CCDC144A cDNA ORF clone, Homo sapiens(human)

The following CCDC144A gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CCDC144A 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
OHu63210 NM_014695.3
Latest version!
Homo sapiens coiled-coil domain containing 144A (CCDC144A), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$519.50-$727.30
$1039.00
OHu63209 XM_011524089.2
Latest version!
Homo sapiens coiled-coil domain containing 144A (CCDC144A), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 7-9 $307.30
$439.00
OHu104501 XM_024451045.1
Latest version!
Homo sapiens coiled-coil domain containing 144A (CCDC144A), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu104502 XM_024451046.1
Latest version!
Homo sapiens coiled-coil domain containing 144A (CCDC144A), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu87689 XM_017025429.2
Latest version!
Homo sapiens coiled-coil domain containing 144A (CCDC144A), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu87690 XM_017025430.1
Latest version!
Homo sapiens coiled-coil domain containing 144A (CCDC144A), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
View Old Accession Versions >>
OHu87689 XM_017025429.1 Homo sapiens coiled-coil domain containing 144A (CCDC144A), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu63210 NM_014695.2 Homo sapiens coiled-coil domain containing 144A (CCDC144A), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$519.50-$727.30
$1039.00
Hide Old Accession Versions >>

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

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

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

  • Reference Sequences (Refseq)
    CloneID OHu63210
    Clone ID Related Accession (Same CDS sequence) NM_014695.3 , NM_014695.2
    Accession Version NM_014695.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4284bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-01
    Organism Homo sapiens(human)
    Product coiled-coil domain-containing protein 144A
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC098850.2, BC133019.1 and BC144225.1. On Jun 2, 2019 this sequence version replaced NM_014695.2. Transcript Variant: This variant (1) represents the longer transcript and encodes the protein. ##Evidence-Data-START## Transcript exon combination :: BC144225.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMN03465402 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## RefSeq Select criteria :: based on expression ##RefSeq-Attributes-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGCCTCCT GGGGTGGAGA AAAGCGGGGA GGGGCTGAGG GGTCTCCGAA GCCGGCAGTC 
    TACGCCACGA GGAAGACCCC TAGCGTCGGG AGCCAGGGGG ACCAGTGGTA CTTGGGCTAC
    CCGGGGGACC AGTGGTCCTC GGGCTTCCCC TACAGCTGGT GGAAAAACAG CGTCGGCAGC
    GAGAGCAAGC ACGGTGAGGG CGCCTTAGAC CAGCCCCAGC ACGACGTCCG CCTGGAAGAT
    CTTGGCGAGC TCCACAGAGC TGCCCGGTCG GGCGACGTCC CTGGGGTGGA GCACATCTTA
    GCTCCTGGAG ACACTGGCGT GGACAAGAGG GATAGGAAGA AGAGCATTCA GCAACTAGTT
    CCTGAATATA AGGAAAAACA GACACCTGAA AGTCTTCCTC AAAATAACAA TCCAGATTGG
    CATCCTACTA ATTTGACCCT TAGTGATGAG ACTTGTCAGA GATCCAAGAA TCTGAAAGTT
    GATGATAAAT GTCCATCTGT ATCACCATCA ATGCCTGAAA ATCAGTCAGC AACCAAAGAA
    CTGGGACAGA TGAACTTAAC AGAACGAGAA AAGATGGACA CTGGAGTTGT ACTTCTCTCA
    GGGAATGATA CTCTCCATGA CCTGTGCCAA TCACAGCTAC CAGAAAACAA AGAGAGCAAA
    GAAGCAGAAC AAGACTCGGA GCTGACATCA GAGGAAGAGC AAGAAAGACT TAAAGGATGC
    GAAAATAAGC AGCCACAGAA AACGTCTCAA GAACCAGAAA TGGCTAAGGA TTGCGATAGA
    GAGGATATAC CTATATATCC AGTACTTCCT CATGTGCAAA AATCTGAGGA AATGTGGATT
    GAACAAGGCA AATTAGAGTG GAAAAACCAA TTAAAACTCG TCATAAATGA GTTAAAGCAG
    AGGTTTGGTG AAATTTATGA AAAATACAAA ATTCCGGCTT GTCCTGAGGA AGAGCCACTA
    CTTGATAACT CTACAAGAGG AACAGATGTA AAGGATATTC CCTTTAATTT GACAAATAAC
    ATACCTGGTT GTGAGGAAGA AGATGCATCT GAAATATCTG TCTCAGTGGT ATTCGAGACA
    TTTCCTGAAC AAAAAGAACC CAGTCTCAAA AATATCATCC ATCCATACTA TCATCCATAC
    TCTGGGTCCC AGGAACATGT TTGCCAGTCA TCTTCTAAGT TTCATTTACA TGAAAATAAA
    TTAGACTGCG ACAATGATAA CAAACCAGGC ATTGGACATA TTTTTAGTAC AGATAAGAAC
    TTTCATAATG ATGCAAGCAC TAAGAAAGCA AGGAACCCAG AAGTGGTTAT GGTTGAAATG
    AAAGAAGACC AAGAGTTTGA TTTGCAAATG ACAAAAAATA TGAACCAAAA TAGTGACAGT
    GGCAGTACAA ACAACTATAA AAGCCTGAAA CCTAAATTAG AAAATCTGAG TTCTTTACCA
    CCAGATTCTG ACAGAACATC AGAAGTATAT CTACATGAAG AATTACAGCA AGACATGCAA
    AAGTTTAAGA ATGAGGTCAA CACATTAGAA GAAGAGTTCC TGGCTTTGAA GAAAGAAGAT
    GTTCAACTTC ATAAAGATGT TGAAGAAGAA ATGGAGAAGC ACAGAAGTAA TAGCACAGAA
    TTATCAGGAA CCCTAACTGA TGGTACTACT GTTGGCAATG ATGATGATGG ACTAAATCAG
    CAGATTCCTA GGAAGGAAAA TGGAGAGCAT GACAGGCCTG CAGATAAAAC ATCTAATGAA
    AAGAACGAGG TCAAAAACCA AATATATCCT GAGGCTGACT TTGCTGACTC AATGGAGCCA
    TCTGAAATAG CCTCAGAGGA TTGTGAATTG TCTCACTCTG TTTATGAGAA TTTTATGTTG
    CTGATTGAAC AACTTAGAAT GGAGTATAAA GATTCTGCTA GCCTACCAAG AATCCAAGAC
    ACATTTTGTT TGTGTGAACA CTTACTGAAA CTTAAGAATA ATCACTGTGA CCAACTTACA
    GTAAAACTTA AACAAATGGA AAATATGGTC AGTGTACTAC AAAATGAGCT ATCTGAAACA
    AAAAAGACAA AATTACAGTT AGAACTTCAA AAAATTGAAT GGGAGAAAGA GCTGTACGAT
    TTGAGACTTG CCTTAAAACA AGAAAATGAG GAGAAAAGAA ATGCCGATAT GTTGTATAAT
    AAAGATAGTG AACAGTTAAG AATAAAAGAA GAGGAGTGTG GGAAAGTGGT TGAAACAAAG
    CAACAACTTA AATGGAATCT GAGAAGACTT GTTAAGGAAT TGAGGACAGT AAGAAATAAC
    TTGGATCTGG TTGTGCAGGA GAGAAACGAT GCCCAGAAGC AACTTTCTGA AGAACAGGAT
    GCCAGAATAT TACAAGATCA GATTCTGACG AGTAAACAAA AGGAACTAGA AATGGCTCGA
    AAGAAAATGA ATTCTGAGAT TTCTCATAGG CATCAGAAAG AAAAGGATCT CTTTCATGAA
    GATTGCATGT TGCAGGAAGA AATTGCCTTG CTGAGACTGG AAATAGATAC AATAAAAAAT
    CAGAACAAGC AAAAGGAAAA GAAATATTTT GAGGACATTG AGGCTGTGAA AGAAAAGAAT
    GATAACCTTC AAAAAATTAT AAAACTAAAT GAGGAAACAT TAACAGAAAC AATACTCCAG
    TACAGTGGAC AGCTGAACAA TCTGACAGCT GAGAACAAAA TACTCAATTC TGAACTGGAG
    AATGGGAAAC AGAACCAAGA AAGACTAGAA ATAGAAATGG AATCATACCG TTGTAGACTA
    GCTGCTGCTG TACGTGACTG TGATCAAAGT CAGACAGCAA GAGACCTAAA ACTTGATTTC
    CAGAGAACAA GACAAGAGTG GGTTCGTTTA CATGACAAAA TGAAGGTTGA TATGTCTGGC
    CTACAAGCTA AGAATGAGAT TCTTTCTGAA AAACTTTCTA ATGCTGAAAG TAAAATTAAC
    AGCCTACAAA TTCAGCTCCA TAACACAAGA GATGCTCTTG GAAGAGAGAG TTTGATTTTG
    GAACGTGTGC AAAGAGACCT CAGCCAAACA CAGTGTCAGA AGAAAGAAAC TGAACAAATG
    TACCAAATTG AACAAAGCAA ACTGAAGAAA TACATTGCCA AGCAGGAATC TGTAGAGGAG
    AGATTATCTC AACTACAAAG TGAAAATATG TTGCTTCGAC AGCAACTGGA TGATGCTCAC
    AAGAAAGCTA ACAGTCAAGA AAAGACAAGC AGTACTATCC AAGACCAGTT TCATTCTGCT
    GCCAAAAATC TTCAAGCTGA GAGTGAAAAG CAGATTCTTT CACTACAAGA GAAGAACAAG
    GAGCTGATGG ATGAATATAA TCATTTAAAA GAAAGAATGG ATCAATGTGA GAAAGAGAAA
    GCAGGAAGAA AAATTGACCT TACAGAAGCA CAGGAAACTG TACCTTCACG ATGTCTACAT
    CTGGATGCAG AGAATGAAGT TCTTCAACTT CAACAGACAT TATTCTCTAT GAAAGCAATA
    CAAAAGCAAT GTGAAACACT ACAGAAGAAT AAGAAGCAGC TGAAACAAGA AGTAGTAAAC
    CTCAAAAGTT ATATGGAAAG AAATATGTTA GAACGTGGTA AAGCTGAATG GCATAAACTG
    TTGATTGAAG AAAGAGCAAG GAAGGAGATA GAAGAAAAAT TAAACGAAGC CATTCTCACC
    TTGCAGAAAC AAGCAGCAGT ATCTCATGAA CAGTTAGTAC AGTTAAGGGA GGATAATACT
    ACTTCAATAA AAACTCAGAT GGAACTCACA ATCAAAGATC TGGAATCTGA AATCTCCAGA
    ATAAAAACTT CGCAAGCCGA CTTTAATAAA ACCGAATTGG AAAGATATAA GGAACTCTAC
    CTAGAAGAAG TGAAAGTTAG AGAATCCTTG TCAAATGAAC TCAGTAGAAC TAATGAGATG
    ATAGCAGAGG TCAGTACGCA ACTTACTGTG GAGAAAGAGC AGACCAGATC CAGATCTCTA
    TTCACTGCTT ATGCTACAAG GCCAGTCCTA GAGTCACCTT GCGTTGGAAA TCTTAATGAT
    AGTGAAGGTC TCAACAGAAA ACATATTCCA AGAAAAAAGA GGTCTGCTCT TAAGGACATG
    GAGAGCTACT TGTTGAAGAT GCAGCAGAAG TTGCAAAATG ATCTAACTGC AGAAGTAGCA
    GGATCCAGCC AAACTGGACT GCACAGAATT CCACAGTGCT CGTCCTTCTC CTCCAGCTCT
    TTGCACTTGC TTCTTTGCTC TATCTGCCAA CCTTTTTTTC TCATCCTTCA GCTGCTACTA
    AATATGAACC TGGATCCTAT ATAG

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

    RefSeq NP_055510.1
    CDS161..4444
    Translation

    Target ORF information:

    RefSeq Version NM_014695.3
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 144A (CCDC144A), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_014695.3

    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
    ATGGCCTCCT GGGGTGGAGA AAAGCGGGGA GGGGCTGAGG GGTCTCCGAA GCCGGCAGTC 
    TACGCCACGA GGAAGACCCC TAGCGTCGGG AGCCAGGGGG ACCAGTGGTA CTTGGGCTAC
    CCGGGGGACC AGTGGTCCTC GGGCTTCCCC TACAGCTGGT GGAAAAACAG CGTCGGCAGC
    GAGAGCAAGC ACGGTGAGGG CGCCTTAGAC CAGCCCCAGC ACGACGTCCG CCTGGAAGAT
    CTTGGCGAGC TCCACAGAGC TGCCCGGTCG GGCGACGTCC CTGGGGTGGA GCACATCTTA
    GCTCCTGGAG ACACTGGCGT GGACAAGAGG GATAGGAAGA AGAGCATTCA GCAACTAGTT
    CCTGAATATA AGGAAAAACA GACACCTGAA AGTCTTCCTC AAAATAACAA TCCAGATTGG
    CATCCTACTA ATTTGACCCT TAGTGATGAG ACTTGTCAGA GATCCAAGAA TCTGAAAGTT
    GATGATAAAT GTCCATCTGT ATCACCATCA ATGCCTGAAA ATCAGTCAGC AACCAAAGAA
    CTGGGACAGA TGAACTTAAC AGAACGAGAA AAGATGGACA CTGGAGTTGT ACTTCTCTCA
    GGGAATGATA CTCTCCATGA CCTGTGCCAA TCACAGCTAC CAGAAAACAA AGAGAGCAAA
    GAAGCAGAAC AAGACTCGGA GCTGACATCA GAGGAAGAGC AAGAAAGACT TAAAGGATGC
    GAAAATAAGC AGCCACAGAA AACGTCTCAA GAACCAGAAA TGGCTAAGGA TTGCGATAGA
    GAGGATATAC CTATATATCC AGTACTTCCT CATGTGCAAA AATCTGAGGA AATGTGGATT
    GAACAAGGCA AATTAGAGTG GAAAAACCAA TTAAAACTCG TCATAAATGA GTTAAAGCAG
    AGGTTTGGTG AAATTTATGA AAAATACAAA ATTCCGGCTT GTCCTGAGGA AGAGCCACTA
    CTTGATAACT CTACAAGAGG AACAGATGTA AAGGATATTC CCTTTAATTT GACAAATAAC
    ATACCTGGTT GTGAGGAAGA AGATGCATCT GAAATATCTG TCTCAGTGGT ATTCGAGACA
    TTTCCTGAAC AAAAAGAACC CAGTCTCAAA AATATCATCC ATCCATACTA TCATCCATAC
    TCTGGGTCCC AGGAACATGT TTGCCAGTCA TCTTCTAAGT TTCATTTACA TGAAAATAAA
    TTAGACTGCG ACAATGATAA CAAACCAGGC ATTGGACATA TTTTTAGTAC AGATAAGAAC
    TTTCATAATG ATGCAAGCAC TAAGAAAGCA AGGAACCCAG AAGTGGTTAT GGTTGAAATG
    AAAGAAGACC AAGAGTTTGA TTTGCAAATG ACAAAAAATA TGAACCAAAA TAGTGACAGT
    GGCAGTACAA ACAACTATAA AAGCCTGAAA CCTAAATTAG AAAATCTGAG TTCTTTACCA
    CCAGATTCTG ACAGAACATC AGAAGTATAT CTACATGAAG AATTACAGCA AGACATGCAA
    AAGTTTAAGA ATGAGGTCAA CACATTAGAA GAAGAGTTCC TGGCTTTGAA GAAAGAAGAT
    GTTCAACTTC ATAAAGATGT TGAAGAAGAA ATGGAGAAGC ACAGAAGTAA TAGCACAGAA
    TTATCAGGAA CCCTAACTGA TGGTACTACT GTTGGCAATG ATGATGATGG ACTAAATCAG
    CAGATTCCTA GGAAGGAAAA TGGAGAGCAT GACAGGCCTG CAGATAAAAC ATCTAATGAA
    AAGAACGAGG TCAAAAACCA AATATATCCT GAGGCTGACT TTGCTGACTC AATGGAGCCA
    TCTGAAATAG CCTCAGAGGA TTGTGAATTG TCTCACTCTG TTTATGAGAA TTTTATGTTG
    CTGATTGAAC AACTTAGAAT GGAGTATAAA GATTCTGCTA GCCTACCAAG AATCCAAGAC
    ACATTTTGTT TGTGTGAACA CTTACTGAAA CTTAAGAATA ATCACTGTGA CCAACTTACA
    GTAAAACTTA AACAAATGGA AAATATGGTC AGTGTACTAC AAAATGAGCT ATCTGAAACA
    AAAAAGACAA AATTACAGTT AGAACTTCAA AAAATTGAAT GGGAGAAAGA GCTGTACGAT
    TTGAGACTTG CCTTAAAACA AGAAAATGAG GAGAAAAGAA ATGCCGATAT GTTGTATAAT
    AAAGATAGTG AACAGTTAAG AATAAAAGAA GAGGAGTGTG GGAAAGTGGT TGAAACAAAG
    CAACAACTTA AATGGAATCT GAGAAGACTT GTTAAGGAAT TGAGGACAGT AAGAAATAAC
    TTGGATCTGG TTGTGCAGGA GAGAAACGAT GCCCAGAAGC AACTTTCTGA AGAACAGGAT
    GCCAGAATAT TACAAGATCA GATTCTGACG AGTAAACAAA AGGAACTAGA AATGGCTCGA
    AAGAAAATGA ATTCTGAGAT TTCTCATAGG CATCAGAAAG AAAAGGATCT CTTTCATGAA
    GATTGCATGT TGCAGGAAGA AATTGCCTTG CTGAGACTGG AAATAGATAC AATAAAAAAT
    CAGAACAAGC AAAAGGAAAA GAAATATTTT GAGGACATTG AGGCTGTGAA AGAAAAGAAT
    GATAACCTTC AAAAAATTAT AAAACTAAAT GAGGAAACAT TAACAGAAAC AATACTCCAG
    TACAGTGGAC AGCTGAACAA TCTGACAGCT GAGAACAAAA TACTCAATTC TGAACTGGAG
    AATGGGAAAC AGAACCAAGA AAGACTAGAA ATAGAAATGG AATCATACCG TTGTAGACTA
    GCTGCTGCTG TACGTGACTG TGATCAAAGT CAGACAGCAA GAGACCTAAA ACTTGATTTC
    CAGAGAACAA GACAAGAGTG GGTTCGTTTA CATGACAAAA TGAAGGTTGA TATGTCTGGC
    CTACAAGCTA AGAATGAGAT TCTTTCTGAA AAACTTTCTA ATGCTGAAAG TAAAATTAAC
    AGCCTACAAA TTCAGCTCCA TAACACAAGA GATGCTCTTG GAAGAGAGAG TTTGATTTTG
    GAACGTGTGC AAAGAGACCT CAGCCAAACA CAGTGTCAGA AGAAAGAAAC TGAACAAATG
    TACCAAATTG AACAAAGCAA ACTGAAGAAA TACATTGCCA AGCAGGAATC TGTAGAGGAG
    AGATTATCTC AACTACAAAG TGAAAATATG TTGCTTCGAC AGCAACTGGA TGATGCTCAC
    AAGAAAGCTA ACAGTCAAGA AAAGACAAGC AGTACTATCC AAGACCAGTT TCATTCTGCT
    GCCAAAAATC TTCAAGCTGA GAGTGAAAAG CAGATTCTTT CACTACAAGA GAAGAACAAG
    GAGCTGATGG ATGAATATAA TCATTTAAAA GAAAGAATGG ATCAATGTGA GAAAGAGAAA
    GCAGGAAGAA AAATTGACCT TACAGAAGCA CAGGAAACTG TACCTTCACG ATGTCTACAT
    CTGGATGCAG AGAATGAAGT TCTTCAACTT CAACAGACAT TATTCTCTAT GAAAGCAATA
    CAAAAGCAAT GTGAAACACT ACAGAAGAAT AAGAAGCAGC TGAAACAAGA AGTAGTAAAC
    CTCAAAAGTT ATATGGAAAG AAATATGTTA GAACGTGGTA AAGCTGAATG GCATAAACTG
    TTGATTGAAG AAAGAGCAAG GAAGGAGATA GAAGAAAAAT TAAACGAAGC CATTCTCACC
    TTGCAGAAAC AAGCAGCAGT ATCTCATGAA CAGTTAGTAC AGTTAAGGGA GGATAATACT
    ACTTCAATAA AAACTCAGAT GGAACTCACA ATCAAAGATC TGGAATCTGA AATCTCCAGA
    ATAAAAACTT CGCAAGCCGA CTTTAATAAA ACCGAATTGG AAAGATATAA GGAACTCTAC
    CTAGAAGAAG TGAAAGTTAG AGAATCCTTG TCAAATGAAC TCAGTAGAAC TAATGAGATG
    ATAGCAGAGG TCAGTACGCA ACTTACTGTG GAGAAAGAGC AGACCAGATC CAGATCTCTA
    TTCACTGCTT ATGCTACAAG GCCAGTCCTA GAGTCACCTT GCGTTGGAAA TCTTAATGAT
    AGTGAAGGTC TCAACAGAAA ACATATTCCA AGAAAAAAGA GGTCTGCTCT TAAGGACATG
    GAGAGCTACT TGTTGAAGAT GCAGCAGAAG TTGCAAAATG ATCTAACTGC AGAAGTAGCA
    GGATCCAGCC AAACTGGACT GCACAGAATT CCACAGTGCT CGTCCTTCTC CTCCAGCTCT
    TTGCACTTGC TTCTTTGCTC TATCTGCCAA CCTTTTTTTC TCATCCTTCA GCTGCTACTA
    AATATGAACC TGGATCCTAT ATAG

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

    CloneID OHu63210
    Clone ID Related Accession (Same CDS sequence) NM_014695.3 , NM_014695.2
    Accession Version NM_014695.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4284bp)
    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 2018-06-29
    Organism Homo sapiens(human)
    Product coiled-coil domain-containing protein 144A
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from BC133019.1 and BC144225.1. On Dec 25, 2014 this sequence version replaced NM_014695.1. Transcript Variant: This variant (1) represents the longer transcript and encodes the protein. ##Evidence-Data-START## Transcript exon combination :: BC144225.1, BC133019.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMN03465402 [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
    ATGGCCTCCT GGGGTGGAGA AAAGCGGGGA GGGGCTGAGG GGTCTCCGAA GCCGGCAGTC 
    TACGCCACGA GGAAGACCCC TAGCGTCGGG AGCCAGGGGG ACCAGTGGTA CTTGGGCTAC
    CCGGGGGACC AGTGGTCCTC GGGCTTCCCC TACAGCTGGT GGAAAAACAG CGTCGGCAGC
    GAGAGCAAGC ACGGTGAGGG CGCCTTAGAC CAGCCCCAGC ACGACGTCCG CCTGGAAGAT
    CTTGGCGAGC TCCACAGAGC TGCCCGGTCG GGCGACGTCC CTGGGGTGGA GCACATCTTA
    GCTCCTGGAG ACACTGGCGT GGACAAGAGG GATAGGAAGA AGAGCATTCA GCAACTAGTT
    CCTGAATATA AGGAAAAACA GACACCTGAA AGTCTTCCTC AAAATAACAA TCCAGATTGG
    CATCCTACTA ATTTGACCCT TAGTGATGAG ACTTGTCAGA GATCCAAGAA TCTGAAAGTT
    GATGATAAAT GTCCATCTGT ATCACCATCA ATGCCTGAAA ATCAGTCAGC AACCAAAGAA
    CTGGGACAGA TGAACTTAAC AGAACGAGAA AAGATGGACA CTGGAGTTGT ACTTCTCTCA
    GGGAATGATA CTCTCCATGA CCTGTGCCAA TCACAGCTAC CAGAAAACAA AGAGAGCAAA
    GAAGCAGAAC AAGACTCGGA GCTGACATCA GAGGAAGAGC AAGAAAGACT TAAAGGATGC
    GAAAATAAGC AGCCACAGAA AACGTCTCAA GAACCAGAAA TGGCTAAGGA TTGCGATAGA
    GAGGATATAC CTATATATCC AGTACTTCCT CATGTGCAAA AATCTGAGGA AATGTGGATT
    GAACAAGGCA AATTAGAGTG GAAAAACCAA TTAAAACTCG TCATAAATGA GTTAAAGCAG
    AGGTTTGGTG AAATTTATGA AAAATACAAA ATTCCGGCTT GTCCTGAGGA AGAGCCACTA
    CTTGATAACT CTACAAGAGG AACAGATGTA AAGGATATTC CCTTTAATTT GACAAATAAC
    ATACCTGGTT GTGAGGAAGA AGATGCATCT GAAATATCTG TCTCAGTGGT ATTCGAGACA
    TTTCCTGAAC AAAAAGAACC CAGTCTCAAA AATATCATCC ATCCATACTA TCATCCATAC
    TCTGGGTCCC AGGAACATGT TTGCCAGTCA TCTTCTAAGT TTCATTTACA TGAAAATAAA
    TTAGACTGCG ACAATGATAA CAAACCAGGC ATTGGACATA TTTTTAGTAC AGATAAGAAC
    TTTCATAATG ATGCAAGCAC TAAGAAAGCA AGGAACCCAG AAGTGGTTAT GGTTGAAATG
    AAAGAAGACC AAGAGTTTGA TTTGCAAATG ACAAAAAATA TGAACCAAAA TAGTGACAGT
    GGCAGTACAA ACAACTATAA AAGCCTGAAA CCTAAATTAG AAAATCTGAG TTCTTTACCA
    CCAGATTCTG ACAGAACATC AGAAGTATAT CTACATGAAG AATTACAGCA AGACATGCAA
    AAGTTTAAGA ATGAGGTCAA CACATTAGAA GAAGAGTTCC TGGCTTTGAA GAAAGAAGAT
    GTTCAACTTC ATAAAGATGT TGAAGAAGAA ATGGAGAAGC ACAGAAGTAA TAGCACAGAA
    TTATCAGGAA CCCTAACTGA TGGTACTACT GTTGGCAATG ATGATGATGG ACTAAATCAG
    CAGATTCCTA GGAAGGAAAA TGGAGAGCAT GACAGGCCTG CAGATAAAAC ATCTAATGAA
    AAGAACGAGG TCAAAAACCA AATATATCCT GAGGCTGACT TTGCTGACTC AATGGAGCCA
    TCTGAAATAG CCTCAGAGGA TTGTGAATTG TCTCACTCTG TTTATGAGAA TTTTATGTTG
    CTGATTGAAC AACTTAGAAT GGAGTATAAA GATTCTGCTA GCCTACCAAG AATCCAAGAC
    ACATTTTGTT TGTGTGAACA CTTACTGAAA CTTAAGAATA ATCACTGTGA CCAACTTACA
    GTAAAACTTA AACAAATGGA AAATATGGTC AGTGTACTAC AAAATGAGCT ATCTGAAACA
    AAAAAGACAA AATTACAGTT AGAACTTCAA AAAATTGAAT GGGAGAAAGA GCTGTACGAT
    TTGAGACTTG CCTTAAAACA AGAAAATGAG GAGAAAAGAA ATGCCGATAT GTTGTATAAT
    AAAGATAGTG AACAGTTAAG AATAAAAGAA GAGGAGTGTG GGAAAGTGGT TGAAACAAAG
    CAACAACTTA AATGGAATCT GAGAAGACTT GTTAAGGAAT TGAGGACAGT AAGAAATAAC
    TTGGATCTGG TTGTGCAGGA GAGAAACGAT GCCCAGAAGC AACTTTCTGA AGAACAGGAT
    GCCAGAATAT TACAAGATCA GATTCTGACG AGTAAACAAA AGGAACTAGA AATGGCTCGA
    AAGAAAATGA ATTCTGAGAT TTCTCATAGG CATCAGAAAG AAAAGGATCT CTTTCATGAA
    GATTGCATGT TGCAGGAAGA AATTGCCTTG CTGAGACTGG AAATAGATAC AATAAAAAAT
    CAGAACAAGC AAAAGGAAAA GAAATATTTT GAGGACATTG AGGCTGTGAA AGAAAAGAAT
    GATAACCTTC AAAAAATTAT AAAACTAAAT GAGGAAACAT TAACAGAAAC AATACTCCAG
    TACAGTGGAC AGCTGAACAA TCTGACAGCT GAGAACAAAA TACTCAATTC TGAACTGGAG
    AATGGGAAAC AGAACCAAGA AAGACTAGAA ATAGAAATGG AATCATACCG TTGTAGACTA
    GCTGCTGCTG TACGTGACTG TGATCAAAGT CAGACAGCAA GAGACCTAAA ACTTGATTTC
    CAGAGAACAA GACAAGAGTG GGTTCGTTTA CATGACAAAA TGAAGGTTGA TATGTCTGGC
    CTACAAGCTA AGAATGAGAT TCTTTCTGAA AAACTTTCTA ATGCTGAAAG TAAAATTAAC
    AGCCTACAAA TTCAGCTCCA TAACACAAGA GATGCTCTTG GAAGAGAGAG TTTGATTTTG
    GAACGTGTGC AAAGAGACCT CAGCCAAACA CAGTGTCAGA AGAAAGAAAC TGAACAAATG
    TACCAAATTG AACAAAGCAA ACTGAAGAAA TACATTGCCA AGCAGGAATC TGTAGAGGAG
    AGATTATCTC AACTACAAAG TGAAAATATG TTGCTTCGAC AGCAACTGGA TGATGCTCAC
    AAGAAAGCTA ACAGTCAAGA AAAGACAAGC AGTACTATCC AAGACCAGTT TCATTCTGCT
    GCCAAAAATC TTCAAGCTGA GAGTGAAAAG CAGATTCTTT CACTACAAGA GAAGAACAAG
    GAGCTGATGG ATGAATATAA TCATTTAAAA GAAAGAATGG ATCAATGTGA GAAAGAGAAA
    GCAGGAAGAA AAATTGACCT TACAGAAGCA CAGGAAACTG TACCTTCACG ATGTCTACAT
    CTGGATGCAG AGAATGAAGT TCTTCAACTT CAACAGACAT TATTCTCTAT GAAAGCAATA
    CAAAAGCAAT GTGAAACACT ACAGAAGAAT AAGAAGCAGC TGAAACAAGA AGTAGTAAAC
    CTCAAAAGTT ATATGGAAAG AAATATGTTA GAACGTGGTA AAGCTGAATG GCATAAACTG
    TTGATTGAAG AAAGAGCAAG GAAGGAGATA GAAGAAAAAT TAAACGAAGC CATTCTCACC
    TTGCAGAAAC AAGCAGCAGT ATCTCATGAA CAGTTAGTAC AGTTAAGGGA GGATAATACT
    ACTTCAATAA AAACTCAGAT GGAACTCACA ATCAAAGATC TGGAATCTGA AATCTCCAGA
    ATAAAAACTT CGCAAGCCGA CTTTAATAAA ACCGAATTGG AAAGATATAA GGAACTCTAC
    CTAGAAGAAG TGAAAGTTAG AGAATCCTTG TCAAATGAAC TCAGTAGAAC TAATGAGATG
    ATAGCAGAGG TCAGTACGCA ACTTACTGTG GAGAAAGAGC AGACCAGATC CAGATCTCTA
    TTCACTGCTT ATGCTACAAG GCCAGTCCTA GAGTCACCTT GCGTTGGAAA TCTTAATGAT
    AGTGAAGGTC TCAACAGAAA ACATATTCCA AGAAAAAAGA GGTCTGCTCT TAAGGACATG
    GAGAGCTACT TGTTGAAGAT GCAGCAGAAG TTGCAAAATG ATCTAACTGC AGAAGTAGCA
    GGATCCAGCC AAACTGGACT GCACAGAATT CCACAGTGCT CGTCCTTCTC CTCCAGCTCT
    TTGCACTTGC TTCTTTGCTC TATCTGCCAA CCTTTTTTTC TCATCCTTCA GCTGCTACTA
    AATATGAACC TGGATCCTAT ATAG

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

    RefSeq NP_055510.1
    CDS77..4360
    Translation

    Target ORF information:

    RefSeq Version NM_014695.2
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 144A (CCDC144A), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_014695.2

    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
    ATGGCCTCCT GGGGTGGAGA AAAGCGGGGA GGGGCTGAGG GGTCTCCGAA GCCGGCAGTC 
    TACGCCACGA GGAAGACCCC TAGCGTCGGG AGCCAGGGGG ACCAGTGGTA CTTGGGCTAC
    CCGGGGGACC AGTGGTCCTC GGGCTTCCCC TACAGCTGGT GGAAAAACAG CGTCGGCAGC
    GAGAGCAAGC ACGGTGAGGG CGCCTTAGAC CAGCCCCAGC ACGACGTCCG CCTGGAAGAT
    CTTGGCGAGC TCCACAGAGC TGCCCGGTCG GGCGACGTCC CTGGGGTGGA GCACATCTTA
    GCTCCTGGAG ACACTGGCGT GGACAAGAGG GATAGGAAGA AGAGCATTCA GCAACTAGTT
    CCTGAATATA AGGAAAAACA GACACCTGAA AGTCTTCCTC AAAATAACAA TCCAGATTGG
    CATCCTACTA ATTTGACCCT TAGTGATGAG ACTTGTCAGA GATCCAAGAA TCTGAAAGTT
    GATGATAAAT GTCCATCTGT ATCACCATCA ATGCCTGAAA ATCAGTCAGC AACCAAAGAA
    CTGGGACAGA TGAACTTAAC AGAACGAGAA AAGATGGACA CTGGAGTTGT ACTTCTCTCA
    GGGAATGATA CTCTCCATGA CCTGTGCCAA TCACAGCTAC CAGAAAACAA AGAGAGCAAA
    GAAGCAGAAC AAGACTCGGA GCTGACATCA GAGGAAGAGC AAGAAAGACT TAAAGGATGC
    GAAAATAAGC AGCCACAGAA AACGTCTCAA GAACCAGAAA TGGCTAAGGA TTGCGATAGA
    GAGGATATAC CTATATATCC AGTACTTCCT CATGTGCAAA AATCTGAGGA AATGTGGATT
    GAACAAGGCA AATTAGAGTG GAAAAACCAA TTAAAACTCG TCATAAATGA GTTAAAGCAG
    AGGTTTGGTG AAATTTATGA AAAATACAAA ATTCCGGCTT GTCCTGAGGA AGAGCCACTA
    CTTGATAACT CTACAAGAGG AACAGATGTA AAGGATATTC CCTTTAATTT GACAAATAAC
    ATACCTGGTT GTGAGGAAGA AGATGCATCT GAAATATCTG TCTCAGTGGT ATTCGAGACA
    TTTCCTGAAC AAAAAGAACC CAGTCTCAAA AATATCATCC ATCCATACTA TCATCCATAC
    TCTGGGTCCC AGGAACATGT TTGCCAGTCA TCTTCTAAGT TTCATTTACA TGAAAATAAA
    TTAGACTGCG ACAATGATAA CAAACCAGGC ATTGGACATA TTTTTAGTAC AGATAAGAAC
    TTTCATAATG ATGCAAGCAC TAAGAAAGCA AGGAACCCAG AAGTGGTTAT GGTTGAAATG
    AAAGAAGACC AAGAGTTTGA TTTGCAAATG ACAAAAAATA TGAACCAAAA TAGTGACAGT
    GGCAGTACAA ACAACTATAA AAGCCTGAAA CCTAAATTAG AAAATCTGAG TTCTTTACCA
    CCAGATTCTG ACAGAACATC AGAAGTATAT CTACATGAAG AATTACAGCA AGACATGCAA
    AAGTTTAAGA ATGAGGTCAA CACATTAGAA GAAGAGTTCC TGGCTTTGAA GAAAGAAGAT
    GTTCAACTTC ATAAAGATGT TGAAGAAGAA ATGGAGAAGC ACAGAAGTAA TAGCACAGAA
    TTATCAGGAA CCCTAACTGA TGGTACTACT GTTGGCAATG ATGATGATGG ACTAAATCAG
    CAGATTCCTA GGAAGGAAAA TGGAGAGCAT GACAGGCCTG CAGATAAAAC ATCTAATGAA
    AAGAACGAGG TCAAAAACCA AATATATCCT GAGGCTGACT TTGCTGACTC AATGGAGCCA
    TCTGAAATAG CCTCAGAGGA TTGTGAATTG TCTCACTCTG TTTATGAGAA TTTTATGTTG
    CTGATTGAAC AACTTAGAAT GGAGTATAAA GATTCTGCTA GCCTACCAAG AATCCAAGAC
    ACATTTTGTT TGTGTGAACA CTTACTGAAA CTTAAGAATA ATCACTGTGA CCAACTTACA
    GTAAAACTTA AACAAATGGA AAATATGGTC AGTGTACTAC AAAATGAGCT ATCTGAAACA
    AAAAAGACAA AATTACAGTT AGAACTTCAA AAAATTGAAT GGGAGAAAGA GCTGTACGAT
    TTGAGACTTG CCTTAAAACA AGAAAATGAG GAGAAAAGAA ATGCCGATAT GTTGTATAAT
    AAAGATAGTG AACAGTTAAG AATAAAAGAA GAGGAGTGTG GGAAAGTGGT TGAAACAAAG
    CAACAACTTA AATGGAATCT GAGAAGACTT GTTAAGGAAT TGAGGACAGT AAGAAATAAC
    TTGGATCTGG TTGTGCAGGA GAGAAACGAT GCCCAGAAGC AACTTTCTGA AGAACAGGAT
    GCCAGAATAT TACAAGATCA GATTCTGACG AGTAAACAAA AGGAACTAGA AATGGCTCGA
    AAGAAAATGA ATTCTGAGAT TTCTCATAGG CATCAGAAAG AAAAGGATCT CTTTCATGAA
    GATTGCATGT TGCAGGAAGA AATTGCCTTG CTGAGACTGG AAATAGATAC AATAAAAAAT
    CAGAACAAGC AAAAGGAAAA GAAATATTTT GAGGACATTG AGGCTGTGAA AGAAAAGAAT
    GATAACCTTC AAAAAATTAT AAAACTAAAT GAGGAAACAT TAACAGAAAC AATACTCCAG
    TACAGTGGAC AGCTGAACAA TCTGACAGCT GAGAACAAAA TACTCAATTC TGAACTGGAG
    AATGGGAAAC AGAACCAAGA AAGACTAGAA ATAGAAATGG AATCATACCG TTGTAGACTA
    GCTGCTGCTG TACGTGACTG TGATCAAAGT CAGACAGCAA GAGACCTAAA ACTTGATTTC
    CAGAGAACAA GACAAGAGTG GGTTCGTTTA CATGACAAAA TGAAGGTTGA TATGTCTGGC
    CTACAAGCTA AGAATGAGAT TCTTTCTGAA AAACTTTCTA ATGCTGAAAG TAAAATTAAC
    AGCCTACAAA TTCAGCTCCA TAACACAAGA GATGCTCTTG GAAGAGAGAG TTTGATTTTG
    GAACGTGTGC AAAGAGACCT CAGCCAAACA CAGTGTCAGA AGAAAGAAAC TGAACAAATG
    TACCAAATTG AACAAAGCAA ACTGAAGAAA TACATTGCCA AGCAGGAATC TGTAGAGGAG
    AGATTATCTC AACTACAAAG TGAAAATATG TTGCTTCGAC AGCAACTGGA TGATGCTCAC
    AAGAAAGCTA ACAGTCAAGA AAAGACAAGC AGTACTATCC AAGACCAGTT TCATTCTGCT
    GCCAAAAATC TTCAAGCTGA GAGTGAAAAG CAGATTCTTT CACTACAAGA GAAGAACAAG
    GAGCTGATGG ATGAATATAA TCATTTAAAA GAAAGAATGG ATCAATGTGA GAAAGAGAAA
    GCAGGAAGAA AAATTGACCT TACAGAAGCA CAGGAAACTG TACCTTCACG ATGTCTACAT
    CTGGATGCAG AGAATGAAGT TCTTCAACTT CAACAGACAT TATTCTCTAT GAAAGCAATA
    CAAAAGCAAT GTGAAACACT ACAGAAGAAT AAGAAGCAGC TGAAACAAGA AGTAGTAAAC
    CTCAAAAGTT ATATGGAAAG AAATATGTTA GAACGTGGTA AAGCTGAATG GCATAAACTG
    TTGATTGAAG AAAGAGCAAG GAAGGAGATA GAAGAAAAAT TAAACGAAGC CATTCTCACC
    TTGCAGAAAC AAGCAGCAGT ATCTCATGAA CAGTTAGTAC AGTTAAGGGA GGATAATACT
    ACTTCAATAA AAACTCAGAT GGAACTCACA ATCAAAGATC TGGAATCTGA AATCTCCAGA
    ATAAAAACTT CGCAAGCCGA CTTTAATAAA ACCGAATTGG AAAGATATAA GGAACTCTAC
    CTAGAAGAAG TGAAAGTTAG AGAATCCTTG TCAAATGAAC TCAGTAGAAC TAATGAGATG
    ATAGCAGAGG TCAGTACGCA ACTTACTGTG GAGAAAGAGC AGACCAGATC CAGATCTCTA
    TTCACTGCTT ATGCTACAAG GCCAGTCCTA GAGTCACCTT GCGTTGGAAA TCTTAATGAT
    AGTGAAGGTC TCAACAGAAA ACATATTCCA AGAAAAAAGA GGTCTGCTCT TAAGGACATG
    GAGAGCTACT TGTTGAAGAT GCAGCAGAAG TTGCAAAATG ATCTAACTGC AGAAGTAGCA
    GGATCCAGCC AAACTGGACT GCACAGAATT CCACAGTGCT CGTCCTTCTC CTCCAGCTCT
    TTGCACTTGC TTCTTTGCTC TATCTGCCAA CCTTTTTTTC TCATCCTTCA GCTGCTACTA
    AATATGAACC TGGATCCTAT ATAG

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

    CloneID OHu63209
    Clone ID Related Accession (Same CDS sequence) XM_011524089.2
    Accession Version XM_011524089.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1896bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product coiled-coil domain-containing protein 144A isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011524089.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    ATGGCCTCCT GGGGTGGAGA AAAGCGGGGA GGGGCTGAGG GGTCTCCGAA GCCGGCAGTC 
    TACGCCACGA GGAAGACCCC TAGCGTCGGG AGCCAGGGGG ACCAGTGGTA CTTGGGCTAC
    CCGGGGGACC AGTGGTCCTC GGGCTTCCCC TACAGCTGGT GGAAAAACAG CGTCGGCAGC
    GAGAGCAAGC ACGGTGAGGG CGCCTTAGAC CAGCCCCAGC ACGACGTCCG CCTGGAAGAT
    CTTGGCGAGC TCCACAGAGC TGCCCGGTCG GGCGACGTCC CTGGGGTGGA GCACATCTTA
    GCTCCTGGAG ACACTGGCGT GGACAAGAGG GATAGGAAGA AGAGCATTCA GCAACTAGTT
    CCTGAATATA AGGAAAAACA GACACCTGAA AGTCTTCCTC AAAATAACAA TCCAGATTGG
    CATCCTACTA ATTTGACCCT TAGTGATGAG ACTTGTCAGA GATCCAAGAA TCTGAAAGTT
    GATGATAAAT GTCCATCTGT ATCACCATCA ATGCCTGAAA ATCAGTCAGC AACCAAAGAA
    CTGGGACAGA TGAACTTAAC AGAACGAGAA AAGATGGACA CTGGAGTTGT ACTTCTCTCA
    GGGAATGATA CTCTCCATGA CCTGTGCCAA TCACAGCTAC CAGAAAACAA AGAGAGCAAA
    GAAGCAGAAC AAGACTCGGA GCTGACATCA GAGGAAGAGC AAGAAAGACT TAAAGGATGC
    GAAAATAAGC AGCCACAGAA AACGTCTCAA GAACCAGAAA TGGCTAAGGA TTGCGATAGA
    GAGGATATAC CTATATATCC AGTACTTCCT CATGTGCAAA AATCTGAGGA AATGTGGATT
    GAACAAGGCA AATTAGAGTG GAAAAACCAA TTAAAACTCG TCATAAATGA GTTAAAGCAG
    AGGTTTGGTG AAATTTATGA AAAATACAAA ATTCCGGCTT GTCCTGAGGA AGAGCCACTA
    CTTGATAACT CTACAAGAGG AACAGATGTA AAGGATATTC CCTTTAATTT GACAAATAAC
    ATACCTGGTT GTGAGGAAGA AGATGCATCT GAAATATCTG TCTCAGTGGT ATTCGAGACA
    TTTCCTGAAC AAAAAGAACC CAGTCTCAAA AATATCATCC ATCCATACTA TCATCCATAC
    TCTGGGTCCC AGGAACATGT TTGCCAGTCA TCTTCTAAGT TTCATTTACA TGAAAATAAA
    TTAGACTGCG ACAATGATAA CAAACCAGGC ATTGGACATA TTTTTAGTAC AGATAAGAAC
    TTTCATAATG ATGCAAGCAC TAAGAAAGCA AGGAACCCAG AAGTGGTTAT GGTTGAAATG
    AAAGAAGACC AAGAGTTTGA TTTGCAAATG ACAAAAAATA TGAACCAAAA TAGTGACAGT
    GGCAGTACAA ACAACTATAA AAGCCTGAAA CCTAAATTAG AAAATCTGAG TTCTTTACCA
    CCAGATTCTG ACAGAACATC AGAAGTATAT CTACATGAAG AATTACAGCA AGACATGCAA
    AAGTTTAAGA ATGAGGTCAA CACATTAGAA GAAGAGTTCC TGGCTTTGAA GAAAGAAGAT
    GTTCAACTTC ATAAAGATGT TGAAGAAGAA ATGGAGAAGC ACAGAAGTAA TAGCACAGAA
    TTATCAGGAA CCCTAACTGA TGGTACTACT GTTGGCAATG ATGATGATGG ACTAAATCAG
    CAGATTCCTA GGAAGGAAAA TGGAGAGCAT GACAGGCCTG CAGATAAAAC ATCTAATGAA
    AAGAACGAGG TCAAAAACCA AATATATCCT GAGGCTGACT TTGCTGACTC AATGGAGCCA
    TCTGAAATAG CCTCAGAGGA TTGTGAATTG TCTCACTCTG TTTATGAGAA TTTTATGTTG
    CTGATTGAAC AACTTAGAAT GGAGTATAAA GATTGA

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

    RefSeq XP_011522391.1
    CDS167..2062
    Translation

    Target ORF information:

    RefSeq Version XM_011524089.2
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 144A (CCDC144A), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011524089.2

    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
    ATGGCCTCCT GGGGTGGAGA AAAGCGGGGA GGGGCTGAGG GGTCTCCGAA GCCGGCAGTC 
    TACGCCACGA GGAAGACCCC TAGCGTCGGG AGCCAGGGGG ACCAGTGGTA CTTGGGCTAC
    CCGGGGGACC AGTGGTCCTC GGGCTTCCCC TACAGCTGGT GGAAAAACAG CGTCGGCAGC
    GAGAGCAAGC ACGGTGAGGG CGCCTTAGAC CAGCCCCAGC ACGACGTCCG CCTGGAAGAT
    CTTGGCGAGC TCCACAGAGC TGCCCGGTCG GGCGACGTCC CTGGGGTGGA GCACATCTTA
    GCTCCTGGAG ACACTGGCGT GGACAAGAGG GATAGGAAGA AGAGCATTCA GCAACTAGTT
    CCTGAATATA AGGAAAAACA GACACCTGAA AGTCTTCCTC AAAATAACAA TCCAGATTGG
    CATCCTACTA ATTTGACCCT TAGTGATGAG ACTTGTCAGA GATCCAAGAA TCTGAAAGTT
    GATGATAAAT GTCCATCTGT ATCACCATCA ATGCCTGAAA ATCAGTCAGC AACCAAAGAA
    CTGGGACAGA TGAACTTAAC AGAACGAGAA AAGATGGACA CTGGAGTTGT ACTTCTCTCA
    GGGAATGATA CTCTCCATGA CCTGTGCCAA TCACAGCTAC CAGAAAACAA AGAGAGCAAA
    GAAGCAGAAC AAGACTCGGA GCTGACATCA GAGGAAGAGC AAGAAAGACT TAAAGGATGC
    GAAAATAAGC AGCCACAGAA AACGTCTCAA GAACCAGAAA TGGCTAAGGA TTGCGATAGA
    GAGGATATAC CTATATATCC AGTACTTCCT CATGTGCAAA AATCTGAGGA AATGTGGATT
    GAACAAGGCA AATTAGAGTG GAAAAACCAA TTAAAACTCG TCATAAATGA GTTAAAGCAG
    AGGTTTGGTG AAATTTATGA AAAATACAAA ATTCCGGCTT GTCCTGAGGA AGAGCCACTA
    CTTGATAACT CTACAAGAGG AACAGATGTA AAGGATATTC CCTTTAATTT GACAAATAAC
    ATACCTGGTT GTGAGGAAGA AGATGCATCT GAAATATCTG TCTCAGTGGT ATTCGAGACA
    TTTCCTGAAC AAAAAGAACC CAGTCTCAAA AATATCATCC ATCCATACTA TCATCCATAC
    TCTGGGTCCC AGGAACATGT TTGCCAGTCA TCTTCTAAGT TTCATTTACA TGAAAATAAA
    TTAGACTGCG ACAATGATAA CAAACCAGGC ATTGGACATA TTTTTAGTAC AGATAAGAAC
    TTTCATAATG ATGCAAGCAC TAAGAAAGCA AGGAACCCAG AAGTGGTTAT GGTTGAAATG
    AAAGAAGACC AAGAGTTTGA TTTGCAAATG ACAAAAAATA TGAACCAAAA TAGTGACAGT
    GGCAGTACAA ACAACTATAA AAGCCTGAAA CCTAAATTAG AAAATCTGAG TTCTTTACCA
    CCAGATTCTG ACAGAACATC AGAAGTATAT CTACATGAAG AATTACAGCA AGACATGCAA
    AAGTTTAAGA ATGAGGTCAA CACATTAGAA GAAGAGTTCC TGGCTTTGAA GAAAGAAGAT
    GTTCAACTTC ATAAAGATGT TGAAGAAGAA ATGGAGAAGC ACAGAAGTAA TAGCACAGAA
    TTATCAGGAA CCCTAACTGA TGGTACTACT GTTGGCAATG ATGATGATGG ACTAAATCAG
    CAGATTCCTA GGAAGGAAAA TGGAGAGCAT GACAGGCCTG CAGATAAAAC ATCTAATGAA
    AAGAACGAGG TCAAAAACCA AATATATCCT GAGGCTGACT TTGCTGACTC AATGGAGCCA
    TCTGAAATAG CCTCAGAGGA TTGTGAATTG TCTCACTCTG TTTATGAGAA TTTTATGTTG
    CTGATTGAAC AACTTAGAAT GGAGTATAAA GATTGA

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

    CloneID OHu104501
    Clone ID Related Accession (Same CDS sequence) XM_024451045.1
    Accession Version XM_024451045.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4464bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product coiled-coil domain-containing protein 144A isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGCATTTCC CCCACTCTTG GGCACAAGCT GCCCTTTGGT GGCGTTGGGC ACAGATCACC 
    GCCTGGCAGA AGCCCGCGAC AGCGTGGAGG GAGCGATGCC CCCGCCCGGG ACTCCTGGTG
    GGTGATGGCG CCGGGAGGCC TTGGCTGGGA CAGATCGGGG CCTCCCGGTC GGTCAGCGAC
    TCGCGCCCGG CTGCGACTTT CAGAGGCTTT TGGACACCGC CTGCCATCCC GCCGCGCCTC
    TCGGGGTCCG CTCCCCCGGA CTGGCCCTGC CCACGGAGCG CGGGTAGCAG CCGGCGGCCA
    GGAGCCAGTG GCGGGAGCCA CCGGTGGGAA AACCGGCAGG AGGCTGCGCT GGACCCCGCT
    GGGCAGCGCC AATCCCTAAG GCAGCCGGGC GGCATTCAGC AACTAGTTCC TGAATATAAG
    GAAAAACAGA CACCTGAAAG TCTTCCTCAA AATAACAATC CAGATTGGCA TCCTACTAAT
    TTGACCCTTA GTGATGAGAC TTGTCAGAGA TCCAAGAATC TGAAAGTTGA TGATAAATGT
    CCATCTGTAT CACCATCAAT GCCTGAAAAT CAGTCAGCAA CCAAAGAACT GGGACAGATG
    AACTTAACAG AACGAGAAAA GATGGACACT GGAGTTGTAC TTCTCTCAGG GAATGATACT
    CTCCATGACC TGTGCCAATC ACAGCTACCA GAAAACAAAG AGAGCAAAGA AGCAGAACAA
    GACTCGGAGC TGACATCAGA GGAAGAGCAA GAAAGACTTA AAGGATGCGA AAATAAGCAG
    CCACAGAAAA CGTCTCAAGA ACCAGAAATG GCTAAGGATT GCGATAGAGA GGATATACCT
    ATATATCCAG TACTTCCTCA TGTGCAAAAA TCTGAGGAAA TGTGGATTGA ACAAGGCAAA
    TTAGAGTGGA AAAACCAATT AAAACTCGTC ATAAATGAGT TAAAGCAGAG GTTTGGTGAA
    ATTTATGAAA AATACAAAAT TCCGGCTTGT CCTGAGGAAG AGCCACTACT TGATAACTCT
    ACAAGAGGAA CAGATGTAAA GGATATTCCC TTTAATTTGA CAAATAACAT ACCTGGTTGT
    GAGGAAGAAG ATGCATCTGA AATATCTGTC TCAGTGGTAT TCGAGACATT TCCTGAACAA
    AAAGAACCCA GTCTCAAAAA TATCATCCAT CCATACTATC ATCCATACTC TGGGTCCCAG
    GAACATGTTT GCCAGTCATC TTCTAAGTTT CATTTACATG AAAATAAATT AGACTGCGAC
    AATGATAACA AACCAGGCAT TGGACATATT TTTAGTACAG ATAAGAACTT TCATAATGAT
    GCAAGCACTA AGAAAGCAAG GAACCCAGAA GTGGTTATGG TTGAAATGAA AGAAGACCAA
    GAGTTTGATT TGCAAATGAC AAAAAATATG AACCAAAATA GTGACAGTGG CAGTACAAAC
    AACTATAAAA GCCTGAAACC TAAATTAGAA AATCTGAGTT CTTTACCACC AGATTCTGAC
    AGAACATCAG AAGTATATCT ACATGAAGAA TTACAGCAAG ACATGCAAAA GTTTAAGAAT
    GAGGTCAACA CATTAGAAGA AGAGTTCCTG GCTTTGAAGA AAGAAGATGT TCAACTTCAT
    AAAGATGTTG AAGAAGAAAT GGAGAAGCAC AGAAGTAATA GCACAGAATT ATCAGGAACC
    CTAACTGATG GTACTACTGT TGGCAATGAT GATGATGGAC TAAATCAGCA GATTCCTAGG
    AAGGAAAATG GAGAGCATGA CAGGCCTGCA GATAAAACAT CTAATGAAAA GAACGAGGTC
    AAAAACCAAA TATATCCTGA GGCTGACTTT GCTGACTCAA TGGAGCCATC TGAAATAGCC
    TCAGAGGATT GTGAATTGTC TCACTCTGTT TATGAGAATT TTATGTTGCT GATTGAACAA
    CTTAGAATGG AGTATAAAGA TTCTGCTAGC CTACCAAGAA TCCAAGACAC ATTTTGTTTG
    TGTGAACACT TACTGAAACT TAAGAATAAT CACTGTGACC AACTTACAGT AAAACTTAAA
    CAAATGGAAA ATATGGTCAG TGTACTACAA AATGAGCTAT CTGAAACAAA AAAGACAAAA
    TTACAGTTAG AACTTCAAAA AATTGAATGG GAGAAAGAGC TGTACGATTT GAGACTTGCC
    TTAAAACAAG AAAATGAGGA GAAAAGAAAT GCCGATATGT TGTATAATAA AGATAGTGAA
    CAGTTAAGAA TAAAAGAAGA GGAGTGTGGG AAAGTGGTTG AAACAAAGCA ACAACTTAAA
    TGGAATCTGA GAAGACTTGT TAAGGAATTG AGGACAGTAA GAAATAACTT GGATCTGGTT
    GTGCAGGAGA GAAACGATGC CCAGAAGCAA CTTTCTGAAG AACAGGATGC CAGAATATTA
    CAAGATCAGA TTCTGACGAG TAAACAAAAG GAACTAGAAA TGGCTCGAAA GAAAATGAAT
    TCTGAGATTT CTCATAGGCA TCAGAAAGAA AAGGATCTCT TTCATGAAGA TTGCATGTTG
    CAGGAAGAAA TTGCCTTGCT GAGACTGGAA ATAGATACAA TAAAAAATCA GAACAAGCAA
    AAGGAAAAGA AATATTTTGA GGACATTGAG GCTGTGAAAG AAAAGAATGA TAACCTTCAA
    AAAATTATAA AACTAAATGA GGAAACATTA ACAGAAACAA TACTCCAGTA CAGTGGACAG
    CTGAACAATC TGACAGCTGA GAACAAAATA CTCAATTCTG AACTGGAGAA TGGGAAACAG
    AACCAAGAAA GACTAGAAAT AGAAATGGAA TCATACCGTT GTAGACTAGC TGCTGCTGTA
    CGTGACTGTG ATCAAAGTCA GACAGCAAGA GACCTAAAAC TTGATTTCCA GAGAACAAGA
    CAAGAGTGGG TTCGTTTACA TGACAAAATG AAGGTTGATA TGTCTGGCCT ACAAGCTAAG
    AATGAGATTC TTTCTGAAAA ACTTTCTAAT GCTGAAAGTA AAATTAACAG CCTACAAATT
    CAGCTCCATA ACACAAGAGA TGCTCTTGGA AGAGAGAGTT TGATTTTGGA ACGTGTGCAA
    AGAGACCTCA GCCAAACACA GTGTCAGAAG AAAGAAACTG AACAAATGTA CCAAATTGAA
    CAAAGCAAAC TGAAGAAATA CATTGCCAAG CAGGAATCTG TAGAGGAGAG ATTATCTCAA
    CTACAAAGTG AAAATATGTT GCTTCGACAG CAACTGGATG ATGCTCACAA GAAAGCTAAC
    AGTCAAGAAA AGACAAGCAG TACTATCCAA GACCAGTTTC ATTCTGCTGC CAAAAATCTT
    CAAGCTGAGA GTGAAAAGCA GATTCTTTCA CTACAAGAGA AGAACAAGGA GCTGATGGAT
    GAATATAATC ATTTAAAAGA AAGAATGGAT CAATGTGAGA AAGAGAAAGC AGGAAGAAAA
    GTAGTTATGA GAGAATTCCA ACAAGAATGG ACCGATCTCC TAAAACAACA ACCTACGTCA
    GAGGCTACCT CACGTTGTCA CATTAATTTA GATGAGACAC AGGATTCAAA GAAGAAATTG
    GGTCAAATCA GAAGTGAAAT TGACCTTACA GAAGCACAGG AAACTGTACC TTCACGATGT
    CTACATCTGG ATGCAGAGAA TGAAGTTCTT CAACTTCAAC AGACATTATT CTCTATGAAA
    GCAATACAAA AGCAATGTGA AACACTACAG AAGAATAAGA AGCAGCTGAA ACAAGAAGTA
    GTAAACCTCA AAAGTTATAT GGAAAGAAAT ATGTTAGAAC GTGGTAAAGC TGAATGGCAT
    AAACTGTTGA TTGAAGAAAG AGCAAGGAAG GAGATAGAAG AAAAATTAAA CGAAGCCATT
    CTCACCTTGC AGAAACAAGC AGCAGTATCT CATGAACAGT TAGTACAGTT AAGGGAGGAT
    AATACTACTT CAATAAAAAC TCAGATGGAA CTCACAATCA AAGATCTGGA ATCTGAAATC
    TCCAGAATAA AAACTTCGCA AGCCGACTTT AATAAAACCG AATTGGAAAG ATATAAGGAA
    CTCTACCTAG AAGAAGTGAA AGTTAGAGAA TCCTTGTCAA ATGAACTCAG TAGAACTAAT
    GAGATGATAG CAGAGGTCAG TACGCAACTT ACTGTGGAGA AAGAGCAGAC CAGATCCAGA
    TCTCTATTCA CTGCTTATGC TACAAGGCCA GTCCTAGAGT CACCTTGCGT TGGAAATCTT
    AATGATAGTG AAGGTCTCAA CAGAAAACAT ATTCCAAGAA AAAAGAGGTC TGCTCTTAAG
    GACATGGAGA GCTACTTGTT GAAGATGCAG CAGAAGTTGC AAAATGATCT AACTGCAGAA
    GTAGCAGCTG CTACTAAATA TGAACCTGGA TCCTATATAG CTTCTCCTCT AGGATTTACA
    CACAAGGAAA ATCTGAATCA AGATCCAGTT TTGGAAGTAA CAAAAGAATA TGCACAGATT
    TTAAGAAGAA AATACATACT CTGA

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

    RefSeq XP_024306813.1
    CDS243..4706
    Translation

    Target ORF information:

    RefSeq Version XM_024451045.1
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 144A (CCDC144A), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_024451045.1

    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
    ATGCATTTCC CCCACTCTTG GGCACAAGCT GCCCTTTGGT GGCGTTGGGC ACAGATCACC 
    GCCTGGCAGA AGCCCGCGAC AGCGTGGAGG GAGCGATGCC CCCGCCCGGG ACTCCTGGTG
    GGTGATGGCG CCGGGAGGCC TTGGCTGGGA CAGATCGGGG CCTCCCGGTC GGTCAGCGAC
    TCGCGCCCGG CTGCGACTTT CAGAGGCTTT TGGACACCGC CTGCCATCCC GCCGCGCCTC
    TCGGGGTCCG CTCCCCCGGA CTGGCCCTGC CCACGGAGCG CGGGTAGCAG CCGGCGGCCA
    GGAGCCAGTG GCGGGAGCCA CCGGTGGGAA AACCGGCAGG AGGCTGCGCT GGACCCCGCT
    GGGCAGCGCC AATCCCTAAG GCAGCCGGGC GGCATTCAGC AACTAGTTCC TGAATATAAG
    GAAAAACAGA CACCTGAAAG TCTTCCTCAA AATAACAATC CAGATTGGCA TCCTACTAAT
    TTGACCCTTA GTGATGAGAC TTGTCAGAGA TCCAAGAATC TGAAAGTTGA TGATAAATGT
    CCATCTGTAT CACCATCAAT GCCTGAAAAT CAGTCAGCAA CCAAAGAACT GGGACAGATG
    AACTTAACAG AACGAGAAAA GATGGACACT GGAGTTGTAC TTCTCTCAGG GAATGATACT
    CTCCATGACC TGTGCCAATC ACAGCTACCA GAAAACAAAG AGAGCAAAGA AGCAGAACAA
    GACTCGGAGC TGACATCAGA GGAAGAGCAA GAAAGACTTA AAGGATGCGA AAATAAGCAG
    CCACAGAAAA CGTCTCAAGA ACCAGAAATG GCTAAGGATT GCGATAGAGA GGATATACCT
    ATATATCCAG TACTTCCTCA TGTGCAAAAA TCTGAGGAAA TGTGGATTGA ACAAGGCAAA
    TTAGAGTGGA AAAACCAATT AAAACTCGTC ATAAATGAGT TAAAGCAGAG GTTTGGTGAA
    ATTTATGAAA AATACAAAAT TCCGGCTTGT CCTGAGGAAG AGCCACTACT TGATAACTCT
    ACAAGAGGAA CAGATGTAAA GGATATTCCC TTTAATTTGA CAAATAACAT ACCTGGTTGT
    GAGGAAGAAG ATGCATCTGA AATATCTGTC TCAGTGGTAT TCGAGACATT TCCTGAACAA
    AAAGAACCCA GTCTCAAAAA TATCATCCAT CCATACTATC ATCCATACTC TGGGTCCCAG
    GAACATGTTT GCCAGTCATC TTCTAAGTTT CATTTACATG AAAATAAATT AGACTGCGAC
    AATGATAACA AACCAGGCAT TGGACATATT TTTAGTACAG ATAAGAACTT TCATAATGAT
    GCAAGCACTA AGAAAGCAAG GAACCCAGAA GTGGTTATGG TTGAAATGAA AGAAGACCAA
    GAGTTTGATT TGCAAATGAC AAAAAATATG AACCAAAATA GTGACAGTGG CAGTACAAAC
    AACTATAAAA GCCTGAAACC TAAATTAGAA AATCTGAGTT CTTTACCACC AGATTCTGAC
    AGAACATCAG AAGTATATCT ACATGAAGAA TTACAGCAAG ACATGCAAAA GTTTAAGAAT
    GAGGTCAACA CATTAGAAGA AGAGTTCCTG GCTTTGAAGA AAGAAGATGT TCAACTTCAT
    AAAGATGTTG AAGAAGAAAT GGAGAAGCAC AGAAGTAATA GCACAGAATT ATCAGGAACC
    CTAACTGATG GTACTACTGT TGGCAATGAT GATGATGGAC TAAATCAGCA GATTCCTAGG
    AAGGAAAATG GAGAGCATGA CAGGCCTGCA GATAAAACAT CTAATGAAAA GAACGAGGTC
    AAAAACCAAA TATATCCTGA GGCTGACTTT GCTGACTCAA TGGAGCCATC TGAAATAGCC
    TCAGAGGATT GTGAATTGTC TCACTCTGTT TATGAGAATT TTATGTTGCT GATTGAACAA
    CTTAGAATGG AGTATAAAGA TTCTGCTAGC CTACCAAGAA TCCAAGACAC ATTTTGTTTG
    TGTGAACACT TACTGAAACT TAAGAATAAT CACTGTGACC AACTTACAGT AAAACTTAAA
    CAAATGGAAA ATATGGTCAG TGTACTACAA AATGAGCTAT CTGAAACAAA AAAGACAAAA
    TTACAGTTAG AACTTCAAAA AATTGAATGG GAGAAAGAGC TGTACGATTT GAGACTTGCC
    TTAAAACAAG AAAATGAGGA GAAAAGAAAT GCCGATATGT TGTATAATAA AGATAGTGAA
    CAGTTAAGAA TAAAAGAAGA GGAGTGTGGG AAAGTGGTTG AAACAAAGCA ACAACTTAAA
    TGGAATCTGA GAAGACTTGT TAAGGAATTG AGGACAGTAA GAAATAACTT GGATCTGGTT
    GTGCAGGAGA GAAACGATGC CCAGAAGCAA CTTTCTGAAG AACAGGATGC CAGAATATTA
    CAAGATCAGA TTCTGACGAG TAAACAAAAG GAACTAGAAA TGGCTCGAAA GAAAATGAAT
    TCTGAGATTT CTCATAGGCA TCAGAAAGAA AAGGATCTCT TTCATGAAGA TTGCATGTTG
    CAGGAAGAAA TTGCCTTGCT GAGACTGGAA ATAGATACAA TAAAAAATCA GAACAAGCAA
    AAGGAAAAGA AATATTTTGA GGACATTGAG GCTGTGAAAG AAAAGAATGA TAACCTTCAA
    AAAATTATAA AACTAAATGA GGAAACATTA ACAGAAACAA TACTCCAGTA CAGTGGACAG
    CTGAACAATC TGACAGCTGA GAACAAAATA CTCAATTCTG AACTGGAGAA TGGGAAACAG
    AACCAAGAAA GACTAGAAAT AGAAATGGAA TCATACCGTT GTAGACTAGC TGCTGCTGTA
    CGTGACTGTG ATCAAAGTCA GACAGCAAGA GACCTAAAAC TTGATTTCCA GAGAACAAGA
    CAAGAGTGGG TTCGTTTACA TGACAAAATG AAGGTTGATA TGTCTGGCCT ACAAGCTAAG
    AATGAGATTC TTTCTGAAAA ACTTTCTAAT GCTGAAAGTA AAATTAACAG CCTACAAATT
    CAGCTCCATA ACACAAGAGA TGCTCTTGGA AGAGAGAGTT TGATTTTGGA ACGTGTGCAA
    AGAGACCTCA GCCAAACACA GTGTCAGAAG AAAGAAACTG AACAAATGTA CCAAATTGAA
    CAAAGCAAAC TGAAGAAATA CATTGCCAAG CAGGAATCTG TAGAGGAGAG ATTATCTCAA
    CTACAAAGTG AAAATATGTT GCTTCGACAG CAACTGGATG ATGCTCACAA GAAAGCTAAC
    AGTCAAGAAA AGACAAGCAG TACTATCCAA GACCAGTTTC ATTCTGCTGC CAAAAATCTT
    CAAGCTGAGA GTGAAAAGCA GATTCTTTCA CTACAAGAGA AGAACAAGGA GCTGATGGAT
    GAATATAATC ATTTAAAAGA AAGAATGGAT CAATGTGAGA AAGAGAAAGC AGGAAGAAAA
    GTAGTTATGA GAGAATTCCA ACAAGAATGG ACCGATCTCC TAAAACAACA ACCTACGTCA
    GAGGCTACCT CACGTTGTCA CATTAATTTA GATGAGACAC AGGATTCAAA GAAGAAATTG
    GGTCAAATCA GAAGTGAAAT TGACCTTACA GAAGCACAGG AAACTGTACC TTCACGATGT
    CTACATCTGG ATGCAGAGAA TGAAGTTCTT CAACTTCAAC AGACATTATT CTCTATGAAA
    GCAATACAAA AGCAATGTGA AACACTACAG AAGAATAAGA AGCAGCTGAA ACAAGAAGTA
    GTAAACCTCA AAAGTTATAT GGAAAGAAAT ATGTTAGAAC GTGGTAAAGC TGAATGGCAT
    AAACTGTTGA TTGAAGAAAG AGCAAGGAAG GAGATAGAAG AAAAATTAAA CGAAGCCATT
    CTCACCTTGC AGAAACAAGC AGCAGTATCT CATGAACAGT TAGTACAGTT AAGGGAGGAT
    AATACTACTT CAATAAAAAC TCAGATGGAA CTCACAATCA AAGATCTGGA ATCTGAAATC
    TCCAGAATAA AAACTTCGCA AGCCGACTTT AATAAAACCG AATTGGAAAG ATATAAGGAA
    CTCTACCTAG AAGAAGTGAA AGTTAGAGAA TCCTTGTCAA ATGAACTCAG TAGAACTAAT
    GAGATGATAG CAGAGGTCAG TACGCAACTT ACTGTGGAGA AAGAGCAGAC CAGATCCAGA
    TCTCTATTCA CTGCTTATGC TACAAGGCCA GTCCTAGAGT CACCTTGCGT TGGAAATCTT
    AATGATAGTG AAGGTCTCAA CAGAAAACAT ATTCCAAGAA AAAAGAGGTC TGCTCTTAAG
    GACATGGAGA GCTACTTGTT GAAGATGCAG CAGAAGTTGC AAAATGATCT AACTGCAGAA
    GTAGCAGCTG CTACTAAATA TGAACCTGGA TCCTATATAG CTTCTCCTCT AGGATTTACA
    CACAAGGAAA ATCTGAATCA AGATCCAGTT TTGGAAGTAA CAAAAGAATA TGCACAGATT
    TTAAGAAGAA AATACATACT CTGA

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

    CloneID OHu104502
    Clone ID Related Accession (Same CDS sequence) XM_024451046.1
    Accession Version XM_024451046.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4326bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product coiled-coil domain-containing protein 144A isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGCATTTCC CCCACTCTTG GGCACAAGCT GCCCTTTGGT GGCGTTGGGC ACAGATCACC 
    GCCTGGCAGA AGCCCGCGAC AGCGTGGAGG GAGCGATGCC CCCGCCCGGG ACTCCTGGTG
    GGTGATGGCG CCGGGAGGCC TTGGCTGGGA CAGATCGGGG CCTCCCGGTC GGTCAGCGAC
    TCGCGCCCGG CTGCGACTTT CAGAGGCTTT TGGACACCGC CTGCCATCCC GCCGCGCCTC
    TCGGGGTCCG CTCCCCCGGA CTGGCCCTGC CCACGGAGCG CGGGTAGCAG CCGGCGGCCA
    GGAGCCAGTG GCGGGAGCCA CCGGTGGGAA AACCGGCAGG AGGCTGCGCT GGACCCCGCT
    GGGCAGCGCC AATCCCTAAG GCAGCCGGGC GGCATTCAGC AACTAGTTCC TGAATATAAG
    GAAAAACAGA CACCTGAAAG TCTTCCTCAA AATAACAATC CAGATTGGCA TCCTACTAAT
    TTGACCCTTA GTGATGAGAC TTGTCAGAGA TCCAAGAATC TGAAAGTTGA TGATAAATGT
    CCATCTGTAT CACCATCAAT GCCTGAAAAT CAGTCAGCAA CCAAAGAACT GGGACAGATG
    AACTTAACAG AACGAGAAAA GATGGACACT GGAGTTGTAC TTCTCTCAGG GAATGATACT
    CTCCATGACC TGTGCCAATC ACAGCTACCA GAAAACAAAG AGAGCAAAGA AGCAGAACAA
    GACTCGGAGC TGACATCAGA GGAAGAGCAA GAAAGACTTA AAGGATGCGA AAATAAGCAG
    CCACAGAAAA CGTCTCAAGA ACCAGAAATG GCTAAGGATT GCGATAGAGA GGATATACCT
    ATATATCCAG TACTTCCTCA TGTGCAAAAA TCTGAGGAAA TGTGGATTGA ACAAGGCAAA
    TTAGAGTGGA AAAACCAATT AAAACTCGTC ATAAATGAGT TAAAGCAGAG GTTTGGTGAA
    ATTTATGAAA AATACAAAAT TCCGGCTTGT CCTGAGGAAG AGCCACTACT TGATAACTCT
    ACAAGAGGAA CAGATGTAAA GGATATTCCC TTTAATTTGA CAAATAACAT ACCTGGTTGT
    GAGGAAGAAG ATGCATCTGA AATATCTGTC TCAGTGGTAT TCGAGACATT TCCTGAACAA
    AAAGAACCCA GTCTCAAAAA TATCATCCAT CCATACTATC ATCCATACTC TGGGTCCCAG
    GAACATGTTT GCCAGTCATC TTCTAAGTTT CATTTACATG AAAATAAATT AGACTGCGAC
    AATGATAACA AACCAGGCAT TGGACATATT TTTAGTACAG ATAAGAACTT TCATAATGAT
    GCAAGCACTA AGAAAGCAAG GAACCCAGAA GTGGTTATGG TTGAAATGAA AGAAGACCAA
    GAGTTTGATT TGCAAATGAC AAAAAATATG AACCAAAATA GTGACAGTGG CAGTACAAAC
    AACTATAAAA GCCTGAAACC TAAATTAGAA AATCTGAGTT CTTTACCACC AGATTCTGAC
    AGAACATCAG AAGTATATCT ACATGAAGAA TTACAGCAAG ACATGCAAAA GTTTAAGAAT
    GAGGTCAACA CATTAGAAGA AGAGTTCCTG GCTTTGAAGA AAGAAGATGT TCAACTTCAT
    AAAGATGTTG AAGAAGAAAT GGAGAAGCAC AGAAGTAATA GCACAGAATT ATCAGGAACC
    CTAACTGATG GTACTACTGT TGGCAATGAT GATGATGGAC TAAATCAGCA GATTCCTAGG
    AAGGAAAATG GAGAGCATGA CAGGCCTGCA GATAAAACAT CTAATGAAAA GAACGAGGTC
    AAAAACCAAA TATATCCTGA GGCTGACTTT GCTGACTCAA TGGAGCCATC TGAAATAGCC
    TCAGAGGATT GTGAATTGTC TCACTCTGTT TATGAGAATT TTATGTTGCT GATTGAACAA
    CTTAGAATGG AGTATAAAGA TTCTGCTAGC CTACCAAGAA TCCAAGACAC ATTTTGTTTG
    TGTGAACACT TACTGAAACT TAAGAATAAT CACTGTGACC AACTTACAGT AAAACTTAAA
    CAAATGGAAA ATATGGTCAG TGTACTACAA AATGAGCTAT CTGAAACAAA AAAGACAAAA
    TTACAGTTAG AACTTCAAAA AATTGAATGG GAGAAAGAGC TGTACGATTT GAGACTTGCC
    TTAAAACAAG AAAATGAGGA GAAAAGAAAT GCCGATATGT TGTATAATAA AGATAGTGAA
    CAGTTAAGAA TAAAAGAAGA GGAGTGTGGG AAAGTGGTTG AAACAAAGCA ACAACTTAAA
    TGGAATCTGA GAAGACTTGT TAAGGAATTG AGGACAGTAA GAAATAACTT GGATCTGGTT
    GTGCAGGAGA GAAACGATGC CCAGAAGCAA CTTTCTGAAG AACAGGATGC CAGAATATTA
    CAAGATCAGA TTCTGACGAG TAAACAAAAG GAACTAGAAA TGGCTCGAAA GAAAATGAAT
    TCTGAGATTT CTCATAGGCA TCAGAAAGAA AAGGATCTCT TTCATGAAGA TTGCATGTTG
    CAGGAAGAAA TTGCCTTGCT GAGACTGGAA ATAGATACAA TAAAAAATCA GAACAAGCAA
    AAGGAAAAGA AATATTTTGA GGACATTGAG GCTGTGAAAG AAAAGAATGA TAACCTTCAA
    AAAATTATAA AACTAAATGA GGAAACATTA ACAGAAACAA TACTCCAGTA CAGTGGACAG
    CTGAACAATC TGACAGCTGA GAACAAAATA CTCAATTCTG AACTGGAGAA TGGGAAACAG
    AACCAAGAAA GACTAGAAAT AGAAATGGAA TCATACCGTT GTAGACTAGC TGCTGCTGTA
    CGTGACTGTG ATCAAAGTCA GACAGCAAGA GACCTAAAAC TTGATTTCCA GAGAACAAGA
    CAAGAGTGGG TTCGTTTACA TGACAAAATG AAGGTTGATA TGTCTGGCCT ACAAGCTAAG
    AATGAGATTC TTTCTGAAAA ACTTTCTAAT GCTGAAAGTA AAATTAACAG CCTACAAATT
    CAGCTCCATA ACACAAGAGA TGCTCTTGGA AGAGAGAGTT TGATTTTGGA ACGTGTGCAA
    AGAGACCTCA GCCAAACACA GTGTCAGAAG AAAGAAACTG AACAAATGTA CCAAATTGAA
    CAAAGCAAAC TGAAGAAATA CATTGCCAAG CAGGAATCTG TAGAGGAGAG ATTATCTCAA
    CTACAAAGTG AAAATATGTT GCTTCGACAG CAACTGGATG ATGCTCACAA GAAAGCTAAC
    AGTCAAGAAA AGACAAGCAG TACTATCCAA GACCAGTTTC ATTCTGCTGC CAAAAATCTT
    CAAGCTGAGA GTGAAAAGCA GATTCTTTCA CTACAAGAGA AGAACAAGGA GCTGATGGAT
    GAATATAATC ATTTAAAAGA AAGAATGGAT CAATGTGAGA AAGAGAAAGC AGGAAGAAAA
    ATTGACCTTA CAGAAGCACA GGAAACTGTA CCTTCACGAT GTCTACATCT GGATGCAGAG
    AATGAAGTTC TTCAACTTCA ACAGACATTA TTCTCTATGA AAGCAATACA AAAGCAATGT
    GAAACACTAC AGAAGAATAA GAAGCAGCTG AAACAAGAAG TAGTAAACCT CAAAAGTTAT
    ATGGAAAGAA ATATGTTAGA ACGTGGTAAA GCTGAATGGC ATAAACTGTT GATTGAAGAA
    AGAGCAAGGA AGGAGATAGA AGAAAAATTA AACGAAGCCA TTCTCACCTT GCAGAAACAA
    GCAGCAGTAT CTCATGAACA GTTAGTACAG TTAAGGGAGG ATAATACTAC TTCAATAAAA
    ACTCAGATGG AACTCACAAT CAAAGATCTG GAATCTGAAA TCTCCAGAAT AAAAACTTCG
    CAAGCCGACT TTAATAAAAC CGAATTGGAA AGATATAAGG AACTCTACCT AGAAGAAGTG
    AAAGTTAGAG AATCCTTGTC AAATGAACTC AGTAGAACTA ATGAGATGAT AGCAGAGGTC
    AGTACGCAAC TTACTGTGGA GAAAGAGCAG ACCAGATCCA GATCTCTATT CACTGCTTAT
    GCTACAAGGC CAGTCCTAGA GTCACCTTGC GTTGGAAATC TTAATGATAG TGAAGGTCTC
    AACAGAAAAC ATATTCCAAG AAAAAAGAGG TCTGCTCTTA AGGACATGGA GAGCTACTTG
    TTGAAGATGC AGCAGAAGTT GCAAAATGAT CTAACTGCAG AAGTAGCAGC TGCTACTAAA
    TATGAACCTG GATCCTATAT AGCTTCTCCT CTAGGATTTA CACACAAGGA AAATCTGAAT
    CAAGATCCAG TTTTGGAAGT AACAAAAGAA TATGCACAGA TTTTAAGAAG AAAATACATA
    CTCTGA

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

    RefSeq XP_024306814.1
    CDS243..4568
    Translation

    Target ORF information:

    RefSeq Version XM_024451046.1
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 144A (CCDC144A), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_024451046.1

    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
    ATGCATTTCC CCCACTCTTG GGCACAAGCT GCCCTTTGGT GGCGTTGGGC ACAGATCACC 
    GCCTGGCAGA AGCCCGCGAC AGCGTGGAGG GAGCGATGCC CCCGCCCGGG ACTCCTGGTG
    GGTGATGGCG CCGGGAGGCC TTGGCTGGGA CAGATCGGGG CCTCCCGGTC GGTCAGCGAC
    TCGCGCCCGG CTGCGACTTT CAGAGGCTTT TGGACACCGC CTGCCATCCC GCCGCGCCTC
    TCGGGGTCCG CTCCCCCGGA CTGGCCCTGC CCACGGAGCG CGGGTAGCAG CCGGCGGCCA
    GGAGCCAGTG GCGGGAGCCA CCGGTGGGAA AACCGGCAGG AGGCTGCGCT GGACCCCGCT
    GGGCAGCGCC AATCCCTAAG GCAGCCGGGC GGCATTCAGC AACTAGTTCC TGAATATAAG
    GAAAAACAGA CACCTGAAAG TCTTCCTCAA AATAACAATC CAGATTGGCA TCCTACTAAT
    TTGACCCTTA GTGATGAGAC TTGTCAGAGA TCCAAGAATC TGAAAGTTGA TGATAAATGT
    CCATCTGTAT CACCATCAAT GCCTGAAAAT CAGTCAGCAA CCAAAGAACT GGGACAGATG
    AACTTAACAG AACGAGAAAA GATGGACACT GGAGTTGTAC TTCTCTCAGG GAATGATACT
    CTCCATGACC TGTGCCAATC ACAGCTACCA GAAAACAAAG AGAGCAAAGA AGCAGAACAA
    GACTCGGAGC TGACATCAGA GGAAGAGCAA GAAAGACTTA AAGGATGCGA AAATAAGCAG
    CCACAGAAAA CGTCTCAAGA ACCAGAAATG GCTAAGGATT GCGATAGAGA GGATATACCT
    ATATATCCAG TACTTCCTCA TGTGCAAAAA TCTGAGGAAA TGTGGATTGA ACAAGGCAAA
    TTAGAGTGGA AAAACCAATT AAAACTCGTC ATAAATGAGT TAAAGCAGAG GTTTGGTGAA
    ATTTATGAAA AATACAAAAT TCCGGCTTGT CCTGAGGAAG AGCCACTACT TGATAACTCT
    ACAAGAGGAA CAGATGTAAA GGATATTCCC TTTAATTTGA CAAATAACAT ACCTGGTTGT
    GAGGAAGAAG ATGCATCTGA AATATCTGTC TCAGTGGTAT TCGAGACATT TCCTGAACAA
    AAAGAACCCA GTCTCAAAAA TATCATCCAT CCATACTATC ATCCATACTC TGGGTCCCAG
    GAACATGTTT GCCAGTCATC TTCTAAGTTT CATTTACATG AAAATAAATT AGACTGCGAC
    AATGATAACA AACCAGGCAT TGGACATATT TTTAGTACAG ATAAGAACTT TCATAATGAT
    GCAAGCACTA AGAAAGCAAG GAACCCAGAA GTGGTTATGG TTGAAATGAA AGAAGACCAA
    GAGTTTGATT TGCAAATGAC AAAAAATATG AACCAAAATA GTGACAGTGG CAGTACAAAC
    AACTATAAAA GCCTGAAACC TAAATTAGAA AATCTGAGTT CTTTACCACC AGATTCTGAC
    AGAACATCAG AAGTATATCT ACATGAAGAA TTACAGCAAG ACATGCAAAA GTTTAAGAAT
    GAGGTCAACA CATTAGAAGA AGAGTTCCTG GCTTTGAAGA AAGAAGATGT TCAACTTCAT
    AAAGATGTTG AAGAAGAAAT GGAGAAGCAC AGAAGTAATA GCACAGAATT ATCAGGAACC
    CTAACTGATG GTACTACTGT TGGCAATGAT GATGATGGAC TAAATCAGCA GATTCCTAGG
    AAGGAAAATG GAGAGCATGA CAGGCCTGCA GATAAAACAT CTAATGAAAA GAACGAGGTC
    AAAAACCAAA TATATCCTGA GGCTGACTTT GCTGACTCAA TGGAGCCATC TGAAATAGCC
    TCAGAGGATT GTGAATTGTC TCACTCTGTT TATGAGAATT TTATGTTGCT GATTGAACAA
    CTTAGAATGG AGTATAAAGA TTCTGCTAGC CTACCAAGAA TCCAAGACAC ATTTTGTTTG
    TGTGAACACT TACTGAAACT TAAGAATAAT CACTGTGACC AACTTACAGT AAAACTTAAA
    CAAATGGAAA ATATGGTCAG TGTACTACAA AATGAGCTAT CTGAAACAAA AAAGACAAAA
    TTACAGTTAG AACTTCAAAA AATTGAATGG GAGAAAGAGC TGTACGATTT GAGACTTGCC
    TTAAAACAAG AAAATGAGGA GAAAAGAAAT GCCGATATGT TGTATAATAA AGATAGTGAA
    CAGTTAAGAA TAAAAGAAGA GGAGTGTGGG AAAGTGGTTG AAACAAAGCA ACAACTTAAA
    TGGAATCTGA GAAGACTTGT TAAGGAATTG AGGACAGTAA GAAATAACTT GGATCTGGTT
    GTGCAGGAGA GAAACGATGC CCAGAAGCAA CTTTCTGAAG AACAGGATGC CAGAATATTA
    CAAGATCAGA TTCTGACGAG TAAACAAAAG GAACTAGAAA TGGCTCGAAA GAAAATGAAT
    TCTGAGATTT CTCATAGGCA TCAGAAAGAA AAGGATCTCT TTCATGAAGA TTGCATGTTG
    CAGGAAGAAA TTGCCTTGCT GAGACTGGAA ATAGATACAA TAAAAAATCA GAACAAGCAA
    AAGGAAAAGA AATATTTTGA GGACATTGAG GCTGTGAAAG AAAAGAATGA TAACCTTCAA
    AAAATTATAA AACTAAATGA GGAAACATTA ACAGAAACAA TACTCCAGTA CAGTGGACAG
    CTGAACAATC TGACAGCTGA GAACAAAATA CTCAATTCTG AACTGGAGAA TGGGAAACAG
    AACCAAGAAA GACTAGAAAT AGAAATGGAA TCATACCGTT GTAGACTAGC TGCTGCTGTA
    CGTGACTGTG ATCAAAGTCA GACAGCAAGA GACCTAAAAC TTGATTTCCA GAGAACAAGA
    CAAGAGTGGG TTCGTTTACA TGACAAAATG AAGGTTGATA TGTCTGGCCT ACAAGCTAAG
    AATGAGATTC TTTCTGAAAA ACTTTCTAAT GCTGAAAGTA AAATTAACAG CCTACAAATT
    CAGCTCCATA ACACAAGAGA TGCTCTTGGA AGAGAGAGTT TGATTTTGGA ACGTGTGCAA
    AGAGACCTCA GCCAAACACA GTGTCAGAAG AAAGAAACTG AACAAATGTA CCAAATTGAA
    CAAAGCAAAC TGAAGAAATA CATTGCCAAG CAGGAATCTG TAGAGGAGAG ATTATCTCAA
    CTACAAAGTG AAAATATGTT GCTTCGACAG CAACTGGATG ATGCTCACAA GAAAGCTAAC
    AGTCAAGAAA AGACAAGCAG TACTATCCAA GACCAGTTTC ATTCTGCTGC CAAAAATCTT
    CAAGCTGAGA GTGAAAAGCA GATTCTTTCA CTACAAGAGA AGAACAAGGA GCTGATGGAT
    GAATATAATC ATTTAAAAGA AAGAATGGAT CAATGTGAGA AAGAGAAAGC AGGAAGAAAA
    ATTGACCTTA CAGAAGCACA GGAAACTGTA CCTTCACGAT GTCTACATCT GGATGCAGAG
    AATGAAGTTC TTCAACTTCA ACAGACATTA TTCTCTATGA AAGCAATACA AAAGCAATGT
    GAAACACTAC AGAAGAATAA GAAGCAGCTG AAACAAGAAG TAGTAAACCT CAAAAGTTAT
    ATGGAAAGAA ATATGTTAGA ACGTGGTAAA GCTGAATGGC ATAAACTGTT GATTGAAGAA
    AGAGCAAGGA AGGAGATAGA AGAAAAATTA AACGAAGCCA TTCTCACCTT GCAGAAACAA
    GCAGCAGTAT CTCATGAACA GTTAGTACAG TTAAGGGAGG ATAATACTAC TTCAATAAAA
    ACTCAGATGG AACTCACAAT CAAAGATCTG GAATCTGAAA TCTCCAGAAT AAAAACTTCG
    CAAGCCGACT TTAATAAAAC CGAATTGGAA AGATATAAGG AACTCTACCT AGAAGAAGTG
    AAAGTTAGAG AATCCTTGTC AAATGAACTC AGTAGAACTA ATGAGATGAT AGCAGAGGTC
    AGTACGCAAC TTACTGTGGA GAAAGAGCAG ACCAGATCCA GATCTCTATT CACTGCTTAT
    GCTACAAGGC CAGTCCTAGA GTCACCTTGC GTTGGAAATC TTAATGATAG TGAAGGTCTC
    AACAGAAAAC ATATTCCAAG AAAAAAGAGG TCTGCTCTTA AGGACATGGA GAGCTACTTG
    TTGAAGATGC AGCAGAAGTT GCAAAATGAT CTAACTGCAG AAGTAGCAGC TGCTACTAAA
    TATGAACCTG GATCCTATAT AGCTTCTCCT CTAGGATTTA CACACAAGGA AAATCTGAAT
    CAAGATCCAG TTTTGGAAGT AACAAAAGAA TATGCACAGA TTTTAAGAAG AAAATACATA
    CTCTGA

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

    CloneID OHu87689
    Clone ID Related Accession (Same CDS sequence) XM_017025429.1 , XM_017025429.2
    Accession Version XM_017025429.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4353bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product coiled-coil domain-containing protein 144A isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    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
    ATGCATTTCC CCCACTCTTG GGCACAAGCT GCCCTTTGGT GGCGTTGGGC ACAGATCACC 
    GCCTGGCAGA AGCCCGCGAC AGCGTGGAGG GAGCGATGCC CCCGCCCGGG ACTCCTGGTG
    GGTGATGGCG CCGGGAGGCC TTGGCTGGGA CAGATCGGGG CCTCCCGGTC GGTCAGCGAC
    TCGCGCCCGG CTGCGACTTT CAGAGGCTTT TGGACACCGC CTGCCATCCC GCCGCGCCTC
    TCGGGGTCCG CTCCCCCGGA CTGGCCCTGC CCACGGAGCG CGGGTAGCAG CCGGCGGCCA
    GGAGCCAGTG GCGGGAGCCA CCGGTGGGAA AACCGGCAGG AGGCTGCGCT GGACCCCGCT
    GGGCAGCGCC AATCCCTAAG GCAGCCGGGC GGCATTCAGC AACTAGTTCC TGAATATAAG
    GAAAAACAGA CACCTGAAAG TCTTCCTCAA AATAACAATC CAGATTGGCA TCCTACTAAT
    TTGACCCTTA GTGATGAGAC TTGTCAGAGA TCCAAGAATC TGAAAGTTGA TGATAAATGT
    CCATCTGTAT CACCATCAAT GCCTGAAAAT CAGTCAGCAA CCAAAGAACT GGGACAGATG
    AACTTAACAG AACGAGAAAA GATGGACACT GGAGTTGTAC TTCTCTCAGG GAATGATACT
    CTCCATGACC TGTGCCAATC ACAGCTACCA GAAAACAAAG AGAGCAAAGA AGCAGAACAA
    GACTCGGAGC TGACATCAGA GGAAGAGCAA GAAAGACTTA AAGGATGCGA AAATAAGCAG
    CCACAGAAAA CGTCTCAAGA ACCAGAAATG GCTAAGGATT GCGATAGAGA GGATATACCT
    ATATATCCAG TACTTCCTCA TGTGCAAAAA TCTGAGGAAA TGTGGATTGA ACAAGGCAAA
    TTAGAGTGGA AAAACCAATT AAAACTCGTC ATAAATGAGT TAAAGCAGAG GTTTGGTGAA
    ATTTATGAAA AATACAAAAT TCCGGCTTGT CCTGAGGAAG AGCCACTACT TGATAACTCT
    ACAAGAGGAA CAGATGTAAA GGATATTCCC TTTAATTTGA CAAATAACAT ACCTGGTTGT
    GAGGAAGAAG ATGCATCTGA AATATCTGTC TCAGTGGTAT TCGAGACATT TCCTGAACAA
    AAAGAACCCA GTCTCAAAAA TATCATCCAT CCATACTATC ATCCATACTC TGGGTCCCAG
    GAACATGTTT GCCAGTCATC TTCTAAGTTT CATTTACATG AAAATAAATT AGACTGCGAC
    AATGATAACA AACCAGGCAT TGGACATATT TTTAGTACAG ATAAGAACTT TCATAATGAT
    GCAAGCACTA AGAAAGCAAG GAACCCAGAA GTGGTTATGG TTGAAATGAA AGAAGACCAA
    GAGTTTGATT TGCAAATGAC AAAAAATATG AACCAAAATA GTGACAGTGG CAGTACAAAC
    AACTATAAAA GCCTGAAACC TAAATTAGAA AATCTGAGTT CTTTACCACC AGATTCTGAC
    AGAACATCAG AAGTATATCT ACATGAAGAA TTACAGCAAG ACATGCAAAA GTTTAAGAAT
    GAGGTCAACA CATTAGAAGA AGAGTTCCTG GCTTTGAAGA AAGAAGATGT TCAACTTCAT
    AAAGATGTTG AAGAAGAAAT GGAGAAGCAC AGAAGTAATA GCACAGAATT ATCAGGAACC
    CTAACTGATG GTACTACTGT TGGCAATGAT GATGATGGAC TAAATCAGCA GATTCCTAGG
    AAGGAAAATG GAGAGCATGA CAGGCCTGCA GATAAAACAT CTAATGAAAA GAACGAGGTC
    AAAAACCAAA TATATCCTGA GGCTGACTTT GCTGACTCAA TGGAGCCATC TGAAATAGCC
    TCAGAGGATT GTGAATTGTC TCACTCTGTT TATGAGAATT TTATGTTGCT GATTGAACAA
    CTTAGAATGG AGTATAAAGA TTCTGCTAGC CTACCAAGAA TCCAAGACAC ATTTTGTTTG
    TGTGAACACT TACTGAAACT TAAGAATAAT CACTGTGACC AACTTACAGT AAAACTTAAA
    CAAATGGAAA ATATGGTCAG TGTACTACAA AATGAGCTAT CTGAAACAAA AAAGACAAAA
    TTACAGTTAG AACTTCAAAA AATTGAATGG GAGAAAGAGC TGTACGATTT GAGACTTGCC
    TTAAAACAAG AAAATGAGGA GAAAAGAAAT GCCGATATGT TGTATAATAA AGATAGTGAA
    CAGTTAAGAA TAAAAGAAGA GGAGTGTGGG AAAGTGGTTG AAACAAAGCA ACAACTTAAA
    TGGAATCTGA GAAGACTTGT TAAGGAATTG AGGACAGTAA GAAATAACTT GGATCTGGTT
    GTGCAGGAGA GAAACGATGC CCAGAAGCAA CTTTCTGAAG AACAGGATGC CAGAATATTA
    CAAGATCAGA TTCTGACGAG TAAACAAAAG GAACTAGAAA TGGCTCGAAA GAAAATGAAT
    TCTGAGATTT CTCATAGGCA TCAGAAAGAA AAGGATCTCT TTCATGAAGA TTGCATGTTG
    CAGGAAGAAA TTGCCTTGCT GAGACTGGAA ATAGATACAA TAAAAAATCA GAACAAGCAA
    AAGGAAAAGA AATATTTTGA GGACATTGAG GCTGTGAAAG AAAAGAATGA TAACCTTCAA
    AAAATTATAA AACTAAATGA GGAAACATTA ACAGAAACAA TACTCCAGTA CAGTGGACAG
    CTGAACAATC TGACAGCTGA GAACAAAATA CTCAATTCTG AACTGGAGAA TGGGAAACAG
    AACCAAGAAA GACTAGAAAT AGAAATGGAA TCATACCGTT GTAGACTAGC TGCTGCTGTA
    CGTGACTGTG ATCAAAGTCA GACAGCAAGA GACCTAAAAC TTGATTTCCA GAGAACAAGA
    CAAGAGTGGG TTCGTTTACA TGACAAAATG AAGGTTGATA TGTCTGGCCT ACAAGCTAAG
    AATGAGATTC TTTCTGAAAA ACTTTCTAAT GCTGAAAGTA AAATTAACAG CCTACAAATT
    CAGCTCCATA ACACAAGAGA TGCTCTTGGA AGAGAGAGTT TGATTTTGGA ACGTGTGCAA
    AGAGACCTCA GCCAAACACA GTGTCAGAAG AAAGAAACTG AACAAATGTA CCAAATTGAA
    CAAAGCAAAC TGAAGAAATA CATTGCCAAG CAGGAATCTG TAGAGGAGAG ATTATCTCAA
    CTACAAAGTG AAAATATGTT GCTTCGACAG CAACTGGATG ATGCTCACAA GAAAGCTAAC
    AGTCAAGAAA AGACAAGCAG TACTATCCAA GACCAGTTTC ATTCTGCTGC CAAAAATCTT
    CAAGCTGAGA GTGAAAAGCA GATTCTTTCA CTACAAGAGA AGAACAAGGA GCTGATGGAT
    GAATATAATC ATTTAAAAGA AAGAATGGAT CAATGTGAGA AAGAGAAAGC AGGAAGAAAA
    GTAGTTATGA GAGAATTCCA ACAAGAATGG ACCGATCTCC TAAAACAACA ACCTACGTCA
    GAGGCTACCT CACGTTGTCA CATTAATTTA GATGAGACAC AGGATTCAAA GAAGAAATTG
    GGTCAAATCA GAAGTGAAAT TGACCTTACA GAAGCACAGG AAACTGTACC TTCACGATGT
    CTACATCTGG ATGCAGAGAA TGAAGTTCTT CAACTTCAAC AGACATTATT CTCTATGAAA
    GCAATACAAA AGCAATGTGA AACACTACAG AAGAATAAGA AGCAGCTGAA ACAAGAAGTA
    GTAAACCTCA AAAGTTATAT GGAAAGAAAT ATGTTAGAAC GTGGTAAAGC TGAATGGCAT
    AAACTGTTGA TTGAAGAAAG AGCAAGGAAG GAGATAGAAG AAAAATTAAA CGAAGCCATT
    CTCACCTTGC AGAAACAAGC AGCAGTATCT CATGAACAGT TAGTACAGTT AAGGGAGGAT
    AATACTACTT CAATAAAAAC TCAGATGGAA CTCACAATCA AAGATCTGGA ATCTGAAATC
    TCCAGAATAA AAACTTCGCA AGCCGACTTT AATAAAACCG AATTGGAAAG ATATAAGGAA
    CTCTACCTAG AAGAAGTGAA AGTTAGAGAA TCCTTGTCAA ATGAACTCAG TAGAACTAAT
    GAGATGATAG CAGAGGTCAG TACGCAACTT ACTGTGGAGA AAGAGCAGAC CAGATCCAGA
    TCTCTATTCA CTGCTTATGC TACAAGGCCA GTCCTAGAGT CACCTTGCGT TGGAAATCTT
    AATGATAGTG AAGGTCTCAA CAGAAAACAT ATTCCAAGAA AAAAGAGGTC TGCTCTTAAG
    GACATGGAGA GCTACTTGTT GAAGGTTAGC TATCTTTTTT CCTTCGGCGT TCAGATTTCT
    GATAGAATTC TTGTATGTTA TTTGGTAAAA TAG

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

    RefSeq XP_016880918.1
    CDS46..4398
    Translation

    Target ORF information:

    RefSeq Version XM_017025429.1
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 144A (CCDC144A), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017025429.1

    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
    ATGCATTTCC CCCACTCTTG GGCACAAGCT GCCCTTTGGT GGCGTTGGGC ACAGATCACC 
    GCCTGGCAGA AGCCCGCGAC AGCGTGGAGG GAGCGATGCC CCCGCCCGGG ACTCCTGGTG
    GGTGATGGCG CCGGGAGGCC TTGGCTGGGA CAGATCGGGG CCTCCCGGTC GGTCAGCGAC
    TCGCGCCCGG CTGCGACTTT CAGAGGCTTT TGGACACCGC CTGCCATCCC GCCGCGCCTC
    TCGGGGTCCG CTCCCCCGGA CTGGCCCTGC CCACGGAGCG CGGGTAGCAG CCGGCGGCCA
    GGAGCCAGTG GCGGGAGCCA CCGGTGGGAA AACCGGCAGG AGGCTGCGCT GGACCCCGCT
    GGGCAGCGCC AATCCCTAAG GCAGCCGGGC GGCATTCAGC AACTAGTTCC TGAATATAAG
    GAAAAACAGA CACCTGAAAG TCTTCCTCAA AATAACAATC CAGATTGGCA TCCTACTAAT
    TTGACCCTTA GTGATGAGAC TTGTCAGAGA TCCAAGAATC TGAAAGTTGA TGATAAATGT
    CCATCTGTAT CACCATCAAT GCCTGAAAAT CAGTCAGCAA CCAAAGAACT GGGACAGATG
    AACTTAACAG AACGAGAAAA GATGGACACT GGAGTTGTAC TTCTCTCAGG GAATGATACT
    CTCCATGACC TGTGCCAATC ACAGCTACCA GAAAACAAAG AGAGCAAAGA AGCAGAACAA
    GACTCGGAGC TGACATCAGA GGAAGAGCAA GAAAGACTTA AAGGATGCGA AAATAAGCAG
    CCACAGAAAA CGTCTCAAGA ACCAGAAATG GCTAAGGATT GCGATAGAGA GGATATACCT
    ATATATCCAG TACTTCCTCA TGTGCAAAAA TCTGAGGAAA TGTGGATTGA ACAAGGCAAA
    TTAGAGTGGA AAAACCAATT AAAACTCGTC ATAAATGAGT TAAAGCAGAG GTTTGGTGAA
    ATTTATGAAA AATACAAAAT TCCGGCTTGT CCTGAGGAAG AGCCACTACT TGATAACTCT
    ACAAGAGGAA CAGATGTAAA GGATATTCCC TTTAATTTGA CAAATAACAT ACCTGGTTGT
    GAGGAAGAAG ATGCATCTGA AATATCTGTC TCAGTGGTAT TCGAGACATT TCCTGAACAA
    AAAGAACCCA GTCTCAAAAA TATCATCCAT CCATACTATC ATCCATACTC TGGGTCCCAG
    GAACATGTTT GCCAGTCATC TTCTAAGTTT CATTTACATG AAAATAAATT AGACTGCGAC
    AATGATAACA AACCAGGCAT TGGACATATT TTTAGTACAG ATAAGAACTT TCATAATGAT
    GCAAGCACTA AGAAAGCAAG GAACCCAGAA GTGGTTATGG TTGAAATGAA AGAAGACCAA
    GAGTTTGATT TGCAAATGAC AAAAAATATG AACCAAAATA GTGACAGTGG CAGTACAAAC
    AACTATAAAA GCCTGAAACC TAAATTAGAA AATCTGAGTT CTTTACCACC AGATTCTGAC
    AGAACATCAG AAGTATATCT ACATGAAGAA TTACAGCAAG ACATGCAAAA GTTTAAGAAT
    GAGGTCAACA CATTAGAAGA AGAGTTCCTG GCTTTGAAGA AAGAAGATGT TCAACTTCAT
    AAAGATGTTG AAGAAGAAAT GGAGAAGCAC AGAAGTAATA GCACAGAATT ATCAGGAACC
    CTAACTGATG GTACTACTGT TGGCAATGAT GATGATGGAC TAAATCAGCA GATTCCTAGG
    AAGGAAAATG GAGAGCATGA CAGGCCTGCA GATAAAACAT CTAATGAAAA GAACGAGGTC
    AAAAACCAAA TATATCCTGA GGCTGACTTT GCTGACTCAA TGGAGCCATC TGAAATAGCC
    TCAGAGGATT GTGAATTGTC TCACTCTGTT TATGAGAATT TTATGTTGCT GATTGAACAA
    CTTAGAATGG AGTATAAAGA TTCTGCTAGC CTACCAAGAA TCCAAGACAC ATTTTGTTTG
    TGTGAACACT TACTGAAACT TAAGAATAAT CACTGTGACC AACTTACAGT AAAACTTAAA
    CAAATGGAAA ATATGGTCAG TGTACTACAA AATGAGCTAT CTGAAACAAA AAAGACAAAA
    TTACAGTTAG AACTTCAAAA AATTGAATGG GAGAAAGAGC TGTACGATTT GAGACTTGCC
    TTAAAACAAG AAAATGAGGA GAAAAGAAAT GCCGATATGT TGTATAATAA AGATAGTGAA
    CAGTTAAGAA TAAAAGAAGA GGAGTGTGGG AAAGTGGTTG AAACAAAGCA ACAACTTAAA
    TGGAATCTGA GAAGACTTGT TAAGGAATTG AGGACAGTAA GAAATAACTT GGATCTGGTT
    GTGCAGGAGA GAAACGATGC CCAGAAGCAA CTTTCTGAAG AACAGGATGC CAGAATATTA
    CAAGATCAGA TTCTGACGAG TAAACAAAAG GAACTAGAAA TGGCTCGAAA GAAAATGAAT
    TCTGAGATTT CTCATAGGCA TCAGAAAGAA AAGGATCTCT TTCATGAAGA TTGCATGTTG
    CAGGAAGAAA TTGCCTTGCT GAGACTGGAA ATAGATACAA TAAAAAATCA GAACAAGCAA
    AAGGAAAAGA AATATTTTGA GGACATTGAG GCTGTGAAAG AAAAGAATGA TAACCTTCAA
    AAAATTATAA AACTAAATGA GGAAACATTA ACAGAAACAA TACTCCAGTA CAGTGGACAG
    CTGAACAATC TGACAGCTGA GAACAAAATA CTCAATTCTG AACTGGAGAA TGGGAAACAG
    AACCAAGAAA GACTAGAAAT AGAAATGGAA TCATACCGTT GTAGACTAGC TGCTGCTGTA
    CGTGACTGTG ATCAAAGTCA GACAGCAAGA GACCTAAAAC TTGATTTCCA GAGAACAAGA
    CAAGAGTGGG TTCGTTTACA TGACAAAATG AAGGTTGATA TGTCTGGCCT ACAAGCTAAG
    AATGAGATTC TTTCTGAAAA ACTTTCTAAT GCTGAAAGTA AAATTAACAG CCTACAAATT
    CAGCTCCATA ACACAAGAGA TGCTCTTGGA AGAGAGAGTT TGATTTTGGA ACGTGTGCAA
    AGAGACCTCA GCCAAACACA GTGTCAGAAG AAAGAAACTG AACAAATGTA CCAAATTGAA
    CAAAGCAAAC TGAAGAAATA CATTGCCAAG CAGGAATCTG TAGAGGAGAG ATTATCTCAA
    CTACAAAGTG AAAATATGTT GCTTCGACAG CAACTGGATG ATGCTCACAA GAAAGCTAAC
    AGTCAAGAAA AGACAAGCAG TACTATCCAA GACCAGTTTC ATTCTGCTGC CAAAAATCTT
    CAAGCTGAGA GTGAAAAGCA GATTCTTTCA CTACAAGAGA AGAACAAGGA GCTGATGGAT
    GAATATAATC ATTTAAAAGA AAGAATGGAT CAATGTGAGA AAGAGAAAGC AGGAAGAAAA
    GTAGTTATGA GAGAATTCCA ACAAGAATGG ACCGATCTCC TAAAACAACA ACCTACGTCA
    GAGGCTACCT CACGTTGTCA CATTAATTTA GATGAGACAC AGGATTCAAA GAAGAAATTG
    GGTCAAATCA GAAGTGAAAT TGACCTTACA GAAGCACAGG AAACTGTACC TTCACGATGT
    CTACATCTGG ATGCAGAGAA TGAAGTTCTT CAACTTCAAC AGACATTATT CTCTATGAAA
    GCAATACAAA AGCAATGTGA AACACTACAG AAGAATAAGA AGCAGCTGAA ACAAGAAGTA
    GTAAACCTCA AAAGTTATAT GGAAAGAAAT ATGTTAGAAC GTGGTAAAGC TGAATGGCAT
    AAACTGTTGA TTGAAGAAAG AGCAAGGAAG GAGATAGAAG AAAAATTAAA CGAAGCCATT
    CTCACCTTGC AGAAACAAGC AGCAGTATCT CATGAACAGT TAGTACAGTT AAGGGAGGAT
    AATACTACTT CAATAAAAAC TCAGATGGAA CTCACAATCA AAGATCTGGA ATCTGAAATC
    TCCAGAATAA AAACTTCGCA AGCCGACTTT AATAAAACCG AATTGGAAAG ATATAAGGAA
    CTCTACCTAG AAGAAGTGAA AGTTAGAGAA TCCTTGTCAA ATGAACTCAG TAGAACTAAT
    GAGATGATAG CAGAGGTCAG TACGCAACTT ACTGTGGAGA AAGAGCAGAC CAGATCCAGA
    TCTCTATTCA CTGCTTATGC TACAAGGCCA GTCCTAGAGT CACCTTGCGT TGGAAATCTT
    AATGATAGTG AAGGTCTCAA CAGAAAACAT ATTCCAAGAA AAAAGAGGTC TGCTCTTAAG
    GACATGGAGA GCTACTTGTT GAAGGTTAGC TATCTTTTTT CCTTCGGCGT TCAGATTTCT
    GATAGAATTC TTGTATGTTA TTTGGTAAAA TAG

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

    CloneID OHu87689
    Clone ID Related Accession (Same CDS sequence) XM_017025429.1 , XM_017025429.2
    Accession Version XM_017025429.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4353bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product coiled-coil domain-containing protein 144A isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017025429.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGCATTTCC CCCACTCTTG GGCACAAGCT GCCCTTTGGT GGCGTTGGGC ACAGATCACC 
    GCCTGGCAGA AGCCCGCGAC AGCGTGGAGG GAGCGATGCC CCCGCCCGGG ACTCCTGGTG
    GGTGATGGCG CCGGGAGGCC TTGGCTGGGA CAGATCGGGG CCTCCCGGTC GGTCAGCGAC
    TCGCGCCCGG CTGCGACTTT CAGAGGCTTT TGGACACCGC CTGCCATCCC GCCGCGCCTC
    TCGGGGTCCG CTCCCCCGGA CTGGCCCTGC CCACGGAGCG CGGGTAGCAG CCGGCGGCCA
    GGAGCCAGTG GCGGGAGCCA CCGGTGGGAA AACCGGCAGG AGGCTGCGCT GGACCCCGCT
    GGGCAGCGCC AATCCCTAAG GCAGCCGGGC GGCATTCAGC AACTAGTTCC TGAATATAAG
    GAAAAACAGA CACCTGAAAG TCTTCCTCAA AATAACAATC CAGATTGGCA TCCTACTAAT
    TTGACCCTTA GTGATGAGAC TTGTCAGAGA TCCAAGAATC TGAAAGTTGA TGATAAATGT
    CCATCTGTAT CACCATCAAT GCCTGAAAAT CAGTCAGCAA CCAAAGAACT GGGACAGATG
    AACTTAACAG AACGAGAAAA GATGGACACT GGAGTTGTAC TTCTCTCAGG GAATGATACT
    CTCCATGACC TGTGCCAATC ACAGCTACCA GAAAACAAAG AGAGCAAAGA AGCAGAACAA
    GACTCGGAGC TGACATCAGA GGAAGAGCAA GAAAGACTTA AAGGATGCGA AAATAAGCAG
    CCACAGAAAA CGTCTCAAGA ACCAGAAATG GCTAAGGATT GCGATAGAGA GGATATACCT
    ATATATCCAG TACTTCCTCA TGTGCAAAAA TCTGAGGAAA TGTGGATTGA ACAAGGCAAA
    TTAGAGTGGA AAAACCAATT AAAACTCGTC ATAAATGAGT TAAAGCAGAG GTTTGGTGAA
    ATTTATGAAA AATACAAAAT TCCGGCTTGT CCTGAGGAAG AGCCACTACT TGATAACTCT
    ACAAGAGGAA CAGATGTAAA GGATATTCCC TTTAATTTGA CAAATAACAT ACCTGGTTGT
    GAGGAAGAAG ATGCATCTGA AATATCTGTC TCAGTGGTAT TCGAGACATT TCCTGAACAA
    AAAGAACCCA GTCTCAAAAA TATCATCCAT CCATACTATC ATCCATACTC TGGGTCCCAG
    GAACATGTTT GCCAGTCATC TTCTAAGTTT CATTTACATG AAAATAAATT AGACTGCGAC
    AATGATAACA AACCAGGCAT TGGACATATT TTTAGTACAG ATAAGAACTT TCATAATGAT
    GCAAGCACTA AGAAAGCAAG GAACCCAGAA GTGGTTATGG TTGAAATGAA AGAAGACCAA
    GAGTTTGATT TGCAAATGAC AAAAAATATG AACCAAAATA GTGACAGTGG CAGTACAAAC
    AACTATAAAA GCCTGAAACC TAAATTAGAA AATCTGAGTT CTTTACCACC AGATTCTGAC
    AGAACATCAG AAGTATATCT ACATGAAGAA TTACAGCAAG ACATGCAAAA GTTTAAGAAT
    GAGGTCAACA CATTAGAAGA AGAGTTCCTG GCTTTGAAGA AAGAAGATGT TCAACTTCAT
    AAAGATGTTG AAGAAGAAAT GGAGAAGCAC AGAAGTAATA GCACAGAATT ATCAGGAACC
    CTAACTGATG GTACTACTGT TGGCAATGAT GATGATGGAC TAAATCAGCA GATTCCTAGG
    AAGGAAAATG GAGAGCATGA CAGGCCTGCA GATAAAACAT CTAATGAAAA GAACGAGGTC
    AAAAACCAAA TATATCCTGA GGCTGACTTT GCTGACTCAA TGGAGCCATC TGAAATAGCC
    TCAGAGGATT GTGAATTGTC TCACTCTGTT TATGAGAATT TTATGTTGCT GATTGAACAA
    CTTAGAATGG AGTATAAAGA TTCTGCTAGC CTACCAAGAA TCCAAGACAC ATTTTGTTTG
    TGTGAACACT TACTGAAACT TAAGAATAAT CACTGTGACC AACTTACAGT AAAACTTAAA
    CAAATGGAAA ATATGGTCAG TGTACTACAA AATGAGCTAT CTGAAACAAA AAAGACAAAA
    TTACAGTTAG AACTTCAAAA AATTGAATGG GAGAAAGAGC TGTACGATTT GAGACTTGCC
    TTAAAACAAG AAAATGAGGA GAAAAGAAAT GCCGATATGT TGTATAATAA AGATAGTGAA
    CAGTTAAGAA TAAAAGAAGA GGAGTGTGGG AAAGTGGTTG AAACAAAGCA ACAACTTAAA
    TGGAATCTGA GAAGACTTGT TAAGGAATTG AGGACAGTAA GAAATAACTT GGATCTGGTT
    GTGCAGGAGA GAAACGATGC CCAGAAGCAA CTTTCTGAAG AACAGGATGC CAGAATATTA
    CAAGATCAGA TTCTGACGAG TAAACAAAAG GAACTAGAAA TGGCTCGAAA GAAAATGAAT
    TCTGAGATTT CTCATAGGCA TCAGAAAGAA AAGGATCTCT TTCATGAAGA TTGCATGTTG
    CAGGAAGAAA TTGCCTTGCT GAGACTGGAA ATAGATACAA TAAAAAATCA GAACAAGCAA
    AAGGAAAAGA AATATTTTGA GGACATTGAG GCTGTGAAAG AAAAGAATGA TAACCTTCAA
    AAAATTATAA AACTAAATGA GGAAACATTA ACAGAAACAA TACTCCAGTA CAGTGGACAG
    CTGAACAATC TGACAGCTGA GAACAAAATA CTCAATTCTG AACTGGAGAA TGGGAAACAG
    AACCAAGAAA GACTAGAAAT AGAAATGGAA TCATACCGTT GTAGACTAGC TGCTGCTGTA
    CGTGACTGTG ATCAAAGTCA GACAGCAAGA GACCTAAAAC TTGATTTCCA GAGAACAAGA
    CAAGAGTGGG TTCGTTTACA TGACAAAATG AAGGTTGATA TGTCTGGCCT ACAAGCTAAG
    AATGAGATTC TTTCTGAAAA ACTTTCTAAT GCTGAAAGTA AAATTAACAG CCTACAAATT
    CAGCTCCATA ACACAAGAGA TGCTCTTGGA AGAGAGAGTT TGATTTTGGA ACGTGTGCAA
    AGAGACCTCA GCCAAACACA GTGTCAGAAG AAAGAAACTG AACAAATGTA CCAAATTGAA
    CAAAGCAAAC TGAAGAAATA CATTGCCAAG CAGGAATCTG TAGAGGAGAG ATTATCTCAA
    CTACAAAGTG AAAATATGTT GCTTCGACAG CAACTGGATG ATGCTCACAA GAAAGCTAAC
    AGTCAAGAAA AGACAAGCAG TACTATCCAA GACCAGTTTC ATTCTGCTGC CAAAAATCTT
    CAAGCTGAGA GTGAAAAGCA GATTCTTTCA CTACAAGAGA AGAACAAGGA GCTGATGGAT
    GAATATAATC ATTTAAAAGA AAGAATGGAT CAATGTGAGA AAGAGAAAGC AGGAAGAAAA
    GTAGTTATGA GAGAATTCCA ACAAGAATGG ACCGATCTCC TAAAACAACA ACCTACGTCA
    GAGGCTACCT CACGTTGTCA CATTAATTTA GATGAGACAC AGGATTCAAA GAAGAAATTG
    GGTCAAATCA GAAGTGAAAT TGACCTTACA GAAGCACAGG AAACTGTACC TTCACGATGT
    CTACATCTGG ATGCAGAGAA TGAAGTTCTT CAACTTCAAC AGACATTATT CTCTATGAAA
    GCAATACAAA AGCAATGTGA AACACTACAG AAGAATAAGA AGCAGCTGAA ACAAGAAGTA
    GTAAACCTCA AAAGTTATAT GGAAAGAAAT ATGTTAGAAC GTGGTAAAGC TGAATGGCAT
    AAACTGTTGA TTGAAGAAAG AGCAAGGAAG GAGATAGAAG AAAAATTAAA CGAAGCCATT
    CTCACCTTGC AGAAACAAGC AGCAGTATCT CATGAACAGT TAGTACAGTT AAGGGAGGAT
    AATACTACTT CAATAAAAAC TCAGATGGAA CTCACAATCA AAGATCTGGA ATCTGAAATC
    TCCAGAATAA AAACTTCGCA AGCCGACTTT AATAAAACCG AATTGGAAAG ATATAAGGAA
    CTCTACCTAG AAGAAGTGAA AGTTAGAGAA TCCTTGTCAA ATGAACTCAG TAGAACTAAT
    GAGATGATAG CAGAGGTCAG TACGCAACTT ACTGTGGAGA AAGAGCAGAC CAGATCCAGA
    TCTCTATTCA CTGCTTATGC TACAAGGCCA GTCCTAGAGT CACCTTGCGT TGGAAATCTT
    AATGATAGTG AAGGTCTCAA CAGAAAACAT ATTCCAAGAA AAAAGAGGTC TGCTCTTAAG
    GACATGGAGA GCTACTTGTT GAAGGTTAGC TATCTTTTTT CCTTCGGCGT TCAGATTTCT
    GATAGAATTC TTGTATGTTA TTTGGTAAAA TAG

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

    RefSeq XP_016880918.1
    CDS243..4595
    Translation

    Target ORF information:

    RefSeq Version XM_017025429.2
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 144A (CCDC144A), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017025429.2

    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
    ATGCATTTCC CCCACTCTTG GGCACAAGCT GCCCTTTGGT GGCGTTGGGC ACAGATCACC 
    GCCTGGCAGA AGCCCGCGAC AGCGTGGAGG GAGCGATGCC CCCGCCCGGG ACTCCTGGTG
    GGTGATGGCG CCGGGAGGCC TTGGCTGGGA CAGATCGGGG CCTCCCGGTC GGTCAGCGAC
    TCGCGCCCGG CTGCGACTTT CAGAGGCTTT TGGACACCGC CTGCCATCCC GCCGCGCCTC
    TCGGGGTCCG CTCCCCCGGA CTGGCCCTGC CCACGGAGCG CGGGTAGCAG CCGGCGGCCA
    GGAGCCAGTG GCGGGAGCCA CCGGTGGGAA AACCGGCAGG AGGCTGCGCT GGACCCCGCT
    GGGCAGCGCC AATCCCTAAG GCAGCCGGGC GGCATTCAGC AACTAGTTCC TGAATATAAG
    GAAAAACAGA CACCTGAAAG TCTTCCTCAA AATAACAATC CAGATTGGCA TCCTACTAAT
    TTGACCCTTA GTGATGAGAC TTGTCAGAGA TCCAAGAATC TGAAAGTTGA TGATAAATGT
    CCATCTGTAT CACCATCAAT GCCTGAAAAT CAGTCAGCAA CCAAAGAACT GGGACAGATG
    AACTTAACAG AACGAGAAAA GATGGACACT GGAGTTGTAC TTCTCTCAGG GAATGATACT
    CTCCATGACC TGTGCCAATC ACAGCTACCA GAAAACAAAG AGAGCAAAGA AGCAGAACAA
    GACTCGGAGC TGACATCAGA GGAAGAGCAA GAAAGACTTA AAGGATGCGA AAATAAGCAG
    CCACAGAAAA CGTCTCAAGA ACCAGAAATG GCTAAGGATT GCGATAGAGA GGATATACCT
    ATATATCCAG TACTTCCTCA TGTGCAAAAA TCTGAGGAAA TGTGGATTGA ACAAGGCAAA
    TTAGAGTGGA AAAACCAATT AAAACTCGTC ATAAATGAGT TAAAGCAGAG GTTTGGTGAA
    ATTTATGAAA AATACAAAAT TCCGGCTTGT CCTGAGGAAG AGCCACTACT TGATAACTCT
    ACAAGAGGAA CAGATGTAAA GGATATTCCC TTTAATTTGA CAAATAACAT ACCTGGTTGT
    GAGGAAGAAG ATGCATCTGA AATATCTGTC TCAGTGGTAT TCGAGACATT TCCTGAACAA
    AAAGAACCCA GTCTCAAAAA TATCATCCAT CCATACTATC ATCCATACTC TGGGTCCCAG
    GAACATGTTT GCCAGTCATC TTCTAAGTTT CATTTACATG AAAATAAATT AGACTGCGAC
    AATGATAACA AACCAGGCAT TGGACATATT TTTAGTACAG ATAAGAACTT TCATAATGAT
    GCAAGCACTA AGAAAGCAAG GAACCCAGAA GTGGTTATGG TTGAAATGAA AGAAGACCAA
    GAGTTTGATT TGCAAATGAC AAAAAATATG AACCAAAATA GTGACAGTGG CAGTACAAAC
    AACTATAAAA GCCTGAAACC TAAATTAGAA AATCTGAGTT CTTTACCACC AGATTCTGAC
    AGAACATCAG AAGTATATCT ACATGAAGAA TTACAGCAAG ACATGCAAAA GTTTAAGAAT
    GAGGTCAACA CATTAGAAGA AGAGTTCCTG GCTTTGAAGA AAGAAGATGT TCAACTTCAT
    AAAGATGTTG AAGAAGAAAT GGAGAAGCAC AGAAGTAATA GCACAGAATT ATCAGGAACC
    CTAACTGATG GTACTACTGT TGGCAATGAT GATGATGGAC TAAATCAGCA GATTCCTAGG
    AAGGAAAATG GAGAGCATGA CAGGCCTGCA GATAAAACAT CTAATGAAAA GAACGAGGTC
    AAAAACCAAA TATATCCTGA GGCTGACTTT GCTGACTCAA TGGAGCCATC TGAAATAGCC
    TCAGAGGATT GTGAATTGTC TCACTCTGTT TATGAGAATT TTATGTTGCT GATTGAACAA
    CTTAGAATGG AGTATAAAGA TTCTGCTAGC CTACCAAGAA TCCAAGACAC ATTTTGTTTG
    TGTGAACACT TACTGAAACT TAAGAATAAT CACTGTGACC AACTTACAGT AAAACTTAAA
    CAAATGGAAA ATATGGTCAG TGTACTACAA AATGAGCTAT CTGAAACAAA AAAGACAAAA
    TTACAGTTAG AACTTCAAAA AATTGAATGG GAGAAAGAGC TGTACGATTT GAGACTTGCC
    TTAAAACAAG AAAATGAGGA GAAAAGAAAT GCCGATATGT TGTATAATAA AGATAGTGAA
    CAGTTAAGAA TAAAAGAAGA GGAGTGTGGG AAAGTGGTTG AAACAAAGCA ACAACTTAAA
    TGGAATCTGA GAAGACTTGT TAAGGAATTG AGGACAGTAA GAAATAACTT GGATCTGGTT
    GTGCAGGAGA GAAACGATGC CCAGAAGCAA CTTTCTGAAG AACAGGATGC CAGAATATTA
    CAAGATCAGA TTCTGACGAG TAAACAAAAG GAACTAGAAA TGGCTCGAAA GAAAATGAAT
    TCTGAGATTT CTCATAGGCA TCAGAAAGAA AAGGATCTCT TTCATGAAGA TTGCATGTTG
    CAGGAAGAAA TTGCCTTGCT GAGACTGGAA ATAGATACAA TAAAAAATCA GAACAAGCAA
    AAGGAAAAGA AATATTTTGA GGACATTGAG GCTGTGAAAG AAAAGAATGA TAACCTTCAA
    AAAATTATAA AACTAAATGA GGAAACATTA ACAGAAACAA TACTCCAGTA CAGTGGACAG
    CTGAACAATC TGACAGCTGA GAACAAAATA CTCAATTCTG AACTGGAGAA TGGGAAACAG
    AACCAAGAAA GACTAGAAAT AGAAATGGAA TCATACCGTT GTAGACTAGC TGCTGCTGTA
    CGTGACTGTG ATCAAAGTCA GACAGCAAGA GACCTAAAAC TTGATTTCCA GAGAACAAGA
    CAAGAGTGGG TTCGTTTACA TGACAAAATG AAGGTTGATA TGTCTGGCCT ACAAGCTAAG
    AATGAGATTC TTTCTGAAAA ACTTTCTAAT GCTGAAAGTA AAATTAACAG CCTACAAATT
    CAGCTCCATA ACACAAGAGA TGCTCTTGGA AGAGAGAGTT TGATTTTGGA ACGTGTGCAA
    AGAGACCTCA GCCAAACACA GTGTCAGAAG AAAGAAACTG AACAAATGTA CCAAATTGAA
    CAAAGCAAAC TGAAGAAATA CATTGCCAAG CAGGAATCTG TAGAGGAGAG ATTATCTCAA
    CTACAAAGTG AAAATATGTT GCTTCGACAG CAACTGGATG ATGCTCACAA GAAAGCTAAC
    AGTCAAGAAA AGACAAGCAG TACTATCCAA GACCAGTTTC ATTCTGCTGC CAAAAATCTT
    CAAGCTGAGA GTGAAAAGCA GATTCTTTCA CTACAAGAGA AGAACAAGGA GCTGATGGAT
    GAATATAATC ATTTAAAAGA AAGAATGGAT CAATGTGAGA AAGAGAAAGC AGGAAGAAAA
    GTAGTTATGA GAGAATTCCA ACAAGAATGG ACCGATCTCC TAAAACAACA ACCTACGTCA
    GAGGCTACCT CACGTTGTCA CATTAATTTA GATGAGACAC AGGATTCAAA GAAGAAATTG
    GGTCAAATCA GAAGTGAAAT TGACCTTACA GAAGCACAGG AAACTGTACC TTCACGATGT
    CTACATCTGG ATGCAGAGAA TGAAGTTCTT CAACTTCAAC AGACATTATT CTCTATGAAA
    GCAATACAAA AGCAATGTGA AACACTACAG AAGAATAAGA AGCAGCTGAA ACAAGAAGTA
    GTAAACCTCA AAAGTTATAT GGAAAGAAAT ATGTTAGAAC GTGGTAAAGC TGAATGGCAT
    AAACTGTTGA TTGAAGAAAG AGCAAGGAAG GAGATAGAAG AAAAATTAAA CGAAGCCATT
    CTCACCTTGC AGAAACAAGC AGCAGTATCT CATGAACAGT TAGTACAGTT AAGGGAGGAT
    AATACTACTT CAATAAAAAC TCAGATGGAA CTCACAATCA AAGATCTGGA ATCTGAAATC
    TCCAGAATAA AAACTTCGCA AGCCGACTTT AATAAAACCG AATTGGAAAG ATATAAGGAA
    CTCTACCTAG AAGAAGTGAA AGTTAGAGAA TCCTTGTCAA ATGAACTCAG TAGAACTAAT
    GAGATGATAG CAGAGGTCAG TACGCAACTT ACTGTGGAGA AAGAGCAGAC CAGATCCAGA
    TCTCTATTCA CTGCTTATGC TACAAGGCCA GTCCTAGAGT CACCTTGCGT TGGAAATCTT
    AATGATAGTG AAGGTCTCAA CAGAAAACAT ATTCCAAGAA AAAAGAGGTC TGCTCTTAAG
    GACATGGAGA GCTACTTGTT GAAGGTTAGC TATCTTTTTT CCTTCGGCGT TCAGATTTCT
    GATAGAATTC TTGTATGTTA TTTGGTAAAA TAG

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

    CloneID OHu87690
    Clone ID Related Accession (Same CDS sequence) XM_017025430.1
    Accession Version XM_017025430.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4410bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product coiled-coil domain-containing protein 144A isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGCCTCCT GGGGTGGAGA AAAGCGGGGA GGGGCTGAGG GGTCTCCGAA GCCGGCAGTC 
    TACGCCACGA GGAAGACCCC TAGCGTCGGG AGCCAGGGGG ACCAGTGGTA CTTGGGCTAC
    CCGGGGGACC AGTGGTCCTC GGGCTTCCCC TACAGCTGGT GGAAAAACAG CGTCGGCAGC
    GAGAGCAAGC ACGGTGAGGG CGCCTTAGAC CAGCCCCAGC ACGACGTCCG CCTGGAAGAT
    CTTGGCGAGC TCCACAGAGC TGCCCGGTCG GGCGACGTCC CTGGGGTGGA GCACATCTTA
    GCTCCTGGAG ACACTGGCGT GGACAAGAGG GATAGGAAGA AGAGCATTCA GCAACTAGTT
    CCTGAATATA AGGAAAAACA GACACCTGAA AGTCTTCCTC AAAATAACAA TCCAGATTGG
    CATCCTACTA ATTTGACCCT TAGTGATGAG ACTTGTCAGA GATCCAAGAA TCTGAAAGTT
    GATGATAAAT GTCCATCTGT ATCACCATCA ATGCCTGAAA ATCAGTCAGC AACCAAAGAA
    CTGGGACAGA TGAACTTAAC AGAACGAGAA AAGATGGACA CTGGAGTTGT ACTTCTCTCA
    GGGAATGATA CTCTCCATGA CCTGTGCCAA TCACAGCTAC CAGAAAACAA AGAGAGCAAA
    GAAGCAGAAC AAGACTCGGA GCTGACATCA GAGGAAGAGC AAGAAAGACT TAAAGGATGC
    GAAAATAAGC AGCCACAGAA AACGTCTCAA GAACCAGAAA TGGCTAAGGA TTGCGATAGA
    GAGGATATAC CTATATATCC AGTACTTCCT CATGTGCAAA AATCTGAGGA AATGTGGATT
    GAACAAGGCA AATTAGAGTG GAAAAACCAA TTAAAACTCG TCATAAATGA GTTAAAGCAG
    AGGTTTGGTG AAATTTATGA AAAATACAAA ATTCCGGCTT GTCCTGAGGA AGAGCCACTA
    CTTGATAACT CTACAAGAGG AACAGATGTA AAGGATATTC CCTTTAATTT GACAAATAAC
    ATACCTGGTT GTGAGGAAGA AGATGCATCT GAAATATCTG TCTCAGTGGT ATTCGAGACA
    TTTCCTGAAC AAAAAGAACC CAGTCTCAAA AATATCATCC ATCCATACTA TCATCCATAC
    TCTGGGTCCC AGGAACATGT TTGCCAGTCA TCTTCTAAGT TTCATTTACA TGAAAATAAA
    TTAGACTGCG ACAATGATAA CAAACCAGGC ATTGGACATA TTTTTAGTAC AGATAAGAAC
    TTTCATAATG ATGCAAGCAC TAAGAAAGCA AGGAACCCAG AAGTGGTTAT GGTTGAAATG
    AAAGAAGACC AAGAGTTTGA TTTGCAAATG ACAAAAAATA TGAACCAAAA TAGTGACAGT
    GGCAGTACAA ACAACTATAA AAGCCTGAAA CCTAAATTAG AAAATCTGAG TTCTTTACCA
    CCAGATTCTG ACAGAACATC AGAAGTATAT CTACATGAAG AATTACAGCA AGACATGCAA
    AAGTTTAAGA ATGAGGTCAA CACATTAGAA GAAGAGTTCC TGGCTTTGAA GAAAGAAGAT
    GTTCAACTTC ATAAAGATGT TGAAGAAGAA ATGGAGAAGC ACAGAAGTAA TAGCACAGAA
    TTATCAGGAA CCCTAACTGA TGGTACTACT GTTGGCAATG ATGATGATGG ACTAAATCAG
    CAGATTCCTA GGAAGGAAAA TGGAGAGCAT GACAGGCCTG CAGATAAAAC ATCTAATGAA
    AAGAACGAGG TCAAAAACCA AATATATCCT GAGGCTGACT TTGCTGACTC AATGGAGCCA
    TCTGAAATAG CCTCAGAGGA TTGTGAATTG TCTCACTCTG TTTATGAGAA TTTTATGTTG
    CTGATTGAAC AACTTAGAAT GGAGTATAAA GATTCTGCTA GCCTACCAAG AATCCAAGAC
    ACATTTTGTT TGTGTGAACA CTTACTGAAA CTTAAGAATA ATCACTGTGA CCAACTTACA
    GTAAAACTTA AACAAATGGA AAATATGGTC AGTGTACTAC AAAATGAGCT ATCTGAAACA
    AAAAAGACAA AATTACAGTT AGAACTTCAA AAAATTGAAT GGGAGAAAGA GCTGTACGAT
    TTGAGACTTG CCTTAAAACA AGAAAATGAG GAGAAAAGAA ATGCCGATAT GTTGTATAAT
    AAAGATAGTG AACAGTTAAG AATAAAAGAA GAGGAGTGTG GGAAAGTGGT TGAAACAAAG
    CAACAACTTA AATGGAATCT GAGAAGACTT GTTAAGGAAT TGAGGACAGT AAGAAATAAC
    TTGGATCTGG TTGTGCAGGA GAGAAACGAT GCCCAGAAGC AACTTTCTGA AGAACAGGAT
    GCCAGAATAT TACAAGATCA GATTCTGACG AGTAAACAAA AGGAACTAGA AATGGCTCGA
    AAGAAAATGA ATTCTGAGAT TTCTCATAGG CATCAGAAAG AAAAGGATCT CTTTCATGAA
    GATTGCATGT TGCAGGAAGA AATTGCCTTG CTGAGACTGG AAATAGATAC AATAAAAAAT
    CAGAACAAGC AAAAGGAAAA GAAATATTTT GAGGACATTG AGGCTGTGAA AGAAAAGAAT
    GATAACCTTC AAAAAATTAT AAAACTAAAT GAGGAAACAT TAACAGAAAC AATACTCCAG
    TACAGTGGAC AGCTGAACAA TCTGACAGCT GAGAACAAAA TACTCAATTC TGAACTGGAG
    AATGGGAAAC AGAACCAAGA AAGACTAGAA ATAGAAATGG AATCATACCG TTGTAGACTA
    GCTGCTGCTG TACGTGACTG TGATCAAAGT CAGACAGCAA GAGACCTAAA ACTTGATTTC
    CAGAGAACAA GACAAGAGTG GGTTCGTTTA CATGACAAAA TGAAGGTTGA TATGTCTGGC
    CTACAAGCTA AGAATGAGAT TCTTTCTGAA AAACTTTCTA ATGCTGAAAG TAAAATTAAC
    AGCCTACAAA TTCAGCTCCA TAACACAAGA GATGCTCTTG GAAGAGAGAG TTTGATTTTG
    GAACGTGTGC AAAGAGACCT CAGCCAAACA CAGTGTCAGA AGAAAGAAAC TGAACAAATG
    TACCAAATTG AACAAAGCAA ACTGAAGAAA TACATTGCCA AGCAGGAATC TGTAGAGGAG
    AGATTATCTC AACTACAAAG TGAAAATATG TTGCTTCGAC AGCAACTGGA TGATGCTCAC
    AAGAAAGCTA ACAGTCAAGA AAAGACAAGC AGTACTATCC AAGACCAGTT TCATTCTGCT
    GCCAAAAATC TTCAAGCTGA GAGTGAAAAG CAGATTCTTT CACTACAAGA GAAGAACAAG
    GAGCTGATGG ATGAATATAA TCATTTAAAA GAAAGAATGG ATCAATGTGA GAAAGAGAAA
    GCAGGAAGAA AAATTGACCT TACAGAAGCA CAGGAAACTG TACCTTCACG ATGTCTACAT
    CTGGATGCAG AGAATGAAGT TCTTCAACTT CAACAGACAT TATTCTCTAT GAAAGCAATA
    CAAAAGCAAT GTGAAACACT ACAGAAGAAT AAGAAGCAGC TGAAACAAGA AGTAGTAAAC
    CTCAAAAGTT ATATGGAAAG AAATATGTTA GAACGTGGTA AAGCTGAATG GCATAAACTG
    TTGATTGAAG AAAGAGCAAG GAAGGAGATA GAAGAAAAAT TAAACGAAGC CATTCTCACC
    TTGCAGAAAC AAGCAGCAGT ATCTCATGAA CAGTTAGTAC AGTTAAGGGA GGATAATACT
    ACTTCAATAA AAACTCAGAT GGAACTCACA ATCAAAGATC TGGAATCTGA AATCTCCAGA
    ATAAAAACTT CGCAAGCCGA CTTTAATAAA ACCGAATTGG AAAGATATAA GGAACTCTAC
    CTAGAAGAAG TGAAAGTTAG AGAATCCTTG TCAAATGAAC TCAGTAGAAC TAATGAGATG
    ATAGCAGAGG TCAGTACGCA ACTTACTGTG GAGAAAGAGC AGACCAGATC CAGATCTCTA
    TTCACTGCTT ATGCTACAAG GCCAGTCCTA GAGTCACCTT GCGTTGGAAA TCTTAATGAT
    AGTGAAGGTC TCAACAGAAA ACATATTCCA AGAAAAAAGA GGTCTGCTCT TAAGGACATG
    GAGAGCTACT TGTTGAAGAT GCAGCAGAAG TTGCAAAATG ATCTAACTGC AGAAGTAGCA
    GGATCCAGCC AAACTGGACT GCACAGAATT CCACAGTGCT CGTCCTTCTC CTCCAGCTCT
    TTGCACTTGC TTCTTTGCTC TATCTGCCAA CCTTTTTTTC TCATCCTTCA GGTATCCACT
    AACCATGCCT CCACCGAAAA GCCTACAGTA TCGAGACAAA ACTGGGATAG GTGTCCCTCT
    TGCATTCCAA TAGTGCCCTG TTTTATACCT GTCAGGGTAT CTATGACTTG GTATGGAAAT
    TGCCTATTTG TCTGCTTTTT CAGGTTATAG

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

    RefSeq XP_016880919.1
    CDS167..4576
    Translation

    Target ORF information:

    RefSeq Version XM_017025430.1
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 144A (CCDC144A), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017025430.1

    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
    ATGGCCTCCT GGGGTGGAGA AAAGCGGGGA GGGGCTGAGG GGTCTCCGAA GCCGGCAGTC 
    TACGCCACGA GGAAGACCCC TAGCGTCGGG AGCCAGGGGG ACCAGTGGTA CTTGGGCTAC
    CCGGGGGACC AGTGGTCCTC GGGCTTCCCC TACAGCTGGT GGAAAAACAG CGTCGGCAGC
    GAGAGCAAGC ACGGTGAGGG CGCCTTAGAC CAGCCCCAGC ACGACGTCCG CCTGGAAGAT
    CTTGGCGAGC TCCACAGAGC TGCCCGGTCG GGCGACGTCC CTGGGGTGGA GCACATCTTA
    GCTCCTGGAG ACACTGGCGT GGACAAGAGG GATAGGAAGA AGAGCATTCA GCAACTAGTT
    CCTGAATATA AGGAAAAACA GACACCTGAA AGTCTTCCTC AAAATAACAA TCCAGATTGG
    CATCCTACTA ATTTGACCCT TAGTGATGAG ACTTGTCAGA GATCCAAGAA TCTGAAAGTT
    GATGATAAAT GTCCATCTGT ATCACCATCA ATGCCTGAAA ATCAGTCAGC AACCAAAGAA
    CTGGGACAGA TGAACTTAAC AGAACGAGAA AAGATGGACA CTGGAGTTGT ACTTCTCTCA
    GGGAATGATA CTCTCCATGA CCTGTGCCAA TCACAGCTAC CAGAAAACAA AGAGAGCAAA
    GAAGCAGAAC AAGACTCGGA GCTGACATCA GAGGAAGAGC AAGAAAGACT TAAAGGATGC
    GAAAATAAGC AGCCACAGAA AACGTCTCAA GAACCAGAAA TGGCTAAGGA TTGCGATAGA
    GAGGATATAC CTATATATCC AGTACTTCCT CATGTGCAAA AATCTGAGGA AATGTGGATT
    GAACAAGGCA AATTAGAGTG GAAAAACCAA TTAAAACTCG TCATAAATGA GTTAAAGCAG
    AGGTTTGGTG AAATTTATGA AAAATACAAA ATTCCGGCTT GTCCTGAGGA AGAGCCACTA
    CTTGATAACT CTACAAGAGG AACAGATGTA AAGGATATTC CCTTTAATTT GACAAATAAC
    ATACCTGGTT GTGAGGAAGA AGATGCATCT GAAATATCTG TCTCAGTGGT ATTCGAGACA
    TTTCCTGAAC AAAAAGAACC CAGTCTCAAA AATATCATCC ATCCATACTA TCATCCATAC
    TCTGGGTCCC AGGAACATGT TTGCCAGTCA TCTTCTAAGT TTCATTTACA TGAAAATAAA
    TTAGACTGCG ACAATGATAA CAAACCAGGC ATTGGACATA TTTTTAGTAC AGATAAGAAC
    TTTCATAATG ATGCAAGCAC TAAGAAAGCA AGGAACCCAG AAGTGGTTAT GGTTGAAATG
    AAAGAAGACC AAGAGTTTGA TTTGCAAATG ACAAAAAATA TGAACCAAAA TAGTGACAGT
    GGCAGTACAA ACAACTATAA AAGCCTGAAA CCTAAATTAG AAAATCTGAG TTCTTTACCA
    CCAGATTCTG ACAGAACATC AGAAGTATAT CTACATGAAG AATTACAGCA AGACATGCAA
    AAGTTTAAGA ATGAGGTCAA CACATTAGAA GAAGAGTTCC TGGCTTTGAA GAAAGAAGAT
    GTTCAACTTC ATAAAGATGT TGAAGAAGAA ATGGAGAAGC ACAGAAGTAA TAGCACAGAA
    TTATCAGGAA CCCTAACTGA TGGTACTACT GTTGGCAATG ATGATGATGG ACTAAATCAG
    CAGATTCCTA GGAAGGAAAA TGGAGAGCAT GACAGGCCTG CAGATAAAAC ATCTAATGAA
    AAGAACGAGG TCAAAAACCA AATATATCCT GAGGCTGACT TTGCTGACTC AATGGAGCCA
    TCTGAAATAG CCTCAGAGGA TTGTGAATTG TCTCACTCTG TTTATGAGAA TTTTATGTTG
    CTGATTGAAC AACTTAGAAT GGAGTATAAA GATTCTGCTA GCCTACCAAG AATCCAAGAC
    ACATTTTGTT TGTGTGAACA CTTACTGAAA CTTAAGAATA ATCACTGTGA CCAACTTACA
    GTAAAACTTA AACAAATGGA AAATATGGTC AGTGTACTAC AAAATGAGCT ATCTGAAACA
    AAAAAGACAA AATTACAGTT AGAACTTCAA AAAATTGAAT GGGAGAAAGA GCTGTACGAT
    TTGAGACTTG CCTTAAAACA AGAAAATGAG GAGAAAAGAA ATGCCGATAT GTTGTATAAT
    AAAGATAGTG AACAGTTAAG AATAAAAGAA GAGGAGTGTG GGAAAGTGGT TGAAACAAAG
    CAACAACTTA AATGGAATCT GAGAAGACTT GTTAAGGAAT TGAGGACAGT AAGAAATAAC
    TTGGATCTGG TTGTGCAGGA GAGAAACGAT GCCCAGAAGC AACTTTCTGA AGAACAGGAT
    GCCAGAATAT TACAAGATCA GATTCTGACG AGTAAACAAA AGGAACTAGA AATGGCTCGA
    AAGAAAATGA ATTCTGAGAT TTCTCATAGG CATCAGAAAG AAAAGGATCT CTTTCATGAA
    GATTGCATGT TGCAGGAAGA AATTGCCTTG CTGAGACTGG AAATAGATAC AATAAAAAAT
    CAGAACAAGC AAAAGGAAAA GAAATATTTT GAGGACATTG AGGCTGTGAA AGAAAAGAAT
    GATAACCTTC AAAAAATTAT AAAACTAAAT GAGGAAACAT TAACAGAAAC AATACTCCAG
    TACAGTGGAC AGCTGAACAA TCTGACAGCT GAGAACAAAA TACTCAATTC TGAACTGGAG
    AATGGGAAAC AGAACCAAGA AAGACTAGAA ATAGAAATGG AATCATACCG TTGTAGACTA
    GCTGCTGCTG TACGTGACTG TGATCAAAGT CAGACAGCAA GAGACCTAAA ACTTGATTTC
    CAGAGAACAA GACAAGAGTG GGTTCGTTTA CATGACAAAA TGAAGGTTGA TATGTCTGGC
    CTACAAGCTA AGAATGAGAT TCTTTCTGAA AAACTTTCTA ATGCTGAAAG TAAAATTAAC
    AGCCTACAAA TTCAGCTCCA TAACACAAGA GATGCTCTTG GAAGAGAGAG TTTGATTTTG
    GAACGTGTGC AAAGAGACCT CAGCCAAACA CAGTGTCAGA AGAAAGAAAC TGAACAAATG
    TACCAAATTG AACAAAGCAA ACTGAAGAAA TACATTGCCA AGCAGGAATC TGTAGAGGAG
    AGATTATCTC AACTACAAAG TGAAAATATG TTGCTTCGAC AGCAACTGGA TGATGCTCAC
    AAGAAAGCTA ACAGTCAAGA AAAGACAAGC AGTACTATCC AAGACCAGTT TCATTCTGCT
    GCCAAAAATC TTCAAGCTGA GAGTGAAAAG CAGATTCTTT CACTACAAGA GAAGAACAAG
    GAGCTGATGG ATGAATATAA TCATTTAAAA GAAAGAATGG ATCAATGTGA GAAAGAGAAA
    GCAGGAAGAA AAATTGACCT TACAGAAGCA CAGGAAACTG TACCTTCACG ATGTCTACAT
    CTGGATGCAG AGAATGAAGT TCTTCAACTT CAACAGACAT TATTCTCTAT GAAAGCAATA
    CAAAAGCAAT GTGAAACACT ACAGAAGAAT AAGAAGCAGC TGAAACAAGA AGTAGTAAAC
    CTCAAAAGTT ATATGGAAAG AAATATGTTA GAACGTGGTA AAGCTGAATG GCATAAACTG
    TTGATTGAAG AAAGAGCAAG GAAGGAGATA GAAGAAAAAT TAAACGAAGC CATTCTCACC
    TTGCAGAAAC AAGCAGCAGT ATCTCATGAA CAGTTAGTAC AGTTAAGGGA GGATAATACT
    ACTTCAATAA AAACTCAGAT GGAACTCACA ATCAAAGATC TGGAATCTGA AATCTCCAGA
    ATAAAAACTT CGCAAGCCGA CTTTAATAAA ACCGAATTGG AAAGATATAA GGAACTCTAC
    CTAGAAGAAG TGAAAGTTAG AGAATCCTTG TCAAATGAAC TCAGTAGAAC TAATGAGATG
    ATAGCAGAGG TCAGTACGCA ACTTACTGTG GAGAAAGAGC AGACCAGATC CAGATCTCTA
    TTCACTGCTT ATGCTACAAG GCCAGTCCTA GAGTCACCTT GCGTTGGAAA TCTTAATGAT
    AGTGAAGGTC TCAACAGAAA ACATATTCCA AGAAAAAAGA GGTCTGCTCT TAAGGACATG
    GAGAGCTACT TGTTGAAGAT GCAGCAGAAG TTGCAAAATG ATCTAACTGC AGAAGTAGCA
    GGATCCAGCC AAACTGGACT GCACAGAATT CCACAGTGCT CGTCCTTCTC CTCCAGCTCT
    TTGCACTTGC TTCTTTGCTC TATCTGCCAA CCTTTTTTTC TCATCCTTCA GGTATCCACT
    AACCATGCCT CCACCGAAAA GCCTACAGTA TCGAGACAAA ACTGGGATAG GTGTCCCTCT
    TGCATTCCAA TAGTGCCCTG TTTTATACCT GTCAGGGTAT CTATGACTTG GTATGGAAAT
    TGCCTATTTG TCTGCTTTTT CAGGTTATAG

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