CCDC158 cDNA ORF clone, Homo sapiens(human)

The following CCDC158 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CCDC158 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
OHu05158 NM_001042784.1
Latest version!
Homo sapiens coiled-coil domain containing 158 (CCDC158), mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$399.50-$559.30
$799.00
OHu95156 XM_017008161.1
Latest version!
Homo sapiens coiled-coil domain containing 158 (CCDC158), transcript variant X16, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $391.30
$559.00
OHu05158 XM_005262974.4
Latest version!
Homo sapiens coiled-coil domain containing 158 (CCDC158), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu38910 XM_017008160.1
Latest version!
Homo sapiens coiled-coil domain containing 158 (CCDC158), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu38910 XM_011531909.2
Latest version!
Homo sapiens coiled-coil domain containing 158 (CCDC158), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu38910 XM_011531910.3
Latest version!
Homo sapiens coiled-coil domain containing 158 (CCDC158), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu38910 XM_006714204.3
Latest version!
Homo sapiens coiled-coil domain containing 158 (CCDC158), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu38910 XM_011531911.1
Latest version!
Homo sapiens coiled-coil domain containing 158 (CCDC158), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu38910 XM_011531908.2
Latest version!
Homo sapiens coiled-coil domain containing 158 (CCDC158), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu38910 XM_011531912.2
Latest version!
Homo sapiens coiled-coil domain containing 158 (CCDC158), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu38910 XM_011531914.2
Latest version!
Homo sapiens coiled-coil domain containing 158 (CCDC158), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu38910 XM_011531913.1
Latest version!
Homo sapiens coiled-coil domain containing 158 (CCDC158), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu79284 XM_011531915.2
Latest version!
Homo sapiens coiled-coil domain containing 158 (CCDC158), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu79285 XM_011531917.1
Latest version!
Homo sapiens coiled-coil domain containing 158 (CCDC158), transcript variant X13, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu79285 XM_011531916.2
Latest version!
Homo sapiens coiled-coil domain containing 158 (CCDC158), transcript variant X12, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
View Old Accession Versions >>
OHu38910 XM_011531910.2 Homo sapiens coiled-coil domain containing 158 (CCDC158), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
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 OHu05158
    Clone ID Related Accession (Same CDS sequence) XM_005262974.4 , NM_001042784.1
    Accession Version NM_001042784.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3342bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-05-03
    Organism Homo sapiens(human)
    Product coiled-coil domain-containing protein 158
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from BC035224.1 and BC086869.1. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## RefSeq Select criteria :: based on conservation ##RefSeq-Attributes-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
    ATGGAATCAA AAGCTTGGGA ATCAAATAAT GAAGATCTTT TATCAAGTAG TGGTGTCACA 
    TCTAATGGAG GTTCTTCAAG TTCATTTTTT GTGTCATCTA TTCGTGGTAC AATAATTGAA
    AACACATCTT CAGCTGGGAC TTTGACACAG GTTCCTTTTT TCCCTAAATA TGAAGTGGAA
    CTTGATTCTC CTAGAAAAAT CATCCCATCT CCTGGAAAGG AACACTTTGA ACGTGTTTTG
    GAAGAATATT CACATCAAGT CAAAGATTTA CAGAGAAGAC TAAATGAAAG CAATGAATTG
    CATGAGAAAC AAAAGTTTTA TTTGAGGCAG TCAGTCATTG ATTTGCAAAC AAAACTTCAG
    GAGATGCAAA TGGAGAGAGA TGCTATGGCT GACATCAGAC GAAGGGAGAG TCAGTCCCAG
    GAGGATTTAA GAAATCAGCT TCAAAATACA GTTCATGAAC TTGAAGCTGC CAAATGCCTT
    AAAGAGGACA TGCTGAAAGA CAGCAACACA CAGATAGAGC AACTACGAAA AATGATGCTT
    AGTCATGAGG GAGTGCTTCA AGAAATCCGG TCAATCCTAG TTGACTTTGA AGAAGCCTCA
    GGCAAAAAAA TATGTGAACA TGACAGCATG TCTACTCTGC ACTTCCGCAG CTTGGGCTCA
    GCTATTAGTA AAATACTAAG AGAATTAGAC ACAGAGATTT CTTATCTTAA AGGGAGGATA
    TTTCCAGTAG AGGATCAACT TGAAGCACTG AAATCTGAAT CACAGAACAA AATAGAACTA
    CTTCTGCAAC AACACCAAGA TAGGATTGAG CAGTTAATAA GTGAACATGA AGTTGAAATA
    ACAGGACTTA CTGAGAAAGC TAGCAGTGCT CGAAGCCAAG CCAATAGTAT CCAGAGTCAA
    ATGGAAATCA TTCAAGAGCA AGCAAGAAAC CAAAACTCTA TGTATATGCG TCAGCTCAGC
    GATCTGGAAT CTACTGTTTC TCAGCTACGT TCTGAATTAA GGGAAGCCAA AAGGATGTAT
    GAAGACAAGA CAGAAGAGCT GGAAAAGCAG TTAGTCCTTG CCAACTCAGA GCTAACTGAA
    GCCCGGACAG AGCGTGATCA ATTCAGTCAG GAATCTGGAA ATTTAGATGA TCAACTTCAA
    AAGCTGTTGG CTGATCTACA CAAAAGGGAG AAGGAGCTGA GTCTGGAGAA GGAGCAGAAT
    AAGCGTCTGT GGGACCGAGA CACAGGCAAC AGCATCACCA TTGACCACCT GCGGCGGGAA
    CTGGACAACC GGAACATGGA GGTGCAGCGC CTGGAAGCCC TGCTCAAGGC CTTGAAGAGC
    GAGTGTCAGG GCCAGATGGA GCGGCAGATG GCAGCAATTC AAGGAAAGAA TGAAAGTCTA
    GAAAAAGTAT CCTCCTTGAC TGCTCAGCTT GAATCCACCA AAGAGATGCT GCGCAAAGTA
    GTAGAAGAGT TGACAGCCAA GAAAATGACT CTGGAGAGCT CAGAGAGGAC AATATCGGAC
    CTGACAACTT CTCTCCAGGA AAAAGAGAGA GCCATCGAGG CTACCAATGC AGAGATCACA
    AAGCTCCGCT CCCGGGTGGA CTTGAAATTG CAGGAGCTGC AACACTTGAA AAATGAAGGG
    GATCATCTCA GAAATGTGCA GACAGAATGT GAGGCCCTCA AACTGCAGAT GACAGAGAAG
    GACAAGGTGA TCGAGATTCT GCGACAGCAG ATTGAGAACA TGACACAGCT GGTGGGCCAG
    CATGGACGAA CTGCTGGAGC TATGCAAGTA GAAAAAGCTC AACTGGAGAA AGAAATTAAT
    GATAGGCGGA TGGAACTAAA GGAACTTAAG ATATTAAAAG ATAAAAAAGA TGCAAAGATC
    CGGGAGCTTG AGGCCAGAGT GAGTGACTTG GAGCTGGAAA AGGTGAAGCT GGTGAATGCA
    GGCTCTGAGC GGCTCCGTGC AGTGAAGGAC ATCAAACAAG AGAGAGATCA ATTATTAAAT
    GAGGTGAAAA CAAGTAGGAG TGAATTAAAC AATCTTTCAG AGGAGTATGA AGTCTTAAAA
    AGGAATTTCC GAAACAAAAG TGAAGAAATG GAAATGACTA CAAATAAGTT GAAAATGCAA
    TTAAAATCTG CACAGTCTGA ACTAGAACAG ACAAGAAATA CATTAAAGTC AATGGAAGGA
    TCTGATGGTC ATGCTATGAA AGTGGCAATG GGGATGCAAA AGCAAATCAC AGCCAAAAGA
    GGTCAGATAG ATGCCCTTCA GAGCAAGATA CAGTTTTTGG AAGAGGCAAT GACAAATGCA
    AATAAGGAGA AACATTTTCT GAAAGAAGAG AAAAGTAAAC TCAGTCAGGA ATTGAGTACT
    GTTGCCACAG AAAAAAACAA GATGGCTGGG GAGTTGGAAG TTCTGCGATC TCAGGAACGC
    CGTTTGAAAG AAAAGGTTAC TAATATGGAA GTGGCTCTGG ATAAGGCATC TTTGCAGTTT
    GCAGAATGTC AAGATATAAT ACAGCGTCAG GAGCAAGAAT CAGTGCGCTT AAAACTTCAA
    CACACTTTGG ATATAAAAGA ACTTCAGGGC CCTGGATACA CCTCAAATTC TTCATTGAAA
    CCACGCCTTC TCCAGCCAGC ATCTGTTACT CGTTCTCATT CTAATGTACC ATCTTCGCAG
    TCTACAGCCA GCTTCCTGTC TCATCACTCT ACAAAAGCTA ACACACTGAA GGAAGATCCA
    ACAAGGGACC TGAAACAGCT TCTCCAAGAG TTGAGAAGCG TGATCAATGA GGAGCCAGCT
    GTGTCTCTGA GCAAGACAGA GGAAGATGGA AGAACATCTC TGGGAGCCTT AGAGGATAGG
    GTAAGAGATT GCATTACTGA ATCCAGCCTG AGATCAGACA TGTGCCATAG AAGCAACAAC
    TCGTTGAGGG ACTCCACTGA AGGAAGCAAA TCAAGTGAAA CTCTTAGTAG AGAGCCAGTC
    ACATTACACG CAGGAGACAG GGAAGATCCC TCTGGTTGCT TCACATTCAC ATCTGCAGCA
    AGTCCATCTG TGAAAAACTC AGCTTCTCGT TCATTCAATT CTTCTCCTAA GAAGTCTCCA
    GTGCACTCAC TCCTAACTAG TTCAGTTGAA GGTTCAATAG GTTCCACATC ACAGTATAGA
    TCTGCCAAAC CTATTCATTC ATCTGATTCT GTTAAAGATT CACAGTCTCC GCCAATAGAA
    ACAACAGGAA AAACATGCAG GAAGCTTCAG AACAGACTAG AAAGCTTGCA AACTCTGGTA
    GAAGATTTAC AGCTGAAGAA CCAAGCAATG TCTTCAATGA TCAGAAATCA AGAAAAGAGG
    ATACAGAAAG TAAAAGACCA GGAAAAAATG TTACTAAAAT GA

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

    RefSeq NP_001036249.1
    CDS154..3495
    Translation

    Target ORF information:

    RefSeq Version NM_001042784.1
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 158 (CCDC158), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001042784.1

    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
    ATGGAATCAA AAGCTTGGGA ATCAAATAAT GAAGATCTTT TATCAAGTAG TGGTGTCACA 
    TCTAATGGAG GTTCTTCAAG TTCATTTTTT GTGTCATCTA TTCGTGGTAC AATAATTGAA
    AACACATCTT CAGCTGGGAC TTTGACACAG GTTCCTTTTT TCCCTAAATA TGAAGTGGAA
    CTTGATTCTC CTAGAAAAAT CATCCCATCT CCTGGAAAGG AACACTTTGA ACGTGTTTTG
    GAAGAATATT CACATCAAGT CAAAGATTTA CAGAGAAGAC TAAATGAAAG CAATGAATTG
    CATGAGAAAC AAAAGTTTTA TTTGAGGCAG TCAGTCATTG ATTTGCAAAC AAAACTTCAG
    GAGATGCAAA TGGAGAGAGA TGCTATGGCT GACATCAGAC GAAGGGAGAG TCAGTCCCAG
    GAGGATTTAA GAAATCAGCT TCAAAATACA GTTCATGAAC TTGAAGCTGC CAAATGCCTT
    AAAGAGGACA TGCTGAAAGA CAGCAACACA CAGATAGAGC AACTACGAAA AATGATGCTT
    AGTCATGAGG GAGTGCTTCA AGAAATCCGG TCAATCCTAG TTGACTTTGA AGAAGCCTCA
    GGCAAAAAAA TATGTGAACA TGACAGCATG TCTACTCTGC ACTTCCGCAG CTTGGGCTCA
    GCTATTAGTA AAATACTAAG AGAATTAGAC ACAGAGATTT CTTATCTTAA AGGGAGGATA
    TTTCCAGTAG AGGATCAACT TGAAGCACTG AAATCTGAAT CACAGAACAA AATAGAACTA
    CTTCTGCAAC AACACCAAGA TAGGATTGAG CAGTTAATAA GTGAACATGA AGTTGAAATA
    ACAGGACTTA CTGAGAAAGC TAGCAGTGCT CGAAGCCAAG CCAATAGTAT CCAGAGTCAA
    ATGGAAATCA TTCAAGAGCA AGCAAGAAAC CAAAACTCTA TGTATATGCG TCAGCTCAGC
    GATCTGGAAT CTACTGTTTC TCAGCTACGT TCTGAATTAA GGGAAGCCAA AAGGATGTAT
    GAAGACAAGA CAGAAGAGCT GGAAAAGCAG TTAGTCCTTG CCAACTCAGA GCTAACTGAA
    GCCCGGACAG AGCGTGATCA ATTCAGTCAG GAATCTGGAA ATTTAGATGA TCAACTTCAA
    AAGCTGTTGG CTGATCTACA CAAAAGGGAG AAGGAGCTGA GTCTGGAGAA GGAGCAGAAT
    AAGCGTCTGT GGGACCGAGA CACAGGCAAC AGCATCACCA TTGACCACCT GCGGCGGGAA
    CTGGACAACC GGAACATGGA GGTGCAGCGC CTGGAAGCCC TGCTCAAGGC CTTGAAGAGC
    GAGTGTCAGG GCCAGATGGA GCGGCAGATG GCAGCAATTC AAGGAAAGAA TGAAAGTCTA
    GAAAAAGTAT CCTCCTTGAC TGCTCAGCTT GAATCCACCA AAGAGATGCT GCGCAAAGTA
    GTAGAAGAGT TGACAGCCAA GAAAATGACT CTGGAGAGCT CAGAGAGGAC AATATCGGAC
    CTGACAACTT CTCTCCAGGA AAAAGAGAGA GCCATCGAGG CTACCAATGC AGAGATCACA
    AAGCTCCGCT CCCGGGTGGA CTTGAAATTG CAGGAGCTGC AACACTTGAA AAATGAAGGG
    GATCATCTCA GAAATGTGCA GACAGAATGT GAGGCCCTCA AACTGCAGAT GACAGAGAAG
    GACAAGGTGA TCGAGATTCT GCGACAGCAG ATTGAGAACA TGACACAGCT GGTGGGCCAG
    CATGGACGAA CTGCTGGAGC TATGCAAGTA GAAAAAGCTC AACTGGAGAA AGAAATTAAT
    GATAGGCGGA TGGAACTAAA GGAACTTAAG ATATTAAAAG ATAAAAAAGA TGCAAAGATC
    CGGGAGCTTG AGGCCAGAGT GAGTGACTTG GAGCTGGAAA AGGTGAAGCT GGTGAATGCA
    GGCTCTGAGC GGCTCCGTGC AGTGAAGGAC ATCAAACAAG AGAGAGATCA ATTATTAAAT
    GAGGTGAAAA CAAGTAGGAG TGAATTAAAC AATCTTTCAG AGGAGTATGA AGTCTTAAAA
    AGGAATTTCC GAAACAAAAG TGAAGAAATG GAAATGACTA CAAATAAGTT GAAAATGCAA
    TTAAAATCTG CACAGTCTGA ACTAGAACAG ACAAGAAATA CATTAAAGTC AATGGAAGGA
    TCTGATGGTC ATGCTATGAA AGTGGCAATG GGGATGCAAA AGCAAATCAC AGCCAAAAGA
    GGTCAGATAG ATGCCCTTCA GAGCAAGATA CAGTTTTTGG AAGAGGCAAT GACAAATGCA
    AATAAGGAGA AACATTTTCT GAAAGAAGAG AAAAGTAAAC TCAGTCAGGA ATTGAGTACT
    GTTGCCACAG AAAAAAACAA GATGGCTGGG GAGTTGGAAG TTCTGCGATC TCAGGAACGC
    CGTTTGAAAG AAAAGGTTAC TAATATGGAA GTGGCTCTGG ATAAGGCATC TTTGCAGTTT
    GCAGAATGTC AAGATATAAT ACAGCGTCAG GAGCAAGAAT CAGTGCGCTT AAAACTTCAA
    CACACTTTGG ATATAAAAGA ACTTCAGGGC CCTGGATACA CCTCAAATTC TTCATTGAAA
    CCACGCCTTC TCCAGCCAGC ATCTGTTACT CGTTCTCATT CTAATGTACC ATCTTCGCAG
    TCTACAGCCA GCTTCCTGTC TCATCACTCT ACAAAAGCTA ACACACTGAA GGAAGATCCA
    ACAAGGGACC TGAAACAGCT TCTCCAAGAG TTGAGAAGCG TGATCAATGA GGAGCCAGCT
    GTGTCTCTGA GCAAGACAGA GGAAGATGGA AGAACATCTC TGGGAGCCTT AGAGGATAGG
    GTAAGAGATT GCATTACTGA ATCCAGCCTG AGATCAGACA TGTGCCATAG AAGCAACAAC
    TCGTTGAGGG ACTCCACTGA AGGAAGCAAA TCAAGTGAAA CTCTTAGTAG AGAGCCAGTC
    ACATTACACG CAGGAGACAG GGAAGATCCC TCTGGTTGCT TCACATTCAC ATCTGCAGCA
    AGTCCATCTG TGAAAAACTC AGCTTCTCGT TCATTCAATT CTTCTCCTAA GAAGTCTCCA
    GTGCACTCAC TCCTAACTAG TTCAGTTGAA GGTTCAATAG GTTCCACATC ACAGTATAGA
    TCTGCCAAAC CTATTCATTC ATCTGATTCT GTTAAAGATT CACAGTCTCC GCCAATAGAA
    ACAACAGGAA AAACATGCAG GAAGCTTCAG AACAGACTAG AAAGCTTGCA AACTCTGGTA
    GAAGATTTAC AGCTGAAGAA CCAAGCAATG TCTTCAATGA TCAGAAATCA AGAAAAGAGG
    ATACAGAAAG TAAAAGACCA GGAAAAAATG TTACTAAAAT GA

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

    CloneID OHu95156
    Clone ID Related Accession (Same CDS sequence) XM_017008161.1
    Accession Version XM_017008161.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2454bp)
    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 coiled-coil domain-containing protein 158 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    ATGGAAATCA TTCAAGAGCA AGCAAGAAAC CAAAACTCTA TGTATATGCG TCAGCTCAGC 
    GATCTGGAAT CTACTGTTTC TCAGCTACGT TCTGAATTAA GGGAAGCCAA AAGGATGTAT
    GAAGACAAGA CAGAAGAGCT GGAAAAGCAG TTAGTCCTTG CCAACTCAGA GCTAACTGAA
    GCCCGGACAG AGCGTGATCA ATTCAGTCAG GAATCTGGAA ATTTAGATGA TCAACTTCAA
    AAGCTGTTGG CTGATCTACA CAAAAGGGAG AAGGAGCTGA GTCTGGAGAA GGAGCAGAAT
    AAGCGTCTGT GGGACCGAGA CACAGGCAAC AGCATCACCA TTGACCACCT GCGGCGGGAA
    CTGGACAACC GGAACATGGA GGTGCAGCGC CTGGAAGCCC TGCTCAAGGC CTTGAAGAGC
    GAGTGTCAGG GCCAGATGGA GCGGCAGATG GCAGCAATTC AAGGAAAGAA TGAAAGTCTA
    GAAAAAGTAT CCTCCTTGAC TGCTCAGCTT GAATCCACCA AAGAGATGCT GCGCAAAGTA
    GTAGAAGAGT TGACAGCCAA GAAAATGACT CTGGAGAGCT CAGAGAGGAC AATATCGGAC
    CTGACAACTT CTCTCCAGGA AAAAGAGAGA GCCATCGAGG CTACCAATGC AGAGATCACA
    AAGCTCCGCT CCCGGGTGGA CTTGAAATTG CAGGAGCTGC AACACTTGAA AAATGAAGGG
    GATCATCTCA GAAATGTGCA GACAGAATGT GAGGCCCTCA AACTGCAGAT GACAGAGAAG
    GACAAGGTGA TCGAGATTCT GCGACAGCAG ATTGAGAACA TGACACAGCT GGTGGGCCAG
    CATGGACGAA CTGCTGGAGC TATGCAAGTA GAAAAAGCTC AACTGGAGAA AGAAATTAAT
    GATAGGCGGA TGGAACTAAA GGAACTTAAG ATATTAAAAG ATAAAAAAGA TGCAAAGATC
    CGGGAGCTTG AGGCCAGAGT GAGTGACTTG GAGCTGGAAA AGGTGAAGCT GGTGAATGCA
    GGCTCTGAGC GGCTCCGTGC AGTGAAGGAC ATCAAACAAG AGAGAGATCA ATTATTAAAT
    GAGGTGAAAA CAAGTAGGAG TGAATTAAAC AATCTTTCAG AGGAGTATGA AGTCTTAAAA
    AGGAATTTCC GAAACAAAAG TGAAGAAATG GAAATGACTA CAAATAAGTT GAAAATGCAA
    TTAAAATCTG CACAGTCTGA ACTAGAACAG ACAAGAAATA CATTAAAGTC AATGGAAGGA
    TCTGATGGTC ATGCTATGAA AGTGGCAATG GGGATGCAAA AGCAAATCAC AGCCAAAAGA
    GGTCAGATAG ATGCCCTTCA GAGCAAGATA CAGTTTTTGG AAGAGGCAAT GACAAATGCA
    AATAAGGAGA AACATTTTCT GAAAGAAGAG AAAAGTAAAC TCAGTCAGGA ATTGAGTACT
    GTTGCCACAG AAAAAAACAA GATGGCTGGG GAGTTGGAAG TTCTGCGATC TCAGGAACGC
    CGTTTGAAAG AAAAGGTTAC TAATATGGAA GTGGCTCTGG ATAAGGCATC TTTGCAGTTT
    GCAGAATGTC AAGATATAAT ACAGCGTCAG GAGCAAGAAT CAGTGCGCTT AAAACTTCAA
    CACACTTTGG ATATAAAAGA ACTTCAGGGC CCTGGATACA CCTCAAATTC TTCATTGAAA
    CCACGCCTTC TCCAGCCAGC ATCTGTTACT CGTTCTCATT CTAATGTACC ATCTTCGCAG
    TCTACAGCCA GCTTCCTGTC TCATCACTCT ACAAAAGCTA ACACACTGAA GGAAGATCCA
    ACAAGGGACC TGAAACAGCT TCTCCAAGAG TTGAGAAGCG TGATCAATGA GGAGCCAGCT
    GTGTCTCTGA GCAAGACAGA GGAAGATGGA AGAACATCTC TGGGAGCCTT GTATGTGGCT
    GTAGAGGATA GGGTAAGAGA TTGCATTACT GAATCCAGCC TGAGATCAGA CATGTGCCAT
    AGAAGCAACA ACTCGTTGAG GGACTCCACT GAAGGAAGCA AATCAAGTGA AACTCTTAGT
    AGAGAGCCAG TCACATTACA CGCAGGAGAC AGGGAAGATC CCTCTGGTTG CTTCACATTC
    ACATCTGCAG CAAGTCCATC TGTGAAAAAC TCAGCTTCTC GTTCATTCAA TTCTTCTCCT
    AAGAAGTCTC CAGTGCACTC ACTCCTAACT AGTTCAGTTG AAGGTTCAAT AGGTTCCACA
    TCACAGTATA GATCTGCCAA ACCTATTCAT TCATCTGATT CTGTTAAAGA TTCACAGTCT
    CCGCCAATAG AAACAACAGG AAAAACATGC AGGAAGCTTC AGAACAGACT AGAAAGCTTG
    CAAACTCTGG TAGAAGATTT ACAGCTGAAG AACCAAGCAA TGTCTTCAAT GATCAGAAAT
    CAAGAAAAGA GGATACAGAA AGTAAAAGAC CAGGAAAAAA TGTTACTAAA ATGA

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

    RefSeq XP_016863650.1
    CDS246..2699
    Translation

    Target ORF information:

    RefSeq Version XM_017008161.1
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 158 (CCDC158), transcript variant X16, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017008161.1

    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
    ATGGAAATCA TTCAAGAGCA AGCAAGAAAC CAAAACTCTA TGTATATGCG TCAGCTCAGC 
    GATCTGGAAT CTACTGTTTC TCAGCTACGT TCTGAATTAA GGGAAGCCAA AAGGATGTAT
    GAAGACAAGA CAGAAGAGCT GGAAAAGCAG TTAGTCCTTG CCAACTCAGA GCTAACTGAA
    GCCCGGACAG AGCGTGATCA ATTCAGTCAG GAATCTGGAA ATTTAGATGA TCAACTTCAA
    AAGCTGTTGG CTGATCTACA CAAAAGGGAG AAGGAGCTGA GTCTGGAGAA GGAGCAGAAT
    AAGCGTCTGT GGGACCGAGA CACAGGCAAC AGCATCACCA TTGACCACCT GCGGCGGGAA
    CTGGACAACC GGAACATGGA GGTGCAGCGC CTGGAAGCCC TGCTCAAGGC CTTGAAGAGC
    GAGTGTCAGG GCCAGATGGA GCGGCAGATG GCAGCAATTC AAGGAAAGAA TGAAAGTCTA
    GAAAAAGTAT CCTCCTTGAC TGCTCAGCTT GAATCCACCA AAGAGATGCT GCGCAAAGTA
    GTAGAAGAGT TGACAGCCAA GAAAATGACT CTGGAGAGCT CAGAGAGGAC AATATCGGAC
    CTGACAACTT CTCTCCAGGA AAAAGAGAGA GCCATCGAGG CTACCAATGC AGAGATCACA
    AAGCTCCGCT CCCGGGTGGA CTTGAAATTG CAGGAGCTGC AACACTTGAA AAATGAAGGG
    GATCATCTCA GAAATGTGCA GACAGAATGT GAGGCCCTCA AACTGCAGAT GACAGAGAAG
    GACAAGGTGA TCGAGATTCT GCGACAGCAG ATTGAGAACA TGACACAGCT GGTGGGCCAG
    CATGGACGAA CTGCTGGAGC TATGCAAGTA GAAAAAGCTC AACTGGAGAA AGAAATTAAT
    GATAGGCGGA TGGAACTAAA GGAACTTAAG ATATTAAAAG ATAAAAAAGA TGCAAAGATC
    CGGGAGCTTG AGGCCAGAGT GAGTGACTTG GAGCTGGAAA AGGTGAAGCT GGTGAATGCA
    GGCTCTGAGC GGCTCCGTGC AGTGAAGGAC ATCAAACAAG AGAGAGATCA ATTATTAAAT
    GAGGTGAAAA CAAGTAGGAG TGAATTAAAC AATCTTTCAG AGGAGTATGA AGTCTTAAAA
    AGGAATTTCC GAAACAAAAG TGAAGAAATG GAAATGACTA CAAATAAGTT GAAAATGCAA
    TTAAAATCTG CACAGTCTGA ACTAGAACAG ACAAGAAATA CATTAAAGTC AATGGAAGGA
    TCTGATGGTC ATGCTATGAA AGTGGCAATG GGGATGCAAA AGCAAATCAC AGCCAAAAGA
    GGTCAGATAG ATGCCCTTCA GAGCAAGATA CAGTTTTTGG AAGAGGCAAT GACAAATGCA
    AATAAGGAGA AACATTTTCT GAAAGAAGAG AAAAGTAAAC TCAGTCAGGA ATTGAGTACT
    GTTGCCACAG AAAAAAACAA GATGGCTGGG GAGTTGGAAG TTCTGCGATC TCAGGAACGC
    CGTTTGAAAG AAAAGGTTAC TAATATGGAA GTGGCTCTGG ATAAGGCATC TTTGCAGTTT
    GCAGAATGTC AAGATATAAT ACAGCGTCAG GAGCAAGAAT CAGTGCGCTT AAAACTTCAA
    CACACTTTGG ATATAAAAGA ACTTCAGGGC CCTGGATACA CCTCAAATTC TTCATTGAAA
    CCACGCCTTC TCCAGCCAGC ATCTGTTACT CGTTCTCATT CTAATGTACC ATCTTCGCAG
    TCTACAGCCA GCTTCCTGTC TCATCACTCT ACAAAAGCTA ACACACTGAA GGAAGATCCA
    ACAAGGGACC TGAAACAGCT TCTCCAAGAG TTGAGAAGCG TGATCAATGA GGAGCCAGCT
    GTGTCTCTGA GCAAGACAGA GGAAGATGGA AGAACATCTC TGGGAGCCTT GTATGTGGCT
    GTAGAGGATA GGGTAAGAGA TTGCATTACT GAATCCAGCC TGAGATCAGA CATGTGCCAT
    AGAAGCAACA ACTCGTTGAG GGACTCCACT GAAGGAAGCA AATCAAGTGA AACTCTTAGT
    AGAGAGCCAG TCACATTACA CGCAGGAGAC AGGGAAGATC CCTCTGGTTG CTTCACATTC
    ACATCTGCAG CAAGTCCATC TGTGAAAAAC TCAGCTTCTC GTTCATTCAA TTCTTCTCCT
    AAGAAGTCTC CAGTGCACTC ACTCCTAACT AGTTCAGTTG AAGGTTCAAT AGGTTCCACA
    TCACAGTATA GATCTGCCAA ACCTATTCAT TCATCTGATT CTGTTAAAGA TTCACAGTCT
    CCGCCAATAG AAACAACAGG AAAAACATGC AGGAAGCTTC AGAACAGACT AGAAAGCTTG
    CAAACTCTGG TAGAAGATTT ACAGCTGAAG AACCAAGCAA TGTCTTCAAT GATCAGAAAT
    CAAGAAAAGA GGATACAGAA AGTAAAAGAC CAGGAAAAAA TGTTACTAAA ATGA

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

    CloneID OHu05158
    Clone ID Related Accession (Same CDS sequence) XM_005262974.4 , NM_001042784.1
    Accession Version XM_005262974.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3342bp)
    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 coiled-coil domain-containing protein 158 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_005262974.3. ##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
    ATGGAATCAA AAGCTTGGGA ATCAAATAAT GAAGATCTTT TATCAAGTAG TGGTGTCACA 
    TCTAATGGAG GTTCTTCAAG TTCATTTTTT GTGTCATCTA TTCGTGGTAC AATAATTGAA
    AACACATCTT CAGCTGGGAC TTTGACACAG GTTCCTTTTT TCCCTAAATA TGAAGTGGAA
    CTTGATTCTC CTAGAAAAAT CATCCCATCT CCTGGAAAGG AACACTTTGA ACGTGTTTTG
    GAAGAATATT CACATCAAGT CAAAGATTTA CAGAGAAGAC TAAATGAAAG CAATGAATTG
    CATGAGAAAC AAAAGTTTTA TTTGAGGCAG TCAGTCATTG ATTTGCAAAC AAAACTTCAG
    GAGATGCAAA TGGAGAGAGA TGCTATGGCT GACATCAGAC GAAGGGAGAG TCAGTCCCAG
    GAGGATTTAA GAAATCAGCT TCAAAATACA GTTCATGAAC TTGAAGCTGC CAAATGCCTT
    AAAGAGGACA TGCTGAAAGA CAGCAACACA CAGATAGAGC AACTACGAAA AATGATGCTT
    AGTCATGAGG GAGTGCTTCA AGAAATCCGG TCAATCCTAG TTGACTTTGA AGAAGCCTCA
    GGCAAAAAAA TATGTGAACA TGACAGCATG TCTACTCTGC ACTTCCGCAG CTTGGGCTCA
    GCTATTAGTA AAATACTAAG AGAATTAGAC ACAGAGATTT CTTATCTTAA AGGGAGGATA
    TTTCCAGTAG AGGATCAACT TGAAGCACTG AAATCTGAAT CACAGAACAA AATAGAACTA
    CTTCTGCAAC AACACCAAGA TAGGATTGAG CAGTTAATAA GTGAACATGA AGTTGAAATA
    ACAGGACTTA CTGAGAAAGC TAGCAGTGCT CGAAGCCAAG CCAATAGTAT CCAGAGTCAA
    ATGGAAATCA TTCAAGAGCA AGCAAGAAAC CAAAACTCTA TGTATATGCG TCAGCTCAGC
    GATCTGGAAT CTACTGTTTC TCAGCTACGT TCTGAATTAA GGGAAGCCAA AAGGATGTAT
    GAAGACAAGA CAGAAGAGCT GGAAAAGCAG TTAGTCCTTG CCAACTCAGA GCTAACTGAA
    GCCCGGACAG AGCGTGATCA ATTCAGTCAG GAATCTGGAA ATTTAGATGA TCAACTTCAA
    AAGCTGTTGG CTGATCTACA CAAAAGGGAG AAGGAGCTGA GTCTGGAGAA GGAGCAGAAT
    AAGCGTCTGT GGGACCGAGA CACAGGCAAC AGCATCACCA TTGACCACCT GCGGCGGGAA
    CTGGACAACC GGAACATGGA GGTGCAGCGC CTGGAAGCCC TGCTCAAGGC CTTGAAGAGC
    GAGTGTCAGG GCCAGATGGA GCGGCAGATG GCAGCAATTC AAGGAAAGAA TGAAAGTCTA
    GAAAAAGTAT CCTCCTTGAC TGCTCAGCTT GAATCCACCA AAGAGATGCT GCGCAAAGTA
    GTAGAAGAGT TGACAGCCAA GAAAATGACT CTGGAGAGCT CAGAGAGGAC AATATCGGAC
    CTGACAACTT CTCTCCAGGA AAAAGAGAGA GCCATCGAGG CTACCAATGC AGAGATCACA
    AAGCTCCGCT CCCGGGTGGA CTTGAAATTG CAGGAGCTGC AACACTTGAA AAATGAAGGG
    GATCATCTCA GAAATGTGCA GACAGAATGT GAGGCCCTCA AACTGCAGAT GACAGAGAAG
    GACAAGGTGA TCGAGATTCT GCGACAGCAG ATTGAGAACA TGACACAGCT GGTGGGCCAG
    CATGGACGAA CTGCTGGAGC TATGCAAGTA GAAAAAGCTC AACTGGAGAA AGAAATTAAT
    GATAGGCGGA TGGAACTAAA GGAACTTAAG ATATTAAAAG ATAAAAAAGA TGCAAAGATC
    CGGGAGCTTG AGGCCAGAGT GAGTGACTTG GAGCTGGAAA AGGTGAAGCT GGTGAATGCA
    GGCTCTGAGC GGCTCCGTGC AGTGAAGGAC ATCAAACAAG AGAGAGATCA ATTATTAAAT
    GAGGTGAAAA CAAGTAGGAG TGAATTAAAC AATCTTTCAG AGGAGTATGA AGTCTTAAAA
    AGGAATTTCC GAAACAAAAG TGAAGAAATG GAAATGACTA CAAATAAGTT GAAAATGCAA
    TTAAAATCTG CACAGTCTGA ACTAGAACAG ACAAGAAATA CATTAAAGTC AATGGAAGGA
    TCTGATGGTC ATGCTATGAA AGTGGCAATG GGGATGCAAA AGCAAATCAC AGCCAAAAGA
    GGTCAGATAG ATGCCCTTCA GAGCAAGATA CAGTTTTTGG AAGAGGCAAT GACAAATGCA
    AATAAGGAGA AACATTTTCT GAAAGAAGAG AAAAGTAAAC TCAGTCAGGA ATTGAGTACT
    GTTGCCACAG AAAAAAACAA GATGGCTGGG GAGTTGGAAG TTCTGCGATC TCAGGAACGC
    CGTTTGAAAG AAAAGGTTAC TAATATGGAA GTGGCTCTGG ATAAGGCATC TTTGCAGTTT
    GCAGAATGTC AAGATATAAT ACAGCGTCAG GAGCAAGAAT CAGTGCGCTT AAAACTTCAA
    CACACTTTGG ATATAAAAGA ACTTCAGGGC CCTGGATACA CCTCAAATTC TTCATTGAAA
    CCACGCCTTC TCCAGCCAGC ATCTGTTACT CGTTCTCATT CTAATGTACC ATCTTCGCAG
    TCTACAGCCA GCTTCCTGTC TCATCACTCT ACAAAAGCTA ACACACTGAA GGAAGATCCA
    ACAAGGGACC TGAAACAGCT TCTCCAAGAG TTGAGAAGCG TGATCAATGA GGAGCCAGCT
    GTGTCTCTGA GCAAGACAGA GGAAGATGGA AGAACATCTC TGGGAGCCTT AGAGGATAGG
    GTAAGAGATT GCATTACTGA ATCCAGCCTG AGATCAGACA TGTGCCATAG AAGCAACAAC
    TCGTTGAGGG ACTCCACTGA AGGAAGCAAA TCAAGTGAAA CTCTTAGTAG AGAGCCAGTC
    ACATTACACG CAGGAGACAG GGAAGATCCC TCTGGTTGCT TCACATTCAC ATCTGCAGCA
    AGTCCATCTG TGAAAAACTC AGCTTCTCGT TCATTCAATT CTTCTCCTAA GAAGTCTCCA
    GTGCACTCAC TCCTAACTAG TTCAGTTGAA GGTTCAATAG GTTCCACATC ACAGTATAGA
    TCTGCCAAAC CTATTCATTC ATCTGATTCT GTTAAAGATT CACAGTCTCC GCCAATAGAA
    ACAACAGGAA AAACATGCAG GAAGCTTCAG AACAGACTAG AAAGCTTGCA AACTCTGGTA
    GAAGATTTAC AGCTGAAGAA CCAAGCAATG TCTTCAATGA TCAGAAATCA AGAAAAGAGG
    ATACAGAAAG TAAAAGACCA GGAAAAAATG TTACTAAAAT GA

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

    RefSeq XP_005263031.1
    CDS281..3622
    Translation

    Target ORF information:

    RefSeq Version XM_005262974.4
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 158 (CCDC158), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005262974.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    ATGGAATCAA AAGCTTGGGA ATCAAATAAT GAAGATCTTT TATCAAGTAG TGGTGTCACA 
    TCTAATGGAG GTTCTTCAAG TTCATTTTTT GTGTCATCTA TTCGTGGTAC AATAATTGAA
    AACACATCTT CAGCTGGGAC TTTGACACAG GTTCCTTTTT TCCCTAAATA TGAAGTGGAA
    CTTGATTCTC CTAGAAAAAT CATCCCATCT CCTGGAAAGG AACACTTTGA ACGTGTTTTG
    GAAGAATATT CACATCAAGT CAAAGATTTA CAGAGAAGAC TAAATGAAAG CAATGAATTG
    CATGAGAAAC AAAAGTTTTA TTTGAGGCAG TCAGTCATTG ATTTGCAAAC AAAACTTCAG
    GAGATGCAAA TGGAGAGAGA TGCTATGGCT GACATCAGAC GAAGGGAGAG TCAGTCCCAG
    GAGGATTTAA GAAATCAGCT TCAAAATACA GTTCATGAAC TTGAAGCTGC CAAATGCCTT
    AAAGAGGACA TGCTGAAAGA CAGCAACACA CAGATAGAGC AACTACGAAA AATGATGCTT
    AGTCATGAGG GAGTGCTTCA AGAAATCCGG TCAATCCTAG TTGACTTTGA AGAAGCCTCA
    GGCAAAAAAA TATGTGAACA TGACAGCATG TCTACTCTGC ACTTCCGCAG CTTGGGCTCA
    GCTATTAGTA AAATACTAAG AGAATTAGAC ACAGAGATTT CTTATCTTAA AGGGAGGATA
    TTTCCAGTAG AGGATCAACT TGAAGCACTG AAATCTGAAT CACAGAACAA AATAGAACTA
    CTTCTGCAAC AACACCAAGA TAGGATTGAG CAGTTAATAA GTGAACATGA AGTTGAAATA
    ACAGGACTTA CTGAGAAAGC TAGCAGTGCT CGAAGCCAAG CCAATAGTAT CCAGAGTCAA
    ATGGAAATCA TTCAAGAGCA AGCAAGAAAC CAAAACTCTA TGTATATGCG TCAGCTCAGC
    GATCTGGAAT CTACTGTTTC TCAGCTACGT TCTGAATTAA GGGAAGCCAA AAGGATGTAT
    GAAGACAAGA CAGAAGAGCT GGAAAAGCAG TTAGTCCTTG CCAACTCAGA GCTAACTGAA
    GCCCGGACAG AGCGTGATCA ATTCAGTCAG GAATCTGGAA ATTTAGATGA TCAACTTCAA
    AAGCTGTTGG CTGATCTACA CAAAAGGGAG AAGGAGCTGA GTCTGGAGAA GGAGCAGAAT
    AAGCGTCTGT GGGACCGAGA CACAGGCAAC AGCATCACCA TTGACCACCT GCGGCGGGAA
    CTGGACAACC GGAACATGGA GGTGCAGCGC CTGGAAGCCC TGCTCAAGGC CTTGAAGAGC
    GAGTGTCAGG GCCAGATGGA GCGGCAGATG GCAGCAATTC AAGGAAAGAA TGAAAGTCTA
    GAAAAAGTAT CCTCCTTGAC TGCTCAGCTT GAATCCACCA AAGAGATGCT GCGCAAAGTA
    GTAGAAGAGT TGACAGCCAA GAAAATGACT CTGGAGAGCT CAGAGAGGAC AATATCGGAC
    CTGACAACTT CTCTCCAGGA AAAAGAGAGA GCCATCGAGG CTACCAATGC AGAGATCACA
    AAGCTCCGCT CCCGGGTGGA CTTGAAATTG CAGGAGCTGC AACACTTGAA AAATGAAGGG
    GATCATCTCA GAAATGTGCA GACAGAATGT GAGGCCCTCA AACTGCAGAT GACAGAGAAG
    GACAAGGTGA TCGAGATTCT GCGACAGCAG ATTGAGAACA TGACACAGCT GGTGGGCCAG
    CATGGACGAA CTGCTGGAGC TATGCAAGTA GAAAAAGCTC AACTGGAGAA AGAAATTAAT
    GATAGGCGGA TGGAACTAAA GGAACTTAAG ATATTAAAAG ATAAAAAAGA TGCAAAGATC
    CGGGAGCTTG AGGCCAGAGT GAGTGACTTG GAGCTGGAAA AGGTGAAGCT GGTGAATGCA
    GGCTCTGAGC GGCTCCGTGC AGTGAAGGAC ATCAAACAAG AGAGAGATCA ATTATTAAAT
    GAGGTGAAAA CAAGTAGGAG TGAATTAAAC AATCTTTCAG AGGAGTATGA AGTCTTAAAA
    AGGAATTTCC GAAACAAAAG TGAAGAAATG GAAATGACTA CAAATAAGTT GAAAATGCAA
    TTAAAATCTG CACAGTCTGA ACTAGAACAG ACAAGAAATA CATTAAAGTC AATGGAAGGA
    TCTGATGGTC ATGCTATGAA AGTGGCAATG GGGATGCAAA AGCAAATCAC AGCCAAAAGA
    GGTCAGATAG ATGCCCTTCA GAGCAAGATA CAGTTTTTGG AAGAGGCAAT GACAAATGCA
    AATAAGGAGA AACATTTTCT GAAAGAAGAG AAAAGTAAAC TCAGTCAGGA ATTGAGTACT
    GTTGCCACAG AAAAAAACAA GATGGCTGGG GAGTTGGAAG TTCTGCGATC TCAGGAACGC
    CGTTTGAAAG AAAAGGTTAC TAATATGGAA GTGGCTCTGG ATAAGGCATC TTTGCAGTTT
    GCAGAATGTC AAGATATAAT ACAGCGTCAG GAGCAAGAAT CAGTGCGCTT AAAACTTCAA
    CACACTTTGG ATATAAAAGA ACTTCAGGGC CCTGGATACA CCTCAAATTC TTCATTGAAA
    CCACGCCTTC TCCAGCCAGC ATCTGTTACT CGTTCTCATT CTAATGTACC ATCTTCGCAG
    TCTACAGCCA GCTTCCTGTC TCATCACTCT ACAAAAGCTA ACACACTGAA GGAAGATCCA
    ACAAGGGACC TGAAACAGCT TCTCCAAGAG TTGAGAAGCG TGATCAATGA GGAGCCAGCT
    GTGTCTCTGA GCAAGACAGA GGAAGATGGA AGAACATCTC TGGGAGCCTT AGAGGATAGG
    GTAAGAGATT GCATTACTGA ATCCAGCCTG AGATCAGACA TGTGCCATAG AAGCAACAAC
    TCGTTGAGGG ACTCCACTGA AGGAAGCAAA TCAAGTGAAA CTCTTAGTAG AGAGCCAGTC
    ACATTACACG CAGGAGACAG GGAAGATCCC TCTGGTTGCT TCACATTCAC ATCTGCAGCA
    AGTCCATCTG TGAAAAACTC AGCTTCTCGT TCATTCAATT CTTCTCCTAA GAAGTCTCCA
    GTGCACTCAC TCCTAACTAG TTCAGTTGAA GGTTCAATAG GTTCCACATC ACAGTATAGA
    TCTGCCAAAC CTATTCATTC ATCTGATTCT GTTAAAGATT CACAGTCTCC GCCAATAGAA
    ACAACAGGAA AAACATGCAG GAAGCTTCAG AACAGACTAG AAAGCTTGCA AACTCTGGTA
    GAAGATTTAC AGCTGAAGAA CCAAGCAATG TCTTCAATGA TCAGAAATCA AGAAAAGAGG
    ATACAGAAAG TAAAAGACCA GGAAAAAATG TTACTAAAAT GA

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

    CloneID OHu38910
    Clone ID Related Accession (Same CDS sequence) XM_011531909.2 , XM_006714204.3 , XM_017008160.1 , XM_011531913.1 , XM_011531908.2 , XM_011531912.2 , XM_011531911.1 , XM_011531914.2 , XM_011531910.2 , XM_011531910.3
    Accession Version XM_011531909.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3354bp)
    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 coiled-coil domain-containing protein 158 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011531909.1. ##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
    ATGGAATCAA AAGCTTGGGA ATCAAATAAT GAAGATCTTT TATCAAGTAG TGGTGTCACA 
    TCTAATGGAG GTTCTTCAAG TTCATTTTTT GTGTCATCTA TTCGTGGTAC AATAATTGAA
    AACACATCTT CAGCTGGGAC TTTGACACAG GTTCCTTTTT TCCCTAAATA TGAAGTGGAA
    CTTGATTCTC CTAGAAAAAT CATCCCATCT CCTGGAAAGG AACACTTTGA ACGTGTTTTG
    GAAGAATATT CACATCAAGT CAAAGATTTA CAGAGAAGAC TAAATGAAAG CAATGAATTG
    CATGAGAAAC AAAAGTTTTA TTTGAGGCAG TCAGTCATTG ATTTGCAAAC AAAACTTCAG
    GAGATGCAAA TGGAGAGAGA TGCTATGGCT GACATCAGAC GAAGGGAGAG TCAGTCCCAG
    GAGGATTTAA GAAATCAGCT TCAAAATACA GTTCATGAAC TTGAAGCTGC CAAATGCCTT
    AAAGAGGACA TGCTGAAAGA CAGCAACACA CAGATAGAGC AACTACGAAA AATGATGCTT
    AGTCATGAGG GAGTGCTTCA AGAAATCCGG TCAATCCTAG TTGACTTTGA AGAAGCCTCA
    GGCAAAAAAA TATGTGAACA TGACAGCATG TCTACTCTGC ACTTCCGCAG CTTGGGCTCA
    GCTATTAGTA AAATACTAAG AGAATTAGAC ACAGAGATTT CTTATCTTAA AGGGAGGATA
    TTTCCAGTAG AGGATCAACT TGAAGCACTG AAATCTGAAT CACAGAACAA AATAGAACTA
    CTTCTGCAAC AACACCAAGA TAGGATTGAG CAGTTAATAA GTGAACATGA AGTTGAAATA
    ACAGGACTTA CTGAGAAAGC TAGCAGTGCT CGAAGCCAAG CCAATAGTAT CCAGAGTCAA
    ATGGAAATCA TTCAAGAGCA AGCAAGAAAC CAAAACTCTA TGTATATGCG TCAGCTCAGC
    GATCTGGAAT CTACTGTTTC TCAGCTACGT TCTGAATTAA GGGAAGCCAA AAGGATGTAT
    GAAGACAAGA CAGAAGAGCT GGAAAAGCAG TTAGTCCTTG CCAACTCAGA GCTAACTGAA
    GCCCGGACAG AGCGTGATCA ATTCAGTCAG GAATCTGGAA ATTTAGATGA TCAACTTCAA
    AAGCTGTTGG CTGATCTACA CAAAAGGGAG AAGGAGCTGA GTCTGGAGAA GGAGCAGAAT
    AAGCGTCTGT GGGACCGAGA CACAGGCAAC AGCATCACCA TTGACCACCT GCGGCGGGAA
    CTGGACAACC GGAACATGGA GGTGCAGCGC CTGGAAGCCC TGCTCAAGGC CTTGAAGAGC
    GAGTGTCAGG GCCAGATGGA GCGGCAGATG GCAGCAATTC AAGGAAAGAA TGAAAGTCTA
    GAAAAAGTAT CCTCCTTGAC TGCTCAGCTT GAATCCACCA AAGAGATGCT GCGCAAAGTA
    GTAGAAGAGT TGACAGCCAA GAAAATGACT CTGGAGAGCT CAGAGAGGAC AATATCGGAC
    CTGACAACTT CTCTCCAGGA AAAAGAGAGA GCCATCGAGG CTACCAATGC AGAGATCACA
    AAGCTCCGCT CCCGGGTGGA CTTGAAATTG CAGGAGCTGC AACACTTGAA AAATGAAGGG
    GATCATCTCA GAAATGTGCA GACAGAATGT GAGGCCCTCA AACTGCAGAT GACAGAGAAG
    GACAAGGTGA TCGAGATTCT GCGACAGCAG ATTGAGAACA TGACACAGCT GGTGGGCCAG
    CATGGACGAA CTGCTGGAGC TATGCAAGTA GAAAAAGCTC AACTGGAGAA AGAAATTAAT
    GATAGGCGGA TGGAACTAAA GGAACTTAAG ATATTAAAAG ATAAAAAAGA TGCAAAGATC
    CGGGAGCTTG AGGCCAGAGT GAGTGACTTG GAGCTGGAAA AGGTGAAGCT GGTGAATGCA
    GGCTCTGAGC GGCTCCGTGC AGTGAAGGAC ATCAAACAAG AGAGAGATCA ATTATTAAAT
    GAGGTGAAAA CAAGTAGGAG TGAATTAAAC AATCTTTCAG AGGAGTATGA AGTCTTAAAA
    AGGAATTTCC GAAACAAAAG TGAAGAAATG GAAATGACTA CAAATAAGTT GAAAATGCAA
    TTAAAATCTG CACAGTCTGA ACTAGAACAG ACAAGAAATA CATTAAAGTC AATGGAAGGA
    TCTGATGGTC ATGCTATGAA AGTGGCAATG GGGATGCAAA AGCAAATCAC AGCCAAAAGA
    GGTCAGATAG ATGCCCTTCA GAGCAAGATA CAGTTTTTGG AAGAGGCAAT GACAAATGCA
    AATAAGGAGA AACATTTTCT GAAAGAAGAG AAAAGTAAAC TCAGTCAGGA ATTGAGTACT
    GTTGCCACAG AAAAAAACAA GATGGCTGGG GAGTTGGAAG TTCTGCGATC TCAGGAACGC
    CGTTTGAAAG AAAAGGTTAC TAATATGGAA GTGGCTCTGG ATAAGGCATC TTTGCAGTTT
    GCAGAATGTC AAGATATAAT ACAGCGTCAG GAGCAAGAAT CAGTGCGCTT AAAACTTCAA
    CACACTTTGG ATATAAAAGA ACTTCAGGGC CCTGGATACA CCTCAAATTC TTCATTGAAA
    CCACGCCTTC TCCAGCCAGC ATCTGTTACT CGTTCTCATT CTAATGTACC ATCTTCGCAG
    TCTACAGCCA GCTTCCTGTC TCATCACTCT ACAAAAGCTA ACACACTGAA GGAAGATCCA
    ACAAGGGACC TGAAACAGCT TCTCCAAGAG TTGAGAAGCG TGATCAATGA GGAGCCAGCT
    GTGTCTCTGA GCAAGACAGA GGAAGATGGA AGAACATCTC TGGGAGCCTT GTATGTGGCT
    GTAGAGGATA GGGTAAGAGA TTGCATTACT GAATCCAGCC TGAGATCAGA CATGTGCCAT
    AGAAGCAACA ACTCGTTGAG GGACTCCACT GAAGGAAGCA AATCAAGTGA AACTCTTAGT
    AGAGAGCCAG TCACATTACA CGCAGGAGAC AGGGAAGATC CCTCTGGTTG CTTCACATTC
    ACATCTGCAG CAAGTCCATC TGTGAAAAAC TCAGCTTCTC GTTCATTCAA TTCTTCTCCT
    AAGAAGTCTC CAGTGCACTC ACTCCTAACT AGTTCAGTTG AAGGTTCAAT AGGTTCCACA
    TCACAGTATA GATCTGCCAA ACCTATTCAT TCATCTGATT CTGTTAAAGA TTCACAGTCT
    CCGCCAATAG AAACAACAGG AAAAACATGC AGGAAGCTTC AGAACAGACT AGAAAGCTTG
    CAAACTCTGG TAGAAGATTT ACAGCTGAAG AACCAAGCAA TGTCTTCAAT GATCAGAAAT
    CAAGAAAAGA GGATACAGAA AGTAAAAGAC CAGGAAAAAA TGTTACTAAA ATGA

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

    RefSeq XP_011530211.1
    CDS401..3754
    Translation

    Target ORF information:

    RefSeq Version XM_011531909.2
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 158 (CCDC158), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011531909.2

    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
    ATGGAATCAA AAGCTTGGGA ATCAAATAAT GAAGATCTTT TATCAAGTAG TGGTGTCACA 
    TCTAATGGAG GTTCTTCAAG TTCATTTTTT GTGTCATCTA TTCGTGGTAC AATAATTGAA
    AACACATCTT CAGCTGGGAC TTTGACACAG GTTCCTTTTT TCCCTAAATA TGAAGTGGAA
    CTTGATTCTC CTAGAAAAAT CATCCCATCT CCTGGAAAGG AACACTTTGA ACGTGTTTTG
    GAAGAATATT CACATCAAGT CAAAGATTTA CAGAGAAGAC TAAATGAAAG CAATGAATTG
    CATGAGAAAC AAAAGTTTTA TTTGAGGCAG TCAGTCATTG ATTTGCAAAC AAAACTTCAG
    GAGATGCAAA TGGAGAGAGA TGCTATGGCT GACATCAGAC GAAGGGAGAG TCAGTCCCAG
    GAGGATTTAA GAAATCAGCT TCAAAATACA GTTCATGAAC TTGAAGCTGC CAAATGCCTT
    AAAGAGGACA TGCTGAAAGA CAGCAACACA CAGATAGAGC AACTACGAAA AATGATGCTT
    AGTCATGAGG GAGTGCTTCA AGAAATCCGG TCAATCCTAG TTGACTTTGA AGAAGCCTCA
    GGCAAAAAAA TATGTGAACA TGACAGCATG TCTACTCTGC ACTTCCGCAG CTTGGGCTCA
    GCTATTAGTA AAATACTAAG AGAATTAGAC ACAGAGATTT CTTATCTTAA AGGGAGGATA
    TTTCCAGTAG AGGATCAACT TGAAGCACTG AAATCTGAAT CACAGAACAA AATAGAACTA
    CTTCTGCAAC AACACCAAGA TAGGATTGAG CAGTTAATAA GTGAACATGA AGTTGAAATA
    ACAGGACTTA CTGAGAAAGC TAGCAGTGCT CGAAGCCAAG CCAATAGTAT CCAGAGTCAA
    ATGGAAATCA TTCAAGAGCA AGCAAGAAAC CAAAACTCTA TGTATATGCG TCAGCTCAGC
    GATCTGGAAT CTACTGTTTC TCAGCTACGT TCTGAATTAA GGGAAGCCAA AAGGATGTAT
    GAAGACAAGA CAGAAGAGCT GGAAAAGCAG TTAGTCCTTG CCAACTCAGA GCTAACTGAA
    GCCCGGACAG AGCGTGATCA ATTCAGTCAG GAATCTGGAA ATTTAGATGA TCAACTTCAA
    AAGCTGTTGG CTGATCTACA CAAAAGGGAG AAGGAGCTGA GTCTGGAGAA GGAGCAGAAT
    AAGCGTCTGT GGGACCGAGA CACAGGCAAC AGCATCACCA TTGACCACCT GCGGCGGGAA
    CTGGACAACC GGAACATGGA GGTGCAGCGC CTGGAAGCCC TGCTCAAGGC CTTGAAGAGC
    GAGTGTCAGG GCCAGATGGA GCGGCAGATG GCAGCAATTC AAGGAAAGAA TGAAAGTCTA
    GAAAAAGTAT CCTCCTTGAC TGCTCAGCTT GAATCCACCA AAGAGATGCT GCGCAAAGTA
    GTAGAAGAGT TGACAGCCAA GAAAATGACT CTGGAGAGCT CAGAGAGGAC AATATCGGAC
    CTGACAACTT CTCTCCAGGA AAAAGAGAGA GCCATCGAGG CTACCAATGC AGAGATCACA
    AAGCTCCGCT CCCGGGTGGA CTTGAAATTG CAGGAGCTGC AACACTTGAA AAATGAAGGG
    GATCATCTCA GAAATGTGCA GACAGAATGT GAGGCCCTCA AACTGCAGAT GACAGAGAAG
    GACAAGGTGA TCGAGATTCT GCGACAGCAG ATTGAGAACA TGACACAGCT GGTGGGCCAG
    CATGGACGAA CTGCTGGAGC TATGCAAGTA GAAAAAGCTC AACTGGAGAA AGAAATTAAT
    GATAGGCGGA TGGAACTAAA GGAACTTAAG ATATTAAAAG ATAAAAAAGA TGCAAAGATC
    CGGGAGCTTG AGGCCAGAGT GAGTGACTTG GAGCTGGAAA AGGTGAAGCT GGTGAATGCA
    GGCTCTGAGC GGCTCCGTGC AGTGAAGGAC ATCAAACAAG AGAGAGATCA ATTATTAAAT
    GAGGTGAAAA CAAGTAGGAG TGAATTAAAC AATCTTTCAG AGGAGTATGA AGTCTTAAAA
    AGGAATTTCC GAAACAAAAG TGAAGAAATG GAAATGACTA CAAATAAGTT GAAAATGCAA
    TTAAAATCTG CACAGTCTGA ACTAGAACAG ACAAGAAATA CATTAAAGTC AATGGAAGGA
    TCTGATGGTC ATGCTATGAA AGTGGCAATG GGGATGCAAA AGCAAATCAC AGCCAAAAGA
    GGTCAGATAG ATGCCCTTCA GAGCAAGATA CAGTTTTTGG AAGAGGCAAT GACAAATGCA
    AATAAGGAGA AACATTTTCT GAAAGAAGAG AAAAGTAAAC TCAGTCAGGA ATTGAGTACT
    GTTGCCACAG AAAAAAACAA GATGGCTGGG GAGTTGGAAG TTCTGCGATC TCAGGAACGC
    CGTTTGAAAG AAAAGGTTAC TAATATGGAA GTGGCTCTGG ATAAGGCATC TTTGCAGTTT
    GCAGAATGTC AAGATATAAT ACAGCGTCAG GAGCAAGAAT CAGTGCGCTT AAAACTTCAA
    CACACTTTGG ATATAAAAGA ACTTCAGGGC CCTGGATACA CCTCAAATTC TTCATTGAAA
    CCACGCCTTC TCCAGCCAGC ATCTGTTACT CGTTCTCATT CTAATGTACC ATCTTCGCAG
    TCTACAGCCA GCTTCCTGTC TCATCACTCT ACAAAAGCTA ACACACTGAA GGAAGATCCA
    ACAAGGGACC TGAAACAGCT TCTCCAAGAG TTGAGAAGCG TGATCAATGA GGAGCCAGCT
    GTGTCTCTGA GCAAGACAGA GGAAGATGGA AGAACATCTC TGGGAGCCTT GTATGTGGCT
    GTAGAGGATA GGGTAAGAGA TTGCATTACT GAATCCAGCC TGAGATCAGA CATGTGCCAT
    AGAAGCAACA ACTCGTTGAG GGACTCCACT GAAGGAAGCA AATCAAGTGA AACTCTTAGT
    AGAGAGCCAG TCACATTACA CGCAGGAGAC AGGGAAGATC CCTCTGGTTG CTTCACATTC
    ACATCTGCAG CAAGTCCATC TGTGAAAAAC TCAGCTTCTC GTTCATTCAA TTCTTCTCCT
    AAGAAGTCTC CAGTGCACTC ACTCCTAACT AGTTCAGTTG AAGGTTCAAT AGGTTCCACA
    TCACAGTATA GATCTGCCAA ACCTATTCAT TCATCTGATT CTGTTAAAGA TTCACAGTCT
    CCGCCAATAG AAACAACAGG AAAAACATGC AGGAAGCTTC AGAACAGACT AGAAAGCTTG
    CAAACTCTGG TAGAAGATTT ACAGCTGAAG AACCAAGCAA TGTCTTCAAT GATCAGAAAT
    CAAGAAAAGA GGATACAGAA AGTAAAAGAC CAGGAAAAAA TGTTACTAAA ATGA

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

    CloneID OHu38910
    Clone ID Related Accession (Same CDS sequence) XM_011531909.2 , XM_006714204.3 , XM_017008160.1 , XM_011531913.1 , XM_011531908.2 , XM_011531912.2 , XM_011531911.1 , XM_011531914.2 , XM_011531910.2 , XM_011531910.3
    Accession Version XM_006714204.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3354bp)
    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 coiled-coil domain-containing protein 158 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_006714204.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    ATGGAATCAA AAGCTTGGGA ATCAAATAAT GAAGATCTTT TATCAAGTAG TGGTGTCACA 
    TCTAATGGAG GTTCTTCAAG TTCATTTTTT GTGTCATCTA TTCGTGGTAC AATAATTGAA
    AACACATCTT CAGCTGGGAC TTTGACACAG GTTCCTTTTT TCCCTAAATA TGAAGTGGAA
    CTTGATTCTC CTAGAAAAAT CATCCCATCT CCTGGAAAGG AACACTTTGA ACGTGTTTTG
    GAAGAATATT CACATCAAGT CAAAGATTTA CAGAGAAGAC TAAATGAAAG CAATGAATTG
    CATGAGAAAC AAAAGTTTTA TTTGAGGCAG TCAGTCATTG ATTTGCAAAC AAAACTTCAG
    GAGATGCAAA TGGAGAGAGA TGCTATGGCT GACATCAGAC GAAGGGAGAG TCAGTCCCAG
    GAGGATTTAA GAAATCAGCT TCAAAATACA GTTCATGAAC TTGAAGCTGC CAAATGCCTT
    AAAGAGGACA TGCTGAAAGA CAGCAACACA CAGATAGAGC AACTACGAAA AATGATGCTT
    AGTCATGAGG GAGTGCTTCA AGAAATCCGG TCAATCCTAG TTGACTTTGA AGAAGCCTCA
    GGCAAAAAAA TATGTGAACA TGACAGCATG TCTACTCTGC ACTTCCGCAG CTTGGGCTCA
    GCTATTAGTA AAATACTAAG AGAATTAGAC ACAGAGATTT CTTATCTTAA AGGGAGGATA
    TTTCCAGTAG AGGATCAACT TGAAGCACTG AAATCTGAAT CACAGAACAA AATAGAACTA
    CTTCTGCAAC AACACCAAGA TAGGATTGAG CAGTTAATAA GTGAACATGA AGTTGAAATA
    ACAGGACTTA CTGAGAAAGC TAGCAGTGCT CGAAGCCAAG CCAATAGTAT CCAGAGTCAA
    ATGGAAATCA TTCAAGAGCA AGCAAGAAAC CAAAACTCTA TGTATATGCG TCAGCTCAGC
    GATCTGGAAT CTACTGTTTC TCAGCTACGT TCTGAATTAA GGGAAGCCAA AAGGATGTAT
    GAAGACAAGA CAGAAGAGCT GGAAAAGCAG TTAGTCCTTG CCAACTCAGA GCTAACTGAA
    GCCCGGACAG AGCGTGATCA ATTCAGTCAG GAATCTGGAA ATTTAGATGA TCAACTTCAA
    AAGCTGTTGG CTGATCTACA CAAAAGGGAG AAGGAGCTGA GTCTGGAGAA GGAGCAGAAT
    AAGCGTCTGT GGGACCGAGA CACAGGCAAC AGCATCACCA TTGACCACCT GCGGCGGGAA
    CTGGACAACC GGAACATGGA GGTGCAGCGC CTGGAAGCCC TGCTCAAGGC CTTGAAGAGC
    GAGTGTCAGG GCCAGATGGA GCGGCAGATG GCAGCAATTC AAGGAAAGAA TGAAAGTCTA
    GAAAAAGTAT CCTCCTTGAC TGCTCAGCTT GAATCCACCA AAGAGATGCT GCGCAAAGTA
    GTAGAAGAGT TGACAGCCAA GAAAATGACT CTGGAGAGCT CAGAGAGGAC AATATCGGAC
    CTGACAACTT CTCTCCAGGA AAAAGAGAGA GCCATCGAGG CTACCAATGC AGAGATCACA
    AAGCTCCGCT CCCGGGTGGA CTTGAAATTG CAGGAGCTGC AACACTTGAA AAATGAAGGG
    GATCATCTCA GAAATGTGCA GACAGAATGT GAGGCCCTCA AACTGCAGAT GACAGAGAAG
    GACAAGGTGA TCGAGATTCT GCGACAGCAG ATTGAGAACA TGACACAGCT GGTGGGCCAG
    CATGGACGAA CTGCTGGAGC TATGCAAGTA GAAAAAGCTC AACTGGAGAA AGAAATTAAT
    GATAGGCGGA TGGAACTAAA GGAACTTAAG ATATTAAAAG ATAAAAAAGA TGCAAAGATC
    CGGGAGCTTG AGGCCAGAGT GAGTGACTTG GAGCTGGAAA AGGTGAAGCT GGTGAATGCA
    GGCTCTGAGC GGCTCCGTGC AGTGAAGGAC ATCAAACAAG AGAGAGATCA ATTATTAAAT
    GAGGTGAAAA CAAGTAGGAG TGAATTAAAC AATCTTTCAG AGGAGTATGA AGTCTTAAAA
    AGGAATTTCC GAAACAAAAG TGAAGAAATG GAAATGACTA CAAATAAGTT GAAAATGCAA
    TTAAAATCTG CACAGTCTGA ACTAGAACAG ACAAGAAATA CATTAAAGTC AATGGAAGGA
    TCTGATGGTC ATGCTATGAA AGTGGCAATG GGGATGCAAA AGCAAATCAC AGCCAAAAGA
    GGTCAGATAG ATGCCCTTCA GAGCAAGATA CAGTTTTTGG AAGAGGCAAT GACAAATGCA
    AATAAGGAGA AACATTTTCT GAAAGAAGAG AAAAGTAAAC TCAGTCAGGA ATTGAGTACT
    GTTGCCACAG AAAAAAACAA GATGGCTGGG GAGTTGGAAG TTCTGCGATC TCAGGAACGC
    CGTTTGAAAG AAAAGGTTAC TAATATGGAA GTGGCTCTGG ATAAGGCATC TTTGCAGTTT
    GCAGAATGTC AAGATATAAT ACAGCGTCAG GAGCAAGAAT CAGTGCGCTT AAAACTTCAA
    CACACTTTGG ATATAAAAGA ACTTCAGGGC CCTGGATACA CCTCAAATTC TTCATTGAAA
    CCACGCCTTC TCCAGCCAGC ATCTGTTACT CGTTCTCATT CTAATGTACC ATCTTCGCAG
    TCTACAGCCA GCTTCCTGTC TCATCACTCT ACAAAAGCTA ACACACTGAA GGAAGATCCA
    ACAAGGGACC TGAAACAGCT TCTCCAAGAG TTGAGAAGCG TGATCAATGA GGAGCCAGCT
    GTGTCTCTGA GCAAGACAGA GGAAGATGGA AGAACATCTC TGGGAGCCTT GTATGTGGCT
    GTAGAGGATA GGGTAAGAGA TTGCATTACT GAATCCAGCC TGAGATCAGA CATGTGCCAT
    AGAAGCAACA ACTCGTTGAG GGACTCCACT GAAGGAAGCA AATCAAGTGA AACTCTTAGT
    AGAGAGCCAG TCACATTACA CGCAGGAGAC AGGGAAGATC CCTCTGGTTG CTTCACATTC
    ACATCTGCAG CAAGTCCATC TGTGAAAAAC TCAGCTTCTC GTTCATTCAA TTCTTCTCCT
    AAGAAGTCTC CAGTGCACTC ACTCCTAACT AGTTCAGTTG AAGGTTCAAT AGGTTCCACA
    TCACAGTATA GATCTGCCAA ACCTATTCAT TCATCTGATT CTGTTAAAGA TTCACAGTCT
    CCGCCAATAG AAACAACAGG AAAAACATGC AGGAAGCTTC AGAACAGACT AGAAAGCTTG
    CAAACTCTGG TAGAAGATTT ACAGCTGAAG AACCAAGCAA TGTCTTCAAT GATCAGAAAT
    CAAGAAAAGA GGATACAGAA AGTAAAAGAC CAGGAAAAAA TGTTACTAAA ATGA

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

    RefSeq XP_006714267.1
    CDS281..3634
    Translation

    Target ORF information:

    RefSeq Version XM_006714204.3
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 158 (CCDC158), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006714204.3

    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
    ATGGAATCAA AAGCTTGGGA ATCAAATAAT GAAGATCTTT TATCAAGTAG TGGTGTCACA 
    TCTAATGGAG GTTCTTCAAG TTCATTTTTT GTGTCATCTA TTCGTGGTAC AATAATTGAA
    AACACATCTT CAGCTGGGAC TTTGACACAG GTTCCTTTTT TCCCTAAATA TGAAGTGGAA
    CTTGATTCTC CTAGAAAAAT CATCCCATCT CCTGGAAAGG AACACTTTGA ACGTGTTTTG
    GAAGAATATT CACATCAAGT CAAAGATTTA CAGAGAAGAC TAAATGAAAG CAATGAATTG
    CATGAGAAAC AAAAGTTTTA TTTGAGGCAG TCAGTCATTG ATTTGCAAAC AAAACTTCAG
    GAGATGCAAA TGGAGAGAGA TGCTATGGCT GACATCAGAC GAAGGGAGAG TCAGTCCCAG
    GAGGATTTAA GAAATCAGCT TCAAAATACA GTTCATGAAC TTGAAGCTGC CAAATGCCTT
    AAAGAGGACA TGCTGAAAGA CAGCAACACA CAGATAGAGC AACTACGAAA AATGATGCTT
    AGTCATGAGG GAGTGCTTCA AGAAATCCGG TCAATCCTAG TTGACTTTGA AGAAGCCTCA
    GGCAAAAAAA TATGTGAACA TGACAGCATG TCTACTCTGC ACTTCCGCAG CTTGGGCTCA
    GCTATTAGTA AAATACTAAG AGAATTAGAC ACAGAGATTT CTTATCTTAA AGGGAGGATA
    TTTCCAGTAG AGGATCAACT TGAAGCACTG AAATCTGAAT CACAGAACAA AATAGAACTA
    CTTCTGCAAC AACACCAAGA TAGGATTGAG CAGTTAATAA GTGAACATGA AGTTGAAATA
    ACAGGACTTA CTGAGAAAGC TAGCAGTGCT CGAAGCCAAG CCAATAGTAT CCAGAGTCAA
    ATGGAAATCA TTCAAGAGCA AGCAAGAAAC CAAAACTCTA TGTATATGCG TCAGCTCAGC
    GATCTGGAAT CTACTGTTTC TCAGCTACGT TCTGAATTAA GGGAAGCCAA AAGGATGTAT
    GAAGACAAGA CAGAAGAGCT GGAAAAGCAG TTAGTCCTTG CCAACTCAGA GCTAACTGAA
    GCCCGGACAG AGCGTGATCA ATTCAGTCAG GAATCTGGAA ATTTAGATGA TCAACTTCAA
    AAGCTGTTGG CTGATCTACA CAAAAGGGAG AAGGAGCTGA GTCTGGAGAA GGAGCAGAAT
    AAGCGTCTGT GGGACCGAGA CACAGGCAAC AGCATCACCA TTGACCACCT GCGGCGGGAA
    CTGGACAACC GGAACATGGA GGTGCAGCGC CTGGAAGCCC TGCTCAAGGC CTTGAAGAGC
    GAGTGTCAGG GCCAGATGGA GCGGCAGATG GCAGCAATTC AAGGAAAGAA TGAAAGTCTA
    GAAAAAGTAT CCTCCTTGAC TGCTCAGCTT GAATCCACCA AAGAGATGCT GCGCAAAGTA
    GTAGAAGAGT TGACAGCCAA GAAAATGACT CTGGAGAGCT CAGAGAGGAC AATATCGGAC
    CTGACAACTT CTCTCCAGGA AAAAGAGAGA GCCATCGAGG CTACCAATGC AGAGATCACA
    AAGCTCCGCT CCCGGGTGGA CTTGAAATTG CAGGAGCTGC AACACTTGAA AAATGAAGGG
    GATCATCTCA GAAATGTGCA GACAGAATGT GAGGCCCTCA AACTGCAGAT GACAGAGAAG
    GACAAGGTGA TCGAGATTCT GCGACAGCAG ATTGAGAACA TGACACAGCT GGTGGGCCAG
    CATGGACGAA CTGCTGGAGC TATGCAAGTA GAAAAAGCTC AACTGGAGAA AGAAATTAAT
    GATAGGCGGA TGGAACTAAA GGAACTTAAG ATATTAAAAG ATAAAAAAGA TGCAAAGATC
    CGGGAGCTTG AGGCCAGAGT GAGTGACTTG GAGCTGGAAA AGGTGAAGCT GGTGAATGCA
    GGCTCTGAGC GGCTCCGTGC AGTGAAGGAC ATCAAACAAG AGAGAGATCA ATTATTAAAT
    GAGGTGAAAA CAAGTAGGAG TGAATTAAAC AATCTTTCAG AGGAGTATGA AGTCTTAAAA
    AGGAATTTCC GAAACAAAAG TGAAGAAATG GAAATGACTA CAAATAAGTT GAAAATGCAA
    TTAAAATCTG CACAGTCTGA ACTAGAACAG ACAAGAAATA CATTAAAGTC AATGGAAGGA
    TCTGATGGTC ATGCTATGAA AGTGGCAATG GGGATGCAAA AGCAAATCAC AGCCAAAAGA
    GGTCAGATAG ATGCCCTTCA GAGCAAGATA CAGTTTTTGG AAGAGGCAAT GACAAATGCA
    AATAAGGAGA AACATTTTCT GAAAGAAGAG AAAAGTAAAC TCAGTCAGGA ATTGAGTACT
    GTTGCCACAG AAAAAAACAA GATGGCTGGG GAGTTGGAAG TTCTGCGATC TCAGGAACGC
    CGTTTGAAAG AAAAGGTTAC TAATATGGAA GTGGCTCTGG ATAAGGCATC TTTGCAGTTT
    GCAGAATGTC AAGATATAAT ACAGCGTCAG GAGCAAGAAT CAGTGCGCTT AAAACTTCAA
    CACACTTTGG ATATAAAAGA ACTTCAGGGC CCTGGATACA CCTCAAATTC TTCATTGAAA
    CCACGCCTTC TCCAGCCAGC ATCTGTTACT CGTTCTCATT CTAATGTACC ATCTTCGCAG
    TCTACAGCCA GCTTCCTGTC TCATCACTCT ACAAAAGCTA ACACACTGAA GGAAGATCCA
    ACAAGGGACC TGAAACAGCT TCTCCAAGAG TTGAGAAGCG TGATCAATGA GGAGCCAGCT
    GTGTCTCTGA GCAAGACAGA GGAAGATGGA AGAACATCTC TGGGAGCCTT GTATGTGGCT
    GTAGAGGATA GGGTAAGAGA TTGCATTACT GAATCCAGCC TGAGATCAGA CATGTGCCAT
    AGAAGCAACA ACTCGTTGAG GGACTCCACT GAAGGAAGCA AATCAAGTGA AACTCTTAGT
    AGAGAGCCAG TCACATTACA CGCAGGAGAC AGGGAAGATC CCTCTGGTTG CTTCACATTC
    ACATCTGCAG CAAGTCCATC TGTGAAAAAC TCAGCTTCTC GTTCATTCAA TTCTTCTCCT
    AAGAAGTCTC CAGTGCACTC ACTCCTAACT AGTTCAGTTG AAGGTTCAAT AGGTTCCACA
    TCACAGTATA GATCTGCCAA ACCTATTCAT TCATCTGATT CTGTTAAAGA TTCACAGTCT
    CCGCCAATAG AAACAACAGG AAAAACATGC AGGAAGCTTC AGAACAGACT AGAAAGCTTG
    CAAACTCTGG TAGAAGATTT ACAGCTGAAG AACCAAGCAA TGTCTTCAAT GATCAGAAAT
    CAAGAAAAGA GGATACAGAA AGTAAAAGAC CAGGAAAAAA TGTTACTAAA ATGA

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

    CloneID OHu38910
    Clone ID Related Accession (Same CDS sequence) XM_011531909.2 , XM_006714204.3 , XM_017008160.1 , XM_011531913.1 , XM_011531908.2 , XM_011531912.2 , XM_011531911.1 , XM_011531914.2 , XM_011531910.2 , XM_011531910.3
    Accession Version XM_017008160.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3354bp)
    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 coiled-coil domain-containing protein 158 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    ATGGAATCAA AAGCTTGGGA ATCAAATAAT GAAGATCTTT TATCAAGTAG TGGTGTCACA 
    TCTAATGGAG GTTCTTCAAG TTCATTTTTT GTGTCATCTA TTCGTGGTAC AATAATTGAA
    AACACATCTT CAGCTGGGAC TTTGACACAG GTTCCTTTTT TCCCTAAATA TGAAGTGGAA
    CTTGATTCTC CTAGAAAAAT CATCCCATCT CCTGGAAAGG AACACTTTGA ACGTGTTTTG
    GAAGAATATT CACATCAAGT CAAAGATTTA CAGAGAAGAC TAAATGAAAG CAATGAATTG
    CATGAGAAAC AAAAGTTTTA TTTGAGGCAG TCAGTCATTG ATTTGCAAAC AAAACTTCAG
    GAGATGCAAA TGGAGAGAGA TGCTATGGCT GACATCAGAC GAAGGGAGAG TCAGTCCCAG
    GAGGATTTAA GAAATCAGCT TCAAAATACA GTTCATGAAC TTGAAGCTGC CAAATGCCTT
    AAAGAGGACA TGCTGAAAGA CAGCAACACA CAGATAGAGC AACTACGAAA AATGATGCTT
    AGTCATGAGG GAGTGCTTCA AGAAATCCGG TCAATCCTAG TTGACTTTGA AGAAGCCTCA
    GGCAAAAAAA TATGTGAACA TGACAGCATG TCTACTCTGC ACTTCCGCAG CTTGGGCTCA
    GCTATTAGTA AAATACTAAG AGAATTAGAC ACAGAGATTT CTTATCTTAA AGGGAGGATA
    TTTCCAGTAG AGGATCAACT TGAAGCACTG AAATCTGAAT CACAGAACAA AATAGAACTA
    CTTCTGCAAC AACACCAAGA TAGGATTGAG CAGTTAATAA GTGAACATGA AGTTGAAATA
    ACAGGACTTA CTGAGAAAGC TAGCAGTGCT CGAAGCCAAG CCAATAGTAT CCAGAGTCAA
    ATGGAAATCA TTCAAGAGCA AGCAAGAAAC CAAAACTCTA TGTATATGCG TCAGCTCAGC
    GATCTGGAAT CTACTGTTTC TCAGCTACGT TCTGAATTAA GGGAAGCCAA AAGGATGTAT
    GAAGACAAGA CAGAAGAGCT GGAAAAGCAG TTAGTCCTTG CCAACTCAGA GCTAACTGAA
    GCCCGGACAG AGCGTGATCA ATTCAGTCAG GAATCTGGAA ATTTAGATGA TCAACTTCAA
    AAGCTGTTGG CTGATCTACA CAAAAGGGAG AAGGAGCTGA GTCTGGAGAA GGAGCAGAAT
    AAGCGTCTGT GGGACCGAGA CACAGGCAAC AGCATCACCA TTGACCACCT GCGGCGGGAA
    CTGGACAACC GGAACATGGA GGTGCAGCGC CTGGAAGCCC TGCTCAAGGC CTTGAAGAGC
    GAGTGTCAGG GCCAGATGGA GCGGCAGATG GCAGCAATTC AAGGAAAGAA TGAAAGTCTA
    GAAAAAGTAT CCTCCTTGAC TGCTCAGCTT GAATCCACCA AAGAGATGCT GCGCAAAGTA
    GTAGAAGAGT TGACAGCCAA GAAAATGACT CTGGAGAGCT CAGAGAGGAC AATATCGGAC
    CTGACAACTT CTCTCCAGGA AAAAGAGAGA GCCATCGAGG CTACCAATGC AGAGATCACA
    AAGCTCCGCT CCCGGGTGGA CTTGAAATTG CAGGAGCTGC AACACTTGAA AAATGAAGGG
    GATCATCTCA GAAATGTGCA GACAGAATGT GAGGCCCTCA AACTGCAGAT GACAGAGAAG
    GACAAGGTGA TCGAGATTCT GCGACAGCAG ATTGAGAACA TGACACAGCT GGTGGGCCAG
    CATGGACGAA CTGCTGGAGC TATGCAAGTA GAAAAAGCTC AACTGGAGAA AGAAATTAAT
    GATAGGCGGA TGGAACTAAA GGAACTTAAG ATATTAAAAG ATAAAAAAGA TGCAAAGATC
    CGGGAGCTTG AGGCCAGAGT GAGTGACTTG GAGCTGGAAA AGGTGAAGCT GGTGAATGCA
    GGCTCTGAGC GGCTCCGTGC AGTGAAGGAC ATCAAACAAG AGAGAGATCA ATTATTAAAT
    GAGGTGAAAA CAAGTAGGAG TGAATTAAAC AATCTTTCAG AGGAGTATGA AGTCTTAAAA
    AGGAATTTCC GAAACAAAAG TGAAGAAATG GAAATGACTA CAAATAAGTT GAAAATGCAA
    TTAAAATCTG CACAGTCTGA ACTAGAACAG ACAAGAAATA CATTAAAGTC AATGGAAGGA
    TCTGATGGTC ATGCTATGAA AGTGGCAATG GGGATGCAAA AGCAAATCAC AGCCAAAAGA
    GGTCAGATAG ATGCCCTTCA GAGCAAGATA CAGTTTTTGG AAGAGGCAAT GACAAATGCA
    AATAAGGAGA AACATTTTCT GAAAGAAGAG AAAAGTAAAC TCAGTCAGGA ATTGAGTACT
    GTTGCCACAG AAAAAAACAA GATGGCTGGG GAGTTGGAAG TTCTGCGATC TCAGGAACGC
    CGTTTGAAAG AAAAGGTTAC TAATATGGAA GTGGCTCTGG ATAAGGCATC TTTGCAGTTT
    GCAGAATGTC AAGATATAAT ACAGCGTCAG GAGCAAGAAT CAGTGCGCTT AAAACTTCAA
    CACACTTTGG ATATAAAAGA ACTTCAGGGC CCTGGATACA CCTCAAATTC TTCATTGAAA
    CCACGCCTTC TCCAGCCAGC ATCTGTTACT CGTTCTCATT CTAATGTACC ATCTTCGCAG
    TCTACAGCCA GCTTCCTGTC TCATCACTCT ACAAAAGCTA ACACACTGAA GGAAGATCCA
    ACAAGGGACC TGAAACAGCT TCTCCAAGAG TTGAGAAGCG TGATCAATGA GGAGCCAGCT
    GTGTCTCTGA GCAAGACAGA GGAAGATGGA AGAACATCTC TGGGAGCCTT GTATGTGGCT
    GTAGAGGATA GGGTAAGAGA TTGCATTACT GAATCCAGCC TGAGATCAGA CATGTGCCAT
    AGAAGCAACA ACTCGTTGAG GGACTCCACT GAAGGAAGCA AATCAAGTGA AACTCTTAGT
    AGAGAGCCAG TCACATTACA CGCAGGAGAC AGGGAAGATC CCTCTGGTTG CTTCACATTC
    ACATCTGCAG CAAGTCCATC TGTGAAAAAC TCAGCTTCTC GTTCATTCAA TTCTTCTCCT
    AAGAAGTCTC CAGTGCACTC ACTCCTAACT AGTTCAGTTG AAGGTTCAAT AGGTTCCACA
    TCACAGTATA GATCTGCCAA ACCTATTCAT TCATCTGATT CTGTTAAAGA TTCACAGTCT
    CCGCCAATAG AAACAACAGG AAAAACATGC AGGAAGCTTC AGAACAGACT AGAAAGCTTG
    CAAACTCTGG TAGAAGATTT ACAGCTGAAG AACCAAGCAA TGTCTTCAAT GATCAGAAAT
    CAAGAAAAGA GGATACAGAA AGTAAAAGAC CAGGAAAAAA TGTTACTAAA ATGA

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

    RefSeq XP_016863649.1
    CDS895..4248
    Translation

    Target ORF information:

    RefSeq Version XM_017008160.1
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 158 (CCDC158), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017008160.1

    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
    ATGGAATCAA AAGCTTGGGA ATCAAATAAT GAAGATCTTT TATCAAGTAG TGGTGTCACA 
    TCTAATGGAG GTTCTTCAAG TTCATTTTTT GTGTCATCTA TTCGTGGTAC AATAATTGAA
    AACACATCTT CAGCTGGGAC TTTGACACAG GTTCCTTTTT TCCCTAAATA TGAAGTGGAA
    CTTGATTCTC CTAGAAAAAT CATCCCATCT CCTGGAAAGG AACACTTTGA ACGTGTTTTG
    GAAGAATATT CACATCAAGT CAAAGATTTA CAGAGAAGAC TAAATGAAAG CAATGAATTG
    CATGAGAAAC AAAAGTTTTA TTTGAGGCAG TCAGTCATTG ATTTGCAAAC AAAACTTCAG
    GAGATGCAAA TGGAGAGAGA TGCTATGGCT GACATCAGAC GAAGGGAGAG TCAGTCCCAG
    GAGGATTTAA GAAATCAGCT TCAAAATACA GTTCATGAAC TTGAAGCTGC CAAATGCCTT
    AAAGAGGACA TGCTGAAAGA CAGCAACACA CAGATAGAGC AACTACGAAA AATGATGCTT
    AGTCATGAGG GAGTGCTTCA AGAAATCCGG TCAATCCTAG TTGACTTTGA AGAAGCCTCA
    GGCAAAAAAA TATGTGAACA TGACAGCATG TCTACTCTGC ACTTCCGCAG CTTGGGCTCA
    GCTATTAGTA AAATACTAAG AGAATTAGAC ACAGAGATTT CTTATCTTAA AGGGAGGATA
    TTTCCAGTAG AGGATCAACT TGAAGCACTG AAATCTGAAT CACAGAACAA AATAGAACTA
    CTTCTGCAAC AACACCAAGA TAGGATTGAG CAGTTAATAA GTGAACATGA AGTTGAAATA
    ACAGGACTTA CTGAGAAAGC TAGCAGTGCT CGAAGCCAAG CCAATAGTAT CCAGAGTCAA
    ATGGAAATCA TTCAAGAGCA AGCAAGAAAC CAAAACTCTA TGTATATGCG TCAGCTCAGC
    GATCTGGAAT CTACTGTTTC TCAGCTACGT TCTGAATTAA GGGAAGCCAA AAGGATGTAT
    GAAGACAAGA CAGAAGAGCT GGAAAAGCAG TTAGTCCTTG CCAACTCAGA GCTAACTGAA
    GCCCGGACAG AGCGTGATCA ATTCAGTCAG GAATCTGGAA ATTTAGATGA TCAACTTCAA
    AAGCTGTTGG CTGATCTACA CAAAAGGGAG AAGGAGCTGA GTCTGGAGAA GGAGCAGAAT
    AAGCGTCTGT GGGACCGAGA CACAGGCAAC AGCATCACCA TTGACCACCT GCGGCGGGAA
    CTGGACAACC GGAACATGGA GGTGCAGCGC CTGGAAGCCC TGCTCAAGGC CTTGAAGAGC
    GAGTGTCAGG GCCAGATGGA GCGGCAGATG GCAGCAATTC AAGGAAAGAA TGAAAGTCTA
    GAAAAAGTAT CCTCCTTGAC TGCTCAGCTT GAATCCACCA AAGAGATGCT GCGCAAAGTA
    GTAGAAGAGT TGACAGCCAA GAAAATGACT CTGGAGAGCT CAGAGAGGAC AATATCGGAC
    CTGACAACTT CTCTCCAGGA AAAAGAGAGA GCCATCGAGG CTACCAATGC AGAGATCACA
    AAGCTCCGCT CCCGGGTGGA CTTGAAATTG CAGGAGCTGC AACACTTGAA AAATGAAGGG
    GATCATCTCA GAAATGTGCA GACAGAATGT GAGGCCCTCA AACTGCAGAT GACAGAGAAG
    GACAAGGTGA TCGAGATTCT GCGACAGCAG ATTGAGAACA TGACACAGCT GGTGGGCCAG
    CATGGACGAA CTGCTGGAGC TATGCAAGTA GAAAAAGCTC AACTGGAGAA AGAAATTAAT
    GATAGGCGGA TGGAACTAAA GGAACTTAAG ATATTAAAAG ATAAAAAAGA TGCAAAGATC
    CGGGAGCTTG AGGCCAGAGT GAGTGACTTG GAGCTGGAAA AGGTGAAGCT GGTGAATGCA
    GGCTCTGAGC GGCTCCGTGC AGTGAAGGAC ATCAAACAAG AGAGAGATCA ATTATTAAAT
    GAGGTGAAAA CAAGTAGGAG TGAATTAAAC AATCTTTCAG AGGAGTATGA AGTCTTAAAA
    AGGAATTTCC GAAACAAAAG TGAAGAAATG GAAATGACTA CAAATAAGTT GAAAATGCAA
    TTAAAATCTG CACAGTCTGA ACTAGAACAG ACAAGAAATA CATTAAAGTC AATGGAAGGA
    TCTGATGGTC ATGCTATGAA AGTGGCAATG GGGATGCAAA AGCAAATCAC AGCCAAAAGA
    GGTCAGATAG ATGCCCTTCA GAGCAAGATA CAGTTTTTGG AAGAGGCAAT GACAAATGCA
    AATAAGGAGA AACATTTTCT GAAAGAAGAG AAAAGTAAAC TCAGTCAGGA ATTGAGTACT
    GTTGCCACAG AAAAAAACAA GATGGCTGGG GAGTTGGAAG TTCTGCGATC TCAGGAACGC
    CGTTTGAAAG AAAAGGTTAC TAATATGGAA GTGGCTCTGG ATAAGGCATC TTTGCAGTTT
    GCAGAATGTC AAGATATAAT ACAGCGTCAG GAGCAAGAAT CAGTGCGCTT AAAACTTCAA
    CACACTTTGG ATATAAAAGA ACTTCAGGGC CCTGGATACA CCTCAAATTC TTCATTGAAA
    CCACGCCTTC TCCAGCCAGC ATCTGTTACT CGTTCTCATT CTAATGTACC ATCTTCGCAG
    TCTACAGCCA GCTTCCTGTC TCATCACTCT ACAAAAGCTA ACACACTGAA GGAAGATCCA
    ACAAGGGACC TGAAACAGCT TCTCCAAGAG TTGAGAAGCG TGATCAATGA GGAGCCAGCT
    GTGTCTCTGA GCAAGACAGA GGAAGATGGA AGAACATCTC TGGGAGCCTT GTATGTGGCT
    GTAGAGGATA GGGTAAGAGA TTGCATTACT GAATCCAGCC TGAGATCAGA CATGTGCCAT
    AGAAGCAACA ACTCGTTGAG GGACTCCACT GAAGGAAGCA AATCAAGTGA AACTCTTAGT
    AGAGAGCCAG TCACATTACA CGCAGGAGAC AGGGAAGATC CCTCTGGTTG CTTCACATTC
    ACATCTGCAG CAAGTCCATC TGTGAAAAAC TCAGCTTCTC GTTCATTCAA TTCTTCTCCT
    AAGAAGTCTC CAGTGCACTC ACTCCTAACT AGTTCAGTTG AAGGTTCAAT AGGTTCCACA
    TCACAGTATA GATCTGCCAA ACCTATTCAT TCATCTGATT CTGTTAAAGA TTCACAGTCT
    CCGCCAATAG AAACAACAGG AAAAACATGC AGGAAGCTTC AGAACAGACT AGAAAGCTTG
    CAAACTCTGG TAGAAGATTT ACAGCTGAAG AACCAAGCAA TGTCTTCAAT GATCAGAAAT
    CAAGAAAAGA GGATACAGAA AGTAAAAGAC CAGGAAAAAA TGTTACTAAA ATGA

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

    CloneID OHu38910
    Clone ID Related Accession (Same CDS sequence) XM_011531909.2 , XM_006714204.3 , XM_017008160.1 , XM_011531913.1 , XM_011531908.2 , XM_011531912.2 , XM_011531911.1 , XM_011531914.2 , XM_011531910.2 , XM_011531910.3
    Accession Version XM_011531913.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3354bp)
    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 coiled-coil domain-containing protein 158 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    ATGGAATCAA AAGCTTGGGA ATCAAATAAT GAAGATCTTT TATCAAGTAG TGGTGTCACA 
    TCTAATGGAG GTTCTTCAAG TTCATTTTTT GTGTCATCTA TTCGTGGTAC AATAATTGAA
    AACACATCTT CAGCTGGGAC TTTGACACAG GTTCCTTTTT TCCCTAAATA TGAAGTGGAA
    CTTGATTCTC CTAGAAAAAT CATCCCATCT CCTGGAAAGG AACACTTTGA ACGTGTTTTG
    GAAGAATATT CACATCAAGT CAAAGATTTA CAGAGAAGAC TAAATGAAAG CAATGAATTG
    CATGAGAAAC AAAAGTTTTA TTTGAGGCAG TCAGTCATTG ATTTGCAAAC AAAACTTCAG
    GAGATGCAAA TGGAGAGAGA TGCTATGGCT GACATCAGAC GAAGGGAGAG TCAGTCCCAG
    GAGGATTTAA GAAATCAGCT TCAAAATACA GTTCATGAAC TTGAAGCTGC CAAATGCCTT
    AAAGAGGACA TGCTGAAAGA CAGCAACACA CAGATAGAGC AACTACGAAA AATGATGCTT
    AGTCATGAGG GAGTGCTTCA AGAAATCCGG TCAATCCTAG TTGACTTTGA AGAAGCCTCA
    GGCAAAAAAA TATGTGAACA TGACAGCATG TCTACTCTGC ACTTCCGCAG CTTGGGCTCA
    GCTATTAGTA AAATACTAAG AGAATTAGAC ACAGAGATTT CTTATCTTAA AGGGAGGATA
    TTTCCAGTAG AGGATCAACT TGAAGCACTG AAATCTGAAT CACAGAACAA AATAGAACTA
    CTTCTGCAAC AACACCAAGA TAGGATTGAG CAGTTAATAA GTGAACATGA AGTTGAAATA
    ACAGGACTTA CTGAGAAAGC TAGCAGTGCT CGAAGCCAAG CCAATAGTAT CCAGAGTCAA
    ATGGAAATCA TTCAAGAGCA AGCAAGAAAC CAAAACTCTA TGTATATGCG TCAGCTCAGC
    GATCTGGAAT CTACTGTTTC TCAGCTACGT TCTGAATTAA GGGAAGCCAA AAGGATGTAT
    GAAGACAAGA CAGAAGAGCT GGAAAAGCAG TTAGTCCTTG CCAACTCAGA GCTAACTGAA
    GCCCGGACAG AGCGTGATCA ATTCAGTCAG GAATCTGGAA ATTTAGATGA TCAACTTCAA
    AAGCTGTTGG CTGATCTACA CAAAAGGGAG AAGGAGCTGA GTCTGGAGAA GGAGCAGAAT
    AAGCGTCTGT GGGACCGAGA CACAGGCAAC AGCATCACCA TTGACCACCT GCGGCGGGAA
    CTGGACAACC GGAACATGGA GGTGCAGCGC CTGGAAGCCC TGCTCAAGGC CTTGAAGAGC
    GAGTGTCAGG GCCAGATGGA GCGGCAGATG GCAGCAATTC AAGGAAAGAA TGAAAGTCTA
    GAAAAAGTAT CCTCCTTGAC TGCTCAGCTT GAATCCACCA AAGAGATGCT GCGCAAAGTA
    GTAGAAGAGT TGACAGCCAA GAAAATGACT CTGGAGAGCT CAGAGAGGAC AATATCGGAC
    CTGACAACTT CTCTCCAGGA AAAAGAGAGA GCCATCGAGG CTACCAATGC AGAGATCACA
    AAGCTCCGCT CCCGGGTGGA CTTGAAATTG CAGGAGCTGC AACACTTGAA AAATGAAGGG
    GATCATCTCA GAAATGTGCA GACAGAATGT GAGGCCCTCA AACTGCAGAT GACAGAGAAG
    GACAAGGTGA TCGAGATTCT GCGACAGCAG ATTGAGAACA TGACACAGCT GGTGGGCCAG
    CATGGACGAA CTGCTGGAGC TATGCAAGTA GAAAAAGCTC AACTGGAGAA AGAAATTAAT
    GATAGGCGGA TGGAACTAAA GGAACTTAAG ATATTAAAAG ATAAAAAAGA TGCAAAGATC
    CGGGAGCTTG AGGCCAGAGT GAGTGACTTG GAGCTGGAAA AGGTGAAGCT GGTGAATGCA
    GGCTCTGAGC GGCTCCGTGC AGTGAAGGAC ATCAAACAAG AGAGAGATCA ATTATTAAAT
    GAGGTGAAAA CAAGTAGGAG TGAATTAAAC AATCTTTCAG AGGAGTATGA AGTCTTAAAA
    AGGAATTTCC GAAACAAAAG TGAAGAAATG GAAATGACTA CAAATAAGTT GAAAATGCAA
    TTAAAATCTG CACAGTCTGA ACTAGAACAG ACAAGAAATA CATTAAAGTC AATGGAAGGA
    TCTGATGGTC ATGCTATGAA AGTGGCAATG GGGATGCAAA AGCAAATCAC AGCCAAAAGA
    GGTCAGATAG ATGCCCTTCA GAGCAAGATA CAGTTTTTGG AAGAGGCAAT GACAAATGCA
    AATAAGGAGA AACATTTTCT GAAAGAAGAG AAAAGTAAAC TCAGTCAGGA ATTGAGTACT
    GTTGCCACAG AAAAAAACAA GATGGCTGGG GAGTTGGAAG TTCTGCGATC TCAGGAACGC
    CGTTTGAAAG AAAAGGTTAC TAATATGGAA GTGGCTCTGG ATAAGGCATC TTTGCAGTTT
    GCAGAATGTC AAGATATAAT ACAGCGTCAG GAGCAAGAAT CAGTGCGCTT AAAACTTCAA
    CACACTTTGG ATATAAAAGA ACTTCAGGGC CCTGGATACA CCTCAAATTC TTCATTGAAA
    CCACGCCTTC TCCAGCCAGC ATCTGTTACT CGTTCTCATT CTAATGTACC ATCTTCGCAG
    TCTACAGCCA GCTTCCTGTC TCATCACTCT ACAAAAGCTA ACACACTGAA GGAAGATCCA
    ACAAGGGACC TGAAACAGCT TCTCCAAGAG TTGAGAAGCG TGATCAATGA GGAGCCAGCT
    GTGTCTCTGA GCAAGACAGA GGAAGATGGA AGAACATCTC TGGGAGCCTT GTATGTGGCT
    GTAGAGGATA GGGTAAGAGA TTGCATTACT GAATCCAGCC TGAGATCAGA CATGTGCCAT
    AGAAGCAACA ACTCGTTGAG GGACTCCACT GAAGGAAGCA AATCAAGTGA AACTCTTAGT
    AGAGAGCCAG TCACATTACA CGCAGGAGAC AGGGAAGATC CCTCTGGTTG CTTCACATTC
    ACATCTGCAG CAAGTCCATC TGTGAAAAAC TCAGCTTCTC GTTCATTCAA TTCTTCTCCT
    AAGAAGTCTC CAGTGCACTC ACTCCTAACT AGTTCAGTTG AAGGTTCAAT AGGTTCCACA
    TCACAGTATA GATCTGCCAA ACCTATTCAT TCATCTGATT CTGTTAAAGA TTCACAGTCT
    CCGCCAATAG AAACAACAGG AAAAACATGC AGGAAGCTTC AGAACAGACT AGAAAGCTTG
    CAAACTCTGG TAGAAGATTT ACAGCTGAAG AACCAAGCAA TGTCTTCAAT GATCAGAAAT
    CAAGAAAAGA GGATACAGAA AGTAAAAGAC CAGGAAAAAA TGTTACTAAA ATGA

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

    RefSeq XP_011530215.1
    CDS169..3522
    Translation

    Target ORF information:

    RefSeq Version XM_011531913.1
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 158 (CCDC158), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011531913.1

    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
    ATGGAATCAA AAGCTTGGGA ATCAAATAAT GAAGATCTTT TATCAAGTAG TGGTGTCACA 
    TCTAATGGAG GTTCTTCAAG TTCATTTTTT GTGTCATCTA TTCGTGGTAC AATAATTGAA
    AACACATCTT CAGCTGGGAC TTTGACACAG GTTCCTTTTT TCCCTAAATA TGAAGTGGAA
    CTTGATTCTC CTAGAAAAAT CATCCCATCT CCTGGAAAGG AACACTTTGA ACGTGTTTTG
    GAAGAATATT CACATCAAGT CAAAGATTTA CAGAGAAGAC TAAATGAAAG CAATGAATTG
    CATGAGAAAC AAAAGTTTTA TTTGAGGCAG TCAGTCATTG ATTTGCAAAC AAAACTTCAG
    GAGATGCAAA TGGAGAGAGA TGCTATGGCT GACATCAGAC GAAGGGAGAG TCAGTCCCAG
    GAGGATTTAA GAAATCAGCT TCAAAATACA GTTCATGAAC TTGAAGCTGC CAAATGCCTT
    AAAGAGGACA TGCTGAAAGA CAGCAACACA CAGATAGAGC AACTACGAAA AATGATGCTT
    AGTCATGAGG GAGTGCTTCA AGAAATCCGG TCAATCCTAG TTGACTTTGA AGAAGCCTCA
    GGCAAAAAAA TATGTGAACA TGACAGCATG TCTACTCTGC ACTTCCGCAG CTTGGGCTCA
    GCTATTAGTA AAATACTAAG AGAATTAGAC ACAGAGATTT CTTATCTTAA AGGGAGGATA
    TTTCCAGTAG AGGATCAACT TGAAGCACTG AAATCTGAAT CACAGAACAA AATAGAACTA
    CTTCTGCAAC AACACCAAGA TAGGATTGAG CAGTTAATAA GTGAACATGA AGTTGAAATA
    ACAGGACTTA CTGAGAAAGC TAGCAGTGCT CGAAGCCAAG CCAATAGTAT CCAGAGTCAA
    ATGGAAATCA TTCAAGAGCA AGCAAGAAAC CAAAACTCTA TGTATATGCG TCAGCTCAGC
    GATCTGGAAT CTACTGTTTC TCAGCTACGT TCTGAATTAA GGGAAGCCAA AAGGATGTAT
    GAAGACAAGA CAGAAGAGCT GGAAAAGCAG TTAGTCCTTG CCAACTCAGA GCTAACTGAA
    GCCCGGACAG AGCGTGATCA ATTCAGTCAG GAATCTGGAA ATTTAGATGA TCAACTTCAA
    AAGCTGTTGG CTGATCTACA CAAAAGGGAG AAGGAGCTGA GTCTGGAGAA GGAGCAGAAT
    AAGCGTCTGT GGGACCGAGA CACAGGCAAC AGCATCACCA TTGACCACCT GCGGCGGGAA
    CTGGACAACC GGAACATGGA GGTGCAGCGC CTGGAAGCCC TGCTCAAGGC CTTGAAGAGC
    GAGTGTCAGG GCCAGATGGA GCGGCAGATG GCAGCAATTC AAGGAAAGAA TGAAAGTCTA
    GAAAAAGTAT CCTCCTTGAC TGCTCAGCTT GAATCCACCA AAGAGATGCT GCGCAAAGTA
    GTAGAAGAGT TGACAGCCAA GAAAATGACT CTGGAGAGCT CAGAGAGGAC AATATCGGAC
    CTGACAACTT CTCTCCAGGA AAAAGAGAGA GCCATCGAGG CTACCAATGC AGAGATCACA
    AAGCTCCGCT CCCGGGTGGA CTTGAAATTG CAGGAGCTGC AACACTTGAA AAATGAAGGG
    GATCATCTCA GAAATGTGCA GACAGAATGT GAGGCCCTCA AACTGCAGAT GACAGAGAAG
    GACAAGGTGA TCGAGATTCT GCGACAGCAG ATTGAGAACA TGACACAGCT GGTGGGCCAG
    CATGGACGAA CTGCTGGAGC TATGCAAGTA GAAAAAGCTC AACTGGAGAA AGAAATTAAT
    GATAGGCGGA TGGAACTAAA GGAACTTAAG ATATTAAAAG ATAAAAAAGA TGCAAAGATC
    CGGGAGCTTG AGGCCAGAGT GAGTGACTTG GAGCTGGAAA AGGTGAAGCT GGTGAATGCA
    GGCTCTGAGC GGCTCCGTGC AGTGAAGGAC ATCAAACAAG AGAGAGATCA ATTATTAAAT
    GAGGTGAAAA CAAGTAGGAG TGAATTAAAC AATCTTTCAG AGGAGTATGA AGTCTTAAAA
    AGGAATTTCC GAAACAAAAG TGAAGAAATG GAAATGACTA CAAATAAGTT GAAAATGCAA
    TTAAAATCTG CACAGTCTGA ACTAGAACAG ACAAGAAATA CATTAAAGTC AATGGAAGGA
    TCTGATGGTC ATGCTATGAA AGTGGCAATG GGGATGCAAA AGCAAATCAC AGCCAAAAGA
    GGTCAGATAG ATGCCCTTCA GAGCAAGATA CAGTTTTTGG AAGAGGCAAT GACAAATGCA
    AATAAGGAGA AACATTTTCT GAAAGAAGAG AAAAGTAAAC TCAGTCAGGA ATTGAGTACT
    GTTGCCACAG AAAAAAACAA GATGGCTGGG GAGTTGGAAG TTCTGCGATC TCAGGAACGC
    CGTTTGAAAG AAAAGGTTAC TAATATGGAA GTGGCTCTGG ATAAGGCATC TTTGCAGTTT
    GCAGAATGTC AAGATATAAT ACAGCGTCAG GAGCAAGAAT CAGTGCGCTT AAAACTTCAA
    CACACTTTGG ATATAAAAGA ACTTCAGGGC CCTGGATACA CCTCAAATTC TTCATTGAAA
    CCACGCCTTC TCCAGCCAGC ATCTGTTACT CGTTCTCATT CTAATGTACC ATCTTCGCAG
    TCTACAGCCA GCTTCCTGTC TCATCACTCT ACAAAAGCTA ACACACTGAA GGAAGATCCA
    ACAAGGGACC TGAAACAGCT TCTCCAAGAG TTGAGAAGCG TGATCAATGA GGAGCCAGCT
    GTGTCTCTGA GCAAGACAGA GGAAGATGGA AGAACATCTC TGGGAGCCTT GTATGTGGCT
    GTAGAGGATA GGGTAAGAGA TTGCATTACT GAATCCAGCC TGAGATCAGA CATGTGCCAT
    AGAAGCAACA ACTCGTTGAG GGACTCCACT GAAGGAAGCA AATCAAGTGA AACTCTTAGT
    AGAGAGCCAG TCACATTACA CGCAGGAGAC AGGGAAGATC CCTCTGGTTG CTTCACATTC
    ACATCTGCAG CAAGTCCATC TGTGAAAAAC TCAGCTTCTC GTTCATTCAA TTCTTCTCCT
    AAGAAGTCTC CAGTGCACTC ACTCCTAACT AGTTCAGTTG AAGGTTCAAT AGGTTCCACA
    TCACAGTATA GATCTGCCAA ACCTATTCAT TCATCTGATT CTGTTAAAGA TTCACAGTCT
    CCGCCAATAG AAACAACAGG AAAAACATGC AGGAAGCTTC AGAACAGACT AGAAAGCTTG
    CAAACTCTGG TAGAAGATTT ACAGCTGAAG AACCAAGCAA TGTCTTCAAT GATCAGAAAT
    CAAGAAAAGA GGATACAGAA AGTAAAAGAC CAGGAAAAAA TGTTACTAAA ATGA

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

    CloneID OHu38910
    Clone ID Related Accession (Same CDS sequence) XM_011531909.2 , XM_006714204.3 , XM_017008160.1 , XM_011531913.1 , XM_011531908.2 , XM_011531912.2 , XM_011531911.1 , XM_011531914.2 , XM_011531910.2 , XM_011531910.3
    Accession Version XM_011531908.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3354bp)
    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 coiled-coil domain-containing protein 158 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011531908.1. ##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
    ATGGAATCAA AAGCTTGGGA ATCAAATAAT GAAGATCTTT TATCAAGTAG TGGTGTCACA 
    TCTAATGGAG GTTCTTCAAG TTCATTTTTT GTGTCATCTA TTCGTGGTAC AATAATTGAA
    AACACATCTT CAGCTGGGAC TTTGACACAG GTTCCTTTTT TCCCTAAATA TGAAGTGGAA
    CTTGATTCTC CTAGAAAAAT CATCCCATCT CCTGGAAAGG AACACTTTGA ACGTGTTTTG
    GAAGAATATT CACATCAAGT CAAAGATTTA CAGAGAAGAC TAAATGAAAG CAATGAATTG
    CATGAGAAAC AAAAGTTTTA TTTGAGGCAG TCAGTCATTG ATTTGCAAAC AAAACTTCAG
    GAGATGCAAA TGGAGAGAGA TGCTATGGCT GACATCAGAC GAAGGGAGAG TCAGTCCCAG
    GAGGATTTAA GAAATCAGCT TCAAAATACA GTTCATGAAC TTGAAGCTGC CAAATGCCTT
    AAAGAGGACA TGCTGAAAGA CAGCAACACA CAGATAGAGC AACTACGAAA AATGATGCTT
    AGTCATGAGG GAGTGCTTCA AGAAATCCGG TCAATCCTAG TTGACTTTGA AGAAGCCTCA
    GGCAAAAAAA TATGTGAACA TGACAGCATG TCTACTCTGC ACTTCCGCAG CTTGGGCTCA
    GCTATTAGTA AAATACTAAG AGAATTAGAC ACAGAGATTT CTTATCTTAA AGGGAGGATA
    TTTCCAGTAG AGGATCAACT TGAAGCACTG AAATCTGAAT CACAGAACAA AATAGAACTA
    CTTCTGCAAC AACACCAAGA TAGGATTGAG CAGTTAATAA GTGAACATGA AGTTGAAATA
    ACAGGACTTA CTGAGAAAGC TAGCAGTGCT CGAAGCCAAG CCAATAGTAT CCAGAGTCAA
    ATGGAAATCA TTCAAGAGCA AGCAAGAAAC CAAAACTCTA TGTATATGCG TCAGCTCAGC
    GATCTGGAAT CTACTGTTTC TCAGCTACGT TCTGAATTAA GGGAAGCCAA AAGGATGTAT
    GAAGACAAGA CAGAAGAGCT GGAAAAGCAG TTAGTCCTTG CCAACTCAGA GCTAACTGAA
    GCCCGGACAG AGCGTGATCA ATTCAGTCAG GAATCTGGAA ATTTAGATGA TCAACTTCAA
    AAGCTGTTGG CTGATCTACA CAAAAGGGAG AAGGAGCTGA GTCTGGAGAA GGAGCAGAAT
    AAGCGTCTGT GGGACCGAGA CACAGGCAAC AGCATCACCA TTGACCACCT GCGGCGGGAA
    CTGGACAACC GGAACATGGA GGTGCAGCGC CTGGAAGCCC TGCTCAAGGC CTTGAAGAGC
    GAGTGTCAGG GCCAGATGGA GCGGCAGATG GCAGCAATTC AAGGAAAGAA TGAAAGTCTA
    GAAAAAGTAT CCTCCTTGAC TGCTCAGCTT GAATCCACCA AAGAGATGCT GCGCAAAGTA
    GTAGAAGAGT TGACAGCCAA GAAAATGACT CTGGAGAGCT CAGAGAGGAC AATATCGGAC
    CTGACAACTT CTCTCCAGGA AAAAGAGAGA GCCATCGAGG CTACCAATGC AGAGATCACA
    AAGCTCCGCT CCCGGGTGGA CTTGAAATTG CAGGAGCTGC AACACTTGAA AAATGAAGGG
    GATCATCTCA GAAATGTGCA GACAGAATGT GAGGCCCTCA AACTGCAGAT GACAGAGAAG
    GACAAGGTGA TCGAGATTCT GCGACAGCAG ATTGAGAACA TGACACAGCT GGTGGGCCAG
    CATGGACGAA CTGCTGGAGC TATGCAAGTA GAAAAAGCTC AACTGGAGAA AGAAATTAAT
    GATAGGCGGA TGGAACTAAA GGAACTTAAG ATATTAAAAG ATAAAAAAGA TGCAAAGATC
    CGGGAGCTTG AGGCCAGAGT GAGTGACTTG GAGCTGGAAA AGGTGAAGCT GGTGAATGCA
    GGCTCTGAGC GGCTCCGTGC AGTGAAGGAC ATCAAACAAG AGAGAGATCA ATTATTAAAT
    GAGGTGAAAA CAAGTAGGAG TGAATTAAAC AATCTTTCAG AGGAGTATGA AGTCTTAAAA
    AGGAATTTCC GAAACAAAAG TGAAGAAATG GAAATGACTA CAAATAAGTT GAAAATGCAA
    TTAAAATCTG CACAGTCTGA ACTAGAACAG ACAAGAAATA CATTAAAGTC AATGGAAGGA
    TCTGATGGTC ATGCTATGAA AGTGGCAATG GGGATGCAAA AGCAAATCAC AGCCAAAAGA
    GGTCAGATAG ATGCCCTTCA GAGCAAGATA CAGTTTTTGG AAGAGGCAAT GACAAATGCA
    AATAAGGAGA AACATTTTCT GAAAGAAGAG AAAAGTAAAC TCAGTCAGGA ATTGAGTACT
    GTTGCCACAG AAAAAAACAA GATGGCTGGG GAGTTGGAAG TTCTGCGATC TCAGGAACGC
    CGTTTGAAAG AAAAGGTTAC TAATATGGAA GTGGCTCTGG ATAAGGCATC TTTGCAGTTT
    GCAGAATGTC AAGATATAAT ACAGCGTCAG GAGCAAGAAT CAGTGCGCTT AAAACTTCAA
    CACACTTTGG ATATAAAAGA ACTTCAGGGC CCTGGATACA CCTCAAATTC TTCATTGAAA
    CCACGCCTTC TCCAGCCAGC ATCTGTTACT CGTTCTCATT CTAATGTACC ATCTTCGCAG
    TCTACAGCCA GCTTCCTGTC TCATCACTCT ACAAAAGCTA ACACACTGAA GGAAGATCCA
    ACAAGGGACC TGAAACAGCT TCTCCAAGAG TTGAGAAGCG TGATCAATGA GGAGCCAGCT
    GTGTCTCTGA GCAAGACAGA GGAAGATGGA AGAACATCTC TGGGAGCCTT GTATGTGGCT
    GTAGAGGATA GGGTAAGAGA TTGCATTACT GAATCCAGCC TGAGATCAGA CATGTGCCAT
    AGAAGCAACA ACTCGTTGAG GGACTCCACT GAAGGAAGCA AATCAAGTGA AACTCTTAGT
    AGAGAGCCAG TCACATTACA CGCAGGAGAC AGGGAAGATC CCTCTGGTTG CTTCACATTC
    ACATCTGCAG CAAGTCCATC TGTGAAAAAC TCAGCTTCTC GTTCATTCAA TTCTTCTCCT
    AAGAAGTCTC CAGTGCACTC ACTCCTAACT AGTTCAGTTG AAGGTTCAAT AGGTTCCACA
    TCACAGTATA GATCTGCCAA ACCTATTCAT TCATCTGATT CTGTTAAAGA TTCACAGTCT
    CCGCCAATAG AAACAACAGG AAAAACATGC AGGAAGCTTC AGAACAGACT AGAAAGCTTG
    CAAACTCTGG TAGAAGATTT ACAGCTGAAG AACCAAGCAA TGTCTTCAAT GATCAGAAAT
    CAAGAAAAGA GGATACAGAA AGTAAAAGAC CAGGAAAAAA TGTTACTAAA ATGA

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

    RefSeq XP_011530210.1
    CDS385..3738
    Translation

    Target ORF information:

    RefSeq Version XM_011531908.2
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 158 (CCDC158), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011531908.2

    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
    ATGGAATCAA AAGCTTGGGA ATCAAATAAT GAAGATCTTT TATCAAGTAG TGGTGTCACA 
    TCTAATGGAG GTTCTTCAAG TTCATTTTTT GTGTCATCTA TTCGTGGTAC AATAATTGAA
    AACACATCTT CAGCTGGGAC TTTGACACAG GTTCCTTTTT TCCCTAAATA TGAAGTGGAA
    CTTGATTCTC CTAGAAAAAT CATCCCATCT CCTGGAAAGG AACACTTTGA ACGTGTTTTG
    GAAGAATATT CACATCAAGT CAAAGATTTA CAGAGAAGAC TAAATGAAAG CAATGAATTG
    CATGAGAAAC AAAAGTTTTA TTTGAGGCAG TCAGTCATTG ATTTGCAAAC AAAACTTCAG
    GAGATGCAAA TGGAGAGAGA TGCTATGGCT GACATCAGAC GAAGGGAGAG TCAGTCCCAG
    GAGGATTTAA GAAATCAGCT TCAAAATACA GTTCATGAAC TTGAAGCTGC CAAATGCCTT
    AAAGAGGACA TGCTGAAAGA CAGCAACACA CAGATAGAGC AACTACGAAA AATGATGCTT
    AGTCATGAGG GAGTGCTTCA AGAAATCCGG TCAATCCTAG TTGACTTTGA AGAAGCCTCA
    GGCAAAAAAA TATGTGAACA TGACAGCATG TCTACTCTGC ACTTCCGCAG CTTGGGCTCA
    GCTATTAGTA AAATACTAAG AGAATTAGAC ACAGAGATTT CTTATCTTAA AGGGAGGATA
    TTTCCAGTAG AGGATCAACT TGAAGCACTG AAATCTGAAT CACAGAACAA AATAGAACTA
    CTTCTGCAAC AACACCAAGA TAGGATTGAG CAGTTAATAA GTGAACATGA AGTTGAAATA
    ACAGGACTTA CTGAGAAAGC TAGCAGTGCT CGAAGCCAAG CCAATAGTAT CCAGAGTCAA
    ATGGAAATCA TTCAAGAGCA AGCAAGAAAC CAAAACTCTA TGTATATGCG TCAGCTCAGC
    GATCTGGAAT CTACTGTTTC TCAGCTACGT TCTGAATTAA GGGAAGCCAA AAGGATGTAT
    GAAGACAAGA CAGAAGAGCT GGAAAAGCAG TTAGTCCTTG CCAACTCAGA GCTAACTGAA
    GCCCGGACAG AGCGTGATCA ATTCAGTCAG GAATCTGGAA ATTTAGATGA TCAACTTCAA
    AAGCTGTTGG CTGATCTACA CAAAAGGGAG AAGGAGCTGA GTCTGGAGAA GGAGCAGAAT
    AAGCGTCTGT GGGACCGAGA CACAGGCAAC AGCATCACCA TTGACCACCT GCGGCGGGAA
    CTGGACAACC GGAACATGGA GGTGCAGCGC CTGGAAGCCC TGCTCAAGGC CTTGAAGAGC
    GAGTGTCAGG GCCAGATGGA GCGGCAGATG GCAGCAATTC AAGGAAAGAA TGAAAGTCTA
    GAAAAAGTAT CCTCCTTGAC TGCTCAGCTT GAATCCACCA AAGAGATGCT GCGCAAAGTA
    GTAGAAGAGT TGACAGCCAA GAAAATGACT CTGGAGAGCT CAGAGAGGAC AATATCGGAC
    CTGACAACTT CTCTCCAGGA AAAAGAGAGA GCCATCGAGG CTACCAATGC AGAGATCACA
    AAGCTCCGCT CCCGGGTGGA CTTGAAATTG CAGGAGCTGC AACACTTGAA AAATGAAGGG
    GATCATCTCA GAAATGTGCA GACAGAATGT GAGGCCCTCA AACTGCAGAT GACAGAGAAG
    GACAAGGTGA TCGAGATTCT GCGACAGCAG ATTGAGAACA TGACACAGCT GGTGGGCCAG
    CATGGACGAA CTGCTGGAGC TATGCAAGTA GAAAAAGCTC AACTGGAGAA AGAAATTAAT
    GATAGGCGGA TGGAACTAAA GGAACTTAAG ATATTAAAAG ATAAAAAAGA TGCAAAGATC
    CGGGAGCTTG AGGCCAGAGT GAGTGACTTG GAGCTGGAAA AGGTGAAGCT GGTGAATGCA
    GGCTCTGAGC GGCTCCGTGC AGTGAAGGAC ATCAAACAAG AGAGAGATCA ATTATTAAAT
    GAGGTGAAAA CAAGTAGGAG TGAATTAAAC AATCTTTCAG AGGAGTATGA AGTCTTAAAA
    AGGAATTTCC GAAACAAAAG TGAAGAAATG GAAATGACTA CAAATAAGTT GAAAATGCAA
    TTAAAATCTG CACAGTCTGA ACTAGAACAG ACAAGAAATA CATTAAAGTC AATGGAAGGA
    TCTGATGGTC ATGCTATGAA AGTGGCAATG GGGATGCAAA AGCAAATCAC AGCCAAAAGA
    GGTCAGATAG ATGCCCTTCA GAGCAAGATA CAGTTTTTGG AAGAGGCAAT GACAAATGCA
    AATAAGGAGA AACATTTTCT GAAAGAAGAG AAAAGTAAAC TCAGTCAGGA ATTGAGTACT
    GTTGCCACAG AAAAAAACAA GATGGCTGGG GAGTTGGAAG TTCTGCGATC TCAGGAACGC
    CGTTTGAAAG AAAAGGTTAC TAATATGGAA GTGGCTCTGG ATAAGGCATC TTTGCAGTTT
    GCAGAATGTC AAGATATAAT ACAGCGTCAG GAGCAAGAAT CAGTGCGCTT AAAACTTCAA
    CACACTTTGG ATATAAAAGA ACTTCAGGGC CCTGGATACA CCTCAAATTC TTCATTGAAA
    CCACGCCTTC TCCAGCCAGC ATCTGTTACT CGTTCTCATT CTAATGTACC ATCTTCGCAG
    TCTACAGCCA GCTTCCTGTC TCATCACTCT ACAAAAGCTA ACACACTGAA GGAAGATCCA
    ACAAGGGACC TGAAACAGCT TCTCCAAGAG TTGAGAAGCG TGATCAATGA GGAGCCAGCT
    GTGTCTCTGA GCAAGACAGA GGAAGATGGA AGAACATCTC TGGGAGCCTT GTATGTGGCT
    GTAGAGGATA GGGTAAGAGA TTGCATTACT GAATCCAGCC TGAGATCAGA CATGTGCCAT
    AGAAGCAACA ACTCGTTGAG GGACTCCACT GAAGGAAGCA AATCAAGTGA AACTCTTAGT
    AGAGAGCCAG TCACATTACA CGCAGGAGAC AGGGAAGATC CCTCTGGTTG CTTCACATTC
    ACATCTGCAG CAAGTCCATC TGTGAAAAAC TCAGCTTCTC GTTCATTCAA TTCTTCTCCT
    AAGAAGTCTC CAGTGCACTC ACTCCTAACT AGTTCAGTTG AAGGTTCAAT AGGTTCCACA
    TCACAGTATA GATCTGCCAA ACCTATTCAT TCATCTGATT CTGTTAAAGA TTCACAGTCT
    CCGCCAATAG AAACAACAGG AAAAACATGC AGGAAGCTTC AGAACAGACT AGAAAGCTTG
    CAAACTCTGG TAGAAGATTT ACAGCTGAAG AACCAAGCAA TGTCTTCAAT GATCAGAAAT
    CAAGAAAAGA GGATACAGAA AGTAAAAGAC CAGGAAAAAA TGTTACTAAA ATGA

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

    CloneID OHu38910
    Clone ID Related Accession (Same CDS sequence) XM_011531909.2 , XM_006714204.3 , XM_017008160.1 , XM_011531913.1 , XM_011531908.2 , XM_011531912.2 , XM_011531911.1 , XM_011531914.2 , XM_011531910.2 , XM_011531910.3
    Accession Version XM_011531912.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3354bp)
    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 coiled-coil domain-containing protein 158 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011531912.1. ##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
    ATGGAATCAA AAGCTTGGGA ATCAAATAAT GAAGATCTTT TATCAAGTAG TGGTGTCACA 
    TCTAATGGAG GTTCTTCAAG TTCATTTTTT GTGTCATCTA TTCGTGGTAC AATAATTGAA
    AACACATCTT CAGCTGGGAC TTTGACACAG GTTCCTTTTT TCCCTAAATA TGAAGTGGAA
    CTTGATTCTC CTAGAAAAAT CATCCCATCT CCTGGAAAGG AACACTTTGA ACGTGTTTTG
    GAAGAATATT CACATCAAGT CAAAGATTTA CAGAGAAGAC TAAATGAAAG CAATGAATTG
    CATGAGAAAC AAAAGTTTTA TTTGAGGCAG TCAGTCATTG ATTTGCAAAC AAAACTTCAG
    GAGATGCAAA TGGAGAGAGA TGCTATGGCT GACATCAGAC GAAGGGAGAG TCAGTCCCAG
    GAGGATTTAA GAAATCAGCT TCAAAATACA GTTCATGAAC TTGAAGCTGC CAAATGCCTT
    AAAGAGGACA TGCTGAAAGA CAGCAACACA CAGATAGAGC AACTACGAAA AATGATGCTT
    AGTCATGAGG GAGTGCTTCA AGAAATCCGG TCAATCCTAG TTGACTTTGA AGAAGCCTCA
    GGCAAAAAAA TATGTGAACA TGACAGCATG TCTACTCTGC ACTTCCGCAG CTTGGGCTCA
    GCTATTAGTA AAATACTAAG AGAATTAGAC ACAGAGATTT CTTATCTTAA AGGGAGGATA
    TTTCCAGTAG AGGATCAACT TGAAGCACTG AAATCTGAAT CACAGAACAA AATAGAACTA
    CTTCTGCAAC AACACCAAGA TAGGATTGAG CAGTTAATAA GTGAACATGA AGTTGAAATA
    ACAGGACTTA CTGAGAAAGC TAGCAGTGCT CGAAGCCAAG CCAATAGTAT CCAGAGTCAA
    ATGGAAATCA TTCAAGAGCA AGCAAGAAAC CAAAACTCTA TGTATATGCG TCAGCTCAGC
    GATCTGGAAT CTACTGTTTC TCAGCTACGT TCTGAATTAA GGGAAGCCAA AAGGATGTAT
    GAAGACAAGA CAGAAGAGCT GGAAAAGCAG TTAGTCCTTG CCAACTCAGA GCTAACTGAA
    GCCCGGACAG AGCGTGATCA ATTCAGTCAG GAATCTGGAA ATTTAGATGA TCAACTTCAA
    AAGCTGTTGG CTGATCTACA CAAAAGGGAG AAGGAGCTGA GTCTGGAGAA GGAGCAGAAT
    AAGCGTCTGT GGGACCGAGA CACAGGCAAC AGCATCACCA TTGACCACCT GCGGCGGGAA
    CTGGACAACC GGAACATGGA GGTGCAGCGC CTGGAAGCCC TGCTCAAGGC CTTGAAGAGC
    GAGTGTCAGG GCCAGATGGA GCGGCAGATG GCAGCAATTC AAGGAAAGAA TGAAAGTCTA
    GAAAAAGTAT CCTCCTTGAC TGCTCAGCTT GAATCCACCA AAGAGATGCT GCGCAAAGTA
    GTAGAAGAGT TGACAGCCAA GAAAATGACT CTGGAGAGCT CAGAGAGGAC AATATCGGAC
    CTGACAACTT CTCTCCAGGA AAAAGAGAGA GCCATCGAGG CTACCAATGC AGAGATCACA
    AAGCTCCGCT CCCGGGTGGA CTTGAAATTG CAGGAGCTGC AACACTTGAA AAATGAAGGG
    GATCATCTCA GAAATGTGCA GACAGAATGT GAGGCCCTCA AACTGCAGAT GACAGAGAAG
    GACAAGGTGA TCGAGATTCT GCGACAGCAG ATTGAGAACA TGACACAGCT GGTGGGCCAG
    CATGGACGAA CTGCTGGAGC TATGCAAGTA GAAAAAGCTC AACTGGAGAA AGAAATTAAT
    GATAGGCGGA TGGAACTAAA GGAACTTAAG ATATTAAAAG ATAAAAAAGA TGCAAAGATC
    CGGGAGCTTG AGGCCAGAGT GAGTGACTTG GAGCTGGAAA AGGTGAAGCT GGTGAATGCA
    GGCTCTGAGC GGCTCCGTGC AGTGAAGGAC ATCAAACAAG AGAGAGATCA ATTATTAAAT
    GAGGTGAAAA CAAGTAGGAG TGAATTAAAC AATCTTTCAG AGGAGTATGA AGTCTTAAAA
    AGGAATTTCC GAAACAAAAG TGAAGAAATG GAAATGACTA CAAATAAGTT GAAAATGCAA
    TTAAAATCTG CACAGTCTGA ACTAGAACAG ACAAGAAATA CATTAAAGTC AATGGAAGGA
    TCTGATGGTC ATGCTATGAA AGTGGCAATG GGGATGCAAA AGCAAATCAC AGCCAAAAGA
    GGTCAGATAG ATGCCCTTCA GAGCAAGATA CAGTTTTTGG AAGAGGCAAT GACAAATGCA
    AATAAGGAGA AACATTTTCT GAAAGAAGAG AAAAGTAAAC TCAGTCAGGA ATTGAGTACT
    GTTGCCACAG AAAAAAACAA GATGGCTGGG GAGTTGGAAG TTCTGCGATC TCAGGAACGC
    CGTTTGAAAG AAAAGGTTAC TAATATGGAA GTGGCTCTGG ATAAGGCATC TTTGCAGTTT
    GCAGAATGTC AAGATATAAT ACAGCGTCAG GAGCAAGAAT CAGTGCGCTT AAAACTTCAA
    CACACTTTGG ATATAAAAGA ACTTCAGGGC CCTGGATACA CCTCAAATTC TTCATTGAAA
    CCACGCCTTC TCCAGCCAGC ATCTGTTACT CGTTCTCATT CTAATGTACC ATCTTCGCAG
    TCTACAGCCA GCTTCCTGTC TCATCACTCT ACAAAAGCTA ACACACTGAA GGAAGATCCA
    ACAAGGGACC TGAAACAGCT TCTCCAAGAG TTGAGAAGCG TGATCAATGA GGAGCCAGCT
    GTGTCTCTGA GCAAGACAGA GGAAGATGGA AGAACATCTC TGGGAGCCTT GTATGTGGCT
    GTAGAGGATA GGGTAAGAGA TTGCATTACT GAATCCAGCC TGAGATCAGA CATGTGCCAT
    AGAAGCAACA ACTCGTTGAG GGACTCCACT GAAGGAAGCA AATCAAGTGA AACTCTTAGT
    AGAGAGCCAG TCACATTACA CGCAGGAGAC AGGGAAGATC CCTCTGGTTG CTTCACATTC
    ACATCTGCAG CAAGTCCATC TGTGAAAAAC TCAGCTTCTC GTTCATTCAA TTCTTCTCCT
    AAGAAGTCTC CAGTGCACTC ACTCCTAACT AGTTCAGTTG AAGGTTCAAT AGGTTCCACA
    TCACAGTATA GATCTGCCAA ACCTATTCAT TCATCTGATT CTGTTAAAGA TTCACAGTCT
    CCGCCAATAG AAACAACAGG AAAAACATGC AGGAAGCTTC AGAACAGACT AGAAAGCTTG
    CAAACTCTGG TAGAAGATTT ACAGCTGAAG AACCAAGCAA TGTCTTCAAT GATCAGAAAT
    CAAGAAAAGA GGATACAGAA AGTAAAAGAC CAGGAAAAAA TGTTACTAAA ATGA

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

    RefSeq XP_011530214.1
    CDS141..3494
    Translation

    Target ORF information:

    RefSeq Version XM_011531912.2
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 158 (CCDC158), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011531912.2

    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
    ATGGAATCAA AAGCTTGGGA ATCAAATAAT GAAGATCTTT TATCAAGTAG TGGTGTCACA 
    TCTAATGGAG GTTCTTCAAG TTCATTTTTT GTGTCATCTA TTCGTGGTAC AATAATTGAA
    AACACATCTT CAGCTGGGAC TTTGACACAG GTTCCTTTTT TCCCTAAATA TGAAGTGGAA
    CTTGATTCTC CTAGAAAAAT CATCCCATCT CCTGGAAAGG AACACTTTGA ACGTGTTTTG
    GAAGAATATT CACATCAAGT CAAAGATTTA CAGAGAAGAC TAAATGAAAG CAATGAATTG
    CATGAGAAAC AAAAGTTTTA TTTGAGGCAG TCAGTCATTG ATTTGCAAAC AAAACTTCAG
    GAGATGCAAA TGGAGAGAGA TGCTATGGCT GACATCAGAC GAAGGGAGAG TCAGTCCCAG
    GAGGATTTAA GAAATCAGCT TCAAAATACA GTTCATGAAC TTGAAGCTGC CAAATGCCTT
    AAAGAGGACA TGCTGAAAGA CAGCAACACA CAGATAGAGC AACTACGAAA AATGATGCTT
    AGTCATGAGG GAGTGCTTCA AGAAATCCGG TCAATCCTAG TTGACTTTGA AGAAGCCTCA
    GGCAAAAAAA TATGTGAACA TGACAGCATG TCTACTCTGC ACTTCCGCAG CTTGGGCTCA
    GCTATTAGTA AAATACTAAG AGAATTAGAC ACAGAGATTT CTTATCTTAA AGGGAGGATA
    TTTCCAGTAG AGGATCAACT TGAAGCACTG AAATCTGAAT CACAGAACAA AATAGAACTA
    CTTCTGCAAC AACACCAAGA TAGGATTGAG CAGTTAATAA GTGAACATGA AGTTGAAATA
    ACAGGACTTA CTGAGAAAGC TAGCAGTGCT CGAAGCCAAG CCAATAGTAT CCAGAGTCAA
    ATGGAAATCA TTCAAGAGCA AGCAAGAAAC CAAAACTCTA TGTATATGCG TCAGCTCAGC
    GATCTGGAAT CTACTGTTTC TCAGCTACGT TCTGAATTAA GGGAAGCCAA AAGGATGTAT
    GAAGACAAGA CAGAAGAGCT GGAAAAGCAG TTAGTCCTTG CCAACTCAGA GCTAACTGAA
    GCCCGGACAG AGCGTGATCA ATTCAGTCAG GAATCTGGAA ATTTAGATGA TCAACTTCAA
    AAGCTGTTGG CTGATCTACA CAAAAGGGAG AAGGAGCTGA GTCTGGAGAA GGAGCAGAAT
    AAGCGTCTGT GGGACCGAGA CACAGGCAAC AGCATCACCA TTGACCACCT GCGGCGGGAA
    CTGGACAACC GGAACATGGA GGTGCAGCGC CTGGAAGCCC TGCTCAAGGC CTTGAAGAGC
    GAGTGTCAGG GCCAGATGGA GCGGCAGATG GCAGCAATTC AAGGAAAGAA TGAAAGTCTA
    GAAAAAGTAT CCTCCTTGAC TGCTCAGCTT GAATCCACCA AAGAGATGCT GCGCAAAGTA
    GTAGAAGAGT TGACAGCCAA GAAAATGACT CTGGAGAGCT CAGAGAGGAC AATATCGGAC
    CTGACAACTT CTCTCCAGGA AAAAGAGAGA GCCATCGAGG CTACCAATGC AGAGATCACA
    AAGCTCCGCT CCCGGGTGGA CTTGAAATTG CAGGAGCTGC AACACTTGAA AAATGAAGGG
    GATCATCTCA GAAATGTGCA GACAGAATGT GAGGCCCTCA AACTGCAGAT GACAGAGAAG
    GACAAGGTGA TCGAGATTCT GCGACAGCAG ATTGAGAACA TGACACAGCT GGTGGGCCAG
    CATGGACGAA CTGCTGGAGC TATGCAAGTA GAAAAAGCTC AACTGGAGAA AGAAATTAAT
    GATAGGCGGA TGGAACTAAA GGAACTTAAG ATATTAAAAG ATAAAAAAGA TGCAAAGATC
    CGGGAGCTTG AGGCCAGAGT GAGTGACTTG GAGCTGGAAA AGGTGAAGCT GGTGAATGCA
    GGCTCTGAGC GGCTCCGTGC AGTGAAGGAC ATCAAACAAG AGAGAGATCA ATTATTAAAT
    GAGGTGAAAA CAAGTAGGAG TGAATTAAAC AATCTTTCAG AGGAGTATGA AGTCTTAAAA
    AGGAATTTCC GAAACAAAAG TGAAGAAATG GAAATGACTA CAAATAAGTT GAAAATGCAA
    TTAAAATCTG CACAGTCTGA ACTAGAACAG ACAAGAAATA CATTAAAGTC AATGGAAGGA
    TCTGATGGTC ATGCTATGAA AGTGGCAATG GGGATGCAAA AGCAAATCAC AGCCAAAAGA
    GGTCAGATAG ATGCCCTTCA GAGCAAGATA CAGTTTTTGG AAGAGGCAAT GACAAATGCA
    AATAAGGAGA AACATTTTCT GAAAGAAGAG AAAAGTAAAC TCAGTCAGGA ATTGAGTACT
    GTTGCCACAG AAAAAAACAA GATGGCTGGG GAGTTGGAAG TTCTGCGATC TCAGGAACGC
    CGTTTGAAAG AAAAGGTTAC TAATATGGAA GTGGCTCTGG ATAAGGCATC TTTGCAGTTT
    GCAGAATGTC AAGATATAAT ACAGCGTCAG GAGCAAGAAT CAGTGCGCTT AAAACTTCAA
    CACACTTTGG ATATAAAAGA ACTTCAGGGC CCTGGATACA CCTCAAATTC TTCATTGAAA
    CCACGCCTTC TCCAGCCAGC ATCTGTTACT CGTTCTCATT CTAATGTACC ATCTTCGCAG
    TCTACAGCCA GCTTCCTGTC TCATCACTCT ACAAAAGCTA ACACACTGAA GGAAGATCCA
    ACAAGGGACC TGAAACAGCT TCTCCAAGAG TTGAGAAGCG TGATCAATGA GGAGCCAGCT
    GTGTCTCTGA GCAAGACAGA GGAAGATGGA AGAACATCTC TGGGAGCCTT GTATGTGGCT
    GTAGAGGATA GGGTAAGAGA TTGCATTACT GAATCCAGCC TGAGATCAGA CATGTGCCAT
    AGAAGCAACA ACTCGTTGAG GGACTCCACT GAAGGAAGCA AATCAAGTGA AACTCTTAGT
    AGAGAGCCAG TCACATTACA CGCAGGAGAC AGGGAAGATC CCTCTGGTTG CTTCACATTC
    ACATCTGCAG CAAGTCCATC TGTGAAAAAC TCAGCTTCTC GTTCATTCAA TTCTTCTCCT
    AAGAAGTCTC CAGTGCACTC ACTCCTAACT AGTTCAGTTG AAGGTTCAAT AGGTTCCACA
    TCACAGTATA GATCTGCCAA ACCTATTCAT TCATCTGATT CTGTTAAAGA TTCACAGTCT
    CCGCCAATAG AAACAACAGG AAAAACATGC AGGAAGCTTC AGAACAGACT AGAAAGCTTG
    CAAACTCTGG TAGAAGATTT ACAGCTGAAG AACCAAGCAA TGTCTTCAAT GATCAGAAAT
    CAAGAAAAGA GGATACAGAA AGTAAAAGAC CAGGAAAAAA TGTTACTAAA ATGA

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

    CloneID OHu38910
    Clone ID Related Accession (Same CDS sequence) XM_011531909.2 , XM_006714204.3 , XM_017008160.1 , XM_011531913.1 , XM_011531908.2 , XM_011531912.2 , XM_011531911.1 , XM_011531914.2 , XM_011531910.2 , XM_011531910.3
    Accession Version XM_011531911.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3354bp)
    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 coiled-coil domain-containing protein 158 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    ATGGAATCAA AAGCTTGGGA ATCAAATAAT GAAGATCTTT TATCAAGTAG TGGTGTCACA 
    TCTAATGGAG GTTCTTCAAG TTCATTTTTT GTGTCATCTA TTCGTGGTAC AATAATTGAA
    AACACATCTT CAGCTGGGAC TTTGACACAG GTTCCTTTTT TCCCTAAATA TGAAGTGGAA
    CTTGATTCTC CTAGAAAAAT CATCCCATCT CCTGGAAAGG AACACTTTGA ACGTGTTTTG
    GAAGAATATT CACATCAAGT CAAAGATTTA CAGAGAAGAC TAAATGAAAG CAATGAATTG
    CATGAGAAAC AAAAGTTTTA TTTGAGGCAG TCAGTCATTG ATTTGCAAAC AAAACTTCAG
    GAGATGCAAA TGGAGAGAGA TGCTATGGCT GACATCAGAC GAAGGGAGAG TCAGTCCCAG
    GAGGATTTAA GAAATCAGCT TCAAAATACA GTTCATGAAC TTGAAGCTGC CAAATGCCTT
    AAAGAGGACA TGCTGAAAGA CAGCAACACA CAGATAGAGC AACTACGAAA AATGATGCTT
    AGTCATGAGG GAGTGCTTCA AGAAATCCGG TCAATCCTAG TTGACTTTGA AGAAGCCTCA
    GGCAAAAAAA TATGTGAACA TGACAGCATG TCTACTCTGC ACTTCCGCAG CTTGGGCTCA
    GCTATTAGTA AAATACTAAG AGAATTAGAC ACAGAGATTT CTTATCTTAA AGGGAGGATA
    TTTCCAGTAG AGGATCAACT TGAAGCACTG AAATCTGAAT CACAGAACAA AATAGAACTA
    CTTCTGCAAC AACACCAAGA TAGGATTGAG CAGTTAATAA GTGAACATGA AGTTGAAATA
    ACAGGACTTA CTGAGAAAGC TAGCAGTGCT CGAAGCCAAG CCAATAGTAT CCAGAGTCAA
    ATGGAAATCA TTCAAGAGCA AGCAAGAAAC CAAAACTCTA TGTATATGCG TCAGCTCAGC
    GATCTGGAAT CTACTGTTTC TCAGCTACGT TCTGAATTAA GGGAAGCCAA AAGGATGTAT
    GAAGACAAGA CAGAAGAGCT GGAAAAGCAG TTAGTCCTTG CCAACTCAGA GCTAACTGAA
    GCCCGGACAG AGCGTGATCA ATTCAGTCAG GAATCTGGAA ATTTAGATGA TCAACTTCAA
    AAGCTGTTGG CTGATCTACA CAAAAGGGAG AAGGAGCTGA GTCTGGAGAA GGAGCAGAAT
    AAGCGTCTGT GGGACCGAGA CACAGGCAAC AGCATCACCA TTGACCACCT GCGGCGGGAA
    CTGGACAACC GGAACATGGA GGTGCAGCGC CTGGAAGCCC TGCTCAAGGC CTTGAAGAGC
    GAGTGTCAGG GCCAGATGGA GCGGCAGATG GCAGCAATTC AAGGAAAGAA TGAAAGTCTA
    GAAAAAGTAT CCTCCTTGAC TGCTCAGCTT GAATCCACCA AAGAGATGCT GCGCAAAGTA
    GTAGAAGAGT TGACAGCCAA GAAAATGACT CTGGAGAGCT CAGAGAGGAC AATATCGGAC
    CTGACAACTT CTCTCCAGGA AAAAGAGAGA GCCATCGAGG CTACCAATGC AGAGATCACA
    AAGCTCCGCT CCCGGGTGGA CTTGAAATTG CAGGAGCTGC AACACTTGAA AAATGAAGGG
    GATCATCTCA GAAATGTGCA GACAGAATGT GAGGCCCTCA AACTGCAGAT GACAGAGAAG
    GACAAGGTGA TCGAGATTCT GCGACAGCAG ATTGAGAACA TGACACAGCT GGTGGGCCAG
    CATGGACGAA CTGCTGGAGC TATGCAAGTA GAAAAAGCTC AACTGGAGAA AGAAATTAAT
    GATAGGCGGA TGGAACTAAA GGAACTTAAG ATATTAAAAG ATAAAAAAGA TGCAAAGATC
    CGGGAGCTTG AGGCCAGAGT GAGTGACTTG GAGCTGGAAA AGGTGAAGCT GGTGAATGCA
    GGCTCTGAGC GGCTCCGTGC AGTGAAGGAC ATCAAACAAG AGAGAGATCA ATTATTAAAT
    GAGGTGAAAA CAAGTAGGAG TGAATTAAAC AATCTTTCAG AGGAGTATGA AGTCTTAAAA
    AGGAATTTCC GAAACAAAAG TGAAGAAATG GAAATGACTA CAAATAAGTT GAAAATGCAA
    TTAAAATCTG CACAGTCTGA ACTAGAACAG ACAAGAAATA CATTAAAGTC AATGGAAGGA
    TCTGATGGTC ATGCTATGAA AGTGGCAATG GGGATGCAAA AGCAAATCAC AGCCAAAAGA
    GGTCAGATAG ATGCCCTTCA GAGCAAGATA CAGTTTTTGG AAGAGGCAAT GACAAATGCA
    AATAAGGAGA AACATTTTCT GAAAGAAGAG AAAAGTAAAC TCAGTCAGGA ATTGAGTACT
    GTTGCCACAG AAAAAAACAA GATGGCTGGG GAGTTGGAAG TTCTGCGATC TCAGGAACGC
    CGTTTGAAAG AAAAGGTTAC TAATATGGAA GTGGCTCTGG ATAAGGCATC TTTGCAGTTT
    GCAGAATGTC AAGATATAAT ACAGCGTCAG GAGCAAGAAT CAGTGCGCTT AAAACTTCAA
    CACACTTTGG ATATAAAAGA ACTTCAGGGC CCTGGATACA CCTCAAATTC TTCATTGAAA
    CCACGCCTTC TCCAGCCAGC ATCTGTTACT CGTTCTCATT CTAATGTACC ATCTTCGCAG
    TCTACAGCCA GCTTCCTGTC TCATCACTCT ACAAAAGCTA ACACACTGAA GGAAGATCCA
    ACAAGGGACC TGAAACAGCT TCTCCAAGAG TTGAGAAGCG TGATCAATGA GGAGCCAGCT
    GTGTCTCTGA GCAAGACAGA GGAAGATGGA AGAACATCTC TGGGAGCCTT GTATGTGGCT
    GTAGAGGATA GGGTAAGAGA TTGCATTACT GAATCCAGCC TGAGATCAGA CATGTGCCAT
    AGAAGCAACA ACTCGTTGAG GGACTCCACT GAAGGAAGCA AATCAAGTGA AACTCTTAGT
    AGAGAGCCAG TCACATTACA CGCAGGAGAC AGGGAAGATC CCTCTGGTTG CTTCACATTC
    ACATCTGCAG CAAGTCCATC TGTGAAAAAC TCAGCTTCTC GTTCATTCAA TTCTTCTCCT
    AAGAAGTCTC CAGTGCACTC ACTCCTAACT AGTTCAGTTG AAGGTTCAAT AGGTTCCACA
    TCACAGTATA GATCTGCCAA ACCTATTCAT TCATCTGATT CTGTTAAAGA TTCACAGTCT
    CCGCCAATAG AAACAACAGG AAAAACATGC AGGAAGCTTC AGAACAGACT AGAAAGCTTG
    CAAACTCTGG TAGAAGATTT ACAGCTGAAG AACCAAGCAA TGTCTTCAAT GATCAGAAAT
    CAAGAAAAGA GGATACAGAA AGTAAAAGAC CAGGAAAAAA TGTTACTAAA ATGA

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

    RefSeq XP_011530213.1
    CDS245..3598
    Translation

    Target ORF information:

    RefSeq Version XM_011531911.1
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 158 (CCDC158), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011531911.1

    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
    ATGGAATCAA AAGCTTGGGA ATCAAATAAT GAAGATCTTT TATCAAGTAG TGGTGTCACA 
    TCTAATGGAG GTTCTTCAAG TTCATTTTTT GTGTCATCTA TTCGTGGTAC AATAATTGAA
    AACACATCTT CAGCTGGGAC TTTGACACAG GTTCCTTTTT TCCCTAAATA TGAAGTGGAA
    CTTGATTCTC CTAGAAAAAT CATCCCATCT CCTGGAAAGG AACACTTTGA ACGTGTTTTG
    GAAGAATATT CACATCAAGT CAAAGATTTA CAGAGAAGAC TAAATGAAAG CAATGAATTG
    CATGAGAAAC AAAAGTTTTA TTTGAGGCAG TCAGTCATTG ATTTGCAAAC AAAACTTCAG
    GAGATGCAAA TGGAGAGAGA TGCTATGGCT GACATCAGAC GAAGGGAGAG TCAGTCCCAG
    GAGGATTTAA GAAATCAGCT TCAAAATACA GTTCATGAAC TTGAAGCTGC CAAATGCCTT
    AAAGAGGACA TGCTGAAAGA CAGCAACACA CAGATAGAGC AACTACGAAA AATGATGCTT
    AGTCATGAGG GAGTGCTTCA AGAAATCCGG TCAATCCTAG TTGACTTTGA AGAAGCCTCA
    GGCAAAAAAA TATGTGAACA TGACAGCATG TCTACTCTGC ACTTCCGCAG CTTGGGCTCA
    GCTATTAGTA AAATACTAAG AGAATTAGAC ACAGAGATTT CTTATCTTAA AGGGAGGATA
    TTTCCAGTAG AGGATCAACT TGAAGCACTG AAATCTGAAT CACAGAACAA AATAGAACTA
    CTTCTGCAAC AACACCAAGA TAGGATTGAG CAGTTAATAA GTGAACATGA AGTTGAAATA
    ACAGGACTTA CTGAGAAAGC TAGCAGTGCT CGAAGCCAAG CCAATAGTAT CCAGAGTCAA
    ATGGAAATCA TTCAAGAGCA AGCAAGAAAC CAAAACTCTA TGTATATGCG TCAGCTCAGC
    GATCTGGAAT CTACTGTTTC TCAGCTACGT TCTGAATTAA GGGAAGCCAA AAGGATGTAT
    GAAGACAAGA CAGAAGAGCT GGAAAAGCAG TTAGTCCTTG CCAACTCAGA GCTAACTGAA
    GCCCGGACAG AGCGTGATCA ATTCAGTCAG GAATCTGGAA ATTTAGATGA TCAACTTCAA
    AAGCTGTTGG CTGATCTACA CAAAAGGGAG AAGGAGCTGA GTCTGGAGAA GGAGCAGAAT
    AAGCGTCTGT GGGACCGAGA CACAGGCAAC AGCATCACCA TTGACCACCT GCGGCGGGAA
    CTGGACAACC GGAACATGGA GGTGCAGCGC CTGGAAGCCC TGCTCAAGGC CTTGAAGAGC
    GAGTGTCAGG GCCAGATGGA GCGGCAGATG GCAGCAATTC AAGGAAAGAA TGAAAGTCTA
    GAAAAAGTAT CCTCCTTGAC TGCTCAGCTT GAATCCACCA AAGAGATGCT GCGCAAAGTA
    GTAGAAGAGT TGACAGCCAA GAAAATGACT CTGGAGAGCT CAGAGAGGAC AATATCGGAC
    CTGACAACTT CTCTCCAGGA AAAAGAGAGA GCCATCGAGG CTACCAATGC AGAGATCACA
    AAGCTCCGCT CCCGGGTGGA CTTGAAATTG CAGGAGCTGC AACACTTGAA AAATGAAGGG
    GATCATCTCA GAAATGTGCA GACAGAATGT GAGGCCCTCA AACTGCAGAT GACAGAGAAG
    GACAAGGTGA TCGAGATTCT GCGACAGCAG ATTGAGAACA TGACACAGCT GGTGGGCCAG
    CATGGACGAA CTGCTGGAGC TATGCAAGTA GAAAAAGCTC AACTGGAGAA AGAAATTAAT
    GATAGGCGGA TGGAACTAAA GGAACTTAAG ATATTAAAAG ATAAAAAAGA TGCAAAGATC
    CGGGAGCTTG AGGCCAGAGT GAGTGACTTG GAGCTGGAAA AGGTGAAGCT GGTGAATGCA
    GGCTCTGAGC GGCTCCGTGC AGTGAAGGAC ATCAAACAAG AGAGAGATCA ATTATTAAAT
    GAGGTGAAAA CAAGTAGGAG TGAATTAAAC AATCTTTCAG AGGAGTATGA AGTCTTAAAA
    AGGAATTTCC GAAACAAAAG TGAAGAAATG GAAATGACTA CAAATAAGTT GAAAATGCAA
    TTAAAATCTG CACAGTCTGA ACTAGAACAG ACAAGAAATA CATTAAAGTC AATGGAAGGA
    TCTGATGGTC ATGCTATGAA AGTGGCAATG GGGATGCAAA AGCAAATCAC AGCCAAAAGA
    GGTCAGATAG ATGCCCTTCA GAGCAAGATA CAGTTTTTGG AAGAGGCAAT GACAAATGCA
    AATAAGGAGA AACATTTTCT GAAAGAAGAG AAAAGTAAAC TCAGTCAGGA ATTGAGTACT
    GTTGCCACAG AAAAAAACAA GATGGCTGGG GAGTTGGAAG TTCTGCGATC TCAGGAACGC
    CGTTTGAAAG AAAAGGTTAC TAATATGGAA GTGGCTCTGG ATAAGGCATC TTTGCAGTTT
    GCAGAATGTC AAGATATAAT ACAGCGTCAG GAGCAAGAAT CAGTGCGCTT AAAACTTCAA
    CACACTTTGG ATATAAAAGA ACTTCAGGGC CCTGGATACA CCTCAAATTC TTCATTGAAA
    CCACGCCTTC TCCAGCCAGC ATCTGTTACT CGTTCTCATT CTAATGTACC ATCTTCGCAG
    TCTACAGCCA GCTTCCTGTC TCATCACTCT ACAAAAGCTA ACACACTGAA GGAAGATCCA
    ACAAGGGACC TGAAACAGCT TCTCCAAGAG TTGAGAAGCG TGATCAATGA GGAGCCAGCT
    GTGTCTCTGA GCAAGACAGA GGAAGATGGA AGAACATCTC TGGGAGCCTT GTATGTGGCT
    GTAGAGGATA GGGTAAGAGA TTGCATTACT GAATCCAGCC TGAGATCAGA CATGTGCCAT
    AGAAGCAACA ACTCGTTGAG GGACTCCACT GAAGGAAGCA AATCAAGTGA AACTCTTAGT
    AGAGAGCCAG TCACATTACA CGCAGGAGAC AGGGAAGATC CCTCTGGTTG CTTCACATTC
    ACATCTGCAG CAAGTCCATC TGTGAAAAAC TCAGCTTCTC GTTCATTCAA TTCTTCTCCT
    AAGAAGTCTC CAGTGCACTC ACTCCTAACT AGTTCAGTTG AAGGTTCAAT AGGTTCCACA
    TCACAGTATA GATCTGCCAA ACCTATTCAT TCATCTGATT CTGTTAAAGA TTCACAGTCT
    CCGCCAATAG AAACAACAGG AAAAACATGC AGGAAGCTTC AGAACAGACT AGAAAGCTTG
    CAAACTCTGG TAGAAGATTT ACAGCTGAAG AACCAAGCAA TGTCTTCAAT GATCAGAAAT
    CAAGAAAAGA GGATACAGAA AGTAAAAGAC CAGGAAAAAA TGTTACTAAA ATGA

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

    CloneID OHu38910
    Clone ID Related Accession (Same CDS sequence) XM_011531909.2 , XM_006714204.3 , XM_017008160.1 , XM_011531913.1 , XM_011531908.2 , XM_011531912.2 , XM_011531911.1 , XM_011531914.2 , XM_011531910.2 , XM_011531910.3
    Accession Version XM_011531914.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3354bp)
    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 coiled-coil domain-containing protein 158 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011531914.1. ##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
    ATGGAATCAA AAGCTTGGGA ATCAAATAAT GAAGATCTTT TATCAAGTAG TGGTGTCACA 
    TCTAATGGAG GTTCTTCAAG TTCATTTTTT GTGTCATCTA TTCGTGGTAC AATAATTGAA
    AACACATCTT CAGCTGGGAC TTTGACACAG GTTCCTTTTT TCCCTAAATA TGAAGTGGAA
    CTTGATTCTC CTAGAAAAAT CATCCCATCT CCTGGAAAGG AACACTTTGA ACGTGTTTTG
    GAAGAATATT CACATCAAGT CAAAGATTTA CAGAGAAGAC TAAATGAAAG CAATGAATTG
    CATGAGAAAC AAAAGTTTTA TTTGAGGCAG TCAGTCATTG ATTTGCAAAC AAAACTTCAG
    GAGATGCAAA TGGAGAGAGA TGCTATGGCT GACATCAGAC GAAGGGAGAG TCAGTCCCAG
    GAGGATTTAA GAAATCAGCT TCAAAATACA GTTCATGAAC TTGAAGCTGC CAAATGCCTT
    AAAGAGGACA TGCTGAAAGA CAGCAACACA CAGATAGAGC AACTACGAAA AATGATGCTT
    AGTCATGAGG GAGTGCTTCA AGAAATCCGG TCAATCCTAG TTGACTTTGA AGAAGCCTCA
    GGCAAAAAAA TATGTGAACA TGACAGCATG TCTACTCTGC ACTTCCGCAG CTTGGGCTCA
    GCTATTAGTA AAATACTAAG AGAATTAGAC ACAGAGATTT CTTATCTTAA AGGGAGGATA
    TTTCCAGTAG AGGATCAACT TGAAGCACTG AAATCTGAAT CACAGAACAA AATAGAACTA
    CTTCTGCAAC AACACCAAGA TAGGATTGAG CAGTTAATAA GTGAACATGA AGTTGAAATA
    ACAGGACTTA CTGAGAAAGC TAGCAGTGCT CGAAGCCAAG CCAATAGTAT CCAGAGTCAA
    ATGGAAATCA TTCAAGAGCA AGCAAGAAAC CAAAACTCTA TGTATATGCG TCAGCTCAGC
    GATCTGGAAT CTACTGTTTC TCAGCTACGT TCTGAATTAA GGGAAGCCAA AAGGATGTAT
    GAAGACAAGA CAGAAGAGCT GGAAAAGCAG TTAGTCCTTG CCAACTCAGA GCTAACTGAA
    GCCCGGACAG AGCGTGATCA ATTCAGTCAG GAATCTGGAA ATTTAGATGA TCAACTTCAA
    AAGCTGTTGG CTGATCTACA CAAAAGGGAG AAGGAGCTGA GTCTGGAGAA GGAGCAGAAT
    AAGCGTCTGT GGGACCGAGA CACAGGCAAC AGCATCACCA TTGACCACCT GCGGCGGGAA
    CTGGACAACC GGAACATGGA GGTGCAGCGC CTGGAAGCCC TGCTCAAGGC CTTGAAGAGC
    GAGTGTCAGG GCCAGATGGA GCGGCAGATG GCAGCAATTC AAGGAAAGAA TGAAAGTCTA
    GAAAAAGTAT CCTCCTTGAC TGCTCAGCTT GAATCCACCA AAGAGATGCT GCGCAAAGTA
    GTAGAAGAGT TGACAGCCAA GAAAATGACT CTGGAGAGCT CAGAGAGGAC AATATCGGAC
    CTGACAACTT CTCTCCAGGA AAAAGAGAGA GCCATCGAGG CTACCAATGC AGAGATCACA
    AAGCTCCGCT CCCGGGTGGA CTTGAAATTG CAGGAGCTGC AACACTTGAA AAATGAAGGG
    GATCATCTCA GAAATGTGCA GACAGAATGT GAGGCCCTCA AACTGCAGAT GACAGAGAAG
    GACAAGGTGA TCGAGATTCT GCGACAGCAG ATTGAGAACA TGACACAGCT GGTGGGCCAG
    CATGGACGAA CTGCTGGAGC TATGCAAGTA GAAAAAGCTC AACTGGAGAA AGAAATTAAT
    GATAGGCGGA TGGAACTAAA GGAACTTAAG ATATTAAAAG ATAAAAAAGA TGCAAAGATC
    CGGGAGCTTG AGGCCAGAGT GAGTGACTTG GAGCTGGAAA AGGTGAAGCT GGTGAATGCA
    GGCTCTGAGC GGCTCCGTGC AGTGAAGGAC ATCAAACAAG AGAGAGATCA ATTATTAAAT
    GAGGTGAAAA CAAGTAGGAG TGAATTAAAC AATCTTTCAG AGGAGTATGA AGTCTTAAAA
    AGGAATTTCC GAAACAAAAG TGAAGAAATG GAAATGACTA CAAATAAGTT GAAAATGCAA
    TTAAAATCTG CACAGTCTGA ACTAGAACAG ACAAGAAATA CATTAAAGTC AATGGAAGGA
    TCTGATGGTC ATGCTATGAA AGTGGCAATG GGGATGCAAA AGCAAATCAC AGCCAAAAGA
    GGTCAGATAG ATGCCCTTCA GAGCAAGATA CAGTTTTTGG AAGAGGCAAT GACAAATGCA
    AATAAGGAGA AACATTTTCT GAAAGAAGAG AAAAGTAAAC TCAGTCAGGA ATTGAGTACT
    GTTGCCACAG AAAAAAACAA GATGGCTGGG GAGTTGGAAG TTCTGCGATC TCAGGAACGC
    CGTTTGAAAG AAAAGGTTAC TAATATGGAA GTGGCTCTGG ATAAGGCATC TTTGCAGTTT
    GCAGAATGTC AAGATATAAT ACAGCGTCAG GAGCAAGAAT CAGTGCGCTT AAAACTTCAA
    CACACTTTGG ATATAAAAGA ACTTCAGGGC CCTGGATACA CCTCAAATTC TTCATTGAAA
    CCACGCCTTC TCCAGCCAGC ATCTGTTACT CGTTCTCATT CTAATGTACC ATCTTCGCAG
    TCTACAGCCA GCTTCCTGTC TCATCACTCT ACAAAAGCTA ACACACTGAA GGAAGATCCA
    ACAAGGGACC TGAAACAGCT TCTCCAAGAG TTGAGAAGCG TGATCAATGA GGAGCCAGCT
    GTGTCTCTGA GCAAGACAGA GGAAGATGGA AGAACATCTC TGGGAGCCTT GTATGTGGCT
    GTAGAGGATA GGGTAAGAGA TTGCATTACT GAATCCAGCC TGAGATCAGA CATGTGCCAT
    AGAAGCAACA ACTCGTTGAG GGACTCCACT GAAGGAAGCA AATCAAGTGA AACTCTTAGT
    AGAGAGCCAG TCACATTACA CGCAGGAGAC AGGGAAGATC CCTCTGGTTG CTTCACATTC
    ACATCTGCAG CAAGTCCATC TGTGAAAAAC TCAGCTTCTC GTTCATTCAA TTCTTCTCCT
    AAGAAGTCTC CAGTGCACTC ACTCCTAACT AGTTCAGTTG AAGGTTCAAT AGGTTCCACA
    TCACAGTATA GATCTGCCAA ACCTATTCAT TCATCTGATT CTGTTAAAGA TTCACAGTCT
    CCGCCAATAG AAACAACAGG AAAAACATGC AGGAAGCTTC AGAACAGACT AGAAAGCTTG
    CAAACTCTGG TAGAAGATTT ACAGCTGAAG AACCAAGCAA TGTCTTCAAT GATCAGAAAT
    CAAGAAAAGA GGATACAGAA AGTAAAAGAC CAGGAAAAAA TGTTACTAAA ATGA

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

    RefSeq XP_011530216.1
    CDS238..3591
    Translation

    Target ORF information:

    RefSeq Version XM_011531914.2
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 158 (CCDC158), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011531914.2

    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
    ATGGAATCAA AAGCTTGGGA ATCAAATAAT GAAGATCTTT TATCAAGTAG TGGTGTCACA 
    TCTAATGGAG GTTCTTCAAG TTCATTTTTT GTGTCATCTA TTCGTGGTAC AATAATTGAA
    AACACATCTT CAGCTGGGAC TTTGACACAG GTTCCTTTTT TCCCTAAATA TGAAGTGGAA
    CTTGATTCTC CTAGAAAAAT CATCCCATCT CCTGGAAAGG AACACTTTGA ACGTGTTTTG
    GAAGAATATT CACATCAAGT CAAAGATTTA CAGAGAAGAC TAAATGAAAG CAATGAATTG
    CATGAGAAAC AAAAGTTTTA TTTGAGGCAG TCAGTCATTG ATTTGCAAAC AAAACTTCAG
    GAGATGCAAA TGGAGAGAGA TGCTATGGCT GACATCAGAC GAAGGGAGAG TCAGTCCCAG
    GAGGATTTAA GAAATCAGCT TCAAAATACA GTTCATGAAC TTGAAGCTGC CAAATGCCTT
    AAAGAGGACA TGCTGAAAGA CAGCAACACA CAGATAGAGC AACTACGAAA AATGATGCTT
    AGTCATGAGG GAGTGCTTCA AGAAATCCGG TCAATCCTAG TTGACTTTGA AGAAGCCTCA
    GGCAAAAAAA TATGTGAACA TGACAGCATG TCTACTCTGC ACTTCCGCAG CTTGGGCTCA
    GCTATTAGTA AAATACTAAG AGAATTAGAC ACAGAGATTT CTTATCTTAA AGGGAGGATA
    TTTCCAGTAG AGGATCAACT TGAAGCACTG AAATCTGAAT CACAGAACAA AATAGAACTA
    CTTCTGCAAC AACACCAAGA TAGGATTGAG CAGTTAATAA GTGAACATGA AGTTGAAATA
    ACAGGACTTA CTGAGAAAGC TAGCAGTGCT CGAAGCCAAG CCAATAGTAT CCAGAGTCAA
    ATGGAAATCA TTCAAGAGCA AGCAAGAAAC CAAAACTCTA TGTATATGCG TCAGCTCAGC
    GATCTGGAAT CTACTGTTTC TCAGCTACGT TCTGAATTAA GGGAAGCCAA AAGGATGTAT
    GAAGACAAGA CAGAAGAGCT GGAAAAGCAG TTAGTCCTTG CCAACTCAGA GCTAACTGAA
    GCCCGGACAG AGCGTGATCA ATTCAGTCAG GAATCTGGAA ATTTAGATGA TCAACTTCAA
    AAGCTGTTGG CTGATCTACA CAAAAGGGAG AAGGAGCTGA GTCTGGAGAA GGAGCAGAAT
    AAGCGTCTGT GGGACCGAGA CACAGGCAAC AGCATCACCA TTGACCACCT GCGGCGGGAA
    CTGGACAACC GGAACATGGA GGTGCAGCGC CTGGAAGCCC TGCTCAAGGC CTTGAAGAGC
    GAGTGTCAGG GCCAGATGGA GCGGCAGATG GCAGCAATTC AAGGAAAGAA TGAAAGTCTA
    GAAAAAGTAT CCTCCTTGAC TGCTCAGCTT GAATCCACCA AAGAGATGCT GCGCAAAGTA
    GTAGAAGAGT TGACAGCCAA GAAAATGACT CTGGAGAGCT CAGAGAGGAC AATATCGGAC
    CTGACAACTT CTCTCCAGGA AAAAGAGAGA GCCATCGAGG CTACCAATGC AGAGATCACA
    AAGCTCCGCT CCCGGGTGGA CTTGAAATTG CAGGAGCTGC AACACTTGAA AAATGAAGGG
    GATCATCTCA GAAATGTGCA GACAGAATGT GAGGCCCTCA AACTGCAGAT GACAGAGAAG
    GACAAGGTGA TCGAGATTCT GCGACAGCAG ATTGAGAACA TGACACAGCT GGTGGGCCAG
    CATGGACGAA CTGCTGGAGC TATGCAAGTA GAAAAAGCTC AACTGGAGAA AGAAATTAAT
    GATAGGCGGA TGGAACTAAA GGAACTTAAG ATATTAAAAG ATAAAAAAGA TGCAAAGATC
    CGGGAGCTTG AGGCCAGAGT GAGTGACTTG GAGCTGGAAA AGGTGAAGCT GGTGAATGCA
    GGCTCTGAGC GGCTCCGTGC AGTGAAGGAC ATCAAACAAG AGAGAGATCA ATTATTAAAT
    GAGGTGAAAA CAAGTAGGAG TGAATTAAAC AATCTTTCAG AGGAGTATGA AGTCTTAAAA
    AGGAATTTCC GAAACAAAAG TGAAGAAATG GAAATGACTA CAAATAAGTT GAAAATGCAA
    TTAAAATCTG CACAGTCTGA ACTAGAACAG ACAAGAAATA CATTAAAGTC AATGGAAGGA
    TCTGATGGTC ATGCTATGAA AGTGGCAATG GGGATGCAAA AGCAAATCAC AGCCAAAAGA
    GGTCAGATAG ATGCCCTTCA GAGCAAGATA CAGTTTTTGG AAGAGGCAAT GACAAATGCA
    AATAAGGAGA AACATTTTCT GAAAGAAGAG AAAAGTAAAC TCAGTCAGGA ATTGAGTACT
    GTTGCCACAG AAAAAAACAA GATGGCTGGG GAGTTGGAAG TTCTGCGATC TCAGGAACGC
    CGTTTGAAAG AAAAGGTTAC TAATATGGAA GTGGCTCTGG ATAAGGCATC TTTGCAGTTT
    GCAGAATGTC AAGATATAAT ACAGCGTCAG GAGCAAGAAT CAGTGCGCTT AAAACTTCAA
    CACACTTTGG ATATAAAAGA ACTTCAGGGC CCTGGATACA CCTCAAATTC TTCATTGAAA
    CCACGCCTTC TCCAGCCAGC ATCTGTTACT CGTTCTCATT CTAATGTACC ATCTTCGCAG
    TCTACAGCCA GCTTCCTGTC TCATCACTCT ACAAAAGCTA ACACACTGAA GGAAGATCCA
    ACAAGGGACC TGAAACAGCT TCTCCAAGAG TTGAGAAGCG TGATCAATGA GGAGCCAGCT
    GTGTCTCTGA GCAAGACAGA GGAAGATGGA AGAACATCTC TGGGAGCCTT GTATGTGGCT
    GTAGAGGATA GGGTAAGAGA TTGCATTACT GAATCCAGCC TGAGATCAGA CATGTGCCAT
    AGAAGCAACA ACTCGTTGAG GGACTCCACT GAAGGAAGCA AATCAAGTGA AACTCTTAGT
    AGAGAGCCAG TCACATTACA CGCAGGAGAC AGGGAAGATC CCTCTGGTTG CTTCACATTC
    ACATCTGCAG CAAGTCCATC TGTGAAAAAC TCAGCTTCTC GTTCATTCAA TTCTTCTCCT
    AAGAAGTCTC CAGTGCACTC ACTCCTAACT AGTTCAGTTG AAGGTTCAAT AGGTTCCACA
    TCACAGTATA GATCTGCCAA ACCTATTCAT TCATCTGATT CTGTTAAAGA TTCACAGTCT
    CCGCCAATAG AAACAACAGG AAAAACATGC AGGAAGCTTC AGAACAGACT AGAAAGCTTG
    CAAACTCTGG TAGAAGATTT ACAGCTGAAG AACCAAGCAA TGTCTTCAAT GATCAGAAAT
    CAAGAAAAGA GGATACAGAA AGTAAAAGAC CAGGAAAAAA TGTTACTAAA ATGA

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

    CloneID OHu38910
    Clone ID Related Accession (Same CDS sequence) XM_011531909.2 , XM_006714204.3 , XM_017008160.1 , XM_011531913.1 , XM_011531908.2 , XM_011531912.2 , XM_011531911.1 , XM_011531914.2 , XM_011531910.2 , XM_011531910.3
    Accession Version XM_011531910.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3354bp)
    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 coiled-coil domain-containing protein 158 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011531910.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    ATGGAATCAA AAGCTTGGGA ATCAAATAAT GAAGATCTTT TATCAAGTAG TGGTGTCACA 
    TCTAATGGAG GTTCTTCAAG TTCATTTTTT GTGTCATCTA TTCGTGGTAC AATAATTGAA
    AACACATCTT CAGCTGGGAC TTTGACACAG GTTCCTTTTT TCCCTAAATA TGAAGTGGAA
    CTTGATTCTC CTAGAAAAAT CATCCCATCT CCTGGAAAGG AACACTTTGA ACGTGTTTTG
    GAAGAATATT CACATCAAGT CAAAGATTTA CAGAGAAGAC TAAATGAAAG CAATGAATTG
    CATGAGAAAC AAAAGTTTTA TTTGAGGCAG TCAGTCATTG ATTTGCAAAC AAAACTTCAG
    GAGATGCAAA TGGAGAGAGA TGCTATGGCT GACATCAGAC GAAGGGAGAG TCAGTCCCAG
    GAGGATTTAA GAAATCAGCT TCAAAATACA GTTCATGAAC TTGAAGCTGC CAAATGCCTT
    AAAGAGGACA TGCTGAAAGA CAGCAACACA CAGATAGAGC AACTACGAAA AATGATGCTT
    AGTCATGAGG GAGTGCTTCA AGAAATCCGG TCAATCCTAG TTGACTTTGA AGAAGCCTCA
    GGCAAAAAAA TATGTGAACA TGACAGCATG TCTACTCTGC ACTTCCGCAG CTTGGGCTCA
    GCTATTAGTA AAATACTAAG AGAATTAGAC ACAGAGATTT CTTATCTTAA AGGGAGGATA
    TTTCCAGTAG AGGATCAACT TGAAGCACTG AAATCTGAAT CACAGAACAA AATAGAACTA
    CTTCTGCAAC AACACCAAGA TAGGATTGAG CAGTTAATAA GTGAACATGA AGTTGAAATA
    ACAGGACTTA CTGAGAAAGC TAGCAGTGCT CGAAGCCAAG CCAATAGTAT CCAGAGTCAA
    ATGGAAATCA TTCAAGAGCA AGCAAGAAAC CAAAACTCTA TGTATATGCG TCAGCTCAGC
    GATCTGGAAT CTACTGTTTC TCAGCTACGT TCTGAATTAA GGGAAGCCAA AAGGATGTAT
    GAAGACAAGA CAGAAGAGCT GGAAAAGCAG TTAGTCCTTG CCAACTCAGA GCTAACTGAA
    GCCCGGACAG AGCGTGATCA ATTCAGTCAG GAATCTGGAA ATTTAGATGA TCAACTTCAA
    AAGCTGTTGG CTGATCTACA CAAAAGGGAG AAGGAGCTGA GTCTGGAGAA GGAGCAGAAT
    AAGCGTCTGT GGGACCGAGA CACAGGCAAC AGCATCACCA TTGACCACCT GCGGCGGGAA
    CTGGACAACC GGAACATGGA GGTGCAGCGC CTGGAAGCCC TGCTCAAGGC CTTGAAGAGC
    GAGTGTCAGG GCCAGATGGA GCGGCAGATG GCAGCAATTC AAGGAAAGAA TGAAAGTCTA
    GAAAAAGTAT CCTCCTTGAC TGCTCAGCTT GAATCCACCA AAGAGATGCT GCGCAAAGTA
    GTAGAAGAGT TGACAGCCAA GAAAATGACT CTGGAGAGCT CAGAGAGGAC AATATCGGAC
    CTGACAACTT CTCTCCAGGA AAAAGAGAGA GCCATCGAGG CTACCAATGC AGAGATCACA
    AAGCTCCGCT CCCGGGTGGA CTTGAAATTG CAGGAGCTGC AACACTTGAA AAATGAAGGG
    GATCATCTCA GAAATGTGCA GACAGAATGT GAGGCCCTCA AACTGCAGAT GACAGAGAAG
    GACAAGGTGA TCGAGATTCT GCGACAGCAG ATTGAGAACA TGACACAGCT GGTGGGCCAG
    CATGGACGAA CTGCTGGAGC TATGCAAGTA GAAAAAGCTC AACTGGAGAA AGAAATTAAT
    GATAGGCGGA TGGAACTAAA GGAACTTAAG ATATTAAAAG ATAAAAAAGA TGCAAAGATC
    CGGGAGCTTG AGGCCAGAGT GAGTGACTTG GAGCTGGAAA AGGTGAAGCT GGTGAATGCA
    GGCTCTGAGC GGCTCCGTGC AGTGAAGGAC ATCAAACAAG AGAGAGATCA ATTATTAAAT
    GAGGTGAAAA CAAGTAGGAG TGAATTAAAC AATCTTTCAG AGGAGTATGA AGTCTTAAAA
    AGGAATTTCC GAAACAAAAG TGAAGAAATG GAAATGACTA CAAATAAGTT GAAAATGCAA
    TTAAAATCTG CACAGTCTGA ACTAGAACAG ACAAGAAATA CATTAAAGTC AATGGAAGGA
    TCTGATGGTC ATGCTATGAA AGTGGCAATG GGGATGCAAA AGCAAATCAC AGCCAAAAGA
    GGTCAGATAG ATGCCCTTCA GAGCAAGATA CAGTTTTTGG AAGAGGCAAT GACAAATGCA
    AATAAGGAGA AACATTTTCT GAAAGAAGAG AAAAGTAAAC TCAGTCAGGA ATTGAGTACT
    GTTGCCACAG AAAAAAACAA GATGGCTGGG GAGTTGGAAG TTCTGCGATC TCAGGAACGC
    CGTTTGAAAG AAAAGGTTAC TAATATGGAA GTGGCTCTGG ATAAGGCATC TTTGCAGTTT
    GCAGAATGTC AAGATATAAT ACAGCGTCAG GAGCAAGAAT CAGTGCGCTT AAAACTTCAA
    CACACTTTGG ATATAAAAGA ACTTCAGGGC CCTGGATACA CCTCAAATTC TTCATTGAAA
    CCACGCCTTC TCCAGCCAGC ATCTGTTACT CGTTCTCATT CTAATGTACC ATCTTCGCAG
    TCTACAGCCA GCTTCCTGTC TCATCACTCT ACAAAAGCTA ACACACTGAA GGAAGATCCA
    ACAAGGGACC TGAAACAGCT TCTCCAAGAG TTGAGAAGCG TGATCAATGA GGAGCCAGCT
    GTGTCTCTGA GCAAGACAGA GGAAGATGGA AGAACATCTC TGGGAGCCTT GTATGTGGCT
    GTAGAGGATA GGGTAAGAGA TTGCATTACT GAATCCAGCC TGAGATCAGA CATGTGCCAT
    AGAAGCAACA ACTCGTTGAG GGACTCCACT GAAGGAAGCA AATCAAGTGA AACTCTTAGT
    AGAGAGCCAG TCACATTACA CGCAGGAGAC AGGGAAGATC CCTCTGGTTG CTTCACATTC
    ACATCTGCAG CAAGTCCATC TGTGAAAAAC TCAGCTTCTC GTTCATTCAA TTCTTCTCCT
    AAGAAGTCTC CAGTGCACTC ACTCCTAACT AGTTCAGTTG AAGGTTCAAT AGGTTCCACA
    TCACAGTATA GATCTGCCAA ACCTATTCAT TCATCTGATT CTGTTAAAGA TTCACAGTCT
    CCGCCAATAG AAACAACAGG AAAAACATGC AGGAAGCTTC AGAACAGACT AGAAAGCTTG
    CAAACTCTGG TAGAAGATTT ACAGCTGAAG AACCAAGCAA TGTCTTCAAT GATCAGAAAT
    CAAGAAAAGA GGATACAGAA AGTAAAAGAC CAGGAAAAAA TGTTACTAAA ATGA

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

    RefSeq XP_011530212.1
    CDS862..4215
    Translation

    Target ORF information:

    RefSeq Version XM_011531910.2
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 158 (CCDC158), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011531910.2

    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
    ATGGAATCAA AAGCTTGGGA ATCAAATAAT GAAGATCTTT TATCAAGTAG TGGTGTCACA 
    TCTAATGGAG GTTCTTCAAG TTCATTTTTT GTGTCATCTA TTCGTGGTAC AATAATTGAA
    AACACATCTT CAGCTGGGAC TTTGACACAG GTTCCTTTTT TCCCTAAATA TGAAGTGGAA
    CTTGATTCTC CTAGAAAAAT CATCCCATCT CCTGGAAAGG AACACTTTGA ACGTGTTTTG
    GAAGAATATT CACATCAAGT CAAAGATTTA CAGAGAAGAC TAAATGAAAG CAATGAATTG
    CATGAGAAAC AAAAGTTTTA TTTGAGGCAG TCAGTCATTG ATTTGCAAAC AAAACTTCAG
    GAGATGCAAA TGGAGAGAGA TGCTATGGCT GACATCAGAC GAAGGGAGAG TCAGTCCCAG
    GAGGATTTAA GAAATCAGCT TCAAAATACA GTTCATGAAC TTGAAGCTGC CAAATGCCTT
    AAAGAGGACA TGCTGAAAGA CAGCAACACA CAGATAGAGC AACTACGAAA AATGATGCTT
    AGTCATGAGG GAGTGCTTCA AGAAATCCGG TCAATCCTAG TTGACTTTGA AGAAGCCTCA
    GGCAAAAAAA TATGTGAACA TGACAGCATG TCTACTCTGC ACTTCCGCAG CTTGGGCTCA
    GCTATTAGTA AAATACTAAG AGAATTAGAC ACAGAGATTT CTTATCTTAA AGGGAGGATA
    TTTCCAGTAG AGGATCAACT TGAAGCACTG AAATCTGAAT CACAGAACAA AATAGAACTA
    CTTCTGCAAC AACACCAAGA TAGGATTGAG CAGTTAATAA GTGAACATGA AGTTGAAATA
    ACAGGACTTA CTGAGAAAGC TAGCAGTGCT CGAAGCCAAG CCAATAGTAT CCAGAGTCAA
    ATGGAAATCA TTCAAGAGCA AGCAAGAAAC CAAAACTCTA TGTATATGCG TCAGCTCAGC
    GATCTGGAAT CTACTGTTTC TCAGCTACGT TCTGAATTAA GGGAAGCCAA AAGGATGTAT
    GAAGACAAGA CAGAAGAGCT GGAAAAGCAG TTAGTCCTTG CCAACTCAGA GCTAACTGAA
    GCCCGGACAG AGCGTGATCA ATTCAGTCAG GAATCTGGAA ATTTAGATGA TCAACTTCAA
    AAGCTGTTGG CTGATCTACA CAAAAGGGAG AAGGAGCTGA GTCTGGAGAA GGAGCAGAAT
    AAGCGTCTGT GGGACCGAGA CACAGGCAAC AGCATCACCA TTGACCACCT GCGGCGGGAA
    CTGGACAACC GGAACATGGA GGTGCAGCGC CTGGAAGCCC TGCTCAAGGC CTTGAAGAGC
    GAGTGTCAGG GCCAGATGGA GCGGCAGATG GCAGCAATTC AAGGAAAGAA TGAAAGTCTA
    GAAAAAGTAT CCTCCTTGAC TGCTCAGCTT GAATCCACCA AAGAGATGCT GCGCAAAGTA
    GTAGAAGAGT TGACAGCCAA GAAAATGACT CTGGAGAGCT CAGAGAGGAC AATATCGGAC
    CTGACAACTT CTCTCCAGGA AAAAGAGAGA GCCATCGAGG CTACCAATGC AGAGATCACA
    AAGCTCCGCT CCCGGGTGGA CTTGAAATTG CAGGAGCTGC AACACTTGAA AAATGAAGGG
    GATCATCTCA GAAATGTGCA GACAGAATGT GAGGCCCTCA AACTGCAGAT GACAGAGAAG
    GACAAGGTGA TCGAGATTCT GCGACAGCAG ATTGAGAACA TGACACAGCT GGTGGGCCAG
    CATGGACGAA CTGCTGGAGC TATGCAAGTA GAAAAAGCTC AACTGGAGAA AGAAATTAAT
    GATAGGCGGA TGGAACTAAA GGAACTTAAG ATATTAAAAG ATAAAAAAGA TGCAAAGATC
    CGGGAGCTTG AGGCCAGAGT GAGTGACTTG GAGCTGGAAA AGGTGAAGCT GGTGAATGCA
    GGCTCTGAGC GGCTCCGTGC AGTGAAGGAC ATCAAACAAG AGAGAGATCA ATTATTAAAT
    GAGGTGAAAA CAAGTAGGAG TGAATTAAAC AATCTTTCAG AGGAGTATGA AGTCTTAAAA
    AGGAATTTCC GAAACAAAAG TGAAGAAATG GAAATGACTA CAAATAAGTT GAAAATGCAA
    TTAAAATCTG CACAGTCTGA ACTAGAACAG ACAAGAAATA CATTAAAGTC AATGGAAGGA
    TCTGATGGTC ATGCTATGAA AGTGGCAATG GGGATGCAAA AGCAAATCAC AGCCAAAAGA
    GGTCAGATAG ATGCCCTTCA GAGCAAGATA CAGTTTTTGG AAGAGGCAAT GACAAATGCA
    AATAAGGAGA AACATTTTCT GAAAGAAGAG AAAAGTAAAC TCAGTCAGGA ATTGAGTACT
    GTTGCCACAG AAAAAAACAA GATGGCTGGG GAGTTGGAAG TTCTGCGATC TCAGGAACGC
    CGTTTGAAAG AAAAGGTTAC TAATATGGAA GTGGCTCTGG ATAAGGCATC TTTGCAGTTT
    GCAGAATGTC AAGATATAAT ACAGCGTCAG GAGCAAGAAT CAGTGCGCTT AAAACTTCAA
    CACACTTTGG ATATAAAAGA ACTTCAGGGC CCTGGATACA CCTCAAATTC TTCATTGAAA
    CCACGCCTTC TCCAGCCAGC ATCTGTTACT CGTTCTCATT CTAATGTACC ATCTTCGCAG
    TCTACAGCCA GCTTCCTGTC TCATCACTCT ACAAAAGCTA ACACACTGAA GGAAGATCCA
    ACAAGGGACC TGAAACAGCT TCTCCAAGAG TTGAGAAGCG TGATCAATGA GGAGCCAGCT
    GTGTCTCTGA GCAAGACAGA GGAAGATGGA AGAACATCTC TGGGAGCCTT GTATGTGGCT
    GTAGAGGATA GGGTAAGAGA TTGCATTACT GAATCCAGCC TGAGATCAGA CATGTGCCAT
    AGAAGCAACA ACTCGTTGAG GGACTCCACT GAAGGAAGCA AATCAAGTGA AACTCTTAGT
    AGAGAGCCAG TCACATTACA CGCAGGAGAC AGGGAAGATC CCTCTGGTTG CTTCACATTC
    ACATCTGCAG CAAGTCCATC TGTGAAAAAC TCAGCTTCTC GTTCATTCAA TTCTTCTCCT
    AAGAAGTCTC CAGTGCACTC ACTCCTAACT AGTTCAGTTG AAGGTTCAAT AGGTTCCACA
    TCACAGTATA GATCTGCCAA ACCTATTCAT TCATCTGATT CTGTTAAAGA TTCACAGTCT
    CCGCCAATAG AAACAACAGG AAAAACATGC AGGAAGCTTC AGAACAGACT AGAAAGCTTG
    CAAACTCTGG TAGAAGATTT ACAGCTGAAG AACCAAGCAA TGTCTTCAAT GATCAGAAAT
    CAAGAAAAGA GGATACAGAA AGTAAAAGAC CAGGAAAAAA TGTTACTAAA ATGA

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

    CloneID OHu38910
    Clone ID Related Accession (Same CDS sequence) XM_011531909.2 , XM_006714204.3 , XM_017008160.1 , XM_011531913.1 , XM_011531908.2 , XM_011531912.2 , XM_011531911.1 , XM_011531914.2 , XM_011531910.2 , XM_011531910.3
    Accession Version XM_011531910.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3354bp)
    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 coiled-coil domain-containing protein 158 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011531910.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    ATGGAATCAA AAGCTTGGGA ATCAAATAAT GAAGATCTTT TATCAAGTAG TGGTGTCACA 
    TCTAATGGAG GTTCTTCAAG TTCATTTTTT GTGTCATCTA TTCGTGGTAC AATAATTGAA
    AACACATCTT CAGCTGGGAC TTTGACACAG GTTCCTTTTT TCCCTAAATA TGAAGTGGAA
    CTTGATTCTC CTAGAAAAAT CATCCCATCT CCTGGAAAGG AACACTTTGA ACGTGTTTTG
    GAAGAATATT CACATCAAGT CAAAGATTTA CAGAGAAGAC TAAATGAAAG CAATGAATTG
    CATGAGAAAC AAAAGTTTTA TTTGAGGCAG TCAGTCATTG ATTTGCAAAC AAAACTTCAG
    GAGATGCAAA TGGAGAGAGA TGCTATGGCT GACATCAGAC GAAGGGAGAG TCAGTCCCAG
    GAGGATTTAA GAAATCAGCT TCAAAATACA GTTCATGAAC TTGAAGCTGC CAAATGCCTT
    AAAGAGGACA TGCTGAAAGA CAGCAACACA CAGATAGAGC AACTACGAAA AATGATGCTT
    AGTCATGAGG GAGTGCTTCA AGAAATCCGG TCAATCCTAG TTGACTTTGA AGAAGCCTCA
    GGCAAAAAAA TATGTGAACA TGACAGCATG TCTACTCTGC ACTTCCGCAG CTTGGGCTCA
    GCTATTAGTA AAATACTAAG AGAATTAGAC ACAGAGATTT CTTATCTTAA AGGGAGGATA
    TTTCCAGTAG AGGATCAACT TGAAGCACTG AAATCTGAAT CACAGAACAA AATAGAACTA
    CTTCTGCAAC AACACCAAGA TAGGATTGAG CAGTTAATAA GTGAACATGA AGTTGAAATA
    ACAGGACTTA CTGAGAAAGC TAGCAGTGCT CGAAGCCAAG CCAATAGTAT CCAGAGTCAA
    ATGGAAATCA TTCAAGAGCA AGCAAGAAAC CAAAACTCTA TGTATATGCG TCAGCTCAGC
    GATCTGGAAT CTACTGTTTC TCAGCTACGT TCTGAATTAA GGGAAGCCAA AAGGATGTAT
    GAAGACAAGA CAGAAGAGCT GGAAAAGCAG TTAGTCCTTG CCAACTCAGA GCTAACTGAA
    GCCCGGACAG AGCGTGATCA ATTCAGTCAG GAATCTGGAA ATTTAGATGA TCAACTTCAA
    AAGCTGTTGG CTGATCTACA CAAAAGGGAG AAGGAGCTGA GTCTGGAGAA GGAGCAGAAT
    AAGCGTCTGT GGGACCGAGA CACAGGCAAC AGCATCACCA TTGACCACCT GCGGCGGGAA
    CTGGACAACC GGAACATGGA GGTGCAGCGC CTGGAAGCCC TGCTCAAGGC CTTGAAGAGC
    GAGTGTCAGG GCCAGATGGA GCGGCAGATG GCAGCAATTC AAGGAAAGAA TGAAAGTCTA
    GAAAAAGTAT CCTCCTTGAC TGCTCAGCTT GAATCCACCA AAGAGATGCT GCGCAAAGTA
    GTAGAAGAGT TGACAGCCAA GAAAATGACT CTGGAGAGCT CAGAGAGGAC AATATCGGAC
    CTGACAACTT CTCTCCAGGA AAAAGAGAGA GCCATCGAGG CTACCAATGC AGAGATCACA
    AAGCTCCGCT CCCGGGTGGA CTTGAAATTG CAGGAGCTGC AACACTTGAA AAATGAAGGG
    GATCATCTCA GAAATGTGCA GACAGAATGT GAGGCCCTCA AACTGCAGAT GACAGAGAAG
    GACAAGGTGA TCGAGATTCT GCGACAGCAG ATTGAGAACA TGACACAGCT GGTGGGCCAG
    CATGGACGAA CTGCTGGAGC TATGCAAGTA GAAAAAGCTC AACTGGAGAA AGAAATTAAT
    GATAGGCGGA TGGAACTAAA GGAACTTAAG ATATTAAAAG ATAAAAAAGA TGCAAAGATC
    CGGGAGCTTG AGGCCAGAGT GAGTGACTTG GAGCTGGAAA AGGTGAAGCT GGTGAATGCA
    GGCTCTGAGC GGCTCCGTGC AGTGAAGGAC ATCAAACAAG AGAGAGATCA ATTATTAAAT
    GAGGTGAAAA CAAGTAGGAG TGAATTAAAC AATCTTTCAG AGGAGTATGA AGTCTTAAAA
    AGGAATTTCC GAAACAAAAG TGAAGAAATG GAAATGACTA CAAATAAGTT GAAAATGCAA
    TTAAAATCTG CACAGTCTGA ACTAGAACAG ACAAGAAATA CATTAAAGTC AATGGAAGGA
    TCTGATGGTC ATGCTATGAA AGTGGCAATG GGGATGCAAA AGCAAATCAC AGCCAAAAGA
    GGTCAGATAG ATGCCCTTCA GAGCAAGATA CAGTTTTTGG AAGAGGCAAT GACAAATGCA
    AATAAGGAGA AACATTTTCT GAAAGAAGAG AAAAGTAAAC TCAGTCAGGA ATTGAGTACT
    GTTGCCACAG AAAAAAACAA GATGGCTGGG GAGTTGGAAG TTCTGCGATC TCAGGAACGC
    CGTTTGAAAG AAAAGGTTAC TAATATGGAA GTGGCTCTGG ATAAGGCATC TTTGCAGTTT
    GCAGAATGTC AAGATATAAT ACAGCGTCAG GAGCAAGAAT CAGTGCGCTT AAAACTTCAA
    CACACTTTGG ATATAAAAGA ACTTCAGGGC CCTGGATACA CCTCAAATTC TTCATTGAAA
    CCACGCCTTC TCCAGCCAGC ATCTGTTACT CGTTCTCATT CTAATGTACC ATCTTCGCAG
    TCTACAGCCA GCTTCCTGTC TCATCACTCT ACAAAAGCTA ACACACTGAA GGAAGATCCA
    ACAAGGGACC TGAAACAGCT TCTCCAAGAG TTGAGAAGCG TGATCAATGA GGAGCCAGCT
    GTGTCTCTGA GCAAGACAGA GGAAGATGGA AGAACATCTC TGGGAGCCTT GTATGTGGCT
    GTAGAGGATA GGGTAAGAGA TTGCATTACT GAATCCAGCC TGAGATCAGA CATGTGCCAT
    AGAAGCAACA ACTCGTTGAG GGACTCCACT GAAGGAAGCA AATCAAGTGA AACTCTTAGT
    AGAGAGCCAG TCACATTACA CGCAGGAGAC AGGGAAGATC CCTCTGGTTG CTTCACATTC
    ACATCTGCAG CAAGTCCATC TGTGAAAAAC TCAGCTTCTC GTTCATTCAA TTCTTCTCCT
    AAGAAGTCTC CAGTGCACTC ACTCCTAACT AGTTCAGTTG AAGGTTCAAT AGGTTCCACA
    TCACAGTATA GATCTGCCAA ACCTATTCAT TCATCTGATT CTGTTAAAGA TTCACAGTCT
    CCGCCAATAG AAACAACAGG AAAAACATGC AGGAAGCTTC AGAACAGACT AGAAAGCTTG
    CAAACTCTGG TAGAAGATTT ACAGCTGAAG AACCAAGCAA TGTCTTCAAT GATCAGAAAT
    CAAGAAAAGA GGATACAGAA AGTAAAAGAC CAGGAAAAAA TGTTACTAAA ATGA

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

    RefSeq XP_011530212.1
    CDS897..4250
    Translation

    Target ORF information:

    RefSeq Version XM_011531910.3
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 158 (CCDC158), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011531910.3

    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
    ATGGAATCAA AAGCTTGGGA ATCAAATAAT GAAGATCTTT TATCAAGTAG TGGTGTCACA 
    TCTAATGGAG GTTCTTCAAG TTCATTTTTT GTGTCATCTA TTCGTGGTAC AATAATTGAA
    AACACATCTT CAGCTGGGAC TTTGACACAG GTTCCTTTTT TCCCTAAATA TGAAGTGGAA
    CTTGATTCTC CTAGAAAAAT CATCCCATCT CCTGGAAAGG AACACTTTGA ACGTGTTTTG
    GAAGAATATT CACATCAAGT CAAAGATTTA CAGAGAAGAC TAAATGAAAG CAATGAATTG
    CATGAGAAAC AAAAGTTTTA TTTGAGGCAG TCAGTCATTG ATTTGCAAAC AAAACTTCAG
    GAGATGCAAA TGGAGAGAGA TGCTATGGCT GACATCAGAC GAAGGGAGAG TCAGTCCCAG
    GAGGATTTAA GAAATCAGCT TCAAAATACA GTTCATGAAC TTGAAGCTGC CAAATGCCTT
    AAAGAGGACA TGCTGAAAGA CAGCAACACA CAGATAGAGC AACTACGAAA AATGATGCTT
    AGTCATGAGG GAGTGCTTCA AGAAATCCGG TCAATCCTAG TTGACTTTGA AGAAGCCTCA
    GGCAAAAAAA TATGTGAACA TGACAGCATG TCTACTCTGC ACTTCCGCAG CTTGGGCTCA
    GCTATTAGTA AAATACTAAG AGAATTAGAC ACAGAGATTT CTTATCTTAA AGGGAGGATA
    TTTCCAGTAG AGGATCAACT TGAAGCACTG AAATCTGAAT CACAGAACAA AATAGAACTA
    CTTCTGCAAC AACACCAAGA TAGGATTGAG CAGTTAATAA GTGAACATGA AGTTGAAATA
    ACAGGACTTA CTGAGAAAGC TAGCAGTGCT CGAAGCCAAG CCAATAGTAT CCAGAGTCAA
    ATGGAAATCA TTCAAGAGCA AGCAAGAAAC CAAAACTCTA TGTATATGCG TCAGCTCAGC
    GATCTGGAAT CTACTGTTTC TCAGCTACGT TCTGAATTAA GGGAAGCCAA AAGGATGTAT
    GAAGACAAGA CAGAAGAGCT GGAAAAGCAG TTAGTCCTTG CCAACTCAGA GCTAACTGAA
    GCCCGGACAG AGCGTGATCA ATTCAGTCAG GAATCTGGAA ATTTAGATGA TCAACTTCAA
    AAGCTGTTGG CTGATCTACA CAAAAGGGAG AAGGAGCTGA GTCTGGAGAA GGAGCAGAAT
    AAGCGTCTGT GGGACCGAGA CACAGGCAAC AGCATCACCA TTGACCACCT GCGGCGGGAA
    CTGGACAACC GGAACATGGA GGTGCAGCGC CTGGAAGCCC TGCTCAAGGC CTTGAAGAGC
    GAGTGTCAGG GCCAGATGGA GCGGCAGATG GCAGCAATTC AAGGAAAGAA TGAAAGTCTA
    GAAAAAGTAT CCTCCTTGAC TGCTCAGCTT GAATCCACCA AAGAGATGCT GCGCAAAGTA
    GTAGAAGAGT TGACAGCCAA GAAAATGACT CTGGAGAGCT CAGAGAGGAC AATATCGGAC
    CTGACAACTT CTCTCCAGGA AAAAGAGAGA GCCATCGAGG CTACCAATGC AGAGATCACA
    AAGCTCCGCT CCCGGGTGGA CTTGAAATTG CAGGAGCTGC AACACTTGAA AAATGAAGGG
    GATCATCTCA GAAATGTGCA GACAGAATGT GAGGCCCTCA AACTGCAGAT GACAGAGAAG
    GACAAGGTGA TCGAGATTCT GCGACAGCAG ATTGAGAACA TGACACAGCT GGTGGGCCAG
    CATGGACGAA CTGCTGGAGC TATGCAAGTA GAAAAAGCTC AACTGGAGAA AGAAATTAAT
    GATAGGCGGA TGGAACTAAA GGAACTTAAG ATATTAAAAG ATAAAAAAGA TGCAAAGATC
    CGGGAGCTTG AGGCCAGAGT GAGTGACTTG GAGCTGGAAA AGGTGAAGCT GGTGAATGCA
    GGCTCTGAGC GGCTCCGTGC AGTGAAGGAC ATCAAACAAG AGAGAGATCA ATTATTAAAT
    GAGGTGAAAA CAAGTAGGAG TGAATTAAAC AATCTTTCAG AGGAGTATGA AGTCTTAAAA
    AGGAATTTCC GAAACAAAAG TGAAGAAATG GAAATGACTA CAAATAAGTT GAAAATGCAA
    TTAAAATCTG CACAGTCTGA ACTAGAACAG ACAAGAAATA CATTAAAGTC AATGGAAGGA
    TCTGATGGTC ATGCTATGAA AGTGGCAATG GGGATGCAAA AGCAAATCAC AGCCAAAAGA
    GGTCAGATAG ATGCCCTTCA GAGCAAGATA CAGTTTTTGG AAGAGGCAAT GACAAATGCA
    AATAAGGAGA AACATTTTCT GAAAGAAGAG AAAAGTAAAC TCAGTCAGGA ATTGAGTACT
    GTTGCCACAG AAAAAAACAA GATGGCTGGG GAGTTGGAAG TTCTGCGATC TCAGGAACGC
    CGTTTGAAAG AAAAGGTTAC TAATATGGAA GTGGCTCTGG ATAAGGCATC TTTGCAGTTT
    GCAGAATGTC AAGATATAAT ACAGCGTCAG GAGCAAGAAT CAGTGCGCTT AAAACTTCAA
    CACACTTTGG ATATAAAAGA ACTTCAGGGC CCTGGATACA CCTCAAATTC TTCATTGAAA
    CCACGCCTTC TCCAGCCAGC ATCTGTTACT CGTTCTCATT CTAATGTACC ATCTTCGCAG
    TCTACAGCCA GCTTCCTGTC TCATCACTCT ACAAAAGCTA ACACACTGAA GGAAGATCCA
    ACAAGGGACC TGAAACAGCT TCTCCAAGAG TTGAGAAGCG TGATCAATGA GGAGCCAGCT
    GTGTCTCTGA GCAAGACAGA GGAAGATGGA AGAACATCTC TGGGAGCCTT GTATGTGGCT
    GTAGAGGATA GGGTAAGAGA TTGCATTACT GAATCCAGCC TGAGATCAGA CATGTGCCAT
    AGAAGCAACA ACTCGTTGAG GGACTCCACT GAAGGAAGCA AATCAAGTGA AACTCTTAGT
    AGAGAGCCAG TCACATTACA CGCAGGAGAC AGGGAAGATC CCTCTGGTTG CTTCACATTC
    ACATCTGCAG CAAGTCCATC TGTGAAAAAC TCAGCTTCTC GTTCATTCAA TTCTTCTCCT
    AAGAAGTCTC CAGTGCACTC ACTCCTAACT AGTTCAGTTG AAGGTTCAAT AGGTTCCACA
    TCACAGTATA GATCTGCCAA ACCTATTCAT TCATCTGATT CTGTTAAAGA TTCACAGTCT
    CCGCCAATAG AAACAACAGG AAAAACATGC AGGAAGCTTC AGAACAGACT AGAAAGCTTG
    CAAACTCTGG TAGAAGATTT ACAGCTGAAG AACCAAGCAA TGTCTTCAAT GATCAGAAAT
    CAAGAAAAGA GGATACAGAA AGTAAAAGAC CAGGAAAAAA TGTTACTAAA ATGA

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

    CloneID OHu79284
    Clone ID Related Accession (Same CDS sequence) XM_011531915.2
    Accession Version XM_011531915.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3201bp)
    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 coiled-coil domain-containing protein 158 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011531915.1. ##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
    ATGGAATCAA AAGCTTGGGA ATCAAATAAT GAAGATCTTT TATCAAGTAG TGGTGTCACA 
    TCTAATGGAG GTTCTTCAAG TTCATTTTTT GTGTCATCTA TTCGTGGTAC AATAATTGAA
    AACACATCTT CAGCTGGGAC TTTGACACAG GTTCCTTTTT TCCCTAAATA TGAAGTGGAA
    CTTGATTCTC CTAGAAAAAT CATCCCATCT CCTGGAAAGG AACACTTTGA ACGTGTTTTG
    GAAGAATATT CACATCAAGT CAAAGATTTA CAGAGAAGAC TAAATGAAAG CAATGAATTG
    CATGAGAAAC AAAAGTTTTA TTTGAGGCAG TCAGTCATTG ATTTGCAAAC AAAACTTCAG
    GAGATGCAAA TGGAGAGAGA TGCTATGGCT GACATCAGAC GAAGGGAGAG TCAGTCCCAG
    GAGGATTTAA GAAATCAGCT TCAAAATACA GTTCATGAAC TTGAAGCTGC CAAATGCCTT
    AAAGAGGACA TGCTGAAAGA CAGCAACACA CAGATAGAGC AACTACGAAA AATGATGCTT
    AGTCATGAGG GAGTGCTTCA AGAAATCCGG TCAATCCTAG TTGACTTTGA AGAAGCCTCA
    GGCAAAAAAA TATGTGAACA TGACAGCATG TCTACTCTGC ACTTCCGCAG CTTGGGCTCA
    GCTATTAGTA AAATACTAAG AGAATTAGAC ACAGAGATTT CTTATCTTAA AGGGAGGATA
    TTTCCAGTAG AGGATCAACT TGAAGCACTG AAATCTGAAT CACAGAACAA AATAGAACTA
    CTTCTGCAAC AACACCAAGA TAGGATTGAG CAGTTAATAA GTGAACATGA AGTTGAAATA
    ACAGGACTTA CTGAGAAAGC TAGCAGTGCT CGAAGCCAAG CCAATAGTAT CCAGAGTCAA
    ATGGAAATCA TTCAAGAGCA AGCAAGAAAC CAAAACTCTA TGTATATGCG TCAGCTCAGC
    GATCTGGAAT CTACTGTTTC TCAGCTACGT TCTGAATTAA GGGAAGCCAA AAGGATGTAT
    GAAGACAAGA CAGAAGAGCT GGAAAAGCAG TTAGTCCTTG CCAACTCAGA GCTAACTGAA
    GCCCGGACAG AGCGTGATCA ATTCAGTCAG GAATCTGGAA ATTTAGATGA TCAACTTCAA
    AAGCTGTTGG CTGATCTACA CAAAAGGGAG AAGGAGCTGA GTCTGGAGAA GGAGCAGAAT
    AAGCGTCTGT GGGACCGAGA CACAGGCAAC AGCATCACCA TTGACCACCT GCGGCGGGAA
    CTGGACAACC GGAACATGGA GGTGCAGCGC CTGGAAGCCC TGCTCAAGGC CTTGAAGAGC
    GAGTGTCAGG GCCAGATGGA GCGGCAGATG GCAGCAATTC AAGGAAAGAA TGAAAGTCTA
    GAAAAAGTAT CCTCCTTGAC TGCTCAGCTT GAATCCACCA AAGAGATGCT GCGCAAAGTA
    GTAGAAGAGT TGACAGCCAA GAAAATGACT CTGGAGAGCT CAGAGAGGAC AATATCGGAC
    CTGACAACTT CTCTCCAGGA AAAAGAGAGA GCCATCGAGG CTACCAATGC AGAGATCACA
    AAGCTCCGCT CCCGGGTGGA CTTGAAATTG CAGGAGCTGC AACACTTGAA AAATGAAGGG
    GATCATCTCA GAAATGTGCA GACAGAATGT GAGGCCCTCA AACTGCAGAT GACAGAGAAG
    GACAAGGTGA TCGAGATTCT GCGACAGCAG ATTGAGAACA TGACACAGCT GGTGGGCCAG
    CATGGACGAA CTGCTGGAGC TATGCAAGTA GAAAAAGCTC AACTGGAGAA AGAAATTAAT
    GATAGGCGGA TGGAACTAAA GGAACTTAAG ATATTAAAAG ATAAAAAAGA TGCAAAGATC
    CGGGAGCTTG AGGCCAGAGT GAGTGACTTG GAGCTGGAAA AGGTGAAGCT GGTGAATGCA
    GGCTCTGAGC GGCTCCGTGC AGTGAAGGAC ATCAAACAAG AGAGAGATCA ATTATTAAAT
    GAGGTGAAAA CAAGTAGGAG TGAATTAAAC AATCTTTCAG CTATGAAAGT GGCAATGGGG
    ATGCAAAAGC AAATCACAGC CAAAAGAGGT CAGATAGATG CCCTTCAGAG CAAGATACAG
    TTTTTGGAAG AGGCAATGAC AAATGCAAAT AAGGAGAAAC ATTTTCTGAA AGAAGAGAAA
    AGTAAACTCA GTCAGGAATT GAGTACTGTT GCCACAGAAA AAAACAAGAT GGCTGGGGAG
    TTGGAAGTTC TGCGATCTCA GGAACGCCGT TTGAAAGAAA AGGTTACTAA TATGGAAGTG
    GCTCTGGATA AGGCATCTTT GCAGTTTGCA GAATGTCAAG ATATAATACA GCGTCAGGAG
    CAAGAATCAG TGCGCTTAAA ACTTCAACAC ACTTTGGATA TAAAAGAACT TCAGGGCCCT
    GGATACACCT CAAATTCTTC ATTGAAACCA CGCCTTCTCC AGCCAGCATC TGTTACTCGT
    TCTCATTCTA ATGTACCATC TTCGCAGTCT ACAGCCAGCT TCCTGTCTCA TCACTCTACA
    AAAGCTAACA CACTGAAGGA AGATCCAACA AGGGACCTGA AACAGCTTCT CCAAGAGTTG
    AGAAGCGTGA TCAATGAGGA GCCAGCTGTG TCTCTGAGCA AGACAGAGGA AGATGGAAGA
    ACATCTCTGG GAGCCTTGTA TGTGGCTGTA GAGGATAGGG TAAGAGATTG CATTACTGAA
    TCCAGCCTGA GATCAGACAT GTGCCATAGA AGCAACAACT CGTTGAGGGA CTCCACTGAA
    GGAAGCAAAT CAAGTGAAAC TCTTAGTAGA GAGCCAGTCA CATTACACGC AGGAGACAGG
    GAAGATCCCT CTGGTTGCTT CACATTCACA TCTGCAGCAA GTCCATCTGT GAAAAACTCA
    GCTTCTCGTT CATTCAATTC TTCTCCTAAG AAGTCTCCAG TGCACTCACT CCTAACTAGT
    TCAGTTGAAG GTTCAATAGG TTCCACATCA CAGTATAGAT CTGCCAAACC TATTCATTCA
    TCTGATTCTG TTAAAGATTC ACAGTCTCCG CCAATAGAAA CAACAGGAAA AACATGCAGG
    AAGCTTCAGA ACAGACTAGA AAGCTTGCAA ACTCTGGTAG AAGATTTACA GCTGAAGAAC
    CAAGCAATGT CTTCAATGAT CAGAAATCAA GAAAAGAGGA TACAGAAAGT AAAAGACCAG
    GAAAAAATGT TACTAAAATG A

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

    RefSeq XP_011530217.1
    CDS282..3482
    Translation

    Target ORF information:

    RefSeq Version XM_011531915.2
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 158 (CCDC158), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011531915.2

    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
    ATGGAATCAA AAGCTTGGGA ATCAAATAAT GAAGATCTTT TATCAAGTAG TGGTGTCACA 
    TCTAATGGAG GTTCTTCAAG TTCATTTTTT GTGTCATCTA TTCGTGGTAC AATAATTGAA
    AACACATCTT CAGCTGGGAC TTTGACACAG GTTCCTTTTT TCCCTAAATA TGAAGTGGAA
    CTTGATTCTC CTAGAAAAAT CATCCCATCT CCTGGAAAGG AACACTTTGA ACGTGTTTTG
    GAAGAATATT CACATCAAGT CAAAGATTTA CAGAGAAGAC TAAATGAAAG CAATGAATTG
    CATGAGAAAC AAAAGTTTTA TTTGAGGCAG TCAGTCATTG ATTTGCAAAC AAAACTTCAG
    GAGATGCAAA TGGAGAGAGA TGCTATGGCT GACATCAGAC GAAGGGAGAG TCAGTCCCAG
    GAGGATTTAA GAAATCAGCT TCAAAATACA GTTCATGAAC TTGAAGCTGC CAAATGCCTT
    AAAGAGGACA TGCTGAAAGA CAGCAACACA CAGATAGAGC AACTACGAAA AATGATGCTT
    AGTCATGAGG GAGTGCTTCA AGAAATCCGG TCAATCCTAG TTGACTTTGA AGAAGCCTCA
    GGCAAAAAAA TATGTGAACA TGACAGCATG TCTACTCTGC ACTTCCGCAG CTTGGGCTCA
    GCTATTAGTA AAATACTAAG AGAATTAGAC ACAGAGATTT CTTATCTTAA AGGGAGGATA
    TTTCCAGTAG AGGATCAACT TGAAGCACTG AAATCTGAAT CACAGAACAA AATAGAACTA
    CTTCTGCAAC AACACCAAGA TAGGATTGAG CAGTTAATAA GTGAACATGA AGTTGAAATA
    ACAGGACTTA CTGAGAAAGC TAGCAGTGCT CGAAGCCAAG CCAATAGTAT CCAGAGTCAA
    ATGGAAATCA TTCAAGAGCA AGCAAGAAAC CAAAACTCTA TGTATATGCG TCAGCTCAGC
    GATCTGGAAT CTACTGTTTC TCAGCTACGT TCTGAATTAA GGGAAGCCAA AAGGATGTAT
    GAAGACAAGA CAGAAGAGCT GGAAAAGCAG TTAGTCCTTG CCAACTCAGA GCTAACTGAA
    GCCCGGACAG AGCGTGATCA ATTCAGTCAG GAATCTGGAA ATTTAGATGA TCAACTTCAA
    AAGCTGTTGG CTGATCTACA CAAAAGGGAG AAGGAGCTGA GTCTGGAGAA GGAGCAGAAT
    AAGCGTCTGT GGGACCGAGA CACAGGCAAC AGCATCACCA TTGACCACCT GCGGCGGGAA
    CTGGACAACC GGAACATGGA GGTGCAGCGC CTGGAAGCCC TGCTCAAGGC CTTGAAGAGC
    GAGTGTCAGG GCCAGATGGA GCGGCAGATG GCAGCAATTC AAGGAAAGAA TGAAAGTCTA
    GAAAAAGTAT CCTCCTTGAC TGCTCAGCTT GAATCCACCA AAGAGATGCT GCGCAAAGTA
    GTAGAAGAGT TGACAGCCAA GAAAATGACT CTGGAGAGCT CAGAGAGGAC AATATCGGAC
    CTGACAACTT CTCTCCAGGA AAAAGAGAGA GCCATCGAGG CTACCAATGC AGAGATCACA
    AAGCTCCGCT CCCGGGTGGA CTTGAAATTG CAGGAGCTGC AACACTTGAA AAATGAAGGG
    GATCATCTCA GAAATGTGCA GACAGAATGT GAGGCCCTCA AACTGCAGAT GACAGAGAAG
    GACAAGGTGA TCGAGATTCT GCGACAGCAG ATTGAGAACA TGACACAGCT GGTGGGCCAG
    CATGGACGAA CTGCTGGAGC TATGCAAGTA GAAAAAGCTC AACTGGAGAA AGAAATTAAT
    GATAGGCGGA TGGAACTAAA GGAACTTAAG ATATTAAAAG ATAAAAAAGA TGCAAAGATC
    CGGGAGCTTG AGGCCAGAGT GAGTGACTTG GAGCTGGAAA AGGTGAAGCT GGTGAATGCA
    GGCTCTGAGC GGCTCCGTGC AGTGAAGGAC ATCAAACAAG AGAGAGATCA ATTATTAAAT
    GAGGTGAAAA CAAGTAGGAG TGAATTAAAC AATCTTTCAG CTATGAAAGT GGCAATGGGG
    ATGCAAAAGC AAATCACAGC CAAAAGAGGT CAGATAGATG CCCTTCAGAG CAAGATACAG
    TTTTTGGAAG AGGCAATGAC AAATGCAAAT AAGGAGAAAC ATTTTCTGAA AGAAGAGAAA
    AGTAAACTCA GTCAGGAATT GAGTACTGTT GCCACAGAAA AAAACAAGAT GGCTGGGGAG
    TTGGAAGTTC TGCGATCTCA GGAACGCCGT TTGAAAGAAA AGGTTACTAA TATGGAAGTG
    GCTCTGGATA AGGCATCTTT GCAGTTTGCA GAATGTCAAG ATATAATACA GCGTCAGGAG
    CAAGAATCAG TGCGCTTAAA ACTTCAACAC ACTTTGGATA TAAAAGAACT TCAGGGCCCT
    GGATACACCT CAAATTCTTC ATTGAAACCA CGCCTTCTCC AGCCAGCATC TGTTACTCGT
    TCTCATTCTA ATGTACCATC TTCGCAGTCT ACAGCCAGCT TCCTGTCTCA TCACTCTACA
    AAAGCTAACA CACTGAAGGA AGATCCAACA AGGGACCTGA AACAGCTTCT CCAAGAGTTG
    AGAAGCGTGA TCAATGAGGA GCCAGCTGTG TCTCTGAGCA AGACAGAGGA AGATGGAAGA
    ACATCTCTGG GAGCCTTGTA TGTGGCTGTA GAGGATAGGG TAAGAGATTG CATTACTGAA
    TCCAGCCTGA GATCAGACAT GTGCCATAGA AGCAACAACT CGTTGAGGGA CTCCACTGAA
    GGAAGCAAAT CAAGTGAAAC TCTTAGTAGA GAGCCAGTCA CATTACACGC AGGAGACAGG
    GAAGATCCCT CTGGTTGCTT CACATTCACA TCTGCAGCAA GTCCATCTGT GAAAAACTCA
    GCTTCTCGTT CATTCAATTC TTCTCCTAAG AAGTCTCCAG TGCACTCACT CCTAACTAGT
    TCAGTTGAAG GTTCAATAGG TTCCACATCA CAGTATAGAT CTGCCAAACC TATTCATTCA
    TCTGATTCTG TTAAAGATTC ACAGTCTCCG CCAATAGAAA CAACAGGAAA AACATGCAGG
    AAGCTTCAGA ACAGACTAGA AAGCTTGCAA ACTCTGGTAG AAGATTTACA GCTGAAGAAC
    CAAGCAATGT CTTCAATGAT CAGAAATCAA GAAAAGAGGA TACAGAAAGT AAAAGACCAG
    GAAAAAATGT TACTAAAATG A

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

    CloneID OHu79285
    Clone ID Related Accession (Same CDS sequence) XM_011531916.2 , XM_011531917.1
    Accession Version XM_011531916.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3108bp)
    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 coiled-coil domain-containing protein 158 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011531916.1. ##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
    ATGAAGATCT TTTATCAAGT AGTGGTGTCA CATCTAATGG AGAGCAATGA ATTGCATGAG 
    AAACAAAAGT TTTATTTGAG GCAGTCAGTC ATTGATTTGC AAACAAAACT TCAGGAGATG
    CAAATGGAGA GAGATGCTAT GGCTGACATC AGACGAAGGG AGAGTCAGTC CCAGGAGGAT
    TTAAGAAATC AGCTTCAAAA TACAGTTCAT GAACTTGAAG CTGCCAAATG CCTTAAAGAG
    GACATGCTGA AAGACAGCAA CACACAGATA GAGCAACTAC GAAAAATGAT GCTTAGTCAT
    GAGGGAGTGC TTCAAGAAAT CCGGTCAATC CTAGTTGACT TTGAAGAAGC CTCAGGCAAA
    AAAATATGTG AACATGACAG CATGTCTACT CTGCACTTCC GCAGCTTGGG CTCAGCTATT
    AGTAAAATAC TAAGAGAATT AGACACAGAG ATTTCTTATC TTAAAGGGAG GATATTTCCA
    GTAGAGGATC AACTTGAAGC ACTGAAATCT GAATCACAGA ACAAAATAGA ACTACTTCTG
    CAACAACACC AAGATAGGAT TGAGCAGTTA ATAAGTGAAC ATGAAGTTGA AATAACAGGA
    CTTACTGAGA AAGCTAGCAG TGCTCGAAGC CAAGCCAATA GTATCCAGAG TCAAATGGAA
    ATCATTCAAG AGCAAGCAAG AAACCAAAAC TCTATGTATA TGCGTCAGCT CAGCGATCTG
    GAATCTACTG TTTCTCAGCT ACGTTCTGAA TTAAGGGAAG CCAAAAGGAT GTATGAAGAC
    AAGACAGAAG AGCTGGAAAA GCAGTTAGTC CTTGCCAACT CAGAGCTAAC TGAAGCCCGG
    ACAGAGCGTG ATCAATTCAG TCAGGAATCT GGAAATTTAG ATGATCAACT TCAAAAGCTG
    TTGGCTGATC TACACAAAAG GGAGAAGGAG CTGAGTCTGG AGAAGGAGCA GAATAAGCGT
    CTGTGGGACC GAGACACAGG CAACAGCATC ACCATTGACC ACCTGCGGCG GGAACTGGAC
    AACCGGAACA TGGAGGTGCA GCGCCTGGAA GCCCTGCTCA AGGCCTTGAA GAGCGAGTGT
    CAGGGCCAGA TGGAGCGGCA GATGGCAGCA ATTCAAGGAA AGAATGAAAG TCTAGAAAAA
    GTATCCTCCT TGACTGCTCA GCTTGAATCC ACCAAAGAGA TGCTGCGCAA AGTAGTAGAA
    GAGTTGACAG CCAAGAAAAT GACTCTGGAG AGCTCAGAGA GGACAATATC GGACCTGACA
    ACTTCTCTCC AGGAAAAAGA GAGAGCCATC GAGGCTACCA ATGCAGAGAT CACAAAGCTC
    CGCTCCCGGG TGGACTTGAA ATTGCAGGAG CTGCAACACT TGAAAAATGA AGGGGATCAT
    CTCAGAAATG TGCAGACAGA ATGTGAGGCC CTCAAACTGC AGATGACAGA GAAGGACAAG
    GTGATCGAGA TTCTGCGACA GCAGATTGAG AACATGACAC AGCTGGTGGG CCAGCATGGA
    CGAACTGCTG GAGCTATGCA AGTAGAAAAA GCTCAACTGG AGAAAGAAAT TAATGATAGG
    CGGATGGAAC TAAAGGAACT TAAGATATTA AAAGATAAAA AAGATGCAAA GATCCGGGAG
    CTTGAGGCCA GAGTGAGTGA CTTGGAGCTG GAAAAGGTGA AGCTGGTGAA TGCAGGCTCT
    GAGCGGCTCC GTGCAGTGAA GGACATCAAA CAAGAGAGAG ATCAATTATT AAATGAGGTG
    AAAACAAGTA GGAGTGAATT AAACAATCTT TCAGAGGAGT ATGAAGTCTT AAAAAGGAAT
    TTCCGAAACA AAAGTGAAGA AATGGAAATG ACTACAAATA AGTTGAAAAT GCAATTAAAA
    TCTGCACAGT CTGAACTAGA ACAGACAAGA AATACATTAA AGTCAATGGA AGGATCTGAT
    GGTCATGCTA TGAAAGTGGC AATGGGGATG CAAAAGCAAA TCACAGCCAA AAGAGGTCAG
    ATAGATGCCC TTCAGAGCAA GATACAGTTT TTGGAAGAGG CAATGACAAA TGCAAATAAG
    GAGAAACATT TTCTGAAAGA AGAGAAAAGT AAACTCAGTC AGGAATTGAG TACTGTTGCC
    ACAGAAAAAA ACAAGATGGC TGGGGAGTTG GAAGTTCTGC GATCTCAGGA ACGCCGTTTG
    AAAGAAAAGG TTACTAATAT GGAAGTGGCT CTGGATAAGG CATCTTTGCA GTTTGCAGAA
    TGTCAAGATA TAATACAGCG TCAGGAGCAA GAATCAGTGC GCTTAAAACT TCAACACACT
    TTGGATATAA AAGAACTTCA GGGCCCTGGA TACACCTCAA ATTCTTCATT GAAACCACGC
    CTTCTCCAGC CAGCATCTGT TACTCGTTCT CATTCTAATG TACCATCTTC GCAGTCTACA
    GCCAGCTTCC TGTCTCATCA CTCTACAAAA GCTAACACAC TGAAGGAAGA TCCAACAAGG
    GACCTGAAAC AGCTTCTCCA AGAGTTGAGA AGCGTGATCA ATGAGGAGCC AGCTGTGTCT
    CTGAGCAAGA CAGAGGAAGA TGGAAGAACA TCTCTGGGAG CCTTGTATGT GGCTGTAGAG
    GATAGGGTAA GAGATTGCAT TACTGAATCC AGCCTGAGAT CAGACATGTG CCATAGAAGC
    AACAACTCGT TGAGGGACTC CACTGAAGGA AGCAAATCAA GTGAAACTCT TAGTAGAGAG
    CCAGTCACAT TACACGCAGG AGACAGGGAA GATCCCTCTG GTTGCTTCAC ATTCACATCT
    GCAGCAAGTC CATCTGTGAA AAACTCAGCT TCTCGTTCAT TCAATTCTTC TCCTAAGAAG
    TCTCCAGTGC ACTCACTCCT AACTAGTTCA GTTGAAGGTT CAATAGGTTC CACATCACAG
    TATAGATCTG CCAAACCTAT TCATTCATCT GATTCTGTTA AAGATTCACA GTCTCCGCCA
    ATAGAAACAA CAGGAAAAAC ATGCAGGAAG CTTCAGAACA GACTAGAAAG CTTGCAAACT
    CTGGTAGAAG ATTTACAGCT GAAGAACCAA GCAATGTCTT CAATGATCAG AAATCAAGAA
    AAGAGGATAC AGAAAGTAAA AGACCAGGAA AAAATGTTAC TAAAATGA

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

    RefSeq XP_011530218.1
    CDS309..3416
    Translation

    Target ORF information:

    RefSeq Version XM_011531916.2
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 158 (CCDC158), transcript variant X12, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011531916.2

    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
    ATGAAGATCT TTTATCAAGT AGTGGTGTCA CATCTAATGG AGAGCAATGA ATTGCATGAG 
    AAACAAAAGT TTTATTTGAG GCAGTCAGTC ATTGATTTGC AAACAAAACT TCAGGAGATG
    CAAATGGAGA GAGATGCTAT GGCTGACATC AGACGAAGGG AGAGTCAGTC CCAGGAGGAT
    TTAAGAAATC AGCTTCAAAA TACAGTTCAT GAACTTGAAG CTGCCAAATG CCTTAAAGAG
    GACATGCTGA AAGACAGCAA CACACAGATA GAGCAACTAC GAAAAATGAT GCTTAGTCAT
    GAGGGAGTGC TTCAAGAAAT CCGGTCAATC CTAGTTGACT TTGAAGAAGC CTCAGGCAAA
    AAAATATGTG AACATGACAG CATGTCTACT CTGCACTTCC GCAGCTTGGG CTCAGCTATT
    AGTAAAATAC TAAGAGAATT AGACACAGAG ATTTCTTATC TTAAAGGGAG GATATTTCCA
    GTAGAGGATC AACTTGAAGC ACTGAAATCT GAATCACAGA ACAAAATAGA ACTACTTCTG
    CAACAACACC AAGATAGGAT TGAGCAGTTA ATAAGTGAAC ATGAAGTTGA AATAACAGGA
    CTTACTGAGA AAGCTAGCAG TGCTCGAAGC CAAGCCAATA GTATCCAGAG TCAAATGGAA
    ATCATTCAAG AGCAAGCAAG AAACCAAAAC TCTATGTATA TGCGTCAGCT CAGCGATCTG
    GAATCTACTG TTTCTCAGCT ACGTTCTGAA TTAAGGGAAG CCAAAAGGAT GTATGAAGAC
    AAGACAGAAG AGCTGGAAAA GCAGTTAGTC CTTGCCAACT CAGAGCTAAC TGAAGCCCGG
    ACAGAGCGTG ATCAATTCAG TCAGGAATCT GGAAATTTAG ATGATCAACT TCAAAAGCTG
    TTGGCTGATC TACACAAAAG GGAGAAGGAG CTGAGTCTGG AGAAGGAGCA GAATAAGCGT
    CTGTGGGACC GAGACACAGG CAACAGCATC ACCATTGACC ACCTGCGGCG GGAACTGGAC
    AACCGGAACA TGGAGGTGCA GCGCCTGGAA GCCCTGCTCA AGGCCTTGAA GAGCGAGTGT
    CAGGGCCAGA TGGAGCGGCA GATGGCAGCA ATTCAAGGAA AGAATGAAAG TCTAGAAAAA
    GTATCCTCCT TGACTGCTCA GCTTGAATCC ACCAAAGAGA TGCTGCGCAA AGTAGTAGAA
    GAGTTGACAG CCAAGAAAAT GACTCTGGAG AGCTCAGAGA GGACAATATC GGACCTGACA
    ACTTCTCTCC AGGAAAAAGA GAGAGCCATC GAGGCTACCA ATGCAGAGAT CACAAAGCTC
    CGCTCCCGGG TGGACTTGAA ATTGCAGGAG CTGCAACACT TGAAAAATGA AGGGGATCAT
    CTCAGAAATG TGCAGACAGA ATGTGAGGCC CTCAAACTGC AGATGACAGA GAAGGACAAG
    GTGATCGAGA TTCTGCGACA GCAGATTGAG AACATGACAC AGCTGGTGGG CCAGCATGGA
    CGAACTGCTG GAGCTATGCA AGTAGAAAAA GCTCAACTGG AGAAAGAAAT TAATGATAGG
    CGGATGGAAC TAAAGGAACT TAAGATATTA AAAGATAAAA AAGATGCAAA GATCCGGGAG
    CTTGAGGCCA GAGTGAGTGA CTTGGAGCTG GAAAAGGTGA AGCTGGTGAA TGCAGGCTCT
    GAGCGGCTCC GTGCAGTGAA GGACATCAAA CAAGAGAGAG ATCAATTATT AAATGAGGTG
    AAAACAAGTA GGAGTGAATT AAACAATCTT TCAGAGGAGT ATGAAGTCTT AAAAAGGAAT
    TTCCGAAACA AAAGTGAAGA AATGGAAATG ACTACAAATA AGTTGAAAAT GCAATTAAAA
    TCTGCACAGT CTGAACTAGA ACAGACAAGA AATACATTAA AGTCAATGGA AGGATCTGAT
    GGTCATGCTA TGAAAGTGGC AATGGGGATG CAAAAGCAAA TCACAGCCAA AAGAGGTCAG
    ATAGATGCCC TTCAGAGCAA GATACAGTTT TTGGAAGAGG CAATGACAAA TGCAAATAAG
    GAGAAACATT TTCTGAAAGA AGAGAAAAGT AAACTCAGTC AGGAATTGAG TACTGTTGCC
    ACAGAAAAAA ACAAGATGGC TGGGGAGTTG GAAGTTCTGC GATCTCAGGA ACGCCGTTTG
    AAAGAAAAGG TTACTAATAT GGAAGTGGCT CTGGATAAGG CATCTTTGCA GTTTGCAGAA
    TGTCAAGATA TAATACAGCG TCAGGAGCAA GAATCAGTGC GCTTAAAACT TCAACACACT
    TTGGATATAA AAGAACTTCA GGGCCCTGGA TACACCTCAA ATTCTTCATT GAAACCACGC
    CTTCTCCAGC CAGCATCTGT TACTCGTTCT CATTCTAATG TACCATCTTC GCAGTCTACA
    GCCAGCTTCC TGTCTCATCA CTCTACAAAA GCTAACACAC TGAAGGAAGA TCCAACAAGG
    GACCTGAAAC AGCTTCTCCA AGAGTTGAGA AGCGTGATCA ATGAGGAGCC AGCTGTGTCT
    CTGAGCAAGA CAGAGGAAGA TGGAAGAACA TCTCTGGGAG CCTTGTATGT GGCTGTAGAG
    GATAGGGTAA GAGATTGCAT TACTGAATCC AGCCTGAGAT CAGACATGTG CCATAGAAGC
    AACAACTCGT TGAGGGACTC CACTGAAGGA AGCAAATCAA GTGAAACTCT TAGTAGAGAG
    CCAGTCACAT TACACGCAGG AGACAGGGAA GATCCCTCTG GTTGCTTCAC ATTCACATCT
    GCAGCAAGTC CATCTGTGAA AAACTCAGCT TCTCGTTCAT TCAATTCTTC TCCTAAGAAG
    TCTCCAGTGC ACTCACTCCT AACTAGTTCA GTTGAAGGTT CAATAGGTTC CACATCACAG
    TATAGATCTG CCAAACCTAT TCATTCATCT GATTCTGTTA AAGATTCACA GTCTCCGCCA
    ATAGAAACAA CAGGAAAAAC ATGCAGGAAG CTTCAGAACA GACTAGAAAG CTTGCAAACT
    CTGGTAGAAG ATTTACAGCT GAAGAACCAA GCAATGTCTT CAATGATCAG AAATCAAGAA
    AAGAGGATAC AGAAAGTAAA AGACCAGGAA AAAATGTTAC TAAAATGA

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

    CloneID OHu79285
    Clone ID Related Accession (Same CDS sequence) XM_011531916.2 , XM_011531917.1
    Accession Version XM_011531917.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3108bp)
    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 coiled-coil domain-containing protein 158 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    ATGAAGATCT TTTATCAAGT AGTGGTGTCA CATCTAATGG AGAGCAATGA ATTGCATGAG 
    AAACAAAAGT TTTATTTGAG GCAGTCAGTC ATTGATTTGC AAACAAAACT TCAGGAGATG
    CAAATGGAGA GAGATGCTAT GGCTGACATC AGACGAAGGG AGAGTCAGTC CCAGGAGGAT
    TTAAGAAATC AGCTTCAAAA TACAGTTCAT GAACTTGAAG CTGCCAAATG CCTTAAAGAG
    GACATGCTGA AAGACAGCAA CACACAGATA GAGCAACTAC GAAAAATGAT GCTTAGTCAT
    GAGGGAGTGC TTCAAGAAAT CCGGTCAATC CTAGTTGACT TTGAAGAAGC CTCAGGCAAA
    AAAATATGTG AACATGACAG CATGTCTACT CTGCACTTCC GCAGCTTGGG CTCAGCTATT
    AGTAAAATAC TAAGAGAATT AGACACAGAG ATTTCTTATC TTAAAGGGAG GATATTTCCA
    GTAGAGGATC AACTTGAAGC ACTGAAATCT GAATCACAGA ACAAAATAGA ACTACTTCTG
    CAACAACACC AAGATAGGAT TGAGCAGTTA ATAAGTGAAC ATGAAGTTGA AATAACAGGA
    CTTACTGAGA AAGCTAGCAG TGCTCGAAGC CAAGCCAATA GTATCCAGAG TCAAATGGAA
    ATCATTCAAG AGCAAGCAAG AAACCAAAAC TCTATGTATA TGCGTCAGCT CAGCGATCTG
    GAATCTACTG TTTCTCAGCT ACGTTCTGAA TTAAGGGAAG CCAAAAGGAT GTATGAAGAC
    AAGACAGAAG AGCTGGAAAA GCAGTTAGTC CTTGCCAACT CAGAGCTAAC TGAAGCCCGG
    ACAGAGCGTG ATCAATTCAG TCAGGAATCT GGAAATTTAG ATGATCAACT TCAAAAGCTG
    TTGGCTGATC TACACAAAAG GGAGAAGGAG CTGAGTCTGG AGAAGGAGCA GAATAAGCGT
    CTGTGGGACC GAGACACAGG CAACAGCATC ACCATTGACC ACCTGCGGCG GGAACTGGAC
    AACCGGAACA TGGAGGTGCA GCGCCTGGAA GCCCTGCTCA AGGCCTTGAA GAGCGAGTGT
    CAGGGCCAGA TGGAGCGGCA GATGGCAGCA ATTCAAGGAA AGAATGAAAG TCTAGAAAAA
    GTATCCTCCT TGACTGCTCA GCTTGAATCC ACCAAAGAGA TGCTGCGCAA AGTAGTAGAA
    GAGTTGACAG CCAAGAAAAT GACTCTGGAG AGCTCAGAGA GGACAATATC GGACCTGACA
    ACTTCTCTCC AGGAAAAAGA GAGAGCCATC GAGGCTACCA ATGCAGAGAT CACAAAGCTC
    CGCTCCCGGG TGGACTTGAA ATTGCAGGAG CTGCAACACT TGAAAAATGA AGGGGATCAT
    CTCAGAAATG TGCAGACAGA ATGTGAGGCC CTCAAACTGC AGATGACAGA GAAGGACAAG
    GTGATCGAGA TTCTGCGACA GCAGATTGAG AACATGACAC AGCTGGTGGG CCAGCATGGA
    CGAACTGCTG GAGCTATGCA AGTAGAAAAA GCTCAACTGG AGAAAGAAAT TAATGATAGG
    CGGATGGAAC TAAAGGAACT TAAGATATTA AAAGATAAAA AAGATGCAAA GATCCGGGAG
    CTTGAGGCCA GAGTGAGTGA CTTGGAGCTG GAAAAGGTGA AGCTGGTGAA TGCAGGCTCT
    GAGCGGCTCC GTGCAGTGAA GGACATCAAA CAAGAGAGAG ATCAATTATT AAATGAGGTG
    AAAACAAGTA GGAGTGAATT AAACAATCTT TCAGAGGAGT ATGAAGTCTT AAAAAGGAAT
    TTCCGAAACA AAAGTGAAGA AATGGAAATG ACTACAAATA AGTTGAAAAT GCAATTAAAA
    TCTGCACAGT CTGAACTAGA ACAGACAAGA AATACATTAA AGTCAATGGA AGGATCTGAT
    GGTCATGCTA TGAAAGTGGC AATGGGGATG CAAAAGCAAA TCACAGCCAA AAGAGGTCAG
    ATAGATGCCC TTCAGAGCAA GATACAGTTT TTGGAAGAGG CAATGACAAA TGCAAATAAG
    GAGAAACATT TTCTGAAAGA AGAGAAAAGT AAACTCAGTC AGGAATTGAG TACTGTTGCC
    ACAGAAAAAA ACAAGATGGC TGGGGAGTTG GAAGTTCTGC GATCTCAGGA ACGCCGTTTG
    AAAGAAAAGG TTACTAATAT GGAAGTGGCT CTGGATAAGG CATCTTTGCA GTTTGCAGAA
    TGTCAAGATA TAATACAGCG TCAGGAGCAA GAATCAGTGC GCTTAAAACT TCAACACACT
    TTGGATATAA AAGAACTTCA GGGCCCTGGA TACACCTCAA ATTCTTCATT GAAACCACGC
    CTTCTCCAGC CAGCATCTGT TACTCGTTCT CATTCTAATG TACCATCTTC GCAGTCTACA
    GCCAGCTTCC TGTCTCATCA CTCTACAAAA GCTAACACAC TGAAGGAAGA TCCAACAAGG
    GACCTGAAAC AGCTTCTCCA AGAGTTGAGA AGCGTGATCA ATGAGGAGCC AGCTGTGTCT
    CTGAGCAAGA CAGAGGAAGA TGGAAGAACA TCTCTGGGAG CCTTGTATGT GGCTGTAGAG
    GATAGGGTAA GAGATTGCAT TACTGAATCC AGCCTGAGAT CAGACATGTG CCATAGAAGC
    AACAACTCGT TGAGGGACTC CACTGAAGGA AGCAAATCAA GTGAAACTCT TAGTAGAGAG
    CCAGTCACAT TACACGCAGG AGACAGGGAA GATCCCTCTG GTTGCTTCAC ATTCACATCT
    GCAGCAAGTC CATCTGTGAA AAACTCAGCT TCTCGTTCAT TCAATTCTTC TCCTAAGAAG
    TCTCCAGTGC ACTCACTCCT AACTAGTTCA GTTGAAGGTT CAATAGGTTC CACATCACAG
    TATAGATCTG CCAAACCTAT TCATTCATCT GATTCTGTTA AAGATTCACA GTCTCCGCCA
    ATAGAAACAA CAGGAAAAAC ATGCAGGAAG CTTCAGAACA GACTAGAAAG CTTGCAAACT
    CTGGTAGAAG ATTTACAGCT GAAGAACCAA GCAATGTCTT CAATGATCAG AAATCAAGAA
    AAGAGGATAC AGAAAGTAAA AGACCAGGAA AAAATGTTAC TAAAATGA

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

    RefSeq XP_011530219.1
    CDS352..3459
    Translation

    Target ORF information:

    RefSeq Version XM_011531917.1
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 158 (CCDC158), transcript variant X13, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011531917.1

    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
    ATGAAGATCT TTTATCAAGT AGTGGTGTCA CATCTAATGG AGAGCAATGA ATTGCATGAG 
    AAACAAAAGT TTTATTTGAG GCAGTCAGTC ATTGATTTGC AAACAAAACT TCAGGAGATG
    CAAATGGAGA GAGATGCTAT GGCTGACATC AGACGAAGGG AGAGTCAGTC CCAGGAGGAT
    TTAAGAAATC AGCTTCAAAA TACAGTTCAT GAACTTGAAG CTGCCAAATG CCTTAAAGAG
    GACATGCTGA AAGACAGCAA CACACAGATA GAGCAACTAC GAAAAATGAT GCTTAGTCAT
    GAGGGAGTGC TTCAAGAAAT CCGGTCAATC CTAGTTGACT TTGAAGAAGC CTCAGGCAAA
    AAAATATGTG AACATGACAG CATGTCTACT CTGCACTTCC GCAGCTTGGG CTCAGCTATT
    AGTAAAATAC TAAGAGAATT AGACACAGAG ATTTCTTATC TTAAAGGGAG GATATTTCCA
    GTAGAGGATC AACTTGAAGC ACTGAAATCT GAATCACAGA ACAAAATAGA ACTACTTCTG
    CAACAACACC AAGATAGGAT TGAGCAGTTA ATAAGTGAAC ATGAAGTTGA AATAACAGGA
    CTTACTGAGA AAGCTAGCAG TGCTCGAAGC CAAGCCAATA GTATCCAGAG TCAAATGGAA
    ATCATTCAAG AGCAAGCAAG AAACCAAAAC TCTATGTATA TGCGTCAGCT CAGCGATCTG
    GAATCTACTG TTTCTCAGCT ACGTTCTGAA TTAAGGGAAG CCAAAAGGAT GTATGAAGAC
    AAGACAGAAG AGCTGGAAAA GCAGTTAGTC CTTGCCAACT CAGAGCTAAC TGAAGCCCGG
    ACAGAGCGTG ATCAATTCAG TCAGGAATCT GGAAATTTAG ATGATCAACT TCAAAAGCTG
    TTGGCTGATC TACACAAAAG GGAGAAGGAG CTGAGTCTGG AGAAGGAGCA GAATAAGCGT
    CTGTGGGACC GAGACACAGG CAACAGCATC ACCATTGACC ACCTGCGGCG GGAACTGGAC
    AACCGGAACA TGGAGGTGCA GCGCCTGGAA GCCCTGCTCA AGGCCTTGAA GAGCGAGTGT
    CAGGGCCAGA TGGAGCGGCA GATGGCAGCA ATTCAAGGAA AGAATGAAAG TCTAGAAAAA
    GTATCCTCCT TGACTGCTCA GCTTGAATCC ACCAAAGAGA TGCTGCGCAA AGTAGTAGAA
    GAGTTGACAG CCAAGAAAAT GACTCTGGAG AGCTCAGAGA GGACAATATC GGACCTGACA
    ACTTCTCTCC AGGAAAAAGA GAGAGCCATC GAGGCTACCA ATGCAGAGAT CACAAAGCTC
    CGCTCCCGGG TGGACTTGAA ATTGCAGGAG CTGCAACACT TGAAAAATGA AGGGGATCAT
    CTCAGAAATG TGCAGACAGA ATGTGAGGCC CTCAAACTGC AGATGACAGA GAAGGACAAG
    GTGATCGAGA TTCTGCGACA GCAGATTGAG AACATGACAC AGCTGGTGGG CCAGCATGGA
    CGAACTGCTG GAGCTATGCA AGTAGAAAAA GCTCAACTGG AGAAAGAAAT TAATGATAGG
    CGGATGGAAC TAAAGGAACT TAAGATATTA AAAGATAAAA AAGATGCAAA GATCCGGGAG
    CTTGAGGCCA GAGTGAGTGA CTTGGAGCTG GAAAAGGTGA AGCTGGTGAA TGCAGGCTCT
    GAGCGGCTCC GTGCAGTGAA GGACATCAAA CAAGAGAGAG ATCAATTATT AAATGAGGTG
    AAAACAAGTA GGAGTGAATT AAACAATCTT TCAGAGGAGT ATGAAGTCTT AAAAAGGAAT
    TTCCGAAACA AAAGTGAAGA AATGGAAATG ACTACAAATA AGTTGAAAAT GCAATTAAAA
    TCTGCACAGT CTGAACTAGA ACAGACAAGA AATACATTAA AGTCAATGGA AGGATCTGAT
    GGTCATGCTA TGAAAGTGGC AATGGGGATG CAAAAGCAAA TCACAGCCAA AAGAGGTCAG
    ATAGATGCCC TTCAGAGCAA GATACAGTTT TTGGAAGAGG CAATGACAAA TGCAAATAAG
    GAGAAACATT TTCTGAAAGA AGAGAAAAGT AAACTCAGTC AGGAATTGAG TACTGTTGCC
    ACAGAAAAAA ACAAGATGGC TGGGGAGTTG GAAGTTCTGC GATCTCAGGA ACGCCGTTTG
    AAAGAAAAGG TTACTAATAT GGAAGTGGCT CTGGATAAGG CATCTTTGCA GTTTGCAGAA
    TGTCAAGATA TAATACAGCG TCAGGAGCAA GAATCAGTGC GCTTAAAACT TCAACACACT
    TTGGATATAA AAGAACTTCA GGGCCCTGGA TACACCTCAA ATTCTTCATT GAAACCACGC
    CTTCTCCAGC CAGCATCTGT TACTCGTTCT CATTCTAATG TACCATCTTC GCAGTCTACA
    GCCAGCTTCC TGTCTCATCA CTCTACAAAA GCTAACACAC TGAAGGAAGA TCCAACAAGG
    GACCTGAAAC AGCTTCTCCA AGAGTTGAGA AGCGTGATCA ATGAGGAGCC AGCTGTGTCT
    CTGAGCAAGA CAGAGGAAGA TGGAAGAACA TCTCTGGGAG CCTTGTATGT GGCTGTAGAG
    GATAGGGTAA GAGATTGCAT TACTGAATCC AGCCTGAGAT CAGACATGTG CCATAGAAGC
    AACAACTCGT TGAGGGACTC CACTGAAGGA AGCAAATCAA GTGAAACTCT TAGTAGAGAG
    CCAGTCACAT TACACGCAGG AGACAGGGAA GATCCCTCTG GTTGCTTCAC ATTCACATCT
    GCAGCAAGTC CATCTGTGAA AAACTCAGCT TCTCGTTCAT TCAATTCTTC TCCTAAGAAG
    TCTCCAGTGC ACTCACTCCT AACTAGTTCA GTTGAAGGTT CAATAGGTTC CACATCACAG
    TATAGATCTG CCAAACCTAT TCATTCATCT GATTCTGTTA AAGATTCACA GTCTCCGCCA
    ATAGAAACAA CAGGAAAAAC ATGCAGGAAG CTTCAGAACA GACTAGAAAG CTTGCAAACT
    CTGGTAGAAG ATTTACAGCT GAAGAACCAA GCAATGTCTT CAATGATCAG AAATCAAGAA
    AAGAGGATAC AGAAAGTAAA AGACCAGGAA AAAATGTTAC TAAAATGA

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

  • PubMed

    New loci associated with kidney function and chronic kidney disease.
    Nature genetics42(5)376-84(2010 May)
    K?ttgen A,Pattaro C,B?ger CA,Fuchsberger C,Olden M,Glazer NL,Parsa A,Gao X,Yang Q,Smith AV,O'Connell JR,Li M,Schmidt H,Tanaka T,Isaacs A,Ketkar S,Hwang SJ,Johnson AD,Dehghan A,Teumer A,Par? G,Atkinson EJ,Zeller T,Lohman K,Cornelis MC,Probst-Hensch NM,Kronenberg F,T?njes A,Hayward C,Aspelund T,Eiriksdottir G,Launer LJ,Harris TB,Rampersaud E,Mitchell BD,Arking DE,Boerwinkle E,Struchalin M,Cavalieri M,Singleton A,Giallauria F,Metter J,de Boer IH,Haritunians T,Lumley T,Siscovick D,Psaty BM,Zillikens MC,Oostra BA,Feitosa M,Province M,de Andrade M,Turner ST,Schillert A,Ziegler A,Wild PS,Schnabel RB,Wilde S,Munzel TF,Leak TS,Illig T,Klopp N,Meisinger C,Wichmann HE,Koenig W,Zgaga L,Zemunik T,Kolcic I,Minelli C,Hu FB,Johansson A,Igl W,Zaboli G,Wild SH,Wright AF,Campbell H,Ellinghaus D,Schreiber S,Aulchenko YS,Felix JF,Rivadeneira F,Uitterlinden AG,Hofman A,Imboden M,Nitsch D,Brandst?tter A,Kollerits B,Kedenko L,M?gi R,Stumvoll M,Kovacs P,Boban M,Campbell S,Endlich K,V?lzke H,Kroemer HK,Nauck M,V?lker U,Polasek O,Vitart V,Badola S,Parker AN,Ridker PM,Kardia SL,Blankenberg S,Liu Y,Curhan GC,Franke A,Rochat T,Paulweber B,Prokopenko I,Wang W,Gudnason V,Shuldiner AR,Coresh J,Schmidt R,Ferrucci L,Shlipak MG,van Duijn CM,Borecki I,Kr?mer BK,Rudan I,Gyllensten U,Wilson JF,Witteman JC,Pramstaller PP,Rettig R,Hastie N,Chasman DI,Kao WH,Heid IM,Fox CS