ORF » Species Summary » Homo sapiens » CCDC180 cDNA ORF clone

CCDC180 cDNA ORF clone, Homo sapiens(human)

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
OHu12566 NM_020893.4
Latest version!		 Homo sapiens coiled-coil domain containing 180 (CCDC180), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK 		$679.50-$951.30
$1359.00
OHu101289 NM_001348010.2
Latest version!		 Homo sapiens coiled-coil domain containing 180 (CCDC180), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $475.30
$679.00
View Old Accession Versions >>
OHu101289 NM_001348010.1 Homo sapiens coiled-coil domain containing 180 (CCDC180), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $475.30
$679.00
OHu12566 NM_020893.3 Homo sapiens coiled-coil domain containing 180 (CCDC180), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK 		$679.50-$951.30
$1359.00
Hide Old Accession Versions >>

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone 30% OFF
2-4 Clone 40% OFF
5 or more Clone 50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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)
    CCDC180 ( NM_020893.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_065944.2 Homo sapiens coiled-coil domain containing 180 (CCDC180), transcript variant 1, mRNA.
    Price & Availability↑
    CloneID OHu12566
    Clone ID Related Accession (Same CDS sequence) NM_020893.4 , NM_020893.3
    Accession Version NM_020893.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5106bp)
    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 2020-01-01
    Organism Homo sapiens(human)
    Product coiled-coil domain-containing protein 180 isoform 1
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DB050504.1, AL512590.2 and AK302965.1. This sequence is a reference standard in the RefSeqGene project. On May 17, 2019 this sequence version replaced NM_020893.3. Transcript Variant: This variant (1) represents the longer transcript and encodes the longer isoform (1). Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. ##Evidence-Data-START## Transcript exon combination :: CR749320.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968968, SAMEA2144120 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## RefSeq Select criteria :: based on conservation, expression, longest protein ##RefSeq-Attributes-END## COMPLETENESS: complete on the 3' end. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    ATGCGCGGCG GGGAGAACCG GCCTCCTGCT CGAGTTCAGA GCTCATCTGA GGAATTGGAA 
    TTGAGACACC AAAGCCTAGA CGCGTTTCCT GGACGACGGC TTCCCGGCAG GGGCATCCAG 
    CCAGCGGCCA AGATGTCGTC AGTGGGGAAG GTGACCCAGG TTCCGAATGG GAAAGCCTAC 
    CAGCAGATCT TCCAGGCTGA GGTGCAGCTG GTCCACTCCC TGGCGGCCAC CAGGAAGCGG 
    GCTGCAGAGC GTTCTGTGAC CCTGAAGAGT GGCAGGATAC CCATGATGAA GAAGGTGGAG 
    ACTCCTGAAG GGGAGGTGAT GTCTCCCCGA CAGCAGAAGT GGATGCACAG CCTCCCCAAC 
    GACTGGATCA TGGAAAACCC TGTTCTCCAC AGGGAAAAGG AAAGAGCCAA GAGGGAAAAA 
    GCCCGAGAGA GTGAGAACAC CATCGCTGCC CGAGAAGTGC GGGGTCTCAT GGATACTATA 
    GTTCCTGAGA AGATAAGCAC CAGCACCTTT CAAAGGCAAG CAGAACACAA GAGGAAGAGC 
    TACGAGAGCG CTCTGGCCAG CTTTCAGGAG GAGATTGCGC AGGTGGGAAA GGAAATGGAA 
    CCTCTCATCG TGGACACAGG GGGACTTTTT TTGAAGAAGC TGACTGAGTC TGATGAAGAA 
    ATGAACCGTC TCTTCCTAAA GGTGGAAAAT GACACCAACC TTGAGGACTA CACCATCCAA 
    GCCCTGCTGG AGCTGTGGGA TAAGGTGGCC GGGCGGTTAC TGCTCCGGAA GCAGGAGATT 
    AAGGAGCTGG ATGAGGCCCT GCACTCGCTG GAGTTCTCCC GAACCGATAA ACTAAAAAGC 
    GTGTTGAAGA AATATGCAGA AGTCATAGAG AAAACTTCCT ACCTCATGCG GCCCGAAGTG 
    TACAGGCTGA TAAATGAAGA AGCCATGGTC ATGAACTATG CCCTGCTGGG CAACCGGAAG 
    GCTCTCGCCC AGCTGTTTGT CAACCTGATG GAGTCCACCC TGCAGCAGGA GCTGGACAGC 
    CGCCACCGCT GGCAAGGCTT GGTGGACACC TGGAAGGCTC TCAAGAAGGA GGCCCTGCTG 
    CAGAGTTTCA GTGAGTTCAT GGCCAGTGAG AGTATCCATA CTCCCCCGGC TGTGACGAAG 
    GAGCTAGAGG TCATGCTGAA GACCCAGAAC GTCCTGCAGC AAAGGCGGCT GAAGCATCTC 
    TGCACCATCT GTGACCTCCT GCCCCCCAGT TACAGCAAAA CTCAGCTGAC TGAGTGGCAT 
    TCTTCCCTCA ACTCCCTGAA CAAGGAGCTA GACACCTACC ACGTGGACTG CATGATGCGG 
    ATCCGCCTGC TGTATGAGAA GACATGGCAG GAGTGCCTGA TGCATGTGCA GAATTGTAAG 
    AAGCAGCTGC TGGACTGGAA AGCCTTCACT GAGGAGGAGG CAGAGACCCT GGTGAACCAG 
    TTCTTCTTCC AGATGGTGGG AGCACTCCAG GGCAAAGTGG AGGAGGACCT GGAGCTCTTG 
    GACAAATCCT TCGAGACTCT GGCAGATCAG ACAGAGTGGC AGAGTTCACA CCTCTTCAAG 
    TATTTCCAGG AGGTGGTACA ACTGTGGGAG GCACACCAGA GCGAGCTGTT GGTGCAGGAG 
    CTGGAGCTGG AGAAGAGGAT GGAGCAGCAC CGGCAGAAGC ACAGCCTGGA GAGCCAGGTG 
    CAGGAGGCCC ACCTCGATAG GCTCTTGGAC CAACTGAGGC AGCAAAGTGA CAAAGAAACA 
    CTGGCGTTTC ACCTGGAAAA GGTCAAAGAT TATCTGAAGA ACATGAAATC CAGGTATGAA 
    TGTTTTCACA CCCTCCTGAC AAAGGAAGTG ATGGAGTACC CAGCGATCAT GCTGAAAGAA 
    CTCAACTCCT ACAGCTCTGC CCTCAGCCAA TACTTCTTTG TGCGTGAAAT CTTTGAACAG 
    AACTTGGCTG GAGAAGTCAT TTTCAAATTC AGGCAACCAG AAGCACATGA AAAACCCTCC 
    CAGAAGAGAG TGAAAAAACT GAGGAAGAAG CAAGGGTCTA AAGAGGACAT GACCAGAAGT 
    GAGGAAAGCA TAAGTAGTGG GACAAGTACT GCCAGGTCAG TAGAAGAGGT GGAAGAAGAA 
    AACGATCAAG AAATGGAGTC CTTCATAACT GAAGAGGTGC TGGGGCAGCA GAAAAAATCT 
    CCACTGCATG CTAAGATGGA TGAGTCCAAA GAAGGCTCTA TTCAGGGACT GGAAGAAATG 
    CAGGTTGAAA GAGAGGGCTC CTTAAACCCA TCCCTGAATG AGGAGAATGT GAAGGGTCAA 
    GGAGAAAAGA AGGAGGAGTC AGAGGAGGAA GATGAGAAGG AGGAAGAGGA GGAGGAGGAG 
    AAGCTGGAGG AAGAGAAGGA GGAGAAGGAG GCACAGGAAG AGCAAGAGAG TTTATCTGTG 
    GGTGAGGAAG AAGACAAGGA AGAGGGTCTA GAGGAGATAT ACTATGAGGA CATGGAGTCC 
    TTCACAATCT CCAGTGGAAA CACTTATTTT GTCTTTGTAC CCCTGGAAGA AGAGCATTGT 
    AGGAAGTCCC ATTCCACCTT CTCAGCCATG TTCATCAACG ACACTTCCAG TGCCAAGTTC 
    ATAGAACAAG TGACAATTCC ATCGAGACTA ATTTTAGAAA TTAAGAAACA ACTTCGAGCT 
    GGCTTCTTCG AGCACCTTGA GAAGTGGTTT GACCAGTGTT CCCTCAACAC CCGGGTCACC 
    GTGGCCACCA AAATCAATGA GCTGGATTCA GAACTGGAGC TGCATCTGCA CCTGCACCAG 
    CCAAGAGCCC AGCAGATTGA AAAAGACATC CACAACGTCA GGGCAGCCGA GCTTTTGCTT 
    CATCAAGAGC AGTTGGACAG CCACTGTGCT GGGGTGACCG AGACGCTGAA GAAGAAGCGG 
    CTGATGTTCT GCCAGTTCCA AGAAGAGCAA AACGTGAGGA GCAAAAACTT CCGCCTTAAG 
    ATCTATGACA TGGAGCACAT CTTCTTGAAT GCCACCAGGA GCCAAAAGCT GGTCACTCTC 
    AGCAACACAC TGCACCAGGA GTTGCTTAGC TATGTTGATG TCACCCAGGT GTCCCTGCGC 
    AGCTTCCGGC AGTACTTGGA GGAGAGTCTG GGCAAACTCC GCTACTCAAA TATTGAGTTC 
    ATCAAACACT GCAGATTGTT TTCAGAGGGA GGCAACTTTT CTCCTAAAGA AATCAATTCA 
    CTGTGTTCCC GACTGGAGAA GGAAGCTGCC CGGATAGAGT TGGTTGAAAG TGTCATCATG 
    CTCAACATGG AGAAGTTGGA GAATGAGTAC CTGGACCAGG CCAATGATGT CATCAACAAG 
    TTTGAAAGCA AATTCCATAA CCTGTCTGTG GACCTTATTT TCATAGAGAA AATCCAGCGG 
    TTGCTGACGA ATCTGCAAGT GAAAATCAAG TGCCAGGTGG CAAAATCCAA TTCGCAAACA 
    AATGGATTAA ATTTCTCTCT GCAACAGCTT CAGAACAAGA TAAAAACTTG TCAAGAGTCC 
    AGGGGAGAGA AAACCACAGT GACCACAGAA GAACTCCTCA GCTTCGTCCA AACTTGGAAG 
    GAAAAACTGA GCCAGAGGAT TCAGTACCTT AACTGCAGCC TGGACAGGGT GTCCATGACT 
    GAACTGGTCT TTACCAACAC CATCCTGAAG GACCAGGAGG AAGACAGTGA CATCCTGACA 
    TCTTCAGAAG CCCTTGAAGA GGAGGCCAAG CTGGACGTGG TCACCCCTGA GTCCTTCACC 
    CAGCTGAGCC GCGTGGGGAA GCCCCTGATT GAGGACCCAG CTGTGGATGT GATCAGGAAG 
    CTCCTGCAAC TTCCCAACAC AAAATGGCCA ACCCACCATT GTGACAAAGA TCCGTCCCAG 
    ACAGGTAGAG GCGCATGGGC CTGTGGGTCT CGGGGCAGCA GTGAGGCAGG GGCTGGTGGT 
    GCTGTGTGCT CACCTCCTGT CCTCTGCTCC TGTCCTGGGC CCTCGTCACC CAAAGGCTTC 
    AAGCGACATC GGTGCCAGCC AGAAAACTCT GGGAAGAAGG CTGTACCCAG TGCCAGTGCT 
    ACCTCTGCAG GCAGCTTCAC ACCGCACCCC AAGCCCAACA AAATGGAGAG AAAGTACCGG 
    GTGCTTGGGG ACAAGCCTCC CCCTGCTGCC GAGGATTTTA AGGGGATCAT CTTGACCCTC 
    CTCTGGGAGA GCAGTGAGAA CCTGCTGACA GTCGCAGAGG AGTTCTACCG TAAAGAAAAA 
    CGCCCAGTCA CCAGGCCTGA CTGCATGTGT GACACCTTTG ACCAGTGCGC CGAGAACATT 
    AGCAAAAAGA TCCTGGAGTA TCAGAGCCAG GCAAATAAGT ACCACAACTC CTGCCTCATA 
    GAATTACGGA TCCAGATCAG GAGATTTGAG GAGCTGCTGC CCCAAGTGTG TTGGCTGGTG 
    ATGGAGAATT TCAAGGAACA CCACTGGAAA AAGTTTTTCA CCTCTGTGAA GGAGATCCGA 
    GGACAGTTCG AGGAACAGCA GAAGCGGCTG GAGAAAAGAA AGGACAAAAA TGCCCAGAAG 
    CTCCATCTAA ATCTTGGACA CCCCGTACAT TTCCAAGAAA TGGAGTCTCT ACACTTAAGT 
    GAAGAGGAAA GGCAGGAAGA GCTGGACAGC ATGATTAGGA TGAACAAGGA GAAGCTGGAG 
    GAATGTACCA GAAGGAATGG CCAGGTTTTC ATAACCAACT TGGCCACCTT CACCGAGAAG 
    TTCCTACTGC AGTTGGATGA GGTGGTCACC ATTGACGATG TCCAGGTTGC AAGGATGGAG 
    CCCCCCAAAC AGAAATTATC AATGCTCATA CGAAGGAAAC TCGCTGGGCT CTCCCTGAAG 
    GAAGAGAGTG AGAAACCCCT GATTGAACGT GGAAGCAGGA AGTGGCCAGG GATCAAACCC 
    ACCGAAGTCA CCATCCAAAA CAAGATTCTT CTCCAGCCAA CATCATCGAT TTCCACCACC 
    AAAACCACCC TGGGCCACCT GGCGGCCGTG GAAGCCCGAG ATGCTGTGTA CCTGAAATAT 
    TTAGCATCAT TTGAGGAGGA GCTAAAGAGG ATCCAGGATG ACTGTACATC TCAGATAAAG 
    GAGGCTCAGC GCTGGAAGGA CAGCTGGAAG CAGTCCCTGC ACACTATCCA AGGCCTGTAT 
    GTGTGA

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

    RefSeq NP_065944.2
    CDS98..5203
    Translation

    Target ORF information:

    RefSeq Version NM_020893.4
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 180 (CCDC180), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_020893.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    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
    5041
    5101
    ATGCGCGGCG GGGAGAACCG GCCTCCTGCT CGAGTTCAGA GCTCATCTGA GGAATTGGAA 
    TTGAGACACC AAAGCCTAGA CGCGTTTCCT GGACGACGGC TTCCCGGCAG GGGCATCCAG 
    CCAGCGGCCA AGATGTCGTC AGTGGGGAAG GTGACCCAGG TTCCGAATGG GAAAGCCTAC 
    CAGCAGATCT TCCAGGCTGA GGTGCAGCTG GTCCACTCCC TGGCGGCCAC CAGGAAGCGG 
    GCTGCAGAGC GTTCTGTGAC CCTGAAGAGT GGCAGGATAC CCATGATGAA GAAGGTGGAG 
    ACTCCTGAAG GGGAGGTGAT GTCTCCCCGA CAGCAGAAGT GGATGCACAG CCTCCCCAAC 
    GACTGGATCA TGGAAAACCC TGTTCTCCAC AGGGAAAAGG AAAGAGCCAA GAGGGAAAAA 
    GCCCGAGAGA GTGAGAACAC CATCGCTGCC CGAGAAGTGC GGGGTCTCAT GGATACTATA 
    GTTCCTGAGA AGATAAGCAC CAGCACCTTT CAAAGGCAAG CAGAACACAA GAGGAAGAGC 
    TACGAGAGCG CTCTGGCCAG CTTTCAGGAG GAGATTGCGC AGGTGGGAAA GGAAATGGAA 
    CCTCTCATCG TGGACACAGG GGGACTTTTT TTGAAGAAGC TGACTGAGTC TGATGAAGAA 
    ATGAACCGTC TCTTCCTAAA GGTGGAAAAT GACACCAACC TTGAGGACTA CACCATCCAA 
    GCCCTGCTGG AGCTGTGGGA TAAGGTGGCC GGGCGGTTAC TGCTCCGGAA GCAGGAGATT 
    AAGGAGCTGG ATGAGGCCCT GCACTCGCTG GAGTTCTCCC GAACCGATAA ACTAAAAAGC 
    GTGTTGAAGA AATATGCAGA AGTCATAGAG AAAACTTCCT ACCTCATGCG GCCCGAAGTG 
    TACAGGCTGA TAAATGAAGA AGCCATGGTC ATGAACTATG CCCTGCTGGG CAACCGGAAG 
    GCTCTCGCCC AGCTGTTTGT CAACCTGATG GAGTCCACCC TGCAGCAGGA GCTGGACAGC 
    CGCCACCGCT GGCAAGGCTT GGTGGACACC TGGAAGGCTC TCAAGAAGGA GGCCCTGCTG 
    CAGAGTTTCA GTGAGTTCAT GGCCAGTGAG AGTATCCATA CTCCCCCGGC TGTGACGAAG 
    GAGCTAGAGG TCATGCTGAA GACCCAGAAC GTCCTGCAGC AAAGGCGGCT GAAGCATCTC 
    TGCACCATCT GTGACCTCCT GCCCCCCAGT TACAGCAAAA CTCAGCTGAC TGAGTGGCAT 
    TCTTCCCTCA ACTCCCTGAA CAAGGAGCTA GACACCTACC ACGTGGACTG CATGATGCGG 
    ATCCGCCTGC TGTATGAGAA GACATGGCAG GAGTGCCTGA TGCATGTGCA GAATTGTAAG 
    AAGCAGCTGC TGGACTGGAA AGCCTTCACT GAGGAGGAGG CAGAGACCCT GGTGAACCAG 
    TTCTTCTTCC AGATGGTGGG AGCACTCCAG GGCAAAGTGG AGGAGGACCT GGAGCTCTTG 
    GACAAATCCT TCGAGACTCT GGCAGATCAG ACAGAGTGGC AGAGTTCACA CCTCTTCAAG 
    TATTTCCAGG AGGTGGTACA ACTGTGGGAG GCACACCAGA GCGAGCTGTT GGTGCAGGAG 
    CTGGAGCTGG AGAAGAGGAT GGAGCAGCAC CGGCAGAAGC ACAGCCTGGA GAGCCAGGTG 
    CAGGAGGCCC ACCTCGATAG GCTCTTGGAC CAACTGAGGC AGCAAAGTGA CAAAGAAACA 
    CTGGCGTTTC ACCTGGAAAA GGTCAAAGAT TATCTGAAGA ACATGAAATC CAGGTATGAA 
    TGTTTTCACA CCCTCCTGAC AAAGGAAGTG ATGGAGTACC CAGCGATCAT GCTGAAAGAA 
    CTCAACTCCT ACAGCTCTGC CCTCAGCCAA TACTTCTTTG TGCGTGAAAT CTTTGAACAG 
    AACTTGGCTG GAGAAGTCAT TTTCAAATTC AGGCAACCAG AAGCACATGA AAAACCCTCC 
    CAGAAGAGAG TGAAAAAACT GAGGAAGAAG CAAGGGTCTA AAGAGGACAT GACCAGAAGT 
    GAGGAAAGCA TAAGTAGTGG GACAAGTACT GCCAGGTCAG TAGAAGAGGT GGAAGAAGAA 
    AACGATCAAG AAATGGAGTC CTTCATAACT GAAGAGGTGC TGGGGCAGCA GAAAAAATCT 
    CCACTGCATG CTAAGATGGA TGAGTCCAAA GAAGGCTCTA TTCAGGGACT GGAAGAAATG 
    CAGGTTGAAA GAGAGGGCTC CTTAAACCCA TCCCTGAATG AGGAGAATGT GAAGGGTCAA 
    GGAGAAAAGA AGGAGGAGTC AGAGGAGGAA GATGAGAAGG AGGAAGAGGA GGAGGAGGAG 
    AAGCTGGAGG AAGAGAAGGA GGAGAAGGAG GCACAGGAAG AGCAAGAGAG TTTATCTGTG 
    GGTGAGGAAG AAGACAAGGA AGAGGGTCTA GAGGAGATAT ACTATGAGGA CATGGAGTCC 
    TTCACAATCT CCAGTGGAAA CACTTATTTT GTCTTTGTAC CCCTGGAAGA AGAGCATTGT 
    AGGAAGTCCC ATTCCACCTT CTCAGCCATG TTCATCAACG ACACTTCCAG TGCCAAGTTC 
    ATAGAACAAG TGACAATTCC ATCGAGACTA ATTTTAGAAA TTAAGAAACA ACTTCGAGCT 
    GGCTTCTTCG AGCACCTTGA GAAGTGGTTT GACCAGTGTT CCCTCAACAC CCGGGTCACC 
    GTGGCCACCA AAATCAATGA GCTGGATTCA GAACTGGAGC TGCATCTGCA CCTGCACCAG 
    CCAAGAGCCC AGCAGATTGA AAAAGACATC CACAACGTCA GGGCAGCCGA GCTTTTGCTT 
    CATCAAGAGC AGTTGGACAG CCACTGTGCT GGGGTGACCG AGACGCTGAA GAAGAAGCGG 
    CTGATGTTCT GCCAGTTCCA AGAAGAGCAA AACGTGAGGA GCAAAAACTT CCGCCTTAAG 
    ATCTATGACA TGGAGCACAT CTTCTTGAAT GCCACCAGGA GCCAAAAGCT GGTCACTCTC 
    AGCAACACAC TGCACCAGGA GTTGCTTAGC TATGTTGATG TCACCCAGGT GTCCCTGCGC 
    AGCTTCCGGC AGTACTTGGA GGAGAGTCTG GGCAAACTCC GCTACTCAAA TATTGAGTTC 
    ATCAAACACT GCAGATTGTT TTCAGAGGGA GGCAACTTTT CTCCTAAAGA AATCAATTCA 
    CTGTGTTCCC GACTGGAGAA GGAAGCTGCC CGGATAGAGT TGGTTGAAAG TGTCATCATG 
    CTCAACATGG AGAAGTTGGA GAATGAGTAC CTGGACCAGG CCAATGATGT CATCAACAAG 
    TTTGAAAGCA AATTCCATAA CCTGTCTGTG GACCTTATTT TCATAGAGAA AATCCAGCGG 
    TTGCTGACGA ATCTGCAAGT GAAAATCAAG TGCCAGGTGG CAAAATCCAA TTCGCAAACA 
    AATGGATTAA ATTTCTCTCT GCAACAGCTT CAGAACAAGA TAAAAACTTG TCAAGAGTCC 
    AGGGGAGAGA AAACCACAGT GACCACAGAA GAACTCCTCA GCTTCGTCCA AACTTGGAAG 
    GAAAAACTGA GCCAGAGGAT TCAGTACCTT AACTGCAGCC TGGACAGGGT GTCCATGACT 
    GAACTGGTCT TTACCAACAC CATCCTGAAG GACCAGGAGG AAGACAGTGA CATCCTGACA 
    TCTTCAGAAG CCCTTGAAGA GGAGGCCAAG CTGGACGTGG TCACCCCTGA GTCCTTCACC 
    CAGCTGAGCC GCGTGGGGAA GCCCCTGATT GAGGACCCAG CTGTGGATGT GATCAGGAAG 
    CTCCTGCAAC TTCCCAACAC AAAATGGCCA ACCCACCATT GTGACAAAGA TCCGTCCCAG 
    ACAGGTAGAG GCGCATGGGC CTGTGGGTCT CGGGGCAGCA GTGAGGCAGG GGCTGGTGGT 
    GCTGTGTGCT CACCTCCTGT CCTCTGCTCC TGTCCTGGGC CCTCGTCACC CAAAGGCTTC 
    AAGCGACATC GGTGCCAGCC AGAAAACTCT GGGAAGAAGG CTGTACCCAG TGCCAGTGCT 
    ACCTCTGCAG GCAGCTTCAC ACCGCACCCC AAGCCCAACA AAATGGAGAG AAAGTACCGG 
    GTGCTTGGGG ACAAGCCTCC CCCTGCTGCC GAGGATTTTA AGGGGATCAT CTTGACCCTC 
    CTCTGGGAGA GCAGTGAGAA CCTGCTGACA GTCGCAGAGG AGTTCTACCG TAAAGAAAAA 
    CGCCCAGTCA CCAGGCCTGA CTGCATGTGT GACACCTTTG ACCAGTGCGC CGAGAACATT 
    AGCAAAAAGA TCCTGGAGTA TCAGAGCCAG GCAAATAAGT ACCACAACTC CTGCCTCATA 
    GAATTACGGA TCCAGATCAG GAGATTTGAG GAGCTGCTGC CCCAAGTGTG TTGGCTGGTG 
    ATGGAGAATT TCAAGGAACA CCACTGGAAA AAGTTTTTCA CCTCTGTGAA GGAGATCCGA 
    GGACAGTTCG AGGAACAGCA GAAGCGGCTG GAGAAAAGAA AGGACAAAAA TGCCCAGAAG 
    CTCCATCTAA ATCTTGGACA CCCCGTACAT TTCCAAGAAA TGGAGTCTCT ACACTTAAGT 
    GAAGAGGAAA GGCAGGAAGA GCTGGACAGC ATGATTAGGA TGAACAAGGA GAAGCTGGAG 
    GAATGTACCA GAAGGAATGG CCAGGTTTTC ATAACCAACT TGGCCACCTT CACCGAGAAG 
    TTCCTACTGC AGTTGGATGA GGTGGTCACC ATTGACGATG TCCAGGTTGC AAGGATGGAG 
    CCCCCCAAAC AGAAATTATC AATGCTCATA CGAAGGAAAC TCGCTGGGCT CTCCCTGAAG 
    GAAGAGAGTG AGAAACCCCT GATTGAACGT GGAAGCAGGA AGTGGCCAGG GATCAAACCC 
    ACCGAAGTCA CCATCCAAAA CAAGATTCTT CTCCAGCCAA CATCATCGAT TTCCACCACC 
    AAAACCACCC TGGGCCACCT GGCGGCCGTG GAAGCCCGAG ATGCTGTGTA CCTGAAATAT 
    TTAGCATCAT TTGAGGAGGA GCTAAAGAGG ATCCAGGATG ACTGTACATC TCAGATAAAG 
    GAGGCTCAGC GCTGGAAGGA CAGCTGGAAG CAGTCCCTGC ACACTATCCA AGGCCTGTAT 
    GTGTGA

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

    CCDC180 ( NM_020893.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_065944.2 Homo sapiens coiled-coil domain containing 180 (CCDC180), transcript variant 1, mRNA.
    Price & Availability↑
    CloneID OHu12566
    Clone ID Related Accession (Same CDS sequence) NM_020893.4 , NM_020893.3
    Accession Version NM_020893.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5106bp)
    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 2018-06-30
    Organism Homo sapiens(human)
    Product coiled-coil domain-containing protein 180 isoform 1
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DB050504.1, AL512590.2 and AK302965.1. This sequence is a reference standard in the RefSeqGene project. On Dec 30, 2016 this sequence version replaced NM_020893.2. Transcript Variant: This variant (1) represents the longer transcript and encodes the longer isoform (1). Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. ##Evidence-Data-START## Transcript exon combination :: CR749320.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968968, SAMEA2144120 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    ATGCGCGGCG GGGAGAACCG GCCTCCTGCT CGAGTTCAGA GCTCATCTGA GGAATTGGAA 
    TTGAGACACC AAAGCCTAGA CGCGTTTCCT GGACGACGGC TTCCCGGCAG GGGCATCCAG 
    CCAGCGGCCA AGATGTCGTC AGTGGGGAAG GTGACCCAGG TTCCGAATGG GAAAGCCTAC 
    CAGCAGATCT TCCAGGCTGA GGTGCAGCTG GTCCACTCCC TGGCGGCCAC CAGGAAGCGG 
    GCTGCAGAGC GTTCTGTGAC CCTGAAGAGT GGCAGGATAC CCATGATGAA GAAGGTGGAG 
    ACTCCTGAAG GGGAGGTGAT GTCTCCCCGA CAGCAGAAGT GGATGCACAG CCTCCCCAAC 
    GACTGGATCA TGGAAAACCC TGTTCTCCAC AGGGAAAAGG AAAGAGCCAA GAGGGAAAAA 
    GCCCGAGAGA GTGAGAACAC CATCGCTGCC CGAGAAGTGC GGGGTCTCAT GGATACTATA 
    GTTCCTGAGA AGATAAGCAC CAGCACCTTT CAAAGGCAAG CAGAACACAA GAGGAAGAGC 
    TACGAGAGCG CTCTGGCCAG CTTTCAGGAG GAGATTGCGC AGGTGGGAAA GGAAATGGAA 
    CCTCTCATCG TGGACACAGG GGGACTTTTT TTGAAGAAGC TGACTGAGTC TGATGAAGAA 
    ATGAACCGTC TCTTCCTAAA GGTGGAAAAT GACACCAACC TTGAGGACTA CACCATCCAA 
    GCCCTGCTGG AGCTGTGGGA TAAGGTGGCC GGGCGGTTAC TGCTCCGGAA GCAGGAGATT 
    AAGGAGCTGG ATGAGGCCCT GCACTCGCTG GAGTTCTCCC GAACCGATAA ACTAAAAAGC 
    GTGTTGAAGA AATATGCAGA AGTCATAGAG AAAACTTCCT ACCTCATGCG GCCCGAAGTG 
    TACAGGCTGA TAAATGAAGA AGCCATGGTC ATGAACTATG CCCTGCTGGG CAACCGGAAG 
    GCTCTCGCCC AGCTGTTTGT CAACCTGATG GAGTCCACCC TGCAGCAGGA GCTGGACAGC 
    CGCCACCGCT GGCAAGGCTT GGTGGACACC TGGAAGGCTC TCAAGAAGGA GGCCCTGCTG 
    CAGAGTTTCA GTGAGTTCAT GGCCAGTGAG AGTATCCATA CTCCCCCGGC TGTGACGAAG 
    GAGCTAGAGG TCATGCTGAA GACCCAGAAC GTCCTGCAGC AAAGGCGGCT GAAGCATCTC 
    TGCACCATCT GTGACCTCCT GCCCCCCAGT TACAGCAAAA CTCAGCTGAC TGAGTGGCAT 
    TCTTCCCTCA ACTCCCTGAA CAAGGAGCTA GACACCTACC ACGTGGACTG CATGATGCGG 
    ATCCGCCTGC TGTATGAGAA GACATGGCAG GAGTGCCTGA TGCATGTGCA GAATTGTAAG 
    AAGCAGCTGC TGGACTGGAA AGCCTTCACT GAGGAGGAGG CAGAGACCCT GGTGAACCAG 
    TTCTTCTTCC AGATGGTGGG AGCACTCCAG GGCAAAGTGG AGGAGGACCT GGAGCTCTTG 
    GACAAATCCT TCGAGACTCT GGCAGATCAG ACAGAGTGGC AGAGTTCACA CCTCTTCAAG 
    TATTTCCAGG AGGTGGTACA ACTGTGGGAG GCACACCAGA GCGAGCTGTT GGTGCAGGAG 
    CTGGAGCTGG AGAAGAGGAT GGAGCAGCAC CGGCAGAAGC ACAGCCTGGA GAGCCAGGTG 
    CAGGAGGCCC ACCTCGATAG GCTCTTGGAC CAACTGAGGC AGCAAAGTGA CAAAGAAACA 
    CTGGCGTTTC ACCTGGAAAA GGTCAAAGAT TATCTGAAGA ACATGAAATC CAGGTATGAA 
    TGTTTTCACA CCCTCCTGAC AAAGGAAGTG ATGGAGTACC CAGCGATCAT GCTGAAAGAA 
    CTCAACTCCT ACAGCTCTGC CCTCAGCCAA TACTTCTTTG TGCGTGAAAT CTTTGAACAG 
    AACTTGGCTG GAGAAGTCAT TTTCAAATTC AGGCAACCAG AAGCACATGA AAAACCCTCC 
    CAGAAGAGAG TGAAAAAACT GAGGAAGAAG CAAGGGTCTA AAGAGGACAT GACCAGAAGT 
    GAGGAAAGCA TAAGTAGTGG GACAAGTACT GCCAGGTCAG TAGAAGAGGT GGAAGAAGAA 
    AACGATCAAG AAATGGAGTC CTTCATAACT GAAGAGGTGC TGGGGCAGCA GAAAAAATCT 
    CCACTGCATG CTAAGATGGA TGAGTCCAAA GAAGGCTCTA TTCAGGGACT GGAAGAAATG 
    CAGGTTGAAA GAGAGGGCTC CTTAAACCCA TCCCTGAATG AGGAGAATGT GAAGGGTCAA 
    GGAGAAAAGA AGGAGGAGTC AGAGGAGGAA GATGAGAAGG AGGAAGAGGA GGAGGAGGAG 
    AAGCTGGAGG AAGAGAAGGA GGAGAAGGAG GCACAGGAAG AGCAAGAGAG TTTATCTGTG 
    GGTGAGGAAG AAGACAAGGA AGAGGGTCTA GAGGAGATAT ACTATGAGGA CATGGAGTCC 
    TTCACAATCT CCAGTGGAAA CACTTATTTT GTCTTTGTAC CCCTGGAAGA AGAGCATTGT 
    AGGAAGTCCC ATTCCACCTT CTCAGCCATG TTCATCAACG ACACTTCCAG TGCCAAGTTC 
    ATAGAACAAG TGACAATTCC ATCGAGACTA ATTTTAGAAA TTAAGAAACA ACTTCGAGCT 
    GGCTTCTTCG AGCACCTTGA GAAGTGGTTT GACCAGTGTT CCCTCAACAC CCGGGTCACC 
    GTGGCCACCA AAATCAATGA GCTGGATTCA GAACTGGAGC TGCATCTGCA CCTGCACCAG 
    CCAAGAGCCC AGCAGATTGA AAAAGACATC CACAACGTCA GGGCAGCCGA GCTTTTGCTT 
    CATCAAGAGC AGTTGGACAG CCACTGTGCT GGGGTGACCG AGACGCTGAA GAAGAAGCGG 
    CTGATGTTCT GCCAGTTCCA AGAAGAGCAA AACGTGAGGA GCAAAAACTT CCGCCTTAAG 
    ATCTATGACA TGGAGCACAT CTTCTTGAAT GCCACCAGGA GCCAAAAGCT GGTCACTCTC 
    AGCAACACAC TGCACCAGGA GTTGCTTAGC TATGTTGATG TCACCCAGGT GTCCCTGCGC 
    AGCTTCCGGC AGTACTTGGA GGAGAGTCTG GGCAAACTCC GCTACTCAAA TATTGAGTTC 
    ATCAAACACT GCAGATTGTT TTCAGAGGGA GGCAACTTTT CTCCTAAAGA AATCAATTCA 
    CTGTGTTCCC GACTGGAGAA GGAAGCTGCC CGGATAGAGT TGGTTGAAAG TGTCATCATG 
    CTCAACATGG AGAAGTTGGA GAATGAGTAC CTGGACCAGG CCAATGATGT CATCAACAAG 
    TTTGAAAGCA AATTCCATAA CCTGTCTGTG GACCTTATTT TCATAGAGAA AATCCAGCGG 
    TTGCTGACGA ATCTGCAAGT GAAAATCAAG TGCCAGGTGG CAAAATCCAA TTCGCAAACA 
    AATGGATTAA ATTTCTCTCT GCAACAGCTT CAGAACAAGA TAAAAACTTG TCAAGAGTCC 
    AGGGGAGAGA AAACCACAGT GACCACAGAA GAACTCCTCA GCTTCGTCCA AACTTGGAAG 
    GAAAAACTGA GCCAGAGGAT TCAGTACCTT AACTGCAGCC TGGACAGGGT GTCCATGACT 
    GAACTGGTCT TTACCAACAC CATCCTGAAG GACCAGGAGG AAGACAGTGA CATCCTGACA 
    TCTTCAGAAG CCCTTGAAGA GGAGGCCAAG CTGGACGTGG TCACCCCTGA GTCCTTCACC 
    CAGCTGAGCC GCGTGGGGAA GCCCCTGATT GAGGACCCAG CTGTGGATGT GATCAGGAAG 
    CTCCTGCAAC TTCCCAACAC AAAATGGCCA ACCCACCATT GTGACAAAGA TCCGTCCCAG 
    ACAGGTAGAG GCGCATGGGC CTGTGGGTCT CGGGGCAGCA GTGAGGCAGG GGCTGGTGGT 
    GCTGTGTGCT CACCTCCTGT CCTCTGCTCC TGTCCTGGGC CCTCGTCACC CAAAGGCTTC 
    AAGCGACATC GGTGCCAGCC AGAAAACTCT GGGAAGAAGG CTGTACCCAG TGCCAGTGCT 
    ACCTCTGCAG GCAGCTTCAC ACCGCACCCC AAGCCCAACA AAATGGAGAG AAAGTACCGG 
    GTGCTTGGGG ACAAGCCTCC CCCTGCTGCC GAGGATTTTA AGGGGATCAT CTTGACCCTC 
    CTCTGGGAGA GCAGTGAGAA CCTGCTGACA GTCGCAGAGG AGTTCTACCG TAAAGAAAAA 
    CGCCCAGTCA CCAGGCCTGA CTGCATGTGT GACACCTTTG ACCAGTGCGC CGAGAACATT 
    AGCAAAAAGA TCCTGGAGTA TCAGAGCCAG GCAAATAAGT ACCACAACTC CTGCCTCATA 
    GAATTACGGA TCCAGATCAG GAGATTTGAG GAGCTGCTGC CCCAAGTGTG TTGGCTGGTG 
    ATGGAGAATT TCAAGGAACA CCACTGGAAA AAGTTTTTCA CCTCTGTGAA GGAGATCCGA 
    GGACAGTTCG AGGAACAGCA GAAGCGGCTG GAGAAAAGAA AGGACAAAAA TGCCCAGAAG 
    CTCCATCTAA ATCTTGGACA CCCCGTACAT TTCCAAGAAA TGGAGTCTCT ACACTTAAGT 
    GAAGAGGAAA GGCAGGAAGA GCTGGACAGC ATGATTAGGA TGAACAAGGA GAAGCTGGAG 
    GAATGTACCA GAAGGAATGG CCAGGTTTTC ATAACCAACT TGGCCACCTT CACCGAGAAG 
    TTCCTACTGC AGTTGGATGA GGTGGTCACC ATTGACGATG TCCAGGTTGC AAGGATGGAG 
    CCCCCCAAAC AGAAATTATC AATGCTCATA CGAAGGAAAC TCGCTGGGCT CTCCCTGAAG 
    GAAGAGAGTG AGAAACCCCT GATTGAACGT GGAAGCAGGA AGTGGCCAGG GATCAAACCC 
    ACCGAAGTCA CCATCCAAAA CAAGATTCTT CTCCAGCCAA CATCATCGAT TTCCACCACC 
    AAAACCACCC TGGGCCACCT GGCGGCCGTG GAAGCCCGAG ATGCTGTGTA CCTGAAATAT 
    TTAGCATCAT TTGAGGAGGA GCTAAAGAGG ATCCAGGATG ACTGTACATC TCAGATAAAG 
    GAGGCTCAGC GCTGGAAGGA CAGCTGGAAG CAGTCCCTGC ACACTATCCA AGGCCTGTAT 
    GTGTGA

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

    RefSeq NP_065944.2
    CDS129..5234
    Translation

    Target ORF information:

    RefSeq Version NM_020893.3
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 180 (CCDC180), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_020893.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    ATGCGCGGCG GGGAGAACCG GCCTCCTGCT CGAGTTCAGA GCTCATCTGA GGAATTGGAA 
    TTGAGACACC AAAGCCTAGA CGCGTTTCCT GGACGACGGC TTCCCGGCAG GGGCATCCAG 
    CCAGCGGCCA AGATGTCGTC AGTGGGGAAG GTGACCCAGG TTCCGAATGG GAAAGCCTAC 
    CAGCAGATCT TCCAGGCTGA GGTGCAGCTG GTCCACTCCC TGGCGGCCAC CAGGAAGCGG 
    GCTGCAGAGC GTTCTGTGAC CCTGAAGAGT GGCAGGATAC CCATGATGAA GAAGGTGGAG 
    ACTCCTGAAG GGGAGGTGAT GTCTCCCCGA CAGCAGAAGT GGATGCACAG CCTCCCCAAC 
    GACTGGATCA TGGAAAACCC TGTTCTCCAC AGGGAAAAGG AAAGAGCCAA GAGGGAAAAA 
    GCCCGAGAGA GTGAGAACAC CATCGCTGCC CGAGAAGTGC GGGGTCTCAT GGATACTATA 
    GTTCCTGAGA AGATAAGCAC CAGCACCTTT CAAAGGCAAG CAGAACACAA GAGGAAGAGC 
    TACGAGAGCG CTCTGGCCAG CTTTCAGGAG GAGATTGCGC AGGTGGGAAA GGAAATGGAA 
    CCTCTCATCG TGGACACAGG GGGACTTTTT TTGAAGAAGC TGACTGAGTC TGATGAAGAA 
    ATGAACCGTC TCTTCCTAAA GGTGGAAAAT GACACCAACC TTGAGGACTA CACCATCCAA 
    GCCCTGCTGG AGCTGTGGGA TAAGGTGGCC GGGCGGTTAC TGCTCCGGAA GCAGGAGATT 
    AAGGAGCTGG ATGAGGCCCT GCACTCGCTG GAGTTCTCCC GAACCGATAA ACTAAAAAGC 
    GTGTTGAAGA AATATGCAGA AGTCATAGAG AAAACTTCCT ACCTCATGCG GCCCGAAGTG 
    TACAGGCTGA TAAATGAAGA AGCCATGGTC ATGAACTATG CCCTGCTGGG CAACCGGAAG 
    GCTCTCGCCC AGCTGTTTGT CAACCTGATG GAGTCCACCC TGCAGCAGGA GCTGGACAGC 
    CGCCACCGCT GGCAAGGCTT GGTGGACACC TGGAAGGCTC TCAAGAAGGA GGCCCTGCTG 
    CAGAGTTTCA GTGAGTTCAT GGCCAGTGAG AGTATCCATA CTCCCCCGGC TGTGACGAAG 
    GAGCTAGAGG TCATGCTGAA GACCCAGAAC GTCCTGCAGC AAAGGCGGCT GAAGCATCTC 
    TGCACCATCT GTGACCTCCT GCCCCCCAGT TACAGCAAAA CTCAGCTGAC TGAGTGGCAT 
    TCTTCCCTCA ACTCCCTGAA CAAGGAGCTA GACACCTACC ACGTGGACTG CATGATGCGG 
    ATCCGCCTGC TGTATGAGAA GACATGGCAG GAGTGCCTGA TGCATGTGCA GAATTGTAAG 
    AAGCAGCTGC TGGACTGGAA AGCCTTCACT GAGGAGGAGG CAGAGACCCT GGTGAACCAG 
    TTCTTCTTCC AGATGGTGGG AGCACTCCAG GGCAAAGTGG AGGAGGACCT GGAGCTCTTG 
    GACAAATCCT TCGAGACTCT GGCAGATCAG ACAGAGTGGC AGAGTTCACA CCTCTTCAAG 
    TATTTCCAGG AGGTGGTACA ACTGTGGGAG GCACACCAGA GCGAGCTGTT GGTGCAGGAG 
    CTGGAGCTGG AGAAGAGGAT GGAGCAGCAC CGGCAGAAGC ACAGCCTGGA GAGCCAGGTG 
    CAGGAGGCCC ACCTCGATAG GCTCTTGGAC CAACTGAGGC AGCAAAGTGA CAAAGAAACA 
    CTGGCGTTTC ACCTGGAAAA GGTCAAAGAT TATCTGAAGA ACATGAAATC CAGGTATGAA 
    TGTTTTCACA CCCTCCTGAC AAAGGAAGTG ATGGAGTACC CAGCGATCAT GCTGAAAGAA 
    CTCAACTCCT ACAGCTCTGC CCTCAGCCAA TACTTCTTTG TGCGTGAAAT CTTTGAACAG 
    AACTTGGCTG GAGAAGTCAT TTTCAAATTC AGGCAACCAG AAGCACATGA AAAACCCTCC 
    CAGAAGAGAG TGAAAAAACT GAGGAAGAAG CAAGGGTCTA AAGAGGACAT GACCAGAAGT 
    GAGGAAAGCA TAAGTAGTGG GACAAGTACT GCCAGGTCAG TAGAAGAGGT GGAAGAAGAA 
    AACGATCAAG AAATGGAGTC CTTCATAACT GAAGAGGTGC TGGGGCAGCA GAAAAAATCT 
    CCACTGCATG CTAAGATGGA TGAGTCCAAA GAAGGCTCTA TTCAGGGACT GGAAGAAATG 
    CAGGTTGAAA GAGAGGGCTC CTTAAACCCA TCCCTGAATG AGGAGAATGT GAAGGGTCAA 
    GGAGAAAAGA AGGAGGAGTC AGAGGAGGAA GATGAGAAGG AGGAAGAGGA GGAGGAGGAG 
    AAGCTGGAGG AAGAGAAGGA GGAGAAGGAG GCACAGGAAG AGCAAGAGAG TTTATCTGTG 
    GGTGAGGAAG AAGACAAGGA AGAGGGTCTA GAGGAGATAT ACTATGAGGA CATGGAGTCC 
    TTCACAATCT CCAGTGGAAA CACTTATTTT GTCTTTGTAC CCCTGGAAGA AGAGCATTGT 
    AGGAAGTCCC ATTCCACCTT CTCAGCCATG TTCATCAACG ACACTTCCAG TGCCAAGTTC 
    ATAGAACAAG TGACAATTCC ATCGAGACTA ATTTTAGAAA TTAAGAAACA ACTTCGAGCT 
    GGCTTCTTCG AGCACCTTGA GAAGTGGTTT GACCAGTGTT CCCTCAACAC CCGGGTCACC 
    GTGGCCACCA AAATCAATGA GCTGGATTCA GAACTGGAGC TGCATCTGCA CCTGCACCAG 
    CCAAGAGCCC AGCAGATTGA AAAAGACATC CACAACGTCA GGGCAGCCGA GCTTTTGCTT 
    CATCAAGAGC AGTTGGACAG CCACTGTGCT GGGGTGACCG AGACGCTGAA GAAGAAGCGG 
    CTGATGTTCT GCCAGTTCCA AGAAGAGCAA AACGTGAGGA GCAAAAACTT CCGCCTTAAG 
    ATCTATGACA TGGAGCACAT CTTCTTGAAT GCCACCAGGA GCCAAAAGCT GGTCACTCTC 
    AGCAACACAC TGCACCAGGA GTTGCTTAGC TATGTTGATG TCACCCAGGT GTCCCTGCGC 
    AGCTTCCGGC AGTACTTGGA GGAGAGTCTG GGCAAACTCC GCTACTCAAA TATTGAGTTC 
    ATCAAACACT GCAGATTGTT TTCAGAGGGA GGCAACTTTT CTCCTAAAGA AATCAATTCA 
    CTGTGTTCCC GACTGGAGAA GGAAGCTGCC CGGATAGAGT TGGTTGAAAG TGTCATCATG 
    CTCAACATGG AGAAGTTGGA GAATGAGTAC CTGGACCAGG CCAATGATGT CATCAACAAG 
    TTTGAAAGCA AATTCCATAA CCTGTCTGTG GACCTTATTT TCATAGAGAA AATCCAGCGG 
    TTGCTGACGA ATCTGCAAGT GAAAATCAAG TGCCAGGTGG CAAAATCCAA TTCGCAAACA 
    AATGGATTAA ATTTCTCTCT GCAACAGCTT CAGAACAAGA TAAAAACTTG TCAAGAGTCC 
    AGGGGAGAGA AAACCACAGT GACCACAGAA GAACTCCTCA GCTTCGTCCA AACTTGGAAG 
    GAAAAACTGA GCCAGAGGAT TCAGTACCTT AACTGCAGCC TGGACAGGGT GTCCATGACT 
    GAACTGGTCT TTACCAACAC CATCCTGAAG GACCAGGAGG AAGACAGTGA CATCCTGACA 
    TCTTCAGAAG CCCTTGAAGA GGAGGCCAAG CTGGACGTGG TCACCCCTGA GTCCTTCACC 
    CAGCTGAGCC GCGTGGGGAA GCCCCTGATT GAGGACCCAG CTGTGGATGT GATCAGGAAG 
    CTCCTGCAAC TTCCCAACAC AAAATGGCCA ACCCACCATT GTGACAAAGA TCCGTCCCAG 
    ACAGGTAGAG GCGCATGGGC CTGTGGGTCT CGGGGCAGCA GTGAGGCAGG GGCTGGTGGT 
    GCTGTGTGCT CACCTCCTGT CCTCTGCTCC TGTCCTGGGC CCTCGTCACC CAAAGGCTTC 
    AAGCGACATC GGTGCCAGCC AGAAAACTCT GGGAAGAAGG CTGTACCCAG TGCCAGTGCT 
    ACCTCTGCAG GCAGCTTCAC ACCGCACCCC AAGCCCAACA AAATGGAGAG AAAGTACCGG 
    GTGCTTGGGG ACAAGCCTCC CCCTGCTGCC GAGGATTTTA AGGGGATCAT CTTGACCCTC 
    CTCTGGGAGA GCAGTGAGAA CCTGCTGACA GTCGCAGAGG AGTTCTACCG TAAAGAAAAA 
    CGCCCAGTCA CCAGGCCTGA CTGCATGTGT GACACCTTTG ACCAGTGCGC CGAGAACATT 
    AGCAAAAAGA TCCTGGAGTA TCAGAGCCAG GCAAATAAGT ACCACAACTC CTGCCTCATA 
    GAATTACGGA TCCAGATCAG GAGATTTGAG GAGCTGCTGC CCCAAGTGTG TTGGCTGGTG 
    ATGGAGAATT TCAAGGAACA CCACTGGAAA AAGTTTTTCA CCTCTGTGAA GGAGATCCGA 
    GGACAGTTCG AGGAACAGCA GAAGCGGCTG GAGAAAAGAA AGGACAAAAA TGCCCAGAAG 
    CTCCATCTAA ATCTTGGACA CCCCGTACAT TTCCAAGAAA TGGAGTCTCT ACACTTAAGT 
    GAAGAGGAAA GGCAGGAAGA GCTGGACAGC ATGATTAGGA TGAACAAGGA GAAGCTGGAG 
    GAATGTACCA GAAGGAATGG CCAGGTTTTC ATAACCAACT TGGCCACCTT CACCGAGAAG 
    TTCCTACTGC AGTTGGATGA GGTGGTCACC ATTGACGATG TCCAGGTTGC AAGGATGGAG 
    CCCCCCAAAC AGAAATTATC AATGCTCATA CGAAGGAAAC TCGCTGGGCT CTCCCTGAAG 
    GAAGAGAGTG AGAAACCCCT GATTGAACGT GGAAGCAGGA AGTGGCCAGG GATCAAACCC 
    ACCGAAGTCA CCATCCAAAA CAAGATTCTT CTCCAGCCAA CATCATCGAT TTCCACCACC 
    AAAACCACCC TGGGCCACCT GGCGGCCGTG GAAGCCCGAG ATGCTGTGTA CCTGAAATAT 
    TTAGCATCAT TTGAGGAGGA GCTAAAGAGG ATCCAGGATG ACTGTACATC TCAGATAAAG 
    GAGGCTCAGC GCTGGAAGGA CAGCTGGAAG CAGTCCCTGC ACACTATCCA AGGCCTGTAT 
    GTGTGA

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

    CCDC180 ( NM_001348010.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001334939.1 Homo sapiens coiled-coil domain containing 180 (CCDC180), transcript variant 2, mRNA.
    Price & Availability↑
    CloneID OHu101289
    Clone ID Related Accession (Same CDS sequence) NM_001348010.2 , NM_001348010.1
    Accession Version NM_001348010.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2712bp)
    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 2020-01-03
    Organism Homo sapiens(human)
    Product coiled-coil domain-containing protein 180 isoform 2
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL512590.2 and AK302965.1. On Jun 2, 2019 this sequence version replaced NM_001348010.1. Transcript Variant: This variant (2) has multiple differences compared to variant 1. These differences result in distinct 5' and 3' UTRs, and a novel 3' coding region. The encoded isoform (2) is shorter and has a distinct C-terminus, compared to isoform 1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. ##Evidence-Data-START## Transcript exon combination :: AK302965.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968968, SAMEA2151119 [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
    ATGCGCGGCG GGGAGAACCG GCCTCCTGCT CGAGTTCAGA GCTCATCTGA GGAATTGGAA 
    TTGAGACACC AAAGCCTAGA CGCGTTTCCT GGACGACGGC TTCCCGGCAG GGGCATCCAG 
    CCAGCGGCCA AGATGTCGTC AGTGGGGAAG GTGACCCAGG TTCCGAATGG GAAAGCCTAC 
    CAGCAGATCT TCCAGGCTGA GGTGCAGCTG GTCCACTCCC TGGCGGCCAC CAGGAAGCGG 
    GCTGCAGAGC GTTCTGTGAC CCTGAAGAGT GGCAGGATAC CCATGATGAA GAAGGTGGAG 
    ACTCCTGAAG GGGAGGTGAT GTCTCCCCGA CAGCAGAAGT GGATGCACAG CCTCCCCAAC 
    GACTGGATCA TGGAAAACCC TGTTCTCCAC AGGGAAAAGG AAAGAGCCAA GAGGGAAAAA 
    GCCCGAGAGA GTGAGAACAC CATCGCTGCC CGAGAAGTGC GGGGTCTCAT GGATACTATA 
    GTTCCTGAGA AGATAAGCAC CAGCACCTTT CAAAGGCAAG CAGAACACAA GAGGAAGAGC 
    TACGAGAGCG CTCTGGCCAG CTTTCAGGAG GAGATTGCGC AGGAAATGGA ACCTCTCATC 
    GTGGACACAG GGGGACTTTT TTTGAAGAAG CTGACTGAGT CTGATGAAGA AATGAACCGT 
    CTCTTCCTAA AGGTGGAAAA TGACACCAAC CTTGAGGACT ACACCATCCA AGCCCTGCTG 
    GAGCTGTGGG ATAAGGTGGC CGGGCGGTTA CTGCTCCGGA AGCAGGAGAT TAAGGAGCTG 
    GATGAGGCCC TGCACTCGCT GGAGTTCTCC CGAACCGATA AACTAAAAAG CGTGTTGAAG 
    AAATATGCAG AAGTCATAGA GAAAACTTCC TACCTCATGC GGCCCGAAGT GTACAGGCTG 
    ATAAATGAAG AAGCCATGGT CATGAACTAT GCCCTGCTGG GCAACCGGAA GGCTCTCGCC 
    CAGCTGTTTG TCAACCTGAT GGAGTCCACC CTGCAGCAGG AGCTGGACAG CCGCCACCGC 
    TGGCAAGGCT TGGTGGACAC CTGGAAGGCT CTCAAGAAGG AGGCCCTGCT GCAGAGTTTC 
    AGTGAGTTCA TGGCCAGTGA GAGTATCCAT ACTCCCCCGG CTGTGACGAA GGAGCTAGAG 
    GTCATGCTGA AGACCCAGAA CGTCCTGCAG CAAAGGCGGC TGAAGCATCT CTGCACCATC 
    TGTGACCTCC TGCCCCCCAG TTACAGCAAA ACTCAGCTGA CTGAGTGGCA TTCTTCCCTC 
    AACTCCCTGA ACAAGGAGCT AGACACCTAC CACGTGGACT GCATGATGCG GATCCGCCTG 
    CTGTATGAGA AGACATGGCA GGAGTGCCTG ATGCATGTGC AGAATTGTAA GAAGCAGCTG 
    CTGGACTGGA AAGCCTTCAC TGAGGAGGAG GCAGAGACCC TGGTGAACCA GTTCTTCTTC 
    CAGATGGTGG GAGCACTCCA GGGCAAAGTG GAGGAGGACC TGGAGCTCTT GGACAAATCC 
    TTCGAGACTC TGGCAGATCA GACAGAGTGG CAGAGTTCAC ACCTCTTCAA GTATTTCCAG 
    GAGGTGGTAC AACTGTGGGA GGCACACCAG AGCGAGCTGT TGGTGCAGGA GCTGGAGCTG 
    GAGAAGAGGA TGGAGCAGCA CCGGCAGAAG CACAGCCTGG AGAGCCAGGT GCAGGAGGCC 
    CACCTCGATA GGCTCTTGGA CCAACTGAGG CAGCAAAGTG ACAAAGAAAC ACTGGCGTTT 
    CACCTGGAAA AGGTCAAAGA TTATCTGAAG AACATGAAAT CCAGGTATGA ATGTTTTCAC 
    ACCCTCCTGA CAAAGGAAGT GATGGAGTAC CCAGCGATCA TGCTGAAAGA ACTCAACTCC 
    TACAGCTCTG CCCTCAGCCA ATACTTCTTT GTGCGTGAAA TCTTTGAACA GAACTTGGCT 
    GGAGAAGTCA TTTTCAAATT CAGGCAACCA GAAGCACATG AAAAACCCTC CCAGAAGAGA 
    GTGAAAAAAC TGAGGAAGAA GCAAGGGTCT AAAGAGGACA TGACCAGAAG TGAGGAAAGC 
    ATAAGTAGTG GGACAAGTAC TGCCAGGTCA GTAGAAGAGG TGGAAGAAGA AAACGATCAA 
    GAAATGGAGT CCTTCATAAC TGAAGAGGTG CTGGGGCAGC AGAAAAAATC TCCACTGCAT 
    GCTAAGATGG ATGAGTCCAA AGAAGGCTCT ATTCAGGGAC TGGAAGAAAT GCAGGTTGAA 
    AGAGAGGGCT CCTTAAACCC ATCCCTGAAT GAGGAGAATG TGAAGGGTCA AGGAGAAAAG 
    AAGGAGGAGT CAGAGGAGGA AGATGAGAAG GAGGAAGAGG AGGAGGAGGA GAAGCTGGAG 
    GAAGAGAAGG AGGAGAAGGA GGCACAGGAA GAGCAAGAGA GTTTATCTGT GGGTGAGGAA 
    GAAGACAAGG AAGAGGGTCT AGAGGAGATA TACTATGAGG ACATGGAGTC CTTCACAATC 
    TCCAGTGGAA ACACTTATTT TGTCTTTGTA CCCCTGGAAG AAGAGCATTG TAGGAAGTCC 
    CATTCCACCT TCTCAGCCAT GTTCATCAAC GACACTTCCA GTGCCAAGTT CATAGAACAA 
    GTGACAATTC CATCGAGACT AATTTTAGAA ATTAAGAAAC ACCGGGCATG GTGGTGTGTG 
    CCTGTAATTC CAGCTACTCA AGAGGCTGAA GCAGGAGAAT CGCCTGAACC CAGGAGGCGG 
    AGGTTACAGT GA

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

    RefSeq NP_001334939.1
    CDS236..2947
    Translation

    Target ORF information:

    RefSeq Version NM_001348010.2
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 180 (CCDC180), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001348010.2

    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
    ATGCGCGGCG GGGAGAACCG GCCTCCTGCT CGAGTTCAGA GCTCATCTGA GGAATTGGAA 
    TTGAGACACC AAAGCCTAGA CGCGTTTCCT GGACGACGGC TTCCCGGCAG GGGCATCCAG 
    CCAGCGGCCA AGATGTCGTC AGTGGGGAAG GTGACCCAGG TTCCGAATGG GAAAGCCTAC 
    CAGCAGATCT TCCAGGCTGA GGTGCAGCTG GTCCACTCCC TGGCGGCCAC CAGGAAGCGG 
    GCTGCAGAGC GTTCTGTGAC CCTGAAGAGT GGCAGGATAC CCATGATGAA GAAGGTGGAG 
    ACTCCTGAAG GGGAGGTGAT GTCTCCCCGA CAGCAGAAGT GGATGCACAG CCTCCCCAAC 
    GACTGGATCA TGGAAAACCC TGTTCTCCAC AGGGAAAAGG AAAGAGCCAA GAGGGAAAAA 
    GCCCGAGAGA GTGAGAACAC CATCGCTGCC CGAGAAGTGC GGGGTCTCAT GGATACTATA 
    GTTCCTGAGA AGATAAGCAC CAGCACCTTT CAAAGGCAAG CAGAACACAA GAGGAAGAGC 
    TACGAGAGCG CTCTGGCCAG CTTTCAGGAG GAGATTGCGC AGGAAATGGA ACCTCTCATC 
    GTGGACACAG GGGGACTTTT TTTGAAGAAG CTGACTGAGT CTGATGAAGA AATGAACCGT 
    CTCTTCCTAA AGGTGGAAAA TGACACCAAC CTTGAGGACT ACACCATCCA AGCCCTGCTG 
    GAGCTGTGGG ATAAGGTGGC CGGGCGGTTA CTGCTCCGGA AGCAGGAGAT TAAGGAGCTG 
    GATGAGGCCC TGCACTCGCT GGAGTTCTCC CGAACCGATA AACTAAAAAG CGTGTTGAAG 
    AAATATGCAG AAGTCATAGA GAAAACTTCC TACCTCATGC GGCCCGAAGT GTACAGGCTG 
    ATAAATGAAG AAGCCATGGT CATGAACTAT GCCCTGCTGG GCAACCGGAA GGCTCTCGCC 
    CAGCTGTTTG TCAACCTGAT GGAGTCCACC CTGCAGCAGG AGCTGGACAG CCGCCACCGC 
    TGGCAAGGCT TGGTGGACAC CTGGAAGGCT CTCAAGAAGG AGGCCCTGCT GCAGAGTTTC 
    AGTGAGTTCA TGGCCAGTGA GAGTATCCAT ACTCCCCCGG CTGTGACGAA GGAGCTAGAG 
    GTCATGCTGA AGACCCAGAA CGTCCTGCAG CAAAGGCGGC TGAAGCATCT CTGCACCATC 
    TGTGACCTCC TGCCCCCCAG TTACAGCAAA ACTCAGCTGA CTGAGTGGCA TTCTTCCCTC 
    AACTCCCTGA ACAAGGAGCT AGACACCTAC CACGTGGACT GCATGATGCG GATCCGCCTG 
    CTGTATGAGA AGACATGGCA GGAGTGCCTG ATGCATGTGC AGAATTGTAA GAAGCAGCTG 
    CTGGACTGGA AAGCCTTCAC TGAGGAGGAG GCAGAGACCC TGGTGAACCA GTTCTTCTTC 
    CAGATGGTGG GAGCACTCCA GGGCAAAGTG GAGGAGGACC TGGAGCTCTT GGACAAATCC 
    TTCGAGACTC TGGCAGATCA GACAGAGTGG CAGAGTTCAC ACCTCTTCAA GTATTTCCAG 
    GAGGTGGTAC AACTGTGGGA GGCACACCAG AGCGAGCTGT TGGTGCAGGA GCTGGAGCTG 
    GAGAAGAGGA TGGAGCAGCA CCGGCAGAAG CACAGCCTGG AGAGCCAGGT GCAGGAGGCC 
    CACCTCGATA GGCTCTTGGA CCAACTGAGG CAGCAAAGTG ACAAAGAAAC ACTGGCGTTT 
    CACCTGGAAA AGGTCAAAGA TTATCTGAAG AACATGAAAT CCAGGTATGA ATGTTTTCAC 
    ACCCTCCTGA CAAAGGAAGT GATGGAGTAC CCAGCGATCA TGCTGAAAGA ACTCAACTCC 
    TACAGCTCTG CCCTCAGCCA ATACTTCTTT GTGCGTGAAA TCTTTGAACA GAACTTGGCT 
    GGAGAAGTCA TTTTCAAATT CAGGCAACCA GAAGCACATG AAAAACCCTC CCAGAAGAGA 
    GTGAAAAAAC TGAGGAAGAA GCAAGGGTCT AAAGAGGACA TGACCAGAAG TGAGGAAAGC 
    ATAAGTAGTG GGACAAGTAC TGCCAGGTCA GTAGAAGAGG TGGAAGAAGA AAACGATCAA 
    GAAATGGAGT CCTTCATAAC TGAAGAGGTG CTGGGGCAGC AGAAAAAATC TCCACTGCAT 
    GCTAAGATGG ATGAGTCCAA AGAAGGCTCT ATTCAGGGAC TGGAAGAAAT GCAGGTTGAA 
    AGAGAGGGCT CCTTAAACCC ATCCCTGAAT GAGGAGAATG TGAAGGGTCA AGGAGAAAAG 
    AAGGAGGAGT CAGAGGAGGA AGATGAGAAG GAGGAAGAGG AGGAGGAGGA GAAGCTGGAG 
    GAAGAGAAGG AGGAGAAGGA GGCACAGGAA GAGCAAGAGA GTTTATCTGT GGGTGAGGAA 
    GAAGACAAGG AAGAGGGTCT AGAGGAGATA TACTATGAGG ACATGGAGTC CTTCACAATC 
    TCCAGTGGAA ACACTTATTT TGTCTTTGTA CCCCTGGAAG AAGAGCATTG TAGGAAGTCC 
    CATTCCACCT TCTCAGCCAT GTTCATCAAC GACACTTCCA GTGCCAAGTT CATAGAACAA 
    GTGACAATTC CATCGAGACT AATTTTAGAA ATTAAGAAAC ACCGGGCATG GTGGTGTGTG 
    CCTGTAATTC CAGCTACTCA AGAGGCTGAA GCAGGAGAAT CGCCTGAACC CAGGAGGCGG 
    AGGTTACAGT GA

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

    CCDC180 ( NM_001348010.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001334939.1 Homo sapiens coiled-coil domain containing 180 (CCDC180), transcript variant 2, mRNA.
    Price & Availability↑
    CloneID OHu101289
    Clone ID Related Accession (Same CDS sequence) NM_001348010.2 , NM_001348010.1
    Accession Version NM_001348010.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2712bp)
    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 2018-06-30
    Organism Homo sapiens(human)
    Product coiled-coil domain-containing protein 180 isoform 2
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AK302965.1 and AL512590.2. Transcript Variant: This variant (2) has multiple differences compared to variant 1. These differences result in distinct 5' and 3' UTRs, and a novel 3' coding region. The encoded isoform (2) is shorter and has a distinct C-terminus, compared to isoform 1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. ##Evidence-Data-START## Transcript exon combination :: AK302965.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968968, SAMEA2151119 [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
    ATGCGCGGCG GGGAGAACCG GCCTCCTGCT CGAGTTCAGA GCTCATCTGA GGAATTGGAA 
    TTGAGACACC AAAGCCTAGA CGCGTTTCCT GGACGACGGC TTCCCGGCAG GGGCATCCAG 
    CCAGCGGCCA AGATGTCGTC AGTGGGGAAG GTGACCCAGG TTCCGAATGG GAAAGCCTAC 
    CAGCAGATCT TCCAGGCTGA GGTGCAGCTG GTCCACTCCC TGGCGGCCAC CAGGAAGCGG 
    GCTGCAGAGC GTTCTGTGAC CCTGAAGAGT GGCAGGATAC CCATGATGAA GAAGGTGGAG 
    ACTCCTGAAG GGGAGGTGAT GTCTCCCCGA CAGCAGAAGT GGATGCACAG CCTCCCCAAC 
    GACTGGATCA TGGAAAACCC TGTTCTCCAC AGGGAAAAGG AAAGAGCCAA GAGGGAAAAA 
    GCCCGAGAGA GTGAGAACAC CATCGCTGCC CGAGAAGTGC GGGGTCTCAT GGATACTATA 
    GTTCCTGAGA AGATAAGCAC CAGCACCTTT CAAAGGCAAG CAGAACACAA GAGGAAGAGC 
    TACGAGAGCG CTCTGGCCAG CTTTCAGGAG GAGATTGCGC AGGAAATGGA ACCTCTCATC 
    GTGGACACAG GGGGACTTTT TTTGAAGAAG CTGACTGAGT CTGATGAAGA AATGAACCGT 
    CTCTTCCTAA AGGTGGAAAA TGACACCAAC CTTGAGGACT ACACCATCCA AGCCCTGCTG 
    GAGCTGTGGG ATAAGGTGGC CGGGCGGTTA CTGCTCCGGA AGCAGGAGAT TAAGGAGCTG 
    GATGAGGCCC TGCACTCGCT GGAGTTCTCC CGAACCGATA AACTAAAAAG CGTGTTGAAG 
    AAATATGCAG AAGTCATAGA GAAAACTTCC TACCTCATGC GGCCCGAAGT GTACAGGCTG 
    ATAAATGAAG AAGCCATGGT CATGAACTAT GCCCTGCTGG GCAACCGGAA GGCTCTCGCC 
    CAGCTGTTTG TCAACCTGAT GGAGTCCACC CTGCAGCAGG AGCTGGACAG CCGCCACCGC 
    TGGCAAGGCT TGGTGGACAC CTGGAAGGCT CTCAAGAAGG AGGCCCTGCT GCAGAGTTTC 
    AGTGAGTTCA TGGCCAGTGA GAGTATCCAT ACTCCCCCGG CTGTGACGAA GGAGCTAGAG 
    GTCATGCTGA AGACCCAGAA CGTCCTGCAG CAAAGGCGGC TGAAGCATCT CTGCACCATC 
    TGTGACCTCC TGCCCCCCAG TTACAGCAAA ACTCAGCTGA CTGAGTGGCA TTCTTCCCTC 
    AACTCCCTGA ACAAGGAGCT AGACACCTAC CACGTGGACT GCATGATGCG GATCCGCCTG 
    CTGTATGAGA AGACATGGCA GGAGTGCCTG ATGCATGTGC AGAATTGTAA GAAGCAGCTG 
    CTGGACTGGA AAGCCTTCAC TGAGGAGGAG GCAGAGACCC TGGTGAACCA GTTCTTCTTC 
    CAGATGGTGG GAGCACTCCA GGGCAAAGTG GAGGAGGACC TGGAGCTCTT GGACAAATCC 
    TTCGAGACTC TGGCAGATCA GACAGAGTGG CAGAGTTCAC ACCTCTTCAA GTATTTCCAG 
    GAGGTGGTAC AACTGTGGGA GGCACACCAG AGCGAGCTGT TGGTGCAGGA GCTGGAGCTG 
    GAGAAGAGGA TGGAGCAGCA CCGGCAGAAG CACAGCCTGG AGAGCCAGGT GCAGGAGGCC 
    CACCTCGATA GGCTCTTGGA CCAACTGAGG CAGCAAAGTG ACAAAGAAAC ACTGGCGTTT 
    CACCTGGAAA AGGTCAAAGA TTATCTGAAG AACATGAAAT CCAGGTATGA ATGTTTTCAC 
    ACCCTCCTGA CAAAGGAAGT GATGGAGTAC CCAGCGATCA TGCTGAAAGA ACTCAACTCC 
    TACAGCTCTG CCCTCAGCCA ATACTTCTTT GTGCGTGAAA TCTTTGAACA GAACTTGGCT 
    GGAGAAGTCA TTTTCAAATT CAGGCAACCA GAAGCACATG AAAAACCCTC CCAGAAGAGA 
    GTGAAAAAAC TGAGGAAGAA GCAAGGGTCT AAAGAGGACA TGACCAGAAG TGAGGAAAGC 
    ATAAGTAGTG GGACAAGTAC TGCCAGGTCA GTAGAAGAGG TGGAAGAAGA AAACGATCAA 
    GAAATGGAGT CCTTCATAAC TGAAGAGGTG CTGGGGCAGC AGAAAAAATC TCCACTGCAT 
    GCTAAGATGG ATGAGTCCAA AGAAGGCTCT ATTCAGGGAC TGGAAGAAAT GCAGGTTGAA 
    AGAGAGGGCT CCTTAAACCC ATCCCTGAAT GAGGAGAATG TGAAGGGTCA AGGAGAAAAG 
    AAGGAGGAGT CAGAGGAGGA AGATGAGAAG GAGGAAGAGG AGGAGGAGGA GAAGCTGGAG 
    GAAGAGAAGG AGGAGAAGGA GGCACAGGAA GAGCAAGAGA GTTTATCTGT GGGTGAGGAA 
    GAAGACAAGG AAGAGGGTCT AGAGGAGATA TACTATGAGG ACATGGAGTC CTTCACAATC 
    TCCAGTGGAA ACACTTATTT TGTCTTTGTA CCCCTGGAAG AAGAGCATTG TAGGAAGTCC 
    CATTCCACCT TCTCAGCCAT GTTCATCAAC GACACTTCCA GTGCCAAGTT CATAGAACAA 
    GTGACAATTC CATCGAGACT AATTTTAGAA ATTAAGAAAC ACCGGGCATG GTGGTGTGTG 
    CCTGTAATTC CAGCTACTCA AGAGGCTGAA GCAGGAGAAT CGCCTGAACC CAGGAGGCGG 
    AGGTTACAGT GA

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

    RefSeq NP_001334939.1
    CDS212..2923
    Translation

    Target ORF information:

    RefSeq Version NM_001348010.1
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 180 (CCDC180), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001348010.1

    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
    ATGCGCGGCG GGGAGAACCG GCCTCCTGCT CGAGTTCAGA GCTCATCTGA GGAATTGGAA 
    TTGAGACACC AAAGCCTAGA CGCGTTTCCT GGACGACGGC TTCCCGGCAG GGGCATCCAG 
    CCAGCGGCCA AGATGTCGTC AGTGGGGAAG GTGACCCAGG TTCCGAATGG GAAAGCCTAC 
    CAGCAGATCT TCCAGGCTGA GGTGCAGCTG GTCCACTCCC TGGCGGCCAC CAGGAAGCGG 
    GCTGCAGAGC GTTCTGTGAC CCTGAAGAGT GGCAGGATAC CCATGATGAA GAAGGTGGAG 
    ACTCCTGAAG GGGAGGTGAT GTCTCCCCGA CAGCAGAAGT GGATGCACAG CCTCCCCAAC 
    GACTGGATCA TGGAAAACCC TGTTCTCCAC AGGGAAAAGG AAAGAGCCAA GAGGGAAAAA 
    GCCCGAGAGA GTGAGAACAC CATCGCTGCC CGAGAAGTGC GGGGTCTCAT GGATACTATA 
    GTTCCTGAGA AGATAAGCAC CAGCACCTTT CAAAGGCAAG CAGAACACAA GAGGAAGAGC 
    TACGAGAGCG CTCTGGCCAG CTTTCAGGAG GAGATTGCGC AGGAAATGGA ACCTCTCATC 
    GTGGACACAG GGGGACTTTT TTTGAAGAAG CTGACTGAGT CTGATGAAGA AATGAACCGT 
    CTCTTCCTAA AGGTGGAAAA TGACACCAAC CTTGAGGACT ACACCATCCA AGCCCTGCTG 
    GAGCTGTGGG ATAAGGTGGC CGGGCGGTTA CTGCTCCGGA AGCAGGAGAT TAAGGAGCTG 
    GATGAGGCCC TGCACTCGCT GGAGTTCTCC CGAACCGATA AACTAAAAAG CGTGTTGAAG 
    AAATATGCAG AAGTCATAGA GAAAACTTCC TACCTCATGC GGCCCGAAGT GTACAGGCTG 
    ATAAATGAAG AAGCCATGGT CATGAACTAT GCCCTGCTGG GCAACCGGAA GGCTCTCGCC 
    CAGCTGTTTG TCAACCTGAT GGAGTCCACC CTGCAGCAGG AGCTGGACAG CCGCCACCGC 
    TGGCAAGGCT TGGTGGACAC CTGGAAGGCT CTCAAGAAGG AGGCCCTGCT GCAGAGTTTC 
    AGTGAGTTCA TGGCCAGTGA GAGTATCCAT ACTCCCCCGG CTGTGACGAA GGAGCTAGAG 
    GTCATGCTGA AGACCCAGAA CGTCCTGCAG CAAAGGCGGC TGAAGCATCT CTGCACCATC 
    TGTGACCTCC TGCCCCCCAG TTACAGCAAA ACTCAGCTGA CTGAGTGGCA TTCTTCCCTC 
    AACTCCCTGA ACAAGGAGCT AGACACCTAC CACGTGGACT GCATGATGCG GATCCGCCTG 
    CTGTATGAGA AGACATGGCA GGAGTGCCTG ATGCATGTGC AGAATTGTAA GAAGCAGCTG 
    CTGGACTGGA AAGCCTTCAC TGAGGAGGAG GCAGAGACCC TGGTGAACCA GTTCTTCTTC 
    CAGATGGTGG GAGCACTCCA GGGCAAAGTG GAGGAGGACC TGGAGCTCTT GGACAAATCC 
    TTCGAGACTC TGGCAGATCA GACAGAGTGG CAGAGTTCAC ACCTCTTCAA GTATTTCCAG 
    GAGGTGGTAC AACTGTGGGA GGCACACCAG AGCGAGCTGT TGGTGCAGGA GCTGGAGCTG 
    GAGAAGAGGA TGGAGCAGCA CCGGCAGAAG CACAGCCTGG AGAGCCAGGT GCAGGAGGCC 
    CACCTCGATA GGCTCTTGGA CCAACTGAGG CAGCAAAGTG ACAAAGAAAC ACTGGCGTTT 
    CACCTGGAAA AGGTCAAAGA TTATCTGAAG AACATGAAAT CCAGGTATGA ATGTTTTCAC 
    ACCCTCCTGA CAAAGGAAGT GATGGAGTAC CCAGCGATCA TGCTGAAAGA ACTCAACTCC 
    TACAGCTCTG CCCTCAGCCA ATACTTCTTT GTGCGTGAAA TCTTTGAACA GAACTTGGCT 
    GGAGAAGTCA TTTTCAAATT CAGGCAACCA GAAGCACATG AAAAACCCTC CCAGAAGAGA 
    GTGAAAAAAC TGAGGAAGAA GCAAGGGTCT AAAGAGGACA TGACCAGAAG TGAGGAAAGC 
    ATAAGTAGTG GGACAAGTAC TGCCAGGTCA GTAGAAGAGG TGGAAGAAGA AAACGATCAA 
    GAAATGGAGT CCTTCATAAC TGAAGAGGTG CTGGGGCAGC AGAAAAAATC TCCACTGCAT 
    GCTAAGATGG ATGAGTCCAA AGAAGGCTCT ATTCAGGGAC TGGAAGAAAT GCAGGTTGAA 
    AGAGAGGGCT CCTTAAACCC ATCCCTGAAT GAGGAGAATG TGAAGGGTCA AGGAGAAAAG 
    AAGGAGGAGT CAGAGGAGGA AGATGAGAAG GAGGAAGAGG AGGAGGAGGA GAAGCTGGAG 
    GAAGAGAAGG AGGAGAAGGA GGCACAGGAA GAGCAAGAGA GTTTATCTGT GGGTGAGGAA 
    GAAGACAAGG AAGAGGGTCT AGAGGAGATA TACTATGAGG ACATGGAGTC CTTCACAATC 
    TCCAGTGGAA ACACTTATTT TGTCTTTGTA CCCCTGGAAG AAGAGCATTG TAGGAAGTCC 
    CATTCCACCT TCTCAGCCAT GTTCATCAAC GACACTTCCA GTGCCAAGTT CATAGAACAA 
    GTGACAATTC CATCGAGACT AATTTTAGAA ATTAAGAAAC ACCGGGCATG GTGGTGTGTG 
    CCTGTAATTC CAGCTACTCA AGAGGCTGAA GCAGGAGAAT CGCCTGAACC CAGGAGGCGG 
    AGGTTACAGT GA

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

見積依頼

Eメール

japanmarket@genscript.com

電話

03-6811-6572

FAX

03-6811-6573
050-3174-7589(受注専用)

オンラインフォーム

オンライン注文