CCDC141 cDNA ORF clone, Macaca mulatta(Rhesus monkey)

The following CCDC141 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CCDC141 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
OMb44254 XM_015110461.1
Latest version!
Macaca mulatta coiled-coil domain containing 141 (CCDC141), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMb66212 XM_028830891.1
Latest version!
Macaca mulatta coiled-coil domain containing 141 (CCDC141), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMb66213 XM_015110461.2
Latest version!
Macaca mulatta coiled-coil domain containing 141 (CCDC141), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMb44253 XM_015110460.1
Latest version!
Macaca mulatta coiled-coil domain containing 141 (CCDC141), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OMb66211 XM_028830890.1
Latest version!
Macaca mulatta coiled-coil domain containing 141 (CCDC141), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OMb66211 XM_015110460.2
Latest version!
Macaca mulatta coiled-coil domain containing 141 (CCDC141), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00

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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 OMb44254
    Clone ID Related Accession (Same CDS sequence) XM_015110461.1
    Accession Version XM_015110461.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4281bp)
    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 2015-12-20
    Organism Macaca mulatta(Rhesus monkey)
    Product coiled-coil domain-containing protein 141 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014805356.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Macaca mulatta Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 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
    ATGGCCGAGA CTCTGGGTGA AGCATGGGCA GCCCTGGTGT CCATGCTTGA AAGAAGAATG 
    GAGCTCCTTA GGTTGACTTC TGAATTTTTT GAAAATGCCT TGGAGTTTGC TATTAAAATA
    GACCAAGCTG AAGATTTCCT CCAGAATACT CATGAGTTTG AGAATGCTGA GTCCTTAAAA
    TCACTTCTTC AGCTTCATGA ACATCATACT AAAGAACTCT TGGAACGTTC TTTAGCCCTT
    TTAAACAAAA GTCAACAACT CACTGACTTC ATAGAAAAAT TCAAGTGTGA AGGACCTAAT
    GTGAATCCTG AGTTGATTCA GGGAGCTCAT AGCAGCTGTC TGAAGATTGA CAGCCTTCTT
    GAACTTCTAC AAGACAGGAG AAGACAGTTA GACAAGTACT TGAAGCAACA GTGGCAAGAA
    TTGAGTCAGG TTCTGCAGAT ATGTCAGTGG GACCAACGAG AAAACCAGGT TACTTGTTGG
    TTTCAGAAAA CGATAAGAGA TTTACAGGAA CAAAGTCTAG GTTCATCACT TTCAGACAAT
    GAGGATCTAA TTCGTAAGCA CGAGGAACTG ATAATAAAAG CAAAGGAATG GAATTCTGCT
    GTTGAGAAGC TGAAGAGTGG GGCACTGAGA ATTCTGCTGT CAAAGGACTA CGTGGAGAAA
    GAACACCTCC AGCTCTCTCA CCAGAAACTG AGTCAGCTTC AAGAAGAATT TGGTCAACTC
    ATGGTGGAAA GGAATACCTG GTTAAAGAAG GCAAATGAAT TTTTTAACAG TGCTAACAAG
    GCATTTGATG TACTTGGAAG AGTTGAAGCT TACCTTAAGC TCCTTAAATC AGAGGATTTA
    AGTCTGGCTG TTTTGGCAGC GAGGCATGAG GAATTACACA GAAAAATTAA AGACTGCACA
    GCTGATGCTT TGCAAAAGGG ACAAACCTTA ATCAGCCAAG TAGACTCCTG CAGCTCTCAG
    GTGTCTGGCA TCCACGAGAT GATGGGGTGC ATTAAGAGAC GAGTGGATCA TCTGACCGAA
    CAGTGTTCAG CACACAAGGA ATATGCTCTC AAGAAACAAC AACTAACAGC CTCAGTGGAG
    GGTTACCTAC GGAAGGTGGA AATGTCAATT CAGAAAATCA GTCCAGTGCT TTCTAATGCA
    ATGGATGTTG GCTCCACCTG TTCTGAATCA GAGAAGATTT TGAATAAATA TCTGGAACTA
    GATATCCAAG CTAAGGAGAC ATCACATGAA TTAGAAGCAG CTGCAAAAAC CATGATGGAG
    AAAAACGAAT TTGAATCTGA TGAAATGGTA TCACTTTCCT CTAAAGCTAG ATGGCTAGCA
    GAAGAATTAA ACCTATTTGC CCAAAGCATT GACTACAGAT CACAAGTCCT GCAAACTTAC
    GTGGCATTTC TGAGGTCATC AGAGGAGGTA GAGATGCAGT TTCAGAGCTT AAAAGAATTT
    TATGAAACCA AAATCCCTCA GAAGGAGCAG GATGATGCTA AAGCCAAGCC TTGTTCTGAC
    TCGACTGAGA AGCAGTGGCC GCTATTTTTA AAGAAGAGTT TTGTAACACA AGATCTAGGG
    CTTGAGTTCC TTAATTTAAT AAACATGGCA AAAGAGAATG AGATACTAAA TGTGGAAAAT
    GAAGTGTACA TCATGAAGAA CACTATGGAA AACCAGAAAG CAGAACGGGA AGAACTTAGC
    CTCCTTCGGC TGGCATGGCA GCTTAAAGCC ACGGAAAGCA AGCCTGTCAA ACAGCAGTGG
    GCGGCATTCA AAGAGCAGCT TAAAAAGACT ACTCACAACT TAAAACTTCT TCAGGAAGCA
    CTTATGCCTG TGTCTGCACT TGACCTTGGA GGGAGCCTCC AGTTCATTTT AGGGCTACGA
    CAAAAATGGA ATGACATGAA GCCTCAGTTC CAGCAATTAA ATGATGAGGT TCAATACATT
    ATGAAAGAAT CAGAGGAGTT AACTGGCAAA GGAGCCCCTG TAAAAGAAAA GTCTCAACAA
    CTGAAGGACC TCATTCACCT CCAACAAAAA CAGAAAGAGA GAATCCAGGA TTACGAGGAT
    ATCCTGTACA AGGTGGTCCA GTTCCATCAA GTCAAGGAAG CGCTGGGACA TCTCATCAGA
    TCAAGAGAGC TGGAGTTTGT AGAGCAGCCG AAGGAACTGG GTGATGCTCA CGATGTGCAG
    ATTCACCTCT GGTGCTCTCA GGAAAAGCAA GCACGTGTAG ACCATCTCCA CAGACTGGCC
    CTTTCCTTAG GAGTGGACAT CATCTCATCA GTGCAGCGGC CTCACTGCTC TAATGTTTCT
    GCAAAGAACT TACAGCAACA GCTGGAGCTC CTTGAGGAGG AAAGCATGAA GTGGCGTGCC
    AAAGCTGAGG AGTATGAACG GAGCCTGTCA CGTAGTTTGG AGTACTGCGC CATGAGAGAC
    GAGATAAACG AGCTCAAAGA GTCATTCAAA GATGTCAAAA AGAAATTCAA TAATTTGAAG
    TTTAATTACA CTAAGAAAAA TGAAAAATAT CGGAATCTGA AGGTGCTTAA ATATCAAATT
    CAACAAGTTG ATATGTACGC TGAAAAAATG CAGGCTTTGA AAAGGAAAAT GGAAAAAGTT
    AGTAATAAAA CTTCTGATTC TTTCTTAAAT TATCCAAGTG ATAAAGTTAA TGTCCTTTTG
    GAAGTCGTGA AGGATTTGCA AAAACATGTG GATGACTTTG ACAAAGTTGT GACAGATTAC
    AAGAAGAATT TGGACCTGAC TGAGCATCTC CAGGAGGTGA TAGAAGAGTG TCACTTTTGG
    TACGAAGATG CAAGTGCCAC AGTTGTAAGA GTGGGAAAAT ATTCCACAGA GTGCAAGACA
    AAGGAAGCTG TGAAAATTCT CCACCAGCAG TTCAATAAGT TTATTGCACC CTCGGTGCCG
    CAGCAAGAAG AAAGAATTCA GGAGGCCACT GACCTTGCTC AGCGCTTATA TGGTTTGGAA
    GAAGGACAGA AATATATTGA GAAAATAGTG ACAAAACACA AAGAGGTTCT TGAATCTGTG
    ACTGAATTAT GTGAGTCCCT CACAGAGCTT GAAGAAAAAC TGAAGCAGGG AGACGTTTTA
    AAGATGAATC CAAATTTGGA AGACTTCCAT GATGATTACA TTGACTTGCT AAAGGAACCA
    GCAAAAAATA AGCAGACAAT ATGCAATGAA GAAAGGAATA AGGGGCAGGT ACAGGTGGCA
    GATCTTTTGG CCATCAATGG AACAGGGGAA GATCGGCTCC CACAAGACCT GAAGGTGTCC
    GCTGACAAGG AGGGTGGCGT CCAGGGCCTG CTCCTGCCTG AAGACATGCT CTCAGGGGAA
    GAATATGAGT GTGTCTCACC TGATGACATC TCCTTGCCTC CTCTCCCAGG AAGCCCTGAG
    TCCCCCCTTG CACCATCTGA CATGGAGGTG GAAGAGCCTG TCAGCTCCTC CCTCAGCCTT
    CACATAGGCA GCTATGCGGT GCAGGCTGGG ACCAGCAGCC CAGGGAATGC CCGGGAATCT
    GTTCTTCCAC CACCTGTTGC ATTTGCGGAT GCATGCAATG ATAAGAGAGA AACATTTTCA
    AGTCATTTTG AGAGGCCCTA CCTCCAGTTC AAAGCCGAGC CCCCACTAAC CTCCAGAGGA
    TTCCTGGAAA AGAGTACTGC CTTACACAGA ATCAGTGCTG AACATCCAGA GAGCATGATG
    AGTGAAGTGC ATGAGAGAGC TTTACAGCAG CACCCTCAGG CTCAGGGCGG TTTGCTAGAA
    ACACGGGAGA AAATGCATGC TGATAATAAC TTCACTAAAA TCCAAGATAG GCTGCATGCT
    TCCCCTGATG CATTCTCAGG CCTCAGGTTT CAATCAGGCA CCAGCAGGGG CTATCAGAGG
    CAAATGGTTC CTCGAGAAGA GATTAAAAGC ACGTCAGCAA AGAGCAGCGT GGTCAGCCTA
    GCTGACCAGG CACCTAATTT CTCCAGGCTC CTGTCTAATG TAACTGTCAT GGAAGGTTCT
    CCAGTGACTT TGGAAGTTGA AGTAACAGGA TTTCCAGAGC CTACACTGAC ATGGTACAAG
    AAGGGCCAGA AACTGTCTAC AGATGGGCAC TTACAGGTTT TACACAAGGA GACAAGGCAT
    TCCGTGTTCA TTCCGAAGGT ATGCAAGGGA GACGAAGGCC TCTATGTGGC TCAGGCCCAA
    AACCCTAGCG GCACTCTCTC TTCCAATGTC ATCCTCCATG TGACGGGTAA CTGCAGGCCG
    CCAATCACAA GAATAAACTG GATAACGCTG TGTGTCGTCT ATGTTAGTGT GTCCCTAATG
    TACTGGCTAC TCACACAATA A

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

    RefSeq XP_014965947.1
    CDS283..4563
    Translation

    Target ORF information:

    RefSeq Version XM_015110461.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta coiled-coil domain containing 141 (CCDC141), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015110461.1

    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
    ATGGCCGAGA CTCTGGGTGA AGCATGGGCA GCCCTGGTGT CCATGCTTGA AAGAAGAATG 
    GAGCTCCTTA GGTTGACTTC TGAATTTTTT GAAAATGCCT TGGAGTTTGC TATTAAAATA
    GACCAAGCTG AAGATTTCCT CCAGAATACT CATGAGTTTG AGAATGCTGA GTCCTTAAAA
    TCACTTCTTC AGCTTCATGA ACATCATACT AAAGAACTCT TGGAACGTTC TTTAGCCCTT
    TTAAACAAAA GTCAACAACT CACTGACTTC ATAGAAAAAT TCAAGTGTGA AGGACCTAAT
    GTGAATCCTG AGTTGATTCA GGGAGCTCAT AGCAGCTGTC TGAAGATTGA CAGCCTTCTT
    GAACTTCTAC AAGACAGGAG AAGACAGTTA GACAAGTACT TGAAGCAACA GTGGCAAGAA
    TTGAGTCAGG TTCTGCAGAT ATGTCAGTGG GACCAACGAG AAAACCAGGT TACTTGTTGG
    TTTCAGAAAA CGATAAGAGA TTTACAGGAA CAAAGTCTAG GTTCATCACT TTCAGACAAT
    GAGGATCTAA TTCGTAAGCA CGAGGAACTG ATAATAAAAG CAAAGGAATG GAATTCTGCT
    GTTGAGAAGC TGAAGAGTGG GGCACTGAGA ATTCTGCTGT CAAAGGACTA CGTGGAGAAA
    GAACACCTCC AGCTCTCTCA CCAGAAACTG AGTCAGCTTC AAGAAGAATT TGGTCAACTC
    ATGGTGGAAA GGAATACCTG GTTAAAGAAG GCAAATGAAT TTTTTAACAG TGCTAACAAG
    GCATTTGATG TACTTGGAAG AGTTGAAGCT TACCTTAAGC TCCTTAAATC AGAGGATTTA
    AGTCTGGCTG TTTTGGCAGC GAGGCATGAG GAATTACACA GAAAAATTAA AGACTGCACA
    GCTGATGCTT TGCAAAAGGG ACAAACCTTA ATCAGCCAAG TAGACTCCTG CAGCTCTCAG
    GTGTCTGGCA TCCACGAGAT GATGGGGTGC ATTAAGAGAC GAGTGGATCA TCTGACCGAA
    CAGTGTTCAG CACACAAGGA ATATGCTCTC AAGAAACAAC AACTAACAGC CTCAGTGGAG
    GGTTACCTAC GGAAGGTGGA AATGTCAATT CAGAAAATCA GTCCAGTGCT TTCTAATGCA
    ATGGATGTTG GCTCCACCTG TTCTGAATCA GAGAAGATTT TGAATAAATA TCTGGAACTA
    GATATCCAAG CTAAGGAGAC ATCACATGAA TTAGAAGCAG CTGCAAAAAC CATGATGGAG
    AAAAACGAAT TTGAATCTGA TGAAATGGTA TCACTTTCCT CTAAAGCTAG ATGGCTAGCA
    GAAGAATTAA ACCTATTTGC CCAAAGCATT GACTACAGAT CACAAGTCCT GCAAACTTAC
    GTGGCATTTC TGAGGTCATC AGAGGAGGTA GAGATGCAGT TTCAGAGCTT AAAAGAATTT
    TATGAAACCA AAATCCCTCA GAAGGAGCAG GATGATGCTA AAGCCAAGCC TTGTTCTGAC
    TCGACTGAGA AGCAGTGGCC GCTATTTTTA AAGAAGAGTT TTGTAACACA AGATCTAGGG
    CTTGAGTTCC TTAATTTAAT AAACATGGCA AAAGAGAATG AGATACTAAA TGTGGAAAAT
    GAAGTGTACA TCATGAAGAA CACTATGGAA AACCAGAAAG CAGAACGGGA AGAACTTAGC
    CTCCTTCGGC TGGCATGGCA GCTTAAAGCC ACGGAAAGCA AGCCTGTCAA ACAGCAGTGG
    GCGGCATTCA AAGAGCAGCT TAAAAAGACT ACTCACAACT TAAAACTTCT TCAGGAAGCA
    CTTATGCCTG TGTCTGCACT TGACCTTGGA GGGAGCCTCC AGTTCATTTT AGGGCTACGA
    CAAAAATGGA ATGACATGAA GCCTCAGTTC CAGCAATTAA ATGATGAGGT TCAATACATT
    ATGAAAGAAT CAGAGGAGTT AACTGGCAAA GGAGCCCCTG TAAAAGAAAA GTCTCAACAA
    CTGAAGGACC TCATTCACCT CCAACAAAAA CAGAAAGAGA GAATCCAGGA TTACGAGGAT
    ATCCTGTACA AGGTGGTCCA GTTCCATCAA GTCAAGGAAG CGCTGGGACA TCTCATCAGA
    TCAAGAGAGC TGGAGTTTGT AGAGCAGCCG AAGGAACTGG GTGATGCTCA CGATGTGCAG
    ATTCACCTCT GGTGCTCTCA GGAAAAGCAA GCACGTGTAG ACCATCTCCA CAGACTGGCC
    CTTTCCTTAG GAGTGGACAT CATCTCATCA GTGCAGCGGC CTCACTGCTC TAATGTTTCT
    GCAAAGAACT TACAGCAACA GCTGGAGCTC CTTGAGGAGG AAAGCATGAA GTGGCGTGCC
    AAAGCTGAGG AGTATGAACG GAGCCTGTCA CGTAGTTTGG AGTACTGCGC CATGAGAGAC
    GAGATAAACG AGCTCAAAGA GTCATTCAAA GATGTCAAAA AGAAATTCAA TAATTTGAAG
    TTTAATTACA CTAAGAAAAA TGAAAAATAT CGGAATCTGA AGGTGCTTAA ATATCAAATT
    CAACAAGTTG ATATGTACGC TGAAAAAATG CAGGCTTTGA AAAGGAAAAT GGAAAAAGTT
    AGTAATAAAA CTTCTGATTC TTTCTTAAAT TATCCAAGTG ATAAAGTTAA TGTCCTTTTG
    GAAGTCGTGA AGGATTTGCA AAAACATGTG GATGACTTTG ACAAAGTTGT GACAGATTAC
    AAGAAGAATT TGGACCTGAC TGAGCATCTC CAGGAGGTGA TAGAAGAGTG TCACTTTTGG
    TACGAAGATG CAAGTGCCAC AGTTGTAAGA GTGGGAAAAT ATTCCACAGA GTGCAAGACA
    AAGGAAGCTG TGAAAATTCT CCACCAGCAG TTCAATAAGT TTATTGCACC CTCGGTGCCG
    CAGCAAGAAG AAAGAATTCA GGAGGCCACT GACCTTGCTC AGCGCTTATA TGGTTTGGAA
    GAAGGACAGA AATATATTGA GAAAATAGTG ACAAAACACA AAGAGGTTCT TGAATCTGTG
    ACTGAATTAT GTGAGTCCCT CACAGAGCTT GAAGAAAAAC TGAAGCAGGG AGACGTTTTA
    AAGATGAATC CAAATTTGGA AGACTTCCAT GATGATTACA TTGACTTGCT AAAGGAACCA
    GCAAAAAATA AGCAGACAAT ATGCAATGAA GAAAGGAATA AGGGGCAGGT ACAGGTGGCA
    GATCTTTTGG CCATCAATGG AACAGGGGAA GATCGGCTCC CACAAGACCT GAAGGTGTCC
    GCTGACAAGG AGGGTGGCGT CCAGGGCCTG CTCCTGCCTG AAGACATGCT CTCAGGGGAA
    GAATATGAGT GTGTCTCACC TGATGACATC TCCTTGCCTC CTCTCCCAGG AAGCCCTGAG
    TCCCCCCTTG CACCATCTGA CATGGAGGTG GAAGAGCCTG TCAGCTCCTC CCTCAGCCTT
    CACATAGGCA GCTATGCGGT GCAGGCTGGG ACCAGCAGCC CAGGGAATGC CCGGGAATCT
    GTTCTTCCAC CACCTGTTGC ATTTGCGGAT GCATGCAATG ATAAGAGAGA AACATTTTCA
    AGTCATTTTG AGAGGCCCTA CCTCCAGTTC AAAGCCGAGC CCCCACTAAC CTCCAGAGGA
    TTCCTGGAAA AGAGTACTGC CTTACACAGA ATCAGTGCTG AACATCCAGA GAGCATGATG
    AGTGAAGTGC ATGAGAGAGC TTTACAGCAG CACCCTCAGG CTCAGGGCGG TTTGCTAGAA
    ACACGGGAGA AAATGCATGC TGATAATAAC TTCACTAAAA TCCAAGATAG GCTGCATGCT
    TCCCCTGATG CATTCTCAGG CCTCAGGTTT CAATCAGGCA CCAGCAGGGG CTATCAGAGG
    CAAATGGTTC CTCGAGAAGA GATTAAAAGC ACGTCAGCAA AGAGCAGCGT GGTCAGCCTA
    GCTGACCAGG CACCTAATTT CTCCAGGCTC CTGTCTAATG TAACTGTCAT GGAAGGTTCT
    CCAGTGACTT TGGAAGTTGA AGTAACAGGA TTTCCAGAGC CTACACTGAC ATGGTACAAG
    AAGGGCCAGA AACTGTCTAC AGATGGGCAC TTACAGGTTT TACACAAGGA GACAAGGCAT
    TCCGTGTTCA TTCCGAAGGT ATGCAAGGGA GACGAAGGCC TCTATGTGGC TCAGGCCCAA
    AACCCTAGCG GCACTCTCTC TTCCAATGTC ATCCTCCATG TGACGGGTAA CTGCAGGCCG
    CCAATCACAA GAATAAACTG GATAACGCTG TGTGTCGTCT ATGTTAGTGT GTCCCTAATG
    TACTGGCTAC TCACACAATA A

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

    CloneID OMb66212
    Clone ID Related Accession (Same CDS sequence) XM_028830891.1
    Accession Version XM_028830891.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4452bp)
    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 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    Product coiled-coil domain-containing protein 141 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041765.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGTCCAGCC AAGAAAGTCC TAGTGTGGAG CTTTCTACGA CGACAGTCAG TTCAGTTGCT 
    GTGCAGGCTG GGGACTCCAA AATCGTTATA GCTGTCATAA AGTGTGGCAA ATGGGTACAA
    CTTCAACTGG CTGAATCACA GCCCAATCTT CTAGAAATTG GCAGCAGTCA AGATGAAACC
    AAAAAACTTC TTCATGATCA TGAACTTCTT TTGGCCAAGC TCAAGGCTTT GGAAGATCGG
    GTATGGGAAC TCTTGCAGGA AGCAGACAAG ACAGCTGAAG AGAACAAGGA TCAGAGTCAG
    GTCTACGACG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCCCTGGT GTCCATGCTT
    GAAAGAAGAA TGGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTGGAGTTT
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAATGCT
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGG
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT
    GAAGGACCTA ATGTGAATCC TGAGTTGATT CAGGGAGCTC ATAGCAGCTG TCTGAAGATT
    GACAGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAGT TAGACAAGTA CTTGAAGCAA
    CAGTGGCAAG AATTGAGTCA GGTTCTGCAG ATATGTCAGT GGGACCAACG AGAAAACCAG
    GTTACTTGTT GGTTTCAGAA AACGATAAGA GATTTACAGG AACAAAGTCT AGGTTCATCA
    CTTTCAGACA ATGAGGATCT AATTCGTAAG CACGAGGAAC TGATAATAAA AGCAAAGGAA
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GGGGCACTGA GAATTCTGCT GTCAAAGGAC
    TACGCGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TGAGTCAGCT TCAAGAAGAA
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCAAATGA ATTTTTTAAC
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA
    TCAGAGGATT TAAGTCTGGC TGTTTTGGCA GCGAGGCATG AGGAATTACA CAGAAAAATT
    AAAGACTGCA CAGCTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC
    TGCAGCTCTC AGGTGTCTGG CATCCACGAG ATGTTGGGGT GCATTAAGAG ACGAGTGGAT
    CATCTGACCG AACAGTGTTC AGCACACAAG GAATATGCTC TCAAGAAACA ACAACTAACA
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTG
    CTTTCTAATG CAATGGATGT TGGCTCCACC TGTTCTGAAT CAGAGAAGAT TTTGAATAAA
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA
    ACCATGATGG AGAAAAACGA ATTTGAATCT GATGAAATGG TATCACTTTC CTCTAAAGCT
    AGATGGCTAG CAGAAGAATT AAACCTATTT GCCCAAAGCA TTGACTACAG ATCACAAGTC
    CTGCAAACTT ACGTGGCATT TCTGAGGTCA TCAGAGGAGG TAGAGATGCA GTTTCAGAGC
    TTAAAAGAAT TTTATGAAAC CAAAATCCCT CAGAAGGAGC AGGATGATGC TAAAGCCAAG
    CCTTGTTCTG ACTCGACTGA GAAGCAGTGG CCGCTATTTT TAAAGAAGAG TTTTGTAACA
    CAAGATCTAG GGCTTGAGTT CCTTAATTTA ATAAACATGG CAAAAGAGAA TGAGATACTA
    AATGTGGAAA ATGAAGTGTA CATCATGAAG AACACTATGG AAAACCAGAA AGCAGAACGG
    GAAGAACTTA GCCTCCTTCG GCTGGCATGG CAGCTTAAAG CCACGGAAAG CAAGCCTGTC
    AAACAGCAGT GGGCGGCATT CAAAGAGCAG CTTAAAAAGA CTACTCACAA CTTAAAACTT
    CTTCAGGAAG CACTTATGCC TGTGTCTGCA CTTGACCTTG GAGGGAGCCT CCAGTTCATT
    TTAGGGCTAC GACAAAAATG GAATGACATG AAGCCTCAGT TCCAGCAATT AAATGATGAG
    GTTCAATACA TTATGAAAGA ATCAGAGGAG TTAACTGGCA AAGGAGCCCC TGTAAAAGAA
    AAGTCTCAAC AACTGAAGGA CCTCATTCAC CTCCAACAAA AACAGAAAGA GAGAATCCAG
    GATTACGAGG ATATCCTGTA CAAGGTGGTC CAGTTCCATC AAGTCAAGGA AGCGCTGGGA
    CATCTCATCA GATCAAGAGA GCTGGAGTTT GTAGAGCAGC CGAAGGAACT GGGTGATGCT
    CACGATGTGC AGATTCACCT CTGGTGCTCT CAGGAAAAGC AAGCACGTGT AGACCATCTC
    CACAGACTGG CCCTTTCCTT AGGAGTGGAC ATCATCTCAT CAGTGCAGCG GCCTCACCGC
    TCTAATGTTT CTGCAAAGAA CTTACAGCAG CAGCTGGAGC TCCTTGAGGA GGAAAGCATG
    AAGTGGCGTG CCAAAGCTGA GGAGTATGAA CGGAGCCTGT CCCGTAGTTT GGAGTACTGC
    GCCATGAGAG ACGAGATAAA CGAGCTCAAA GAGTCATTCA AAGATGTCAA AAAGAAATTC
    AATAATTTGA AGTTTAATTA CACTAAGAAA AATGAAAAAT ATCGGAATCT GAAGGTGCTT
    AAATATCAAA TTCAACAAGT TGATATGTAC GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA
    ATGGAAAAAG TTAGTAATAA AACTTCTGAT TCTTTCTTAA ATTATCCAAG TGATAAAGTT
    AATGTCCTTT TGGAAGTCGT GAAGGATTTG CAAAAACATG TGGATGACTT TGACAAAGTT
    GTGACAGATT ACAAGAAGAA TTTGGACCTG ACTGAGCATC TCCAGGAGGT GATAGAAGAG
    TGTCACTTTT GGTACGAAGA TGCAAGTGCC ACAGTTGTAA GAGTGGGAAA ATATTCCACA
    GAGTGCAAGA CAAAGGAAGC TGTGAAAATT CTCCACCAGC AGTTCAATAA GTTTATTGCA
    CCCTCGGTGC CGCAGCAAGA AGAAAGAATT CAGGAGGCCA CTGACCTTGC TCAGCGCTTA
    TATGGTTTGG AAGAAGGACA GAAATATATT GAGAAAATAG TGACAAAACA CAAAGAGGTT
    CTTGAATCTG TGACTGAATT ATGTGAGTCC CTCACAGAGC TTGAAGAAAA ACTGAAGCAG
    GGAGACGTTT TAAAGATGAA TCCAAATTTG GAAGACTTCC ATGATGATTA CATTGACTTG
    CTAAAGGAAC CAGCAAAAAA TAAGCAGACA ATATGCAATG AAGAAAGGAA TAAGGGGCAG
    GTACAGGTGG CAGATCTTTT GGCCATCAAT GGAACAGGGG AAGATCGGCT CCCACAAGAC
    CTGAAGGTGT CCGCTGACAA GGAGGGTGGC GTCCAGGGCC TGCTCCTGCC TGAAGACATG
    CTCTCAGGGG AAGAATATGA GTGTGTCTCA CCTGATGACA TCTCCTTGCC TCCTCTCCCA
    GGAAGCCCTG AGTCCCCCCT TGCACCATCT GACATGGAGG TGGAAGAGCC TGTCAGCTCC
    TCCCTCAGCC TTCACATAGG CAGCTATGCG GTGCAGGCTG GGACCAGCAG CCCAGGGAAT
    GCCCGGGAAT CTGTTCTTCC ACCACCTGTT GCATTTGCGG ATGCATGCAA TGATAAGAGA
    GAAACATTTT CAAGTCATTT TGAGAGGCCC TACCTCCAGT TCAAAGCCGA GCCCCCACTA
    ACCTCCAGAG GATTCCTGGA AAAGAGTACT GCCTTACACA GAATCAGTGC TGAACATCCA
    GAGAGCATGA TGAGTGAAGT GCATGAGAGA GCTTTACAGC AGCACCCTCA GGCTCAGGGC
    GGTTTGCTAG AAACACGGGA GAAAATGCAT GCTGATAATA ACTTCACTAA AATCCAAGAT
    AGGCTGCATG CTTCCCCTGA TGCATTCTCA GGCCTCAGGT TTCAATCAGG CACCAGCAGG
    GGCTATCAGA GGCAAATGGT TCCTCGAGAA GAGATTAAAA GCACGTCAGC AAAGAGCAGC
    GTGGTCAGCC TAGCTGACCA GGCACCTAAT TTCTCCAGGC TCCTGTCTAA TGTAACTGTC
    ATGGAAGGTT CTCCAGTGAC TTTGGAAGTT GAAGTAACAG GATTTCCAGA GCCTACACTG
    ACATGGTACA AGAAGGGCCA GAAACTGTCT ACAGATGGGC ACTTACAGGT TTTACACAAG
    GAGACAAGGC ATTCCGTGTT CATTCCGAAG GTGGATGATA CTGCCAAGCA CTTGGTGTTT
    GGGGCCAAAT GA

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

    RefSeq XP_028686724.1
    CDS337..4788
    Translation

    Target ORF information:

    RefSeq Version XM_028830891.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta coiled-coil domain containing 141 (CCDC141), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_028830891.1

    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
    ATGTCCAGCC AAGAAAGTCC TAGTGTGGAG CTTTCTACGA CGACAGTCAG TTCAGTTGCT 
    GTGCAGGCTG GGGACTCCAA AATCGTTATA GCTGTCATAA AGTGTGGCAA ATGGGTACAA
    CTTCAACTGG CTGAATCACA GCCCAATCTT CTAGAAATTG GCAGCAGTCA AGATGAAACC
    AAAAAACTTC TTCATGATCA TGAACTTCTT TTGGCCAAGC TCAAGGCTTT GGAAGATCGG
    GTATGGGAAC TCTTGCAGGA AGCAGACAAG ACAGCTGAAG AGAACAAGGA TCAGAGTCAG
    GTCTACGACG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCCCTGGT GTCCATGCTT
    GAAAGAAGAA TGGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTGGAGTTT
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAATGCT
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGG
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT
    GAAGGACCTA ATGTGAATCC TGAGTTGATT CAGGGAGCTC ATAGCAGCTG TCTGAAGATT
    GACAGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAGT TAGACAAGTA CTTGAAGCAA
    CAGTGGCAAG AATTGAGTCA GGTTCTGCAG ATATGTCAGT GGGACCAACG AGAAAACCAG
    GTTACTTGTT GGTTTCAGAA AACGATAAGA GATTTACAGG AACAAAGTCT AGGTTCATCA
    CTTTCAGACA ATGAGGATCT AATTCGTAAG CACGAGGAAC TGATAATAAA AGCAAAGGAA
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GGGGCACTGA GAATTCTGCT GTCAAAGGAC
    TACGCGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TGAGTCAGCT TCAAGAAGAA
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCAAATGA ATTTTTTAAC
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA
    TCAGAGGATT TAAGTCTGGC TGTTTTGGCA GCGAGGCATG AGGAATTACA CAGAAAAATT
    AAAGACTGCA CAGCTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC
    TGCAGCTCTC AGGTGTCTGG CATCCACGAG ATGTTGGGGT GCATTAAGAG ACGAGTGGAT
    CATCTGACCG AACAGTGTTC AGCACACAAG GAATATGCTC TCAAGAAACA ACAACTAACA
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTG
    CTTTCTAATG CAATGGATGT TGGCTCCACC TGTTCTGAAT CAGAGAAGAT TTTGAATAAA
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA
    ACCATGATGG AGAAAAACGA ATTTGAATCT GATGAAATGG TATCACTTTC CTCTAAAGCT
    AGATGGCTAG CAGAAGAATT AAACCTATTT GCCCAAAGCA TTGACTACAG ATCACAAGTC
    CTGCAAACTT ACGTGGCATT TCTGAGGTCA TCAGAGGAGG TAGAGATGCA GTTTCAGAGC
    TTAAAAGAAT TTTATGAAAC CAAAATCCCT CAGAAGGAGC AGGATGATGC TAAAGCCAAG
    CCTTGTTCTG ACTCGACTGA GAAGCAGTGG CCGCTATTTT TAAAGAAGAG TTTTGTAACA
    CAAGATCTAG GGCTTGAGTT CCTTAATTTA ATAAACATGG CAAAAGAGAA TGAGATACTA
    AATGTGGAAA ATGAAGTGTA CATCATGAAG AACACTATGG AAAACCAGAA AGCAGAACGG
    GAAGAACTTA GCCTCCTTCG GCTGGCATGG CAGCTTAAAG CCACGGAAAG CAAGCCTGTC
    AAACAGCAGT GGGCGGCATT CAAAGAGCAG CTTAAAAAGA CTACTCACAA CTTAAAACTT
    CTTCAGGAAG CACTTATGCC TGTGTCTGCA CTTGACCTTG GAGGGAGCCT CCAGTTCATT
    TTAGGGCTAC GACAAAAATG GAATGACATG AAGCCTCAGT TCCAGCAATT AAATGATGAG
    GTTCAATACA TTATGAAAGA ATCAGAGGAG TTAACTGGCA AAGGAGCCCC TGTAAAAGAA
    AAGTCTCAAC AACTGAAGGA CCTCATTCAC CTCCAACAAA AACAGAAAGA GAGAATCCAG
    GATTACGAGG ATATCCTGTA CAAGGTGGTC CAGTTCCATC AAGTCAAGGA AGCGCTGGGA
    CATCTCATCA GATCAAGAGA GCTGGAGTTT GTAGAGCAGC CGAAGGAACT GGGTGATGCT
    CACGATGTGC AGATTCACCT CTGGTGCTCT CAGGAAAAGC AAGCACGTGT AGACCATCTC
    CACAGACTGG CCCTTTCCTT AGGAGTGGAC ATCATCTCAT CAGTGCAGCG GCCTCACCGC
    TCTAATGTTT CTGCAAAGAA CTTACAGCAG CAGCTGGAGC TCCTTGAGGA GGAAAGCATG
    AAGTGGCGTG CCAAAGCTGA GGAGTATGAA CGGAGCCTGT CCCGTAGTTT GGAGTACTGC
    GCCATGAGAG ACGAGATAAA CGAGCTCAAA GAGTCATTCA AAGATGTCAA AAAGAAATTC
    AATAATTTGA AGTTTAATTA CACTAAGAAA AATGAAAAAT ATCGGAATCT GAAGGTGCTT
    AAATATCAAA TTCAACAAGT TGATATGTAC GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA
    ATGGAAAAAG TTAGTAATAA AACTTCTGAT TCTTTCTTAA ATTATCCAAG TGATAAAGTT
    AATGTCCTTT TGGAAGTCGT GAAGGATTTG CAAAAACATG TGGATGACTT TGACAAAGTT
    GTGACAGATT ACAAGAAGAA TTTGGACCTG ACTGAGCATC TCCAGGAGGT GATAGAAGAG
    TGTCACTTTT GGTACGAAGA TGCAAGTGCC ACAGTTGTAA GAGTGGGAAA ATATTCCACA
    GAGTGCAAGA CAAAGGAAGC TGTGAAAATT CTCCACCAGC AGTTCAATAA GTTTATTGCA
    CCCTCGGTGC CGCAGCAAGA AGAAAGAATT CAGGAGGCCA CTGACCTTGC TCAGCGCTTA
    TATGGTTTGG AAGAAGGACA GAAATATATT GAGAAAATAG TGACAAAACA CAAAGAGGTT
    CTTGAATCTG TGACTGAATT ATGTGAGTCC CTCACAGAGC TTGAAGAAAA ACTGAAGCAG
    GGAGACGTTT TAAAGATGAA TCCAAATTTG GAAGACTTCC ATGATGATTA CATTGACTTG
    CTAAAGGAAC CAGCAAAAAA TAAGCAGACA ATATGCAATG AAGAAAGGAA TAAGGGGCAG
    GTACAGGTGG CAGATCTTTT GGCCATCAAT GGAACAGGGG AAGATCGGCT CCCACAAGAC
    CTGAAGGTGT CCGCTGACAA GGAGGGTGGC GTCCAGGGCC TGCTCCTGCC TGAAGACATG
    CTCTCAGGGG AAGAATATGA GTGTGTCTCA CCTGATGACA TCTCCTTGCC TCCTCTCCCA
    GGAAGCCCTG AGTCCCCCCT TGCACCATCT GACATGGAGG TGGAAGAGCC TGTCAGCTCC
    TCCCTCAGCC TTCACATAGG CAGCTATGCG GTGCAGGCTG GGACCAGCAG CCCAGGGAAT
    GCCCGGGAAT CTGTTCTTCC ACCACCTGTT GCATTTGCGG ATGCATGCAA TGATAAGAGA
    GAAACATTTT CAAGTCATTT TGAGAGGCCC TACCTCCAGT TCAAAGCCGA GCCCCCACTA
    ACCTCCAGAG GATTCCTGGA AAAGAGTACT GCCTTACACA GAATCAGTGC TGAACATCCA
    GAGAGCATGA TGAGTGAAGT GCATGAGAGA GCTTTACAGC AGCACCCTCA GGCTCAGGGC
    GGTTTGCTAG AAACACGGGA GAAAATGCAT GCTGATAATA ACTTCACTAA AATCCAAGAT
    AGGCTGCATG CTTCCCCTGA TGCATTCTCA GGCCTCAGGT TTCAATCAGG CACCAGCAGG
    GGCTATCAGA GGCAAATGGT TCCTCGAGAA GAGATTAAAA GCACGTCAGC AAAGAGCAGC
    GTGGTCAGCC TAGCTGACCA GGCACCTAAT TTCTCCAGGC TCCTGTCTAA TGTAACTGTC
    ATGGAAGGTT CTCCAGTGAC TTTGGAAGTT GAAGTAACAG GATTTCCAGA GCCTACACTG
    ACATGGTACA AGAAGGGCCA GAAACTGTCT ACAGATGGGC ACTTACAGGT TTTACACAAG
    GAGACAAGGC ATTCCGTGTT CATTCCGAAG GTGGATGATA CTGCCAAGCA CTTGGTGTTT
    GGGGCCAAAT GA

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

    CloneID OMb66213
    Clone ID Related Accession (Same CDS sequence) XM_015110461.2
    Accession Version XM_015110461.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4281bp)
    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 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    Product coiled-coil domain-containing protein 141 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041765.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_015110461.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGCCGAGA CTCTGGGTGA AGCATGGGCA GCCCTGGTGT CCATGCTTGA AAGAAGAATG 
    GAGCTCCTTA GGTTGACTTC TGAATTTTTT GAAAATGCCT TGGAGTTTGC TATTAAAATA
    GACCAAGCTG AAGATTTCCT CCAGAATACT CATGAGTTTG AGAATGCTGA GTCCTTAAAA
    TCACTTCTTC AGCTTCATGA ACATCATACT AAAGAACTCT TGGAACGGTC TTTAGCCCTT
    TTAAACAAAA GTCAACAACT CACTGACTTC ATAGAAAAAT TCAAGTGTGA AGGACCTAAT
    GTGAATCCTG AGTTGATTCA GGGAGCTCAT AGCAGCTGTC TGAAGATTGA CAGCCTTCTT
    GAACTTCTAC AAGACAGGAG AAGACAGTTA GACAAGTACT TGAAGCAACA GTGGCAAGAA
    TTGAGTCAGG TTCTGCAGAT ATGTCAGTGG GACCAACGAG AAAACCAGGT TACTTGTTGG
    TTTCAGAAAA CGATAAGAGA TTTACAGGAA CAAAGTCTAG GTTCATCACT TTCAGACAAT
    GAGGATCTAA TTCGTAAGCA CGAGGAACTG ATAATAAAAG CAAAGGAATG GAATTCTGCT
    GTTGAGAAGC TGAAGAGTGG GGCACTGAGA ATTCTGCTGT CAAAGGACTA CGCGGAGAAA
    GAACACCTCC AGCTCTCTCA CCAGAAACTG AGTCAGCTTC AAGAAGAATT TGGTCAACTC
    ATGGTGGAAA GGAATACCTG GTTAAAGAAG GCAAATGAAT TTTTTAACAG TGCTAACAAG
    GCATTTGATG TACTTGGAAG AGTTGAAGCT TACCTTAAGC TCCTTAAATC AGAGGATTTA
    AGTCTGGCTG TTTTGGCAGC GAGGCATGAG GAATTACACA GAAAAATTAA AGACTGCACA
    GCTGATGCTT TGCAAAAGGG ACAAACCTTA ATCAGCCAAG TAGACTCCTG CAGCTCTCAG
    GTGTCTGGCA TCCACGAGAT GTTGGGGTGC ATTAAGAGAC GAGTGGATCA TCTGACCGAA
    CAGTGTTCAG CACACAAGGA ATATGCTCTC AAGAAACAAC AACTAACAGC CTCAGTGGAG
    GGTTACCTAC GGAAGGTGGA AATGTCAATT CAGAAAATCA GTCCAGTGCT TTCTAATGCA
    ATGGATGTTG GCTCCACCTG TTCTGAATCA GAGAAGATTT TGAATAAATA TCTGGAACTA
    GATATCCAAG CTAAGGAGAC ATCACATGAA TTAGAAGCAG CTGCAAAAAC CATGATGGAG
    AAAAACGAAT TTGAATCTGA TGAAATGGTA TCACTTTCCT CTAAAGCTAG ATGGCTAGCA
    GAAGAATTAA ACCTATTTGC CCAAAGCATT GACTACAGAT CACAAGTCCT GCAAACTTAC
    GTGGCATTTC TGAGGTCATC AGAGGAGGTA GAGATGCAGT TTCAGAGCTT AAAAGAATTT
    TATGAAACCA AAATCCCTCA GAAGGAGCAG GATGATGCTA AAGCCAAGCC TTGTTCTGAC
    TCGACTGAGA AGCAGTGGCC GCTATTTTTA AAGAAGAGTT TTGTAACACA AGATCTAGGG
    CTTGAGTTCC TTAATTTAAT AAACATGGCA AAAGAGAATG AGATACTAAA TGTGGAAAAT
    GAAGTGTACA TCATGAAGAA CACTATGGAA AACCAGAAAG CAGAACGGGA AGAACTTAGC
    CTCCTTCGGC TGGCATGGCA GCTTAAAGCC ACGGAAAGCA AGCCTGTCAA ACAGCAGTGG
    GCGGCATTCA AAGAGCAGCT TAAAAAGACT ACTCACAACT TAAAACTTCT TCAGGAAGCA
    CTTATGCCTG TGTCTGCACT TGACCTTGGA GGGAGCCTCC AGTTCATTTT AGGGCTACGA
    CAAAAATGGA ATGACATGAA GCCTCAGTTC CAGCAATTAA ATGATGAGGT TCAATACATT
    ATGAAAGAAT CAGAGGAGTT AACTGGCAAA GGAGCCCCTG TAAAAGAAAA GTCTCAACAA
    CTGAAGGACC TCATTCACCT CCAACAAAAA CAGAAAGAGA GAATCCAGGA TTACGAGGAT
    ATCCTGTACA AGGTGGTCCA GTTCCATCAA GTCAAGGAAG CGCTGGGACA TCTCATCAGA
    TCAAGAGAGC TGGAGTTTGT AGAGCAGCCG AAGGAACTGG GTGATGCTCA CGATGTGCAG
    ATTCACCTCT GGTGCTCTCA GGAAAAGCAA GCACGTGTAG ACCATCTCCA CAGACTGGCC
    CTTTCCTTAG GAGTGGACAT CATCTCATCA GTGCAGCGGC CTCACCGCTC TAATGTTTCT
    GCAAAGAACT TACAGCAGCA GCTGGAGCTC CTTGAGGAGG AAAGCATGAA GTGGCGTGCC
    AAAGCTGAGG AGTATGAACG GAGCCTGTCC CGTAGTTTGG AGTACTGCGC CATGAGAGAC
    GAGATAAACG AGCTCAAAGA GTCATTCAAA GATGTCAAAA AGAAATTCAA TAATTTGAAG
    TTTAATTACA CTAAGAAAAA TGAAAAATAT CGGAATCTGA AGGTGCTTAA ATATCAAATT
    CAACAAGTTG ATATGTACGC TGAAAAAATG CAGGCTTTGA AAAGGAAAAT GGAAAAAGTT
    AGTAATAAAA CTTCTGATTC TTTCTTAAAT TATCCAAGTG ATAAAGTTAA TGTCCTTTTG
    GAAGTCGTGA AGGATTTGCA AAAACATGTG GATGACTTTG ACAAAGTTGT GACAGATTAC
    AAGAAGAATT TGGACCTGAC TGAGCATCTC CAGGAGGTGA TAGAAGAGTG TCACTTTTGG
    TACGAAGATG CAAGTGCCAC AGTTGTAAGA GTGGGAAAAT ATTCCACAGA GTGCAAGACA
    AAGGAAGCTG TGAAAATTCT CCACCAGCAG TTCAATAAGT TTATTGCACC CTCGGTGCCG
    CAGCAAGAAG AAAGAATTCA GGAGGCCACT GACCTTGCTC AGCGCTTATA TGGTTTGGAA
    GAAGGACAGA AATATATTGA GAAAATAGTG ACAAAACACA AAGAGGTTCT TGAATCTGTG
    ACTGAATTAT GTGAGTCCCT CACAGAGCTT GAAGAAAAAC TGAAGCAGGG AGACGTTTTA
    AAGATGAATC CAAATTTGGA AGACTTCCAT GATGATTACA TTGACTTGCT AAAGGAACCA
    GCAAAAAATA AGCAGACAAT ATGCAATGAA GAAAGGAATA AGGGGCAGGT ACAGGTGGCA
    GATCTTTTGG CCATCAATGG AACAGGGGAA GATCGGCTCC CACAAGACCT GAAGGTGTCC
    GCTGACAAGG AGGGTGGCGT CCAGGGCCTG CTCCTGCCTG AAGACATGCT CTCAGGGGAA
    GAATATGAGT GTGTCTCACC TGATGACATC TCCTTGCCTC CTCTCCCAGG AAGCCCTGAG
    TCCCCCCTTG CACCATCTGA CATGGAGGTG GAAGAGCCTG TCAGCTCCTC CCTCAGCCTT
    CACATAGGCA GCTATGCGGT GCAGGCTGGG ACCAGCAGCC CAGGGAATGC CCGGGAATCT
    GTTCTTCCAC CACCTGTTGC ATTTGCGGAT GCATGCAATG ATAAGAGAGA AACATTTTCA
    AGTCATTTTG AGAGGCCCTA CCTCCAGTTC AAAGCCGAGC CCCCACTAAC CTCCAGAGGA
    TTCCTGGAAA AGAGTACTGC CTTACACAGA ATCAGTGCTG AACATCCAGA GAGCATGATG
    AGTGAAGTGC ATGAGAGAGC TTTACAGCAG CACCCTCAGG CTCAGGGCGG TTTGCTAGAA
    ACACGGGAGA AAATGCATGC TGATAATAAC TTCACTAAAA TCCAAGATAG GCTGCATGCT
    TCCCCTGATG CATTCTCAGG CCTCAGGTTT CAATCAGGCA CCAGCAGGGG CTATCAGAGG
    CAAATGGTTC CTCGAGAAGA GATTAAAAGC ACGTCAGCAA AGAGCAGCGT GGTCAGCCTA
    GCTGACCAGG CACCTAATTT CTCCAGGCTC CTGTCTAATG TAACTGTCAT GGAAGGTTCT
    CCAGTGACTT TGGAAGTTGA AGTAACAGGA TTTCCAGAGC CTACACTGAC ATGGTACAAG
    AAGGGCCAGA AACTGTCTAC AGATGGGCAC TTACAGGTTT TACACAAGGA GACAAGGCAT
    TCCGTGTTCA TTCCGAAGGT ATGCAAGGGA GACGAAGGCC TCTATGTGGC TCAGGCCCAA
    AACCCTAGCG GCACTCTCTC TTCCAATGTC ATCCTCCATG TGACGGGTAA CTGCAGGCCG
    CCAATCACAA GAATAAACTG GATAACGCTG TGTGTCGTCT ATGTTAGTGT GTCCCTAATG
    TACTGGCTAC TCACACAATA A

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

    RefSeq XP_014965947.2
    CDS272..4552
    Translation

    Target ORF information:

    RefSeq Version XM_015110461.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta coiled-coil domain containing 141 (CCDC141), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015110461.2

    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
    ATGGCCGAGA CTCTGGGTGA AGCATGGGCA GCCCTGGTGT CCATGCTTGA AAGAAGAATG 
    GAGCTCCTTA GGTTGACTTC TGAATTTTTT GAAAATGCCT TGGAGTTTGC TATTAAAATA
    GACCAAGCTG AAGATTTCCT CCAGAATACT CATGAGTTTG AGAATGCTGA GTCCTTAAAA
    TCACTTCTTC AGCTTCATGA ACATCATACT AAAGAACTCT TGGAACGGTC TTTAGCCCTT
    TTAAACAAAA GTCAACAACT CACTGACTTC ATAGAAAAAT TCAAGTGTGA AGGACCTAAT
    GTGAATCCTG AGTTGATTCA GGGAGCTCAT AGCAGCTGTC TGAAGATTGA CAGCCTTCTT
    GAACTTCTAC AAGACAGGAG AAGACAGTTA GACAAGTACT TGAAGCAACA GTGGCAAGAA
    TTGAGTCAGG TTCTGCAGAT ATGTCAGTGG GACCAACGAG AAAACCAGGT TACTTGTTGG
    TTTCAGAAAA CGATAAGAGA TTTACAGGAA CAAAGTCTAG GTTCATCACT TTCAGACAAT
    GAGGATCTAA TTCGTAAGCA CGAGGAACTG ATAATAAAAG CAAAGGAATG GAATTCTGCT
    GTTGAGAAGC TGAAGAGTGG GGCACTGAGA ATTCTGCTGT CAAAGGACTA CGCGGAGAAA
    GAACACCTCC AGCTCTCTCA CCAGAAACTG AGTCAGCTTC AAGAAGAATT TGGTCAACTC
    ATGGTGGAAA GGAATACCTG GTTAAAGAAG GCAAATGAAT TTTTTAACAG TGCTAACAAG
    GCATTTGATG TACTTGGAAG AGTTGAAGCT TACCTTAAGC TCCTTAAATC AGAGGATTTA
    AGTCTGGCTG TTTTGGCAGC GAGGCATGAG GAATTACACA GAAAAATTAA AGACTGCACA
    GCTGATGCTT TGCAAAAGGG ACAAACCTTA ATCAGCCAAG TAGACTCCTG CAGCTCTCAG
    GTGTCTGGCA TCCACGAGAT GTTGGGGTGC ATTAAGAGAC GAGTGGATCA TCTGACCGAA
    CAGTGTTCAG CACACAAGGA ATATGCTCTC AAGAAACAAC AACTAACAGC CTCAGTGGAG
    GGTTACCTAC GGAAGGTGGA AATGTCAATT CAGAAAATCA GTCCAGTGCT TTCTAATGCA
    ATGGATGTTG GCTCCACCTG TTCTGAATCA GAGAAGATTT TGAATAAATA TCTGGAACTA
    GATATCCAAG CTAAGGAGAC ATCACATGAA TTAGAAGCAG CTGCAAAAAC CATGATGGAG
    AAAAACGAAT TTGAATCTGA TGAAATGGTA TCACTTTCCT CTAAAGCTAG ATGGCTAGCA
    GAAGAATTAA ACCTATTTGC CCAAAGCATT GACTACAGAT CACAAGTCCT GCAAACTTAC
    GTGGCATTTC TGAGGTCATC AGAGGAGGTA GAGATGCAGT TTCAGAGCTT AAAAGAATTT
    TATGAAACCA AAATCCCTCA GAAGGAGCAG GATGATGCTA AAGCCAAGCC TTGTTCTGAC
    TCGACTGAGA AGCAGTGGCC GCTATTTTTA AAGAAGAGTT TTGTAACACA AGATCTAGGG
    CTTGAGTTCC TTAATTTAAT AAACATGGCA AAAGAGAATG AGATACTAAA TGTGGAAAAT
    GAAGTGTACA TCATGAAGAA CACTATGGAA AACCAGAAAG CAGAACGGGA AGAACTTAGC
    CTCCTTCGGC TGGCATGGCA GCTTAAAGCC ACGGAAAGCA AGCCTGTCAA ACAGCAGTGG
    GCGGCATTCA AAGAGCAGCT TAAAAAGACT ACTCACAACT TAAAACTTCT TCAGGAAGCA
    CTTATGCCTG TGTCTGCACT TGACCTTGGA GGGAGCCTCC AGTTCATTTT AGGGCTACGA
    CAAAAATGGA ATGACATGAA GCCTCAGTTC CAGCAATTAA ATGATGAGGT TCAATACATT
    ATGAAAGAAT CAGAGGAGTT AACTGGCAAA GGAGCCCCTG TAAAAGAAAA GTCTCAACAA
    CTGAAGGACC TCATTCACCT CCAACAAAAA CAGAAAGAGA GAATCCAGGA TTACGAGGAT
    ATCCTGTACA AGGTGGTCCA GTTCCATCAA GTCAAGGAAG CGCTGGGACA TCTCATCAGA
    TCAAGAGAGC TGGAGTTTGT AGAGCAGCCG AAGGAACTGG GTGATGCTCA CGATGTGCAG
    ATTCACCTCT GGTGCTCTCA GGAAAAGCAA GCACGTGTAG ACCATCTCCA CAGACTGGCC
    CTTTCCTTAG GAGTGGACAT CATCTCATCA GTGCAGCGGC CTCACCGCTC TAATGTTTCT
    GCAAAGAACT TACAGCAGCA GCTGGAGCTC CTTGAGGAGG AAAGCATGAA GTGGCGTGCC
    AAAGCTGAGG AGTATGAACG GAGCCTGTCC CGTAGTTTGG AGTACTGCGC CATGAGAGAC
    GAGATAAACG AGCTCAAAGA GTCATTCAAA GATGTCAAAA AGAAATTCAA TAATTTGAAG
    TTTAATTACA CTAAGAAAAA TGAAAAATAT CGGAATCTGA AGGTGCTTAA ATATCAAATT
    CAACAAGTTG ATATGTACGC TGAAAAAATG CAGGCTTTGA AAAGGAAAAT GGAAAAAGTT
    AGTAATAAAA CTTCTGATTC TTTCTTAAAT TATCCAAGTG ATAAAGTTAA TGTCCTTTTG
    GAAGTCGTGA AGGATTTGCA AAAACATGTG GATGACTTTG ACAAAGTTGT GACAGATTAC
    AAGAAGAATT TGGACCTGAC TGAGCATCTC CAGGAGGTGA TAGAAGAGTG TCACTTTTGG
    TACGAAGATG CAAGTGCCAC AGTTGTAAGA GTGGGAAAAT ATTCCACAGA GTGCAAGACA
    AAGGAAGCTG TGAAAATTCT CCACCAGCAG TTCAATAAGT TTATTGCACC CTCGGTGCCG
    CAGCAAGAAG AAAGAATTCA GGAGGCCACT GACCTTGCTC AGCGCTTATA TGGTTTGGAA
    GAAGGACAGA AATATATTGA GAAAATAGTG ACAAAACACA AAGAGGTTCT TGAATCTGTG
    ACTGAATTAT GTGAGTCCCT CACAGAGCTT GAAGAAAAAC TGAAGCAGGG AGACGTTTTA
    AAGATGAATC CAAATTTGGA AGACTTCCAT GATGATTACA TTGACTTGCT AAAGGAACCA
    GCAAAAAATA AGCAGACAAT ATGCAATGAA GAAAGGAATA AGGGGCAGGT ACAGGTGGCA
    GATCTTTTGG CCATCAATGG AACAGGGGAA GATCGGCTCC CACAAGACCT GAAGGTGTCC
    GCTGACAAGG AGGGTGGCGT CCAGGGCCTG CTCCTGCCTG AAGACATGCT CTCAGGGGAA
    GAATATGAGT GTGTCTCACC TGATGACATC TCCTTGCCTC CTCTCCCAGG AAGCCCTGAG
    TCCCCCCTTG CACCATCTGA CATGGAGGTG GAAGAGCCTG TCAGCTCCTC CCTCAGCCTT
    CACATAGGCA GCTATGCGGT GCAGGCTGGG ACCAGCAGCC CAGGGAATGC CCGGGAATCT
    GTTCTTCCAC CACCTGTTGC ATTTGCGGAT GCATGCAATG ATAAGAGAGA AACATTTTCA
    AGTCATTTTG AGAGGCCCTA CCTCCAGTTC AAAGCCGAGC CCCCACTAAC CTCCAGAGGA
    TTCCTGGAAA AGAGTACTGC CTTACACAGA ATCAGTGCTG AACATCCAGA GAGCATGATG
    AGTGAAGTGC ATGAGAGAGC TTTACAGCAG CACCCTCAGG CTCAGGGCGG TTTGCTAGAA
    ACACGGGAGA AAATGCATGC TGATAATAAC TTCACTAAAA TCCAAGATAG GCTGCATGCT
    TCCCCTGATG CATTCTCAGG CCTCAGGTTT CAATCAGGCA CCAGCAGGGG CTATCAGAGG
    CAAATGGTTC CTCGAGAAGA GATTAAAAGC ACGTCAGCAA AGAGCAGCGT GGTCAGCCTA
    GCTGACCAGG CACCTAATTT CTCCAGGCTC CTGTCTAATG TAACTGTCAT GGAAGGTTCT
    CCAGTGACTT TGGAAGTTGA AGTAACAGGA TTTCCAGAGC CTACACTGAC ATGGTACAAG
    AAGGGCCAGA AACTGTCTAC AGATGGGCAC TTACAGGTTT TACACAAGGA GACAAGGCAT
    TCCGTGTTCA TTCCGAAGGT ATGCAAGGGA GACGAAGGCC TCTATGTGGC TCAGGCCCAA
    AACCCTAGCG GCACTCTCTC TTCCAATGTC ATCCTCCATG TGACGGGTAA CTGCAGGCCG
    CCAATCACAA GAATAAACTG GATAACGCTG TGTGTCGTCT ATGTTAGTGT GTCCCTAATG
    TACTGGCTAC TCACACAATA A

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

    CloneID OMb44253
    Clone ID Related Accession (Same CDS sequence) XM_015110460.1
    Accession Version XM_015110460.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4593bp)
    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 2015-12-20
    Organism Macaca mulatta(Rhesus monkey)
    Product coiled-coil domain-containing protein 141 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014805356.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Macaca mulatta Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTCCAGCC AAGAAAGTCC TAGTGTGGAG CTTTCTACGA CGACAGTCAG TTCAGTTGCT 
    GTGCAGGCTG GGGACTCCAA AATCGTTATA GCTGTCATAA AGTGTGGCAA ATGGGTACAA
    CTTCAACTGG CTGAATCACA GCCCAATCTT CTAGAAATTG GCAGCAGTCA AGATGAAACC
    AAAAAACTTC TTCATGATCA TGAACTTCTT TTGGCCAAGC TCAAGGCTTT GGAAGATCGG
    GTATGGGAAC TCTTGCAGGA AGCAGACAAG ACAGCTGAAG AGAACAAGGA TCAGAGTCAG
    GTCTACGACG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCCCTGGT GTCCATGCTT
    GAAAGAAGAA TGGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTGGAGTTT
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAATGCT
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGT
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT
    GAAGGACCTA ATGTGAATCC TGAGTTGATT CAGGGAGCTC ATAGCAGCTG TCTGAAGATT
    GACAGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAGT TAGACAAGTA CTTGAAGCAA
    CAGTGGCAAG AATTGAGTCA GGTTCTGCAG ATATGTCAGT GGGACCAACG AGAAAACCAG
    GTTACTTGTT GGTTTCAGAA AACGATAAGA GATTTACAGG AACAAAGTCT AGGTTCATCA
    CTTTCAGACA ATGAGGATCT AATTCGTAAG CACGAGGAAC TGATAATAAA AGCAAAGGAA
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GGGGCACTGA GAATTCTGCT GTCAAAGGAC
    TACGTGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TGAGTCAGCT TCAAGAAGAA
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCAAATGA ATTTTTTAAC
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA
    TCAGAGGATT TAAGTCTGGC TGTTTTGGCA GCGAGGCATG AGGAATTACA CAGAAAAATT
    AAAGACTGCA CAGCTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC
    TGCAGCTCTC AGGTGTCTGG CATCCACGAG ATGATGGGGT GCATTAAGAG ACGAGTGGAT
    CATCTGACCG AACAGTGTTC AGCACACAAG GAATATGCTC TCAAGAAACA ACAACTAACA
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTG
    CTTTCTAATG CAATGGATGT TGGCTCCACC TGTTCTGAAT CAGAGAAGAT TTTGAATAAA
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA
    ACCATGATGG AGAAAAACGA ATTTGAATCT GATGAAATGG TATCACTTTC CTCTAAAGCT
    AGATGGCTAG CAGAAGAATT AAACCTATTT GCCCAAAGCA TTGACTACAG ATCACAAGTC
    CTGCAAACTT ACGTGGCATT TCTGAGGTCA TCAGAGGAGG TAGAGATGCA GTTTCAGAGC
    TTAAAAGAAT TTTATGAAAC CAAAATCCCT CAGAAGGAGC AGGATGATGC TAAAGCCAAG
    CCTTGTTCTG ACTCGACTGA GAAGCAGTGG CCGCTATTTT TAAAGAAGAG TTTTGTAACA
    CAAGATCTAG GGCTTGAGTT CCTTAATTTA ATAAACATGG CAAAAGAGAA TGAGATACTA
    AATGTGGAAA ATGAAGTGTA CATCATGAAG AACACTATGG AAAACCAGAA AGCAGAACGG
    GAAGAACTTA GCCTCCTTCG GCTGGCATGG CAGCTTAAAG CCACGGAAAG CAAGCCTGTC
    AAACAGCAGT GGGCGGCATT CAAAGAGCAG CTTAAAAAGA CTACTCACAA CTTAAAACTT
    CTTCAGGAAG CACTTATGCC TGTGTCTGCA CTTGACCTTG GAGGGAGCCT CCAGTTCATT
    TTAGGGCTAC GACAAAAATG GAATGACATG AAGCCTCAGT TCCAGCAATT AAATGATGAG
    GTTCAATACA TTATGAAAGA ATCAGAGGAG TTAACTGGCA AAGGAGCCCC TGTAAAAGAA
    AAGTCTCAAC AACTGAAGGA CCTCATTCAC CTCCAACAAA AACAGAAAGA GAGAATCCAG
    GATTACGAGG ATATCCTGTA CAAGGTGGTC CAGTTCCATC AAGTCAAGGA AGCGCTGGGA
    CATCTCATCA GATCAAGAGA GCTGGAGTTT GTAGAGCAGC CGAAGGAACT GGGTGATGCT
    CACGATGTGC AGATTCACCT CTGGTGCTCT CAGGAAAAGC AAGCACGTGT AGACCATCTC
    CACAGACTGG CCCTTTCCTT AGGAGTGGAC ATCATCTCAT CAGTGCAGCG GCCTCACTGC
    TCTAATGTTT CTGCAAAGAA CTTACAGCAA CAGCTGGAGC TCCTTGAGGA GGAAAGCATG
    AAGTGGCGTG CCAAAGCTGA GGAGTATGAA CGGAGCCTGT CACGTAGTTT GGAGTACTGC
    GCCATGAGAG ACGAGATAAA CGAGCTCAAA GAGTCATTCA AAGATGTCAA AAAGAAATTC
    AATAATTTGA AGTTTAATTA CACTAAGAAA AATGAAAAAT ATCGGAATCT GAAGGTGCTT
    AAATATCAAA TTCAACAAGT TGATATGTAC GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA
    ATGGAAAAAG TTAGTAATAA AACTTCTGAT TCTTTCTTAA ATTATCCAAG TGATAAAGTT
    AATGTCCTTT TGGAAGTCGT GAAGGATTTG CAAAAACATG TGGATGACTT TGACAAAGTT
    GTGACAGATT ACAAGAAGAA TTTGGACCTG ACTGAGCATC TCCAGGAGGT GATAGAAGAG
    TGTCACTTTT GGTACGAAGA TGCAAGTGCC ACAGTTGTAA GAGTGGGAAA ATATTCCACA
    GAGTGCAAGA CAAAGGAAGC TGTGAAAATT CTCCACCAGC AGTTCAATAA GTTTATTGCA
    CCCTCGGTGC CGCAGCAAGA AGAAAGAATT CAGGAGGCCA CTGACCTTGC TCAGCGCTTA
    TATGGTTTGG AAGAAGGACA GAAATATATT GAGAAAATAG TGACAAAACA CAAAGAGGTT
    CTTGAATCTG TGACTGAATT ATGTGAGTCC CTCACAGAGC TTGAAGAAAA ACTGAAGCAG
    GGAGACGTTT TAAAGATGAA TCCAAATTTG GAAGACTTCC ATGATGATTA CATTGACTTG
    CTAAAGGAAC CAGCAAAAAA TAAGCAGACA ATATGCAATG AAGAAAGGAA TAAGGGGCAG
    GTACAGGTGG CAGATCTTTT GGCCATCAAT GGAACAGGGG AAGATCGGCT CCCACAAGAC
    CTGAAGGTGT CCGCTGACAA GGAGGGTGGC GTCCAGGGCC TGCTCCTGCC TGAAGACATG
    CTCTCAGGGG AAGAATATGA GTGTGTCTCA CCTGATGACA TCTCCTTGCC TCCTCTCCCA
    GGAAGCCCTG AGTCCCCCCT TGCACCATCT GACATGGAGG TGGAAGAGCC TGTCAGCTCC
    TCCCTCAGCC TTCACATAGG CAGCTATGCG GTGCAGGCTG GGACCAGCAG CCCAGGGAAT
    GCCCGGGAAT CTGTTCTTCC ACCACCTGTT GCATTTGCGG ATGCATGCAA TGATAAGAGA
    GAAACATTTT CAAGTCATTT TGAGAGGCCC TACCTCCAGT TCAAAGCCGA GCCCCCACTA
    ACCTCCAGAG GATTCCTGGA AAAGAGTACT GCCTTACACA GAATCAGTGC TGAACATCCA
    GAGAGCATGA TGAGTGAAGT GCATGAGAGA GCTTTACAGC AGCACCCTCA GGCTCAGGGC
    GGTTTGCTAG AAACACGGGA GAAAATGCAT GCTGATAATA ACTTCACTAA AATCCAAGAT
    AGGCTGCATG CTTCCCCTGA TGCATTCTCA GGCCTCAGGT TTCAATCAGG CACCAGCAGG
    GGCTATCAGA GGCAAATGGT TCCTCGAGAA GAGATTAAAA GCACGTCAGC AAAGAGCAGC
    GTGGTCAGCC TAGCTGACCA GGCACCTAAT TTCTCCAGGC TCCTGTCTAA TGTAACTGTC
    ATGGAAGGTT CTCCAGTGAC TTTGGAAGTT GAAGTAACAG GATTTCCAGA GCCTACACTG
    ACATGGTACA AGAAGGGCCA GAAACTGTCT ACAGATGGGC ACTTACAGGT TTTACACAAG
    GAGACAAGGC ATTCCGTGTT CATTCCGAAG GTATGCAAGG GAGACGAAGG CCTCTATGTG
    GCTCAGGCCC AAAACCCTAG CGGCACTCTC TCTTCCAATG TCATCCTCCA TGTGACGGGT
    AACTGCAGGC CGCCAATCAC AAGAATAAAC TGGATAACGC TGTGTGTCGT CTATGTTAGT
    GTGTCCCTAA TGTACTGGCT ACTCACACAA TAA

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

    RefSeq XP_014965946.1
    CDS245..4837
    Translation

    Target ORF information:

    RefSeq Version XM_015110460.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta coiled-coil domain containing 141 (CCDC141), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015110460.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTCCAGCC AAGAAAGTCC TAGTGTGGAG CTTTCTACGA CGACAGTCAG TTCAGTTGCT 
    GTGCAGGCTG GGGACTCCAA AATCGTTATA GCTGTCATAA AGTGTGGCAA ATGGGTACAA
    CTTCAACTGG CTGAATCACA GCCCAATCTT CTAGAAATTG GCAGCAGTCA AGATGAAACC
    AAAAAACTTC TTCATGATCA TGAACTTCTT TTGGCCAAGC TCAAGGCTTT GGAAGATCGG
    GTATGGGAAC TCTTGCAGGA AGCAGACAAG ACAGCTGAAG AGAACAAGGA TCAGAGTCAG
    GTCTACGACG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCCCTGGT GTCCATGCTT
    GAAAGAAGAA TGGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTGGAGTTT
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAATGCT
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGT
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT
    GAAGGACCTA ATGTGAATCC TGAGTTGATT CAGGGAGCTC ATAGCAGCTG TCTGAAGATT
    GACAGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAGT TAGACAAGTA CTTGAAGCAA
    CAGTGGCAAG AATTGAGTCA GGTTCTGCAG ATATGTCAGT GGGACCAACG AGAAAACCAG
    GTTACTTGTT GGTTTCAGAA AACGATAAGA GATTTACAGG AACAAAGTCT AGGTTCATCA
    CTTTCAGACA ATGAGGATCT AATTCGTAAG CACGAGGAAC TGATAATAAA AGCAAAGGAA
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GGGGCACTGA GAATTCTGCT GTCAAAGGAC
    TACGTGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TGAGTCAGCT TCAAGAAGAA
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCAAATGA ATTTTTTAAC
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA
    TCAGAGGATT TAAGTCTGGC TGTTTTGGCA GCGAGGCATG AGGAATTACA CAGAAAAATT
    AAAGACTGCA CAGCTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC
    TGCAGCTCTC AGGTGTCTGG CATCCACGAG ATGATGGGGT GCATTAAGAG ACGAGTGGAT
    CATCTGACCG AACAGTGTTC AGCACACAAG GAATATGCTC TCAAGAAACA ACAACTAACA
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTG
    CTTTCTAATG CAATGGATGT TGGCTCCACC TGTTCTGAAT CAGAGAAGAT TTTGAATAAA
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA
    ACCATGATGG AGAAAAACGA ATTTGAATCT GATGAAATGG TATCACTTTC CTCTAAAGCT
    AGATGGCTAG CAGAAGAATT AAACCTATTT GCCCAAAGCA TTGACTACAG ATCACAAGTC
    CTGCAAACTT ACGTGGCATT TCTGAGGTCA TCAGAGGAGG TAGAGATGCA GTTTCAGAGC
    TTAAAAGAAT TTTATGAAAC CAAAATCCCT CAGAAGGAGC AGGATGATGC TAAAGCCAAG
    CCTTGTTCTG ACTCGACTGA GAAGCAGTGG CCGCTATTTT TAAAGAAGAG TTTTGTAACA
    CAAGATCTAG GGCTTGAGTT CCTTAATTTA ATAAACATGG CAAAAGAGAA TGAGATACTA
    AATGTGGAAA ATGAAGTGTA CATCATGAAG AACACTATGG AAAACCAGAA AGCAGAACGG
    GAAGAACTTA GCCTCCTTCG GCTGGCATGG CAGCTTAAAG CCACGGAAAG CAAGCCTGTC
    AAACAGCAGT GGGCGGCATT CAAAGAGCAG CTTAAAAAGA CTACTCACAA CTTAAAACTT
    CTTCAGGAAG CACTTATGCC TGTGTCTGCA CTTGACCTTG GAGGGAGCCT CCAGTTCATT
    TTAGGGCTAC GACAAAAATG GAATGACATG AAGCCTCAGT TCCAGCAATT AAATGATGAG
    GTTCAATACA TTATGAAAGA ATCAGAGGAG TTAACTGGCA AAGGAGCCCC TGTAAAAGAA
    AAGTCTCAAC AACTGAAGGA CCTCATTCAC CTCCAACAAA AACAGAAAGA GAGAATCCAG
    GATTACGAGG ATATCCTGTA CAAGGTGGTC CAGTTCCATC AAGTCAAGGA AGCGCTGGGA
    CATCTCATCA GATCAAGAGA GCTGGAGTTT GTAGAGCAGC CGAAGGAACT GGGTGATGCT
    CACGATGTGC AGATTCACCT CTGGTGCTCT CAGGAAAAGC AAGCACGTGT AGACCATCTC
    CACAGACTGG CCCTTTCCTT AGGAGTGGAC ATCATCTCAT CAGTGCAGCG GCCTCACTGC
    TCTAATGTTT CTGCAAAGAA CTTACAGCAA CAGCTGGAGC TCCTTGAGGA GGAAAGCATG
    AAGTGGCGTG CCAAAGCTGA GGAGTATGAA CGGAGCCTGT CACGTAGTTT GGAGTACTGC
    GCCATGAGAG ACGAGATAAA CGAGCTCAAA GAGTCATTCA AAGATGTCAA AAAGAAATTC
    AATAATTTGA AGTTTAATTA CACTAAGAAA AATGAAAAAT ATCGGAATCT GAAGGTGCTT
    AAATATCAAA TTCAACAAGT TGATATGTAC GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA
    ATGGAAAAAG TTAGTAATAA AACTTCTGAT TCTTTCTTAA ATTATCCAAG TGATAAAGTT
    AATGTCCTTT TGGAAGTCGT GAAGGATTTG CAAAAACATG TGGATGACTT TGACAAAGTT
    GTGACAGATT ACAAGAAGAA TTTGGACCTG ACTGAGCATC TCCAGGAGGT GATAGAAGAG
    TGTCACTTTT GGTACGAAGA TGCAAGTGCC ACAGTTGTAA GAGTGGGAAA ATATTCCACA
    GAGTGCAAGA CAAAGGAAGC TGTGAAAATT CTCCACCAGC AGTTCAATAA GTTTATTGCA
    CCCTCGGTGC CGCAGCAAGA AGAAAGAATT CAGGAGGCCA CTGACCTTGC TCAGCGCTTA
    TATGGTTTGG AAGAAGGACA GAAATATATT GAGAAAATAG TGACAAAACA CAAAGAGGTT
    CTTGAATCTG TGACTGAATT ATGTGAGTCC CTCACAGAGC TTGAAGAAAA ACTGAAGCAG
    GGAGACGTTT TAAAGATGAA TCCAAATTTG GAAGACTTCC ATGATGATTA CATTGACTTG
    CTAAAGGAAC CAGCAAAAAA TAAGCAGACA ATATGCAATG AAGAAAGGAA TAAGGGGCAG
    GTACAGGTGG CAGATCTTTT GGCCATCAAT GGAACAGGGG AAGATCGGCT CCCACAAGAC
    CTGAAGGTGT CCGCTGACAA GGAGGGTGGC GTCCAGGGCC TGCTCCTGCC TGAAGACATG
    CTCTCAGGGG AAGAATATGA GTGTGTCTCA CCTGATGACA TCTCCTTGCC TCCTCTCCCA
    GGAAGCCCTG AGTCCCCCCT TGCACCATCT GACATGGAGG TGGAAGAGCC TGTCAGCTCC
    TCCCTCAGCC TTCACATAGG CAGCTATGCG GTGCAGGCTG GGACCAGCAG CCCAGGGAAT
    GCCCGGGAAT CTGTTCTTCC ACCACCTGTT GCATTTGCGG ATGCATGCAA TGATAAGAGA
    GAAACATTTT CAAGTCATTT TGAGAGGCCC TACCTCCAGT TCAAAGCCGA GCCCCCACTA
    ACCTCCAGAG GATTCCTGGA AAAGAGTACT GCCTTACACA GAATCAGTGC TGAACATCCA
    GAGAGCATGA TGAGTGAAGT GCATGAGAGA GCTTTACAGC AGCACCCTCA GGCTCAGGGC
    GGTTTGCTAG AAACACGGGA GAAAATGCAT GCTGATAATA ACTTCACTAA AATCCAAGAT
    AGGCTGCATG CTTCCCCTGA TGCATTCTCA GGCCTCAGGT TTCAATCAGG CACCAGCAGG
    GGCTATCAGA GGCAAATGGT TCCTCGAGAA GAGATTAAAA GCACGTCAGC AAAGAGCAGC
    GTGGTCAGCC TAGCTGACCA GGCACCTAAT TTCTCCAGGC TCCTGTCTAA TGTAACTGTC
    ATGGAAGGTT CTCCAGTGAC TTTGGAAGTT GAAGTAACAG GATTTCCAGA GCCTACACTG
    ACATGGTACA AGAAGGGCCA GAAACTGTCT ACAGATGGGC ACTTACAGGT TTTACACAAG
    GAGACAAGGC ATTCCGTGTT CATTCCGAAG GTATGCAAGG GAGACGAAGG CCTCTATGTG
    GCTCAGGCCC AAAACCCTAG CGGCACTCTC TCTTCCAATG TCATCCTCCA TGTGACGGGT
    AACTGCAGGC CGCCAATCAC AAGAATAAAC TGGATAACGC TGTGTGTCGT CTATGTTAGT
    GTGTCCCTAA TGTACTGGCT ACTCACACAA TAA

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

    CloneID OMb66211
    Clone ID Related Accession (Same CDS sequence) XM_015110460.2 , XM_028830890.1
    Accession Version XM_015110460.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4593bp)
    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 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    Product coiled-coil domain-containing protein 141 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041765.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_015110460.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTCCAGCC AAGAAAGTCC TAGTGTGGAG CTTTCTACGA CGACAGTCAG TTCAGTTGCT 
    GTGCAGGCTG GGGACTCCAA AATCGTTATA GCTGTCATAA AGTGTGGCAA ATGGGTACAA
    CTTCAACTGG CTGAATCACA GCCCAATCTT CTAGAAATTG GCAGCAGTCA AGATGAAACC
    AAAAAACTTC TTCATGATCA TGAACTTCTT TTGGCCAAGC TCAAGGCTTT GGAAGATCGG
    GTATGGGAAC TCTTGCAGGA AGCAGACAAG ACAGCTGAAG AGAACAAGGA TCAGAGTCAG
    GTCTACGACG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCCCTGGT GTCCATGCTT
    GAAAGAAGAA TGGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTGGAGTTT
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAATGCT
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGG
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT
    GAAGGACCTA ATGTGAATCC TGAGTTGATT CAGGGAGCTC ATAGCAGCTG TCTGAAGATT
    GACAGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAGT TAGACAAGTA CTTGAAGCAA
    CAGTGGCAAG AATTGAGTCA GGTTCTGCAG ATATGTCAGT GGGACCAACG AGAAAACCAG
    GTTACTTGTT GGTTTCAGAA AACGATAAGA GATTTACAGG AACAAAGTCT AGGTTCATCA
    CTTTCAGACA ATGAGGATCT AATTCGTAAG CACGAGGAAC TGATAATAAA AGCAAAGGAA
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GGGGCACTGA GAATTCTGCT GTCAAAGGAC
    TACGCGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TGAGTCAGCT TCAAGAAGAA
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCAAATGA ATTTTTTAAC
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA
    TCAGAGGATT TAAGTCTGGC TGTTTTGGCA GCGAGGCATG AGGAATTACA CAGAAAAATT
    AAAGACTGCA CAGCTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC
    TGCAGCTCTC AGGTGTCTGG CATCCACGAG ATGTTGGGGT GCATTAAGAG ACGAGTGGAT
    CATCTGACCG AACAGTGTTC AGCACACAAG GAATATGCTC TCAAGAAACA ACAACTAACA
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTG
    CTTTCTAATG CAATGGATGT TGGCTCCACC TGTTCTGAAT CAGAGAAGAT TTTGAATAAA
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA
    ACCATGATGG AGAAAAACGA ATTTGAATCT GATGAAATGG TATCACTTTC CTCTAAAGCT
    AGATGGCTAG CAGAAGAATT AAACCTATTT GCCCAAAGCA TTGACTACAG ATCACAAGTC
    CTGCAAACTT ACGTGGCATT TCTGAGGTCA TCAGAGGAGG TAGAGATGCA GTTTCAGAGC
    TTAAAAGAAT TTTATGAAAC CAAAATCCCT CAGAAGGAGC AGGATGATGC TAAAGCCAAG
    CCTTGTTCTG ACTCGACTGA GAAGCAGTGG CCGCTATTTT TAAAGAAGAG TTTTGTAACA
    CAAGATCTAG GGCTTGAGTT CCTTAATTTA ATAAACATGG CAAAAGAGAA TGAGATACTA
    AATGTGGAAA ATGAAGTGTA CATCATGAAG AACACTATGG AAAACCAGAA AGCAGAACGG
    GAAGAACTTA GCCTCCTTCG GCTGGCATGG CAGCTTAAAG CCACGGAAAG CAAGCCTGTC
    AAACAGCAGT GGGCGGCATT CAAAGAGCAG CTTAAAAAGA CTACTCACAA CTTAAAACTT
    CTTCAGGAAG CACTTATGCC TGTGTCTGCA CTTGACCTTG GAGGGAGCCT CCAGTTCATT
    TTAGGGCTAC GACAAAAATG GAATGACATG AAGCCTCAGT TCCAGCAATT AAATGATGAG
    GTTCAATACA TTATGAAAGA ATCAGAGGAG TTAACTGGCA AAGGAGCCCC TGTAAAAGAA
    AAGTCTCAAC AACTGAAGGA CCTCATTCAC CTCCAACAAA AACAGAAAGA GAGAATCCAG
    GATTACGAGG ATATCCTGTA CAAGGTGGTC CAGTTCCATC AAGTCAAGGA AGCGCTGGGA
    CATCTCATCA GATCAAGAGA GCTGGAGTTT GTAGAGCAGC CGAAGGAACT GGGTGATGCT
    CACGATGTGC AGATTCACCT CTGGTGCTCT CAGGAAAAGC AAGCACGTGT AGACCATCTC
    CACAGACTGG CCCTTTCCTT AGGAGTGGAC ATCATCTCAT CAGTGCAGCG GCCTCACCGC
    TCTAATGTTT CTGCAAAGAA CTTACAGCAG CAGCTGGAGC TCCTTGAGGA GGAAAGCATG
    AAGTGGCGTG CCAAAGCTGA GGAGTATGAA CGGAGCCTGT CCCGTAGTTT GGAGTACTGC
    GCCATGAGAG ACGAGATAAA CGAGCTCAAA GAGTCATTCA AAGATGTCAA AAAGAAATTC
    AATAATTTGA AGTTTAATTA CACTAAGAAA AATGAAAAAT ATCGGAATCT GAAGGTGCTT
    AAATATCAAA TTCAACAAGT TGATATGTAC GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA
    ATGGAAAAAG TTAGTAATAA AACTTCTGAT TCTTTCTTAA ATTATCCAAG TGATAAAGTT
    AATGTCCTTT TGGAAGTCGT GAAGGATTTG CAAAAACATG TGGATGACTT TGACAAAGTT
    GTGACAGATT ACAAGAAGAA TTTGGACCTG ACTGAGCATC TCCAGGAGGT GATAGAAGAG
    TGTCACTTTT GGTACGAAGA TGCAAGTGCC ACAGTTGTAA GAGTGGGAAA ATATTCCACA
    GAGTGCAAGA CAAAGGAAGC TGTGAAAATT CTCCACCAGC AGTTCAATAA GTTTATTGCA
    CCCTCGGTGC CGCAGCAAGA AGAAAGAATT CAGGAGGCCA CTGACCTTGC TCAGCGCTTA
    TATGGTTTGG AAGAAGGACA GAAATATATT GAGAAAATAG TGACAAAACA CAAAGAGGTT
    CTTGAATCTG TGACTGAATT ATGTGAGTCC CTCACAGAGC TTGAAGAAAA ACTGAAGCAG
    GGAGACGTTT TAAAGATGAA TCCAAATTTG GAAGACTTCC ATGATGATTA CATTGACTTG
    CTAAAGGAAC CAGCAAAAAA TAAGCAGACA ATATGCAATG AAGAAAGGAA TAAGGGGCAG
    GTACAGGTGG CAGATCTTTT GGCCATCAAT GGAACAGGGG AAGATCGGCT CCCACAAGAC
    CTGAAGGTGT CCGCTGACAA GGAGGGTGGC GTCCAGGGCC TGCTCCTGCC TGAAGACATG
    CTCTCAGGGG AAGAATATGA GTGTGTCTCA CCTGATGACA TCTCCTTGCC TCCTCTCCCA
    GGAAGCCCTG AGTCCCCCCT TGCACCATCT GACATGGAGG TGGAAGAGCC TGTCAGCTCC
    TCCCTCAGCC TTCACATAGG CAGCTATGCG GTGCAGGCTG GGACCAGCAG CCCAGGGAAT
    GCCCGGGAAT CTGTTCTTCC ACCACCTGTT GCATTTGCGG ATGCATGCAA TGATAAGAGA
    GAAACATTTT CAAGTCATTT TGAGAGGCCC TACCTCCAGT TCAAAGCCGA GCCCCCACTA
    ACCTCCAGAG GATTCCTGGA AAAGAGTACT GCCTTACACA GAATCAGTGC TGAACATCCA
    GAGAGCATGA TGAGTGAAGT GCATGAGAGA GCTTTACAGC AGCACCCTCA GGCTCAGGGC
    GGTTTGCTAG AAACACGGGA GAAAATGCAT GCTGATAATA ACTTCACTAA AATCCAAGAT
    AGGCTGCATG CTTCCCCTGA TGCATTCTCA GGCCTCAGGT TTCAATCAGG CACCAGCAGG
    GGCTATCAGA GGCAAATGGT TCCTCGAGAA GAGATTAAAA GCACGTCAGC AAAGAGCAGC
    GTGGTCAGCC TAGCTGACCA GGCACCTAAT TTCTCCAGGC TCCTGTCTAA TGTAACTGTC
    ATGGAAGGTT CTCCAGTGAC TTTGGAAGTT GAAGTAACAG GATTTCCAGA GCCTACACTG
    ACATGGTACA AGAAGGGCCA GAAACTGTCT ACAGATGGGC ACTTACAGGT TTTACACAAG
    GAGACAAGGC ATTCCGTGTT CATTCCGAAG GTATGCAAGG GAGACGAAGG CCTCTATGTG
    GCTCAGGCCC AAAACCCTAG CGGCACTCTC TCTTCCAATG TCATCCTCCA TGTGACGGGT
    AACTGCAGGC CGCCAATCAC AAGAATAAAC TGGATAACGC TGTGTGTCGT CTATGTTAGT
    GTGTCCCTAA TGTACTGGCT ACTCACACAA TAA

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

    RefSeq XP_014965946.2
    CDS223..4815
    Translation

    Target ORF information:

    RefSeq Version XM_015110460.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta coiled-coil domain containing 141 (CCDC141), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015110460.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTCCAGCC AAGAAAGTCC TAGTGTGGAG CTTTCTACGA CGACAGTCAG TTCAGTTGCT 
    GTGCAGGCTG GGGACTCCAA AATCGTTATA GCTGTCATAA AGTGTGGCAA ATGGGTACAA
    CTTCAACTGG CTGAATCACA GCCCAATCTT CTAGAAATTG GCAGCAGTCA AGATGAAACC
    AAAAAACTTC TTCATGATCA TGAACTTCTT TTGGCCAAGC TCAAGGCTTT GGAAGATCGG
    GTATGGGAAC TCTTGCAGGA AGCAGACAAG ACAGCTGAAG AGAACAAGGA TCAGAGTCAG
    GTCTACGACG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCCCTGGT GTCCATGCTT
    GAAAGAAGAA TGGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTGGAGTTT
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAATGCT
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGG
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT
    GAAGGACCTA ATGTGAATCC TGAGTTGATT CAGGGAGCTC ATAGCAGCTG TCTGAAGATT
    GACAGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAGT TAGACAAGTA CTTGAAGCAA
    CAGTGGCAAG AATTGAGTCA GGTTCTGCAG ATATGTCAGT GGGACCAACG AGAAAACCAG
    GTTACTTGTT GGTTTCAGAA AACGATAAGA GATTTACAGG AACAAAGTCT AGGTTCATCA
    CTTTCAGACA ATGAGGATCT AATTCGTAAG CACGAGGAAC TGATAATAAA AGCAAAGGAA
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GGGGCACTGA GAATTCTGCT GTCAAAGGAC
    TACGCGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TGAGTCAGCT TCAAGAAGAA
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCAAATGA ATTTTTTAAC
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA
    TCAGAGGATT TAAGTCTGGC TGTTTTGGCA GCGAGGCATG AGGAATTACA CAGAAAAATT
    AAAGACTGCA CAGCTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC
    TGCAGCTCTC AGGTGTCTGG CATCCACGAG ATGTTGGGGT GCATTAAGAG ACGAGTGGAT
    CATCTGACCG AACAGTGTTC AGCACACAAG GAATATGCTC TCAAGAAACA ACAACTAACA
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTG
    CTTTCTAATG CAATGGATGT TGGCTCCACC TGTTCTGAAT CAGAGAAGAT TTTGAATAAA
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA
    ACCATGATGG AGAAAAACGA ATTTGAATCT GATGAAATGG TATCACTTTC CTCTAAAGCT
    AGATGGCTAG CAGAAGAATT AAACCTATTT GCCCAAAGCA TTGACTACAG ATCACAAGTC
    CTGCAAACTT ACGTGGCATT TCTGAGGTCA TCAGAGGAGG TAGAGATGCA GTTTCAGAGC
    TTAAAAGAAT TTTATGAAAC CAAAATCCCT CAGAAGGAGC AGGATGATGC TAAAGCCAAG
    CCTTGTTCTG ACTCGACTGA GAAGCAGTGG CCGCTATTTT TAAAGAAGAG TTTTGTAACA
    CAAGATCTAG GGCTTGAGTT CCTTAATTTA ATAAACATGG CAAAAGAGAA TGAGATACTA
    AATGTGGAAA ATGAAGTGTA CATCATGAAG AACACTATGG AAAACCAGAA AGCAGAACGG
    GAAGAACTTA GCCTCCTTCG GCTGGCATGG CAGCTTAAAG CCACGGAAAG CAAGCCTGTC
    AAACAGCAGT GGGCGGCATT CAAAGAGCAG CTTAAAAAGA CTACTCACAA CTTAAAACTT
    CTTCAGGAAG CACTTATGCC TGTGTCTGCA CTTGACCTTG GAGGGAGCCT CCAGTTCATT
    TTAGGGCTAC GACAAAAATG GAATGACATG AAGCCTCAGT TCCAGCAATT AAATGATGAG
    GTTCAATACA TTATGAAAGA ATCAGAGGAG TTAACTGGCA AAGGAGCCCC TGTAAAAGAA
    AAGTCTCAAC AACTGAAGGA CCTCATTCAC CTCCAACAAA AACAGAAAGA GAGAATCCAG
    GATTACGAGG ATATCCTGTA CAAGGTGGTC CAGTTCCATC AAGTCAAGGA AGCGCTGGGA
    CATCTCATCA GATCAAGAGA GCTGGAGTTT GTAGAGCAGC CGAAGGAACT GGGTGATGCT
    CACGATGTGC AGATTCACCT CTGGTGCTCT CAGGAAAAGC AAGCACGTGT AGACCATCTC
    CACAGACTGG CCCTTTCCTT AGGAGTGGAC ATCATCTCAT CAGTGCAGCG GCCTCACCGC
    TCTAATGTTT CTGCAAAGAA CTTACAGCAG CAGCTGGAGC TCCTTGAGGA GGAAAGCATG
    AAGTGGCGTG CCAAAGCTGA GGAGTATGAA CGGAGCCTGT CCCGTAGTTT GGAGTACTGC
    GCCATGAGAG ACGAGATAAA CGAGCTCAAA GAGTCATTCA AAGATGTCAA AAAGAAATTC
    AATAATTTGA AGTTTAATTA CACTAAGAAA AATGAAAAAT ATCGGAATCT GAAGGTGCTT
    AAATATCAAA TTCAACAAGT TGATATGTAC GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA
    ATGGAAAAAG TTAGTAATAA AACTTCTGAT TCTTTCTTAA ATTATCCAAG TGATAAAGTT
    AATGTCCTTT TGGAAGTCGT GAAGGATTTG CAAAAACATG TGGATGACTT TGACAAAGTT
    GTGACAGATT ACAAGAAGAA TTTGGACCTG ACTGAGCATC TCCAGGAGGT GATAGAAGAG
    TGTCACTTTT GGTACGAAGA TGCAAGTGCC ACAGTTGTAA GAGTGGGAAA ATATTCCACA
    GAGTGCAAGA CAAAGGAAGC TGTGAAAATT CTCCACCAGC AGTTCAATAA GTTTATTGCA
    CCCTCGGTGC CGCAGCAAGA AGAAAGAATT CAGGAGGCCA CTGACCTTGC TCAGCGCTTA
    TATGGTTTGG AAGAAGGACA GAAATATATT GAGAAAATAG TGACAAAACA CAAAGAGGTT
    CTTGAATCTG TGACTGAATT ATGTGAGTCC CTCACAGAGC TTGAAGAAAA ACTGAAGCAG
    GGAGACGTTT TAAAGATGAA TCCAAATTTG GAAGACTTCC ATGATGATTA CATTGACTTG
    CTAAAGGAAC CAGCAAAAAA TAAGCAGACA ATATGCAATG AAGAAAGGAA TAAGGGGCAG
    GTACAGGTGG CAGATCTTTT GGCCATCAAT GGAACAGGGG AAGATCGGCT CCCACAAGAC
    CTGAAGGTGT CCGCTGACAA GGAGGGTGGC GTCCAGGGCC TGCTCCTGCC TGAAGACATG
    CTCTCAGGGG AAGAATATGA GTGTGTCTCA CCTGATGACA TCTCCTTGCC TCCTCTCCCA
    GGAAGCCCTG AGTCCCCCCT TGCACCATCT GACATGGAGG TGGAAGAGCC TGTCAGCTCC
    TCCCTCAGCC TTCACATAGG CAGCTATGCG GTGCAGGCTG GGACCAGCAG CCCAGGGAAT
    GCCCGGGAAT CTGTTCTTCC ACCACCTGTT GCATTTGCGG ATGCATGCAA TGATAAGAGA
    GAAACATTTT CAAGTCATTT TGAGAGGCCC TACCTCCAGT TCAAAGCCGA GCCCCCACTA
    ACCTCCAGAG GATTCCTGGA AAAGAGTACT GCCTTACACA GAATCAGTGC TGAACATCCA
    GAGAGCATGA TGAGTGAAGT GCATGAGAGA GCTTTACAGC AGCACCCTCA GGCTCAGGGC
    GGTTTGCTAG AAACACGGGA GAAAATGCAT GCTGATAATA ACTTCACTAA AATCCAAGAT
    AGGCTGCATG CTTCCCCTGA TGCATTCTCA GGCCTCAGGT TTCAATCAGG CACCAGCAGG
    GGCTATCAGA GGCAAATGGT TCCTCGAGAA GAGATTAAAA GCACGTCAGC AAAGAGCAGC
    GTGGTCAGCC TAGCTGACCA GGCACCTAAT TTCTCCAGGC TCCTGTCTAA TGTAACTGTC
    ATGGAAGGTT CTCCAGTGAC TTTGGAAGTT GAAGTAACAG GATTTCCAGA GCCTACACTG
    ACATGGTACA AGAAGGGCCA GAAACTGTCT ACAGATGGGC ACTTACAGGT TTTACACAAG
    GAGACAAGGC ATTCCGTGTT CATTCCGAAG GTATGCAAGG GAGACGAAGG CCTCTATGTG
    GCTCAGGCCC AAAACCCTAG CGGCACTCTC TCTTCCAATG TCATCCTCCA TGTGACGGGT
    AACTGCAGGC CGCCAATCAC AAGAATAAAC TGGATAACGC TGTGTGTCGT CTATGTTAGT
    GTGTCCCTAA TGTACTGGCT ACTCACACAA TAA

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

    CloneID OMb66211
    Clone ID Related Accession (Same CDS sequence) XM_015110460.2 , XM_028830890.1
    Accession Version XM_028830890.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4593bp)
    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 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    Product coiled-coil domain-containing protein 141 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041765.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTCCAGCC AAGAAAGTCC TAGTGTGGAG CTTTCTACGA CGACAGTCAG TTCAGTTGCT 
    GTGCAGGCTG GGGACTCCAA AATCGTTATA GCTGTCATAA AGTGTGGCAA ATGGGTACAA
    CTTCAACTGG CTGAATCACA GCCCAATCTT CTAGAAATTG GCAGCAGTCA AGATGAAACC
    AAAAAACTTC TTCATGATCA TGAACTTCTT TTGGCCAAGC TCAAGGCTTT GGAAGATCGG
    GTATGGGAAC TCTTGCAGGA AGCAGACAAG ACAGCTGAAG AGAACAAGGA TCAGAGTCAG
    GTCTACGACG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCCCTGGT GTCCATGCTT
    GAAAGAAGAA TGGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTGGAGTTT
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAATGCT
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGG
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT
    GAAGGACCTA ATGTGAATCC TGAGTTGATT CAGGGAGCTC ATAGCAGCTG TCTGAAGATT
    GACAGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAGT TAGACAAGTA CTTGAAGCAA
    CAGTGGCAAG AATTGAGTCA GGTTCTGCAG ATATGTCAGT GGGACCAACG AGAAAACCAG
    GTTACTTGTT GGTTTCAGAA AACGATAAGA GATTTACAGG AACAAAGTCT AGGTTCATCA
    CTTTCAGACA ATGAGGATCT AATTCGTAAG CACGAGGAAC TGATAATAAA AGCAAAGGAA
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GGGGCACTGA GAATTCTGCT GTCAAAGGAC
    TACGCGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TGAGTCAGCT TCAAGAAGAA
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCAAATGA ATTTTTTAAC
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA
    TCAGAGGATT TAAGTCTGGC TGTTTTGGCA GCGAGGCATG AGGAATTACA CAGAAAAATT
    AAAGACTGCA CAGCTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC
    TGCAGCTCTC AGGTGTCTGG CATCCACGAG ATGTTGGGGT GCATTAAGAG ACGAGTGGAT
    CATCTGACCG AACAGTGTTC AGCACACAAG GAATATGCTC TCAAGAAACA ACAACTAACA
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTG
    CTTTCTAATG CAATGGATGT TGGCTCCACC TGTTCTGAAT CAGAGAAGAT TTTGAATAAA
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA
    ACCATGATGG AGAAAAACGA ATTTGAATCT GATGAAATGG TATCACTTTC CTCTAAAGCT
    AGATGGCTAG CAGAAGAATT AAACCTATTT GCCCAAAGCA TTGACTACAG ATCACAAGTC
    CTGCAAACTT ACGTGGCATT TCTGAGGTCA TCAGAGGAGG TAGAGATGCA GTTTCAGAGC
    TTAAAAGAAT TTTATGAAAC CAAAATCCCT CAGAAGGAGC AGGATGATGC TAAAGCCAAG
    CCTTGTTCTG ACTCGACTGA GAAGCAGTGG CCGCTATTTT TAAAGAAGAG TTTTGTAACA
    CAAGATCTAG GGCTTGAGTT CCTTAATTTA ATAAACATGG CAAAAGAGAA TGAGATACTA
    AATGTGGAAA ATGAAGTGTA CATCATGAAG AACACTATGG AAAACCAGAA AGCAGAACGG
    GAAGAACTTA GCCTCCTTCG GCTGGCATGG CAGCTTAAAG CCACGGAAAG CAAGCCTGTC
    AAACAGCAGT GGGCGGCATT CAAAGAGCAG CTTAAAAAGA CTACTCACAA CTTAAAACTT
    CTTCAGGAAG CACTTATGCC TGTGTCTGCA CTTGACCTTG GAGGGAGCCT CCAGTTCATT
    TTAGGGCTAC GACAAAAATG GAATGACATG AAGCCTCAGT TCCAGCAATT AAATGATGAG
    GTTCAATACA TTATGAAAGA ATCAGAGGAG TTAACTGGCA AAGGAGCCCC TGTAAAAGAA
    AAGTCTCAAC AACTGAAGGA CCTCATTCAC CTCCAACAAA AACAGAAAGA GAGAATCCAG
    GATTACGAGG ATATCCTGTA CAAGGTGGTC CAGTTCCATC AAGTCAAGGA AGCGCTGGGA
    CATCTCATCA GATCAAGAGA GCTGGAGTTT GTAGAGCAGC CGAAGGAACT GGGTGATGCT
    CACGATGTGC AGATTCACCT CTGGTGCTCT CAGGAAAAGC AAGCACGTGT AGACCATCTC
    CACAGACTGG CCCTTTCCTT AGGAGTGGAC ATCATCTCAT CAGTGCAGCG GCCTCACCGC
    TCTAATGTTT CTGCAAAGAA CTTACAGCAG CAGCTGGAGC TCCTTGAGGA GGAAAGCATG
    AAGTGGCGTG CCAAAGCTGA GGAGTATGAA CGGAGCCTGT CCCGTAGTTT GGAGTACTGC
    GCCATGAGAG ACGAGATAAA CGAGCTCAAA GAGTCATTCA AAGATGTCAA AAAGAAATTC
    AATAATTTGA AGTTTAATTA CACTAAGAAA AATGAAAAAT ATCGGAATCT GAAGGTGCTT
    AAATATCAAA TTCAACAAGT TGATATGTAC GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA
    ATGGAAAAAG TTAGTAATAA AACTTCTGAT TCTTTCTTAA ATTATCCAAG TGATAAAGTT
    AATGTCCTTT TGGAAGTCGT GAAGGATTTG CAAAAACATG TGGATGACTT TGACAAAGTT
    GTGACAGATT ACAAGAAGAA TTTGGACCTG ACTGAGCATC TCCAGGAGGT GATAGAAGAG
    TGTCACTTTT GGTACGAAGA TGCAAGTGCC ACAGTTGTAA GAGTGGGAAA ATATTCCACA
    GAGTGCAAGA CAAAGGAAGC TGTGAAAATT CTCCACCAGC AGTTCAATAA GTTTATTGCA
    CCCTCGGTGC CGCAGCAAGA AGAAAGAATT CAGGAGGCCA CTGACCTTGC TCAGCGCTTA
    TATGGTTTGG AAGAAGGACA GAAATATATT GAGAAAATAG TGACAAAACA CAAAGAGGTT
    CTTGAATCTG TGACTGAATT ATGTGAGTCC CTCACAGAGC TTGAAGAAAA ACTGAAGCAG
    GGAGACGTTT TAAAGATGAA TCCAAATTTG GAAGACTTCC ATGATGATTA CATTGACTTG
    CTAAAGGAAC CAGCAAAAAA TAAGCAGACA ATATGCAATG AAGAAAGGAA TAAGGGGCAG
    GTACAGGTGG CAGATCTTTT GGCCATCAAT GGAACAGGGG AAGATCGGCT CCCACAAGAC
    CTGAAGGTGT CCGCTGACAA GGAGGGTGGC GTCCAGGGCC TGCTCCTGCC TGAAGACATG
    CTCTCAGGGG AAGAATATGA GTGTGTCTCA CCTGATGACA TCTCCTTGCC TCCTCTCCCA
    GGAAGCCCTG AGTCCCCCCT TGCACCATCT GACATGGAGG TGGAAGAGCC TGTCAGCTCC
    TCCCTCAGCC TTCACATAGG CAGCTATGCG GTGCAGGCTG GGACCAGCAG CCCAGGGAAT
    GCCCGGGAAT CTGTTCTTCC ACCACCTGTT GCATTTGCGG ATGCATGCAA TGATAAGAGA
    GAAACATTTT CAAGTCATTT TGAGAGGCCC TACCTCCAGT TCAAAGCCGA GCCCCCACTA
    ACCTCCAGAG GATTCCTGGA AAAGAGTACT GCCTTACACA GAATCAGTGC TGAACATCCA
    GAGAGCATGA TGAGTGAAGT GCATGAGAGA GCTTTACAGC AGCACCCTCA GGCTCAGGGC
    GGTTTGCTAG AAACACGGGA GAAAATGCAT GCTGATAATA ACTTCACTAA AATCCAAGAT
    AGGCTGCATG CTTCCCCTGA TGCATTCTCA GGCCTCAGGT TTCAATCAGG CACCAGCAGG
    GGCTATCAGA GGCAAATGGT TCCTCGAGAA GAGATTAAAA GCACGTCAGC AAAGAGCAGC
    GTGGTCAGCC TAGCTGACCA GGCACCTAAT TTCTCCAGGC TCCTGTCTAA TGTAACTGTC
    ATGGAAGGTT CTCCAGTGAC TTTGGAAGTT GAAGTAACAG GATTTCCAGA GCCTACACTG
    ACATGGTACA AGAAGGGCCA GAAACTGTCT ACAGATGGGC ACTTACAGGT TTTACACAAG
    GAGACAAGGC ATTCCGTGTT CATTCCGAAG GTATGCAAGG GAGACGAAGG CCTCTATGTG
    GCTCAGGCCC AAAACCCTAG CGGCACTCTC TCTTCCAATG TCATCCTCCA TGTGACGGGT
    AACTGCAGGC CGCCAATCAC AAGAATAAAC TGGATAACGC TGTGTGTCGT CTATGTTAGT
    GTGTCCCTAA TGTACTGGCT ACTCACACAA TAA

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

    RefSeq XP_028686723.1
    CDS338..4930
    Translation

    Target ORF information:

    RefSeq Version XM_028830890.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta coiled-coil domain containing 141 (CCDC141), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_028830890.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTCCAGCC AAGAAAGTCC TAGTGTGGAG CTTTCTACGA CGACAGTCAG TTCAGTTGCT 
    GTGCAGGCTG GGGACTCCAA AATCGTTATA GCTGTCATAA AGTGTGGCAA ATGGGTACAA
    CTTCAACTGG CTGAATCACA GCCCAATCTT CTAGAAATTG GCAGCAGTCA AGATGAAACC
    AAAAAACTTC TTCATGATCA TGAACTTCTT TTGGCCAAGC TCAAGGCTTT GGAAGATCGG
    GTATGGGAAC TCTTGCAGGA AGCAGACAAG ACAGCTGAAG AGAACAAGGA TCAGAGTCAG
    GTCTACGACG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCCCTGGT GTCCATGCTT
    GAAAGAAGAA TGGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTGGAGTTT
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAATGCT
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGG
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT
    GAAGGACCTA ATGTGAATCC TGAGTTGATT CAGGGAGCTC ATAGCAGCTG TCTGAAGATT
    GACAGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAGT TAGACAAGTA CTTGAAGCAA
    CAGTGGCAAG AATTGAGTCA GGTTCTGCAG ATATGTCAGT GGGACCAACG AGAAAACCAG
    GTTACTTGTT GGTTTCAGAA AACGATAAGA GATTTACAGG AACAAAGTCT AGGTTCATCA
    CTTTCAGACA ATGAGGATCT AATTCGTAAG CACGAGGAAC TGATAATAAA AGCAAAGGAA
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GGGGCACTGA GAATTCTGCT GTCAAAGGAC
    TACGCGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TGAGTCAGCT TCAAGAAGAA
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCAAATGA ATTTTTTAAC
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA
    TCAGAGGATT TAAGTCTGGC TGTTTTGGCA GCGAGGCATG AGGAATTACA CAGAAAAATT
    AAAGACTGCA CAGCTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC
    TGCAGCTCTC AGGTGTCTGG CATCCACGAG ATGTTGGGGT GCATTAAGAG ACGAGTGGAT
    CATCTGACCG AACAGTGTTC AGCACACAAG GAATATGCTC TCAAGAAACA ACAACTAACA
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTG
    CTTTCTAATG CAATGGATGT TGGCTCCACC TGTTCTGAAT CAGAGAAGAT TTTGAATAAA
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA
    ACCATGATGG AGAAAAACGA ATTTGAATCT GATGAAATGG TATCACTTTC CTCTAAAGCT
    AGATGGCTAG CAGAAGAATT AAACCTATTT GCCCAAAGCA TTGACTACAG ATCACAAGTC
    CTGCAAACTT ACGTGGCATT TCTGAGGTCA TCAGAGGAGG TAGAGATGCA GTTTCAGAGC
    TTAAAAGAAT TTTATGAAAC CAAAATCCCT CAGAAGGAGC AGGATGATGC TAAAGCCAAG
    CCTTGTTCTG ACTCGACTGA GAAGCAGTGG CCGCTATTTT TAAAGAAGAG TTTTGTAACA
    CAAGATCTAG GGCTTGAGTT CCTTAATTTA ATAAACATGG CAAAAGAGAA TGAGATACTA
    AATGTGGAAA ATGAAGTGTA CATCATGAAG AACACTATGG AAAACCAGAA AGCAGAACGG
    GAAGAACTTA GCCTCCTTCG GCTGGCATGG CAGCTTAAAG CCACGGAAAG CAAGCCTGTC
    AAACAGCAGT GGGCGGCATT CAAAGAGCAG CTTAAAAAGA CTACTCACAA CTTAAAACTT
    CTTCAGGAAG CACTTATGCC TGTGTCTGCA CTTGACCTTG GAGGGAGCCT CCAGTTCATT
    TTAGGGCTAC GACAAAAATG GAATGACATG AAGCCTCAGT TCCAGCAATT AAATGATGAG
    GTTCAATACA TTATGAAAGA ATCAGAGGAG TTAACTGGCA AAGGAGCCCC TGTAAAAGAA
    AAGTCTCAAC AACTGAAGGA CCTCATTCAC CTCCAACAAA AACAGAAAGA GAGAATCCAG
    GATTACGAGG ATATCCTGTA CAAGGTGGTC CAGTTCCATC AAGTCAAGGA AGCGCTGGGA
    CATCTCATCA GATCAAGAGA GCTGGAGTTT GTAGAGCAGC CGAAGGAACT GGGTGATGCT
    CACGATGTGC AGATTCACCT CTGGTGCTCT CAGGAAAAGC AAGCACGTGT AGACCATCTC
    CACAGACTGG CCCTTTCCTT AGGAGTGGAC ATCATCTCAT CAGTGCAGCG GCCTCACCGC
    TCTAATGTTT CTGCAAAGAA CTTACAGCAG CAGCTGGAGC TCCTTGAGGA GGAAAGCATG
    AAGTGGCGTG CCAAAGCTGA GGAGTATGAA CGGAGCCTGT CCCGTAGTTT GGAGTACTGC
    GCCATGAGAG ACGAGATAAA CGAGCTCAAA GAGTCATTCA AAGATGTCAA AAAGAAATTC
    AATAATTTGA AGTTTAATTA CACTAAGAAA AATGAAAAAT ATCGGAATCT GAAGGTGCTT
    AAATATCAAA TTCAACAAGT TGATATGTAC GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA
    ATGGAAAAAG TTAGTAATAA AACTTCTGAT TCTTTCTTAA ATTATCCAAG TGATAAAGTT
    AATGTCCTTT TGGAAGTCGT GAAGGATTTG CAAAAACATG TGGATGACTT TGACAAAGTT
    GTGACAGATT ACAAGAAGAA TTTGGACCTG ACTGAGCATC TCCAGGAGGT GATAGAAGAG
    TGTCACTTTT GGTACGAAGA TGCAAGTGCC ACAGTTGTAA GAGTGGGAAA ATATTCCACA
    GAGTGCAAGA CAAAGGAAGC TGTGAAAATT CTCCACCAGC AGTTCAATAA GTTTATTGCA
    CCCTCGGTGC CGCAGCAAGA AGAAAGAATT CAGGAGGCCA CTGACCTTGC TCAGCGCTTA
    TATGGTTTGG AAGAAGGACA GAAATATATT GAGAAAATAG TGACAAAACA CAAAGAGGTT
    CTTGAATCTG TGACTGAATT ATGTGAGTCC CTCACAGAGC TTGAAGAAAA ACTGAAGCAG
    GGAGACGTTT TAAAGATGAA TCCAAATTTG GAAGACTTCC ATGATGATTA CATTGACTTG
    CTAAAGGAAC CAGCAAAAAA TAAGCAGACA ATATGCAATG AAGAAAGGAA TAAGGGGCAG
    GTACAGGTGG CAGATCTTTT GGCCATCAAT GGAACAGGGG AAGATCGGCT CCCACAAGAC
    CTGAAGGTGT CCGCTGACAA GGAGGGTGGC GTCCAGGGCC TGCTCCTGCC TGAAGACATG
    CTCTCAGGGG AAGAATATGA GTGTGTCTCA CCTGATGACA TCTCCTTGCC TCCTCTCCCA
    GGAAGCCCTG AGTCCCCCCT TGCACCATCT GACATGGAGG TGGAAGAGCC TGTCAGCTCC
    TCCCTCAGCC TTCACATAGG CAGCTATGCG GTGCAGGCTG GGACCAGCAG CCCAGGGAAT
    GCCCGGGAAT CTGTTCTTCC ACCACCTGTT GCATTTGCGG ATGCATGCAA TGATAAGAGA
    GAAACATTTT CAAGTCATTT TGAGAGGCCC TACCTCCAGT TCAAAGCCGA GCCCCCACTA
    ACCTCCAGAG GATTCCTGGA AAAGAGTACT GCCTTACACA GAATCAGTGC TGAACATCCA
    GAGAGCATGA TGAGTGAAGT GCATGAGAGA GCTTTACAGC AGCACCCTCA GGCTCAGGGC
    GGTTTGCTAG AAACACGGGA GAAAATGCAT GCTGATAATA ACTTCACTAA AATCCAAGAT
    AGGCTGCATG CTTCCCCTGA TGCATTCTCA GGCCTCAGGT TTCAATCAGG CACCAGCAGG
    GGCTATCAGA GGCAAATGGT TCCTCGAGAA GAGATTAAAA GCACGTCAGC AAAGAGCAGC
    GTGGTCAGCC TAGCTGACCA GGCACCTAAT TTCTCCAGGC TCCTGTCTAA TGTAACTGTC
    ATGGAAGGTT CTCCAGTGAC TTTGGAAGTT GAAGTAACAG GATTTCCAGA GCCTACACTG
    ACATGGTACA AGAAGGGCCA GAAACTGTCT ACAGATGGGC ACTTACAGGT TTTACACAAG
    GAGACAAGGC ATTCCGTGTT CATTCCGAAG GTATGCAAGG GAGACGAAGG CCTCTATGTG
    GCTCAGGCCC AAAACCCTAG CGGCACTCTC TCTTCCAATG TCATCCTCCA TGTGACGGGT
    AACTGCAGGC CGCCAATCAC AAGAATAAAC TGGATAACGC TGTGTGTCGT CTATGTTAGT
    GTGTCCCTAA TGTACTGGCT ACTCACACAA TAA

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