGACA CTAGAGAAGA GGTAGGAGAT
    CTTCATGGAG AAATGCATAA GTTGGTTGAT CGTGTTTTTG ATGAAAGCCT CAACTTCCGA
    AAGATTCCTC CATTAGTTCA TTCCAAAACA CCAGAAGGAA ACAACGGTCG ATCTGGTGAT
    CCAAGACCTC AAGCAGCAGA GCCTCCCGAT CACTTAACAA TTACAAGGCG GAGAACCTGG
    AGCAGGGATG AAGTCATGGG AGATAATCTG CTGCTGTCAT CCGTCTTTCA GTTCTCTAAG
    AAGATAAGAC AATCTATAGA TAAGACAGCT GGAAAGATCA GAATATTATT TAAAGACAAA
    GATCGGAATT GGGATGACAT AGAAAGCAAA TTAAGAGCCG AAAGTGAAGT CCCTATTGTG
    AAAACCTCAA GCATGGAGAT TTCTTCTATC TTACAGGAAC TGAAAAGAGT AGAAAAGCAG
    CTGCAAGCAA TCAATGCTAT GATTGATCCT GATGGAACTT TGGAGGCTCT GAACAACATG
    GGATTTCCCA GTGCTATGTT GCCATCTCCA CCGAAACAGA AGTCCAGCCC TGTGAATAAC
    CACCACAGCC CGGGTCAGAC ACCAACACTT GGCCAACCAG AAGCTAGGGC TCTTCATCCT
    GCTGCTGTTT CAGCCGCAGC TGAATTTGAG AATGCTGAAT CTGAGGCTGA TTTCAGTATA
    CATTTCAATA GATTCAACCC CGATGGGGAA GAGGAAGATG TTACAGTACA AGAATGA

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

    CloneID OHu90870
    Clone ID Related Accession (Same CDS sequence) XM_017002937.1 , XM_017002941.1 , XM_017002941.2 , XM_017002937.2
    Accession Version XM_017002941.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4677bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product 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_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017002941.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGCCCT GAAAACCACT CGCTTGCAGA GCGCTGGATC AGCAATGCCT
    ACTAGTTCTT CATTCAAACA CCGGATTAAA GAGCAGGAAG ACTACATCCG AGATTGGACT
    GCTCATCGAG AAGAGATAGC CAGGATCAGC CAAGATCTTG CTCTCATTGC TCGGGAGATC
    AACGATGTAG CAGGAGAGAT AGATTCAGTG ACTTCATCAG GCACTGCCCC TAGTACCACA
    GTAAGCACTG CTGCCACCAC CCCTGGCTCT GCCATAGACA CTAGAGAAGA GGTAGGAGAT
    CTTCATGGAG AAATGCATAA GTTGGTTGAT CGTGTTTTTG ATGAAAGCCT CAACTTCCGA
    AAGATTCCTC CATTAGTTCA TTCCAAAACA CCAGAAGGAA ACAACGGTCG ATCTGGTGAT
    CCAAGACCTC AAGCAGCAGA GCCTCCCGAT CACTTAACAA TTACAAGGCG GAGAACCTGG
    AGCAGGGATG AAGTCATGGG AGATAATCTG CTGCTGTCAT CCGTCTTTCA GTTCTCTAAG
    AAGATAAGAC AATCTATAGA TAAGACAGCT GGAAAGATCA GAATATTATT TAAAGACAAA
    GATCGGAATT GGGATGACAT AGAAAGCAAA TTAAGAGCCG AAAGTGAAGT CCCTATTGTG
    AAAACCTCAA GCATGGAGAT TTCTTCTATC TTACAGGAAC TGAAAAGAGT AGAAAAGCAG
    CTGCAAGCAA TCAATGCTAT GATTGATCCT GATGGAACTT TGGAGGCTCT GAACAACATG
    GGATTTCCCA GTGCTATGTT GCCATCTCCA CCGAAACAGA AGTCCAGCCC TGTGAATAAC
    CACCACAGCC CGGGTCAGAC ACCAACACTT GGCCAACCAG AAGCTAGGGC TCTTCATCCT
    GCTGCTGTTT CAGCCGCAGC TGAATTTGAG AATGCTGAAT CTGAGGCTGA TTTCAGTATA
    CATTTCAATA GATTCAACCC CGATGGGGAA GAGGAAGATG TTACAGTACA AGAATGA

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

    RefSeq XP_016858430.1
    CDS253..4929
    Translation

    Target ORF information:

    RefSeq Version XM_017002941.2
    Organism Homo sapiens(human)
    Definition Homo sapiens centrosomal protein 170 (CEP170), transcript variant X19, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017002941.2

    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGCCCT GAAAACCACT CGCTTGCAGA GCGCTGGATC AGCAATGCCT
    ACTAGTTCTT CATTCAAACA CCGGATTAAA GAGCAGGAAG ACTACATCCG AGATTGGACT
    GCTCATCGAG AAGAGATAGC CAGGATCAGC CAAGATCTTG CTCTCATTGC TCGGGAGATC
    AACGATGTAG CAGGAGAGAT AGATTCAGTG ACTTCATCAG GCACTGCCCC TAGTACCACA
    GTAAGCACTG CTGCCACCAC CCCTGGCTCT GCCATAGACA CTAGAGAAGA GGTAGGAGAT
    CTTCATGGAG AAATGCATAA GTTGGTTGAT CGTGTTTTTG ATGAAAGCCT CAACTTCCGA
    AAGATTCCTC CATTAGTTCA TTCCAAAACA CCAGAAGGAA ACAACGGTCG ATCTGGTGAT
    CCAAGACCTC AAGCAGCAGA GCCTCCCGAT CACTTAACAA TTACAAGGCG GAGAACCTGG
    AGCAGGGATG AAGTCATGGG AGATAATCTG CTGCTGTCAT CCGTCTTTCA GTTCTCTAAG
    AAGATAAGAC AATCTATAGA TAAGACAGCT GGAAAGATCA GAATATTATT TAAAGACAAA
    GATCGGAATT GGGATGACAT AGAAAGCAAA TTAAGAGCCG AAAGTGAAGT CCCTATTGTG
    AAAACCTCAA GCATGGAGAT TTCTTCTATC TTACAGGAAC TGAAAAGAGT AGAAAAGCAG
    CTGCAAGCAA TCAATGCTAT GATTGATCCT GATGGAACTT TGGAGGCTCT GAACAACATG
    GGATTTCCCA GTGCTATGTT GCCATCTCCA CCGAAACAGA AGTCCAGCCC TGTGAATAAC
    CACCACAGCC CGGGTCAGAC ACCAACACTT GGCCAACCAG AAGCTAGGGC TCTTCATCCT
    GCTGCTGTTT CAGCCGCAGC TGAATTTGAG AATGCTGAAT CTGAGGCTGA TTTCAGTATA
    CATTTCAATA GATTCAACCC CGATGGGGAA GAGGAAGATG TTACAGTACA AGAATGA

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

    CloneID OHu90870
    Clone ID Related Accession (Same CDS sequence) XM_017002937.1 , XM_017002941.1 , XM_017002941.2 , XM_017002937.2
    Accession Version XM_017002937.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4677bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product 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_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017002937.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGCCCT GAAAACCACT CGCTTGCAGA GCGCTGGATC AGCAATGCCT
    ACTAGTTCTT CATTCAAACA CCGGATTAAA GAGCAGGAAG ACTACATCCG AGATTGGACT
    GCTCATCGAG AAGAGATAGC CAGGATCAGC CAAGATCTTG CTCTCATTGC TCGGGAGATC
    AACGATGTAG CAGGAGAGAT AGATTCAGTG ACTTCATCAG GCACTGCCCC TAGTACCACA
    GTAAGCACTG CTGCCACCAC CCCTGGCTCT GCCATAGACA CTAGAGAAGA GGTAGGAGAT
    CTTCATGGAG AAATGCATAA GTTGGTTGAT CGTGTTTTTG ATGAAAGCCT CAACTTCCGA
    AAGATTCCTC CATTAGTTCA TTCCAAAACA CCAGAAGGAA ACAACGGTCG ATCTGGTGAT
    CCAAGACCTC AAGCAGCAGA GCCTCCCGAT CACTTAACAA TTACAAGGCG GAGAACCTGG
    AGCAGGGATG AAGTCATGGG AGATAATCTG CTGCTGTCAT CCGTCTTTCA GTTCTCTAAG
    AAGATAAGAC AATCTATAGA TAAGACAGCT GGAAAGATCA GAATATTATT TAAAGACAAA
    GATCGGAATT GGGATGACAT AGAAAGCAAA TTAAGAGCCG AAAGTGAAGT CCCTATTGTG
    AAAACCTCAA GCATGGAGAT TTCTTCTATC TTACAGGAAC TGAAAAGAGT AGAAAAGCAG
    CTGCAAGCAA TCAATGCTAT GATTGATCCT GATGGAACTT TGGAGGCTCT GAACAACATG
    GGATTTCCCA GTGCTATGTT GCCATCTCCA CCGAAACAGA AGTCCAGCCC TGTGAATAAC
    CACCACAGCC CGGGTCAGAC ACCAACACTT GGCCAACCAG AAGCTAGGGC TCTTCATCCT
    GCTGCTGTTT CAGCCGCAGC TGAATTTGAG AATGCTGAAT CTGAGGCTGA TTTCAGTATA
    CATTTCAATA GATTCAACCC CGATGGGGAA GAGGAAGATG TTACAGTACA AGAATGA

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

    RefSeq XP_016858426.1
    CDS788..5464
    Translation

    Target ORF information:

    RefSeq Version XM_017002937.2
    Organism Homo sapiens(human)
    Definition Homo sapiens centrosomal protein 170 (CEP170), transcript variant X18, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017002937.2

    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGCCCT GAAAACCACT CGCTTGCAGA GCGCTGGATC AGCAATGCCT
    ACTAGTTCTT CATTCAAACA CCGGATTAAA GAGCAGGAAG ACTACATCCG AGATTGGACT
    GCTCATCGAG AAGAGATAGC CAGGATCAGC CAAGATCTTG CTCTCATTGC TCGGGAGATC
    AACGATGTAG CAGGAGAGAT AGATTCAGTG ACTTCATCAG GCACTGCCCC TAGTACCACA
    GTAAGCACTG CTGCCACCAC CCCTGGCTCT GCCATAGACA CTAGAGAAGA GGTAGGAGAT
    CTTCATGGAG AAATGCATAA GTTGGTTGAT CGTGTTTTTG ATGAAAGCCT CAACTTCCGA
    AAGATTCCTC CATTAGTTCA TTCCAAAACA CCAGAAGGAA ACAACGGTCG ATCTGGTGAT
    CCAAGACCTC AAGCAGCAGA GCCTCCCGAT CACTTAACAA TTACAAGGCG GAGAACCTGG
    AGCAGGGATG AAGTCATGGG AGATAATCTG CTGCTGTCAT CCGTCTTTCA GTTCTCTAAG
    AAGATAAGAC AATCTATAGA TAAGACAGCT GGAAAGATCA GAATATTATT TAAAGACAAA
    GATCGGAATT GGGATGACAT AGAAAGCAAA TTAAGAGCCG AAAGTGAAGT CCCTATTGTG
    AAAACCTCAA GCATGGAGAT TTCTTCTATC TTACAGGAAC TGAAAAGAGT AGAAAAGCAG
    CTGCAAGCAA TCAATGCTAT GATTGATCCT GATGGAACTT TGGAGGCTCT GAACAACATG
    GGATTTCCCA GTGCTATGTT GCCATCTCCA CCGAAACAGA AGTCCAGCCC TGTGAATAAC
    CACCACAGCC CGGGTCAGAC ACCAACACTT GGCCAACCAG AAGCTAGGGC TCTTCATCCT
    GCTGCTGTTT CAGCCGCAGC TGAATTTGAG AATGCTGAAT CTGAGGCTGA TTTCAGTATA
    CATTTCAATA GATTCAACCC CGATGGGGAA GAGGAAGATG TTACAGTACA AGAATGA

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

    CloneID OHu90871
    Clone ID Related Accession (Same CDS sequence) XM_017002938.1 , XM_017002938.2
    Accession Version XM_017002938.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4647bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product 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_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGCCCT GAAAACCACT CGCTTGCAGA GCGCTGGATC AGCAATGCCT
    ACTAGTTCTT CATTCAAACA CCGGATTAAA GAGCAGGAAG ACTACATCCG AGATTGGACT
    GCTCATCGAG AAGAGATAGC CAGGATCAGC CAAGATCTTG CTCTCATTGC TCGGGAGATC
    AACGATGTAG CAGGAGAGAT AGATTCAGTG ACTTCATCAG GCACTGCCCC TAGTACCACA
    GTAAGCACTG CTGCCACCAC CCCTGGCTCT GCCATAGACA CTAGAGAAGA GTTGGTTGAT
    CGTGTTTTTG ATGAAAGCCT CAACTTCCGA AAGATTCCTC CATTAGTTCA TTCCAAAACA
    CCAGAAGGAA ACAACGGTCG ATCTGGTGAT CCAAGACCTC AAGCAGCAGA GCCTCCCGAT
    CACTTAACAA TTACAAGGCG GAGAACCTGG AGCAGGGATG AAGTCATGGG AGATAATCTG
    CTGCTGTCAT CCGTCTTTCA GTTCTCTAAG AAGATAAGAC AATCTATAGA TAAGACAGCT
    GGAAAGATCA GAATATTATT TAAAGACAAA GATCGGAATT GGGATGACAT AGAAAGCAAA
    TTAAGAGCCG AAAGTGAAGT CCCTATTGTG AAAACCTCAA GCATGGAGAT TTCTTCTATC
    TTACAGGAAC TGAAAAGAGT AGAAAAGCAG CTGCAAGCAA TCAATGCTAT GATTGATCCT
    GATGGAACTT TGGAGGCTCT GAACAACATG GGATTTCCCA GTGCTATGTT GCCATCTCCA
    CCGAAACAGA AGTCCAGCCC TGTGAATAAC CACCACAGCC CGGGTCAGAC ACCAACACTT
    GGCCAACCAG AAGCTAGGGC TCTTCATCCT GCTGCTGTTT CAGCCGCAGC TGAATTTGAG
    AATGCTGAAT CTGAGGCTGA TTTCAGTATA CATTTCAATA GATTCAACCC CGATGGGGAA
    GAGGAAGATG TTACAGTACA AGAATGA

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

    RefSeq XP_016858427.1
    CDS889..5535
    Translation

    Target ORF information:

    RefSeq Version XM_017002938.1
    Organism Homo sapiens(human)
    Definition Homo sapiens centrosomal protein 170 (CEP170), transcript variant X17, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017002938.1

    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 AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGCCCT GAAAACCACT CGCTTGCAGA GCGCTGGATC AGCAATGCCT
    ACTAGTTCTT CATTCAAACA CCGGATTAAA GAGCAGGAAG ACTACATCCG AGATTGGACT
    GCTCATCGAG AAGAGATAGC CAGGATCAGC CAAGATCTTG CTCTCATTGC TCGGGAGATC
    AACGATGTAG CAGGAGAGAT AGATTCAGTG ACTTCATCAG GCACTGCCCC TAGTACCACA
    GTAAGCACTG CTGCCACCAC CCCTGGCTCT GCCATAGACA CTAGAGAAGA GTTGGTTGAT
    CGTGTTTTTG ATGAAAGCCT CAACTTCCGA AAGATTCCTC CATTAGTTCA TTCCAAAACA
    CCAGAAGGAA ACAACGGTCG ATCTGGTGAT CCAAGACCTC AAGCAGCAGA GCCTCCCGAT
    CACTTAACAA TTACAAGGCG GAGAACCTGG AGCAGGGATG AAGTCATGGG AGATAATCTG
    CTGCTGTCAT CCGTCTTTCA GTTCTCTAAG AAGATAAGAC AATCTATAGA TAAGACAGCT
    GGAAAGATCA GAATATTATT TAAAGACAAA GATCGGAATT GGGATGACAT AGAAAGCAAA
    TTAAGAGCCG AAAGTGAAGT CCCTATTGTG AAAACCTCAA GCATGGAGAT TTCTTCTATC
    TTACAGGAAC TGAAAAGAGT AGAAAAGCAG CTGCAAGCAA TCAATGCTAT GATTGATCCT
    GATGGAACTT TGGAGGCTCT GAACAACATG GGATTTCCCA GTGCTATGTT GCCATCTCCA
    CCGAAACAGA AGTCCAGCCC TGTGAATAAC CACCACAGCC CGGGTCAGAC ACCAACACTT
    GGCCAACCAG AAGCTAGGGC TCTTCATCCT GCTGCTGTTT CAGCCGCAGC TGAATTTGAG
    AATGCTGAAT CTGAGGCTGA TTTCAGTATA CATTTCAATA GATTCAACCC CGATGGGGAA
    GAGGAAGATG TTACAGTACA AGAATGA

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

    CloneID OHu90871
    Clone ID Related Accession (Same CDS sequence) XM_017002938.1 , XM_017002938.2
    Accession Version XM_017002938.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4647bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product 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_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017002938.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGCCCT GAAAACCACT CGCTTGCAGA GCGCTGGATC AGCAATGCCT
    ACTAGTTCTT CATTCAAACA CCGGATTAAA GAGCAGGAAG ACTACATCCG AGATTGGACT
    GCTCATCGAG AAGAGATAGC CAGGATCAGC CAAGATCTTG CTCTCATTGC TCGGGAGATC
    AACGATGTAG CAGGAGAGAT AGATTCAGTG ACTTCATCAG GCACTGCCCC TAGTACCACA
    GTAAGCACTG CTGCCACCAC CCCTGGCTCT GCCATAGACA CTAGAGAAGA GTTGGTTGAT
    CGTGTTTTTG ATGAAAGCCT CAACTTCCGA AAGATTCCTC CATTAGTTCA TTCCAAAACA
    CCAGAAGGAA ACAACGGTCG ATCTGGTGAT CCAAGACCTC AAGCAGCAGA GCCTCCCGAT
    CACTTAACAA TTACAAGGCG GAGAACCTGG AGCAGGGATG AAGTCATGGG AGATAATCTG
    CTGCTGTCAT CCGTCTTTCA GTTCTCTAAG AAGATAAGAC AATCTATAGA TAAGACAGCT
    GGAAAGATCA GAATATTATT TAAAGACAAA GATCGGAATT GGGATGACAT AGAAAGCAAA
    TTAAGAGCCG AAAGTGAAGT CCCTATTGTG AAAACCTCAA GCATGGAGAT TTCTTCTATC
    TTACAGGAAC TGAAAAGAGT AGAAAAGCAG CTGCAAGCAA TCAATGCTAT GATTGATCCT
    GATGGAACTT TGGAGGCTCT GAACAACATG GGATTTCCCA GTGCTATGTT GCCATCTCCA
    CCGAAACAGA AGTCCAGCCC TGTGAATAAC CACCACAGCC CGGGTCAGAC ACCAACACTT
    GGCCAACCAG AAGCTAGGGC TCTTCATCCT GCTGCTGTTT CAGCCGCAGC TGAATTTGAG
    AATGCTGAAT CTGAGGCTGA TTTCAGTATA CATTTCAATA GATTCAACCC CGATGGGGAA
    GAGGAAGATG TTACAGTACA AGAATGA

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

    RefSeq XP_016858427.1
    CDS788..5434
    Translation

    Target ORF information:

    RefSeq Version XM_017002938.2
    Organism Homo sapiens(human)
    Definition Homo sapiens centrosomal protein 170 (CEP170), transcript variant X20, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017002938.2

    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGCCCT GAAAACCACT CGCTTGCAGA GCGCTGGATC AGCAATGCCT
    ACTAGTTCTT CATTCAAACA CCGGATTAAA GAGCAGGAAG ACTACATCCG AGATTGGACT
    GCTCATCGAG AAGAGATAGC CAGGATCAGC CAAGATCTTG CTCTCATTGC TCGGGAGATC
    AACGATGTAG CAGGAGAGAT AGATTCAGTG ACTTCATCAG GCACTGCCCC TAGTACCACA
    GTAAGCACTG CTGCCACCAC CCCTGGCTCT GCCATAGACA CTAGAGAAGA GTTGGTTGAT
    CGTGTTTTTG ATGAAAGCCT CAACTTCCGA AAGATTCCTC CATTAGTTCA TTCCAAAACA
    CCAGAAGGAA ACAACGGTCG ATCTGGTGAT CCAAGACCTC AAGCAGCAGA GCCTCCCGAT
    CACTTAACAA TTACAAGGCG GAGAACCTGG AGCAGGGATG AAGTCATGGG AGATAATCTG
    CTGCTGTCAT CCGTCTTTCA GTTCTCTAAG AAGATAAGAC AATCTATAGA TAAGACAGCT
    GGAAAGATCA GAATATTATT TAAAGACAAA GATCGGAATT GGGATGACAT AGAAAGCAAA
    TTAAGAGCCG AAAGTGAAGT CCCTATTGTG AAAACCTCAA GCATGGAGAT TTCTTCTATC
    TTACAGGAAC TGAAAAGAGT AGAAAAGCAG CTGCAAGCAA TCAATGCTAT GATTGATCCT
    GATGGAACTT TGGAGGCTCT GAACAACATG GGATTTCCCA GTGCTATGTT GCCATCTCCA
    CCGAAACAGA AGTCCAGCCC TGTGAATAAC CACCACAGCC CGGGTCAGAC ACCAACACTT
    GGCCAACCAG AAGCTAGGGC TCTTCATCCT GCTGCTGTTT CAGCCGCAGC TGAATTTGAG
    AATGCTGAAT CTGAGGCTGA TTTCAGTATA CATTTCAATA GATTCAACCC CGATGGGGAA
    GAGGAAGATG TTACAGTACA AGAATGA

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

    CloneID OHu90872
    Clone ID Related Accession (Same CDS sequence) XM_017002942.1 , XM_017002943.1 , XM_017002942.2 , XM_017002943.2
    Accession Version XM_017002942.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4596bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product centrosomal protein of 170 kDa isoform X12
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGCCCT GAAAACCACT CGCTTGCAGA GCGCTGGATC AGCAATGCCT
    ACTAGTTCTT CATTCAAACA CCGGATTAAA GAGCAGGAAG ACTACATCCG AGATTGGACT
    GCTCATCGAG AAGAGATAGC CAGGATCAGC CAAGATCTTG CTCTCATTGC TCGGGAGATC
    AACGATGTAG CAGGAGAGAT AGATTCAGTG ACTTCATCAG GCACTGCCCC TAGTACCACA
    TTGGTTGATC GTGTTTTTGA TGAAAGCCTC AACTTCCGAA AGATTCCTCC ATTAGTTCAT
    TCCAAAACAC CAGAAGGAAA CAACGGTCGA TCTGGTGATC CAAGACCTCA AGCAGCAGAG
    CCTCCCGATC ACTTAACAAT TACAAGGCGG AGAACCTGGA GCAGGGATGA AGTCATGGGA
    GATAATCTGC TGCTGTCATC CGTCTTTCAG TTCTCTAAGA AGATAAGACA ATCTATAGAT
    AAGACAGCTG GAAAGATCAG AATATTATTT AAAGACAAAG ATCGGAATTG GGATGACATA
    GAAAGCAAAT TAAGAGCCGA AAGTGAAGTC CCTATTGTGA AAACCTCAAG CATGGAGATT
    TCTTCTATCT TACAGGAACT GAAAAGAGTA GAAAAGCAGC TGCAAGCAAT CAATGCTATG
    ATTGATCCTG ATGGAACTTT GGAGGCTCTG AACAACATGG GATTTCCCAG TGCTATGTTG
    CCATCTCCAC CGAAACAGAA GTCCAGCCCT GTGAATAACC ACCACAGCCC GGGTCAGACA
    CCAACACTTG GCCAACCAGA AGCTAGGGCT CTTCATCCTG CTGCTGTTTC AGCCGCAGCT
    GAATTTGAGA ATGCTGAATC TGAGGCTGAT TTCAGTATAC ATTTCAATAG ATTCAACCCC
    GATGGGGAAG AGGAAGATGT TACAGTACAA GAATGA

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

    RefSeq XP_016858431.1
    CDS889..5484
    Translation

    Target ORF information:

    RefSeq Version XM_017002942.1
    Organism Homo sapiens(human)
    Definition Homo sapiens centrosomal protein 170 (CEP170), transcript variant X21, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017002942.1

    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 AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGCCCT GAAAACCACT CGCTTGCAGA GCGCTGGATC AGCAATGCCT
    ACTAGTTCTT CATTCAAACA CCGGATTAAA GAGCAGGAAG ACTACATCCG AGATTGGACT
    GCTCATCGAG AAGAGATAGC CAGGATCAGC CAAGATCTTG CTCTCATTGC TCGGGAGATC
    AACGATGTAG CAGGAGAGAT AGATTCAGTG ACTTCATCAG GCACTGCCCC TAGTACCACA
    TTGGTTGATC GTGTTTTTGA TGAAAGCCTC AACTTCCGAA AGATTCCTCC ATTAGTTCAT
    TCCAAAACAC CAGAAGGAAA CAACGGTCGA TCTGGTGATC CAAGACCTCA AGCAGCAGAG
    CCTCCCGATC ACTTAACAAT TACAAGGCGG AGAACCTGGA GCAGGGATGA AGTCATGGGA
    GATAATCTGC TGCTGTCATC CGTCTTTCAG TTCTCTAAGA AGATAAGACA ATCTATAGAT
    AAGACAGCTG GAAAGATCAG AATATTATTT AAAGACAAAG ATCGGAATTG GGATGACATA
    GAAAGCAAAT TAAGAGCCGA AAGTGAAGTC CCTATTGTGA AAACCTCAAG CATGGAGATT
    TCTTCTATCT TACAGGAACT GAAAAGAGTA GAAAAGCAGC TGCAAGCAAT CAATGCTATG
    ATTGATCCTG ATGGAACTTT GGAGGCTCTG AACAACATGG GATTTCCCAG TGCTATGTTG
    CCATCTCCAC CGAAACAGAA GTCCAGCCCT GTGAATAACC ACCACAGCCC GGGTCAGACA
    CCAACACTTG GCCAACCAGA AGCTAGGGCT CTTCATCCTG CTGCTGTTTC AGCCGCAGCT
    GAATTTGAGA ATGCTGAATC TGAGGCTGAT TTCAGTATAC ATTTCAATAG ATTCAACCCC
    GATGGGGAAG AGGAAGATGT TACAGTACAA GAATGA

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

    CloneID OHu90872
    Clone ID Related Accession (Same CDS sequence) XM_017002942.1 , XM_017002943.1 , XM_017002942.2 , XM_017002943.2
    Accession Version XM_017002943.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4596bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product centrosomal protein of 170 kDa isoform X12
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGCCCT GAAAACCACT CGCTTGCAGA GCGCTGGATC AGCAATGCCT
    ACTAGTTCTT CATTCAAACA CCGGATTAAA GAGCAGGAAG ACTACATCCG AGATTGGACT
    GCTCATCGAG AAGAGATAGC CAGGATCAGC CAAGATCTTG CTCTCATTGC TCGGGAGATC
    AACGATGTAG CAGGAGAGAT AGATTCAGTG ACTTCATCAG GCACTGCCCC TAGTACCACA
    TTGGTTGATC GTGTTTTTGA TGAAAGCCTC AACTTCCGAA AGATTCCTCC ATTAGTTCAT
    TCCAAAACAC CAGAAGGAAA CAACGGTCGA TCTGGTGATC CAAGACCTCA AGCAGCAGAG
    CCTCCCGATC ACTTAACAAT TACAAGGCGG AGAACCTGGA GCAGGGATGA AGTCATGGGA
    GATAATCTGC TGCTGTCATC CGTCTTTCAG TTCTCTAAGA AGATAAGACA ATCTATAGAT
    AAGACAGCTG GAAAGATCAG AATATTATTT AAAGACAAAG ATCGGAATTG GGATGACATA
    GAAAGCAAAT TAAGAGCCGA AAGTGAAGTC CCTATTGTGA AAACCTCAAG CATGGAGATT
    TCTTCTATCT TACAGGAACT GAAAAGAGTA GAAAAGCAGC TGCAAGCAAT CAATGCTATG
    ATTGATCCTG ATGGAACTTT GGAGGCTCTG AACAACATGG GATTTCCCAG TGCTATGTTG
    CCATCTCCAC CGAAACAGAA GTCCAGCCCT GTGAATAACC ACCACAGCCC GGGTCAGACA
    CCAACACTTG GCCAACCAGA AGCTAGGGCT CTTCATCCTG CTGCTGTTTC AGCCGCAGCT
    GAATTTGAGA ATGCTGAATC TGAGGCTGAT TTCAGTATAC ATTTCAATAG ATTCAACCCC
    GATGGGGAAG AGGAAGATGT TACAGTACAA GAATGA

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

    RefSeq XP_016858432.1
    CDS709..5304
    Translation

    Target ORF information:

    RefSeq Version XM_017002943.1
    Organism Homo sapiens(human)
    Definition Homo sapiens centrosomal protein 170 (CEP170), transcript variant X22, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017002943.1

    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 AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGCCCT GAAAACCACT CGCTTGCAGA GCGCTGGATC AGCAATGCCT
    ACTAGTTCTT CATTCAAACA CCGGATTAAA GAGCAGGAAG ACTACATCCG AGATTGGACT
    GCTCATCGAG AAGAGATAGC CAGGATCAGC CAAGATCTTG CTCTCATTGC TCGGGAGATC
    AACGATGTAG CAGGAGAGAT AGATTCAGTG ACTTCATCAG GCACTGCCCC TAGTACCACA
    TTGGTTGATC GTGTTTTTGA TGAAAGCCTC AACTTCCGAA AGATTCCTCC ATTAGTTCAT
    TCCAAAACAC CAGAAGGAAA CAACGGTCGA TCTGGTGATC CAAGACCTCA AGCAGCAGAG
    CCTCCCGATC ACTTAACAAT TACAAGGCGG AGAACCTGGA GCAGGGATGA AGTCATGGGA
    GATAATCTGC TGCTGTCATC CGTCTTTCAG TTCTCTAAGA AGATAAGACA ATCTATAGAT
    AAGACAGCTG GAAAGATCAG AATATTATTT AAAGACAAAG ATCGGAATTG GGATGACATA
    GAAAGCAAAT TAAGAGCCGA AAGTGAAGTC CCTATTGTGA AAACCTCAAG CATGGAGATT
    TCTTCTATCT TACAGGAACT GAAAAGAGTA GAAAAGCAGC TGCAAGCAAT CAATGCTATG
    ATTGATCCTG ATGGAACTTT GGAGGCTCTG AACAACATGG GATTTCCCAG TGCTATGTTG
    CCATCTCCAC CGAAACAGAA GTCCAGCCCT GTGAATAACC ACCACAGCCC GGGTCAGACA
    CCAACACTTG GCCAACCAGA AGCTAGGGCT CTTCATCCTG CTGCTGTTTC AGCCGCAGCT
    GAATTTGAGA ATGCTGAATC TGAGGCTGAT TTCAGTATAC ATTTCAATAG ATTCAACCCC
    GATGGGGAAG AGGAAGATGT TACAGTACAA GAATGA

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

    CloneID OHu90872
    Clone ID Related Accession (Same CDS sequence) XM_017002942.1 , XM_017002943.1 , XM_017002942.2 , XM_017002943.2
    Accession Version XM_017002942.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4596bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product centrosomal protein of 170 kDa isoform X12
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017002942.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGCCCT GAAAACCACT CGCTTGCAGA GCGCTGGATC AGCAATGCCT
    ACTAGTTCTT CATTCAAACA CCGGATTAAA GAGCAGGAAG ACTACATCCG AGATTGGACT
    GCTCATCGAG AAGAGATAGC CAGGATCAGC CAAGATCTTG CTCTCATTGC TCGGGAGATC
    AACGATGTAG CAGGAGAGAT AGATTCAGTG ACTTCATCAG GCACTGCCCC TAGTACCACA
    TTGGTTGATC GTGTTTTTGA TGAAAGCCTC AACTTCCGAA AGATTCCTCC ATTAGTTCAT
    TCCAAAACAC CAGAAGGAAA CAACGGTCGA TCTGGTGATC CAAGACCTCA AGCAGCAGAG
    CCTCCCGATC ACTTAACAAT TACAAGGCGG AGAACCTGGA GCAGGGATGA AGTCATGGGA
    GATAATCTGC TGCTGTCATC CGTCTTTCAG TTCTCTAAGA AGATAAGACA ATCTATAGAT
    AAGACAGCTG GAAAGATCAG AATATTATTT AAAGACAAAG ATCGGAATTG GGATGACATA
    GAAAGCAAAT TAAGAGCCGA AAGTGAAGTC CCTATTGTGA AAACCTCAAG CATGGAGATT
    TCTTCTATCT TACAGGAACT GAAAAGAGTA GAAAAGCAGC TGCAAGCAAT CAATGCTATG
    ATTGATCCTG ATGGAACTTT GGAGGCTCTG AACAACATGG GATTTCCCAG TGCTATGTTG
    CCATCTCCAC CGAAACAGAA GTCCAGCCCT GTGAATAACC ACCACAGCCC GGGTCAGACA
    CCAACACTTG GCCAACCAGA AGCTAGGGCT CTTCATCCTG CTGCTGTTTC AGCCGCAGCT
    GAATTTGAGA ATGCTGAATC TGAGGCTGAT TTCAGTATAC ATTTCAATAG ATTCAACCCC
    GATGGGGAAG AGGAAGATGT TACAGTACAA GAATGA

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

    RefSeq XP_016858431.1
    CDS788..5383
    Translation

    Target ORF information:

    RefSeq Version XM_017002942.2
    Organism Homo sapiens(human)
    Definition Homo sapiens centrosomal protein 170 (CEP170), transcript variant X21, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017002942.2

    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGCCCT GAAAACCACT CGCTTGCAGA GCGCTGGATC AGCAATGCCT
    ACTAGTTCTT CATTCAAACA CCGGATTAAA GAGCAGGAAG ACTACATCCG AGATTGGACT
    GCTCATCGAG AAGAGATAGC CAGGATCAGC CAAGATCTTG CTCTCATTGC TCGGGAGATC
    AACGATGTAG CAGGAGAGAT AGATTCAGTG ACTTCATCAG GCACTGCCCC TAGTACCACA
    TTGGTTGATC GTGTTTTTGA TGAAAGCCTC AACTTCCGAA AGATTCCTCC ATTAGTTCAT
    TCCAAAACAC CAGAAGGAAA CAACGGTCGA TCTGGTGATC CAAGACCTCA AGCAGCAGAG
    CCTCCCGATC ACTTAACAAT TACAAGGCGG AGAACCTGGA GCAGGGATGA AGTCATGGGA
    GATAATCTGC TGCTGTCATC CGTCTTTCAG TTCTCTAAGA AGATAAGACA ATCTATAGAT
    AAGACAGCTG GAAAGATCAG AATATTATTT AAAGACAAAG ATCGGAATTG GGATGACATA
    GAAAGCAAAT TAAGAGCCGA AAGTGAAGTC CCTATTGTGA AAACCTCAAG CATGGAGATT
    TCTTCTATCT TACAGGAACT GAAAAGAGTA GAAAAGCAGC TGCAAGCAAT CAATGCTATG
    ATTGATCCTG ATGGAACTTT GGAGGCTCTG AACAACATGG GATTTCCCAG TGCTATGTTG
    CCATCTCCAC CGAAACAGAA GTCCAGCCCT GTGAATAACC ACCACAGCCC GGGTCAGACA
    CCAACACTTG GCCAACCAGA AGCTAGGGCT CTTCATCCTG CTGCTGTTTC AGCCGCAGCT
    GAATTTGAGA ATGCTGAATC TGAGGCTGAT TTCAGTATAC ATTTCAATAG ATTCAACCCC
    GATGGGGAAG AGGAAGATGT TACAGTACAA GAATGA

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

    CloneID OHu90872
    Clone ID Related Accession (Same CDS sequence) XM_017002942.1 , XM_017002943.1 , XM_017002942.2 , XM_017002943.2
    Accession Version XM_017002943.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4596bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product centrosomal protein of 170 kDa isoform X12
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017002943.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGCCCT GAAAACCACT CGCTTGCAGA GCGCTGGATC AGCAATGCCT
    ACTAGTTCTT CATTCAAACA CCGGATTAAA GAGCAGGAAG ACTACATCCG AGATTGGACT
    GCTCATCGAG AAGAGATAGC CAGGATCAGC CAAGATCTTG CTCTCATTGC TCGGGAGATC
    AACGATGTAG CAGGAGAGAT AGATTCAGTG ACTTCATCAG GCACTGCCCC TAGTACCACA
    TTGGTTGATC GTGTTTTTGA TGAAAGCCTC AACTTCCGAA AGATTCCTCC ATTAGTTCAT
    TCCAAAACAC CAGAAGGAAA CAACGGTCGA TCTGGTGATC CAAGACCTCA AGCAGCAGAG
    CCTCCCGATC ACTTAACAAT TACAAGGCGG AGAACCTGGA GCAGGGATGA AGTCATGGGA
    GATAATCTGC TGCTGTCATC CGTCTTTCAG TTCTCTAAGA AGATAAGACA ATCTATAGAT
    AAGACAGCTG GAAAGATCAG AATATTATTT AAAGACAAAG ATCGGAATTG GGATGACATA
    GAAAGCAAAT TAAGAGCCGA AAGTGAAGTC CCTATTGTGA AAACCTCAAG CATGGAGATT
    TCTTCTATCT TACAGGAACT GAAAAGAGTA GAAAAGCAGC TGCAAGCAAT CAATGCTATG
    ATTGATCCTG ATGGAACTTT GGAGGCTCTG AACAACATGG GATTTCCCAG TGCTATGTTG
    CCATCTCCAC CGAAACAGAA GTCCAGCCCT GTGAATAACC ACCACAGCCC GGGTCAGACA
    CCAACACTTG GCCAACCAGA AGCTAGGGCT CTTCATCCTG CTGCTGTTTC AGCCGCAGCT
    GAATTTGAGA ATGCTGAATC TGAGGCTGAT TTCAGTATAC ATTTCAATAG ATTCAACCCC
    GATGGGGAAG AGGAAGATGT TACAGTACAA GAATGA

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

    RefSeq XP_016858432.1
    CDS331..4926
    Translation

    Target ORF information:

    RefSeq Version XM_017002943.2
    Organism Homo sapiens(human)
    Definition Homo sapiens centrosomal protein 170 (CEP170), transcript variant X22, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017002943.2

    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
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGCCCT GAAAACCACT CGCTTGCAGA GCGCTGGATC AGCAATGCCT
    ACTAGTTCTT CATTCAAACA CCGGATTAAA GAGCAGGAAG ACTACATCCG AGATTGGACT
    GCTCATCGAG AAGAGATAGC CAGGATCAGC CAAGATCTTG CTCTCATTGC TCGGGAGATC
    AACGATGTAG CAGGAGAGAT AGATTCAGTG ACTTCATCAG GCACTGCCCC TAGTACCACA
    TTGGTTGATC GTGTTTTTGA TGAAAGCCTC AACTTCCGAA AGATTCCTCC ATTAGTTCAT
    TCCAAAACAC CAGAAGGAAA CAACGGTCGA TCTGGTGATC CAAGACCTCA AGCAGCAGAG
    CCTCCCGATC ACTTAACAAT TACAAGGCGG AGAACCTGGA GCAGGGATGA AGTCATGGGA
    GATAATCTGC TGCTGTCATC CGTCTTTCAG TTCTCTAAGA AGATAAGACA ATCTATAGAT
    AAGACAGCTG GAAAGATCAG AATATTATTT AAAGACAAAG ATCGGAATTG GGATGACATA
    GAAAGCAAAT TAAGAGCCGA AAGTGAAGTC CCTATTGTGA AAACCTCAAG CATGGAGATT
    TCTTCTATCT TACAGGAACT GAAAAGAGTA GAAAAGCAGC TGCAAGCAAT CAATGCTATG
    ATTGATCCTG ATGGAACTTT GGAGGCTCTG AACAACATGG GATTTCCCAG TGCTATGTTG
    CCATCTCCAC CGAAACAGAA GTCCAGCCCT GTGAATAACC ACCACAGCCC GGGTCAGACA
    CCAACACTTG GCCAACCAGA AGCTAGGGCT CTTCATCCTG CTGCTGTTTC AGCCGCAGCT
    GAATTTGAGA ATGCTGAATC TGAGGCTGAT TTCAGTATAC ATTTCAATAG ATTCAACCCC
    GATGGGGAAG AGGAAGATGT TACAGTACAA GAATGA

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

    CloneID OHu17291
    Clone ID Related Accession (Same CDS sequence) NM_001042404.1
    Accession Version NM_001042404.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4461bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-26
    Organism Homo sapiens(human)
    Product centrosomal protein of 170 kDa isoform beta
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from BP349680.1, BP349206.1, AB022658.1, AC092782.2, AL606534.15 and CB410835.1. Transcript Variant: This variant (beta, also known as 2) lacks an alternate in-frame exon, compared to variant alpha, resulting in a shorter protein (isoform beta), compared to isoform alpha. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803611.44582.1, SRR1803614.210109.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTGTGTTTGG AGTAGATGAC AATCAGGATT ATAATAGGCC TGTTATCAAC
    GAAAAACATA AAGATCTAAT AAAAGATTGG GCTCTCAGTT CTGCTGCAGC AGTAATGGAA
    GAAAGAAAAC CACTGACTAC ATCTGGATTT CACCACTCAG AGGAAGGCAC ATCTTCATCT
    GGAAGCAAAC GTTGGGTTTC ACAGTGGGCT AGTTTGGCTG CCAATCATAC AAGGCATGAT
    CAAGAAGAAA GGATAATGGA ATTTTCTGCA CCTCTTCCTT TAGAGAATGA GACAGAGATC
    AGTGAGTCTG GCATGACAGT GAGAAGTACT GGCTCTGCAA CTTCCTTGGC TAGCCAGGGA
    GAGAGAAGGA GACGAACTCT TCCCCAGCTT CCAAATGAAG AAAAGTCTCT TGAGAGCCAC
    AGAGCAAAGG TTGTAACACA GAGGTCAGAG ATAGGAGAAA AACAAGACAC AGAACTTCAG
    GAGAAAGAAA CACCTACACA GGTATACCAG AAAGATAAAC AAGATGCTGA CAGACCCTTG
    AGTAAAATGA ACAGGGCAGT AAATGGAGAG ACTCTCAAAA CTGGTGGAGA TAATAAAACC
    CTACTTCACT TAGGCAGCTC TGCTCCTGGA AAAGAGAAAA GTGAAACTGA TAAGGAAACT
    TCTTTGGTAA AGCAAACATT AGCAAAACTT CAACAACAAG AACAAAGGGA GGAGGCTCAG
    TGGACACCTA CTAAATTGTC TTCCAAAAAT GTTTCAGGTC AGACAGATAA ATGTAGGGAG
    GAAACTTTTA AACAAGAATC ACAACCTCCA GAAAAAAATT CAGGACATTC TACAAGCAAA
    GGAGACAGAG TGGCACAAAG TGAGAGCAAG AGAAGAAAAG CTGAGGAAAT TCTGAAAAGT
    CAGACTCCAA AGGGAGGAGA CAAGAAGGAA TCCTCCAAGT CATTAGTGCG ACAAGGGAGC
    TTCACTATAG AAAAACCCAG CCCAAACATA CCCATAGAAC TTATTCCCCA TATAAATAAA
    CAGACTTCCT CTACTCCTTC TTCTTTAGCA TTAACATCTG CAAGTAGAAT ACGAGAAAGA
    AGTGAGTCTT TGGATCCTGA TTCTAGTATG GACACAACCC TTATTCTAAA AGACACAGAA
    GCAGTAATGG CTTTTCTAGA AGCTAAACTA CGTGAAGATA ATAAAACTGA TGAAGGACCA
    GATACTCCCA GTTATAATAG AGACAATTCT ATTTCACCAG AATCTGATGT AGATACAGCT
    AGTACAATCA GTCTGGTTAC TGGAGAAACT GAAAGAAAGT CAACCCAAAA GCGAAAGAGT
    TTCACTAGCC TCTATAAAGA TAGGTGTTCC ACAGGTTCTC CTTCCAAAGA TGTTACAAAA
    TCATCATCTT CAGGTGCTAG GGAAAAAATG GAAAAGAAAA CAAAAAGTCG TTCCACAGAT
    GTGGGTTCAA GAGCAGATGG TCGTAAATTT GTTCAGTCCA GTGGGAGAAT AAGACAGCCC
    TCAGTAGACT TAACAGATGA TGACCAAACC TCTAGTGTAC CTCATTCTGC CATCTCTGAT
    ATTATGTCAT CTGATCAAGA AACTTACTCT TGTAAACCTC ATGGACGGAC TCCACTTACC
    TCAGCTGATG AGCATGTACA TTCCAAACTG GAAGGAAGTA AAGTAACGAA ATCTAAGACT
    TCTCCGGTGG TATCTGGTTC ATCTAGTAAA TCAACCACCC TTCCAAGGCC ACGACCTACC
    AGGACTTCCC TCTTGCGCAG AGCACGACTT GGTGAAGCTT CAGACAGTGA ACTTGCTGAT
    GCTGACAAAG CATCTGTTGC TTCTGAAGTA TCCACAACAA GTTCTACATC AAAACCTCCC
    ACAGGAAGGC GTAACATCTC TCGGATTGAT TTATTGGCTC AGCCTCGTAG AACACGACTT
    GGCTCACTGT CAGCTCGTAG TGACTCTGAA GCAACAATTT CTAGAAGTAG TGCCTCTTCG
    AGGACCGCAG AAGCCATCAT TAGAAGTGGA GCCAGACTAG TACCATCAGA TAAATTTTCT
    CCTAGAATTA GAGCTAACAG TATCTCTCGA CTCTCAGACT CCAAGGTCAA AAGTATGACC
    TCAGCTCATG GCTCTGCTTC AGTAAATTCA AGATGGAGGC GCTTTCCTAC TGATTATGCT
    TCCACCTCAG AAGATGAATT TGGATCAAAC CGTAATTCCC CTAAACATAC CCGTCTACGT
    ACTTCTCCAG CCCTGAAAAC CACTCGCTTG CAGAGCGCTG GATCAGCAAT GCCTACTAGT
    TCTTCATTCA AACACCGGAT TAAAGAGCAG GAAGACTACA TCCGAGATTG GACTGCTCAT
    CGAGAAGAGA TAGCCAGGAT CAGCCAAGAT CTTGCTCTCA TTGCTCGGGA GATCAACGAT
    GTAGCAGGAG AGATAGATTC AGTGACTTCA TCAGGCACTG CCCCTAGTAC CACAGTAAGC
    ACTGCTGCCA CCACCCCTGG CTCTGCCATA GACACTAGAG AAGAGTTGGT TGATCGTGTT
    TTTGATGAAA GCCTCAACTT CCGAAAGATT CCTCCATTAG TTCATTCCAA AACACCAGAA
    GGAAACAACG GTCGATCTGG TGATCCAAGA CCTCAAGCAG CAGAGCCTCC CGATCACTTA
    ACAATTACAA GGCGGAGAAC CTGGAGCAGG GATGAAGTCA TGGGAGATAA TCTGCTGCTG
    TCATCCGTCT TTCAGTTCTC TAAGAAGATA AGACAATCTA TAGATAAGAC AGCTGGAAAG
    ATCAGAATAT TATTTAAAGA CAAAGATCGG AATTGGGATG ACATAGAAAG CAAATTAAGA
    GCCGAAAGTG AAGTCCCTAT TGTGAAAACC TCAAGCATGG AGATTTCTTC TATCTTACAG
    GAACTGAAAA GAGTAGAAAA GCAGCTGCAA GCAATCAATG CTATGATTGA TCCTGATGGA
    ACTTTGGAGG CTCTGAACAA CATGGGATTT CCCAGTGCTA TGTTGCCATC TCCACCGAAA
    CAGAAGTCCA GCCCTGTGAA TAACCACCAC AGCCCGGGTC AGACACCAAC ACTTGGCCAA
    CCAGAAGCTA GGGCTCTTCA TCCTGCTGCT GTTTCAGCCG CAGCTGAATT TGAGAATGCT
    GAATCTGAGG CTGATTTCAG TATACATTTC AATAGATTCA ACCCCGATGG GGAAGAGGAA
    GATGTTACAG TACAAGAATG A

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

    RefSeq NP_001035863.1
    CDS409..4869
    Translation

    Target ORF information:

    RefSeq Version NM_001042404.1
    Organism Homo sapiens(human)
    Definition Homo sapiens centrosomal protein 170 (CEP170), transcript variant beta, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001042404.1

    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 AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTGTGTTTGG AGTAGATGAC AATCAGGATT ATAATAGGCC TGTTATCAAC
    GAAAAACATA AAGATCTAAT AAAAGATTGG GCTCTCAGTT CTGCTGCAGC AGTAATGGAA
    GAAAGAAAAC CACTGACTAC ATCTGGATTT CACCACTCAG AGGAAGGCAC ATCTTCATCT
    GGAAGCAAAC GTTGGGTTTC ACAGTGGGCT AGTTTGGCTG CCAATCATAC AAGGCATGAT
    CAAGAAGAAA GGATAATGGA ATTTTCTGCA CCTCTTCCTT TAGAGAATGA GACAGAGATC
    AGTGAGTCTG GCATGACAGT GAGAAGTACT GGCTCTGCAA CTTCCTTGGC TAGCCAGGGA
    GAGAGAAGGA GACGAACTCT TCCCCAGCTT CCAAATGAAG AAAAGTCTCT TGAGAGCCAC
    AGAGCAAAGG TTGTAACACA GAGGTCAGAG ATAGGAGAAA AACAAGACAC AGAACTTCAG
    GAGAAAGAAA CACCTACACA GGTATACCAG AAAGATAAAC AAGATGCTGA CAGACCCTTG
    AGTAAAATGA ACAGGGCAGT AAATGGAGAG ACTCTCAAAA CTGGTGGAGA TAATAAAACC
    CTACTTCACT TAGGCAGCTC TGCTCCTGGA AAAGAGAAAA GTGAAACTGA TAAGGAAACT
    TCTTTGGTAA AGCAAACATT AGCAAAACTT CAACAACAAG AACAAAGGGA GGAGGCTCAG
    TGGACACCTA CTAAATTGTC TTCCAAAAAT GTTTCAGGTC AGACAGATAA ATGTAGGGAG
    GAAACTTTTA AACAAGAATC ACAACCTCCA GAAAAAAATT CAGGACATTC TACAAGCAAA
    GGAGACAGAG TGGCACAAAG TGAGAGCAAG AGAAGAAAAG CTGAGGAAAT TCTGAAAAGT
    CAGACTCCAA AGGGAGGAGA CAAGAAGGAA TCCTCCAAGT CATTAGTGCG ACAAGGGAGC
    TTCACTATAG AAAAACCCAG CCCAAACATA CCCATAGAAC TTATTCCCCA TATAAATAAA
    CAGACTTCCT CTACTCCTTC TTCTTTAGCA TTAACATCTG CAAGTAGAAT ACGAGAAAGA
    AGTGAGTCTT TGGATCCTGA TTCTAGTATG GACACAACCC TTATTCTAAA AGACACAGAA
    GCAGTAATGG CTTTTCTAGA AGCTAAACTA CGTGAAGATA ATAAAACTGA TGAAGGACCA
    GATACTCCCA GTTATAATAG AGACAATTCT ATTTCACCAG AATCTGATGT AGATACAGCT
    AGTACAATCA GTCTGGTTAC TGGAGAAACT GAAAGAAAGT CAACCCAAAA GCGAAAGAGT
    TTCACTAGCC TCTATAAAGA TAGGTGTTCC ACAGGTTCTC CTTCCAAAGA TGTTACAAAA
    TCATCATCTT CAGGTGCTAG GGAAAAAATG GAAAAGAAAA CAAAAAGTCG TTCCACAGAT
    GTGGGTTCAA GAGCAGATGG TCGTAAATTT GTTCAGTCCA GTGGGAGAAT AAGACAGCCC
    TCAGTAGACT TAACAGATGA TGACCAAACC TCTAGTGTAC CTCATTCTGC CATCTCTGAT
    ATTATGTCAT CTGATCAAGA AACTTACTCT TGTAAACCTC ATGGACGGAC TCCACTTACC
    TCAGCTGATG AGCATGTACA TTCCAAACTG GAAGGAAGTA AAGTAACGAA ATCTAAGACT
    TCTCCGGTGG TATCTGGTTC ATCTAGTAAA TCAACCACCC TTCCAAGGCC ACGACCTACC
    AGGACTTCCC TCTTGCGCAG AGCACGACTT GGTGAAGCTT CAGACAGTGA ACTTGCTGAT
    GCTGACAAAG CATCTGTTGC TTCTGAAGTA TCCACAACAA GTTCTACATC AAAACCTCCC
    ACAGGAAGGC GTAACATCTC TCGGATTGAT TTATTGGCTC AGCCTCGTAG AACACGACTT
    GGCTCACTGT CAGCTCGTAG TGACTCTGAA GCAACAATTT CTAGAAGTAG TGCCTCTTCG
    AGGACCGCAG AAGCCATCAT TAGAAGTGGA GCCAGACTAG TACCATCAGA TAAATTTTCT
    CCTAGAATTA GAGCTAACAG TATCTCTCGA CTCTCAGACT CCAAGGTCAA AAGTATGACC
    TCAGCTCATG GCTCTGCTTC AGTAAATTCA AGATGGAGGC GCTTTCCTAC TGATTATGCT
    TCCACCTCAG AAGATGAATT TGGATCAAAC CGTAATTCCC CTAAACATAC CCGTCTACGT
    ACTTCTCCAG CCCTGAAAAC CACTCGCTTG CAGAGCGCTG GATCAGCAAT GCCTACTAGT
    TCTTCATTCA AACACCGGAT TAAAGAGCAG GAAGACTACA TCCGAGATTG GACTGCTCAT
    CGAGAAGAGA TAGCCAGGAT CAGCCAAGAT CTTGCTCTCA TTGCTCGGGA GATCAACGAT
    GTAGCAGGAG AGATAGATTC AGTGACTTCA TCAGGCACTG CCCCTAGTAC CACAGTAAGC
    ACTGCTGCCA CCACCCCTGG CTCTGCCATA GACACTAGAG AAGAGTTGGT TGATCGTGTT
    TTTGATGAAA GCCTCAACTT CCGAAAGATT CCTCCATTAG TTCATTCCAA AACACCAGAA
    GGAAACAACG GTCGATCTGG TGATCCAAGA CCTCAAGCAG CAGAGCCTCC CGATCACTTA
    ACAATTACAA GGCGGAGAAC CTGGAGCAGG GATGAAGTCA TGGGAGATAA TCTGCTGCTG
    TCATCCGTCT TTCAGTTCTC TAAGAAGATA AGACAATCTA TAGATAAGAC AGCTGGAAAG
    ATCAGAATAT TATTTAAAGA CAAAGATCGG AATTGGGATG ACATAGAAAG CAAATTAAGA
    GCCGAAAGTG AAGTCCCTAT TGTGAAAACC TCAAGCATGG AGATTTCTTC TATCTTACAG
    GAACTGAAAA GAGTAGAAAA GCAGCTGCAA GCAATCAATG CTATGATTGA TCCTGATGGA
    ACTTTGGAGG CTCTGAACAA CATGGGATTT CCCAGTGCTA TGTTGCCATC TCCACCGAAA
    CAGAAGTCCA GCCCTGTGAA TAACCACCAC AGCCCGGGTC AGACACCAAC ACTTGGCCAA
    CCAGAAGCTA GGGCTCTTCA TCCTGCTGCT GTTTCAGCCG CAGCTGAATT TGAGAATGCT
    GAATCTGAGG CTGATTTCAG TATACATTTC AATAGATTCA ACCCCGATGG GGAAGAGGAA
    GATGTTACAG TACAAGAATG A

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

    CloneID OHu17369
    Clone ID Related Accession (Same CDS sequence) NM_001042405.1
    Accession Version NM_001042405.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4383bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-26
    Organism Homo sapiens(human)
    Product centrosomal protein of 170 kDa isoform gamma
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from BP349680.1, BP349206.1, AB022659.1, AC092782.2 and CB410835.1. On Sep 20, 2006 this sequence version replaced XM_001125768.1. Transcript Variant: This variant (gamma, also known as 3) has multiple differences in the coding region but maintains the reading frame, compared to variant alpha, resulting in a shorter protein (isoform gamma), compared to isoform alpha. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803615.262461.1, SRR1803613.188308.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTGTGTTTGG AGTAGATGAC AATCAGGATT ATAATAGGCC TGTTATCAAC
    GAAAAACATA AAGATCTAAT AAAAGATTGG GCTCTCAGTT CTGCTGCAGC AGTAATGGAA
    GAAAGAAAAC CACTGACTAC ATCTGGATTT CACCACTCAG AGGAAGGCAC ATCTTCATCT
    GGAAGCAAAC GTTGGGTTTC ACAGTGGGCT AGTTTGGCTG CCAATCATAC AAGGCATGAT
    CAAGAAGAAA GGATAATGGA ATTTTCTGCA CCTCTTCCTT TAGAGAATGA GACAGAGATC
    AGTGAGTCTG GCATGACAGT GAGAAGTACT GGCTCTGCAA CTTCCTTGGC TAGCCAGGGA
    GAGAGAAGGA GACGAACTCT TCCCCAGCTT CCAAATGAAG AAAAGTCTCT TGAGAGCCAC
    AGAGCAAAGG TTGTAACACA GAGGTCAGAG ATAGGAGAAA AACAAGACAC AGAACTTCAG
    GAGAAAGAAA CACCTACACA GGTATACCAG AAAGATAAAC AAGATGCTGA CAGACCCTTG
    AGTAAAATGA ACAGGGCAGT AAATGGAGAG ACTCTCAAAA CTGGTGGAGA TAATAAAACC
    CTACTTCACT TAGGCAGCTC TGCTCCTGGA AAAGAGAAAA GTGAAACTGA TAAGGAAACT
    TCTTTGGTAA AGCAAACATT AGCAAAACTT CAACAACAAG AACAAAGGGA GGAGGCTCAG
    TGGACACCTA CTAAATTGTC TTCCAAAAAT GTTTCAGGTC AGACAGATAA ATGTAGGGAG
    GAAACTTTTA AACAAGAATC ACAACCTCCA GAAAAAAATT CAGGACATTC TACAAGCAAA
    GGAGACAGAG TGGCACAAAG TGAGAGCAAG AGAAGAAAAG CTGAGGAAAT TCTGAAAAGT
    CAGACTCCAA AGGGAGGAGA CAAGAAGGAA TCCTCCAAGT CATTAGTGCG ACAAGGGAGC
    TTCACTATAG AAAAACCCAG CCCAAACATA CCCATAGAAC TTATTCCCCA TATAAATAAA
    CAGACTTCCT CTACTCCTTC TTCTTTAGCA TTAACATCTG CAAGTAGAAT ACGAGAAAGA
    AGTGAGTCTT TGGATCCTGA TTCTAGTATG GACACAACCC TTATTCTAAA AGACACAGAA
    GCAGTAATGG CTTTTCTAGA AGCTAAACTA CGTGAAGATA ATAAAACTGA TGAAGGACCA
    GATACTCCCA GTTATAATAG AGACAATTCT ATTTCACCAG AATCTGATGT AGATACAGCT
    AGTACAATCA GTCTGGTTAC TGGAGAAACT GAAAGAAAGT CAACCCAAAA GCGAAAGAGT
    TTCACTAGCC TCTATAAAGA TAGGTGTTCC ACAGGTTCTC CTTCCAAAGA TGTTACAAAA
    TCATCATCTT CAGGTGCTAG GGAAAAAATG GAAAAGAAAA CAAAAAGTCG TTCCACAGAT
    GTGGGTTCAA GAGCAGATGG TCGTAAATTT GTTCAGTCCA GTGGGAGAAT AAGACAGCCC
    TCAGTAGACT TAACAGATGA TGACCAAACC TCTAGTGTAC CTCATTCTGC CATCTCTGAT
    ATTATGTCAT CTGATCAAGA AACTTACTCT TGTAAACCTC ATGGACGGAC TCCACTTACC
    TCAGCTGATG AGCATGTACA TTCCAAACTG GAAGGAAGTA AAGTAACGAA ATCTAAGACT
    TCTCCGGTGG TATCTGGTTC ATCTAGTAAA TCAACCACCC TTCCAAGGCC ACGACCTACC
    AGGACTTCCC TCTTGCGCAG AGCACGACTT GGTGAAGCTT CAGACAGTGA ACTTGCTGAT
    GCTGACAAAG CATCTGTTGC TTCTGAAGTA TCCACAACAA GTTCTACATC AAAACCTCCC
    ACAGGAAGGC GTAACATCTC TCGGATTGAT TTATTGGCTC AGCCTCGTAG AACACGACTT
    GGCTCACTGT CAGCTCGTAG TGACTCTGAA GCAACAATTT CTAGAAGTAG TGCCTCTTCG
    AGGACCGCAG AAGCCATCAT TAGAAGTGGA GCCAGACTAG TACCATCAGA TAAATTTTCT
    CCTAGAATTA GAGCTAACAG TATCTCTCGA CTCTCAGACT CCAAGGTCAA AAGTATGACC
    TCAGCTCATG GCTCTGCTTC AGCCCTGAAA ACCACTCGCT TGCAGAGCGC TGGATCAGCA
    ATGCCTACTA GTTCTTCATT CAAACACCGG ATTAAAGAGC AGGAAGACTA CATCCGAGAT
    TGGACTGCTC ATCGAGAAGA GATAGCCAGG ATCAGCCAAG ATCTTGCTCT CATTGCTCGG
    GAGATCAACG ATGTAGCAGG AGAGATAGAT TCAGTGACTT CATCAGGCAC TGCCCCTAGT
    ACCACAGTAA GCACTGCTGC CACCACCCCT GGCTCTGCCA TAGACACTAG AGAAGAGGTA
    GGAGATCTTC ATGGAGAAAT GCATAAGTTG GTTGATCGTG TTTTTGATGA AAGCCTCAAC
    TTCCGAAAGA TTCCTCCATT AGTTCATTCC AAAACACCAG AAGGAAACAA CGGTCGATCT
    GGTGATCCAA GACCTCAAGC AGCAGAGCCT CCCGATCACT TAACAATTAC AAGGCGGAGA
    ACCTGGAGCA GGGATGAAGT CATGGGAGAT AATCTGCTGC TGTCATCCGT CTTTCAGTTC
    TCTAAGAAGA TAAGACAATC TATAGATAAG ACAGCTGGAA AGATCAGAAT ATTATTTAAA
    GACAAAGATC GGAATTGGGA TGACATAGAA AGCAAATTAA GAGCCGAAAG TGAAGTCCCT
    ATTGTGAAAA CCTCAAGCAT GGAGATTTCT TCTATCTTAC AGGAACTGAA AAGAGTAGAA
    AAGCAGCTGC AAGCAATCAA TGCTATGATT GATCCTGATG GAACTTTGGA GGCTCTGAAC
    AACATGGGAT TTCCCAGTGC TATGTTGCCA TCTCCACCGA AACAGAAGTC CAGCCCTGTG
    AATAACCACC ACAGCCCGGG TCAGACACCA ACACTTGGCC AACCAGAAGC TAGGGCTCTT
    CATCCTGCTG CTGTTTCAGC CGCAGCTGAA TTTGAGAATG CTGAATCTGA GGCTGATTTC
    AGTATACATT TCAATAGATT CAACCCCGAT GGGGAAGAGG AAGATGTTAC AGTACAAGAA
    TGA

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

    RefSeq NP_001035864.1
    CDS409..4791
    Translation

    Target ORF information:

    RefSeq Version NM_001042405.1
    Organism Homo sapiens(human)
    Definition Homo sapiens centrosomal protein 170 (CEP170), transcript variant gamma, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001042405.1

    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 AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTGTGTTTGG AGTAGATGAC AATCAGGATT ATAATAGGCC TGTTATCAAC
    GAAAAACATA AAGATCTAAT AAAAGATTGG GCTCTCAGTT CTGCTGCAGC AGTAATGGAA
    GAAAGAAAAC CACTGACTAC ATCTGGATTT CACCACTCAG AGGAAGGCAC ATCTTCATCT
    GGAAGCAAAC GTTGGGTTTC ACAGTGGGCT AGTTTGGCTG CCAATCATAC AAGGCATGAT
    CAAGAAGAAA GGATAATGGA ATTTTCTGCA CCTCTTCCTT TAGAGAATGA GACAGAGATC
    AGTGAGTCTG GCATGACAGT GAGAAGTACT GGCTCTGCAA CTTCCTTGGC TAGCCAGGGA
    GAGAGAAGGA GACGAACTCT TCCCCAGCTT CCAAATGAAG AAAAGTCTCT TGAGAGCCAC
    AGAGCAAAGG TTGTAACACA GAGGTCAGAG ATAGGAGAAA AACAAGACAC AGAACTTCAG
    GAGAAAGAAA CACCTACACA GGTATACCAG AAAGATAAAC AAGATGCTGA CAGACCCTTG
    AGTAAAATGA ACAGGGCAGT AAATGGAGAG ACTCTCAAAA CTGGTGGAGA TAATAAAACC
    CTACTTCACT TAGGCAGCTC TGCTCCTGGA AAAGAGAAAA GTGAAACTGA TAAGGAAACT
    TCTTTGGTAA AGCAAACATT AGCAAAACTT CAACAACAAG AACAAAGGGA GGAGGCTCAG
    TGGACACCTA CTAAATTGTC TTCCAAAAAT GTTTCAGGTC AGACAGATAA ATGTAGGGAG
    GAAACTTTTA AACAAGAATC ACAACCTCCA GAAAAAAATT CAGGACATTC TACAAGCAAA
    GGAGACAGAG TGGCACAAAG TGAGAGCAAG AGAAGAAAAG CTGAGGAAAT TCTGAAAAGT
    CAGACTCCAA AGGGAGGAGA CAAGAAGGAA TCCTCCAAGT CATTAGTGCG ACAAGGGAGC
    TTCACTATAG AAAAACCCAG CCCAAACATA CCCATAGAAC TTATTCCCCA TATAAATAAA
    CAGACTTCCT CTACTCCTTC TTCTTTAGCA TTAACATCTG CAAGTAGAAT ACGAGAAAGA
    AGTGAGTCTT TGGATCCTGA TTCTAGTATG GACACAACCC TTATTCTAAA AGACACAGAA
    GCAGTAATGG CTTTTCTAGA AGCTAAACTA CGTGAAGATA ATAAAACTGA TGAAGGACCA
    GATACTCCCA GTTATAATAG AGACAATTCT ATTTCACCAG AATCTGATGT AGATACAGCT
    AGTACAATCA GTCTGGTTAC TGGAGAAACT GAAAGAAAGT CAACCCAAAA GCGAAAGAGT
    TTCACTAGCC TCTATAAAGA TAGGTGTTCC ACAGGTTCTC CTTCCAAAGA TGTTACAAAA
    TCATCATCTT CAGGTGCTAG GGAAAAAATG GAAAAGAAAA CAAAAAGTCG TTCCACAGAT
    GTGGGTTCAA GAGCAGATGG TCGTAAATTT GTTCAGTCCA GTGGGAGAAT AAGACAGCCC
    TCAGTAGACT TAACAGATGA TGACCAAACC TCTAGTGTAC CTCATTCTGC CATCTCTGAT
    ATTATGTCAT CTGATCAAGA AACTTACTCT TGTAAACCTC ATGGACGGAC TCCACTTACC
    TCAGCTGATG AGCATGTACA TTCCAAACTG GAAGGAAGTA AAGTAACGAA ATCTAAGACT
    TCTCCGGTGG TATCTGGTTC ATCTAGTAAA TCAACCACCC TTCCAAGGCC ACGACCTACC
    AGGACTTCCC TCTTGCGCAG AGCACGACTT GGTGAAGCTT CAGACAGTGA ACTTGCTGAT
    GCTGACAAAG CATCTGTTGC TTCTGAAGTA TCCACAACAA GTTCTACATC AAAACCTCCC
    ACAGGAAGGC GTAACATCTC TCGGATTGAT TTATTGGCTC AGCCTCGTAG AACACGACTT
    GGCTCACTGT CAGCTCGTAG TGACTCTGAA GCAACAATTT CTAGAAGTAG TGCCTCTTCG
    AGGACCGCAG AAGCCATCAT TAGAAGTGGA GCCAGACTAG TACCATCAGA TAAATTTTCT
    CCTAGAATTA GAGCTAACAG TATCTCTCGA CTCTCAGACT CCAAGGTCAA AAGTATGACC
    TCAGCTCATG GCTCTGCTTC AGCCCTGAAA ACCACTCGCT TGCAGAGCGC TGGATCAGCA
    ATGCCTACTA GTTCTTCATT CAAACACCGG ATTAAAGAGC AGGAAGACTA CATCCGAGAT
    TGGACTGCTC ATCGAGAAGA GATAGCCAGG ATCAGCCAAG ATCTTGCTCT CATTGCTCGG
    GAGATCAACG ATGTAGCAGG AGAGATAGAT TCAGTGACTT CATCAGGCAC TGCCCCTAGT
    ACCACAGTAA GCACTGCTGC CACCACCCCT GGCTCTGCCA TAGACACTAG AGAAGAGGTA
    GGAGATCTTC ATGGAGAAAT GCATAAGTTG GTTGATCGTG TTTTTGATGA AAGCCTCAAC
    TTCCGAAAGA TTCCTCCATT AGTTCATTCC AAAACACCAG AAGGAAACAA CGGTCGATCT
    GGTGATCCAA GACCTCAAGC AGCAGAGCCT CCCGATCACT TAACAATTAC AAGGCGGAGA
    ACCTGGAGCA GGGATGAAGT CATGGGAGAT AATCTGCTGC TGTCATCCGT CTTTCAGTTC
    TCTAAGAAGA TAAGACAATC TATAGATAAG ACAGCTGGAA AGATCAGAAT ATTATTTAAA
    GACAAAGATC GGAATTGGGA TGACATAGAA AGCAAATTAA GAGCCGAAAG TGAAGTCCCT
    ATTGTGAAAA CCTCAAGCAT GGAGATTTCT TCTATCTTAC AGGAACTGAA AAGAGTAGAA
    AAGCAGCTGC AAGCAATCAA TGCTATGATT GATCCTGATG GAACTTTGGA GGCTCTGAAC
    AACATGGGAT TTCCCAGTGC TATGTTGCCA TCTCCACCGA AACAGAAGTC CAGCCCTGTG
    AATAACCACC ACAGCCCGGG TCAGACACCA ACACTTGGCC AACCAGAAGC TAGGGCTCTT
    CATCCTGCTG CTGTTTCAGC CGCAGCTGAA TTTGAGAATG CTGAATCTGA GGCTGATTTC
    AGTATACATT TCAATAGATT CAACCCCGAT GGGGAAGAGG AAGATGTTAC AGTACAAGAA
    TGA

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

    CloneID OHu18583
    Clone ID Related Accession (Same CDS sequence) NM_014812.3 , NM_014812.2 , XM_017002936.1 , XM_017002936.2
    Accession Version NM_014812.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4755bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-30
    Organism Homo sapiens(human)
    Product centrosomal protein of 170 kDa isoform alpha
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from BP349680.1, BP349206.1, AB022657.1, AC092782.2, AL606534.15 and CB410835.1. This sequence is a reference standard in the RefSeqGene project. On Nov 22, 2018 this sequence version replaced NM_014812.2. Transcript Variant: This variant (alpha, also known as 1) represents the longest transcript and encodes the longest isoform (alpha). Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660807.121338.1, SRR1660803.43701.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000366542.6/ ENSP00000355500.1 RefSeq Select criteria :: based on conservation, expression ##RefSeq-Attributes-END## COMPLETENESS: full length.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGTAAA TTCAAGATGG AGGCGCTTTC CTACTGATTA TGCTTCCACC
    TCAGAAGATG AATTTGGATC AAACCGTAAT TCCCCTAAAC ATACCCGTCT ACGTACTTCT
    CCAGCCCTGA AAACCACTCG CTTGCAGAGC GCTGGATCAG CAATGCCTAC TAGTTCTTCA
    TTCAAACACC GGATTAAAGA GCAGGAAGAC TACATCCGAG ATTGGACTGC TCATCGAGAA
    GAGATAGCCA GGATCAGCCA AGATCTTGCT CTCATTGCTC GGGAGATCAA CGATGTAGCA
    GGAGAGATAG ATTCAGTGAC TTCATCAGGC ACTGCCCCTA GTACCACAGT AAGCACTGCT
    GCCACCACCC CTGGCTCTGC CATAGACACT AGAGAAGAGT TGGTTGATCG TGTTTTTGAT
    GAAAGCCTCA ACTTCCGAAA GATTCCTCCA TTAGTTCATT CCAAAACACC AGAAGGAAAC
    AACGGTCGAT CTGGTGATCC AAGACCTCAA GCAGCAGAGC CTCCCGATCA CTTAACAATT
    ACAAGGCGGA GAACCTGGAG CAGGGATGAA GTCATGGGAG ATAATCTGCT GCTGTCATCC
    GTCTTTCAGT TCTCTAAGAA GATAAGACAA TCTATAGATA AGACAGCTGG AAAGATCAGA
    ATATTATTTA AAGACAAAGA TCGGAATTGG GATGACATAG AAAGCAAATT AAGAGCCGAA
    AGTGAAGTCC CTATTGTGAA AACCTCAAGC ATGGAGATTT CTTCTATCTT ACAGGAACTG
    AAAAGAGTAG AAAAGCAGCT GCAAGCAATC AATGCTATGA TTGATCCTGA TGGAACTTTG
    GAGGCTCTGA ACAACATGGG ATTTCCCAGT GCTATGTTGC CATCTCCACC GAAACAGAAG
    TCCAGCCCTG TGAATAACCA CCACAGCCCG GGTCAGACAC CAACACTTGG CCAACCAGAA
    GCTAGGGCTC TTCATCCTGC TGCTGTTTCA GCCGCAGCTG AATTTGAGAA TGCTGAATCT
    GAGGCTGATT TCAGTATACA TTTCAATAGA TTCAACCCCG ATGGGGAAGA GGAAGATGTT
    ACAGTACAAG AATGA

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

    RefSeq NP_055627.2
    CDS284..5038
    Translation

    Target ORF information:

    RefSeq Version NM_014812.3
    Organism Homo sapiens(human)
    Definition Homo sapiens centrosomal protein 170 (CEP170), transcript variant alpha, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_014812.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGTAAA TTCAAGATGG AGGCGCTTTC CTACTGATTA TGCTTCCACC
    TCAGAAGATG AATTTGGATC AAACCGTAAT TCCCCTAAAC ATACCCGTCT ACGTACTTCT
    CCAGCCCTGA AAACCACTCG CTTGCAGAGC GCTGGATCAG CAATGCCTAC TAGTTCTTCA
    TTCAAACACC GGATTAAAGA GCAGGAAGAC TACATCCGAG ATTGGACTGC TCATCGAGAA
    GAGATAGCCA GGATCAGCCA AGATCTTGCT CTCATTGCTC GGGAGATCAA CGATGTAGCA
    GGAGAGATAG ATTCAGTGAC TTCATCAGGC ACTGCCCCTA GTACCACAGT AAGCACTGCT
    GCCACCACCC CTGGCTCTGC CATAGACACT AGAGAAGAGT TGGTTGATCG TGTTTTTGAT
    GAAAGCCTCA ACTTCCGAAA GATTCCTCCA TTAGTTCATT CCAAAACACC AGAAGGAAAC
    AACGGTCGAT CTGGTGATCC AAGACCTCAA GCAGCAGAGC CTCCCGATCA CTTAACAATT
    ACAAGGCGGA GAACCTGGAG CAGGGATGAA GTCATGGGAG ATAATCTGCT GCTGTCATCC
    GTCTTTCAGT TCTCTAAGAA GATAAGACAA TCTATAGATA AGACAGCTGG AAAGATCAGA
    ATATTATTTA AAGACAAAGA TCGGAATTGG GATGACATAG AAAGCAAATT AAGAGCCGAA
    AGTGAAGTCC CTATTGTGAA AACCTCAAGC ATGGAGATTT CTTCTATCTT ACAGGAACTG
    AAAAGAGTAG AAAAGCAGCT GCAAGCAATC AATGCTATGA TTGATCCTGA TGGAACTTTG
    GAGGCTCTGA ACAACATGGG ATTTCCCAGT GCTATGTTGC CATCTCCACC GAAACAGAAG
    TCCAGCCCTG TGAATAACCA CCACAGCCCG GGTCAGACAC CAACACTTGG CCAACCAGAA
    GCTAGGGCTC TTCATCCTGC TGCTGTTTCA GCCGCAGCTG AATTTGAGAA TGCTGAATCT
    GAGGCTGATT TCAGTATACA TTTCAATAGA TTCAACCCCG ATGGGGAAGA GGAAGATGTT
    ACAGTACAAG AATGA

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

    CloneID OHu18583
    Clone ID Related Accession (Same CDS sequence) NM_014812.3 , NM_014812.2 , XM_017002936.1 , XM_017002936.2
    Accession Version NM_014812.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4755bp)
    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 2017-10-29
    Organism Homo sapiens(human)
    Product centrosomal protein of 170 kDa isoform alpha
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from BP349680.1, BP349206.1, AB022657.1, AC092782.2, AL606534.15 and CB410835.1. This sequence is a reference standard in the RefSeqGene project. On Jun 19, 2006 this sequence version replaced NM_014812.1. Transcript Variant: This variant (alpha, also known as 1) represents the longest transcript and encodes the longest isoform (alpha). Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660807.121338.1, SRR1660803.43701.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGTAAA TTCAAGATGG AGGCGCTTTC CTACTGATTA TGCTTCCACC
    TCAGAAGATG AATTTGGATC AAACCGTAAT TCCCCTAAAC ATACCCGTCT ACGTACTTCT
    CCAGCCCTGA AAACCACTCG CTTGCAGAGC GCTGGATCAG CAATGCCTAC TAGTTCTTCA
    TTCAAACACC GGATTAAAGA GCAGGAAGAC TACATCCGAG ATTGGACTGC TCATCGAGAA
    GAGATAGCCA GGATCAGCCA AGATCTTGCT CTCATTGCTC GGGAGATCAA CGATGTAGCA
    GGAGAGATAG ATTCAGTGAC TTCATCAGGC ACTGCCCCTA GTACCACAGT AAGCACTGCT
    GCCACCACCC CTGGCTCTGC CATAGACACT AGAGAAGAGT TGGTTGATCG TGTTTTTGAT
    GAAAGCCTCA ACTTCCGAAA GATTCCTCCA TTAGTTCATT CCAAAACACC AGAAGGAAAC
    AACGGTCGAT CTGGTGATCC AAGACCTCAA GCAGCAGAGC CTCCCGATCA CTTAACAATT
    ACAAGGCGGA GAACCTGGAG CAGGGATGAA GTCATGGGAG ATAATCTGCT GCTGTCATCC
    GTCTTTCAGT TCTCTAAGAA GATAAGACAA TCTATAGATA AGACAGCTGG AAAGATCAGA
    ATATTATTTA AAGACAAAGA TCGGAATTGG GATGACATAG AAAGCAAATT AAGAGCCGAA
    AGTGAAGTCC CTATTGTGAA AACCTCAAGC ATGGAGATTT CTTCTATCTT ACAGGAACTG
    AAAAGAGTAG AAAAGCAGCT GCAAGCAATC AATGCTATGA TTGATCCTGA TGGAACTTTG
    GAGGCTCTGA ACAACATGGG ATTTCCCAGT GCTATGTTGC CATCTCCACC GAAACAGAAG
    TCCAGCCCTG TGAATAACCA CCACAGCCCG GGTCAGACAC CAACACTTGG CCAACCAGAA
    GCTAGGGCTC TTCATCCTGC TGCTGTTTCA GCCGCAGCTG AATTTGAGAA TGCTGAATCT
    GAGGCTGATT TCAGTATACA TTTCAATAGA TTCAACCCCG ATGGGGAAGA GGAAGATGTT
    ACAGTACAAG AATGA

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

    RefSeq NP_055627.2
    CDS409..5163
    Translation

    Target ORF information:

    RefSeq Version NM_014812.2
    Organism Homo sapiens(human)
    Definition Homo sapiens centrosomal protein 170 (CEP170), transcript variant alpha, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_014812.2

    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 AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGTAAA TTCAAGATGG AGGCGCTTTC CTACTGATTA TGCTTCCACC
    TCAGAAGATG AATTTGGATC AAACCGTAAT TCCCCTAAAC ATACCCGTCT ACGTACTTCT
    CCAGCCCTGA AAACCACTCG CTTGCAGAGC GCTGGATCAG CAATGCCTAC TAGTTCTTCA
    TTCAAACACC GGATTAAAGA GCAGGAAGAC TACATCCGAG ATTGGACTGC TCATCGAGAA
    GAGATAGCCA GGATCAGCCA AGATCTTGCT CTCATTGCTC GGGAGATCAA CGATGTAGCA
    GGAGAGATAG ATTCAGTGAC TTCATCAGGC ACTGCCCCTA GTACCACAGT AAGCACTGCT
    GCCACCACCC CTGGCTCTGC CATAGACACT AGAGAAGAGT TGGTTGATCG TGTTTTTGAT
    GAAAGCCTCA ACTTCCGAAA GATTCCTCCA TTAGTTCATT CCAAAACACC AGAAGGAAAC
    AACGGTCGAT CTGGTGATCC AAGACCTCAA GCAGCAGAGC CTCCCGATCA CTTAACAATT
    ACAAGGCGGA GAACCTGGAG CAGGGATGAA GTCATGGGAG ATAATCTGCT GCTGTCATCC
    GTCTTTCAGT TCTCTAAGAA GATAAGACAA TCTATAGATA AGACAGCTGG AAAGATCAGA
    ATATTATTTA AAGACAAAGA TCGGAATTGG GATGACATAG AAAGCAAATT AAGAGCCGAA
    AGTGAAGTCC CTATTGTGAA AACCTCAAGC ATGGAGATTT CTTCTATCTT ACAGGAACTG
    AAAAGAGTAG AAAAGCAGCT GCAAGCAATC AATGCTATGA TTGATCCTGA TGGAACTTTG
    GAGGCTCTGA ACAACATGGG ATTTCCCAGT GCTATGTTGC CATCTCCACC GAAACAGAAG
    TCCAGCCCTG TGAATAACCA CCACAGCCCG GGTCAGACAC CAACACTTGG CCAACCAGAA
    GCTAGGGCTC TTCATCCTGC TGCTGTTTCA GCCGCAGCTG AATTTGAGAA TGCTGAATCT
    GAGGCTGATT TCAGTATACA TTTCAATAGA TTCAACCCCG ATGGGGAAGA GGAAGATGTT
    ACAGTACAAG AATGA

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

    CloneID OHu18583
    Clone ID Related Accession (Same CDS sequence) NM_014812.3 , NM_014812.2 , XM_017002936.1 , XM_017002936.2
    Accession Version XM_017002936.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4755bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product 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_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGTAAA TTCAAGATGG AGGCGCTTTC CTACTGATTA TGCTTCCACC
    TCAGAAGATG AATTTGGATC AAACCGTAAT TCCCCTAAAC ATACCCGTCT ACGTACTTCT
    CCAGCCCTGA AAACCACTCG CTTGCAGAGC GCTGGATCAG CAATGCCTAC TAGTTCTTCA
    TTCAAACACC GGATTAAAGA GCAGGAAGAC TACATCCGAG ATTGGACTGC TCATCGAGAA
    GAGATAGCCA GGATCAGCCA AGATCTTGCT CTCATTGCTC GGGAGATCAA CGATGTAGCA
    GGAGAGATAG ATTCAGTGAC TTCATCAGGC ACTGCCCCTA GTACCACAGT AAGCACTGCT
    GCCACCACCC CTGGCTCTGC CATAGACACT AGAGAAGAGT TGGTTGATCG TGTTTTTGAT
    GAAAGCCTCA ACTTCCGAAA GATTCCTCCA TTAGTTCATT CCAAAACACC AGAAGGAAAC
    AACGGTCGAT CTGGTGATCC AAGACCTCAA GCAGCAGAGC CTCCCGATCA CTTAACAATT
    ACAAGGCGGA GAACCTGGAG CAGGGATGAA GTCATGGGAG ATAATCTGCT GCTGTCATCC
    GTCTTTCAGT TCTCTAAGAA GATAAGACAA TCTATAGATA AGACAGCTGG AAAGATCAGA
    ATATTATTTA AAGACAAAGA TCGGAATTGG GATGACATAG AAAGCAAATT AAGAGCCGAA
    AGTGAAGTCC CTATTGTGAA AACCTCAAGC ATGGAGATTT CTTCTATCTT ACAGGAACTG
    AAAAGAGTAG AAAAGCAGCT GCAAGCAATC AATGCTATGA TTGATCCTGA TGGAACTTTG
    GAGGCTCTGA ACAACATGGG ATTTCCCAGT GCTATGTTGC CATCTCCACC GAAACAGAAG
    TCCAGCCCTG TGAATAACCA CCACAGCCCG GGTCAGACAC CAACACTTGG CCAACCAGAA
    GCTAGGGCTC TTCATCCTGC TGCTGTTTCA GCCGCAGCTG AATTTGAGAA TGCTGAATCT
    GAGGCTGATT TCAGTATACA TTTCAATAGA TTCAACCCCG ATGGGGAAGA GGAAGATGTT
    ACAGTACAAG AATGA

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

    RefSeq XP_016858425.1
    CDS352..5106
    Translation

    Target ORF information:

    RefSeq Version XM_017002936.1
    Organism Homo sapiens(human)
    Definition Homo sapiens centrosomal protein 170 (CEP170), transcript variant X15, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017002936.1

    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 AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGTAAA TTCAAGATGG AGGCGCTTTC CTACTGATTA TGCTTCCACC
    TCAGAAGATG AATTTGGATC AAACCGTAAT TCCCCTAAAC ATACCCGTCT ACGTACTTCT
    CCAGCCCTGA AAACCACTCG CTTGCAGAGC GCTGGATCAG CAATGCCTAC TAGTTCTTCA
    TTCAAACACC GGATTAAAGA GCAGGAAGAC TACATCCGAG ATTGGACTGC TCATCGAGAA
    GAGATAGCCA GGATCAGCCA AGATCTTGCT CTCATTGCTC GGGAGATCAA CGATGTAGCA
    GGAGAGATAG ATTCAGTGAC TTCATCAGGC ACTGCCCCTA GTACCACAGT AAGCACTGCT
    GCCACCACCC CTGGCTCTGC CATAGACACT AGAGAAGAGT TGGTTGATCG TGTTTTTGAT
    GAAAGCCTCA ACTTCCGAAA GATTCCTCCA TTAGTTCATT CCAAAACACC AGAAGGAAAC
    AACGGTCGAT CTGGTGATCC AAGACCTCAA GCAGCAGAGC CTCCCGATCA CTTAACAATT
    ACAAGGCGGA GAACCTGGAG CAGGGATGAA GTCATGGGAG ATAATCTGCT GCTGTCATCC
    GTCTTTCAGT TCTCTAAGAA GATAAGACAA TCTATAGATA AGACAGCTGG AAAGATCAGA
    ATATTATTTA AAGACAAAGA TCGGAATTGG GATGACATAG AAAGCAAATT AAGAGCCGAA
    AGTGAAGTCC CTATTGTGAA AACCTCAAGC ATGGAGATTT CTTCTATCTT ACAGGAACTG
    AAAAGAGTAG AAAAGCAGCT GCAAGCAATC AATGCTATGA TTGATCCTGA TGGAACTTTG
    GAGGCTCTGA ACAACATGGG ATTTCCCAGT GCTATGTTGC CATCTCCACC GAAACAGAAG
    TCCAGCCCTG TGAATAACCA CCACAGCCCG GGTCAGACAC CAACACTTGG CCAACCAGAA
    GCTAGGGCTC TTCATCCTGC TGCTGTTTCA GCCGCAGCTG AATTTGAGAA TGCTGAATCT
    GAGGCTGATT TCAGTATACA TTTCAATAGA TTCAACCCCG ATGGGGAAGA GGAAGATGTT
    ACAGTACAAG AATGA

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

    CloneID OHu18583
    Clone ID Related Accession (Same CDS sequence) NM_014812.3 , NM_014812.2 , XM_017002936.1 , XM_017002936.2
    Accession Version XM_017002936.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4755bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product 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_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017002936.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGAGCTTAA CATCCTGGTT TTTGGTGAGC AGTGGAGGCA CTCGCCACAG GCTGCCACGA 
    GAAATGATTT TTGTTGGAAG AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGTAAA TTCAAGATGG AGGCGCTTTC CTACTGATTA TGCTTCCACC
    TCAGAAGATG AATTTGGATC AAACCGTAAT TCCCCTAAAC ATACCCGTCT ACGTACTTCT
    CCAGCCCTGA AAACCACTCG CTTGCAGAGC GCTGGATCAG CAATGCCTAC TAGTTCTTCA
    TTCAAACACC GGATTAAAGA GCAGGAAGAC TACATCCGAG ATTGGACTGC TCATCGAGAA
    GAGATAGCCA GGATCAGCCA AGATCTTGCT CTCATTGCTC GGGAGATCAA CGATGTAGCA
    GGAGAGATAG ATTCAGTGAC TTCATCAGGC ACTGCCCCTA GTACCACAGT AAGCACTGCT
    GCCACCACCC CTGGCTCTGC CATAGACACT AGAGAAGAGT TGGTTGATCG TGTTTTTGAT
    GAAAGCCTCA ACTTCCGAAA GATTCCTCCA TTAGTTCATT CCAAAACACC AGAAGGAAAC
    AACGGTCGAT CTGGTGATCC AAGACCTCAA GCAGCAGAGC CTCCCGATCA CTTAACAATT
    ACAAGGCGGA GAACCTGGAG CAGGGATGAA GTCATGGGAG ATAATCTGCT GCTGTCATCC
    GTCTTTCAGT TCTCTAAGAA GATAAGACAA TCTATAGATA AGACAGCTGG AAAGATCAGA
    ATATTATTTA AAGACAAAGA TCGGAATTGG GATGACATAG AAAGCAAATT AAGAGCCGAA
    AGTGAAGTCC CTATTGTGAA AACCTCAAGC ATGGAGATTT CTTCTATCTT ACAGGAACTG
    AAAAGAGTAG AAAAGCAGCT GCAAGCAATC AATGCTATGA TTGATCCTGA TGGAACTTTG
    GAGGCTCTGA ACAACATGGG ATTTCCCAGT GCTATGTTGC CATCTCCACC GAAACAGAAG
    TCCAGCCCTG TGAATAACCA CCACAGCCCG GGTCAGACAC CAACACTTGG CCAACCAGAA
    GCTAGGGCTC TTCATCCTGC TGCTGTTTCA GCCGCAGCTG AATTTGAGAA TGCTGAATCT
    GAGGCTGATT TCAGTATACA TTTCAATAGA TTCAACCCCG ATGGGGAAGA GGAAGATGTT
    ACAGTACAAG AATGA

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

    RefSeq XP_016858425.1
    CDS346..5100
    Translation

    Target ORF information:

    RefSeq Version XM_017002936.2
    Organism Homo sapiens(human)
    Definition Homo sapiens centrosomal protein 170 (CEP170), transcript variant X14, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017002936.2

    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 AGATGACTGT GAGCTCATGT TGCAGTCTCG TAGTGTGGAT
    AAGCAACACG CTGTCATCAA CTATGATGCG TCTACGGATG AGCATTTAGT GAAGGATTTG
    GGCAGCCTCA ATGGGACTTT TGTGAATGAT GTAAGGATTC CGGAACAGAC TTATATCACC
    TTGAAACTTG AAGATAAGCT GAGATTTGGA TATGATACAA ATCTTTTCAC TGTAGTACAA
    GGAGAAATGA GGGTCCCTGA AGAAGCTCTT AAGCATGAGA AGTTTACCAT TCAGCTTCAG
    TTGTCCCAAA AATCTTCAGA ATCAGAATTA TCCAAATCTG CAAGTGCCAA AAGCATAGAT
    TCAAAGGTAG CAGACGCTGC TACTGAAGTG CAGCACAAAA CTACTGAAGC ACTGAAATCC
    GAGGAAAAAG CCATGGATAT TTCTGCTATG CCCCGTGGTA CTCCATTATA TGGGCAGCCG
    TCATGGTGGG GGGATGATGA GGTGGATGAA AAAAGAGCTT TCAAGACAAA TGGCAAACCT
    GAAGAAAAAA ACCATGAAGC TGGAACATCA GGGTGCGGCA TAGATGCCAA GCAAGTTGAG
    GAACAATCTG CAGCTGCAAA TGAAGAAGTA CTTTTTCCTT TCTGTAGGGA ACCAAGTTAT
    TTTGAAATCC CTACAAAAGA ATTCCAGCAA CCATCACAAA TAACAGAAAG CACTATTCAT
    GAAATCCCAA CAAAAGACAC GCCAAGTTCC CATATAACAG GTGCAGGGCA TGCTTCATTT
    ACCATTGAAT TTGATGACAG TACCCCAGGG AAGGTAACTA TTAGAGACCA TGTGACAAAG
    TTTACTTCTG ATCAGCGCCA CAAGTCCAAG AAGTCTTCTC CTGGAACTCA AGACTTGCTG
    GGGATTCAAA CAGGAATGAT GGCACCCGAA AACAAAGTTG CTGACTGGCT AGCACAAAAC
    AACCCTCCTC AAATGCTATG GGAAAGAACA GAAGAGGATT CTAAAAGCAT TAAAAGTGAT
    GTTCCAGTGT ACTTGAAAAG GTTGAAAGGA AATAAACATG ATGATGGTAC GCAAAGTGAT
    TCAGAGAACG CTGGGGCTCA CAGGCGCTGT AGCAAACGTG CAACTCTTGA GGAACACTTA
    AGACGCCACC ATTCAGAACA CAAAAAGCTA CAGAAGGTCC AGGCTACTGA AAAGCATCAA
    GACCAAGCTG TTACTAGCTC TGCGCATCAC AGAGGGGGGC ATGGTGTTCC ACATGGGAAA
    TTGTTAAAAC AGAAATCAGA GGAGCCATCG GTGTCAATAC CCTTCCTACA AACTGCATTA
    TTAAGAAGTT CAGGGAGTCT TGGGCACAGA CCAAGCCAGG AGATGGATAA AATGTTAAAA
    AATCAAGCAA CTTCTGCTAC TTCTGAAAAG GATAATGATG ATGACCAAAG TGACAAGGGT
    ACTTATACCA TTGAGTTAGA GAATCCCAAC AGTGAGGAAG TGGAAGCAAG AAAAATGATT
    GACAAGGTGT TTGGAGTAGA TGACAATCAG GATTATAATA GGCCTGTTAT CAACGAAAAA
    CATAAAGATC TAATAAAAGA TTGGGCTCTC AGTTCTGCTG CAGCAGTAAT GGAAGAAAGA
    AAACCACTGA CTACATCTGG ATTTCACCAC TCAGAGGAAG GCACATCTTC ATCTGGAAGC
    AAACGTTGGG TTTCACAGTG GGCTAGTTTG GCTGCCAATC ATACAAGGCA TGATCAAGAA
    GAAAGGATAA TGGAATTTTC TGCACCTCTT CCTTTAGAGA ATGAGACAGA GATCAGTGAG
    TCTGGCATGA CAGTGAGAAG TACTGGCTCT GCAACTTCCT TGGCTAGCCA GGGAGAGAGA
    AGGAGACGAA CTCTTCCCCA GCTTCCAAAT GAAGAAAAGT CTCTTGAGAG CCACAGAGCA
    AAGGTTGTAA CACAGAGGTC AGAGATAGGA GAAAAACAAG ACACAGAACT TCAGGAGAAA
    GAAACACCTA CACAGGTATA CCAGAAAGAT AAACAAGATG CTGACAGACC CTTGAGTAAA
    ATGAACAGGG CAGTAAATGG AGAGACTCTC AAAACTGGTG GAGATAATAA AACCCTACTT
    CACTTAGGCA GCTCTGCTCC TGGAAAAGAG AAAAGTGAAA CTGATAAGGA AACTTCTTTG
    GTAAAGCAAA CATTAGCAAA ACTTCAACAA CAAGAACAAA GGGAGGAGGC TCAGTGGACA
    CCTACTAAAT TGTCTTCCAA AAATGTTTCA GGTCAGACAG ATAAATGTAG GGAGGAAACT
    TTTAAACAAG AATCACAACC TCCAGAAAAA AATTCAGGAC ATTCTACAAG CAAAGGAGAC
    AGAGTGGCAC AAAGTGAGAG CAAGAGAAGA AAAGCTGAGG AAATTCTGAA AAGTCAGACT
    CCAAAGGGAG GAGACAAGAA GGAATCCTCC AAGTCATTAG TGCGACAAGG GAGCTTCACT
    ATAGAAAAAC CCAGCCCAAA CATACCCATA GAACTTATTC CCCATATAAA TAAACAGACT
    TCCTCTACTC CTTCTTCTTT AGCATTAACA TCTGCAAGTA GAATACGAGA AAGAAGTGAG
    TCTTTGGATC CTGATTCTAG TATGGACACA ACCCTTATTC TAAAAGACAC AGAAGCAGTA
    ATGGCTTTTC TAGAAGCTAA ACTACGTGAA GATAATAAAA CTGATGAAGG ACCAGATACT
    CCCAGTTATA ATAGAGACAA TTCTATTTCA CCAGAATCTG ATGTAGATAC AGCTAGTACA
    ATCAGTCTGG TTACTGGAGA AACTGAAAGA AAGTCAACCC AAAAGCGAAA GAGTTTCACT
    AGCCTCTATA AAGATAGGTG TTCCACAGGT TCTCCTTCCA AAGATGTTAC AAAATCATCA
    TCTTCAGGTG CTAGGGAAAA AATGGAAAAG AAAACAAAAA GTCGTTCCAC AGATGTGGGT
    TCAAGAGCAG ATGGTCGTAA ATTTGTTCAG TCCAGTGGGA GAATAAGACA GCCCTCAGTA
    GACTTAACAG ATGATGACCA AACCTCTAGT GTACCTCATT CTGCCATCTC TGATATTATG
    TCATCTGATC AAGAAACTTA CTCTTGTAAA CCTCATGGAC GGACTCCACT TACCTCAGCT
    GATGAGCATG TACATTCCAA ACTGGAAGGA AGTAAAGTAA CGAAATCTAA GACTTCTCCG
    GTGGTATCTG GTTCATCTAG TAAATCAACC ACCCTTCCAA GGCCACGACC TACCAGGACT
    TCCCTCTTGC GCAGAGCACG ACTTGGTGAA GCTTCAGACA GTGAACTTGC TGATGCTGAC
    AAAGCATCTG TTGCTTCTGA AGTATCCACA ACAAGTTCTA CATCAAAACC TCCCACAGGA
    AGGCGTAACA TCTCTCGGAT TGATTTATTG GCTCAGCCTC GTAGAACACG ACTTGGCTCA
    CTGTCAGCTC GTAGTGACTC TGAAGCAACA ATTTCTAGAA GTAGTGCCTC TTCGAGGACC
    GCAGAAGCCA TCATTAGAAG TGGAGCCAGA CTAGTACCAT CAGATAAATT TTCTCCTAGA
    ATTAGAGCTA ACAGTATCTC TCGACTCTCA GACTCCAAGG TCAAAAGTAT GACCTCAGCT
    CATGGCTCTG CTTCAGTAAA TTCAAGATGG AGGCGCTTTC CTACTGATTA TGCTTCCACC
    TCAGAAGATG AATTTGGATC AAACCGTAAT TCCCCTAAAC ATACCCGTCT ACGTACTTCT
    CCAGCCCTGA AAACCACTCG CTTGCAGAGC GCTGGATCAG CAATGCCTAC TAGTTCTTCA
    TTCAAACACC GGATTAAAGA GCAGGAAGAC TACATCCGAG ATTGGACTGC TCATCGAGAA
    GAGATAGCCA GGATCAGCCA AGATCTTGCT CTCATTGCTC GGGAGATCAA CGATGTAGCA
    GGAGAGATAG ATTCAGTGAC TTCATCAGGC ACTGCCCCTA GTACCACAGT AAGCACTGCT
    GCCACCACCC CTGGCTCTGC CATAGACACT AGAGAAGAGT TGGTTGATCG TGTTTTTGAT
    GAAAGCCTCA ACTTCCGAAA GATTCCTCCA TTAGTTCATT CCAAAACACC AGAAGGAAAC
    AACGGTCGAT CTGGTGATCC AAGACCTCAA GCAGCAGAGC CTCCCGATCA CTTAACAATT
    ACAAGGCGGA GAACCTGGAG CAGGGATGAA GTCATGGGAG ATAATCTGCT GCTGTCATCC
    GTCTTTCAGT TCTCTAAGAA GATAAGACAA TCTATAGATA AGACAGCTGG AAAGATCAGA
    ATATTATTTA AAGACAAAGA TCGGAATTGG GATGACATAG AAAGCAAATT AAGAGCCGAA
    AGTGAAGTCC CTATTGTGAA AACCTCAAGC ATGGAGATTT CTTCTATCTT ACAGGAACTG
    AAAAGAGTAG AAAAGCAGCT GCAAGCAATC AATGCTATGA TTGATCCTGA TGGAACTTTG
    GAGGCTCTGA ACAACATGGG ATTTCCCAGT GCTATGTTGC CATCTCCACC GAAACAGAAG
    TCCAGCCCTG TGAATAACCA CCACAGCCCG GGTCAGACAC CAACACTTGG CCAACCAGAA
    GCTAGGGCTC TTCATCCTGC TGCTGTTTCA GCCGCAGCTG AATTTGAGAA TGCTGAATCT
    GAGGCTGATT TCAGTATACA TTTCAATAGA TTCAACCCCG ATGGGGAAGA GGAAGATGTT
    ACAGTACAAG AATGA

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

    CloneID OHu35160
    Clone ID Related Accession (Same CDS sequence) XM_011544335.3 , XM_011544334.2 , XM_011544335.2 , XM_006711843.3 , XM_006711843.4 , XM_017002932.1 , XM_011544336.2 , XM_011544334.3
    Accession Version XM_011544335.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4971bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product 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_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence