Ccdc180 cDNA ORF clone, Mus musculus(house mouse)

The following Ccdc180 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Ccdc180 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
OMu81041 XM_017320287.2
Latest version!
Mus musculus coiled-coil domain containing 180 (Ccdc180), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OMu09151 NM_198660.2
Latest version!
Mus musculus coiled-coil domain containing 180 (Ccdc180), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $811.30
$1159.00
OMu81042 XM_017320288.1
Latest version!
Mus musculus coiled-coil domain containing 180 (Ccdc180), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $727.30
$1039.00
OMu81043 XM_017320289.1
Latest version!
Mus musculus coiled-coil domain containing 180 (Ccdc180), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $643.30
$919.00
OMu81044 XM_017320290.1
Latest version!
Mus musculus coiled-coil domain containing 180 (Ccdc180), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $559.30
$799.00
OMu81045 XM_017320291.1
Latest version!
Mus musculus coiled-coil domain containing 180 (Ccdc180), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $559.30
$799.00
View Old Accession Versions >>
OMu81041 XM_017320287.1 Mus musculus coiled-coil domain containing 180 (Ccdc180), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $811.30
$1159.00
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 OMu81041
    Clone ID Related Accession (Same CDS sequence) XM_017320287.2 , XM_017320287.1
    Accession Version XM_017320287.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4917bp)
    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 2019-08-07
    Organism Mus musculus(house mouse)
    Product coiled-coil domain-containing protein 180 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000070.6) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Aug 8, 2019 this sequence version replaced XM_017320287.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus musculus Annotation Release 108 Annotation Version :: 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    ATGCGGGAGC CTCCAGGCTT GGAACGAAGA GGAATTGGGC CAGCAGTCAA GATGTCGCCA 
    GTGGGAAAGG TGTCCCAAGT ACAGAATGGC AAAGTCTACC AGCAGATCTT CCAGGCCCAG
    GTGCAGCTGG TTCAGTCTCT GGCAGCTACC AGGAAGCAGG CTGCAGAGCG TTCTGAGACT
    CAAAAGAATG TCAAGACACC CATGATGAAG AAGGTGCCAT TACCTGAGGG GGAAACTATG
    ACCCCTCGCC AGAGGAAGTG GGTGCGTAGC CTCCCCAACG ACTGGGTCAC GGAAAACCCA
    GTTCTTTATA GGGAAAAAGA AGAAGCCAGG AAGGAGAAGG AGCGTCTGAC AGATGACATG
    ATTGCTTCTC AAGAGGTGCA GGGCCTCATG GACAACATAG TTCCACAGCT CACAGAGAGG
    GTGAGCAACC TCCAGGAACA AGAGGAATTC AAGAAGAGGA AGTACCTGAG CGCACTGGCG
    AGCTTTCAGG AGGAGTTGGA GCAGATTGGG GTGGAGATGG AACCTCTCAT CCTGGAGAAA
    GGGGATCTTC TTTTGAGAAA GATCTCGAAG TCCGATGAGG ACGTTGACAT GCTCTTCAAG
    AAAGTCGAAG GGGAGCCGGA CCTCGAAAGC CACACTATTG AAACCCTGTT GGAACTGTGG
    GAAAAAGTGG CTGAAAGATT CATGCAGCAG AAGCAGGAGA TTAAGGAGCT GGACGAGGAG
    CTGTTGGCCC TGGAGGTCTC TCGAGCCGAC AAGCTAAAGG AAGTGCTGAA GAGATATGTC
    GGCATCATAG AGAAAACCTC CTATATCCTG CAGCCCGATG TGTATAGGCT GATAGATAAA
    GAAGCTATGG CCATGAACCA GGCTCTCCTG GGCAACCGGA GGGCCATCGC CCAGCTGTTA
    GTCAACCTGA CTGAGTCAAC CCTACAGCAG GAGCTTGACA ACCGCCACCG CTGGCAGGGG
    CTGGTGGATA CCTGGAAGGC TCTCAAGAAG GAGGCCCTGA TACAGAGCTT CAGTGAGTTC
    ATGGCTAGCG AGGAGATCCA GGAGCCCCCA GAAGTGAAGA AGAAGCTTGA AGAAATGCAG
    AAAAACCAGG AGATGCTTCA GAGTGTGAGG CTCGATCACC TCTGCACCCT CTGTGACCTC
    CTCCCCCCTA ACTATAACAA AACCCAGTTG ACTGAATGGT ATGATTCTCT CACTTCCCTC
    AACAAGCAGC TCGACACCTA CCACATGGAC TGCATGTCGC TGGTCCACTT CCTGTATGAG
    AAGATTTGGC AGCAGTGCCT GTCCCACGTG CAGGAATGCA AGCAGCAGCT GCTGAACTGG
    AAAGCTTTCT CTGAAGCAGA GGCAGAGAGC CTAGTAAATC CAACCTTCTT CCTGATGGTG
    GGGGAGTTCC AGAGCAAGGT GGAGAAGCAG CTGGAGCTCC TGGATAACTC CTTTGAGGAT
    TTGGCCAGGG AGACAGAATG GCAGAGCTCG GACCTCTTCA GGTACTTCCA GGAGGCTGTG
    AAGCTGTGGG AGGGGCACCA AAGTGTTCTG ATGACACAAG AGCTGGAGCT GGAGAAGAGG
    ATAGAACAGC ATCGGCAGAA ACACAACCAG GAGAACCAGA ACCAGGAGAC CCTCCTTGAT
    AAGCTTCTCG ACCAACTGAG ACAGCAAAGC CAAGAGGAGT CGCTGAAAGC CCACATGGAA
    AAGGCCAGGA CTTTTCTGAA GAACATGAAG TCCAGGTACG AATGTTTTCA CCTCTTGCTG
    ACCAAAGAAG TGATGGAGTA CCCGGGGTTA GTGCTGAAAG AACTCAACTG CTATAGCTTC
    ACCCTCAGCC GACACTTCTT CATTCGTGAA ATCTTTGAGC AGAACTTGTC TGGGGAAGTG
    ATTTTTAAAT TCAGGCAACC AGAAACCCAC GAGAAACTCT TCATACAGAA AATAAGGAAA
    ATGAAGAAAA AACAAAGGAA GAGAAAAGGT GAAGAAAGCA TAGGGCAAGA CCTGGGTTCT
    GAGAAGCCCA CAGAAAGCAT GAAAGAAGAG GGAAGTGGGG AATCAGAGCC CAGCACTGCT
    GGAGAGGCAC TGAACCAGGA GAACAAGTCC CCGCAGAGTG ACAGGGTGAG TGAGCCCAGA
    GACGGGCCTT CCCAAGAAGC TGAAGAGACG CTGGGCGTGA GAGAGACCTC CTCAGAGACA
    TCCCAGGACC GAGAAAATCT CAAGGTTCAA GAAGAGAAGG AAGAGATAGA AGAAGAGGAG
    GAAGAGGAGG AGGAAGAGGA GGAGGAGGAA ATAAAAGAGG AGAGAGTAGA GGAGGAAGAG
    AAGGAAGAAG AAGAAGAGGA GGAGGAGGAA ATAAAAGAAG ATGAGGAGGA AGAAGATGAA
    TATGAGAATG AAGACGTGCT GGAGTACTAT CAAGAGACCT ATTTTATGGG TCAGGCTGAA
    AGCAGGGAAG AGTCCGATGA GATACCCTAT GAAGAGATGG AGTTCTTCAC AACTACAAGT
    GGGAACACTT ACTTTGCCTT CCTGTCTGTG GAAGATGAGC AGCAGATACA CAGTCGGCCC
    CATTCCCACC ACAATCTGCT CAACTCTTTC TGCACCAAGT ACATAGAGCA AGTGTCTATT
    CCTCAGAAAC TAATCCTGAA GGTTAAGAAA GGGCTTCGAG CTGGCTTCTT TGAACATCTT
    GAGAAATGGT TTGATCAGTG TGTCCTCAAT GCTCGTATCA TTGTGGCTTC CAAGGTTGAT
    GAACTGGATT CAGAACTGGA GCTACGGCTG CACCTTCACA AGCCAAGACT CGAGCAAGTG
    GAGAAGGATA TTCACAATGT CAGAGCAGCG GAGCTCCTGC TTCACCAAGA GAGGCTGGAC
    AGCCACTGTG CCGGTGTGAT CGAGACACTG AAGAAGGAGA GGCTCATGTT CTGTCAGTTC
    CAAGAAGAGC AAGCCGTGCG GAGCAGGAAC TTCCGCCGCA AGATCTACGA CATGGAGCAC
    ATTTTCCTGA ATGCTACCAG AAGCCAAAAG CTGGTCAGTC TCACCAAGAC ACTACACCGA
    GAGCTGCTCA GCTACGTGGA TGTCATCCAG GTGTCCCTGC GAAGCTTCCG GCAGTACCTG
    GAAGAGAGTC TGGGCAAGCT GCGCTATACC AACATTGACT TTGTCAAGCA CTGCAGATTG
    TTCTCAGAGG GTGGCAACTT TTCCCCTGAA GAAGTTGAGA CGCTGTGCCA CCGACTGGAG
    AAGGAGGCTA CCCGGATTGA GTTCGTTGAA AGTTTAATTA TGATCCACAT GGAAAAGATG
    GAGACAGAGT ACCTGGACCA GGCCAACGAT GTCATCAACA AATTCGAGAG TAAATTCCAT
    AACCTATCTT CAGACCTTAT TTTCGTAGAG AAAATCCAGC GGCTGATGAC AAATCTTCAA
    GTGAATATCA AGTGTCAGGA GGCAAAGTCC AATTCCCAGG CGGAAGGATT AAATTCTTCT
    CTGGAACAGC TTCAGCAGAA GATACAAACG TGTCAAGACC ACCGGGGAGA TAAGGATATA
    GTGACCACAG ACGATCTCCT TGCCTTTGTC CGATCCTGGA AAGAAAAACT GAGCCAGAGG
    ATTAAGTACC TCAACTGTAG CCTGGATATG GTGTCTATCA CTCAGGAGGT CTTTACGGAC
    ACCATCCTGG CTGACACTGA AGTGGAGAGT GACATGCATA TGAGTATGGA GGCCCTTGAG
    GAGGACGTCA AGGTGGGCCT TGTCACCCCT GAGTCCTTTG CCCAACCAAC CCGCATGGGG
    AGGCCCATGA TTGAAGACCC CGCTGTGGAT GTGGTCAGAA GGATCCTTCA AATTTCTCAG
    GCAAAATCAA CATGCCCGTG TGACAAGGAT CGCTCCCAAA CAGCCTTGAA GAGAAGGTAC
    CGGGCAGAGA AGGCCTTAAA GAAGGCCTTG GCCAGCGCCA GTGTCACCTC AGCAGGGAGG
    GATTTTAAAG GCATCATCCT GAATCTCCTG TGGGAGAGCA ATGAGCACCT GATGGTCGTG
    GTGGAGGATT TTTACCGTAA AGAGAAACGC CCAGTCACAA GGCCTGAATG CATGTATGAG
    AGCTTTGACC AGTGCGCCGA CCACATCAGC AGGAAGATCC TAGAATATCA CCGTCAGGCG
    GACGAGTACC ACAACTCCTG CCTTCTGGAG TTGCGTGCCC AGGTGAGGAG GTTTGAGGAG
    CTGCTGCCCC AGGTGTGCTG GCTGGTGACG GAGAACTACA AGGAACAGCA CTGGGGCAAG
    TTTTGCGCAT CTCTGAAGGA GGTCCAGGAG CAGTTTGAGC AGCAGCAGAA GCAGCTAGAG
    CTGGAGAAGG ATGAAAATGC TCGGAAGCTC CATCCAAATC TTGGCCACCC CACATACATC
    AGTCAAATGG AGTCACTACA AATGGCGGAG GAGCTGAGGC AGCAGGAGCT GAACCGGATG
    ATCCACGAGA ACCAGGAGAA GATGGAGGAA TTTGCCAAGA AGTATGCCCG CTTCTTCATA
    TCAAATTTGG CCTCCTTCAC AGAGAGGTTT CTGATGCAGC TGGATGAAGT GATTACCATA
    GATGACATCC AGGTCCCACG GTCGGAGCCC CCAAAGCAGA AAGTCTCAAT CCTCATACGG
    AGGAAGCTGG CCATGCTCTC TCTGGAGGAA GAGAGCGAGA AGCCCCTGAT TGAACGTGGG
    AGCAGGAAGT GGCCAGGCAT CAAGCCCAAC GAAATCACCA TTCAGAACAA GATACTGACT
    CGGAGGACAC CATCAATAAC CACCAATAAG ACCACCCTGG GCCACTTGGC CGCCATAGAA
    GCCCGAGATG CCGTTTACCT GAAATACTTG GCACTGTTTG ACAAAGAACT GAAGGGTATC
    CAGGATCACT TCAGGAAGCT GCTGTTGGAG TCTCAGCGCT GGAAGGAAAG CTGGAAACGC
    TCCCTTAGCA CCATCCAGAC CCTATACTCG ACCTGTTCTC CTCTGCAACT CAAATAA

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

    RefSeq XP_017175776.1
    CDS64..4980
    Translation

    Target ORF information:

    RefSeq Version XM_017320287.2
    Organism Mus musculus(house mouse)
    Definition Mus musculus coiled-coil domain containing 180 (Ccdc180), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017320287.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    ATGCGGGAGC CTCCAGGCTT GGAACGAAGA GGAATTGGGC CAGCAGTCAA GATGTCGCCA 
    GTGGGAAAGG TGTCCCAAGT ACAGAATGGC AAAGTCTACC AGCAGATCTT CCAGGCCCAG
    GTGCAGCTGG TTCAGTCTCT GGCAGCTACC AGGAAGCAGG CTGCAGAGCG TTCTGAGACT
    CAAAAGAATG TCAAGACACC CATGATGAAG AAGGTGCCAT TACCTGAGGG GGAAACTATG
    ACCCCTCGCC AGAGGAAGTG GGTGCGTAGC CTCCCCAACG ACTGGGTCAC GGAAAACCCA
    GTTCTTTATA GGGAAAAAGA AGAAGCCAGG AAGGAGAAGG AGCGTCTGAC AGATGACATG
    ATTGCTTCTC AAGAGGTGCA GGGCCTCATG GACAACATAG TTCCACAGCT CACAGAGAGG
    GTGAGCAACC TCCAGGAACA AGAGGAATTC AAGAAGAGGA AGTACCTGAG CGCACTGGCG
    AGCTTTCAGG AGGAGTTGGA GCAGATTGGG GTGGAGATGG AACCTCTCAT CCTGGAGAAA
    GGGGATCTTC TTTTGAGAAA GATCTCGAAG TCCGATGAGG ACGTTGACAT GCTCTTCAAG
    AAAGTCGAAG GGGAGCCGGA CCTCGAAAGC CACACTATTG AAACCCTGTT GGAACTGTGG
    GAAAAAGTGG CTGAAAGATT CATGCAGCAG AAGCAGGAGA TTAAGGAGCT GGACGAGGAG
    CTGTTGGCCC TGGAGGTCTC TCGAGCCGAC AAGCTAAAGG AAGTGCTGAA GAGATATGTC
    GGCATCATAG AGAAAACCTC CTATATCCTG CAGCCCGATG TGTATAGGCT GATAGATAAA
    GAAGCTATGG CCATGAACCA GGCTCTCCTG GGCAACCGGA GGGCCATCGC CCAGCTGTTA
    GTCAACCTGA CTGAGTCAAC CCTACAGCAG GAGCTTGACA ACCGCCACCG CTGGCAGGGG
    CTGGTGGATA CCTGGAAGGC TCTCAAGAAG GAGGCCCTGA TACAGAGCTT CAGTGAGTTC
    ATGGCTAGCG AGGAGATCCA GGAGCCCCCA GAAGTGAAGA AGAAGCTTGA AGAAATGCAG
    AAAAACCAGG AGATGCTTCA GAGTGTGAGG CTCGATCACC TCTGCACCCT CTGTGACCTC
    CTCCCCCCTA ACTATAACAA AACCCAGTTG ACTGAATGGT ATGATTCTCT CACTTCCCTC
    AACAAGCAGC TCGACACCTA CCACATGGAC TGCATGTCGC TGGTCCACTT CCTGTATGAG
    AAGATTTGGC AGCAGTGCCT GTCCCACGTG CAGGAATGCA AGCAGCAGCT GCTGAACTGG
    AAAGCTTTCT CTGAAGCAGA GGCAGAGAGC CTAGTAAATC CAACCTTCTT CCTGATGGTG
    GGGGAGTTCC AGAGCAAGGT GGAGAAGCAG CTGGAGCTCC TGGATAACTC CTTTGAGGAT
    TTGGCCAGGG AGACAGAATG GCAGAGCTCG GACCTCTTCA GGTACTTCCA GGAGGCTGTG
    AAGCTGTGGG AGGGGCACCA AAGTGTTCTG ATGACACAAG AGCTGGAGCT GGAGAAGAGG
    ATAGAACAGC ATCGGCAGAA ACACAACCAG GAGAACCAGA ACCAGGAGAC CCTCCTTGAT
    AAGCTTCTCG ACCAACTGAG ACAGCAAAGC CAAGAGGAGT CGCTGAAAGC CCACATGGAA
    AAGGCCAGGA CTTTTCTGAA GAACATGAAG TCCAGGTACG AATGTTTTCA CCTCTTGCTG
    ACCAAAGAAG TGATGGAGTA CCCGGGGTTA GTGCTGAAAG AACTCAACTG CTATAGCTTC
    ACCCTCAGCC GACACTTCTT CATTCGTGAA ATCTTTGAGC AGAACTTGTC TGGGGAAGTG
    ATTTTTAAAT TCAGGCAACC AGAAACCCAC GAGAAACTCT TCATACAGAA AATAAGGAAA
    ATGAAGAAAA AACAAAGGAA GAGAAAAGGT GAAGAAAGCA TAGGGCAAGA CCTGGGTTCT
    GAGAAGCCCA CAGAAAGCAT GAAAGAAGAG GGAAGTGGGG AATCAGAGCC CAGCACTGCT
    GGAGAGGCAC TGAACCAGGA GAACAAGTCC CCGCAGAGTG ACAGGGTGAG TGAGCCCAGA
    GACGGGCCTT CCCAAGAAGC TGAAGAGACG CTGGGCGTGA GAGAGACCTC CTCAGAGACA
    TCCCAGGACC GAGAAAATCT CAAGGTTCAA GAAGAGAAGG AAGAGATAGA AGAAGAGGAG
    GAAGAGGAGG AGGAAGAGGA GGAGGAGGAA ATAAAAGAGG AGAGAGTAGA GGAGGAAGAG
    AAGGAAGAAG AAGAAGAGGA GGAGGAGGAA ATAAAAGAAG ATGAGGAGGA AGAAGATGAA
    TATGAGAATG AAGACGTGCT GGAGTACTAT CAAGAGACCT ATTTTATGGG TCAGGCTGAA
    AGCAGGGAAG AGTCCGATGA GATACCCTAT GAAGAGATGG AGTTCTTCAC AACTACAAGT
    GGGAACACTT ACTTTGCCTT CCTGTCTGTG GAAGATGAGC AGCAGATACA CAGTCGGCCC
    CATTCCCACC ACAATCTGCT CAACTCTTTC TGCACCAAGT ACATAGAGCA AGTGTCTATT
    CCTCAGAAAC TAATCCTGAA GGTTAAGAAA GGGCTTCGAG CTGGCTTCTT TGAACATCTT
    GAGAAATGGT TTGATCAGTG TGTCCTCAAT GCTCGTATCA TTGTGGCTTC CAAGGTTGAT
    GAACTGGATT CAGAACTGGA GCTACGGCTG CACCTTCACA AGCCAAGACT CGAGCAAGTG
    GAGAAGGATA TTCACAATGT CAGAGCAGCG GAGCTCCTGC TTCACCAAGA GAGGCTGGAC
    AGCCACTGTG CCGGTGTGAT CGAGACACTG AAGAAGGAGA GGCTCATGTT CTGTCAGTTC
    CAAGAAGAGC AAGCCGTGCG GAGCAGGAAC TTCCGCCGCA AGATCTACGA CATGGAGCAC
    ATTTTCCTGA ATGCTACCAG AAGCCAAAAG CTGGTCAGTC TCACCAAGAC ACTACACCGA
    GAGCTGCTCA GCTACGTGGA TGTCATCCAG GTGTCCCTGC GAAGCTTCCG GCAGTACCTG
    GAAGAGAGTC TGGGCAAGCT GCGCTATACC AACATTGACT TTGTCAAGCA CTGCAGATTG
    TTCTCAGAGG GTGGCAACTT TTCCCCTGAA GAAGTTGAGA CGCTGTGCCA CCGACTGGAG
    AAGGAGGCTA CCCGGATTGA GTTCGTTGAA AGTTTAATTA TGATCCACAT GGAAAAGATG
    GAGACAGAGT ACCTGGACCA GGCCAACGAT GTCATCAACA AATTCGAGAG TAAATTCCAT
    AACCTATCTT CAGACCTTAT TTTCGTAGAG AAAATCCAGC GGCTGATGAC AAATCTTCAA
    GTGAATATCA AGTGTCAGGA GGCAAAGTCC AATTCCCAGG CGGAAGGATT AAATTCTTCT
    CTGGAACAGC TTCAGCAGAA GATACAAACG TGTCAAGACC ACCGGGGAGA TAAGGATATA
    GTGACCACAG ACGATCTCCT TGCCTTTGTC CGATCCTGGA AAGAAAAACT GAGCCAGAGG
    ATTAAGTACC TCAACTGTAG CCTGGATATG GTGTCTATCA CTCAGGAGGT CTTTACGGAC
    ACCATCCTGG CTGACACTGA AGTGGAGAGT GACATGCATA TGAGTATGGA GGCCCTTGAG
    GAGGACGTCA AGGTGGGCCT TGTCACCCCT GAGTCCTTTG CCCAACCAAC CCGCATGGGG
    AGGCCCATGA TTGAAGACCC CGCTGTGGAT GTGGTCAGAA GGATCCTTCA AATTTCTCAG
    GCAAAATCAA CATGCCCGTG TGACAAGGAT CGCTCCCAAA CAGCCTTGAA GAGAAGGTAC
    CGGGCAGAGA AGGCCTTAAA GAAGGCCTTG GCCAGCGCCA GTGTCACCTC AGCAGGGAGG
    GATTTTAAAG GCATCATCCT GAATCTCCTG TGGGAGAGCA ATGAGCACCT GATGGTCGTG
    GTGGAGGATT TTTACCGTAA AGAGAAACGC CCAGTCACAA GGCCTGAATG CATGTATGAG
    AGCTTTGACC AGTGCGCCGA CCACATCAGC AGGAAGATCC TAGAATATCA CCGTCAGGCG
    GACGAGTACC ACAACTCCTG CCTTCTGGAG TTGCGTGCCC AGGTGAGGAG GTTTGAGGAG
    CTGCTGCCCC AGGTGTGCTG GCTGGTGACG GAGAACTACA AGGAACAGCA CTGGGGCAAG
    TTTTGCGCAT CTCTGAAGGA GGTCCAGGAG CAGTTTGAGC AGCAGCAGAA GCAGCTAGAG
    CTGGAGAAGG ATGAAAATGC TCGGAAGCTC CATCCAAATC TTGGCCACCC CACATACATC
    AGTCAAATGG AGTCACTACA AATGGCGGAG GAGCTGAGGC AGCAGGAGCT GAACCGGATG
    ATCCACGAGA ACCAGGAGAA GATGGAGGAA TTTGCCAAGA AGTATGCCCG CTTCTTCATA
    TCAAATTTGG CCTCCTTCAC AGAGAGGTTT CTGATGCAGC TGGATGAAGT GATTACCATA
    GATGACATCC AGGTCCCACG GTCGGAGCCC CCAAAGCAGA AAGTCTCAAT CCTCATACGG
    AGGAAGCTGG CCATGCTCTC TCTGGAGGAA GAGAGCGAGA AGCCCCTGAT TGAACGTGGG
    AGCAGGAAGT GGCCAGGCAT CAAGCCCAAC GAAATCACCA TTCAGAACAA GATACTGACT
    CGGAGGACAC CATCAATAAC CACCAATAAG ACCACCCTGG GCCACTTGGC CGCCATAGAA
    GCCCGAGATG CCGTTTACCT GAAATACTTG GCACTGTTTG ACAAAGAACT GAAGGGTATC
    CAGGATCACT TCAGGAAGCT GCTGTTGGAG TCTCAGCGCT GGAAGGAAAG CTGGAAACGC
    TCCCTTAGCA CCATCCAGAC CCTATACTCG ACCTGTTCTC CTCTGCAACT CAAATAA

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

    CloneID OMu09151
    Clone ID Related Accession (Same CDS sequence) NM_198660.2
    Accession Version NM_198660.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4995bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-05-25
    Organism Mus musculus(house mouse)
    Product coiled-coil domain-containing protein 180
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from AL772381.5. On May 5, 2010 this sequence version replaced NM_198660.1. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence. The genomic coordinates used for the transcript record were inferred from human CAH18175.1 and limited mouse transcript alignments. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMN00849384 [ECO:0000348] ##Evidence-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    ATGCGGGAGC CTCCAGGCTT GGAACGAAGA GGAATTGGGC CAGCAGTCAA GATGTCGCCA 
    GTGGGAAAGG TGTCCCAAGT ACAGAATGGC AAAGTCTACC AGCAGATCTT CCAGGCCCAG
    GTGCAGCTGG TTCAGTCTCT GGCAGCTACC AGGAAGCAGG CTGCAGAGCG TTCTGAGACT
    CAAAAGAATG TCAAGACACC CATGATGAAG AAGGTGCCAT TACCTGAGGG GGAAACTATG
    ACCCCTCGCC AGAGGAAGTG GGTGCGTAGC CTCCCCAACG ACTGGGTCAC GGAAAACCCA
    GTTCTTTATA GGGAAAAAGA AGAAGCCAGG AAGGAGAAGG AGCGTCTGAC AGATGACATG
    ATTGCTTCTC AAGAGGTGCA GGGCCTCATG GACAACATAG TTCCACAGCT CACAGAGAGG
    GTGAGCAACC TCCAGGAACA AGAGGAATTC AAGAAGAGGA AGTACCTGAG CGCACTGGCG
    AGCTTTCAGG AGGAGTTGGA GCAGATTGGG GTGGAGATGG AACCTCTCAT CCTGGAGAAA
    GGGGATCTTC TTTTGAGAAA GATCTCGAAG TCCGATGAGG ACGTTGACAT GCTCTTCAAG
    AAAGTCGAAG GGGAGCCGGA CCTCGAAAGC CACACTATTG AAACCCTGTT GGAACTGTGG
    GAAAAAGTGG CTGAAAGATT CATGCAGCAG AAGCAGGAGA TTAAGGAGCT GGACGAGGAG
    CTGTTGGCCC TGGAGGTCTC TCGAGCCGAC AAGCTAAAGG AAGTGCTGAA GAGATATGTC
    GGCATCATAG AGAAAACCTC CTATATCCTG CAGCCCGATG TGTATAGGCT GATAGATAAA
    GAAGCTATGG CCATGAACCA GGCTCTCCTG GGCAACCGGA GGGCCATCGC CCAGCTGTTA
    GTCAACCTGA CTGAGTCAAC CCTACAGCAG GAGCTTGACA ACCGCCACCG CTGGCAGGGG
    CTGGTGGATA CCTGGAAGGC TCTCAAGAAG GAGGCCCTGA TACAGAGCTT CAGTGAGTTC
    ATGGCTAGCG AGGAGATCCA GGAGCCCCCA GAAGTGAAGA AGAAGCTTGA AGAAATGCAG
    AAAAACCAGG AGATGCTTCA GAGTGTGAGG CTCGATCACC TCTGCACCCT CTGTGACCTC
    CTCCCCCCTA ACTATAACAA AACCCAGTTG ACTGAATGGT ATGATTCTCT CACTTCCCTC
    AACAAGCAGC TCGACACCTA CCACATGGAC TGCATGTCGC TGGTCCACTT CCTGTATGAG
    AAGATTTGGC AGCAGTGCCT GTCCCACGTG CAGGAATGCA AGCAGCAGCT GCTGAACTGG
    AAAGCTTTCT CTGAAGCAGA GGCAGAGAGC CTAGTAAATC CAACCTTCTT CCTGATGGTG
    GGGGAGTTCC AGAGCAAGGT GGAGAAGCAG CTGGAGCTCC TGGATAACTC CTTTGAGGAT
    TTGGCCAGGG AGACAGAATG GCAGAGCTCG GACCTCTTCA GGTACTTCCA GGAGGCTGTG
    AAGCTGTGGG AGGGGCACCA AAGTGTTCTG ATGACACAAG AGCTGGAGCT GGAGAAGAGG
    ATAGAACAGC ATCGGCAGAA ACACAACCAG GAGAACCAGA ACCAGGAGAC CCTCCTTGAT
    AAGCTTCTCG ACCAACTGAG ACAGCAAAGC CAAGAGGAGT CGCTGAAAGC CCACATGGAA
    AAGGCCAGGA CTTTTCTGAA GAACATGAAG TCCAGGTACG AATGTTTTCA CCTCTTGCTG
    ACCAAAGAAG TGATGGAGTA CCCGGGGTTA GTGCTGAAAG AACTCAACTG CTATAGCTTC
    ACCCTCAGCC GACACTTCTT CATTCGTGAA ATCTTTGAGC AGAACTTGTC TGGGGAAGTG
    ATTTTTAAAT TCAGGCAACC AGAAACCCAC GAGAAACTCT TCATACAGAA AATAAGGAAA
    ATGAAGAAAA AACAAAGGAA GAGAAAAGGT GAAGAAAGCA TAGGGCAAGA CCTGGGTTCT
    GAGAAGCCCA CAGAAAGCAT GAAAGAAGAG GGAAGTGGGG AATCAGAGCC CAGCACTGCT
    GGAGAGGCAC TGAACCAGGA GAACAAGTCC CCGCAGAGTG ACAGGGTGAG TGAGCCCAGA
    GACGGGCCTT CCCAAGAAGC TGAAGAGACG CTGGGCGTGA GAGAGACCTC CTCAGAGACA
    TCCCAGGACC GAGAAAATCT CAAGGTTCAA GAAGAGAAGG AAGAGATAGA AGAAGAGGAG
    GAAGAGGAGG AGGAAGAGGA GGAGGAGGAA ATAAAAGAGG AGAGAGTAGA GGAGGAAGAG
    AAGGAAGAAG AAGAAGAGGA GGAGGAGGAA ATAAAAGAAG ATGAGGAGGA AGAAGATGAA
    TATGAGAATG AAGACGTGCT GGAGTACTAT CAAGAGACCT ATTTTATGGG TCAGGCTGAA
    AGCAGGGAAG AGTCCGATGA GATACCCTAT GAAGAGATGG AGTTCTTCAC AACTACAAGT
    GGGAACACTT ACTTTGCCTT CCTGTCTGTG GAAGATGAGC AGCAGATACA CAGTCGGCCC
    CATTCCCACC ACAATCTGCT CAACTCTTTC TGCACCAAGT ACATAGAGCA AGTGTCTATT
    CCTCAGAAAC TAATCCTGAA GGTTAAGAAA GGGCTTCGAG CTGGCTTCTT TGAACATCTT
    GAGAAATGGT TTGATCAGTG TGTCCTCAAT GCTCGTATCA TTGTGGCTTC CAAGGTTGAT
    GAACTGGATT CAGAACTGGA GCTACGGCTG CACCTTCACA AGCCAAGACT CGAGCAAGTG
    GAGAAGGATA TTCACAATGT CAGAGCAGCG GAGCTCCTGC TTCACCAAGA GAGGCTGGAC
    AGCCACTGTG CCGGTGTGAT CGAGACACTG AAGAAGGAGA GGCTCATGTT CTGTCAGTTC
    CAAGAAGAGC AAGCCGTGCG GAGCAGGAAC TTCCGCCGCA AGATCTACGA CATGGAGCAC
    ATTTTCCTGA ATGCTACCAG AAGCCAAAAG CTGGTCAGTC TCACCAAGAC ACTACACCGA
    GAGCTGCTCA GCTACGTGGA TGTCATCCAG GTGTCCCTGC GAAGCTTCCG GCAGTACCTG
    GAAGAGAGTC TGGGCAAGCT GCGCTATACC AACATTGACT TTGTCAAGCA CTGCAGATTG
    TTCTCAGAGG GTGGCAACTT TTCCCCTGAA GAAGTTGAGA CGCTGTGCCA CCGACTGGAG
    AAGGAGGCTA CCCGGATTGA GTTCGTTGAA AGTTTAATTA TGATCCACAT GGAAAAGATG
    GAGACAGAGT ACCTGGACCA GGCCAACGAT GTCATCAACA AATTCGAGAG TAAATTCCAT
    AACCTATCTT CAGACCTTAT TTTCGTAGAG AAAATCCAGC GGCTGATGAC AAATCTTCAA
    GTGAATATCA AGTGTCAGGA GGCAAAGTCC AATTCCCAGG CGGAAGGATT AAATTCTTCT
    CTGGAACAGC TTCAGCAGAA GATACAAACG TGTCAAGACC ACCGGGGAGA TAAGGATATA
    GTGACCACAG ACGATCTCCT TGCCTTTGTC CGATCCTGGA AAGAAAAACT GAGCCAGAGG
    ATTAAGTACC TCAACTGTAG CCTGGATATG GTGTCTATCA CTCAGGAGGT CTTTACGGAC
    ACCATCCTGG CTGACACTGA AGTGGAGAGT GACATGCATA TGAGTATGGA GGCCCTTGAG
    GAGGACGTCA AGGTGGGCCT TGTCACCCCT GAGTCCTTTG CCCAACCAAC CCGCATGGGG
    AGGCCCATGA TTGAAGACCC CGCTGTGGAT GTGGTCAGAA GGATCCTTCA AATTTCTCAG
    GCAAAATCAA CATGCCCGTG TGACAAGGAT CGCTCCCAAA CAGCCTTGAA GAGAAGGTAC
    CGGGCAGAGA AGGCCTTAAA GAAGGCCTTG GCCAGCGCCA GTGTCACCTC AGCAGGGAGC
    ATGACACGAC ATCCCAAGTA CATCAGAGTT GACAAAAAGT ACCAGGTGCT TGGGGAAAAG
    CCTACTTCCC AGGCTGAGGA TTTTAAAGGC ATCATCCTGA ATCTCCTGTG GGAGAGCAAT
    GAGCACCTGA TGGTCGTGGT GGAGGATTTT TACCGTAAAG AGAAACGCCC AGTCACAAGG
    CCTGAATGCA TGTATGAGAG CTTTGACCAG TGCGCCGACC ACATCAGCAG GAAGATCCTA
    GAATATCACC GTCAGGCGGA CGAGTACCAC AACTCCTGCC TTCTGGAGTT GCGTGCCCAG
    GTGAGGAGGT TTGAGGAGCT GCTGCCCCAG GTGTGCTGGC TGGTGACGGA GAACTACAAG
    GAACAGCACT GGGGCAAGTT TTGCGCATCT CTGAAGGAGG TCCAGGAGCA GTTTGAGCAG
    CAGCAGAAGC AGCTAGAGCT GGAGAAGGAT GAAAATGCTC GGAAGCTCCA TCCAAATCTT
    GGCCACCCCA CATACATCAG TCAAATGGAG TCACTACAAA TGGCGGAGGA GCTGAGGCAG
    CAGGAGCTGA ACCGGATGAT CCACGAGAAC CAGGAGAAGA TGGAGGAATT TGCCAAGAAG
    TATGCCCGCT TCTTCATATC AAATTTGGCC TCCTTCACAG AGAGGTTTCT GATGCAGCTG
    GATGAAGTGA TTACCATAGA TGACATCCAG GTCCCACGGT CGGAGCCCCC AAAGCAGAAA
    GTCTCAATCC TCATACGGAG GAAGCTGGCC ATGCTCTCTC TGGAGGAAGA GAGCGAGAAG
    CCCCTGATTG AACGTGGGAG CAGGAAGTGG CCAGGCATCA AGCCCAACGA AATCACCATT
    CAGAACAAGA TACTGACTCG GAGGACACCA TCAATAACCA CCAATAAGAC CACCCTGGGC
    CACTTGGCCG CCATAGAAGC CCGAGATGCC GTTTACCTGA AATACTTGGC ACTGTTTGAC
    AAAGAACTGA AGGGTATCCA GGATCACTTC AGGAAGCTGC TGTTGGAGTC TCAGCGCTGG
    AAGGAAAGCT GGAAACGCTC CCTTAGCACC ATCCAGACCC TATACTCGAC CTGTTCTCCT
    CTGCAACTCA AATAA

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

    RefSeq NP_941062.2
    CDS64..5058
    Translation

    Target ORF information:

    RefSeq Version NM_198660.2
    Organism Mus musculus(house mouse)
    Definition Mus musculus coiled-coil domain containing 180 (Ccdc180), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_198660.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    ATGCGGGAGC CTCCAGGCTT GGAACGAAGA GGAATTGGGC CAGCAGTCAA GATGTCGCCA 
    GTGGGAAAGG TGTCCCAAGT ACAGAATGGC AAAGTCTACC AGCAGATCTT CCAGGCCCAG
    GTGCAGCTGG TTCAGTCTCT GGCAGCTACC AGGAAGCAGG CTGCAGAGCG TTCTGAGACT
    CAAAAGAATG TCAAGACACC CATGATGAAG AAGGTGCCAT TACCTGAGGG GGAAACTATG
    ACCCCTCGCC AGAGGAAGTG GGTGCGTAGC CTCCCCAACG ACTGGGTCAC GGAAAACCCA
    GTTCTTTATA GGGAAAAAGA AGAAGCCAGG AAGGAGAAGG AGCGTCTGAC AGATGACATG
    ATTGCTTCTC AAGAGGTGCA GGGCCTCATG GACAACATAG TTCCACAGCT CACAGAGAGG
    GTGAGCAACC TCCAGGAACA AGAGGAATTC AAGAAGAGGA AGTACCTGAG CGCACTGGCG
    AGCTTTCAGG AGGAGTTGGA GCAGATTGGG GTGGAGATGG AACCTCTCAT CCTGGAGAAA
    GGGGATCTTC TTTTGAGAAA GATCTCGAAG TCCGATGAGG ACGTTGACAT GCTCTTCAAG
    AAAGTCGAAG GGGAGCCGGA CCTCGAAAGC CACACTATTG AAACCCTGTT GGAACTGTGG
    GAAAAAGTGG CTGAAAGATT CATGCAGCAG AAGCAGGAGA TTAAGGAGCT GGACGAGGAG
    CTGTTGGCCC TGGAGGTCTC TCGAGCCGAC AAGCTAAAGG AAGTGCTGAA GAGATATGTC
    GGCATCATAG AGAAAACCTC CTATATCCTG CAGCCCGATG TGTATAGGCT GATAGATAAA
    GAAGCTATGG CCATGAACCA GGCTCTCCTG GGCAACCGGA GGGCCATCGC CCAGCTGTTA
    GTCAACCTGA CTGAGTCAAC CCTACAGCAG GAGCTTGACA ACCGCCACCG CTGGCAGGGG
    CTGGTGGATA CCTGGAAGGC TCTCAAGAAG GAGGCCCTGA TACAGAGCTT CAGTGAGTTC
    ATGGCTAGCG AGGAGATCCA GGAGCCCCCA GAAGTGAAGA AGAAGCTTGA AGAAATGCAG
    AAAAACCAGG AGATGCTTCA GAGTGTGAGG CTCGATCACC TCTGCACCCT CTGTGACCTC
    CTCCCCCCTA ACTATAACAA AACCCAGTTG ACTGAATGGT ATGATTCTCT CACTTCCCTC
    AACAAGCAGC TCGACACCTA CCACATGGAC TGCATGTCGC TGGTCCACTT CCTGTATGAG
    AAGATTTGGC AGCAGTGCCT GTCCCACGTG CAGGAATGCA AGCAGCAGCT GCTGAACTGG
    AAAGCTTTCT CTGAAGCAGA GGCAGAGAGC CTAGTAAATC CAACCTTCTT CCTGATGGTG
    GGGGAGTTCC AGAGCAAGGT GGAGAAGCAG CTGGAGCTCC TGGATAACTC CTTTGAGGAT
    TTGGCCAGGG AGACAGAATG GCAGAGCTCG GACCTCTTCA GGTACTTCCA GGAGGCTGTG
    AAGCTGTGGG AGGGGCACCA AAGTGTTCTG ATGACACAAG AGCTGGAGCT GGAGAAGAGG
    ATAGAACAGC ATCGGCAGAA ACACAACCAG GAGAACCAGA ACCAGGAGAC CCTCCTTGAT
    AAGCTTCTCG ACCAACTGAG ACAGCAAAGC CAAGAGGAGT CGCTGAAAGC CCACATGGAA
    AAGGCCAGGA CTTTTCTGAA GAACATGAAG TCCAGGTACG AATGTTTTCA CCTCTTGCTG
    ACCAAAGAAG TGATGGAGTA CCCGGGGTTA GTGCTGAAAG AACTCAACTG CTATAGCTTC
    ACCCTCAGCC GACACTTCTT CATTCGTGAA ATCTTTGAGC AGAACTTGTC TGGGGAAGTG
    ATTTTTAAAT TCAGGCAACC AGAAACCCAC GAGAAACTCT TCATACAGAA AATAAGGAAA
    ATGAAGAAAA AACAAAGGAA GAGAAAAGGT GAAGAAAGCA TAGGGCAAGA CCTGGGTTCT
    GAGAAGCCCA CAGAAAGCAT GAAAGAAGAG GGAAGTGGGG AATCAGAGCC CAGCACTGCT
    GGAGAGGCAC TGAACCAGGA GAACAAGTCC CCGCAGAGTG ACAGGGTGAG TGAGCCCAGA
    GACGGGCCTT CCCAAGAAGC TGAAGAGACG CTGGGCGTGA GAGAGACCTC CTCAGAGACA
    TCCCAGGACC GAGAAAATCT CAAGGTTCAA GAAGAGAAGG AAGAGATAGA AGAAGAGGAG
    GAAGAGGAGG AGGAAGAGGA GGAGGAGGAA ATAAAAGAGG AGAGAGTAGA GGAGGAAGAG
    AAGGAAGAAG AAGAAGAGGA GGAGGAGGAA ATAAAAGAAG ATGAGGAGGA AGAAGATGAA
    TATGAGAATG AAGACGTGCT GGAGTACTAT CAAGAGACCT ATTTTATGGG TCAGGCTGAA
    AGCAGGGAAG AGTCCGATGA GATACCCTAT GAAGAGATGG AGTTCTTCAC AACTACAAGT
    GGGAACACTT ACTTTGCCTT CCTGTCTGTG GAAGATGAGC AGCAGATACA CAGTCGGCCC
    CATTCCCACC ACAATCTGCT CAACTCTTTC TGCACCAAGT ACATAGAGCA AGTGTCTATT
    CCTCAGAAAC TAATCCTGAA GGTTAAGAAA GGGCTTCGAG CTGGCTTCTT TGAACATCTT
    GAGAAATGGT TTGATCAGTG TGTCCTCAAT GCTCGTATCA TTGTGGCTTC CAAGGTTGAT
    GAACTGGATT CAGAACTGGA GCTACGGCTG CACCTTCACA AGCCAAGACT CGAGCAAGTG
    GAGAAGGATA TTCACAATGT CAGAGCAGCG GAGCTCCTGC TTCACCAAGA GAGGCTGGAC
    AGCCACTGTG CCGGTGTGAT CGAGACACTG AAGAAGGAGA GGCTCATGTT CTGTCAGTTC
    CAAGAAGAGC AAGCCGTGCG GAGCAGGAAC TTCCGCCGCA AGATCTACGA CATGGAGCAC
    ATTTTCCTGA ATGCTACCAG AAGCCAAAAG CTGGTCAGTC TCACCAAGAC ACTACACCGA
    GAGCTGCTCA GCTACGTGGA TGTCATCCAG GTGTCCCTGC GAAGCTTCCG GCAGTACCTG
    GAAGAGAGTC TGGGCAAGCT GCGCTATACC AACATTGACT TTGTCAAGCA CTGCAGATTG
    TTCTCAGAGG GTGGCAACTT TTCCCCTGAA GAAGTTGAGA CGCTGTGCCA CCGACTGGAG
    AAGGAGGCTA CCCGGATTGA GTTCGTTGAA AGTTTAATTA TGATCCACAT GGAAAAGATG
    GAGACAGAGT ACCTGGACCA GGCCAACGAT GTCATCAACA AATTCGAGAG TAAATTCCAT
    AACCTATCTT CAGACCTTAT TTTCGTAGAG AAAATCCAGC GGCTGATGAC AAATCTTCAA
    GTGAATATCA AGTGTCAGGA GGCAAAGTCC AATTCCCAGG CGGAAGGATT AAATTCTTCT
    CTGGAACAGC TTCAGCAGAA GATACAAACG TGTCAAGACC ACCGGGGAGA TAAGGATATA
    GTGACCACAG ACGATCTCCT TGCCTTTGTC CGATCCTGGA AAGAAAAACT GAGCCAGAGG
    ATTAAGTACC TCAACTGTAG CCTGGATATG GTGTCTATCA CTCAGGAGGT CTTTACGGAC
    ACCATCCTGG CTGACACTGA AGTGGAGAGT GACATGCATA TGAGTATGGA GGCCCTTGAG
    GAGGACGTCA AGGTGGGCCT TGTCACCCCT GAGTCCTTTG CCCAACCAAC CCGCATGGGG
    AGGCCCATGA TTGAAGACCC CGCTGTGGAT GTGGTCAGAA GGATCCTTCA AATTTCTCAG
    GCAAAATCAA CATGCCCGTG TGACAAGGAT CGCTCCCAAA CAGCCTTGAA GAGAAGGTAC
    CGGGCAGAGA AGGCCTTAAA GAAGGCCTTG GCCAGCGCCA GTGTCACCTC AGCAGGGAGC
    ATGACACGAC ATCCCAAGTA CATCAGAGTT GACAAAAAGT ACCAGGTGCT TGGGGAAAAG
    CCTACTTCCC AGGCTGAGGA TTTTAAAGGC ATCATCCTGA ATCTCCTGTG GGAGAGCAAT
    GAGCACCTGA TGGTCGTGGT GGAGGATTTT TACCGTAAAG AGAAACGCCC AGTCACAAGG
    CCTGAATGCA TGTATGAGAG CTTTGACCAG TGCGCCGACC ACATCAGCAG GAAGATCCTA
    GAATATCACC GTCAGGCGGA CGAGTACCAC AACTCCTGCC TTCTGGAGTT GCGTGCCCAG
    GTGAGGAGGT TTGAGGAGCT GCTGCCCCAG GTGTGCTGGC TGGTGACGGA GAACTACAAG
    GAACAGCACT GGGGCAAGTT TTGCGCATCT CTGAAGGAGG TCCAGGAGCA GTTTGAGCAG
    CAGCAGAAGC AGCTAGAGCT GGAGAAGGAT GAAAATGCTC GGAAGCTCCA TCCAAATCTT
    GGCCACCCCA CATACATCAG TCAAATGGAG TCACTACAAA TGGCGGAGGA GCTGAGGCAG
    CAGGAGCTGA ACCGGATGAT CCACGAGAAC CAGGAGAAGA TGGAGGAATT TGCCAAGAAG
    TATGCCCGCT TCTTCATATC AAATTTGGCC TCCTTCACAG AGAGGTTTCT GATGCAGCTG
    GATGAAGTGA TTACCATAGA TGACATCCAG GTCCCACGGT CGGAGCCCCC AAAGCAGAAA
    GTCTCAATCC TCATACGGAG GAAGCTGGCC ATGCTCTCTC TGGAGGAAGA GAGCGAGAAG
    CCCCTGATTG AACGTGGGAG CAGGAAGTGG CCAGGCATCA AGCCCAACGA AATCACCATT
    CAGAACAAGA TACTGACTCG GAGGACACCA TCAATAACCA CCAATAAGAC CACCCTGGGC
    CACTTGGCCG CCATAGAAGC CCGAGATGCC GTTTACCTGA AATACTTGGC ACTGTTTGAC
    AAAGAACTGA AGGGTATCCA GGATCACTTC AGGAAGCTGC TGTTGGAGTC TCAGCGCTGG
    AAGGAAAGCT GGAAACGCTC CCTTAGCACC ATCCAGACCC TATACTCGAC CTGTTCTCCT
    CTGCAACTCA AATAA

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

    CloneID OMu81041
    Clone ID Related Accession (Same CDS sequence) XM_017320287.2 , XM_017320287.1
    Accession Version XM_017320287.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4917bp)
    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 2016-06-21
    Organism Mus musculus(house mouse)
    Product coiled-coil domain-containing protein 180 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000070.6) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus musculus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    ATGCGGGAGC CTCCAGGCTT GGAACGAAGA GGAATTGGGC CAGCAGTCAA GATGTCGCCA 
    GTGGGAAAGG TGTCCCAAGT ACAGAATGGC AAAGTCTACC AGCAGATCTT CCAGGCCCAG
    GTGCAGCTGG TTCAGTCTCT GGCAGCTACC AGGAAGCAGG CTGCAGAGCG TTCTGAGACT
    CAAAAGAATG TCAAGACACC CATGATGAAG AAGGTGCCAT TACCTGAGGG GGAAACTATG
    ACCCCTCGCC AGAGGAAGTG GGTGCGTAGC CTCCCCAACG ACTGGGTCAC GGAAAACCCA
    GTTCTTTATA GGGAAAAAGA AGAAGCCAGG AAGGAGAAGG AGCGTCTGAC AGATGACATG
    ATTGCTTCTC AAGAGGTGCA GGGCCTCATG GACAACATAG TTCCACAGCT CACAGAGAGG
    GTGAGCAACC TCCAGGAACA AGAGGAATTC AAGAAGAGGA AGTACCTGAG CGCACTGGCG
    AGCTTTCAGG AGGAGTTGGA GCAGATTGGG GTGGAGATGG AACCTCTCAT CCTGGAGAAA
    GGGGATCTTC TTTTGAGAAA GATCTCGAAG TCCGATGAGG ACGTTGACAT GCTCTTCAAG
    AAAGTCGAAG GGGAGCCGGA CCTCGAAAGC CACACTATTG AAACCCTGTT GGAACTGTGG
    GAAAAAGTGG CTGAAAGATT CATGCAGCAG AAGCAGGAGA TTAAGGAGCT GGACGAGGAG
    CTGTTGGCCC TGGAGGTCTC TCGAGCCGAC AAGCTAAAGG AAGTGCTGAA GAGATATGTC
    GGCATCATAG AGAAAACCTC CTATATCCTG CAGCCCGATG TGTATAGGCT GATAGATAAA
    GAAGCTATGG CCATGAACCA GGCTCTCCTG GGCAACCGGA GGGCCATCGC CCAGCTGTTA
    GTCAACCTGA CTGAGTCAAC CCTACAGCAG GAGCTTGACA ACCGCCACCG CTGGCAGGGG
    CTGGTGGATA CCTGGAAGGC TCTCAAGAAG GAGGCCCTGA TACAGAGCTT CAGTGAGTTC
    ATGGCTAGCG AGGAGATCCA GGAGCCCCCA GAAGTGAAGA AGAAGCTTGA AGAAATGCAG
    AAAAACCAGG AGATGCTTCA GAGTGTGAGG CTCGATCACC TCTGCACCCT CTGTGACCTC
    CTCCCCCCTA ACTATAACAA AACCCAGTTG ACTGAATGGT ATGATTCTCT CACTTCCCTC
    AACAAGCAGC TCGACACCTA CCACATGGAC TGCATGTCGC TGGTCCACTT CCTGTATGAG
    AAGATTTGGC AGCAGTGCCT GTCCCACGTG CAGGAATGCA AGCAGCAGCT GCTGAACTGG
    AAAGCTTTCT CTGAAGCAGA GGCAGAGAGC CTAGTAAATC CAACCTTCTT CCTGATGGTG
    GGGGAGTTCC AGAGCAAGGT GGAGAAGCAG CTGGAGCTCC TGGATAACTC CTTTGAGGAT
    TTGGCCAGGG AGACAGAATG GCAGAGCTCG GACCTCTTCA GGTACTTCCA GGAGGCTGTG
    AAGCTGTGGG AGGGGCACCA AAGTGTTCTG ATGACACAAG AGCTGGAGCT GGAGAAGAGG
    ATAGAACAGC ATCGGCAGAA ACACAACCAG GAGAACCAGA ACCAGGAGAC CCTCCTTGAT
    AAGCTTCTCG ACCAACTGAG ACAGCAAAGC CAAGAGGAGT CGCTGAAAGC CCACATGGAA
    AAGGCCAGGA CTTTTCTGAA GAACATGAAG TCCAGGTACG AATGTTTTCA CCTCTTGCTG
    ACCAAAGAAG TGATGGAGTA CCCGGGGTTA GTGCTGAAAG AACTCAACTG CTATAGCTTC
    ACCCTCAGCC GACACTTCTT CATTCGTGAA ATCTTTGAGC AGAACTTGTC TGGGGAAGTG
    ATTTTTAAAT TCAGGCAACC AGAAACCCAC GAGAAACTCT TCATACAGAA AATAAGGAAA
    ATGAAGAAAA AACAAAGGAA GAGAAAAGGT GAAGAAAGCA TAGGGCAAGA CCTGGGTTCT
    GAGAAGCCCA CAGAAAGCAT GAAAGAAGAG GGAAGTGGGG AATCAGAGCC CAGCACTGCT
    GGAGAGGCAC TGAACCAGGA GAACAAGTCC CCGCAGAGTG ACAGGGTGAG TGAGCCCAGA
    GACGGGCCTT CCCAAGAAGC TGAAGAGACG CTGGGCGTGA GAGAGACCTC CTCAGAGACA
    TCCCAGGACC GAGAAAATCT CAAGGTTCAA GAAGAGAAGG AAGAGATAGA AGAAGAGGAG
    GAAGAGGAGG AGGAAGAGGA GGAGGAGGAA ATAAAAGAGG AGAGAGTAGA GGAGGAAGAG
    AAGGAAGAAG AAGAAGAGGA GGAGGAGGAA ATAAAAGAAG ATGAGGAGGA AGAAGATGAA
    TATGAGAATG AAGACGTGCT GGAGTACTAT CAAGAGACCT ATTTTATGGG TCAGGCTGAA
    AGCAGGGAAG AGTCCGATGA GATACCCTAT GAAGAGATGG AGTTCTTCAC AACTACAAGT
    GGGAACACTT ACTTTGCCTT CCTGTCTGTG GAAGATGAGC AGCAGATACA CAGTCGGCCC
    CATTCCCACC ACAATCTGCT CAACTCTTTC TGCACCAAGT ACATAGAGCA AGTGTCTATT
    CCTCAGAAAC TAATCCTGAA GGTTAAGAAA GGGCTTCGAG CTGGCTTCTT TGAACATCTT
    GAGAAATGGT TTGATCAGTG TGTCCTCAAT GCTCGTATCA TTGTGGCTTC CAAGGTTGAT
    GAACTGGATT CAGAACTGGA GCTACGGCTG CACCTTCACA AGCCAAGACT CGAGCAAGTG
    GAGAAGGATA TTCACAATGT CAGAGCAGCG GAGCTCCTGC TTCACCAAGA GAGGCTGGAC
    AGCCACTGTG CCGGTGTGAT CGAGACACTG AAGAAGGAGA GGCTCATGTT CTGTCAGTTC
    CAAGAAGAGC AAGCCGTGCG GAGCAGGAAC TTCCGCCGCA AGATCTACGA CATGGAGCAC
    ATTTTCCTGA ATGCTACCAG AAGCCAAAAG CTGGTCAGTC TCACCAAGAC ACTACACCGA
    GAGCTGCTCA GCTACGTGGA TGTCATCCAG GTGTCCCTGC GAAGCTTCCG GCAGTACCTG
    GAAGAGAGTC TGGGCAAGCT GCGCTATACC AACATTGACT TTGTCAAGCA CTGCAGATTG
    TTCTCAGAGG GTGGCAACTT TTCCCCTGAA GAAGTTGAGA CGCTGTGCCA CCGACTGGAG
    AAGGAGGCTA CCCGGATTGA GTTCGTTGAA AGTTTAATTA TGATCCACAT GGAAAAGATG
    GAGACAGAGT ACCTGGACCA GGCCAACGAT GTCATCAACA AATTCGAGAG TAAATTCCAT
    AACCTATCTT CAGACCTTAT TTTCGTAGAG AAAATCCAGC GGCTGATGAC AAATCTTCAA
    GTGAATATCA AGTGTCAGGA GGCAAAGTCC AATTCCCAGG CGGAAGGATT AAATTCTTCT
    CTGGAACAGC TTCAGCAGAA GATACAAACG TGTCAAGACC ACCGGGGAGA TAAGGATATA
    GTGACCACAG ACGATCTCCT TGCCTTTGTC CGATCCTGGA AAGAAAAACT GAGCCAGAGG
    ATTAAGTACC TCAACTGTAG CCTGGATATG GTGTCTATCA CTCAGGAGGT CTTTACGGAC
    ACCATCCTGG CTGACACTGA AGTGGAGAGT GACATGCATA TGAGTATGGA GGCCCTTGAG
    GAGGACGTCA AGGTGGGCCT TGTCACCCCT GAGTCCTTTG CCCAACCAAC CCGCATGGGG
    AGGCCCATGA TTGAAGACCC CGCTGTGGAT GTGGTCAGAA GGATCCTTCA AATTTCTCAG
    GCAAAATCAA CATGCCCGTG TGACAAGGAT CGCTCCCAAA CAGCCTTGAA GAGAAGGTAC
    CGGGCAGAGA AGGCCTTAAA GAAGGCCTTG GCCAGCGCCA GTGTCACCTC AGCAGGGAGG
    GATTTTAAAG GCATCATCCT GAATCTCCTG TGGGAGAGCA ATGAGCACCT GATGGTCGTG
    GTGGAGGATT TTTACCGTAA AGAGAAACGC CCAGTCACAA GGCCTGAATG CATGTATGAG
    AGCTTTGACC AGTGCGCCGA CCACATCAGC AGGAAGATCC TAGAATATCA CCGTCAGGCG
    GACGAGTACC ACAACTCCTG CCTTCTGGAG TTGCGTGCCC AGGTGAGGAG GTTTGAGGAG
    CTGCTGCCCC AGGTGTGCTG GCTGGTGACG GAGAACTACA AGGAACAGCA CTGGGGCAAG
    TTTTGCGCAT CTCTGAAGGA GGTCCAGGAG CAGTTTGAGC AGCAGCAGAA GCAGCTAGAG
    CTGGAGAAGG ATGAAAATGC TCGGAAGCTC CATCCAAATC TTGGCCACCC CACATACATC
    AGTCAAATGG AGTCACTACA AATGGCGGAG GAGCTGAGGC AGCAGGAGCT GAACCGGATG
    ATCCACGAGA ACCAGGAGAA GATGGAGGAA TTTGCCAAGA AGTATGCCCG CTTCTTCATA
    TCAAATTTGG CCTCCTTCAC AGAGAGGTTT CTGATGCAGC TGGATGAAGT GATTACCATA
    GATGACATCC AGGTCCCACG GTCGGAGCCC CCAAAGCAGA AAGTCTCAAT CCTCATACGG
    AGGAAGCTGG CCATGCTCTC TCTGGAGGAA GAGAGCGAGA AGCCCCTGAT TGAACGTGGG
    AGCAGGAAGT GGCCAGGCAT CAAGCCCAAC GAAATCACCA TTCAGAACAA GATACTGACT
    CGGAGGACAC CATCAATAAC CACCAATAAG ACCACCCTGG GCCACTTGGC CGCCATAGAA
    GCCCGAGATG CCGTTTACCT GAAATACTTG GCACTGTTTG ACAAAGAACT GAAGGGTATC
    CAGGATCACT TCAGGAAGCT GCTGTTGGAG TCTCAGCGCT GGAAGGAAAG CTGGAAACGC
    TCCCTTAGCA CCATCCAGAC CCTATACTCG ACCTGTTCTC CTCTGCAACT CAAATAA

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

    RefSeq XP_017175776.1
    CDS64..4980
    Translation

    Target ORF information:

    RefSeq Version XM_017320287.1
    Organism Mus musculus(house mouse)
    Definition Mus musculus coiled-coil domain containing 180 (Ccdc180), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017320287.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    ATGCGGGAGC CTCCAGGCTT GGAACGAAGA GGAATTGGGC CAGCAGTCAA GATGTCGCCA 
    GTGGGAAAGG TGTCCCAAGT ACAGAATGGC AAAGTCTACC AGCAGATCTT CCAGGCCCAG
    GTGCAGCTGG TTCAGTCTCT GGCAGCTACC AGGAAGCAGG CTGCAGAGCG TTCTGAGACT
    CAAAAGAATG TCAAGACACC CATGATGAAG AAGGTGCCAT TACCTGAGGG GGAAACTATG
    ACCCCTCGCC AGAGGAAGTG GGTGCGTAGC CTCCCCAACG ACTGGGTCAC GGAAAACCCA
    GTTCTTTATA GGGAAAAAGA AGAAGCCAGG AAGGAGAAGG AGCGTCTGAC AGATGACATG
    ATTGCTTCTC AAGAGGTGCA GGGCCTCATG GACAACATAG TTCCACAGCT CACAGAGAGG
    GTGAGCAACC TCCAGGAACA AGAGGAATTC AAGAAGAGGA AGTACCTGAG CGCACTGGCG
    AGCTTTCAGG AGGAGTTGGA GCAGATTGGG GTGGAGATGG AACCTCTCAT CCTGGAGAAA
    GGGGATCTTC TTTTGAGAAA GATCTCGAAG TCCGATGAGG ACGTTGACAT GCTCTTCAAG
    AAAGTCGAAG GGGAGCCGGA CCTCGAAAGC CACACTATTG AAACCCTGTT GGAACTGTGG
    GAAAAAGTGG CTGAAAGATT CATGCAGCAG AAGCAGGAGA TTAAGGAGCT GGACGAGGAG
    CTGTTGGCCC TGGAGGTCTC TCGAGCCGAC AAGCTAAAGG AAGTGCTGAA GAGATATGTC
    GGCATCATAG AGAAAACCTC CTATATCCTG CAGCCCGATG TGTATAGGCT GATAGATAAA
    GAAGCTATGG CCATGAACCA GGCTCTCCTG GGCAACCGGA GGGCCATCGC CCAGCTGTTA
    GTCAACCTGA CTGAGTCAAC CCTACAGCAG GAGCTTGACA ACCGCCACCG CTGGCAGGGG
    CTGGTGGATA CCTGGAAGGC TCTCAAGAAG GAGGCCCTGA TACAGAGCTT CAGTGAGTTC
    ATGGCTAGCG AGGAGATCCA GGAGCCCCCA GAAGTGAAGA AGAAGCTTGA AGAAATGCAG
    AAAAACCAGG AGATGCTTCA GAGTGTGAGG CTCGATCACC TCTGCACCCT CTGTGACCTC
    CTCCCCCCTA ACTATAACAA AACCCAGTTG ACTGAATGGT ATGATTCTCT CACTTCCCTC
    AACAAGCAGC TCGACACCTA CCACATGGAC TGCATGTCGC TGGTCCACTT CCTGTATGAG
    AAGATTTGGC AGCAGTGCCT GTCCCACGTG CAGGAATGCA AGCAGCAGCT GCTGAACTGG
    AAAGCTTTCT CTGAAGCAGA GGCAGAGAGC CTAGTAAATC CAACCTTCTT CCTGATGGTG
    GGGGAGTTCC AGAGCAAGGT GGAGAAGCAG CTGGAGCTCC TGGATAACTC CTTTGAGGAT
    TTGGCCAGGG AGACAGAATG GCAGAGCTCG GACCTCTTCA GGTACTTCCA GGAGGCTGTG
    AAGCTGTGGG AGGGGCACCA AAGTGTTCTG ATGACACAAG AGCTGGAGCT GGAGAAGAGG
    ATAGAACAGC ATCGGCAGAA ACACAACCAG GAGAACCAGA ACCAGGAGAC CCTCCTTGAT
    AAGCTTCTCG ACCAACTGAG ACAGCAAAGC CAAGAGGAGT CGCTGAAAGC CCACATGGAA
    AAGGCCAGGA CTTTTCTGAA GAACATGAAG TCCAGGTACG AATGTTTTCA CCTCTTGCTG
    ACCAAAGAAG TGATGGAGTA CCCGGGGTTA GTGCTGAAAG AACTCAACTG CTATAGCTTC
    ACCCTCAGCC GACACTTCTT CATTCGTGAA ATCTTTGAGC AGAACTTGTC TGGGGAAGTG
    ATTTTTAAAT TCAGGCAACC AGAAACCCAC GAGAAACTCT TCATACAGAA AATAAGGAAA
    ATGAAGAAAA AACAAAGGAA GAGAAAAGGT GAAGAAAGCA TAGGGCAAGA CCTGGGTTCT
    GAGAAGCCCA CAGAAAGCAT GAAAGAAGAG GGAAGTGGGG AATCAGAGCC CAGCACTGCT
    GGAGAGGCAC TGAACCAGGA GAACAAGTCC CCGCAGAGTG ACAGGGTGAG TGAGCCCAGA
    GACGGGCCTT CCCAAGAAGC TGAAGAGACG CTGGGCGTGA GAGAGACCTC CTCAGAGACA
    TCCCAGGACC GAGAAAATCT CAAGGTTCAA GAAGAGAAGG AAGAGATAGA AGAAGAGGAG
    GAAGAGGAGG AGGAAGAGGA GGAGGAGGAA ATAAAAGAGG AGAGAGTAGA GGAGGAAGAG
    AAGGAAGAAG AAGAAGAGGA GGAGGAGGAA ATAAAAGAAG ATGAGGAGGA AGAAGATGAA
    TATGAGAATG AAGACGTGCT GGAGTACTAT CAAGAGACCT ATTTTATGGG TCAGGCTGAA
    AGCAGGGAAG AGTCCGATGA GATACCCTAT GAAGAGATGG AGTTCTTCAC AACTACAAGT
    GGGAACACTT ACTTTGCCTT CCTGTCTGTG GAAGATGAGC AGCAGATACA CAGTCGGCCC
    CATTCCCACC ACAATCTGCT CAACTCTTTC TGCACCAAGT ACATAGAGCA AGTGTCTATT
    CCTCAGAAAC TAATCCTGAA GGTTAAGAAA GGGCTTCGAG CTGGCTTCTT TGAACATCTT
    GAGAAATGGT TTGATCAGTG TGTCCTCAAT GCTCGTATCA TTGTGGCTTC CAAGGTTGAT
    GAACTGGATT CAGAACTGGA GCTACGGCTG CACCTTCACA AGCCAAGACT CGAGCAAGTG
    GAGAAGGATA TTCACAATGT CAGAGCAGCG GAGCTCCTGC TTCACCAAGA GAGGCTGGAC
    AGCCACTGTG CCGGTGTGAT CGAGACACTG AAGAAGGAGA GGCTCATGTT CTGTCAGTTC
    CAAGAAGAGC AAGCCGTGCG GAGCAGGAAC TTCCGCCGCA AGATCTACGA CATGGAGCAC
    ATTTTCCTGA ATGCTACCAG AAGCCAAAAG CTGGTCAGTC TCACCAAGAC ACTACACCGA
    GAGCTGCTCA GCTACGTGGA TGTCATCCAG GTGTCCCTGC GAAGCTTCCG GCAGTACCTG
    GAAGAGAGTC TGGGCAAGCT GCGCTATACC AACATTGACT TTGTCAAGCA CTGCAGATTG
    TTCTCAGAGG GTGGCAACTT TTCCCCTGAA GAAGTTGAGA CGCTGTGCCA CCGACTGGAG
    AAGGAGGCTA CCCGGATTGA GTTCGTTGAA AGTTTAATTA TGATCCACAT GGAAAAGATG
    GAGACAGAGT ACCTGGACCA GGCCAACGAT GTCATCAACA AATTCGAGAG TAAATTCCAT
    AACCTATCTT CAGACCTTAT TTTCGTAGAG AAAATCCAGC GGCTGATGAC AAATCTTCAA
    GTGAATATCA AGTGTCAGGA GGCAAAGTCC AATTCCCAGG CGGAAGGATT AAATTCTTCT
    CTGGAACAGC TTCAGCAGAA GATACAAACG TGTCAAGACC ACCGGGGAGA TAAGGATATA
    GTGACCACAG ACGATCTCCT TGCCTTTGTC CGATCCTGGA AAGAAAAACT GAGCCAGAGG
    ATTAAGTACC TCAACTGTAG CCTGGATATG GTGTCTATCA CTCAGGAGGT CTTTACGGAC
    ACCATCCTGG CTGACACTGA AGTGGAGAGT GACATGCATA TGAGTATGGA GGCCCTTGAG
    GAGGACGTCA AGGTGGGCCT TGTCACCCCT GAGTCCTTTG CCCAACCAAC CCGCATGGGG
    AGGCCCATGA TTGAAGACCC CGCTGTGGAT GTGGTCAGAA GGATCCTTCA AATTTCTCAG
    GCAAAATCAA CATGCCCGTG TGACAAGGAT CGCTCCCAAA CAGCCTTGAA GAGAAGGTAC
    CGGGCAGAGA AGGCCTTAAA GAAGGCCTTG GCCAGCGCCA GTGTCACCTC AGCAGGGAGG
    GATTTTAAAG GCATCATCCT GAATCTCCTG TGGGAGAGCA ATGAGCACCT GATGGTCGTG
    GTGGAGGATT TTTACCGTAA AGAGAAACGC CCAGTCACAA GGCCTGAATG CATGTATGAG
    AGCTTTGACC AGTGCGCCGA CCACATCAGC AGGAAGATCC TAGAATATCA CCGTCAGGCG
    GACGAGTACC ACAACTCCTG CCTTCTGGAG TTGCGTGCCC AGGTGAGGAG GTTTGAGGAG
    CTGCTGCCCC AGGTGTGCTG GCTGGTGACG GAGAACTACA AGGAACAGCA CTGGGGCAAG
    TTTTGCGCAT CTCTGAAGGA GGTCCAGGAG CAGTTTGAGC AGCAGCAGAA GCAGCTAGAG
    CTGGAGAAGG ATGAAAATGC TCGGAAGCTC CATCCAAATC TTGGCCACCC CACATACATC
    AGTCAAATGG AGTCACTACA AATGGCGGAG GAGCTGAGGC AGCAGGAGCT GAACCGGATG
    ATCCACGAGA ACCAGGAGAA GATGGAGGAA TTTGCCAAGA AGTATGCCCG CTTCTTCATA
    TCAAATTTGG CCTCCTTCAC AGAGAGGTTT CTGATGCAGC TGGATGAAGT GATTACCATA
    GATGACATCC AGGTCCCACG GTCGGAGCCC CCAAAGCAGA AAGTCTCAAT CCTCATACGG
    AGGAAGCTGG CCATGCTCTC TCTGGAGGAA GAGAGCGAGA AGCCCCTGAT TGAACGTGGG
    AGCAGGAAGT GGCCAGGCAT CAAGCCCAAC GAAATCACCA TTCAGAACAA GATACTGACT
    CGGAGGACAC CATCAATAAC CACCAATAAG ACCACCCTGG GCCACTTGGC CGCCATAGAA
    GCCCGAGATG CCGTTTACCT GAAATACTTG GCACTGTTTG ACAAAGAACT GAAGGGTATC
    CAGGATCACT TCAGGAAGCT GCTGTTGGAG TCTCAGCGCT GGAAGGAAAG CTGGAAACGC
    TCCCTTAGCA CCATCCAGAC CCTATACTCG ACCTGTTCTC CTCTGCAACT CAAATAA

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

    CloneID OMu81042
    Clone ID Related Accession (Same CDS sequence) XM_017320288.1
    Accession Version XM_017320288.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4191bp)
    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 2019-08-07
    Organism Mus musculus(house mouse)
    Product coiled-coil domain-containing protein 180 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000070.6) 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 Name :: Mus musculus Annotation Release 108 Annotation Version :: 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGCGGGAGC CTCCAGGCTT GGAACGAAGA GGAATTGGGC CAGCAGTCAA GATGTCGCCA 
    GTGGGAAAGG TGTCCCAAGT ACAGAATGGC AAAGTCTACC AGCAGATCTT CCAGGCCCAG
    GTGCAGCTGG TTCAGTCTCT GGCAGCTACC AGGAAGCAGG CTGCAGAGCG TTCTGAGACT
    CAAAAGAATG TCAAGACACC CATGATGAAG AAGGTGCCAT TACCTGAGGG GGAAACTATG
    ACCCCTCGCC AGAGGAAGTG GGTGCGTAGC CTCCCCAACG ACTGGGTCAC GGAAAACCCA
    GTTCTTTATA GGGAAAAAGA AGAAGCCAGG AAGGAGAAGG AGCGTCTGAC AGATGACATG
    ATTGCTTCTC AAGAGGTGCA GGGCCTCATG GACAACATAG TTCCACAGCT CACAGAGAGG
    GTGAGCAACC TCCAGGAACA AGAGGAATTC AAGAAGAGGA AGTACCTGAG CGCACTGGCG
    AGCTTTCAGG AGGAGTTGGA GCAGATTGGG GTGGAGATGG AACCTCTCAT CCTGGAGAAA
    GGGGATCTTC TTTTGAGAAA GATCTCGAAG TCCGATGAGG ACGTTGACAT GCTCTTCAAG
    AAAGTCGAAG GGGAGCCGGA CCTCGAAAGC CACACTATTG AAACCCTGTT GGAACTGTGG
    GAAAAAGTGG CTGAAAGATT CATGCAGCAG AAGCAGGAGA TTAAGGAGCT GGACGAGGAG
    CTGTTGGCCC TGGAGGTCTC TCGAGCCGAC AAGCTAAAGG AAGTGCTGAA GAGATATGTC
    GGCATCATAG AGAAAACCTC CTATATCCTG CAGCCCGATG TGTATAGGCT GATAGATAAA
    GAAGCTATGG CCATGAACCA GGCTCTCCTG GGCAACCGGA GGGCCATCGC CCAGCTGTTA
    GTCAACCTGA CTGAGTCAAC CCTACAGCAG GAGCTTGACA ACCGCCACCG CTGGCAGGGG
    CTGGTGGATA CCTGGAAGGC TCTCAAGAAG GAGGCCCTGA TACAGAGCTT CAGTGAGTTC
    ATGGCTAGCG AGGAGATCCA GGAGCCCCCA GAAGTGAAGA AGAAGCTTGA AGAAATGCAG
    AAAAACCAGG AGATGCTTCA GAGTGTGAGG CTCGATCACC TCTGCACCCT CTGTGACCTC
    CTCCCCCCTA ACTATAACAA AACCCAGTTG ACTGAATGGT ATGATTCTCT CACTTCCCTC
    AACAAGCAGC TCGACACCTA CCACATGGAC TGCATGTCGC TGGTCCACTT CCTGTATGAG
    AAGATTTGGC AGCAGTGCCT GTCCCACGTG CAGGAATGCA AGCAGCAGCT GCTGAACTGG
    AAAGCTTTCT CTGAAGCAGA GGCAGAGAGC CTAGTAAATC CAACCTTCTT CCTGATGGTG
    GGGGAGTTCC AGAGCAAGGT GGAGAAGCAG CTGGAGCTCC TGGATAACTC CTTTGAGGAT
    TTGGCCAGGG AGACAGAATG GCAGAGCTCG GACCTCTTCA GGTACTTCCA GGAGGCTGTG
    AAGCTGTGGG AGGGGCACCA AAGTGTTCTG ATGACACAAG AGCTGGAGCT GGAGAAGAGG
    ATAGAACAGC ATCGGCAGAA ACACAACCAG GAGAACCAGA ACCAGGAGAC CCTCCTTGAT
    AAGCTTCTCG ACCAACTGAG ACAGCAAAGC CAAGAGGAGT CGCTGAAAGC CCACATGGAA
    AAGGCCAGGA CTTTTCTGAA GAACATGAAG TCCAGGTACG AATGTTTTCA CCTCTTGCTG
    ACCAAAGAAG TGATGGAGTA CCCGGGGTTA GTGCTGAAAG AACTCAACTG CTATAGCTTC
    ACCCTCAGCC GACACTTCTT CATTCGTGAA ATCTTTGAGC AGAACTTGTC TGGGGAAGTG
    ATTTTTAAAT TCAGGCAACC AGAAACCCAC GAGAAACTCT TCATACAGAA AATAAGGAAA
    ATGAAGAAAA AACAAAGGAA GAGAAAAGGT GAAGAAAGCA TAGGGCAAGA CCTGGGTTCT
    GAGAAGCCCA CAGAAAGCAT GAAAGAAGAG GGAAGTGGGG AATCAGAGCC CAGCACTGCT
    GGAGAGGCAC TGAACCAGGA GAACAAGTCC CCGCAGAGTG ACAGGGTGAG TGAGCCCAGA
    GACGGGCCTT CCCAAGAAGC TGAAGAGACG CTGGGCGTGA GAGAGACCTC CTCAGAGACA
    TCCCAGGACC GAGAAAATCT CAAGGTTCAA GAAGAGAAGG AAGAGATAGA AGAAGAGGAG
    GAAGAGGAGG AGGAAGAGGA GGAGGAGGAA ATAAAAGAGG AGAGAGTAGA GGAGGAAGAG
    AAGGAAGAAG AAGAAGAGGA GGAGGAGGAA ATAAAAGAAG ATGAGGAGGA AGAAGATGAA
    TATGAGAATG AAGACGTGCT GGAGTACTAT CAAGAGACCT ATTTTATGGG TCAGGCTGAA
    AGCAGGGAAG AGTCCGATGA GATACCCTAT GAAGAGATGG AGTTCTTCAC AACTACAAGT
    GGGAACACTT ACTTTGCCTT CCTGTCTGTG GAAGATGAGC AGCAGATACA CAGTCGGCCC
    CATTCCCACC ACAATCTGCT CAACTCTTTC TGCACCAAGT ACATAGAGCA AGTGTCTATT
    CCTCAGAAAC TAATCCTGAA GGTTAAGAAA GGGCTTCGAG CTGGCTTCTT TGAACATCTT
    GAGAAATGGT TTGATCAGTG TGTCCTCAAT GCTCGTATCA TTGTGGCTTC CAAGGTTGAT
    GAACTGGATT CAGAACTGGA GCTACGGCTG CACCTTCACA AGCCAAGACT CGAGCAAGTG
    GAGAAGGATA TTCACAATGT CAGAGCAGCG GAGCTCCTGC TTCACCAAGA GAGGCTGGAC
    AGCCACTGTG CCGGTGTGAT CGAGACACTG AAGAAGGAGA GGCTCATGTT CTGTCAGTTC
    CAAGAAGAGC AAGCCGTGCG GAGCAGGAAC TTCCGCCGCA AGATCTACGA CATGGAGCAC
    ATTTTCCTGA ATGCTACCAG AAGCCAAAAG CTGGTCAGTC TCACCAAGAC ACTACACCGA
    GAGCTGCTCA GCTACGTGGA TGTCATCCAG GTGTCCCTGC GAAGCTTCCG GCAGTACCTG
    GAAGAGAGTC TGGGCAAGCT GCGCTATACC AACATTGACT TTGTCAAGCA CTGCAGATTG
    TTCTCAGAGG GTGGCAACTT TTCCCCTGAA GAAGTTGAGA CGCTGTGCCA CCGACTGGAG
    AAGGAGGCTA CCCGGATTGA GTTCGTTGAA AGTTTAATTA TGATCCACAT GGAAAAGATG
    GAGACAGAGT ACCTGGACCA GGCCAACGAT GTCATCAACA AATTCGAGAG TAAATTCCAT
    AACCTATCTT CAGACCTTAT TTTCGTAGAG AAAATCCAGC GGCTGATGAC AAATCTTCAA
    GTGAATATCA AGTGTCAGGA GGCAAAGTCC AATTCCCAGG CGGAAGGATT AAATTCTTCT
    CTGGAACAGC TTCAGCAGAA GATACAAACG TGTCAAGACC ACCGGGGAGA TAAGGATATA
    GTGACCACAG ACGATCTCCT TGCCTTTGTC CGATCCTGGA AAGAAAAACT GAGCCAGAGG
    ATTAAGTACC TCAACTGTAG CCTGGATATG GTGTCTATCA CTCAGGAGGT CTTTACGGAC
    ACCATCCTGG CTGACACTGA AGTGGAGAGT GACATGCATA TGAGTATGGA GGCCCTTGAG
    GAGGACGTCA AGGTGGGCCT TGTCACCCCT GAGTCCTTTG CCCAACCAAC CCGCATGGGG
    AGGCCCATGA TTGAAGACCC CGCTGTGGAT GTGGTCAGAA GGATCCTTCA AATTTCTCAG
    GCAAAATCAA CATGCCCGTG TGACAAGGAT CGCTCCCAAA CAGCCTTGAA GAGAAGGTAC
    CGGGCAGAGA AGGCCTTAAA GAAGGCCTTG GCCAGCGCCA GTGTCACCTC AGCAGGGAGC
    ATGACACGAC ATCCCAAGTA CATCAGAGTT GACAAAAAGT ACCAGGTGCT TGGGGAAAAG
    CCTACTTCCC AGGCTGAGGA TTTTAAAGGC ATCATCCTGA ATCTCCTGTG GGAGAGCAAT
    GAGCACCTGA TGGTCGTGGT GGAGGATTTT TACCGTAAAG AGAAACGCCC AGTCACAAGG
    CCTGAATGCA TGTATGAGAG CTTTGACCAG TGCGCCGACC ACATCAGCAG GAAGATCCTA
    GAATATCACC GTCAGGCGGA CGAGTACCAC AACTCCTGCC TTCTGGGATG A

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

    RefSeq XP_017175777.1
    CDS64..4254
    Translation

    Target ORF information:

    RefSeq Version XM_017320288.1
    Organism Mus musculus(house mouse)
    Definition Mus musculus coiled-coil domain containing 180 (Ccdc180), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017320288.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGCGGGAGC CTCCAGGCTT GGAACGAAGA GGAATTGGGC CAGCAGTCAA GATGTCGCCA 
    GTGGGAAAGG TGTCCCAAGT ACAGAATGGC AAAGTCTACC AGCAGATCTT CCAGGCCCAG
    GTGCAGCTGG TTCAGTCTCT GGCAGCTACC AGGAAGCAGG CTGCAGAGCG TTCTGAGACT
    CAAAAGAATG TCAAGACACC CATGATGAAG AAGGTGCCAT TACCTGAGGG GGAAACTATG
    ACCCCTCGCC AGAGGAAGTG GGTGCGTAGC CTCCCCAACG ACTGGGTCAC GGAAAACCCA
    GTTCTTTATA GGGAAAAAGA AGAAGCCAGG AAGGAGAAGG AGCGTCTGAC AGATGACATG
    ATTGCTTCTC AAGAGGTGCA GGGCCTCATG GACAACATAG TTCCACAGCT CACAGAGAGG
    GTGAGCAACC TCCAGGAACA AGAGGAATTC AAGAAGAGGA AGTACCTGAG CGCACTGGCG
    AGCTTTCAGG AGGAGTTGGA GCAGATTGGG GTGGAGATGG AACCTCTCAT CCTGGAGAAA
    GGGGATCTTC TTTTGAGAAA GATCTCGAAG TCCGATGAGG ACGTTGACAT GCTCTTCAAG
    AAAGTCGAAG GGGAGCCGGA CCTCGAAAGC CACACTATTG AAACCCTGTT GGAACTGTGG
    GAAAAAGTGG CTGAAAGATT CATGCAGCAG AAGCAGGAGA TTAAGGAGCT GGACGAGGAG
    CTGTTGGCCC TGGAGGTCTC TCGAGCCGAC AAGCTAAAGG AAGTGCTGAA GAGATATGTC
    GGCATCATAG AGAAAACCTC CTATATCCTG CAGCCCGATG TGTATAGGCT GATAGATAAA
    GAAGCTATGG CCATGAACCA GGCTCTCCTG GGCAACCGGA GGGCCATCGC CCAGCTGTTA
    GTCAACCTGA CTGAGTCAAC CCTACAGCAG GAGCTTGACA ACCGCCACCG CTGGCAGGGG
    CTGGTGGATA CCTGGAAGGC TCTCAAGAAG GAGGCCCTGA TACAGAGCTT CAGTGAGTTC
    ATGGCTAGCG AGGAGATCCA GGAGCCCCCA GAAGTGAAGA AGAAGCTTGA AGAAATGCAG
    AAAAACCAGG AGATGCTTCA GAGTGTGAGG CTCGATCACC TCTGCACCCT CTGTGACCTC
    CTCCCCCCTA ACTATAACAA AACCCAGTTG ACTGAATGGT ATGATTCTCT CACTTCCCTC
    AACAAGCAGC TCGACACCTA CCACATGGAC TGCATGTCGC TGGTCCACTT CCTGTATGAG
    AAGATTTGGC AGCAGTGCCT GTCCCACGTG CAGGAATGCA AGCAGCAGCT GCTGAACTGG
    AAAGCTTTCT CTGAAGCAGA GGCAGAGAGC CTAGTAAATC CAACCTTCTT CCTGATGGTG
    GGGGAGTTCC AGAGCAAGGT GGAGAAGCAG CTGGAGCTCC TGGATAACTC CTTTGAGGAT
    TTGGCCAGGG AGACAGAATG GCAGAGCTCG GACCTCTTCA GGTACTTCCA GGAGGCTGTG
    AAGCTGTGGG AGGGGCACCA AAGTGTTCTG ATGACACAAG AGCTGGAGCT GGAGAAGAGG
    ATAGAACAGC ATCGGCAGAA ACACAACCAG GAGAACCAGA ACCAGGAGAC CCTCCTTGAT
    AAGCTTCTCG ACCAACTGAG ACAGCAAAGC CAAGAGGAGT CGCTGAAAGC CCACATGGAA
    AAGGCCAGGA CTTTTCTGAA GAACATGAAG TCCAGGTACG AATGTTTTCA CCTCTTGCTG
    ACCAAAGAAG TGATGGAGTA CCCGGGGTTA GTGCTGAAAG AACTCAACTG CTATAGCTTC
    ACCCTCAGCC GACACTTCTT CATTCGTGAA ATCTTTGAGC AGAACTTGTC TGGGGAAGTG
    ATTTTTAAAT TCAGGCAACC AGAAACCCAC GAGAAACTCT TCATACAGAA AATAAGGAAA
    ATGAAGAAAA AACAAAGGAA GAGAAAAGGT GAAGAAAGCA TAGGGCAAGA CCTGGGTTCT
    GAGAAGCCCA CAGAAAGCAT GAAAGAAGAG GGAAGTGGGG AATCAGAGCC CAGCACTGCT
    GGAGAGGCAC TGAACCAGGA GAACAAGTCC CCGCAGAGTG ACAGGGTGAG TGAGCCCAGA
    GACGGGCCTT CCCAAGAAGC TGAAGAGACG CTGGGCGTGA GAGAGACCTC CTCAGAGACA
    TCCCAGGACC GAGAAAATCT CAAGGTTCAA GAAGAGAAGG AAGAGATAGA AGAAGAGGAG
    GAAGAGGAGG AGGAAGAGGA GGAGGAGGAA ATAAAAGAGG AGAGAGTAGA GGAGGAAGAG
    AAGGAAGAAG AAGAAGAGGA GGAGGAGGAA ATAAAAGAAG ATGAGGAGGA AGAAGATGAA
    TATGAGAATG AAGACGTGCT GGAGTACTAT CAAGAGACCT ATTTTATGGG TCAGGCTGAA
    AGCAGGGAAG AGTCCGATGA GATACCCTAT GAAGAGATGG AGTTCTTCAC AACTACAAGT
    GGGAACACTT ACTTTGCCTT CCTGTCTGTG GAAGATGAGC AGCAGATACA CAGTCGGCCC
    CATTCCCACC ACAATCTGCT CAACTCTTTC TGCACCAAGT ACATAGAGCA AGTGTCTATT
    CCTCAGAAAC TAATCCTGAA GGTTAAGAAA GGGCTTCGAG CTGGCTTCTT TGAACATCTT
    GAGAAATGGT TTGATCAGTG TGTCCTCAAT GCTCGTATCA TTGTGGCTTC CAAGGTTGAT
    GAACTGGATT CAGAACTGGA GCTACGGCTG CACCTTCACA AGCCAAGACT CGAGCAAGTG
    GAGAAGGATA TTCACAATGT CAGAGCAGCG GAGCTCCTGC TTCACCAAGA GAGGCTGGAC
    AGCCACTGTG CCGGTGTGAT CGAGACACTG AAGAAGGAGA GGCTCATGTT CTGTCAGTTC
    CAAGAAGAGC AAGCCGTGCG GAGCAGGAAC TTCCGCCGCA AGATCTACGA CATGGAGCAC
    ATTTTCCTGA ATGCTACCAG AAGCCAAAAG CTGGTCAGTC TCACCAAGAC ACTACACCGA
    GAGCTGCTCA GCTACGTGGA TGTCATCCAG GTGTCCCTGC GAAGCTTCCG GCAGTACCTG
    GAAGAGAGTC TGGGCAAGCT GCGCTATACC AACATTGACT TTGTCAAGCA CTGCAGATTG
    TTCTCAGAGG GTGGCAACTT TTCCCCTGAA GAAGTTGAGA CGCTGTGCCA CCGACTGGAG
    AAGGAGGCTA CCCGGATTGA GTTCGTTGAA AGTTTAATTA TGATCCACAT GGAAAAGATG
    GAGACAGAGT ACCTGGACCA GGCCAACGAT GTCATCAACA AATTCGAGAG TAAATTCCAT
    AACCTATCTT CAGACCTTAT TTTCGTAGAG AAAATCCAGC GGCTGATGAC AAATCTTCAA
    GTGAATATCA AGTGTCAGGA GGCAAAGTCC AATTCCCAGG CGGAAGGATT AAATTCTTCT
    CTGGAACAGC TTCAGCAGAA GATACAAACG TGTCAAGACC ACCGGGGAGA TAAGGATATA
    GTGACCACAG ACGATCTCCT TGCCTTTGTC CGATCCTGGA AAGAAAAACT GAGCCAGAGG
    ATTAAGTACC TCAACTGTAG CCTGGATATG GTGTCTATCA CTCAGGAGGT CTTTACGGAC
    ACCATCCTGG CTGACACTGA AGTGGAGAGT GACATGCATA TGAGTATGGA GGCCCTTGAG
    GAGGACGTCA AGGTGGGCCT TGTCACCCCT GAGTCCTTTG CCCAACCAAC CCGCATGGGG
    AGGCCCATGA TTGAAGACCC CGCTGTGGAT GTGGTCAGAA GGATCCTTCA AATTTCTCAG
    GCAAAATCAA CATGCCCGTG TGACAAGGAT CGCTCCCAAA CAGCCTTGAA GAGAAGGTAC
    CGGGCAGAGA AGGCCTTAAA GAAGGCCTTG GCCAGCGCCA GTGTCACCTC AGCAGGGAGC
    ATGACACGAC ATCCCAAGTA CATCAGAGTT GACAAAAAGT ACCAGGTGCT TGGGGAAAAG
    CCTACTTCCC AGGCTGAGGA TTTTAAAGGC ATCATCCTGA ATCTCCTGTG GGAGAGCAAT
    GAGCACCTGA TGGTCGTGGT GGAGGATTTT TACCGTAAAG AGAAACGCCC AGTCACAAGG
    CCTGAATGCA TGTATGAGAG CTTTGACCAG TGCGCCGACC ACATCAGCAG GAAGATCCTA
    GAATATCACC GTCAGGCGGA CGAGTACCAC AACTCCTGCC TTCTGGGATG A

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

    CloneID OMu81043
    Clone ID Related Accession (Same CDS sequence) XM_017320289.1
    Accession Version XM_017320289.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3912bp)
    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 2019-08-07
    Organism Mus musculus(house mouse)
    Product coiled-coil domain-containing protein 180 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000070.6) 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 Name :: Mus musculus Annotation Release 108 Annotation Version :: 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCGGGAGC CTCCAGGCTT GGAACGAAGA GGAATTGGGC CAGCAGTCAA GATGTCGCCA 
    GTGGGAAAGG TGTCCCAAGT ACAGAATGGC AAAGTCTACC AGCAGATCTT CCAGGCCCAG
    GTGCAGCTGG TTCAGTCTCT GGCAGCTACC AGGAAGCAGG CTGCAGAGCG TTCTGAGACT
    CAAAAGAATG TCAAGACACC CATGATGAAG AAGGTGCCAT TACCTGAGGG GGAAACTATG
    ACCCCTCGCC AGAGGAAGTG GGTGCGTAGC CTCCCCAACG ACTGGGTCAC GGAAAACCCA
    GTTCTTTATA GGGAAAAAGA AGAAGCCAGG AAGGAGAAGG AGCGTCTGAC AGATGACATG
    ATTGCTTCTC AAGAGGTGCA GGGCCTCATG GACAACATAG TTCCACAGCT CACAGAGAGG
    GTGAGCAACC TCCAGGAACA AGAGGAATTC AAGAAGAGGA AGTACCTGAG CGCACTGGCG
    AGCTTTCAGG AGGAGTTGGA GCAGATTGGG GTGGAGATGG AACCTCTCAT CCTGGAGAAA
    GGGGATCTTC TTTTGAGAAA GATCTCGAAG TCCGATGAGG ACGTTGACAT GCTCTTCAAG
    AAAGTCGAAG GGGAGCCGGA CCTCGAAAGC CACACTATTG AAACCCTGTT GGAACTGTGG
    GAAAAAGTGG CTGAAAGATT CATGCAGCAG AAGCAGGAGA TTAAGGAGCT GGACGAGGAG
    CTGTTGGCCC TGGAGGTCTC TCGAGCCGAC AAGCTAAAGG AAGTGCTGAA GAGATATGTC
    GGCATCATAG AGAAAACCTC CTATATCCTG CAGCCCGATG TGTATAGGCT GATAGATAAA
    GAAGCTATGG CCATGAACCA GGCTCTCCTG GGCAACCGGA GGGCCATCGC CCAGCTGTTA
    GTCAACCTGA CTGAGTCAAC CCTACAGCAG GAGCTTGACA ACCGCCACCG CTGGCAGGGG
    CTGGTGGATA CCTGGAAGGC TCTCAAGAAG GAGGCCCTGA TACAGAGCTT CAGTGAGTTC
    ATGGCTAGCG AGGAGATCCA GGAGCCCCCA GAAGTGAAGA AGAAGCTTGA AGAAATGCAG
    AAAAACCAGG AGATGCTTCA GAGTGTGAGG CTCGATCACC TCTGCACCCT CTGTGACCTC
    CTCCCCCCTA ACTATAACAA AACCCAGTTG ACTGAATGGT ATGATTCTCT CACTTCCCTC
    AACAAGCAGC TCGACACCTA CCACATGGAC TGCATGTCGC TGGTCCACTT CCTGTATGAG
    AAGATTTGGC AGCAGTGCCT GTCCCACGTG CAGGAATGCA AGCAGCAGCT GCTGAACTGG
    AAAGCTTTCT CTGAAGCAGA GGCAGAGAGC CTAGTAAATC CAACCTTCTT CCTGATGGTG
    GGGGAGTTCC AGAGCAAGGT GGAGAAGCAG CTGGAGCTCC TGGATAACTC CTTTGAGGAT
    TTGGCCAGGG AGACAGAATG GCAGAGCTCG GACCTCTTCA GGTACTTCCA GGAGGCTGTG
    AAGCTGTGGG AGGGGCACCA AAGTGTTCTG ATGACACAAG AGCTGGAGCT GGAGAAGAGG
    ATAGAACAGC ATCGGCAGAA ACACAACCAG GAGAACCAGA ACCAGGAGAC CCTCCTTGAT
    AAGCTTCTCG ACCAACTGAG ACAGCAAAGC CAAGAGGAGT CGCTGAAAGC CCACATGGAA
    AAGGCCAGGA CTTTTCTGAA GAACATGAAG TCCAGGTACG AATGTTTTCA CCTCTTGCTG
    ACCAAAGAAG TGATGGAGTA CCCGGGGTTA GTGCTGAAAG AACTCAACTG CTATAGCTTC
    ACCCTCAGCC GACACTTCTT CATTCGTGAA ATCTTTGAGC AGAACTTGTC TGGGGAAGTG
    ATTTTTAAAT TCAGGCAACC AGAAACCCAC GAGAAACTCT TCATACAGAA AATAAGGAAA
    ATGAAGAAAA AACAAAGGAA GAGAAAAGGT GAAGAAAGCA TAGGGCAAGA CCTGGGTTCT
    GAGAAGCCCA CAGAAAGCAT GAAAGAAGAG GGAAGTGGGG AATCAGAGCC CAGCACTGCT
    GGAGAGGCAC TGAACCAGGA GAACAAGTCC CCGCAGAGTG ACAGGGTGAG TGAGCCCAGA
    GACGGGCCTT CCCAAGAAGC TGAAGAGACG CTGGGCGTGA GAGAGACCTC CTCAGAGACA
    TCCCAGGACC GAGAAAATCT CAAGGTTCAA GAAGAGAAGG AAGAGATAGA AGAAGAGGAG
    GAAGAGGAGG AGGAAGAGGA GGAGGAGGAA ATAAAAGAGG AGAGAGTAGA GGAGGAAGAG
    AAGGAAGAAG AAGAAGAGGA GGAGGAGGAA ATAAAAGAAG ATGAGGAGGA AGAAGATGAA
    TATGAGAATG AAGACGTGCT GGAGTACTAT CAAGAGACCT ATTTTATGGG TCAGGCTGAA
    AGCAGGGAAG AGTCCGATGA GATACCCTAT GAAGAGATGG AGTTCTTCAC AACTACAAGT
    GGGAACACTT ACTTTGCCTT CCTGTCTGTG GAAGATGAGC AGCAGATACA CAGTCGGCCC
    CATTCCCACC ACAATCTGCT CAACTCTTTC TGCACCAAGT ACATAGAGCA AGTGTCTATT
    CCTCAGAAAC TAATCCTGAA GGTTAAGAAA GGGCTTCGAG CTGGCTTCTT TGAACATCTT
    GAGAAATGGT TTGATCAGTG TGTCCTCAAT GCTCGTATCA TTGTGGCTTC CAAGGTTGAT
    GAACTGGATT CAGAACTGGA GCTACGGCTG CACCTTCACA AGCCAAGACT CGAGCAAGTG
    GAGAAGGATA TTCACAATGT CAGAGCAGCG GAGCTCCTGC TTCACCAAGA GAGGCTGGAC
    AGCCACTGTG CCGGTGTGAT CGAGACACTG AAGAAGGAGA GGCTCATGTT CTGTCAGTTC
    CAAGAAGAGC AAGCCGTGCG GAGCAGGAAC TTCCGCCGCA AGATCTACGA CATGGAGCAC
    ATTTTCCTGA ATGCTACCAG AAGCCAAAAG CTGGTCAGTC TCACCAAGAC ACTACACCGA
    GAGCTGCTCA GCTACGTGGA TGTCATCCAG GTGTCCCTGC GAAGCTTCCG GCAGTACCTG
    GAAGAGAGTC TGGGCAAGCT GCGCTATACC AACATTGACT TTGTCAAGCA CTGCAGATTG
    TTCTCAGAGG GTGGCAACTT TTCCCCTGAA GAAGTTGAGA CGCTGTGCCA CCGACTGGAG
    AAGGAGGCTA CCCGGATTGA GTTCGTTGAA AGTTTAATTA TGATCCACAT GGAAAAGATG
    GAGACAGAGT ACCTGGACCA GGCCAACGAT GTCATCAACA AATTCGAGAG TAAATTCCAT
    AACCTATCTT CAGACCTTAT TTTCGTAGAG AAAATCCAGC GGCTGATGAC AAATCTTCAA
    GTGAATATCA AGTGTCAGGA GGCAAAGTCC AATTCCCAGG CGGAAGGATT AAATTCTTCT
    CTGGAACAGC TTCAGCAGAA GATACAAACG TGTCAAGACC ACCGGGGAGA TAAGGATATA
    GTGACCACAG ACGATCTCCT TGCCTTTGTC CGATCCTGGA AAGAAAAACT GAGCCAGAGG
    ATTAAGTACC TCAACTGTAG CCTGGATATG GTGTCTATCA CTCAGGAGGT CTTTACGGAC
    ACCATCCTGG CTGACACTGA AGTGGAGAGT GACATGCATA TGAGTATGGA GGCCCTTGAG
    GAGGACGTCA AGGTGGGCCT TGTCACCCCT GAGTCCTTTG CCCAACCAAC CCGCATGGGG
    AGGCCCATGA TTGAAGACCC CGCTGTGGAT GTGGTCAGAA GGATCCTTCA AATTTCTCAG
    GCAAAATCAA CATGCCCGTG TGACAAGGAT CGCTCCCAAA CAGCCTTGAA GAGAAGGTAC
    CGGGCAGAGA AGGCCTTAAA GAAGGCCTTG GCCAGCGCCA GTGTCACCTC AGCAGGGAGT
    TGCATCTTTT AA

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

    RefSeq XP_017175778.1
    CDS64..3975
    Translation

    Target ORF information:

    RefSeq Version XM_017320289.1
    Organism Mus musculus(house mouse)
    Definition Mus musculus coiled-coil domain containing 180 (Ccdc180), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017320289.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCGGGAGC CTCCAGGCTT GGAACGAAGA GGAATTGGGC CAGCAGTCAA GATGTCGCCA 
    GTGGGAAAGG TGTCCCAAGT ACAGAATGGC AAAGTCTACC AGCAGATCTT CCAGGCCCAG
    GTGCAGCTGG TTCAGTCTCT GGCAGCTACC AGGAAGCAGG CTGCAGAGCG TTCTGAGACT
    CAAAAGAATG TCAAGACACC CATGATGAAG AAGGTGCCAT TACCTGAGGG GGAAACTATG
    ACCCCTCGCC AGAGGAAGTG GGTGCGTAGC CTCCCCAACG ACTGGGTCAC GGAAAACCCA
    GTTCTTTATA GGGAAAAAGA AGAAGCCAGG AAGGAGAAGG AGCGTCTGAC AGATGACATG
    ATTGCTTCTC AAGAGGTGCA GGGCCTCATG GACAACATAG TTCCACAGCT CACAGAGAGG
    GTGAGCAACC TCCAGGAACA AGAGGAATTC AAGAAGAGGA AGTACCTGAG CGCACTGGCG
    AGCTTTCAGG AGGAGTTGGA GCAGATTGGG GTGGAGATGG AACCTCTCAT CCTGGAGAAA
    GGGGATCTTC TTTTGAGAAA GATCTCGAAG TCCGATGAGG ACGTTGACAT GCTCTTCAAG
    AAAGTCGAAG GGGAGCCGGA CCTCGAAAGC CACACTATTG AAACCCTGTT GGAACTGTGG
    GAAAAAGTGG CTGAAAGATT CATGCAGCAG AAGCAGGAGA TTAAGGAGCT GGACGAGGAG
    CTGTTGGCCC TGGAGGTCTC TCGAGCCGAC AAGCTAAAGG AAGTGCTGAA GAGATATGTC
    GGCATCATAG AGAAAACCTC CTATATCCTG CAGCCCGATG TGTATAGGCT GATAGATAAA
    GAAGCTATGG CCATGAACCA GGCTCTCCTG GGCAACCGGA GGGCCATCGC CCAGCTGTTA
    GTCAACCTGA CTGAGTCAAC CCTACAGCAG GAGCTTGACA ACCGCCACCG CTGGCAGGGG
    CTGGTGGATA CCTGGAAGGC TCTCAAGAAG GAGGCCCTGA TACAGAGCTT CAGTGAGTTC
    ATGGCTAGCG AGGAGATCCA GGAGCCCCCA GAAGTGAAGA AGAAGCTTGA AGAAATGCAG
    AAAAACCAGG AGATGCTTCA GAGTGTGAGG CTCGATCACC TCTGCACCCT CTGTGACCTC
    CTCCCCCCTA ACTATAACAA AACCCAGTTG ACTGAATGGT ATGATTCTCT CACTTCCCTC
    AACAAGCAGC TCGACACCTA CCACATGGAC TGCATGTCGC TGGTCCACTT CCTGTATGAG
    AAGATTTGGC AGCAGTGCCT GTCCCACGTG CAGGAATGCA AGCAGCAGCT GCTGAACTGG
    AAAGCTTTCT CTGAAGCAGA GGCAGAGAGC CTAGTAAATC CAACCTTCTT CCTGATGGTG
    GGGGAGTTCC AGAGCAAGGT GGAGAAGCAG CTGGAGCTCC TGGATAACTC CTTTGAGGAT
    TTGGCCAGGG AGACAGAATG GCAGAGCTCG GACCTCTTCA GGTACTTCCA GGAGGCTGTG
    AAGCTGTGGG AGGGGCACCA AAGTGTTCTG ATGACACAAG AGCTGGAGCT GGAGAAGAGG
    ATAGAACAGC ATCGGCAGAA ACACAACCAG GAGAACCAGA ACCAGGAGAC CCTCCTTGAT
    AAGCTTCTCG ACCAACTGAG ACAGCAAAGC CAAGAGGAGT CGCTGAAAGC CCACATGGAA
    AAGGCCAGGA CTTTTCTGAA GAACATGAAG TCCAGGTACG AATGTTTTCA CCTCTTGCTG
    ACCAAAGAAG TGATGGAGTA CCCGGGGTTA GTGCTGAAAG AACTCAACTG CTATAGCTTC
    ACCCTCAGCC GACACTTCTT CATTCGTGAA ATCTTTGAGC AGAACTTGTC TGGGGAAGTG
    ATTTTTAAAT TCAGGCAACC AGAAACCCAC GAGAAACTCT TCATACAGAA AATAAGGAAA
    ATGAAGAAAA AACAAAGGAA GAGAAAAGGT GAAGAAAGCA TAGGGCAAGA CCTGGGTTCT
    GAGAAGCCCA CAGAAAGCAT GAAAGAAGAG GGAAGTGGGG AATCAGAGCC CAGCACTGCT
    GGAGAGGCAC TGAACCAGGA GAACAAGTCC CCGCAGAGTG ACAGGGTGAG TGAGCCCAGA
    GACGGGCCTT CCCAAGAAGC TGAAGAGACG CTGGGCGTGA GAGAGACCTC CTCAGAGACA
    TCCCAGGACC GAGAAAATCT CAAGGTTCAA GAAGAGAAGG AAGAGATAGA AGAAGAGGAG
    GAAGAGGAGG AGGAAGAGGA GGAGGAGGAA ATAAAAGAGG AGAGAGTAGA GGAGGAAGAG
    AAGGAAGAAG AAGAAGAGGA GGAGGAGGAA ATAAAAGAAG ATGAGGAGGA AGAAGATGAA
    TATGAGAATG AAGACGTGCT GGAGTACTAT CAAGAGACCT ATTTTATGGG TCAGGCTGAA
    AGCAGGGAAG AGTCCGATGA GATACCCTAT GAAGAGATGG AGTTCTTCAC AACTACAAGT
    GGGAACACTT ACTTTGCCTT CCTGTCTGTG GAAGATGAGC AGCAGATACA CAGTCGGCCC
    CATTCCCACC ACAATCTGCT CAACTCTTTC TGCACCAAGT ACATAGAGCA AGTGTCTATT
    CCTCAGAAAC TAATCCTGAA GGTTAAGAAA GGGCTTCGAG CTGGCTTCTT TGAACATCTT
    GAGAAATGGT TTGATCAGTG TGTCCTCAAT GCTCGTATCA TTGTGGCTTC CAAGGTTGAT
    GAACTGGATT CAGAACTGGA GCTACGGCTG CACCTTCACA AGCCAAGACT CGAGCAAGTG
    GAGAAGGATA TTCACAATGT CAGAGCAGCG GAGCTCCTGC TTCACCAAGA GAGGCTGGAC
    AGCCACTGTG CCGGTGTGAT CGAGACACTG AAGAAGGAGA GGCTCATGTT CTGTCAGTTC
    CAAGAAGAGC AAGCCGTGCG GAGCAGGAAC TTCCGCCGCA AGATCTACGA CATGGAGCAC
    ATTTTCCTGA ATGCTACCAG AAGCCAAAAG CTGGTCAGTC TCACCAAGAC ACTACACCGA
    GAGCTGCTCA GCTACGTGGA TGTCATCCAG GTGTCCCTGC GAAGCTTCCG GCAGTACCTG
    GAAGAGAGTC TGGGCAAGCT GCGCTATACC AACATTGACT TTGTCAAGCA CTGCAGATTG
    TTCTCAGAGG GTGGCAACTT TTCCCCTGAA GAAGTTGAGA CGCTGTGCCA CCGACTGGAG
    AAGGAGGCTA CCCGGATTGA GTTCGTTGAA AGTTTAATTA TGATCCACAT GGAAAAGATG
    GAGACAGAGT ACCTGGACCA GGCCAACGAT GTCATCAACA AATTCGAGAG TAAATTCCAT
    AACCTATCTT CAGACCTTAT TTTCGTAGAG AAAATCCAGC GGCTGATGAC AAATCTTCAA
    GTGAATATCA AGTGTCAGGA GGCAAAGTCC AATTCCCAGG CGGAAGGATT AAATTCTTCT
    CTGGAACAGC TTCAGCAGAA GATACAAACG TGTCAAGACC ACCGGGGAGA TAAGGATATA
    GTGACCACAG ACGATCTCCT TGCCTTTGTC CGATCCTGGA AAGAAAAACT GAGCCAGAGG
    ATTAAGTACC TCAACTGTAG CCTGGATATG GTGTCTATCA CTCAGGAGGT CTTTACGGAC
    ACCATCCTGG CTGACACTGA AGTGGAGAGT GACATGCATA TGAGTATGGA GGCCCTTGAG
    GAGGACGTCA AGGTGGGCCT TGTCACCCCT GAGTCCTTTG CCCAACCAAC CCGCATGGGG
    AGGCCCATGA TTGAAGACCC CGCTGTGGAT GTGGTCAGAA GGATCCTTCA AATTTCTCAG
    GCAAAATCAA CATGCCCGTG TGACAAGGAT CGCTCCCAAA CAGCCTTGAA GAGAAGGTAC
    CGGGCAGAGA AGGCCTTAAA GAAGGCCTTG GCCAGCGCCA GTGTCACCTC AGCAGGGAGT
    TGCATCTTTT AA

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

    CloneID OMu81044
    Clone ID Related Accession (Same CDS sequence) XM_017320290.1
    Accession Version XM_017320290.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3480bp)
    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 2019-08-07
    Organism Mus musculus(house mouse)
    Product coiled-coil domain-containing protein 180 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000070.6) 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 Name :: Mus musculus Annotation Release 108 Annotation Version :: 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    ATGCGGGAGC CTCCAGGCTT GGAACGAAGA GGAATTGGGC CAGCAGTCAA GATGTCGCCA 
    GTGGGAAAGG TGTCCCAAGT ACAGAATGGC AAAGTCTACC AGCAGATCTT CCAGGCCCAG
    GTGCAGCTGG TTCAGTCTCT GGCAGCTACC AGGAAGCAGG CTGCAGAGCG TTCTGAGACT
    CAAAAGAATG TCAAGACACC CATGATGAAG AAGGTGCCAT TACCTGAGGG GGAAACTATG
    ACCCCTCGCC AGAGGAAGTG GGTGCGTAGC CTCCCCAACG ACTGGGTCAC GGAAAACCCA
    GTTCTTTATA GGGAAAAAGA AGAAGCCAGG AAGGAGAAGG AGCGTCTGAC AGATGACATG
    ATTGCTTCTC AAGAGGTGCA GGGCCTCATG GACAACATAG TTCCACAGCT CACAGAGAGG
    GTGAGCAACC TCCAGGAACA AGAGGAATTC AAGAAGAGGA AGTACCTGAG CGCACTGGCG
    AGCTTTCAGG AGGAGTTGGA GCAGATTGGG GTGGAGATGG AACCTCTCAT CCTGGAGAAA
    GGGGATCTTC TTTTGAGAAA GATCTCGAAG TCCGATGAGG ACGTTGACAT GCTCTTCAAG
    AAAGTCGAAG GGGAGCCGGA CCTCGAAAGC CACACTATTG AAACCCTGTT GGAACTGTGG
    GAAAAAGTGG CTGAAAGATT CATGCAGCAG AAGCAGGAGA TTAAGGAGCT GGACGAGGAG
    CTGTTGGCCC TGGAGGTCTC TCGAGCCGAC AAGCTAAAGG AAGTGCTGAA GAGATATGTC
    GGCATCATAG AGAAAACCTC CTATATCCTG CAGCCCGATG TGTATAGGCT GATAGATAAA
    GAAGCTATGG CCATGAACCA GGCTCTCCTG GGCAACCGGA GGGCCATCGC CCAGCTGTTA
    GTCAACCTGA CTGAGTCAAC CCTACAGCAG GAGCTTGACA ACCGCCACCG CTGGCAGGGG
    CTGGTGGATA CCTGGAAGGC TCTCAAGAAG GAGGCCCTGA TACAGAGCTT CAGTGAGTTC
    ATGGCTAGCG AGGAGATCCA GGAGCCCCCA GAAGTGAAGA AGAAGCTTGA AGAAATGCAG
    AAAAACCAGG AGATGCTTCA GAGTGTGAGG CTCGATCACC TCTGCACCCT CTGTGACCTC
    CTCCCCCCTA ACTATAACAA AACCCAGTTG ACTGAATGGT ATGATTCTCT CACTTCCCTC
    AACAAGCAGC TCGACACCTA CCACATGGAC TGCATGTCGC TGGTCCACTT CCTGTATGAG
    AAGATTTGGC AGCAGTGCCT GTCCCACGTG CAGGAATGCA AGCAGCAGCT GCTGAACTGG
    AAAGCTTTCT CTGAAGCAGA GGCAGAGAGC CTAGTAAATC CAACCTTCTT CCTGATGGTG
    GGGGAGTTCC AGAGCAAGGT GGAGAAGCAG CTGGAGCTCC TGGATAACTC CTTTGAGGAT
    TTGGCCAGGG AGACAGAATG GCAGAGCTCG GACCTCTTCA GGTACTTCCA GGAGGCTGTG
    AAGCTGTGGG AGGGGCACCA AAGTGTTCTG ATGACACAAG AGCTGGAGCT GGAGAAGAGG
    ATAGAACAGC ATCGGCAGAA ACACAACCAG GAGAACCAGA ACCAGGAGAC CCTCCTTGAT
    AAGCTTCTCG ACCAACTGAG ACAGCAAAGC CAAGAGGAGT CGCTGAAAGC CCACATGGAA
    AAGGCCAGGA CTTTTCTGAA GAACATGAAG TCCAGGTACG AATGTTTTCA CCTCTTGCTG
    ACCAAAGAAG TGATGGAGTA CCCGGGGTTA GTGCTGAAAG AACTCAACTG CTATAGCTTC
    ACCCTCAGCC GACACTTCTT CATTCGTGAA ATCTTTGAGC AGAACTTGTC TGGGGAAGTG
    ATTTTTAAAT TCAGGCAACC AGAAACCCAC GAGAAACTCT TCATACAGAA AATAAGGAAA
    ATGAAGAAAA AACAAAGGAA GAGAAAAGGT GAAGAAAGCA TAGGGCAAGA CCTGGGTTCT
    GAGAAGCCCA CAGAAAGCAT GAAAGAAGAG GGAAGTGGGG AATCAGAGCC CAGCACTGCT
    GGAGAGGCAC TGAACCAGGA GAACAAGTCC CCGCAGAGTG ACAGGGTGAG TGAGCCCAGA
    GACGGGCCTT CCCAAGAAGC TGAAGAGACG CTGGGCGTGA GAGAGACCTC CTCAGAGACA
    TCCCAGGACC GAGAAAATCT CAAGGTTCAA GAAGAGAAGG AAGAGATAGA AGAAGAGGAG
    GAAGAGGAGG AGGAAGAGGA GGAGGAGGAA ATAAAAGAGG AGAGAGTAGA GGAGGAAGAG
    AAGGAAGAAG AAGAAGAGGA GGAGGAGGAA ATAAAAGAAG ATGAGGAGGA AGAAGATGAA
    TATGAGAATG AAGACGTGCT GGAGTACTAT CAAGAGACCT ATTTTATGGG TCAGGCTGAA
    AGCAGGGAAG AGTCCGATGA GATACCCTAT GAAGAGATGG AGTTCTTCAC AACTACAAGT
    GGGAACACTT ACTTTGCCTT CCTGTCTGTG GAAGATGAGC AGCAGATACA CAGTCGGCCC
    CATTCCCACC ACAATCTGCT CAACTCTTTC TGCACCAAGT ACATAGAGCA AGTGTCTATT
    CCTCAGAAAC TAATCCTGAA GGTTAAGAAA GGGCTTCGAG CTGGCTTCTT TGAACATCTT
    GAGAAATGGT TTGATCAGTG TGTCCTCAAT GCTCGTATCA TTGTGGCTTC CAAGGTTGAT
    GAACTGGATT CAGAACTGGA GCTACGGCTG CACCTTCACA AGCCAAGACT CGAGCAAGTG
    GAGAAGGATA TTCACAATGT CAGAGCAGCG GAGCTCCTGC TTCACCAAGA GAGGCTGGAC
    AGCCACTGTG CCGGTGTGAT CGAGACACTG AAGAAGGAGA GGCTCATGTT CTGTCAGTTC
    CAAGAAGAGC AAGCCGTGCG GAGCAGGAAC TTCCGCCGCA AGATCTACGA CATGGAGCAC
    ATTTTCCTGA ATGCTACCAG AAGCCAAAAG CTGGTCAGTC TCACCAAGAC ACTACACCGA
    GAGCTGCTCA GCTACGTGGA TGTCATCCAG GTGTCCCTGC GAAGCTTCCG GCAGTACCTG
    GAAGAGAGTC TGGGCAAGCT GCGCTATACC AACATTGACT TTGTCAAGCA CTGCAGATTG
    TTCTCAGAGG GTGGCAACTT TTCCCCTGAA GAAGTTGAGA CGCTGTGCCA CCGACTGGAG
    AAGGAGGCTA CCCGGATTGA GTTCGTTGAA AGTTTAATTA TGATCCACAT GGAAAAGATG
    GAGACAGAGT ACCTGGACCA GGCCAACGAT GTCATCAACA AATTCGAGAG TAAATTCCAT
    AACCTATCTT CAGACCTTAT TTTCGTAGAG AAAATCCAGC GGCTGATGAC AAATCTTCAA
    GTGAATATCA AGTGTCAGGA GGCAAAGTCC AATTCCCAGG CGGAAGGATT AAATTCTTCT
    CTGGAACAGC TTCAGCAGAA GATACAAACG TGTCAAGACC ACCGGGGAGA TAAGGATTGA

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

    RefSeq XP_017175779.1
    CDS64..3543
    Translation

    Target ORF information:

    RefSeq Version XM_017320290.1
    Organism Mus musculus(house mouse)
    Definition Mus musculus coiled-coil domain containing 180 (Ccdc180), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017320290.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    ATGCGGGAGC CTCCAGGCTT GGAACGAAGA GGAATTGGGC CAGCAGTCAA GATGTCGCCA 
    GTGGGAAAGG TGTCCCAAGT ACAGAATGGC AAAGTCTACC AGCAGATCTT CCAGGCCCAG
    GTGCAGCTGG TTCAGTCTCT GGCAGCTACC AGGAAGCAGG CTGCAGAGCG TTCTGAGACT
    CAAAAGAATG TCAAGACACC CATGATGAAG AAGGTGCCAT TACCTGAGGG GGAAACTATG
    ACCCCTCGCC AGAGGAAGTG GGTGCGTAGC CTCCCCAACG ACTGGGTCAC GGAAAACCCA
    GTTCTTTATA GGGAAAAAGA AGAAGCCAGG AAGGAGAAGG AGCGTCTGAC AGATGACATG
    ATTGCTTCTC AAGAGGTGCA GGGCCTCATG GACAACATAG TTCCACAGCT CACAGAGAGG
    GTGAGCAACC TCCAGGAACA AGAGGAATTC AAGAAGAGGA AGTACCTGAG CGCACTGGCG
    AGCTTTCAGG AGGAGTTGGA GCAGATTGGG GTGGAGATGG AACCTCTCAT CCTGGAGAAA
    GGGGATCTTC TTTTGAGAAA GATCTCGAAG TCCGATGAGG ACGTTGACAT GCTCTTCAAG
    AAAGTCGAAG GGGAGCCGGA CCTCGAAAGC CACACTATTG AAACCCTGTT GGAACTGTGG
    GAAAAAGTGG CTGAAAGATT CATGCAGCAG AAGCAGGAGA TTAAGGAGCT GGACGAGGAG
    CTGTTGGCCC TGGAGGTCTC TCGAGCCGAC AAGCTAAAGG AAGTGCTGAA GAGATATGTC
    GGCATCATAG AGAAAACCTC CTATATCCTG CAGCCCGATG TGTATAGGCT GATAGATAAA
    GAAGCTATGG CCATGAACCA GGCTCTCCTG GGCAACCGGA GGGCCATCGC CCAGCTGTTA
    GTCAACCTGA CTGAGTCAAC CCTACAGCAG GAGCTTGACA ACCGCCACCG CTGGCAGGGG
    CTGGTGGATA CCTGGAAGGC TCTCAAGAAG GAGGCCCTGA TACAGAGCTT CAGTGAGTTC
    ATGGCTAGCG AGGAGATCCA GGAGCCCCCA GAAGTGAAGA AGAAGCTTGA AGAAATGCAG
    AAAAACCAGG AGATGCTTCA GAGTGTGAGG CTCGATCACC TCTGCACCCT CTGTGACCTC
    CTCCCCCCTA ACTATAACAA AACCCAGTTG ACTGAATGGT ATGATTCTCT CACTTCCCTC
    AACAAGCAGC TCGACACCTA CCACATGGAC TGCATGTCGC TGGTCCACTT CCTGTATGAG
    AAGATTTGGC AGCAGTGCCT GTCCCACGTG CAGGAATGCA AGCAGCAGCT GCTGAACTGG
    AAAGCTTTCT CTGAAGCAGA GGCAGAGAGC CTAGTAAATC CAACCTTCTT CCTGATGGTG
    GGGGAGTTCC AGAGCAAGGT GGAGAAGCAG CTGGAGCTCC TGGATAACTC CTTTGAGGAT
    TTGGCCAGGG AGACAGAATG GCAGAGCTCG GACCTCTTCA GGTACTTCCA GGAGGCTGTG
    AAGCTGTGGG AGGGGCACCA AAGTGTTCTG ATGACACAAG AGCTGGAGCT GGAGAAGAGG
    ATAGAACAGC ATCGGCAGAA ACACAACCAG GAGAACCAGA ACCAGGAGAC CCTCCTTGAT
    AAGCTTCTCG ACCAACTGAG ACAGCAAAGC CAAGAGGAGT CGCTGAAAGC CCACATGGAA
    AAGGCCAGGA CTTTTCTGAA GAACATGAAG TCCAGGTACG AATGTTTTCA CCTCTTGCTG
    ACCAAAGAAG TGATGGAGTA CCCGGGGTTA GTGCTGAAAG AACTCAACTG CTATAGCTTC
    ACCCTCAGCC GACACTTCTT CATTCGTGAA ATCTTTGAGC AGAACTTGTC TGGGGAAGTG
    ATTTTTAAAT TCAGGCAACC AGAAACCCAC GAGAAACTCT TCATACAGAA AATAAGGAAA
    ATGAAGAAAA AACAAAGGAA GAGAAAAGGT GAAGAAAGCA TAGGGCAAGA CCTGGGTTCT
    GAGAAGCCCA CAGAAAGCAT GAAAGAAGAG GGAAGTGGGG AATCAGAGCC CAGCACTGCT
    GGAGAGGCAC TGAACCAGGA GAACAAGTCC CCGCAGAGTG ACAGGGTGAG TGAGCCCAGA
    GACGGGCCTT CCCAAGAAGC TGAAGAGACG CTGGGCGTGA GAGAGACCTC CTCAGAGACA
    TCCCAGGACC GAGAAAATCT CAAGGTTCAA GAAGAGAAGG AAGAGATAGA AGAAGAGGAG
    GAAGAGGAGG AGGAAGAGGA GGAGGAGGAA ATAAAAGAGG AGAGAGTAGA GGAGGAAGAG
    AAGGAAGAAG AAGAAGAGGA GGAGGAGGAA ATAAAAGAAG ATGAGGAGGA AGAAGATGAA
    TATGAGAATG AAGACGTGCT GGAGTACTAT CAAGAGACCT ATTTTATGGG TCAGGCTGAA
    AGCAGGGAAG AGTCCGATGA GATACCCTAT GAAGAGATGG AGTTCTTCAC AACTACAAGT
    GGGAACACTT ACTTTGCCTT CCTGTCTGTG GAAGATGAGC AGCAGATACA CAGTCGGCCC
    CATTCCCACC ACAATCTGCT CAACTCTTTC TGCACCAAGT ACATAGAGCA AGTGTCTATT
    CCTCAGAAAC TAATCCTGAA GGTTAAGAAA GGGCTTCGAG CTGGCTTCTT TGAACATCTT
    GAGAAATGGT TTGATCAGTG TGTCCTCAAT GCTCGTATCA TTGTGGCTTC CAAGGTTGAT
    GAACTGGATT CAGAACTGGA GCTACGGCTG CACCTTCACA AGCCAAGACT CGAGCAAGTG
    GAGAAGGATA TTCACAATGT CAGAGCAGCG GAGCTCCTGC TTCACCAAGA GAGGCTGGAC
    AGCCACTGTG CCGGTGTGAT CGAGACACTG AAGAAGGAGA GGCTCATGTT CTGTCAGTTC
    CAAGAAGAGC AAGCCGTGCG GAGCAGGAAC TTCCGCCGCA AGATCTACGA CATGGAGCAC
    ATTTTCCTGA ATGCTACCAG AAGCCAAAAG CTGGTCAGTC TCACCAAGAC ACTACACCGA
    GAGCTGCTCA GCTACGTGGA TGTCATCCAG GTGTCCCTGC GAAGCTTCCG GCAGTACCTG
    GAAGAGAGTC TGGGCAAGCT GCGCTATACC AACATTGACT TTGTCAAGCA CTGCAGATTG
    TTCTCAGAGG GTGGCAACTT TTCCCCTGAA GAAGTTGAGA CGCTGTGCCA CCGACTGGAG
    AAGGAGGCTA CCCGGATTGA GTTCGTTGAA AGTTTAATTA TGATCCACAT GGAAAAGATG
    GAGACAGAGT ACCTGGACCA GGCCAACGAT GTCATCAACA AATTCGAGAG TAAATTCCAT
    AACCTATCTT CAGACCTTAT TTTCGTAGAG AAAATCCAGC GGCTGATGAC AAATCTTCAA
    GTGAATATCA AGTGTCAGGA GGCAAAGTCC AATTCCCAGG CGGAAGGATT AAATTCTTCT
    CTGGAACAGC TTCAGCAGAA GATACAAACG TGTCAAGACC ACCGGGGAGA TAAGGATTGA

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

    CloneID OMu81045
    Clone ID Related Accession (Same CDS sequence) XM_017320291.1
    Accession Version XM_017320291.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3279bp)
    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 2019-08-07
    Organism Mus musculus(house mouse)
    Product coiled-coil domain-containing protein 180 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000070.6) 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 Name :: Mus musculus Annotation Release 108 Annotation Version :: 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    ATGCGGGAGC CTCCAGGCTT GGAACGAAGA GGAATTGGGC CAGCAGTCAA GATGTCGCCA 
    GTGGGAAAGG TGTCCCAAGT ACAGAATGGC AAAGTCTACC AGCAGATCTT CCAGGCCCAG
    GTGCAGCTGG TTCAGTCTCT GGCAGCTACC AGGAAGCAGG CTGCAGAGCG TTCTGAGACT
    CAAAAGAATG TCAAGACACC CATGATGAAG AAGGTGCCAT TACCTGAGGG GGAAACTATG
    ACCCCTCGCC AGAGGAAGTG GGTGCGTAGC CTCCCCAACG ACTGGGTCAC GGAAAACCCA
    GTTCTTTATA GGGAAAAAGA AGAAGCCAGG AAGGAGAAGG AGCGTCTGAC AGATGACATG
    ATTGCTTCTC AAGAGGTGCA GGGCCTCATG GACAACATAG TTCCACAGCT CACAGAGAGG
    GTGAGCAACC TCCAGGAACA AGAGGAATTC AAGAAGAGGA AGTACCTGAG CGCACTGGCG
    AGCTTTCAGG AGGAGTTGGA GCAGATTGGG GTGGAGATGG AACCTCTCAT CCTGGAGAAA
    GGGGATCTTC TTTTGAGAAA GATCTCGAAG TCCGATGAGG ACGTTGACAT GCTCTTCAAG
    AAAGTCGAAG GGGAGCCGGA CCTCGAAAGC CACACTATTG AAACCCTGTT GGAACTGTGG
    GAAAAAGTGG CTGAAAGATT CATGCAGCAG AAGCAGGAGA TTAAGGAGCT GGACGAGGAG
    CTGTTGGCCC TGGAGGTCTC TCGAGCCGAC AAGCTAAAGG AAGTGCTGAA GAGATATGTC
    GGCATCATAG AGAAAACCTC CTATATCCTG CAGCCCGATG TGTATAGGCT GATAGATAAA
    GAAGCTATGG CCATGAACCA GGCTCTCCTG GGCAACCGGA GGGCCATCGC CCAGCTGTTA
    GTCAACCTGA CTGAGTCAAC CCTACAGCAG GAGCTTGACA ACCGCCACCG CTGGCAGGGG
    CTGGTGGATA CCTGGAAGGC TCTCAAGAAG GAGGCCCTGA TACAGAGCTT CAGTGAGTTC
    ATGGCTAGCG AGGAGATCCA GGAGCCCCCA GAAGTGAAGA AGAAGCTTGA AGAAATGCAG
    AAAAACCAGG AGATGCTTCA GAGTGTGAGG CTCGATCACC TCTGCACCCT CTGTGACCTC
    CTCCCCCCTA ACTATAACAA AACCCAGTTG ACTGAATGGT ATGATTCTCT CACTTCCCTC
    AACAAGCAGC TCGACACCTA CCACATGGAC TGCATGTCGC TGGTCCACTT CCTGTATGAG
    AAGATTTGGC AGCAGTGCCT GTCCCACGTG CAGGAATGCA AGCAGCAGCT GCTGAACTGG
    AAAGCTTTCT CTGAAGCAGA GGCAGAGAGC CTAGTAAATC CAACCTTCTT CCTGATGGTG
    GGGGAGTTCC AGAGCAAGGT GGAGAAGCAG CTGGAGCTCC TGGATAACTC CTTTGAGGAT
    TTGGCCAGGG AGACAGAATG GCAGAGCTCG GACCTCTTCA GGTACTTCCA GGAGGCTGTG
    AAGCTGTGGG AGGGGCACCA AAGTGTTCTG ATGACACAAG AGCTGGAGCT GGAGAAGAGG
    ATAGAACAGC ATCGGCAGAA ACACAACCAG GAGAACCAGA ACCAGGAGAC CCTCCTTGAT
    AAGCTTCTCG ACCAACTGAG ACAGCAAAGC CAAGAGGAGT CGCTGAAAGC CCACATGGAA
    AAGGCCAGGA CTTTTCTGAA GAACATGAAG TCCAGGTACG AATGTTTTCA CCTCTTGCTG
    ACCAAAGAAG TGATGGAGTA CCCGGGGTTA GTGCTGAAAG AACTCAACTG CTATAGCTTC
    ACCCTCAGCC GACACTTCTT CATTCGTGAA ATCTTTGAGC AGAACTTGTC TGGGGAAGTG
    ATTTTTAAAT TCAGGCAACC AGAAACCCAC GAGAAACTCT TCATACAGAA AATAAGGAAA
    ATGAAGAAAA AACAAAGGAA GAGAAAAGGT GAAGAAAGCA TAGGGCAAGA CCTGGGTTCT
    GAGAAGCCCA CAGAAAGCAT GAAAGAAGAG GGAAGTGGGG AATCAGAGCC CAGCACTGCT
    GGAGAGGCAC TGAACCAGGA GAACAAGTCC CCGCAGAGTG ACAGGGTGAG TGAGCCCAGA
    GACGGGCCTT CCCAAGAAGC TGAAGAGACG CTGGGCGTGA GAGAGACCTC CTCAGAGACA
    TCCCAGGACC GAGAAAATCT CAAGGTTCAA GAAGAGAAGG AAGAGATAGA AGAAGAGGAG
    GAAGAGGAGG AGGAAGAGGA GGAGGAGGAA ATAAAAGAGG AGAGAGTAGA GGAGGAAGAG
    AAGGAAGAAG AAGAAGAGGA GGAGGAGGAA ATAAAAGAAG ATGAGGAGGA AGAAGATGAA
    TATGAGAATG AAGACGTGCT GGAGTACTAT CAAGAGACCT ATTTTATGGG TCAGGCTGAA
    AGCAGGGAAG AGTCCGATGA GATACCCTAT GAAGAGATGG AGTTCTTCAC AACTACAAGT
    GGGAACACTT ACTTTGCCTT CCTGTCTGTG GAAGATGAGC AGCAGATACA CAGTCGGCCC
    CATTCCCACC ACAATCTGCT CAACTCTTTC TGCACCAAGT ACATAGAGCA AGTGTCTATT
    CCTCAGAAAC TAATCCTGAA GGTTAAGAAA GGGCTTCGAG CTGGCTTCTT TGAACATCTT
    GAGAAATGGT TTGATCAGTG TGTCCTCAAT GCTCGTATCA TTGTGGCTTC CAAGGTTGAT
    GAACTGGATT CAGAACTGGA GCTACGGCTG CACCTTCACA AGCCAAGACT CGAGCAAGTG
    GAGAAGGATA TTCACAATGT CAGAGCAGCG GAGCTCCTGC TTCACCAAGA GAGGCTGGAC
    AGCCACTGTG CCGGTGTGAT CGAGACACTG AAGAAGGAGA GGCTCATGTT CTGTCAGTTC
    CAAGAAGAGC AAGCCGTGCG GAGCAGGAAC TTCCGCCGCA AGATCTACGA CATGGAGCAC
    ATTTTCCTGA ATGCTACCAG AAGCCAAAAG CTGGTCAGTC TCACCAAGAC ACTACACCGA
    GAGCTGCTCA GCTACGTGGA TGTCATCCAG GTGTCCCTGC GAAGCTTCCG GCAGTACCTG
    GAAGAGAGTC TGGGCAAGCT GCGCTATACC AACATTGACT TTGTCAAGCA CTGCAGATTG
    TTCTCAGAGG GTGGCAACTT TTCCCCTGAA GAAGTTGAGA CGCTGTGCCA CCGACTGGAG
    AAGGAGGCTA CCCGGATTGA GTTCGTTGAA AGTTTAATTA TGATCCACAT GGAAAAGATG
    GAGACAGAGT ACCTGGACCA GAGAAAATCC AGCGGCTGA

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

    RefSeq XP_017175780.1
    CDS64..3342
    Translation

    Target ORF information:

    RefSeq Version XM_017320291.1
    Organism Mus musculus(house mouse)
    Definition Mus musculus coiled-coil domain containing 180 (Ccdc180), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017320291.1

    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
    ATGCGGGAGC CTCCAGGCTT GGAACGAAGA GGAATTGGGC CAGCAGTCAA GATGTCGCCA 
    GTGGGAAAGG TGTCCCAAGT ACAGAATGGC AAAGTCTACC AGCAGATCTT CCAGGCCCAG
    GTGCAGCTGG TTCAGTCTCT GGCAGCTACC AGGAAGCAGG CTGCAGAGCG TTCTGAGACT
    CAAAAGAATG TCAAGACACC CATGATGAAG AAGGTGCCAT TACCTGAGGG GGAAACTATG
    ACCCCTCGCC AGAGGAAGTG GGTGCGTAGC CTCCCCAACG ACTGGGTCAC GGAAAACCCA
    GTTCTTTATA GGGAAAAAGA AGAAGCCAGG AAGGAGAAGG AGCGTCTGAC AGATGACATG
    ATTGCTTCTC AAGAGGTGCA GGGCCTCATG GACAACATAG TTCCACAGCT CACAGAGAGG
    GTGAGCAACC TCCAGGAACA AGAGGAATTC AAGAAGAGGA AGTACCTGAG CGCACTGGCG
    AGCTTTCAGG AGGAGTTGGA GCAGATTGGG GTGGAGATGG AACCTCTCAT CCTGGAGAAA
    GGGGATCTTC TTTTGAGAAA GATCTCGAAG TCCGATGAGG ACGTTGACAT GCTCTTCAAG
    AAAGTCGAAG GGGAGCCGGA CCTCGAAAGC CACACTATTG AAACCCTGTT GGAACTGTGG
    GAAAAAGTGG CTGAAAGATT CATGCAGCAG AAGCAGGAGA TTAAGGAGCT GGACGAGGAG
    CTGTTGGCCC TGGAGGTCTC TCGAGCCGAC AAGCTAAAGG AAGTGCTGAA GAGATATGTC
    GGCATCATAG AGAAAACCTC CTATATCCTG CAGCCCGATG TGTATAGGCT GATAGATAAA
    GAAGCTATGG CCATGAACCA GGCTCTCCTG GGCAACCGGA GGGCCATCGC CCAGCTGTTA
    GTCAACCTGA CTGAGTCAAC CCTACAGCAG GAGCTTGACA ACCGCCACCG CTGGCAGGGG
    CTGGTGGATA CCTGGAAGGC TCTCAAGAAG GAGGCCCTGA TACAGAGCTT CAGTGAGTTC
    ATGGCTAGCG AGGAGATCCA GGAGCCCCCA GAAGTGAAGA AGAAGCTTGA AGAAATGCAG
    AAAAACCAGG AGATGCTTCA GAGTGTGAGG CTCGATCACC TCTGCACCCT CTGTGACCTC
    CTCCCCCCTA ACTATAACAA AACCCAGTTG ACTGAATGGT ATGATTCTCT CACTTCCCTC
    AACAAGCAGC TCGACACCTA CCACATGGAC TGCATGTCGC TGGTCCACTT CCTGTATGAG
    AAGATTTGGC AGCAGTGCCT GTCCCACGTG CAGGAATGCA AGCAGCAGCT GCTGAACTGG
    AAAGCTTTCT CTGAAGCAGA GGCAGAGAGC CTAGTAAATC CAACCTTCTT CCTGATGGTG
    GGGGAGTTCC AGAGCAAGGT GGAGAAGCAG CTGGAGCTCC TGGATAACTC CTTTGAGGAT
    TTGGCCAGGG AGACAGAATG GCAGAGCTCG GACCTCTTCA GGTACTTCCA GGAGGCTGTG
    AAGCTGTGGG AGGGGCACCA AAGTGTTCTG ATGACACAAG AGCTGGAGCT GGAGAAGAGG
    ATAGAACAGC ATCGGCAGAA ACACAACCAG GAGAACCAGA ACCAGGAGAC CCTCCTTGAT
    AAGCTTCTCG ACCAACTGAG ACAGCAAAGC CAAGAGGAGT CGCTGAAAGC CCACATGGAA
    AAGGCCAGGA CTTTTCTGAA GAACATGAAG TCCAGGTACG AATGTTTTCA CCTCTTGCTG
    ACCAAAGAAG TGATGGAGTA CCCGGGGTTA GTGCTGAAAG AACTCAACTG CTATAGCTTC
    ACCCTCAGCC GACACTTCTT CATTCGTGAA ATCTTTGAGC AGAACTTGTC TGGGGAAGTG
    ATTTTTAAAT TCAGGCAACC AGAAACCCAC GAGAAACTCT TCATACAGAA AATAAGGAAA
    ATGAAGAAAA AACAAAGGAA GAGAAAAGGT GAAGAAAGCA TAGGGCAAGA CCTGGGTTCT
    GAGAAGCCCA CAGAAAGCAT GAAAGAAGAG GGAAGTGGGG AATCAGAGCC CAGCACTGCT
    GGAGAGGCAC TGAACCAGGA GAACAAGTCC CCGCAGAGTG ACAGGGTGAG TGAGCCCAGA
    GACGGGCCTT CCCAAGAAGC TGAAGAGACG CTGGGCGTGA GAGAGACCTC CTCAGAGACA
    TCCCAGGACC GAGAAAATCT CAAGGTTCAA GAAGAGAAGG AAGAGATAGA AGAAGAGGAG
    GAAGAGGAGG AGGAAGAGGA GGAGGAGGAA ATAAAAGAGG AGAGAGTAGA GGAGGAAGAG
    AAGGAAGAAG AAGAAGAGGA GGAGGAGGAA ATAAAAGAAG ATGAGGAGGA AGAAGATGAA
    TATGAGAATG AAGACGTGCT GGAGTACTAT CAAGAGACCT ATTTTATGGG TCAGGCTGAA
    AGCAGGGAAG AGTCCGATGA GATACCCTAT GAAGAGATGG AGTTCTTCAC AACTACAAGT
    GGGAACACTT ACTTTGCCTT CCTGTCTGTG GAAGATGAGC AGCAGATACA CAGTCGGCCC
    CATTCCCACC ACAATCTGCT CAACTCTTTC TGCACCAAGT ACATAGAGCA AGTGTCTATT
    CCTCAGAAAC TAATCCTGAA GGTTAAGAAA GGGCTTCGAG CTGGCTTCTT TGAACATCTT
    GAGAAATGGT TTGATCAGTG TGTCCTCAAT GCTCGTATCA TTGTGGCTTC CAAGGTTGAT
    GAACTGGATT CAGAACTGGA GCTACGGCTG CACCTTCACA AGCCAAGACT CGAGCAAGTG
    GAGAAGGATA TTCACAATGT CAGAGCAGCG GAGCTCCTGC TTCACCAAGA GAGGCTGGAC
    AGCCACTGTG CCGGTGTGAT CGAGACACTG AAGAAGGAGA GGCTCATGTT CTGTCAGTTC
    CAAGAAGAGC AAGCCGTGCG GAGCAGGAAC TTCCGCCGCA AGATCTACGA CATGGAGCAC
    ATTTTCCTGA ATGCTACCAG AAGCCAAAAG CTGGTCAGTC TCACCAAGAC ACTACACCGA
    GAGCTGCTCA GCTACGTGGA TGTCATCCAG GTGTCCCTGC GAAGCTTCCG GCAGTACCTG
    GAAGAGAGTC TGGGCAAGCT GCGCTATACC AACATTGACT TTGTCAAGCA CTGCAGATTG
    TTCTCAGAGG GTGGCAACTT TTCCCCTGAA GAAGTTGAGA CGCTGTGCCA CCGACTGGAG
    AAGGAGGCTA CCCGGATTGA GTTCGTTGAA AGTTTAATTA TGATCCACAT GGAAAAGATG
    GAGACAGAGT ACCTGGACCA GAGAAAATCC AGCGGCTGA

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

  • PubMed

    A high-resolution anatomical atlas of the transcriptome in the mouse embryo.
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