ORF » Species Summary » Homo sapiens » CCDC141 cDNA ORF clone

CCDC141 cDNA ORF clone, Homo sapiens(human)

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
OHu101864 NM_001316745.2
Latest version!		 Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $307.30
$439.00
OHu89305 XM_017003871.1
Latest version!		 Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OHu89303 XM_017003869.2
Latest version!		 Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu89304 XM_017003870.2
Latest version!		 Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OHu89301 XM_017003867.2
Latest version!		 Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu89302 XM_017003868.2
Latest version!		 Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu21283 NM_173648.4
Latest version!		 Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $265.30
$379.00
OHu78894 XM_011510991.3
Latest version!		 Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu78895 XM_011510992.3
Latest version!		 Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu78896 XM_011510993.3
Latest version!		 Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
View Old Accession Versions >>
OHu78896 XM_011510993.2 Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu101864 NM_001316745.1 Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $307.30
$439.00
OHu78894 XM_011510991.2 Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu89302 XM_017003868.1 Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu78895 XM_011510992.2 Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu89304 XM_017003870.1 Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OHu21283 NM_173648.3 Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $265.30
$379.00
OHu89301 XM_017003867.1 Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu89303 XM_017003869.1 Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
Hide Old Accession Versions >>

ORF Online Only Promotion

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

*Business Day

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

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

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

  • Reference Sequences (Refseq)
    CCDC141 ( NM_001316745.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001303674.1 Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant 2, mRNA.
    Price & Availability↑
    CloneID OHu101864
    Clone ID Related Accession (Same CDS sequence) NM_001316745.2 , NM_001316745.1
    Accession Version NM_001316745.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1959bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-07
    Organism Homo sapiens(human)
    Product coiled-coil domain-containing protein 141 isoform 2
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC092640.3, AL832777.1 and AC093792.2. On Jun 2, 2019 this sequence version replaced NM_001316745.1. Transcript Variant: This variant (2) differs in the 3' UTR, lacks multiple exons in the 3' coding region and its transcription extends past a splice site compared to variant 1. The encoded isoform (2) is shorter and has a distinct C-terminus compared to isoform 1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data because no single transcript was available for the full length of the gene. The transcript structure is predicted based on partial transcript alignments; it is unclear if this exon combination exists in vivo. ##Evidence-Data-START## Transcript exon combination :: AL832777.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##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
    ATGTCCAGCC AAGGAAGTCC TAGTGTTGCG 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 
    GTCTATGATG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCTCTGGT GTCCATGCTT 
    GAAAGAAGAA CAGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTAGAGTTT 
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAGTGCT 
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGG 
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT 
    GAAGGACCTA ATGTGAATCC TGAGTTGACT CAGGGAGCTC ATAGCAGCTG TCTGAAGGTT 
    GACCGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAAC TAGACAAGTA CTTGAAGCAA 
    CAGTGGCAAG AATTGAGTCA AGTTCTGCAG ATATGTCAGT GGGACCAACA AGAAAACCAG 
    GTTACTTGTT GGTTTCAGAA AACTATAAGA AATTTACAGG AACAAAGTCT AGGTTCATCA 
    CTTTCAGACA ATGAGGATCG AATTCATAAG CAAGAGGAAC TGATAATAAA AGCAAAGGAA 
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GAGGCACTGA GAATTCTGCT GTCAAAGGAC 
    TACGTGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TCAGTCAGCT TCAAGAAGAA 
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCGAATGA ATTTTTTAAC 
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA 
    TCAGAGGGTT TAAGTCTGGC TGTTTTGGCA GTGAGGCATG AGGAATTACA CAGAAAAATT 
    AAAGACTGCA CAACTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC 
    TGCAGCTCTC AGGTGTCCGG CATCCATGAG ATGATGGGGT GCATTAAGAG ACGAGTGGAT 
    CATCTGACCG AACAGTGTTC AGCGCACAAG GAATATGCTC TTAAGAAACA ACAACTAACA 
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTA 
    CTTTCTAATG CAATGGATGT TGGTTCTACC CGTTCTGAAT CAGAGAAGAT TTTGAATAAA 
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA 
    ACCATGATGG AGAAAAATGA ATTTGTATCT GATGAAATGG TATCACTTTC CTCTAAAGCT 
    AGATGGCTAG CAGAAGAATT AAACCTATTT GGCCAAAGCA TTGACTATAG ATCGCAAGTC 
    CTGCAAACTT ACGTGGCATT TCTGAAGTCA TCAGAGGAGG TAGAGATGCA GTTTCAGAGC 
    TTAAAAGAAT TTTATGAAAC CGAAATCCCT CAGAAGGAGC AGGATGATGC TAAAGCCAAG 
    CATTGTTCTG ACTCGGCTGA GAAGCAGTGG CAGCTATTTT TAAAGAAGAG TTTTATAACA 
    CAAGATCTAG GGCTTGAGTT CCTTAATTTA ATAAATATGG TAAGAATGGC ATTAAATGGA 
    TCACACCTTC TGCAGGGATA CTCATCAAAG TCAAAATAA

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

    RefSeq NP_001303674.1
    CDS197..2155
    Translation

    Target ORF information:

    RefSeq Version NM_001316745.2
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001316745.2

    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
    ATGTCCAGCC AAGGAAGTCC TAGTGTTGCG 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 
    GTCTATGATG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCTCTGGT GTCCATGCTT 
    GAAAGAAGAA CAGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTAGAGTTT 
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAGTGCT 
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGG 
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT 
    GAAGGACCTA ATGTGAATCC TGAGTTGACT CAGGGAGCTC ATAGCAGCTG TCTGAAGGTT 
    GACCGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAAC TAGACAAGTA CTTGAAGCAA 
    CAGTGGCAAG AATTGAGTCA AGTTCTGCAG ATATGTCAGT GGGACCAACA AGAAAACCAG 
    GTTACTTGTT GGTTTCAGAA AACTATAAGA AATTTACAGG AACAAAGTCT AGGTTCATCA 
    CTTTCAGACA ATGAGGATCG AATTCATAAG CAAGAGGAAC TGATAATAAA AGCAAAGGAA 
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GAGGCACTGA GAATTCTGCT GTCAAAGGAC 
    TACGTGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TCAGTCAGCT TCAAGAAGAA 
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCGAATGA ATTTTTTAAC 
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA 
    TCAGAGGGTT TAAGTCTGGC TGTTTTGGCA GTGAGGCATG AGGAATTACA CAGAAAAATT 
    AAAGACTGCA CAACTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC 
    TGCAGCTCTC AGGTGTCCGG CATCCATGAG ATGATGGGGT GCATTAAGAG ACGAGTGGAT 
    CATCTGACCG AACAGTGTTC AGCGCACAAG GAATATGCTC TTAAGAAACA ACAACTAACA 
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTA 
    CTTTCTAATG CAATGGATGT TGGTTCTACC CGTTCTGAAT CAGAGAAGAT TTTGAATAAA 
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA 
    ACCATGATGG AGAAAAATGA ATTTGTATCT GATGAAATGG TATCACTTTC CTCTAAAGCT 
    AGATGGCTAG CAGAAGAATT AAACCTATTT GGCCAAAGCA TTGACTATAG ATCGCAAGTC 
    CTGCAAACTT ACGTGGCATT TCTGAAGTCA TCAGAGGAGG TAGAGATGCA GTTTCAGAGC 
    TTAAAAGAAT TTTATGAAAC CGAAATCCCT CAGAAGGAGC AGGATGATGC TAAAGCCAAG 
    CATTGTTCTG ACTCGGCTGA GAAGCAGTGG CAGCTATTTT TAAAGAAGAG TTTTATAACA 
    CAAGATCTAG GGCTTGAGTT CCTTAATTTA ATAAATATGG TAAGAATGGC ATTAAATGGA 
    TCACACCTTC TGCAGGGATA CTCATCAAAG TCAAAATAA

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

    CCDC141 ( NM_001316745.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001303674.1 Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant 2, mRNA.
    Price & Availability↑
    CloneID OHu101864
    Clone ID Related Accession (Same CDS sequence) NM_001316745.2 , NM_001316745.1
    Accession Version NM_001316745.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1959bp)
    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 2019-02-24
    Organism Homo sapiens(human)
    Product coiled-coil domain-containing protein 141 isoform 2
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AL832777.1, AC092640.3 and AC093792.2. Transcript Variant: This variant (2) differs in the 3' UTR, lacks multiple exons in the 3' coding region and its transcription extends past a splice site compared to variant 1. The encoded isoform (2) is shorter and has a distinct C-terminus compared to isoform 1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data because no single transcript was available for the full length of the gene. The transcript structure is predicted based on partial transcript alignments; it is unclear if this exon combination exists in vivo. ##Evidence-Data-START## Transcript exon combination :: AL832777.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##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
    ATGTCCAGCC AAGGAAGTCC TAGTGTTGCG 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 
    GTCTATGATG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCTCTGGT GTCCATGCTT 
    GAAAGAAGAA CAGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTAGAGTTT 
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAGTGCT 
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGG 
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT 
    GAAGGACCTA ATGTGAATCC TGAGTTGACT CAGGGAGCTC ATAGCAGCTG TCTGAAGGTT 
    GACCGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAAC TAGACAAGTA CTTGAAGCAA 
    CAGTGGCAAG AATTGAGTCA AGTTCTGCAG ATATGTCAGT GGGACCAACA AGAAAACCAG 
    GTTACTTGTT GGTTTCAGAA AACTATAAGA AATTTACAGG AACAAAGTCT AGGTTCATCA 
    CTTTCAGACA ATGAGGATCG AATTCATAAG CAAGAGGAAC TGATAATAAA AGCAAAGGAA 
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GAGGCACTGA GAATTCTGCT GTCAAAGGAC 
    TACGTGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TCAGTCAGCT TCAAGAAGAA 
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCGAATGA ATTTTTTAAC 
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA 
    TCAGAGGGTT TAAGTCTGGC TGTTTTGGCA GTGAGGCATG AGGAATTACA CAGAAAAATT 
    AAAGACTGCA CAACTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC 
    TGCAGCTCTC AGGTGTCCGG CATCCATGAG ATGATGGGGT GCATTAAGAG ACGAGTGGAT 
    CATCTGACCG AACAGTGTTC AGCGCACAAG GAATATGCTC TTAAGAAACA ACAACTAACA 
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTA 
    CTTTCTAATG CAATGGATGT TGGTTCTACC CGTTCTGAAT CAGAGAAGAT TTTGAATAAA 
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA 
    ACCATGATGG AGAAAAATGA ATTTGTATCT GATGAAATGG TATCACTTTC CTCTAAAGCT 
    AGATGGCTAG CAGAAGAATT AAACCTATTT GGCCAAAGCA TTGACTATAG ATCGCAAGTC 
    CTGCAAACTT ACGTGGCATT TCTGAAGTCA TCAGAGGAGG TAGAGATGCA GTTTCAGAGC 
    TTAAAAGAAT TTTATGAAAC CGAAATCCCT CAGAAGGAGC AGGATGATGC TAAAGCCAAG 
    CATTGTTCTG ACTCGGCTGA GAAGCAGTGG CAGCTATTTT TAAAGAAGAG TTTTATAACA 
    CAAGATCTAG GGCTTGAGTT CCTTAATTTA ATAAATATGG TAAGAATGGC ATTAAATGGA 
    TCACACCTTC TGCAGGGATA CTCATCAAAG TCAAAATAA

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

    RefSeq NP_001303674.1
    CDS119..2077
    Translation

    Target ORF information:

    RefSeq Version NM_001316745.1
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001316745.1

    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
    ATGTCCAGCC AAGGAAGTCC TAGTGTTGCG 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 
    GTCTATGATG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCTCTGGT GTCCATGCTT 
    GAAAGAAGAA CAGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTAGAGTTT 
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAGTGCT 
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGG 
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT 
    GAAGGACCTA ATGTGAATCC TGAGTTGACT CAGGGAGCTC ATAGCAGCTG TCTGAAGGTT 
    GACCGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAAC TAGACAAGTA CTTGAAGCAA 
    CAGTGGCAAG AATTGAGTCA AGTTCTGCAG ATATGTCAGT GGGACCAACA AGAAAACCAG 
    GTTACTTGTT GGTTTCAGAA AACTATAAGA AATTTACAGG AACAAAGTCT AGGTTCATCA 
    CTTTCAGACA ATGAGGATCG AATTCATAAG CAAGAGGAAC TGATAATAAA AGCAAAGGAA 
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GAGGCACTGA GAATTCTGCT GTCAAAGGAC 
    TACGTGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TCAGTCAGCT TCAAGAAGAA 
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCGAATGA ATTTTTTAAC 
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA 
    TCAGAGGGTT TAAGTCTGGC TGTTTTGGCA GTGAGGCATG AGGAATTACA CAGAAAAATT 
    AAAGACTGCA CAACTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC 
    TGCAGCTCTC AGGTGTCCGG CATCCATGAG ATGATGGGGT GCATTAAGAG ACGAGTGGAT 
    CATCTGACCG AACAGTGTTC AGCGCACAAG GAATATGCTC TTAAGAAACA ACAACTAACA 
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTA 
    CTTTCTAATG CAATGGATGT TGGTTCTACC CGTTCTGAAT CAGAGAAGAT TTTGAATAAA 
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA 
    ACCATGATGG AGAAAAATGA ATTTGTATCT GATGAAATGG TATCACTTTC CTCTAAAGCT 
    AGATGGCTAG CAGAAGAATT AAACCTATTT GGCCAAAGCA TTGACTATAG ATCGCAAGTC 
    CTGCAAACTT ACGTGGCATT TCTGAAGTCA TCAGAGGAGG TAGAGATGCA GTTTCAGAGC 
    TTAAAAGAAT TTTATGAAAC CGAAATCCCT CAGAAGGAGC AGGATGATGC TAAAGCCAAG 
    CATTGTTCTG ACTCGGCTGA GAAGCAGTGG CAGCTATTTT TAAAGAAGAG TTTTATAACA 
    CAAGATCTAG GGCTTGAGTT CCTTAATTTA ATAAATATGG TAAGAATGGC ATTAAATGGA 
    TCACACCTTC TGCAGGGATA CTCATCAAAG TCAAAATAA

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

    CCDC141 ( XM_017003871.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016859360.1 Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID OHu89305
    Clone ID Related Accession (Same CDS sequence) XM_017003871.1
    Accession Version XM_017003871.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2649bp)
    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 141 isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    ATGAAGAACA CCATGGAAAA CCAGAAAGCA GAACGGGAAG AACTTAGCCT CCTTCGGCTG 
    GCATGGCAGC TTAAAGCCAC GGAAAGCAAG CCTGGAAAAC AGCAGTGGGC GGCATTCAAA 
    GAGCAACTTA AAAAGACTTC TCACAACTTA AAACTTCTTC AGGAAGCACT TATGCCTGTG 
    TCTGCACTTG ACCTCGGAGG GAGCCTCCAG TTCATTTTAG ATCTACGACA AAAATGGAAT 
    GACATGAAGC CTCAGTTCCA GCAATTGAAT GATGAGGTTC AGTACATTAT GAAAGAATCA 
    GAGGAGTTAA CTGGCAGAGG AGCCCCTGTA AAAGAAAAGT CTCAACAACT GAAGGACCTT 
    ATTCACTTCC ATCAAAAACA GAAAGAGAGA ATCCAGGATT ACGAGGATAT CCTGTACAAG 
    GTGGTCCAGT TCCATCAAGT CAAGGAAGAG CTGGGACGTC TCATCAAATC AAGAGAGCTG 
    GAGTTTGTAG AGCAGCCGAA GGAACTGGGT GATGCCCATG ATGTGCAGAT TCACCTCCGG 
    TGCTCTCAGG AAAAGCAAGC CCGTGTAGAC CATCTCCACA GACTGGCCCT TTCCTTAGGA 
    GTCGACATCA TCTCATCAGT GCAGCGGCCT CACTGCTCTA ATGTTTCTGC AAAGAACCTA 
    CAGCAGCAGC TGGAGCTCCT TGAGGAGGAC AGCATGAAGT GGCGTGCCAA AGCTGAGGAG 
    TATGGACGGA CCCTGTCCCG TAGTGTGGAG TACTGCGCCA TGAGAGACGA GATAAATGAG 
    CTCAAAGACT CATTCAAAGA TATCAAAAAG AAATTCAATA ATTTGAAGTT TAATTACACT 
    AAGAAAAATG AAAAATCTCG GAATCTGAAG GCGCTTAAAT ATCAAATTCA GCAAGTTGAT 
    ATGTATGCTG AAAAAATGCA GGCTTTGAAA AGGAAAATGG AAAAAGTTAG TAATAAAACC 
    TCTGATTCTT TCTTAAATTA TCCAAGTGAT AAAGTTAATG TCCTTTTGGA AGTCATGAAG 
    GATTTGCAAA AACATGTGGA TGACTTTGAC AAAGTTGTGA CAGATTACAA GAAGAATTTG 
    GACCTGACTG AGCATTTCCA GGAGGTGATA GAAGAGTGTC ATTTTTGGTA CGAAGATGCA 
    AGTGCCACAG TTGTAAGAGT TGGAAAATAT TCCACAGAGT GCAAGACAAA GGAAGCTGTG 
    AAAATTCTCC ACCAGCAGTT TAATAAGTTT ATTGCACCCT CAGTGCCGCA GCAAGAAGAA 
    AGGATTCAGG AGGCCACTGA CCTTGCTCAG CACTTATATG GTTTGGAAGA AGGACAGAAA 
    TATATTGAGA AAATAGTGAC AAAACACAAA GAGGTTCTTG AATCTGTGAC TGAATTATGT 
    GAGTCCCTCA CAGAGCTCGA AGAAAAACTG AAGCAGGGAG ATGTTTTAAA GATGAATCCG 
    AATTTGGAAG ACTTCCATTA TGATTACATT GACTTGCTAA AGGAACCAGC AAAAAATAAG 
    CAGACAATAT TCAATGAAGA AAGGAATAAG GGGCAGGTGC AGGTGGCAGA TCTTTTGGGC 
    ATCAATGGAA CAGGGGAAGA GCGACTACCA CAAGACCTGA AGGTGTCCAC TGACAAGGAG 
    GGTGGCGTCC AGGACCTGCT CCTGCCTGAA GACATGCTCT CAGGGGAAGA ATATGAGTGT 
    GTCTCACCTG ATGACATCTC CTTGCCTCCT CTCCCAGGAA GCCCTGAGTC CCCTCTTGCA 
    CCATCTGACA TGGAGGTGGA AGAGCCTGTC AGCTCCTCCC TCAGCCTTCA CATAAGCAGC 
    TATGGGGTGC AGGCTGGGAC CAGCAGCCCA GGGGATGCCC AGGAATCTGT TCTTCCACCA 
    CCTGTTGCCT TTGCGGATGC ATGCAATGAT AAGAGAGAAA CATTTTCAAG TCATTTTGAG 
    AGGCCTTACC TCCAGTTCAA AGCTGAGCCC CCACTAACCT CCAGAGGATT CGTGGAAAAG 
    AGTACTGCCT TACACAGAAT CAGTGCTGAA CATCCAGAGA GCATGATGAG TGAAGTGCAT 
    GAGAGAGCTT TACAGCAGCA CCCTCAGGCT CAGGGTGGTT TGCTAGAAAC ACGGGAGAAA 
    ATGCATGCTG ATAATAACTT CACTAAAACC CAAGATAGGC TGCATGCTTC CTCTGATGCA 
    TTCTCGGGCC TCAGGTTTCA ATCAGGCACC AGCAGGGGCT ATCAGAGGCA AATGGTTCCT 
    CGAGAAGAGA TTAAAAGCAC ATCAGCAAAG AGCAGCGTGG TCAGCCTAGC TGACCAGGCA 
    CCTAATTTCT CCAGGCTCCT GTCTAATGTA ACTGTCATGG AAGGTTCTCC AGTGACTTTG 
    GAAGTTGAAG TAACAGGATT TCCAGAGCCT ACACTGACAT GGTACAAGAA GGGCCAGAAA 
    TTGTCTGCAG ATGGGCACTT ACAGGTTTTA CACAAGGAGA CAAGGCATTC GGTGTTCATT 
    CCAAAGGTAT GCAAGGCAGA CGCAGGCCTC TATGTGGCTC GGGCCCAAAA CTCTAGCGGC 
    GCTCTCTCTT CCAATGTCAT CCTCCACGTG ACAGGTAACT GCAGGCTGCC AATCACAAGA 
    GTAAACTGGA TAACCCTGTG TGTCGTCTAT GTTAGTGTGT CCCTAATGTA CTGGCTCCTC 
    ACACAATAA

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

    RefSeq XP_016859360.1
    CDS275..2923
    Translation

    Target ORF information:

    RefSeq Version XM_017003871.1
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017003871.1

    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
    ATGAAGAACA CCATGGAAAA CCAGAAAGCA GAACGGGAAG AACTTAGCCT CCTTCGGCTG 
    GCATGGCAGC TTAAAGCCAC GGAAAGCAAG CCTGGAAAAC AGCAGTGGGC GGCATTCAAA 
    GAGCAACTTA AAAAGACTTC TCACAACTTA AAACTTCTTC AGGAAGCACT TATGCCTGTG 
    TCTGCACTTG ACCTCGGAGG GAGCCTCCAG TTCATTTTAG ATCTACGACA AAAATGGAAT 
    GACATGAAGC CTCAGTTCCA GCAATTGAAT GATGAGGTTC AGTACATTAT GAAAGAATCA 
    GAGGAGTTAA CTGGCAGAGG AGCCCCTGTA AAAGAAAAGT CTCAACAACT GAAGGACCTT 
    ATTCACTTCC ATCAAAAACA GAAAGAGAGA ATCCAGGATT ACGAGGATAT CCTGTACAAG 
    GTGGTCCAGT TCCATCAAGT CAAGGAAGAG CTGGGACGTC TCATCAAATC AAGAGAGCTG 
    GAGTTTGTAG AGCAGCCGAA GGAACTGGGT GATGCCCATG ATGTGCAGAT TCACCTCCGG 
    TGCTCTCAGG AAAAGCAAGC CCGTGTAGAC CATCTCCACA GACTGGCCCT TTCCTTAGGA 
    GTCGACATCA TCTCATCAGT GCAGCGGCCT CACTGCTCTA ATGTTTCTGC AAAGAACCTA 
    CAGCAGCAGC TGGAGCTCCT TGAGGAGGAC AGCATGAAGT GGCGTGCCAA AGCTGAGGAG 
    TATGGACGGA CCCTGTCCCG TAGTGTGGAG TACTGCGCCA TGAGAGACGA GATAAATGAG 
    CTCAAAGACT CATTCAAAGA TATCAAAAAG AAATTCAATA ATTTGAAGTT TAATTACACT 
    AAGAAAAATG AAAAATCTCG GAATCTGAAG GCGCTTAAAT ATCAAATTCA GCAAGTTGAT 
    ATGTATGCTG AAAAAATGCA GGCTTTGAAA AGGAAAATGG AAAAAGTTAG TAATAAAACC 
    TCTGATTCTT TCTTAAATTA TCCAAGTGAT AAAGTTAATG TCCTTTTGGA AGTCATGAAG 
    GATTTGCAAA AACATGTGGA TGACTTTGAC AAAGTTGTGA CAGATTACAA GAAGAATTTG 
    GACCTGACTG AGCATTTCCA GGAGGTGATA GAAGAGTGTC ATTTTTGGTA CGAAGATGCA 
    AGTGCCACAG TTGTAAGAGT TGGAAAATAT TCCACAGAGT GCAAGACAAA GGAAGCTGTG 
    AAAATTCTCC ACCAGCAGTT TAATAAGTTT ATTGCACCCT CAGTGCCGCA GCAAGAAGAA 
    AGGATTCAGG AGGCCACTGA CCTTGCTCAG CACTTATATG GTTTGGAAGA AGGACAGAAA 
    TATATTGAGA AAATAGTGAC AAAACACAAA GAGGTTCTTG AATCTGTGAC TGAATTATGT 
    GAGTCCCTCA CAGAGCTCGA AGAAAAACTG AAGCAGGGAG ATGTTTTAAA GATGAATCCG 
    AATTTGGAAG ACTTCCATTA TGATTACATT GACTTGCTAA AGGAACCAGC AAAAAATAAG 
    CAGACAATAT TCAATGAAGA AAGGAATAAG GGGCAGGTGC AGGTGGCAGA TCTTTTGGGC 
    ATCAATGGAA CAGGGGAAGA GCGACTACCA CAAGACCTGA AGGTGTCCAC TGACAAGGAG 
    GGTGGCGTCC AGGACCTGCT CCTGCCTGAA GACATGCTCT CAGGGGAAGA ATATGAGTGT 
    GTCTCACCTG ATGACATCTC CTTGCCTCCT CTCCCAGGAA GCCCTGAGTC CCCTCTTGCA 
    CCATCTGACA TGGAGGTGGA AGAGCCTGTC AGCTCCTCCC TCAGCCTTCA CATAAGCAGC 
    TATGGGGTGC AGGCTGGGAC CAGCAGCCCA GGGGATGCCC AGGAATCTGT TCTTCCACCA 
    CCTGTTGCCT TTGCGGATGC ATGCAATGAT AAGAGAGAAA CATTTTCAAG TCATTTTGAG 
    AGGCCTTACC TCCAGTTCAA AGCTGAGCCC CCACTAACCT CCAGAGGATT CGTGGAAAAG 
    AGTACTGCCT TACACAGAAT CAGTGCTGAA CATCCAGAGA GCATGATGAG TGAAGTGCAT 
    GAGAGAGCTT TACAGCAGCA CCCTCAGGCT CAGGGTGGTT TGCTAGAAAC ACGGGAGAAA 
    ATGCATGCTG ATAATAACTT CACTAAAACC CAAGATAGGC TGCATGCTTC CTCTGATGCA 
    TTCTCGGGCC TCAGGTTTCA ATCAGGCACC AGCAGGGGCT ATCAGAGGCA AATGGTTCCT 
    CGAGAAGAGA TTAAAAGCAC ATCAGCAAAG AGCAGCGTGG TCAGCCTAGC TGACCAGGCA 
    CCTAATTTCT CCAGGCTCCT GTCTAATGTA ACTGTCATGG AAGGTTCTCC AGTGACTTTG 
    GAAGTTGAAG TAACAGGATT TCCAGAGCCT ACACTGACAT GGTACAAGAA GGGCCAGAAA 
    TTGTCTGCAG ATGGGCACTT ACAGGTTTTA CACAAGGAGA CAAGGCATTC GGTGTTCATT 
    CCAAAGGTAT GCAAGGCAGA CGCAGGCCTC TATGTGGCTC GGGCCCAAAA CTCTAGCGGC 
    GCTCTCTCTT CCAATGTCAT CCTCCACGTG ACAGGTAACT GCAGGCTGCC AATCACAAGA 
    GTAAACTGGA TAACCCTGTG TGTCGTCTAT GTTAGTGTGT CCCTAATGTA CTGGCTCCTC 
    ACACAATAA

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

    CCDC141 ( XM_017003869.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016859358.1 Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OHu89303
    Clone ID Related Accession (Same CDS sequence) XM_017003869.2 , XM_017003869.1
    Accession Version XM_017003869.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4419bp)
    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 141 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017003869.1. ##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
    4381
    ATGTCCAGCC AAGGAAGTCC TAGTGTTGCG 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 
    GTCTATGATG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCTCTGGT GTCCATGCTT 
    GAAAGAAGAA CAGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTAGAGTTT 
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAGTGCT 
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGG 
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT 
    GAAGGACCTA ATGTGAATCC TGAGTTGACT CAGGGAGCTC ATAGCAGCTG TCTGAAGGTT 
    GACCGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAAC TAGACAAGTA CTTGAAGCAA 
    CAGTGGCAAG AATTGAGTCA AGTTCTGCAG ATATGTCAGT GGGACCAACA AGAAAACCAG 
    GTTACTTGTT GGTTTCAGAA AACTATAAGA AATTTACAGG AACAAAGTCT AGGTTCATCA 
    CTTTCAGACA ATGAGGATCG AATTCATAAG CAAGAGGAAC TGATAATAAA AGCAAAGGAA 
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GAGGCACTGA GAATTCTGCT GTCAAAGGAC 
    TACGTGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TCAGTCAGCT TCAAGAAGAA 
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCGAATGA ATTTTTTAAC 
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA 
    TCAGAGGGTT TAAGTCTGGC TGTTTTGGCA GTGAGGCATG AGGAATTACA CAGAAAAATT 
    AAAGACTGCA CAACTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC 
    TGCAGCTCTC AGGTGTCCGG CATCCATGAG ATGATGGGGT GCATTAAGAG ACGAGTGGAT 
    CATCTGACCG AACAGTGTTC AGCGCACAAG GAATATGCTC TTAAGAAACA ACAACTAACA 
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTA 
    CTTTCTAATG CAATGGATGT TGGTTCTACC CGTTCTGAAT CAGAGAAGAT TTTGAATAAA 
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA 
    ACCATGATGG AGAAAAATGA ATTTGTATCT GATGAAATGG TATCACTTTC CTCTAAAGCT 
    AGATGGCTAG CAGAAGAATT AAACCTATTT GGCCAAAGCA TTGACTATAG ATCGCAAGTC 
    CTGCAAACTT ACGTGGCATT TCTGAAGTCA TCAGAGGAGG TAGAGATGCA GTTTCAGAGC 
    TTAAAAGAAT TTTATGAAAC CGAAATCCCT CAGAAGGAGC AGGATGATGC TAAAGCCAAG 
    CATTGTTCTG ACTCGGCTGA GAAGCAGTGG CAGCTATTTT TAAAGAAGAG TTTTATAACA 
    CAAGATCTAG GGCTTGAGTT CCTTAATTTA ATAAATATGG CAAAAGAGAA CGAGATATTA 
    GATGTGAAAA ATGAAGTGTA CCTCATGAAG AACACCATGG AAAACCAGAA AGCAGAACGG 
    GAAGAACTTA GCCTCCTTCG GCTGGCATGG CAGCTTAAAG CCACGGAAAG CAAGCCTGGA 
    AAACAGCAGT GGGCGGCATT CAAAGAGCAA CTTAAAAAGA CTTCTCACAA CTTAAAACTT 
    CTTCAGGAAG CACTTATGCC TGTGTCTGCA CTTGACCTCG GAGGGAGCCT CCAGTTCATT 
    TTAGATCTAC GACAAAAATG GAATGACATG AAGCCTCAGT TCCAGCAATT GAATGATGAG 
    GTTCAGTACA TTATGAAAGA ATCAGAGGAG TTAACTGGCA GAGGAGCCCC TGTAAAAGAA 
    AAGTCTCAAC AACTGAAGGA CCTTATTCAC TTCCATCAAA AACAGAAAGA GAGAATCCAG 
    GATTACGAGG ATATCCTGTA CAAGGTGGTC CAGTTCCATC AAGTCAAGGA AGAGCTGGGA 
    CGTCTCATCA AATCAAGAGA GCTGGAGTTT GTAGAGCAGC CGAAGGAACT GGGTGATGCC 
    CATGATGTGC AGATTCACCT CCGGTGCTCT CAGGAAAAGC AAGCCCGTGT AGACCATCTC 
    CACAGACTGG CCCTTTCCTT AGGAGTCGAC ATCATCTCAT CAGTGCAGCG GCCTCACTGC 
    TCTAATGTTT CTGCAAAGAA CCTACAGCAG CAGCTGGAGC TCCTTGAGGA GGACAGCATG 
    AAGTGGCGTG CCAAAGCTGA GGAGTATGGA CGGACCCTGT CCCGTAGTGT GGAGTACTGC 
    GCCATGAGAG ACGAGATAAA TGAGCTCAAA GACTCATTCA AAGATATCAA AAAGAAATTC 
    AATAATTTGA AGTTTAATTA CACTAAGAAA AATGAAAAAT CTCGGAATCT GAAGGCGCTT 
    AAATATCAAA TTCAGCAAGT TGATATGTAT GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA 
    ATGGAAAAAG TTAGTAATAA AACCTCTGAT TCTTTCTTAA ATTATCCAAG TGATAAAGTT 
    AATGTCCTTT TGGAAGTCAT GAAGGATTTG CAAAAACATG TGGATGACTT TGACAAAGTT 
    GTGACAGATT ACAAGAAGAA TTTGGACCTG ACTGAGCATT TCCAGGAGGT GATAGAAGAG 
    TGTCATTTTT GGTACGAAGA TGCAAGTGCC ACAGTTGTAA GAGTTGGAAA ATATTCCACA 
    GAGTGCAAGA CAAAGGAAGC TGTGAAAATT CTCCACCAGC AGTTTAATAA GTTTATTGCA 
    CCCTCAGTGC CGCAGCAAGA AGAAAGGATT CAGGAGGCCA CTGACCTTGC TCAGCACTTA 
    TATGGTTTGG AAGAAGGACA GAAATATATT GAGAAAATAG TGACAAAACA CAAAGAGGTT 
    CTTGAATCTG TGACTGAATT ATGTGAGTCC CTCACAGAGC TCGAAGAAAA ACTGAAGCAG 
    GGAGATGTTT TAAAGATGAA TCCGAATTTG GAAGACTTCC ATTATGATTA CATTGACTTG 
    CTAAAGGAAC CAGCAAAAAA TAAGCAGACA ATATTCAATG AAGAAAGGAA TAAGGGGCAG 
    GTGCAGGTGG CAGATCTTTT GGGCATCAAT GGAACAGGGG AAGAGCGACT ACCACAAGAC 
    CTGAAGGTGT CCACTGACAA GGAGGGTGGC GTCCAGGACC TGCTCCTGCC TGAAGACATG 
    CTCTCAGGGG AAGAATATGA GTGTGTCTCA CCTGATGACA TCTCCTTGCC TCCTCTCCCA 
    GGAAGCCCTG AGTCCCCTCT TGCACCATCT GACATGGAGG TGGAAGAGCC TGTCAGCTCC 
    TCCCTCAGCC TTCACATAAG CAGCTATGGG GTGCAGGCTG GGACCAGCAG CCCAGGGGAT 
    GCCCAGGAAT CTGTTCTTCC ACCACCTGTT GCCTTTGCGG ATGCATGCAA TGATAAGAGA 
    GAAACATTTT CAAGTCATTT TGAGAGGCCT TACCTCCAGT TCAAAGCTGA GCCCCCACTA 
    ACCTCCAGAG GATTCGTGGA AAAGAGTACT GCCTTACACA GAATCAGTGC TGAACATCCA 
    GAGAGCATGA TGAGTGAAGT GCATGAGAGA GCTTTACAGC AGCACCCTCA GGCTCAGGGT 
    GGTTTGCTAG AAACACGGGA GAAAATGCAT GCTGATAATA ACTTCACTAA AACCCAAGAT 
    AGGCTGCATG CTTCCTCTGA TGCATTCTCG GGCCTCAGGT TTCAATCAGG CACCAGCAGG 
    GGCTATCAGA GGCAAATGGT TCCTCGAGAA GAGATTAAAA GCACATCAGC AAAGAGCAGC 
    GTGGTCAGCC TAGCTGACCA GGCACCTAAT TTCTCCAGGC TCCTGTCTAA TGTAACTGTC 
    ATGGAAGGTT CTCCAGTGAC TTTGGAAGTT GAAGTAACAG GATTTCCAGA GCCTACACTG 
    ACATGGTACA AGAAGGGCCA GAAATTGTCT GCAGATGGGC ACTTACAGGT TTTACACAAG 
    GAGACAAGGC ATTCGGTGTT CATTCCAAAG TTCTGCTGA

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

    RefSeq XP_016859358.1
    CDS189..4607
    Translation

    Target ORF information:

    RefSeq Version XM_017003869.2
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017003869.2

    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
    ATGTCCAGCC AAGGAAGTCC TAGTGTTGCG 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 
    GTCTATGATG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCTCTGGT GTCCATGCTT 
    GAAAGAAGAA CAGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTAGAGTTT 
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAGTGCT 
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGG 
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT 
    GAAGGACCTA ATGTGAATCC TGAGTTGACT CAGGGAGCTC ATAGCAGCTG TCTGAAGGTT 
    GACCGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAAC TAGACAAGTA CTTGAAGCAA 
    CAGTGGCAAG AATTGAGTCA AGTTCTGCAG ATATGTCAGT GGGACCAACA AGAAAACCAG 
    GTTACTTGTT GGTTTCAGAA AACTATAAGA AATTTACAGG AACAAAGTCT AGGTTCATCA 
    CTTTCAGACA ATGAGGATCG AATTCATAAG CAAGAGGAAC TGATAATAAA AGCAAAGGAA 
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GAGGCACTGA GAATTCTGCT GTCAAAGGAC 
    TACGTGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TCAGTCAGCT TCAAGAAGAA 
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCGAATGA ATTTTTTAAC 
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA 
    TCAGAGGGTT TAAGTCTGGC TGTTTTGGCA GTGAGGCATG AGGAATTACA CAGAAAAATT 
    AAAGACTGCA CAACTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC 
    TGCAGCTCTC AGGTGTCCGG CATCCATGAG ATGATGGGGT GCATTAAGAG ACGAGTGGAT 
    CATCTGACCG AACAGTGTTC AGCGCACAAG GAATATGCTC TTAAGAAACA ACAACTAACA 
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTA 
    CTTTCTAATG CAATGGATGT TGGTTCTACC CGTTCTGAAT CAGAGAAGAT TTTGAATAAA 
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA 
    ACCATGATGG AGAAAAATGA ATTTGTATCT GATGAAATGG TATCACTTTC CTCTAAAGCT 
    AGATGGCTAG CAGAAGAATT AAACCTATTT GGCCAAAGCA TTGACTATAG ATCGCAAGTC 
    CTGCAAACTT ACGTGGCATT TCTGAAGTCA TCAGAGGAGG TAGAGATGCA GTTTCAGAGC 
    TTAAAAGAAT TTTATGAAAC CGAAATCCCT CAGAAGGAGC AGGATGATGC TAAAGCCAAG 
    CATTGTTCTG ACTCGGCTGA GAAGCAGTGG CAGCTATTTT TAAAGAAGAG TTTTATAACA 
    CAAGATCTAG GGCTTGAGTT CCTTAATTTA ATAAATATGG CAAAAGAGAA CGAGATATTA 
    GATGTGAAAA ATGAAGTGTA CCTCATGAAG AACACCATGG AAAACCAGAA AGCAGAACGG 
    GAAGAACTTA GCCTCCTTCG GCTGGCATGG CAGCTTAAAG CCACGGAAAG CAAGCCTGGA 
    AAACAGCAGT GGGCGGCATT CAAAGAGCAA CTTAAAAAGA CTTCTCACAA CTTAAAACTT 
    CTTCAGGAAG CACTTATGCC TGTGTCTGCA CTTGACCTCG GAGGGAGCCT CCAGTTCATT 
    TTAGATCTAC GACAAAAATG GAATGACATG AAGCCTCAGT TCCAGCAATT GAATGATGAG 
    GTTCAGTACA TTATGAAAGA ATCAGAGGAG TTAACTGGCA GAGGAGCCCC TGTAAAAGAA 
    AAGTCTCAAC AACTGAAGGA CCTTATTCAC TTCCATCAAA AACAGAAAGA GAGAATCCAG 
    GATTACGAGG ATATCCTGTA CAAGGTGGTC CAGTTCCATC AAGTCAAGGA AGAGCTGGGA 
    CGTCTCATCA AATCAAGAGA GCTGGAGTTT GTAGAGCAGC CGAAGGAACT GGGTGATGCC 
    CATGATGTGC AGATTCACCT CCGGTGCTCT CAGGAAAAGC AAGCCCGTGT AGACCATCTC 
    CACAGACTGG CCCTTTCCTT AGGAGTCGAC ATCATCTCAT CAGTGCAGCG GCCTCACTGC 
    TCTAATGTTT CTGCAAAGAA CCTACAGCAG CAGCTGGAGC TCCTTGAGGA GGACAGCATG 
    AAGTGGCGTG CCAAAGCTGA GGAGTATGGA CGGACCCTGT CCCGTAGTGT GGAGTACTGC 
    GCCATGAGAG ACGAGATAAA TGAGCTCAAA GACTCATTCA AAGATATCAA AAAGAAATTC 
    AATAATTTGA AGTTTAATTA CACTAAGAAA AATGAAAAAT CTCGGAATCT GAAGGCGCTT 
    AAATATCAAA TTCAGCAAGT TGATATGTAT GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA 
    ATGGAAAAAG TTAGTAATAA AACCTCTGAT TCTTTCTTAA ATTATCCAAG TGATAAAGTT 
    AATGTCCTTT TGGAAGTCAT GAAGGATTTG CAAAAACATG TGGATGACTT TGACAAAGTT 
    GTGACAGATT ACAAGAAGAA TTTGGACCTG ACTGAGCATT TCCAGGAGGT GATAGAAGAG 
    TGTCATTTTT GGTACGAAGA TGCAAGTGCC ACAGTTGTAA GAGTTGGAAA ATATTCCACA 
    GAGTGCAAGA CAAAGGAAGC TGTGAAAATT CTCCACCAGC AGTTTAATAA GTTTATTGCA 
    CCCTCAGTGC CGCAGCAAGA AGAAAGGATT CAGGAGGCCA CTGACCTTGC TCAGCACTTA 
    TATGGTTTGG AAGAAGGACA GAAATATATT GAGAAAATAG TGACAAAACA CAAAGAGGTT 
    CTTGAATCTG TGACTGAATT ATGTGAGTCC CTCACAGAGC TCGAAGAAAA ACTGAAGCAG 
    GGAGATGTTT TAAAGATGAA TCCGAATTTG GAAGACTTCC ATTATGATTA CATTGACTTG 
    CTAAAGGAAC CAGCAAAAAA TAAGCAGACA ATATTCAATG AAGAAAGGAA TAAGGGGCAG 
    GTGCAGGTGG CAGATCTTTT GGGCATCAAT GGAACAGGGG AAGAGCGACT ACCACAAGAC 
    CTGAAGGTGT CCACTGACAA GGAGGGTGGC GTCCAGGACC TGCTCCTGCC TGAAGACATG 
    CTCTCAGGGG AAGAATATGA GTGTGTCTCA CCTGATGACA TCTCCTTGCC TCCTCTCCCA 
    GGAAGCCCTG AGTCCCCTCT TGCACCATCT GACATGGAGG TGGAAGAGCC TGTCAGCTCC 
    TCCCTCAGCC TTCACATAAG CAGCTATGGG GTGCAGGCTG GGACCAGCAG CCCAGGGGAT 
    GCCCAGGAAT CTGTTCTTCC ACCACCTGTT GCCTTTGCGG ATGCATGCAA TGATAAGAGA 
    GAAACATTTT CAAGTCATTT TGAGAGGCCT TACCTCCAGT TCAAAGCTGA GCCCCCACTA 
    ACCTCCAGAG GATTCGTGGA AAAGAGTACT GCCTTACACA GAATCAGTGC TGAACATCCA 
    GAGAGCATGA TGAGTGAAGT GCATGAGAGA GCTTTACAGC AGCACCCTCA GGCTCAGGGT 
    GGTTTGCTAG AAACACGGGA GAAAATGCAT GCTGATAATA ACTTCACTAA AACCCAAGAT 
    AGGCTGCATG CTTCCTCTGA TGCATTCTCG GGCCTCAGGT TTCAATCAGG CACCAGCAGG 
    GGCTATCAGA GGCAAATGGT TCCTCGAGAA GAGATTAAAA GCACATCAGC AAAGAGCAGC 
    GTGGTCAGCC TAGCTGACCA GGCACCTAAT TTCTCCAGGC TCCTGTCTAA TGTAACTGTC 
    ATGGAAGGTT CTCCAGTGAC TTTGGAAGTT GAAGTAACAG GATTTCCAGA GCCTACACTG 
    ACATGGTACA AGAAGGGCCA GAAATTGTCT GCAGATGGGC ACTTACAGGT TTTACACAAG 
    GAGACAAGGC ATTCGGTGTT CATTCCAAAG TTCTGCTGA

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

    CCDC141 ( XM_017003869.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016859358.1 Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OHu89303
    Clone ID Related Accession (Same CDS sequence) XM_017003869.2 , XM_017003869.1
    Accession Version XM_017003869.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4419bp)
    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 141 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) 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 :: 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
    4381
    ATGTCCAGCC AAGGAAGTCC TAGTGTTGCG 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 
    GTCTATGATG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCTCTGGT GTCCATGCTT 
    GAAAGAAGAA CAGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTAGAGTTT 
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAGTGCT 
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGG 
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT 
    GAAGGACCTA ATGTGAATCC TGAGTTGACT CAGGGAGCTC ATAGCAGCTG TCTGAAGGTT 
    GACCGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAAC TAGACAAGTA CTTGAAGCAA 
    CAGTGGCAAG AATTGAGTCA AGTTCTGCAG ATATGTCAGT GGGACCAACA AGAAAACCAG 
    GTTACTTGTT GGTTTCAGAA AACTATAAGA AATTTACAGG AACAAAGTCT AGGTTCATCA 
    CTTTCAGACA ATGAGGATCG AATTCATAAG CAAGAGGAAC TGATAATAAA AGCAAAGGAA 
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GAGGCACTGA GAATTCTGCT GTCAAAGGAC 
    TACGTGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TCAGTCAGCT TCAAGAAGAA 
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCGAATGA ATTTTTTAAC 
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA 
    TCAGAGGGTT TAAGTCTGGC TGTTTTGGCA GTGAGGCATG AGGAATTACA CAGAAAAATT 
    AAAGACTGCA CAACTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC 
    TGCAGCTCTC AGGTGTCCGG CATCCATGAG ATGATGGGGT GCATTAAGAG ACGAGTGGAT 
    CATCTGACCG AACAGTGTTC AGCGCACAAG GAATATGCTC TTAAGAAACA ACAACTAACA 
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTA 
    CTTTCTAATG CAATGGATGT TGGTTCTACC CGTTCTGAAT CAGAGAAGAT TTTGAATAAA 
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA 
    ACCATGATGG AGAAAAATGA ATTTGTATCT GATGAAATGG TATCACTTTC CTCTAAAGCT 
    AGATGGCTAG CAGAAGAATT AAACCTATTT GGCCAAAGCA TTGACTATAG ATCGCAAGTC 
    CTGCAAACTT ACGTGGCATT TCTGAAGTCA TCAGAGGAGG TAGAGATGCA GTTTCAGAGC 
    TTAAAAGAAT TTTATGAAAC CGAAATCCCT CAGAAGGAGC AGGATGATGC TAAAGCCAAG 
    CATTGTTCTG ACTCGGCTGA GAAGCAGTGG CAGCTATTTT TAAAGAAGAG TTTTATAACA 
    CAAGATCTAG GGCTTGAGTT CCTTAATTTA ATAAATATGG CAAAAGAGAA CGAGATATTA 
    GATGTGAAAA ATGAAGTGTA CCTCATGAAG AACACCATGG AAAACCAGAA AGCAGAACGG 
    GAAGAACTTA GCCTCCTTCG GCTGGCATGG CAGCTTAAAG CCACGGAAAG CAAGCCTGGA 
    AAACAGCAGT GGGCGGCATT CAAAGAGCAA CTTAAAAAGA CTTCTCACAA CTTAAAACTT 
    CTTCAGGAAG CACTTATGCC TGTGTCTGCA CTTGACCTCG GAGGGAGCCT CCAGTTCATT 
    TTAGATCTAC GACAAAAATG GAATGACATG AAGCCTCAGT TCCAGCAATT GAATGATGAG 
    GTTCAGTACA TTATGAAAGA ATCAGAGGAG TTAACTGGCA GAGGAGCCCC TGTAAAAGAA 
    AAGTCTCAAC AACTGAAGGA CCTTATTCAC TTCCATCAAA AACAGAAAGA GAGAATCCAG 
    GATTACGAGG ATATCCTGTA CAAGGTGGTC CAGTTCCATC AAGTCAAGGA AGAGCTGGGA 
    CGTCTCATCA AATCAAGAGA GCTGGAGTTT GTAGAGCAGC CGAAGGAACT GGGTGATGCC 
    CATGATGTGC AGATTCACCT CCGGTGCTCT CAGGAAAAGC AAGCCCGTGT AGACCATCTC 
    CACAGACTGG CCCTTTCCTT AGGAGTCGAC ATCATCTCAT CAGTGCAGCG GCCTCACTGC 
    TCTAATGTTT CTGCAAAGAA CCTACAGCAG CAGCTGGAGC TCCTTGAGGA GGACAGCATG 
    AAGTGGCGTG CCAAAGCTGA GGAGTATGGA CGGACCCTGT CCCGTAGTGT GGAGTACTGC 
    GCCATGAGAG ACGAGATAAA TGAGCTCAAA GACTCATTCA AAGATATCAA AAAGAAATTC 
    AATAATTTGA AGTTTAATTA CACTAAGAAA AATGAAAAAT CTCGGAATCT GAAGGCGCTT 
    AAATATCAAA TTCAGCAAGT TGATATGTAT GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA 
    ATGGAAAAAG TTAGTAATAA AACCTCTGAT TCTTTCTTAA ATTATCCAAG TGATAAAGTT 
    AATGTCCTTT TGGAAGTCAT GAAGGATTTG CAAAAACATG TGGATGACTT TGACAAAGTT 
    GTGACAGATT ACAAGAAGAA TTTGGACCTG ACTGAGCATT TCCAGGAGGT GATAGAAGAG 
    TGTCATTTTT GGTACGAAGA TGCAAGTGCC ACAGTTGTAA GAGTTGGAAA ATATTCCACA 
    GAGTGCAAGA CAAAGGAAGC TGTGAAAATT CTCCACCAGC AGTTTAATAA GTTTATTGCA 
    CCCTCAGTGC CGCAGCAAGA AGAAAGGATT CAGGAGGCCA CTGACCTTGC TCAGCACTTA 
    TATGGTTTGG AAGAAGGACA GAAATATATT GAGAAAATAG TGACAAAACA CAAAGAGGTT 
    CTTGAATCTG TGACTGAATT ATGTGAGTCC CTCACAGAGC TCGAAGAAAA ACTGAAGCAG 
    GGAGATGTTT TAAAGATGAA TCCGAATTTG GAAGACTTCC ATTATGATTA CATTGACTTG 
    CTAAAGGAAC CAGCAAAAAA TAAGCAGACA ATATTCAATG AAGAAAGGAA TAAGGGGCAG 
    GTGCAGGTGG CAGATCTTTT GGGCATCAAT GGAACAGGGG AAGAGCGACT ACCACAAGAC 
    CTGAAGGTGT CCACTGACAA GGAGGGTGGC GTCCAGGACC TGCTCCTGCC TGAAGACATG 
    CTCTCAGGGG AAGAATATGA GTGTGTCTCA CCTGATGACA TCTCCTTGCC TCCTCTCCCA 
    GGAAGCCCTG AGTCCCCTCT TGCACCATCT GACATGGAGG TGGAAGAGCC TGTCAGCTCC 
    TCCCTCAGCC TTCACATAAG CAGCTATGGG GTGCAGGCTG GGACCAGCAG CCCAGGGGAT 
    GCCCAGGAAT CTGTTCTTCC ACCACCTGTT GCCTTTGCGG ATGCATGCAA TGATAAGAGA 
    GAAACATTTT CAAGTCATTT TGAGAGGCCT TACCTCCAGT TCAAAGCTGA GCCCCCACTA 
    ACCTCCAGAG GATTCGTGGA AAAGAGTACT GCCTTACACA GAATCAGTGC TGAACATCCA 
    GAGAGCATGA TGAGTGAAGT GCATGAGAGA GCTTTACAGC AGCACCCTCA GGCTCAGGGT 
    GGTTTGCTAG AAACACGGGA GAAAATGCAT GCTGATAATA ACTTCACTAA AACCCAAGAT 
    AGGCTGCATG CTTCCTCTGA TGCATTCTCG GGCCTCAGGT TTCAATCAGG CACCAGCAGG 
    GGCTATCAGA GGCAAATGGT TCCTCGAGAA GAGATTAAAA GCACATCAGC AAAGAGCAGC 
    GTGGTCAGCC TAGCTGACCA GGCACCTAAT TTCTCCAGGC TCCTGTCTAA TGTAACTGTC 
    ATGGAAGGTT CTCCAGTGAC TTTGGAAGTT GAAGTAACAG GATTTCCAGA GCCTACACTG 
    ACATGGTACA AGAAGGGCCA GAAATTGTCT GCAGATGGGC ACTTACAGGT TTTACACAAG 
    GAGACAAGGC ATTCGGTGTT CATTCCAAAG TTCTGCTGA

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

    RefSeq XP_016859358.1
    CDS192..4610
    Translation

    Target ORF information:

    RefSeq Version XM_017003869.1
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017003869.1

    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
    ATGTCCAGCC AAGGAAGTCC TAGTGTTGCG 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 
    GTCTATGATG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCTCTGGT GTCCATGCTT 
    GAAAGAAGAA CAGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTAGAGTTT 
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAGTGCT 
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGG 
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT 
    GAAGGACCTA ATGTGAATCC TGAGTTGACT CAGGGAGCTC ATAGCAGCTG TCTGAAGGTT 
    GACCGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAAC TAGACAAGTA CTTGAAGCAA 
    CAGTGGCAAG AATTGAGTCA AGTTCTGCAG ATATGTCAGT GGGACCAACA AGAAAACCAG 
    GTTACTTGTT GGTTTCAGAA AACTATAAGA AATTTACAGG AACAAAGTCT AGGTTCATCA 
    CTTTCAGACA ATGAGGATCG AATTCATAAG CAAGAGGAAC TGATAATAAA AGCAAAGGAA 
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GAGGCACTGA GAATTCTGCT GTCAAAGGAC 
    TACGTGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TCAGTCAGCT TCAAGAAGAA 
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCGAATGA ATTTTTTAAC 
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA 
    TCAGAGGGTT TAAGTCTGGC TGTTTTGGCA GTGAGGCATG AGGAATTACA CAGAAAAATT 
    AAAGACTGCA CAACTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC 
    TGCAGCTCTC AGGTGTCCGG CATCCATGAG ATGATGGGGT GCATTAAGAG ACGAGTGGAT 
    CATCTGACCG AACAGTGTTC AGCGCACAAG GAATATGCTC TTAAGAAACA ACAACTAACA 
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTA 
    CTTTCTAATG CAATGGATGT TGGTTCTACC CGTTCTGAAT CAGAGAAGAT TTTGAATAAA 
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA 
    ACCATGATGG AGAAAAATGA ATTTGTATCT GATGAAATGG TATCACTTTC CTCTAAAGCT 
    AGATGGCTAG CAGAAGAATT AAACCTATTT GGCCAAAGCA TTGACTATAG ATCGCAAGTC 
    CTGCAAACTT ACGTGGCATT TCTGAAGTCA TCAGAGGAGG TAGAGATGCA GTTTCAGAGC 
    TTAAAAGAAT TTTATGAAAC CGAAATCCCT CAGAAGGAGC AGGATGATGC TAAAGCCAAG 
    CATTGTTCTG ACTCGGCTGA GAAGCAGTGG CAGCTATTTT TAAAGAAGAG TTTTATAACA 
    CAAGATCTAG GGCTTGAGTT CCTTAATTTA ATAAATATGG CAAAAGAGAA CGAGATATTA 
    GATGTGAAAA ATGAAGTGTA CCTCATGAAG AACACCATGG AAAACCAGAA AGCAGAACGG 
    GAAGAACTTA GCCTCCTTCG GCTGGCATGG CAGCTTAAAG CCACGGAAAG CAAGCCTGGA 
    AAACAGCAGT GGGCGGCATT CAAAGAGCAA CTTAAAAAGA CTTCTCACAA CTTAAAACTT 
    CTTCAGGAAG CACTTATGCC TGTGTCTGCA CTTGACCTCG GAGGGAGCCT CCAGTTCATT 
    TTAGATCTAC GACAAAAATG GAATGACATG AAGCCTCAGT TCCAGCAATT GAATGATGAG 
    GTTCAGTACA TTATGAAAGA ATCAGAGGAG TTAACTGGCA GAGGAGCCCC TGTAAAAGAA 
    AAGTCTCAAC AACTGAAGGA CCTTATTCAC TTCCATCAAA AACAGAAAGA GAGAATCCAG 
    GATTACGAGG ATATCCTGTA CAAGGTGGTC CAGTTCCATC AAGTCAAGGA AGAGCTGGGA 
    CGTCTCATCA AATCAAGAGA GCTGGAGTTT GTAGAGCAGC CGAAGGAACT GGGTGATGCC 
    CATGATGTGC AGATTCACCT CCGGTGCTCT CAGGAAAAGC AAGCCCGTGT AGACCATCTC 
    CACAGACTGG CCCTTTCCTT AGGAGTCGAC ATCATCTCAT CAGTGCAGCG GCCTCACTGC 
    TCTAATGTTT CTGCAAAGAA CCTACAGCAG CAGCTGGAGC TCCTTGAGGA GGACAGCATG 
    AAGTGGCGTG CCAAAGCTGA GGAGTATGGA CGGACCCTGT CCCGTAGTGT GGAGTACTGC 
    GCCATGAGAG ACGAGATAAA TGAGCTCAAA GACTCATTCA AAGATATCAA AAAGAAATTC 
    AATAATTTGA AGTTTAATTA CACTAAGAAA AATGAAAAAT CTCGGAATCT GAAGGCGCTT 
    AAATATCAAA TTCAGCAAGT TGATATGTAT GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA 
    ATGGAAAAAG TTAGTAATAA AACCTCTGAT TCTTTCTTAA ATTATCCAAG TGATAAAGTT 
    AATGTCCTTT TGGAAGTCAT GAAGGATTTG CAAAAACATG TGGATGACTT TGACAAAGTT 
    GTGACAGATT ACAAGAAGAA TTTGGACCTG ACTGAGCATT TCCAGGAGGT GATAGAAGAG 
    TGTCATTTTT GGTACGAAGA TGCAAGTGCC ACAGTTGTAA GAGTTGGAAA ATATTCCACA 
    GAGTGCAAGA CAAAGGAAGC TGTGAAAATT CTCCACCAGC AGTTTAATAA GTTTATTGCA 
    CCCTCAGTGC CGCAGCAAGA AGAAAGGATT CAGGAGGCCA CTGACCTTGC TCAGCACTTA 
    TATGGTTTGG AAGAAGGACA GAAATATATT GAGAAAATAG TGACAAAACA CAAAGAGGTT 
    CTTGAATCTG TGACTGAATT ATGTGAGTCC CTCACAGAGC TCGAAGAAAA ACTGAAGCAG 
    GGAGATGTTT TAAAGATGAA TCCGAATTTG GAAGACTTCC ATTATGATTA CATTGACTTG 
    CTAAAGGAAC CAGCAAAAAA TAAGCAGACA ATATTCAATG AAGAAAGGAA TAAGGGGCAG 
    GTGCAGGTGG CAGATCTTTT GGGCATCAAT GGAACAGGGG AAGAGCGACT ACCACAAGAC 
    CTGAAGGTGT CCACTGACAA GGAGGGTGGC GTCCAGGACC TGCTCCTGCC TGAAGACATG 
    CTCTCAGGGG AAGAATATGA GTGTGTCTCA CCTGATGACA TCTCCTTGCC TCCTCTCCCA 
    GGAAGCCCTG AGTCCCCTCT TGCACCATCT GACATGGAGG TGGAAGAGCC TGTCAGCTCC 
    TCCCTCAGCC TTCACATAAG CAGCTATGGG GTGCAGGCTG GGACCAGCAG CCCAGGGGAT 
    GCCCAGGAAT CTGTTCTTCC ACCACCTGTT GCCTTTGCGG ATGCATGCAA TGATAAGAGA 
    GAAACATTTT CAAGTCATTT TGAGAGGCCT TACCTCCAGT TCAAAGCTGA GCCCCCACTA 
    ACCTCCAGAG GATTCGTGGA AAAGAGTACT GCCTTACACA GAATCAGTGC TGAACATCCA 
    GAGAGCATGA TGAGTGAAGT GCATGAGAGA GCTTTACAGC AGCACCCTCA GGCTCAGGGT 
    GGTTTGCTAG AAACACGGGA GAAAATGCAT GCTGATAATA ACTTCACTAA AACCCAAGAT 
    AGGCTGCATG CTTCCTCTGA TGCATTCTCG GGCCTCAGGT TTCAATCAGG CACCAGCAGG 
    GGCTATCAGA GGCAAATGGT TCCTCGAGAA GAGATTAAAA GCACATCAGC AAAGAGCAGC 
    GTGGTCAGCC TAGCTGACCA GGCACCTAAT TTCTCCAGGC TCCTGTCTAA TGTAACTGTC 
    ATGGAAGGTT CTCCAGTGAC TTTGGAAGTT GAAGTAACAG GATTTCCAGA GCCTACACTG 
    ACATGGTACA AGAAGGGCCA GAAATTGTCT GCAGATGGGC ACTTACAGGT TTTACACAAG 
    GAGACAAGGC ATTCGGTGTT CATTCCAAAG TTCTGCTGA

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

    CCDC141 ( XM_017003870.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016859359.1 Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OHu89304
    Clone ID Related Accession (Same CDS sequence) XM_017003870.2 , XM_017003870.1
    Accession Version XM_017003870.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3387bp)
    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 141 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017003870.1. ##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
    ATGATGGGGT GCATTAAGAG ACGAGTGGAT CATCTGACCG AACAGTGTTC AGCGCACAAG 
    GAATATGCTC TTAAGAAACA ACAACTAACA GCCTCAGTGG AGGGTTACCT ACGGAAGGTG 
    GAAATGTCAA TTCAGAAAAT CAGTCCAGTA CTTTCTAATG CAATGGATGT TGGTTCTACC 
    CGTTCTGAAT CAGAGAAGAT TTTGAATAAA TATCTGGAAC TAGATATCCA AGCTAAGGAG 
    ACATCACATG AATTAGAAGC AGCTGCAAAA ACCATGATGG AGAAAAATGA ATTTGTATCT 
    GATGAAATGG TATCACTTTC CTCTAAAGCT AGATGGCTAG CAGAAGAATT AAACCTATTT 
    GGCCAAAGCA TTGACTATAG ATCGCAAGTC CTGCAAACTT ACGTGGCATT TCTGAAGTCA 
    TCAGAGGAGG TAGAGATGCA GTTTCAGAGC TTAAAAGAAT TTTATGAAAC CGAAATCCCT 
    CAGAAGGAGC AGGATGATGC TAAAGCCAAG CATTGTTCTG ACTCGGCTGA GAAGCAGTGG 
    CAGCTATTTT TAAAGAAGAG TTTTATAACA CAAGATCTAG GGCTTGAGTT CCTTAATTTA 
    ATAAATATGG CAAAAGAGAA CGAGATATTA GATGTGAAAA ATGAAGTGTA CCTCATGAAG 
    AACACCATGG AAAACCAGAA AGCAGAACGG GAAGAACTTA GCCTCCTTCG GCTGGCATGG 
    CAGCTTAAAG CCACGGAAAG CAAGCCTGGA AAACAGCAGT GGGCGGCATT CAAAGAGCAA 
    CTTAAAAAGA CTTCTCACAA CTTAAAACTT CTTCAGGAAG CACTTATGCC TGTGTCTGCA 
    CTTGACCTCG GAGGGAGCCT CCAGTTCATT TTAGATCTAC GACAAAAATG GAATGACATG 
    AAGCCTCAGT TCCAGCAATT GAATGATGAG GTTCAGTACA TTATGAAAGA ATCAGAGGAG 
    TTAACTGGCA GAGGAGCCCC TGTAAAAGAA AAGTCTCAAC AACTGAAGGA CCTTATTCAC 
    TTCCATCAAA AACAGAAAGA GAGAATCCAG GATTACGAGG ATATCCTGTA CAAGGTGGTC 
    CAGTTCCATC AAGTCAAGGA AGAGCTGGGA CGTCTCATCA AATCAAGAGA GCTGGAGTTT 
    GTAGAGCAGC CGAAGGAACT GGGTGATGCC CATGATGTGC AGATTCACCT CCGGTGCTCT 
    CAGGAAAAGC AAGCCCGTGT AGACCATCTC CACAGACTGG CCCTTTCCTT AGGAGTCGAC 
    ATCATCTCAT CAGTGCAGCG GCCTCACTGC TCTAATGTTT CTGCAAAGAA CCTACAGCAG 
    CAGCTGGAGC TCCTTGAGGA GGACAGCATG AAGTGGCGTG CCAAAGCTGA GGAGTATGGA 
    CGGACCCTGT CCCGTAGTGT GGAGTACTGC GCCATGAGAG ACGAGATAAA TGAGCTCAAA 
    GACTCATTCA AAGATATCAA AAAGAAATTC AATAATTTGA AGTTTAATTA CACTAAGAAA 
    AATGAAAAAT CTCGGAATCT GAAGGCGCTT AAATATCAAA TTCAGCAAGT TGATATGTAT 
    GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA ATGGAAAAAG TTAGTAATAA AACCTCTGAT 
    TCTTTCTTAA ATTATCCAAG TGATAAAGTT AATGTCCTTT TGGAAGTCAT GAAGGATTTG 
    CAAAAACATG TGGATGACTT TGACAAAGTT GTGACAGATT ACAAGAAGAA TTTGGACCTG 
    ACTGAGCATT TCCAGGAGGT GATAGAAGAG TGTCATTTTT GGTACGAAGA TGCAAGTGCC 
    ACAGTTGTAA GAGTTGGAAA ATATTCCACA GAGTGCAAGA CAAAGGAAGC TGTGAAAATT 
    CTCCACCAGC AGTTTAATAA GTTTATTGCA CCCTCAGTGC CGCAGCAAGA AGAAAGGATT 
    CAGGAGGCCA CTGACCTTGC TCAGCACTTA TATGGTTTGG AAGAAGGACA GAAATATATT 
    GAGAAAATAG TGACAAAACA CAAAGAGGTT CTTGAATCTG TGACTGAATT ATGTGAGTCC 
    CTCACAGAGC TCGAAGAAAA ACTGAAGCAG GGAGATGTTT TAAAGATGAA TCCGAATTTG 
    GAAGACTTCC ATTATGATTA CATTGACTTG CTAAAGGAAC CAGCAAAAAA TAAGCAGACA 
    ATATTCAATG AAGAAAGGAA TAAGGGGCAG GTGCAGGTGG CAGATCTTTT GGGCATCAAT 
    GGAACAGGGG AAGAGCGACT ACCACAAGAC CTGAAGGTGT CCACTGACAA GGAGGGTGGC 
    GTCCAGGACC TGCTCCTGCC TGAAGACATG CTCTCAGGGG AAGAATATGA GTGTGTCTCA 
    CCTGATGACA TCTCCTTGCC TCCTCTCCCA GGAAGCCCTG AGTCCCCTCT TGCACCATCT 
    GACATGGAGG TGGAAGAGCC TGTCAGCTCC TCCCTCAGCC TTCACATAAG CAGCTATGGG 
    GTGCAGGCTG GGACCAGCAG CCCAGGGGAT GCCCAGGAAT CTGTTCTTCC ACCACCTGTT 
    GCCTTTGCGG ATGCATGCAA TGATAAGAGA GAAACATTTT CAAGTCATTT TGAGAGGCCT 
    TACCTCCAGT TCAAAGCTGA GCCCCCACTA ACCTCCAGAG GATTCGTGGA AAAGAGTACT 
    GCCTTACACA GAATCAGTGC TGAACATCCA GAGAGCATGA TGAGTGAAGT GCATGAGAGA 
    GCTTTACAGC AGCACCCTCA GGCTCAGGGT GGTTTGCTAG AAACACGGGA GAAAATGCAT 
    GCTGATAATA ACTTCACTAA AACCCAAGAT AGGCTGCATG CTTCCTCTGA TGCATTCTCG 
    GGCCTCAGGT TTCAATCAGG CACCAGCAGG GGCTATCAGA GGCAAATGGT TCCTCGAGAA 
    GAGATTAAAA GCACATCAGC AAAGAGCAGC GTGGTCAGCC TAGCTGACCA GGCACCTAAT 
    TTCTCCAGGC TCCTGTCTAA TGTAACTGTC ATGGAAGGTT CTCCAGTGAC TTTGGAAGTT 
    GAAGTAACAG GATTTCCAGA GCCTACACTG ACATGGGGTA GCTGGATATC TGAATTTTCA 
    TATGCAATAT TCCAATTTTT AAAGGATTTC AAAAAATTCA GTTTTCCAAA AACATTGTCT 
    GAGCCAGTCA AAGCAATTCT CTCGCCACCA GTTGCCAACT TCTGCTTGAA AGATAAACAG 
    CGCATAATAC CAGCTACTCA GGAGGCTGAG GCAGGCAGAT TGCTTGAAAC CAGGAGTTCA 
    AGACCAGCCT GGGTACAAGA AGGGCCAGAA ATTGTCTGCA GATGGGCACT TACAGGTTTT 
    ACACAAGGAG ACAAGGCATT CGGTGTTCAT TCCAAAGGTA TGCAAGGCAG ACGCAGGCCT 
    CTATGTGGCT CGGGCCCAAA ACTCTAG

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

    RefSeq XP_016859359.1
    CDS306..3692
    Translation

    Target ORF information:

    RefSeq Version XM_017003870.2
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017003870.2

    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
    ATGATGGGGT GCATTAAGAG ACGAGTGGAT CATCTGACCG AACAGTGTTC AGCGCACAAG 
    GAATATGCTC TTAAGAAACA ACAACTAACA GCCTCAGTGG AGGGTTACCT ACGGAAGGTG 
    GAAATGTCAA TTCAGAAAAT CAGTCCAGTA CTTTCTAATG CAATGGATGT TGGTTCTACC 
    CGTTCTGAAT CAGAGAAGAT TTTGAATAAA TATCTGGAAC TAGATATCCA AGCTAAGGAG 
    ACATCACATG AATTAGAAGC AGCTGCAAAA ACCATGATGG AGAAAAATGA ATTTGTATCT 
    GATGAAATGG TATCACTTTC CTCTAAAGCT AGATGGCTAG CAGAAGAATT AAACCTATTT 
    GGCCAAAGCA TTGACTATAG ATCGCAAGTC CTGCAAACTT ACGTGGCATT TCTGAAGTCA 
    TCAGAGGAGG TAGAGATGCA GTTTCAGAGC TTAAAAGAAT TTTATGAAAC CGAAATCCCT 
    CAGAAGGAGC AGGATGATGC TAAAGCCAAG CATTGTTCTG ACTCGGCTGA GAAGCAGTGG 
    CAGCTATTTT TAAAGAAGAG TTTTATAACA CAAGATCTAG GGCTTGAGTT CCTTAATTTA 
    ATAAATATGG CAAAAGAGAA CGAGATATTA GATGTGAAAA ATGAAGTGTA CCTCATGAAG 
    AACACCATGG AAAACCAGAA AGCAGAACGG GAAGAACTTA GCCTCCTTCG GCTGGCATGG 
    CAGCTTAAAG CCACGGAAAG CAAGCCTGGA AAACAGCAGT GGGCGGCATT CAAAGAGCAA 
    CTTAAAAAGA CTTCTCACAA CTTAAAACTT CTTCAGGAAG CACTTATGCC TGTGTCTGCA 
    CTTGACCTCG GAGGGAGCCT CCAGTTCATT TTAGATCTAC GACAAAAATG GAATGACATG 
    AAGCCTCAGT TCCAGCAATT GAATGATGAG GTTCAGTACA TTATGAAAGA ATCAGAGGAG 
    TTAACTGGCA GAGGAGCCCC TGTAAAAGAA AAGTCTCAAC AACTGAAGGA CCTTATTCAC 
    TTCCATCAAA AACAGAAAGA GAGAATCCAG GATTACGAGG ATATCCTGTA CAAGGTGGTC 
    CAGTTCCATC AAGTCAAGGA AGAGCTGGGA CGTCTCATCA AATCAAGAGA GCTGGAGTTT 
    GTAGAGCAGC CGAAGGAACT GGGTGATGCC CATGATGTGC AGATTCACCT CCGGTGCTCT 
    CAGGAAAAGC AAGCCCGTGT AGACCATCTC CACAGACTGG CCCTTTCCTT AGGAGTCGAC 
    ATCATCTCAT CAGTGCAGCG GCCTCACTGC TCTAATGTTT CTGCAAAGAA CCTACAGCAG 
    CAGCTGGAGC TCCTTGAGGA GGACAGCATG AAGTGGCGTG CCAAAGCTGA GGAGTATGGA 
    CGGACCCTGT CCCGTAGTGT GGAGTACTGC GCCATGAGAG ACGAGATAAA TGAGCTCAAA 
    GACTCATTCA AAGATATCAA AAAGAAATTC AATAATTTGA AGTTTAATTA CACTAAGAAA 
    AATGAAAAAT CTCGGAATCT GAAGGCGCTT AAATATCAAA TTCAGCAAGT TGATATGTAT 
    GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA ATGGAAAAAG TTAGTAATAA AACCTCTGAT 
    TCTTTCTTAA ATTATCCAAG TGATAAAGTT AATGTCCTTT TGGAAGTCAT GAAGGATTTG 
    CAAAAACATG TGGATGACTT TGACAAAGTT GTGACAGATT ACAAGAAGAA TTTGGACCTG 
    ACTGAGCATT TCCAGGAGGT GATAGAAGAG TGTCATTTTT GGTACGAAGA TGCAAGTGCC 
    ACAGTTGTAA GAGTTGGAAA ATATTCCACA GAGTGCAAGA CAAAGGAAGC TGTGAAAATT 
    CTCCACCAGC AGTTTAATAA GTTTATTGCA CCCTCAGTGC CGCAGCAAGA AGAAAGGATT 
    CAGGAGGCCA CTGACCTTGC TCAGCACTTA TATGGTTTGG AAGAAGGACA GAAATATATT 
    GAGAAAATAG TGACAAAACA CAAAGAGGTT CTTGAATCTG TGACTGAATT ATGTGAGTCC 
    CTCACAGAGC TCGAAGAAAA ACTGAAGCAG GGAGATGTTT TAAAGATGAA TCCGAATTTG 
    GAAGACTTCC ATTATGATTA CATTGACTTG CTAAAGGAAC CAGCAAAAAA TAAGCAGACA 
    ATATTCAATG AAGAAAGGAA TAAGGGGCAG GTGCAGGTGG CAGATCTTTT GGGCATCAAT 
    GGAACAGGGG AAGAGCGACT ACCACAAGAC CTGAAGGTGT CCACTGACAA GGAGGGTGGC 
    GTCCAGGACC TGCTCCTGCC TGAAGACATG CTCTCAGGGG AAGAATATGA GTGTGTCTCA 
    CCTGATGACA TCTCCTTGCC TCCTCTCCCA GGAAGCCCTG AGTCCCCTCT TGCACCATCT 
    GACATGGAGG TGGAAGAGCC TGTCAGCTCC TCCCTCAGCC TTCACATAAG CAGCTATGGG 
    GTGCAGGCTG GGACCAGCAG CCCAGGGGAT GCCCAGGAAT CTGTTCTTCC ACCACCTGTT 
    GCCTTTGCGG ATGCATGCAA TGATAAGAGA GAAACATTTT CAAGTCATTT TGAGAGGCCT 
    TACCTCCAGT TCAAAGCTGA GCCCCCACTA ACCTCCAGAG GATTCGTGGA AAAGAGTACT 
    GCCTTACACA GAATCAGTGC TGAACATCCA GAGAGCATGA TGAGTGAAGT GCATGAGAGA 
    GCTTTACAGC AGCACCCTCA GGCTCAGGGT GGTTTGCTAG AAACACGGGA GAAAATGCAT 
    GCTGATAATA ACTTCACTAA AACCCAAGAT AGGCTGCATG CTTCCTCTGA TGCATTCTCG 
    GGCCTCAGGT TTCAATCAGG CACCAGCAGG GGCTATCAGA GGCAAATGGT TCCTCGAGAA 
    GAGATTAAAA GCACATCAGC AAAGAGCAGC GTGGTCAGCC TAGCTGACCA GGCACCTAAT 
    TTCTCCAGGC TCCTGTCTAA TGTAACTGTC ATGGAAGGTT CTCCAGTGAC TTTGGAAGTT 
    GAAGTAACAG GATTTCCAGA GCCTACACTG ACATGGGGTA GCTGGATATC TGAATTTTCA 
    TATGCAATAT TCCAATTTTT AAAGGATTTC AAAAAATTCA GTTTTCCAAA AACATTGTCT 
    GAGCCAGTCA AAGCAATTCT CTCGCCACCA GTTGCCAACT TCTGCTTGAA AGATAAACAG 
    CGCATAATAC CAGCTACTCA GGAGGCTGAG GCAGGCAGAT TGCTTGAAAC CAGGAGTTCA 
    AGACCAGCCT GGGTACAAGA AGGGCCAGAA ATTGTCTGCA GATGGGCACT TACAGGTTTT 
    ACACAAGGAG ACAAGGCATT CGGTGTTCAT TCCAAAGGTA TGCAAGGCAG ACGCAGGCCT 
    CTATGTGGCT CGGGCCCAAA ACTCTAG

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

    CCDC141 ( XM_017003870.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016859359.1 Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID OHu89304
    Clone ID Related Accession (Same CDS sequence) XM_017003870.2 , XM_017003870.1
    Accession Version XM_017003870.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3387bp)
    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 141 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) 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 :: 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
    ATGATGGGGT GCATTAAGAG ACGAGTGGAT CATCTGACCG AACAGTGTTC AGCGCACAAG 
    GAATATGCTC TTAAGAAACA ACAACTAACA GCCTCAGTGG AGGGTTACCT ACGGAAGGTG 
    GAAATGTCAA TTCAGAAAAT CAGTCCAGTA CTTTCTAATG CAATGGATGT TGGTTCTACC 
    CGTTCTGAAT CAGAGAAGAT TTTGAATAAA TATCTGGAAC TAGATATCCA AGCTAAGGAG 
    ACATCACATG AATTAGAAGC AGCTGCAAAA ACCATGATGG AGAAAAATGA ATTTGTATCT 
    GATGAAATGG TATCACTTTC CTCTAAAGCT AGATGGCTAG CAGAAGAATT AAACCTATTT 
    GGCCAAAGCA TTGACTATAG ATCGCAAGTC CTGCAAACTT ACGTGGCATT TCTGAAGTCA 
    TCAGAGGAGG TAGAGATGCA GTTTCAGAGC TTAAAAGAAT TTTATGAAAC CGAAATCCCT 
    CAGAAGGAGC AGGATGATGC TAAAGCCAAG CATTGTTCTG ACTCGGCTGA GAAGCAGTGG 
    CAGCTATTTT TAAAGAAGAG TTTTATAACA CAAGATCTAG GGCTTGAGTT CCTTAATTTA 
    ATAAATATGG CAAAAGAGAA CGAGATATTA GATGTGAAAA ATGAAGTGTA CCTCATGAAG 
    AACACCATGG AAAACCAGAA AGCAGAACGG GAAGAACTTA GCCTCCTTCG GCTGGCATGG 
    CAGCTTAAAG CCACGGAAAG CAAGCCTGGA AAACAGCAGT GGGCGGCATT CAAAGAGCAA 
    CTTAAAAAGA CTTCTCACAA CTTAAAACTT CTTCAGGAAG CACTTATGCC TGTGTCTGCA 
    CTTGACCTCG GAGGGAGCCT CCAGTTCATT TTAGATCTAC GACAAAAATG GAATGACATG 
    AAGCCTCAGT TCCAGCAATT GAATGATGAG GTTCAGTACA TTATGAAAGA ATCAGAGGAG 
    TTAACTGGCA GAGGAGCCCC TGTAAAAGAA AAGTCTCAAC AACTGAAGGA CCTTATTCAC 
    TTCCATCAAA AACAGAAAGA GAGAATCCAG GATTACGAGG ATATCCTGTA CAAGGTGGTC 
    CAGTTCCATC AAGTCAAGGA AGAGCTGGGA CGTCTCATCA AATCAAGAGA GCTGGAGTTT 
    GTAGAGCAGC CGAAGGAACT GGGTGATGCC CATGATGTGC AGATTCACCT CCGGTGCTCT 
    CAGGAAAAGC AAGCCCGTGT AGACCATCTC CACAGACTGG CCCTTTCCTT AGGAGTCGAC 
    ATCATCTCAT CAGTGCAGCG GCCTCACTGC TCTAATGTTT CTGCAAAGAA CCTACAGCAG 
    CAGCTGGAGC TCCTTGAGGA GGACAGCATG AAGTGGCGTG CCAAAGCTGA GGAGTATGGA 
    CGGACCCTGT CCCGTAGTGT GGAGTACTGC GCCATGAGAG ACGAGATAAA TGAGCTCAAA 
    GACTCATTCA AAGATATCAA AAAGAAATTC AATAATTTGA AGTTTAATTA CACTAAGAAA 
    AATGAAAAAT CTCGGAATCT GAAGGCGCTT AAATATCAAA TTCAGCAAGT TGATATGTAT 
    GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA ATGGAAAAAG TTAGTAATAA AACCTCTGAT 
    TCTTTCTTAA ATTATCCAAG TGATAAAGTT AATGTCCTTT TGGAAGTCAT GAAGGATTTG 
    CAAAAACATG TGGATGACTT TGACAAAGTT GTGACAGATT ACAAGAAGAA TTTGGACCTG 
    ACTGAGCATT TCCAGGAGGT GATAGAAGAG TGTCATTTTT GGTACGAAGA TGCAAGTGCC 
    ACAGTTGTAA GAGTTGGAAA ATATTCCACA GAGTGCAAGA CAAAGGAAGC TGTGAAAATT 
    CTCCACCAGC AGTTTAATAA GTTTATTGCA CCCTCAGTGC CGCAGCAAGA AGAAAGGATT 
    CAGGAGGCCA CTGACCTTGC TCAGCACTTA TATGGTTTGG AAGAAGGACA GAAATATATT 
    GAGAAAATAG TGACAAAACA CAAAGAGGTT CTTGAATCTG TGACTGAATT ATGTGAGTCC 
    CTCACAGAGC TCGAAGAAAA ACTGAAGCAG GGAGATGTTT TAAAGATGAA TCCGAATTTG 
    GAAGACTTCC ATTATGATTA CATTGACTTG CTAAAGGAAC CAGCAAAAAA TAAGCAGACA 
    ATATTCAATG AAGAAAGGAA TAAGGGGCAG GTGCAGGTGG CAGATCTTTT GGGCATCAAT 
    GGAACAGGGG AAGAGCGACT ACCACAAGAC CTGAAGGTGT CCACTGACAA GGAGGGTGGC 
    GTCCAGGACC TGCTCCTGCC TGAAGACATG CTCTCAGGGG AAGAATATGA GTGTGTCTCA 
    CCTGATGACA TCTCCTTGCC TCCTCTCCCA GGAAGCCCTG AGTCCCCTCT TGCACCATCT 
    GACATGGAGG TGGAAGAGCC TGTCAGCTCC TCCCTCAGCC TTCACATAAG CAGCTATGGG 
    GTGCAGGCTG GGACCAGCAG CCCAGGGGAT GCCCAGGAAT CTGTTCTTCC ACCACCTGTT 
    GCCTTTGCGG ATGCATGCAA TGATAAGAGA GAAACATTTT CAAGTCATTT TGAGAGGCCT 
    TACCTCCAGT TCAAAGCTGA GCCCCCACTA ACCTCCAGAG GATTCGTGGA AAAGAGTACT 
    GCCTTACACA GAATCAGTGC TGAACATCCA GAGAGCATGA TGAGTGAAGT GCATGAGAGA 
    GCTTTACAGC AGCACCCTCA GGCTCAGGGT GGTTTGCTAG AAACACGGGA GAAAATGCAT 
    GCTGATAATA ACTTCACTAA AACCCAAGAT AGGCTGCATG CTTCCTCTGA TGCATTCTCG 
    GGCCTCAGGT TTCAATCAGG CACCAGCAGG GGCTATCAGA GGCAAATGGT TCCTCGAGAA 
    GAGATTAAAA GCACATCAGC AAAGAGCAGC GTGGTCAGCC TAGCTGACCA GGCACCTAAT 
    TTCTCCAGGC TCCTGTCTAA TGTAACTGTC ATGGAAGGTT CTCCAGTGAC TTTGGAAGTT 
    GAAGTAACAG GATTTCCAGA GCCTACACTG ACATGGGGTA GCTGGATATC TGAATTTTCA 
    TATGCAATAT TCCAATTTTT AAAGGATTTC AAAAAATTCA GTTTTCCAAA AACATTGTCT 
    GAGCCAGTCA AAGCAATTCT CTCGCCACCA GTTGCCAACT TCTGCTTGAA AGATAAACAG 
    CGCATAATAC CAGCTACTCA GGAGGCTGAG GCAGGCAGAT TGCTTGAAAC CAGGAGTTCA 
    AGACCAGCCT GGGTACAAGA AGGGCCAGAA ATTGTCTGCA GATGGGCACT TACAGGTTTT 
    ACACAAGGAG ACAAGGCATT CGGTGTTCAT TCCAAAGGTA TGCAAGGCAG ACGCAGGCCT 
    CTATGTGGCT CGGGCCCAAA ACTCTAG

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

    RefSeq XP_016859359.1
    CDS306..3692
    Translation

    Target ORF information:

    RefSeq Version XM_017003870.1
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017003870.1

    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
    ATGATGGGGT GCATTAAGAG ACGAGTGGAT CATCTGACCG AACAGTGTTC AGCGCACAAG 
    GAATATGCTC TTAAGAAACA ACAACTAACA GCCTCAGTGG AGGGTTACCT ACGGAAGGTG 
    GAAATGTCAA TTCAGAAAAT CAGTCCAGTA CTTTCTAATG CAATGGATGT TGGTTCTACC 
    CGTTCTGAAT CAGAGAAGAT TTTGAATAAA TATCTGGAAC TAGATATCCA AGCTAAGGAG 
    ACATCACATG AATTAGAAGC AGCTGCAAAA ACCATGATGG AGAAAAATGA ATTTGTATCT 
    GATGAAATGG TATCACTTTC CTCTAAAGCT AGATGGCTAG CAGAAGAATT AAACCTATTT 
    GGCCAAAGCA TTGACTATAG ATCGCAAGTC CTGCAAACTT ACGTGGCATT TCTGAAGTCA 
    TCAGAGGAGG TAGAGATGCA GTTTCAGAGC TTAAAAGAAT TTTATGAAAC CGAAATCCCT 
    CAGAAGGAGC AGGATGATGC TAAAGCCAAG CATTGTTCTG ACTCGGCTGA GAAGCAGTGG 
    CAGCTATTTT TAAAGAAGAG TTTTATAACA CAAGATCTAG GGCTTGAGTT CCTTAATTTA 
    ATAAATATGG CAAAAGAGAA CGAGATATTA GATGTGAAAA ATGAAGTGTA CCTCATGAAG 
    AACACCATGG AAAACCAGAA AGCAGAACGG GAAGAACTTA GCCTCCTTCG GCTGGCATGG 
    CAGCTTAAAG CCACGGAAAG CAAGCCTGGA AAACAGCAGT GGGCGGCATT CAAAGAGCAA 
    CTTAAAAAGA CTTCTCACAA CTTAAAACTT CTTCAGGAAG CACTTATGCC TGTGTCTGCA 
    CTTGACCTCG GAGGGAGCCT CCAGTTCATT TTAGATCTAC GACAAAAATG GAATGACATG 
    AAGCCTCAGT TCCAGCAATT GAATGATGAG GTTCAGTACA TTATGAAAGA ATCAGAGGAG 
    TTAACTGGCA GAGGAGCCCC TGTAAAAGAA AAGTCTCAAC AACTGAAGGA CCTTATTCAC 
    TTCCATCAAA AACAGAAAGA GAGAATCCAG GATTACGAGG ATATCCTGTA CAAGGTGGTC 
    CAGTTCCATC AAGTCAAGGA AGAGCTGGGA CGTCTCATCA AATCAAGAGA GCTGGAGTTT 
    GTAGAGCAGC CGAAGGAACT GGGTGATGCC CATGATGTGC AGATTCACCT CCGGTGCTCT 
    CAGGAAAAGC AAGCCCGTGT AGACCATCTC CACAGACTGG CCCTTTCCTT AGGAGTCGAC 
    ATCATCTCAT CAGTGCAGCG GCCTCACTGC TCTAATGTTT CTGCAAAGAA CCTACAGCAG 
    CAGCTGGAGC TCCTTGAGGA GGACAGCATG AAGTGGCGTG CCAAAGCTGA GGAGTATGGA 
    CGGACCCTGT CCCGTAGTGT GGAGTACTGC GCCATGAGAG ACGAGATAAA TGAGCTCAAA 
    GACTCATTCA AAGATATCAA AAAGAAATTC AATAATTTGA AGTTTAATTA CACTAAGAAA 
    AATGAAAAAT CTCGGAATCT GAAGGCGCTT AAATATCAAA TTCAGCAAGT TGATATGTAT 
    GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA ATGGAAAAAG TTAGTAATAA AACCTCTGAT 
    TCTTTCTTAA ATTATCCAAG TGATAAAGTT AATGTCCTTT TGGAAGTCAT GAAGGATTTG 
    CAAAAACATG TGGATGACTT TGACAAAGTT GTGACAGATT ACAAGAAGAA TTTGGACCTG 
    ACTGAGCATT TCCAGGAGGT GATAGAAGAG TGTCATTTTT GGTACGAAGA TGCAAGTGCC 
    ACAGTTGTAA GAGTTGGAAA ATATTCCACA GAGTGCAAGA CAAAGGAAGC TGTGAAAATT 
    CTCCACCAGC AGTTTAATAA GTTTATTGCA CCCTCAGTGC CGCAGCAAGA AGAAAGGATT 
    CAGGAGGCCA CTGACCTTGC TCAGCACTTA TATGGTTTGG AAGAAGGACA GAAATATATT 
    GAGAAAATAG TGACAAAACA CAAAGAGGTT CTTGAATCTG TGACTGAATT ATGTGAGTCC 
    CTCACAGAGC TCGAAGAAAA ACTGAAGCAG GGAGATGTTT TAAAGATGAA TCCGAATTTG 
    GAAGACTTCC ATTATGATTA CATTGACTTG CTAAAGGAAC CAGCAAAAAA TAAGCAGACA 
    ATATTCAATG AAGAAAGGAA TAAGGGGCAG GTGCAGGTGG CAGATCTTTT GGGCATCAAT 
    GGAACAGGGG AAGAGCGACT ACCACAAGAC CTGAAGGTGT CCACTGACAA GGAGGGTGGC 
    GTCCAGGACC TGCTCCTGCC TGAAGACATG CTCTCAGGGG AAGAATATGA GTGTGTCTCA 
    CCTGATGACA TCTCCTTGCC TCCTCTCCCA GGAAGCCCTG AGTCCCCTCT TGCACCATCT 
    GACATGGAGG TGGAAGAGCC TGTCAGCTCC TCCCTCAGCC TTCACATAAG CAGCTATGGG 
    GTGCAGGCTG GGACCAGCAG CCCAGGGGAT GCCCAGGAAT CTGTTCTTCC ACCACCTGTT 
    GCCTTTGCGG ATGCATGCAA TGATAAGAGA GAAACATTTT CAAGTCATTT TGAGAGGCCT 
    TACCTCCAGT TCAAAGCTGA GCCCCCACTA ACCTCCAGAG GATTCGTGGA AAAGAGTACT 
    GCCTTACACA GAATCAGTGC TGAACATCCA GAGAGCATGA TGAGTGAAGT GCATGAGAGA 
    GCTTTACAGC AGCACCCTCA GGCTCAGGGT GGTTTGCTAG AAACACGGGA GAAAATGCAT 
    GCTGATAATA ACTTCACTAA AACCCAAGAT AGGCTGCATG CTTCCTCTGA TGCATTCTCG 
    GGCCTCAGGT TTCAATCAGG CACCAGCAGG GGCTATCAGA GGCAAATGGT TCCTCGAGAA 
    GAGATTAAAA GCACATCAGC AAAGAGCAGC GTGGTCAGCC TAGCTGACCA GGCACCTAAT 
    TTCTCCAGGC TCCTGTCTAA TGTAACTGTC ATGGAAGGTT CTCCAGTGAC TTTGGAAGTT 
    GAAGTAACAG GATTTCCAGA GCCTACACTG ACATGGGGTA GCTGGATATC TGAATTTTCA 
    TATGCAATAT TCCAATTTTT AAAGGATTTC AAAAAATTCA GTTTTCCAAA AACATTGTCT 
    GAGCCAGTCA AAGCAATTCT CTCGCCACCA GTTGCCAACT TCTGCTTGAA AGATAAACAG 
    CGCATAATAC CAGCTACTCA GGAGGCTGAG GCAGGCAGAT TGCTTGAAAC CAGGAGTTCA 
    AGACCAGCCT GGGTACAAGA AGGGCCAGAA ATTGTCTGCA GATGGGCACT TACAGGTTTT 
    ACACAAGGAG ACAAGGCATT CGGTGTTCAT TCCAAAGGTA TGCAAGGCAG ACGCAGGCCT 
    CTATGTGGCT CGGGCCCAAA ACTCTAG

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

    CCDC141 ( XM_017003867.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016859356.1 Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OHu89301
    Clone ID Related Accession (Same CDS sequence) XM_017003867.2 , XM_017003867.1
    Accession Version XM_017003867.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4674bp)
    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 141 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017003867.1. ##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
    4381
    4441
    4501
    4561
    4621
    ATGTCCAGCC AAGGAAGTCC TAGTGTTGCG 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 
    GTCTATGATG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCTCTGGT GTCCATGCTT 
    GAAAGAAGAA CAGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTAGAGTTT 
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAGTGCT 
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGG 
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT 
    GAAGGACCTA ATGTGAATCC TGAGTTGACT CAGGGAGCTC ATAGCAGCTG TCTGAAGGTT 
    GACCGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAAC TAGACAAGTA CTTGAAGCAA 
    CAGTGGCAAG AATTGAGTCA AGTTCTGCAG ATATGTCAGT GGGACCAACA AGAAAACCAG 
    GTTACTTGTT GGTTTCAGAA AACTATAAGA AATTTACAGG AACAAAGTCT AGGTTCATCA 
    CTTTCAGACA ATGAGGATCG AATTCATAAG CAAGAGGAAC TGATAATAAA AGCAAAGGAA 
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GAGGCACTGA GAATTCTGCT GTCAAAGGAC 
    TACGTGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TCAGTCAGCT TCAAGAAGAA 
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCGAATGA ATTTTTTAAC 
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA 
    TCAGAGGGTT TAAGTCTGGC TGTTTTGGCA GTGAGGCATG AGGAATTACA CAGAAAAATT 
    AAAGACTGCA CAACTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC 
    TGCAGCTCTC AGGTGTCCGG CATCCATGAG ATGATGGGGT GCATTAAGAG ACGAGTGGAT 
    CATCTGACCG AACAGTGTTC AGCGCACAAG GAATATGCTC TTAAGAAACA ACAACTAACA 
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTA 
    CTTTCTAATG CAATGGATGT TGGTTCTACC CGTTCTGAAT CAGAGAAGAT TTTGAATAAA 
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA 
    ACCATGATGG AGAAAAATGA ATTTGTATCT GATGAAATGG TATCACTTTC CTCTAAAGCT 
    AGATGGCTAG CAGAAGAATT AAACCTATTT GGCCAAAGCA TTGACTATAG ATCGCAAGTC 
    CTGCAAACTT ACGTGGCATT TCTGAAGTCA TCAGAGGAGG TAGAGATGCA GTTTCAGAGC 
    TTAAAAGAAT TTTATGAAAC CGAAATCCCT CAGAAGGAGC AGGATGATGC TAAAGCCAAG 
    CATTGTTCTG ACTCGGCTGA GAAGCAGTGG CAGCTATTTT TAAAGAAGAG TTTTATAACA 
    CAAGATCTAG GGCTTGAGTT CCTTAATTTA ATAAATATGG CAAAAGAGAA CGAGATATTA 
    GATGTGAAAA ATGAAGTGTA CCTCATGAAG AACACCATGG AAAACCAGAA AGCAGAACGG 
    GAAGAACTTA GCCTCCTTCG GCTGGCATGG CAGCTTAAAG CCACGGAAAG CAAGCCTGGA 
    AAACAGCAGT GGGCGGCATT CAAAGAGCAA CTTAAAAAGA CTTCTCACAA CTTAAAACTT 
    CTTCAGGAAG CACTTATGCC TGTGTCTGCA CTTGACCTCG GAGGGAGCCT CCAGTTCATT 
    TTAGATCTAC GACAAAAATG GAATGACATG AAGCCTCAGT TCCAGCAATT GAATGATGAG 
    GTTCAGTACA TTATGAAAGA ATCAGAGGAG TTAACTGGCA GAGGAGCCCC TGTAAAAGAA 
    AAGTCTCAAC AACTGAAGGA CCTTATTCAC TTCCATCAAA AACAGAAAGA GAGAATCCAG 
    GATTACGAGG ATATCCTGTA CAAGGTGGTC CAGTTCCATC AAGTCAAGGA AGAGCTGGGA 
    CGTCTCATCA AATCAAGAGA GCTGGAGTTT GTAGAGCAGC CGAAGGAACT GGGTGATGCC 
    CATGATGTGC AGATTCACCT CCGGTGCTCT CAGGAAAAGC AAGCCCGTGT AGACCATCTC 
    CACAGACTGG CCCTTTCCTT AGGAGTCGAC ATCATCTCAT CAGTGCAGCG GCCTCACTGC 
    TCTAATGTTT CTGCAAAGAA CCTACAGCAG CAGCTGGAGC TCCTTGAGGA GGACAGCATG 
    AAGTGGCGTG CCAAAGCTGA GGAGTATGGA CGGACCCTGT CCCGTAGTGT GGAGTACTGC 
    GCCATGAGAG ACGAGATAAA TGAGCTCAAA GACTCATTCA AAGATATCAA AAAGAAATTC 
    AATAATTTGA AGTTTAATTA CACTAAGAAA AATGAAAAAT CTCGGAATCT GAAGGCGCTT 
    AAATATCAAA TTCAGCAAGT TGATATGTAT GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA 
    ATGGAAAAAG TTAGTAATAA AACCTCTGAT TCTTTCTTAA ATTATCCAAG TGATAAAGTT 
    AATGTCCTTT TGGAAGTCAT GAAGGATTTG CAAAAACATG TGGATGACTT TGACAAAGTT 
    GTGACAGATT ACAAGAAGAA TTTGGACCTG ACTGAGCATT TCCAGGAGGT GATAGAAGAG 
    TGTCATTTTT GGTACGAAGA TGCAAGTGCC ACAGTTGTAA GAGTTGGAAA ATATTCCACA 
    GAGTGCAAGA CAAAGGAAGC TGTGAAAATT CTCCACCAGC AGTTTAATAA GTTTATTGCA 
    CCCTCAGTGC CGCAGCAAGA AGAAAGGATT CAGGAGGCCA CTGACCTTGC TCAGCACTTA 
    TATGGTTTGG AAGAAGGACA GAAATATATT GAGAAAATAG TGACAAAACA CAAAGAGGTT 
    CTTGAATCTG TGACTGAATT ATGTGAGTCC CTCACAGAGC TCGAAGAAAA ACTGAAGGGA 
    GATGTTTTAA AGATGAATCC GAATTTGGAA GACTTCCATT ATGATTACAT TGACTTGCTA 
    AAGGAACCAG CAAAAAATAA GCAGACAATA TTCAATGAAG AAAGGAATAA GGGGCAGGTG 
    CAGGTGGCAG ATCTTTTGGG CATCAATGGA ACAGGGGAAG AGCGACTACC ACAAGACCTG 
    AAGGTGTCCA CTGACAAGGA GGGTGGCGTC CAGGACCTGC TCCTGCCTGA AGACATGCTC 
    TCAGGGGAAG AATATGAGTG TGTCTCACCT GATGACATCT CCTTGCCTCC TCTCCCAGGA 
    AGCCCTGAGT CCCCTCTTGC ACCATCTGAC ATGGAGGTGG AAGAGCCTGT CAGCTCCTCC 
    CTCAGCCTTC ACATAAGCAG CTATGGGGTG CAGGCTGGGA CCAGCAGCCC AGGGGATGCC 
    CAGGAATCTG TTCTTCCACC ACCTGTTGCC TTTGCGGATG CATGCAATGA TAAGAGAGAA 
    ACATTTTCAA GTCATTTTGA GAGGCCTTAC CTCCAGTTCA AAGCTGAGCC CCCACTAACC 
    TCCAGAGGAT TCGTGGAAAA GAGTACTGCC TTACACAGAA TCAGTGCTGA ACATCCAGAG 
    AGCATGATGA GTGAAGTGCA TGAGAGAGCT TTACAGCAGC ACCCTCAGGC TCAGGGTGGT 
    TTGCTAGAAA CACGGGAGAA AATGCATGCT GATAATAACT TCACTAAAAC CCAAGATAGG 
    CTGCATGCTT CCTCTGATGC ATTCTCGGGC CTCAGGTTTC AATCAGGCAC CAGCAGGGGC 
    TATCAGAGGC AAATGGTTCC TCGAGAAGAG ATTAAAAGCA CATCAGCAAA GAGCAGCGTG 
    GTCAGCCTAG CTGACCAGGC ACCTAATTTC TCCAGGCTCC TGTCTAATGT AACTGTCATG 
    GAAGGTTCTC CAGTGACTTT GGAAGTTGAA GTAACAGGAT TTCCAGAGCC TACACTGACA 
    TGGGGTAGCT GGATATCTGA ATTTTCATAT GCAATATTCC AATTTTTAAA GGATTTCAAA 
    AAATTCAGTT TTCCAAAAAC ATTGTCTGAG CCAGTCAAAG CAATTCTCTC GCCACCAGTT 
    GCCAACTTCT GCTTGAAAGA TAAACAGCGC ATAATACCAG CTACTCAGGA GGCTGAGGCA 
    GGCAGATTGC TTGAAACCAG GAGTTCAAGA CCAGCCTGGG TACAAGAAGG GCCAGAAATT 
    GTCTGCAGAT GGGCACTTAC AGGTTTTACA CAAGGAGACA AGGCATTCGG TGTTCATTCC 
    AAAGGTATGC AAGGCAGACG CAGGCCTCTA TGTGGCTCGG GCCCAAAACT CTAG

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

    RefSeq XP_016859356.1
    CDS191..4864
    Translation

    Target ORF information:

    RefSeq Version XM_017003867.2
    Organism Homo sapiens(human)
    Definition Homo sapiens 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_017003867.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGTCCAGCC AAGGAAGTCC TAGTGTTGCG 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 
    GTCTATGATG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCTCTGGT GTCCATGCTT 
    GAAAGAAGAA CAGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTAGAGTTT 
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAGTGCT 
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGG 
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT 
    GAAGGACCTA ATGTGAATCC TGAGTTGACT CAGGGAGCTC ATAGCAGCTG TCTGAAGGTT 
    GACCGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAAC TAGACAAGTA CTTGAAGCAA 
    CAGTGGCAAG AATTGAGTCA AGTTCTGCAG ATATGTCAGT GGGACCAACA AGAAAACCAG 
    GTTACTTGTT GGTTTCAGAA AACTATAAGA AATTTACAGG AACAAAGTCT AGGTTCATCA 
    CTTTCAGACA ATGAGGATCG AATTCATAAG CAAGAGGAAC TGATAATAAA AGCAAAGGAA 
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GAGGCACTGA GAATTCTGCT GTCAAAGGAC 
    TACGTGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TCAGTCAGCT TCAAGAAGAA 
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCGAATGA ATTTTTTAAC 
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA 
    TCAGAGGGTT TAAGTCTGGC TGTTTTGGCA GTGAGGCATG AGGAATTACA CAGAAAAATT 
    AAAGACTGCA CAACTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC 
    TGCAGCTCTC AGGTGTCCGG CATCCATGAG ATGATGGGGT GCATTAAGAG ACGAGTGGAT 
    CATCTGACCG AACAGTGTTC AGCGCACAAG GAATATGCTC TTAAGAAACA ACAACTAACA 
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTA 
    CTTTCTAATG CAATGGATGT TGGTTCTACC CGTTCTGAAT CAGAGAAGAT TTTGAATAAA 
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA 
    ACCATGATGG AGAAAAATGA ATTTGTATCT GATGAAATGG TATCACTTTC CTCTAAAGCT 
    AGATGGCTAG CAGAAGAATT AAACCTATTT GGCCAAAGCA TTGACTATAG ATCGCAAGTC 
    CTGCAAACTT ACGTGGCATT TCTGAAGTCA TCAGAGGAGG TAGAGATGCA GTTTCAGAGC 
    TTAAAAGAAT TTTATGAAAC CGAAATCCCT CAGAAGGAGC AGGATGATGC TAAAGCCAAG 
    CATTGTTCTG ACTCGGCTGA GAAGCAGTGG CAGCTATTTT TAAAGAAGAG TTTTATAACA 
    CAAGATCTAG GGCTTGAGTT CCTTAATTTA ATAAATATGG CAAAAGAGAA CGAGATATTA 
    GATGTGAAAA ATGAAGTGTA CCTCATGAAG AACACCATGG AAAACCAGAA AGCAGAACGG 
    GAAGAACTTA GCCTCCTTCG GCTGGCATGG CAGCTTAAAG CCACGGAAAG CAAGCCTGGA 
    AAACAGCAGT GGGCGGCATT CAAAGAGCAA CTTAAAAAGA CTTCTCACAA CTTAAAACTT 
    CTTCAGGAAG CACTTATGCC TGTGTCTGCA CTTGACCTCG GAGGGAGCCT CCAGTTCATT 
    TTAGATCTAC GACAAAAATG GAATGACATG AAGCCTCAGT TCCAGCAATT GAATGATGAG 
    GTTCAGTACA TTATGAAAGA ATCAGAGGAG TTAACTGGCA GAGGAGCCCC TGTAAAAGAA 
    AAGTCTCAAC AACTGAAGGA CCTTATTCAC TTCCATCAAA AACAGAAAGA GAGAATCCAG 
    GATTACGAGG ATATCCTGTA CAAGGTGGTC CAGTTCCATC AAGTCAAGGA AGAGCTGGGA 
    CGTCTCATCA AATCAAGAGA GCTGGAGTTT GTAGAGCAGC CGAAGGAACT GGGTGATGCC 
    CATGATGTGC AGATTCACCT CCGGTGCTCT CAGGAAAAGC AAGCCCGTGT AGACCATCTC 
    CACAGACTGG CCCTTTCCTT AGGAGTCGAC ATCATCTCAT CAGTGCAGCG GCCTCACTGC 
    TCTAATGTTT CTGCAAAGAA CCTACAGCAG CAGCTGGAGC TCCTTGAGGA GGACAGCATG 
    AAGTGGCGTG CCAAAGCTGA GGAGTATGGA CGGACCCTGT CCCGTAGTGT GGAGTACTGC 
    GCCATGAGAG ACGAGATAAA TGAGCTCAAA GACTCATTCA AAGATATCAA AAAGAAATTC 
    AATAATTTGA AGTTTAATTA CACTAAGAAA AATGAAAAAT CTCGGAATCT GAAGGCGCTT 
    AAATATCAAA TTCAGCAAGT TGATATGTAT GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA 
    ATGGAAAAAG TTAGTAATAA AACCTCTGAT TCTTTCTTAA ATTATCCAAG TGATAAAGTT 
    AATGTCCTTT TGGAAGTCAT GAAGGATTTG CAAAAACATG TGGATGACTT TGACAAAGTT 
    GTGACAGATT ACAAGAAGAA TTTGGACCTG ACTGAGCATT TCCAGGAGGT GATAGAAGAG 
    TGTCATTTTT GGTACGAAGA TGCAAGTGCC ACAGTTGTAA GAGTTGGAAA ATATTCCACA 
    GAGTGCAAGA CAAAGGAAGC TGTGAAAATT CTCCACCAGC AGTTTAATAA GTTTATTGCA 
    CCCTCAGTGC CGCAGCAAGA AGAAAGGATT CAGGAGGCCA CTGACCTTGC TCAGCACTTA 
    TATGGTTTGG AAGAAGGACA GAAATATATT GAGAAAATAG TGACAAAACA CAAAGAGGTT 
    CTTGAATCTG TGACTGAATT ATGTGAGTCC CTCACAGAGC TCGAAGAAAA ACTGAAGGGA 
    GATGTTTTAA AGATGAATCC GAATTTGGAA GACTTCCATT ATGATTACAT TGACTTGCTA 
    AAGGAACCAG CAAAAAATAA GCAGACAATA TTCAATGAAG AAAGGAATAA GGGGCAGGTG 
    CAGGTGGCAG ATCTTTTGGG CATCAATGGA ACAGGGGAAG AGCGACTACC ACAAGACCTG 
    AAGGTGTCCA CTGACAAGGA GGGTGGCGTC CAGGACCTGC TCCTGCCTGA AGACATGCTC 
    TCAGGGGAAG AATATGAGTG TGTCTCACCT GATGACATCT CCTTGCCTCC TCTCCCAGGA 
    AGCCCTGAGT CCCCTCTTGC ACCATCTGAC ATGGAGGTGG AAGAGCCTGT CAGCTCCTCC 
    CTCAGCCTTC ACATAAGCAG CTATGGGGTG CAGGCTGGGA CCAGCAGCCC AGGGGATGCC 
    CAGGAATCTG TTCTTCCACC ACCTGTTGCC TTTGCGGATG CATGCAATGA TAAGAGAGAA 
    ACATTTTCAA GTCATTTTGA GAGGCCTTAC CTCCAGTTCA AAGCTGAGCC CCCACTAACC 
    TCCAGAGGAT TCGTGGAAAA GAGTACTGCC TTACACAGAA TCAGTGCTGA ACATCCAGAG 
    AGCATGATGA GTGAAGTGCA TGAGAGAGCT TTACAGCAGC ACCCTCAGGC TCAGGGTGGT 
    TTGCTAGAAA CACGGGAGAA AATGCATGCT GATAATAACT TCACTAAAAC CCAAGATAGG 
    CTGCATGCTT CCTCTGATGC ATTCTCGGGC CTCAGGTTTC AATCAGGCAC CAGCAGGGGC 
    TATCAGAGGC AAATGGTTCC TCGAGAAGAG ATTAAAAGCA CATCAGCAAA GAGCAGCGTG 
    GTCAGCCTAG CTGACCAGGC ACCTAATTTC TCCAGGCTCC TGTCTAATGT AACTGTCATG 
    GAAGGTTCTC CAGTGACTTT GGAAGTTGAA GTAACAGGAT TTCCAGAGCC TACACTGACA 
    TGGGGTAGCT GGATATCTGA ATTTTCATAT GCAATATTCC AATTTTTAAA GGATTTCAAA 
    AAATTCAGTT TTCCAAAAAC ATTGTCTGAG CCAGTCAAAG CAATTCTCTC GCCACCAGTT 
    GCCAACTTCT GCTTGAAAGA TAAACAGCGC ATAATACCAG CTACTCAGGA GGCTGAGGCA 
    GGCAGATTGC TTGAAACCAG GAGTTCAAGA CCAGCCTGGG TACAAGAAGG GCCAGAAATT 
    GTCTGCAGAT GGGCACTTAC AGGTTTTACA CAAGGAGACA AGGCATTCGG TGTTCATTCC 
    AAAGGTATGC AAGGCAGACG CAGGCCTCTA TGTGGCTCGG GCCCAAAACT CTAG

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

    CCDC141 ( XM_017003867.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016859356.1 Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OHu89301
    Clone ID Related Accession (Same CDS sequence) XM_017003867.2 , XM_017003867.1
    Accession Version XM_017003867.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4674bp)
    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 141 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) 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 :: 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
    4381
    4441
    4501
    4561
    4621
    ATGTCCAGCC AAGGAAGTCC TAGTGTTGCG 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 
    GTCTATGATG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCTCTGGT GTCCATGCTT 
    GAAAGAAGAA CAGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTAGAGTTT 
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAGTGCT 
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGG 
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT 
    GAAGGACCTA ATGTGAATCC TGAGTTGACT CAGGGAGCTC ATAGCAGCTG TCTGAAGGTT 
    GACCGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAAC TAGACAAGTA CTTGAAGCAA 
    CAGTGGCAAG AATTGAGTCA AGTTCTGCAG ATATGTCAGT GGGACCAACA AGAAAACCAG 
    GTTACTTGTT GGTTTCAGAA AACTATAAGA AATTTACAGG AACAAAGTCT AGGTTCATCA 
    CTTTCAGACA ATGAGGATCG AATTCATAAG CAAGAGGAAC TGATAATAAA AGCAAAGGAA 
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GAGGCACTGA GAATTCTGCT GTCAAAGGAC 
    TACGTGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TCAGTCAGCT TCAAGAAGAA 
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCGAATGA ATTTTTTAAC 
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA 
    TCAGAGGGTT TAAGTCTGGC TGTTTTGGCA GTGAGGCATG AGGAATTACA CAGAAAAATT 
    AAAGACTGCA CAACTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC 
    TGCAGCTCTC AGGTGTCCGG CATCCATGAG ATGATGGGGT GCATTAAGAG ACGAGTGGAT 
    CATCTGACCG AACAGTGTTC AGCGCACAAG GAATATGCTC TTAAGAAACA ACAACTAACA 
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTA 
    CTTTCTAATG CAATGGATGT TGGTTCTACC CGTTCTGAAT CAGAGAAGAT TTTGAATAAA 
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA 
    ACCATGATGG AGAAAAATGA ATTTGTATCT GATGAAATGG TATCACTTTC CTCTAAAGCT 
    AGATGGCTAG CAGAAGAATT AAACCTATTT GGCCAAAGCA TTGACTATAG ATCGCAAGTC 
    CTGCAAACTT ACGTGGCATT TCTGAAGTCA TCAGAGGAGG TAGAGATGCA GTTTCAGAGC 
    TTAAAAGAAT TTTATGAAAC CGAAATCCCT CAGAAGGAGC AGGATGATGC TAAAGCCAAG 
    CATTGTTCTG ACTCGGCTGA GAAGCAGTGG CAGCTATTTT TAAAGAAGAG TTTTATAACA 
    CAAGATCTAG GGCTTGAGTT CCTTAATTTA ATAAATATGG CAAAAGAGAA CGAGATATTA 
    GATGTGAAAA ATGAAGTGTA CCTCATGAAG AACACCATGG AAAACCAGAA AGCAGAACGG 
    GAAGAACTTA GCCTCCTTCG GCTGGCATGG CAGCTTAAAG CCACGGAAAG CAAGCCTGGA 
    AAACAGCAGT GGGCGGCATT CAAAGAGCAA CTTAAAAAGA CTTCTCACAA CTTAAAACTT 
    CTTCAGGAAG CACTTATGCC TGTGTCTGCA CTTGACCTCG GAGGGAGCCT CCAGTTCATT 
    TTAGATCTAC GACAAAAATG GAATGACATG AAGCCTCAGT TCCAGCAATT GAATGATGAG 
    GTTCAGTACA TTATGAAAGA ATCAGAGGAG TTAACTGGCA GAGGAGCCCC TGTAAAAGAA 
    AAGTCTCAAC AACTGAAGGA CCTTATTCAC TTCCATCAAA AACAGAAAGA GAGAATCCAG 
    GATTACGAGG ATATCCTGTA CAAGGTGGTC CAGTTCCATC AAGTCAAGGA AGAGCTGGGA 
    CGTCTCATCA AATCAAGAGA GCTGGAGTTT GTAGAGCAGC CGAAGGAACT GGGTGATGCC 
    CATGATGTGC AGATTCACCT CCGGTGCTCT CAGGAAAAGC AAGCCCGTGT AGACCATCTC 
    CACAGACTGG CCCTTTCCTT AGGAGTCGAC ATCATCTCAT CAGTGCAGCG GCCTCACTGC 
    TCTAATGTTT CTGCAAAGAA CCTACAGCAG CAGCTGGAGC TCCTTGAGGA GGACAGCATG 
    AAGTGGCGTG CCAAAGCTGA GGAGTATGGA CGGACCCTGT CCCGTAGTGT GGAGTACTGC 
    GCCATGAGAG ACGAGATAAA TGAGCTCAAA GACTCATTCA AAGATATCAA AAAGAAATTC 
    AATAATTTGA AGTTTAATTA CACTAAGAAA AATGAAAAAT CTCGGAATCT GAAGGCGCTT 
    AAATATCAAA TTCAGCAAGT TGATATGTAT GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA 
    ATGGAAAAAG TTAGTAATAA AACCTCTGAT TCTTTCTTAA ATTATCCAAG TGATAAAGTT 
    AATGTCCTTT TGGAAGTCAT GAAGGATTTG CAAAAACATG TGGATGACTT TGACAAAGTT 
    GTGACAGATT ACAAGAAGAA TTTGGACCTG ACTGAGCATT TCCAGGAGGT GATAGAAGAG 
    TGTCATTTTT GGTACGAAGA TGCAAGTGCC ACAGTTGTAA GAGTTGGAAA ATATTCCACA 
    GAGTGCAAGA CAAAGGAAGC TGTGAAAATT CTCCACCAGC AGTTTAATAA GTTTATTGCA 
    CCCTCAGTGC CGCAGCAAGA AGAAAGGATT CAGGAGGCCA CTGACCTTGC TCAGCACTTA 
    TATGGTTTGG AAGAAGGACA GAAATATATT GAGAAAATAG TGACAAAACA CAAAGAGGTT 
    CTTGAATCTG TGACTGAATT ATGTGAGTCC CTCACAGAGC TCGAAGAAAA ACTGAAGGGA 
    GATGTTTTAA AGATGAATCC GAATTTGGAA GACTTCCATT ATGATTACAT TGACTTGCTA 
    AAGGAACCAG CAAAAAATAA GCAGACAATA TTCAATGAAG AAAGGAATAA GGGGCAGGTG 
    CAGGTGGCAG ATCTTTTGGG CATCAATGGA ACAGGGGAAG AGCGACTACC ACAAGACCTG 
    AAGGTGTCCA CTGACAAGGA GGGTGGCGTC CAGGACCTGC TCCTGCCTGA AGACATGCTC 
    TCAGGGGAAG AATATGAGTG TGTCTCACCT GATGACATCT CCTTGCCTCC TCTCCCAGGA 
    AGCCCTGAGT CCCCTCTTGC ACCATCTGAC ATGGAGGTGG AAGAGCCTGT CAGCTCCTCC 
    CTCAGCCTTC ACATAAGCAG CTATGGGGTG CAGGCTGGGA CCAGCAGCCC AGGGGATGCC 
    CAGGAATCTG TTCTTCCACC ACCTGTTGCC TTTGCGGATG CATGCAATGA TAAGAGAGAA 
    ACATTTTCAA GTCATTTTGA GAGGCCTTAC CTCCAGTTCA AAGCTGAGCC CCCACTAACC 
    TCCAGAGGAT TCGTGGAAAA GAGTACTGCC TTACACAGAA TCAGTGCTGA ACATCCAGAG 
    AGCATGATGA GTGAAGTGCA TGAGAGAGCT TTACAGCAGC ACCCTCAGGC TCAGGGTGGT 
    TTGCTAGAAA CACGGGAGAA AATGCATGCT GATAATAACT TCACTAAAAC CCAAGATAGG 
    CTGCATGCTT CCTCTGATGC ATTCTCGGGC CTCAGGTTTC AATCAGGCAC CAGCAGGGGC 
    TATCAGAGGC AAATGGTTCC TCGAGAAGAG ATTAAAAGCA CATCAGCAAA GAGCAGCGTG 
    GTCAGCCTAG CTGACCAGGC ACCTAATTTC TCCAGGCTCC TGTCTAATGT AACTGTCATG 
    GAAGGTTCTC CAGTGACTTT GGAAGTTGAA GTAACAGGAT TTCCAGAGCC TACACTGACA 
    TGGGGTAGCT GGATATCTGA ATTTTCATAT GCAATATTCC AATTTTTAAA GGATTTCAAA 
    AAATTCAGTT TTCCAAAAAC ATTGTCTGAG CCAGTCAAAG CAATTCTCTC GCCACCAGTT 
    GCCAACTTCT GCTTGAAAGA TAAACAGCGC ATAATACCAG CTACTCAGGA GGCTGAGGCA 
    GGCAGATTGC TTGAAACCAG GAGTTCAAGA CCAGCCTGGG TACAAGAAGG GCCAGAAATT 
    GTCTGCAGAT GGGCACTTAC AGGTTTTACA CAAGGAGACA AGGCATTCGG TGTTCATTCC 
    AAAGGTATGC AAGGCAGACG CAGGCCTCTA TGTGGCTCGG GCCCAAAACT CTAG

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

    RefSeq XP_016859356.1
    CDS194..4867
    Translation

    Target ORF information:

    RefSeq Version XM_017003867.1
    Organism Homo sapiens(human)
    Definition Homo sapiens 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_017003867.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGTCCAGCC AAGGAAGTCC TAGTGTTGCG 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 
    GTCTATGATG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCTCTGGT GTCCATGCTT 
    GAAAGAAGAA CAGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTAGAGTTT 
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAGTGCT 
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGG 
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT 
    GAAGGACCTA ATGTGAATCC TGAGTTGACT CAGGGAGCTC ATAGCAGCTG TCTGAAGGTT 
    GACCGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAAC TAGACAAGTA CTTGAAGCAA 
    CAGTGGCAAG AATTGAGTCA AGTTCTGCAG ATATGTCAGT GGGACCAACA AGAAAACCAG 
    GTTACTTGTT GGTTTCAGAA AACTATAAGA AATTTACAGG AACAAAGTCT AGGTTCATCA 
    CTTTCAGACA ATGAGGATCG AATTCATAAG CAAGAGGAAC TGATAATAAA AGCAAAGGAA 
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GAGGCACTGA GAATTCTGCT GTCAAAGGAC 
    TACGTGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TCAGTCAGCT TCAAGAAGAA 
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCGAATGA ATTTTTTAAC 
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA 
    TCAGAGGGTT TAAGTCTGGC TGTTTTGGCA GTGAGGCATG AGGAATTACA CAGAAAAATT 
    AAAGACTGCA CAACTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC 
    TGCAGCTCTC AGGTGTCCGG CATCCATGAG ATGATGGGGT GCATTAAGAG ACGAGTGGAT 
    CATCTGACCG AACAGTGTTC AGCGCACAAG GAATATGCTC TTAAGAAACA ACAACTAACA 
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTA 
    CTTTCTAATG CAATGGATGT TGGTTCTACC CGTTCTGAAT CAGAGAAGAT TTTGAATAAA 
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA 
    ACCATGATGG AGAAAAATGA ATTTGTATCT GATGAAATGG TATCACTTTC CTCTAAAGCT 
    AGATGGCTAG CAGAAGAATT AAACCTATTT GGCCAAAGCA TTGACTATAG ATCGCAAGTC 
    CTGCAAACTT ACGTGGCATT TCTGAAGTCA TCAGAGGAGG TAGAGATGCA GTTTCAGAGC 
    TTAAAAGAAT TTTATGAAAC CGAAATCCCT CAGAAGGAGC AGGATGATGC TAAAGCCAAG 
    CATTGTTCTG ACTCGGCTGA GAAGCAGTGG CAGCTATTTT TAAAGAAGAG TTTTATAACA 
    CAAGATCTAG GGCTTGAGTT CCTTAATTTA ATAAATATGG CAAAAGAGAA CGAGATATTA 
    GATGTGAAAA ATGAAGTGTA CCTCATGAAG AACACCATGG AAAACCAGAA AGCAGAACGG 
    GAAGAACTTA GCCTCCTTCG GCTGGCATGG CAGCTTAAAG CCACGGAAAG CAAGCCTGGA 
    AAACAGCAGT GGGCGGCATT CAAAGAGCAA CTTAAAAAGA CTTCTCACAA CTTAAAACTT 
    CTTCAGGAAG CACTTATGCC TGTGTCTGCA CTTGACCTCG GAGGGAGCCT CCAGTTCATT 
    TTAGATCTAC GACAAAAATG GAATGACATG AAGCCTCAGT TCCAGCAATT GAATGATGAG 
    GTTCAGTACA TTATGAAAGA ATCAGAGGAG TTAACTGGCA GAGGAGCCCC TGTAAAAGAA 
    AAGTCTCAAC AACTGAAGGA CCTTATTCAC TTCCATCAAA AACAGAAAGA GAGAATCCAG 
    GATTACGAGG ATATCCTGTA CAAGGTGGTC CAGTTCCATC AAGTCAAGGA AGAGCTGGGA 
    CGTCTCATCA AATCAAGAGA GCTGGAGTTT GTAGAGCAGC CGAAGGAACT GGGTGATGCC 
    CATGATGTGC AGATTCACCT CCGGTGCTCT CAGGAAAAGC AAGCCCGTGT AGACCATCTC 
    CACAGACTGG CCCTTTCCTT AGGAGTCGAC ATCATCTCAT CAGTGCAGCG GCCTCACTGC 
    TCTAATGTTT CTGCAAAGAA CCTACAGCAG CAGCTGGAGC TCCTTGAGGA GGACAGCATG 
    AAGTGGCGTG CCAAAGCTGA GGAGTATGGA CGGACCCTGT CCCGTAGTGT GGAGTACTGC 
    GCCATGAGAG ACGAGATAAA TGAGCTCAAA GACTCATTCA AAGATATCAA AAAGAAATTC 
    AATAATTTGA AGTTTAATTA CACTAAGAAA AATGAAAAAT CTCGGAATCT GAAGGCGCTT 
    AAATATCAAA TTCAGCAAGT TGATATGTAT GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA 
    ATGGAAAAAG TTAGTAATAA AACCTCTGAT TCTTTCTTAA ATTATCCAAG TGATAAAGTT 
    AATGTCCTTT TGGAAGTCAT GAAGGATTTG CAAAAACATG TGGATGACTT TGACAAAGTT 
    GTGACAGATT ACAAGAAGAA TTTGGACCTG ACTGAGCATT TCCAGGAGGT GATAGAAGAG 
    TGTCATTTTT GGTACGAAGA TGCAAGTGCC ACAGTTGTAA GAGTTGGAAA ATATTCCACA 
    GAGTGCAAGA CAAAGGAAGC TGTGAAAATT CTCCACCAGC AGTTTAATAA GTTTATTGCA 
    CCCTCAGTGC CGCAGCAAGA AGAAAGGATT CAGGAGGCCA CTGACCTTGC TCAGCACTTA 
    TATGGTTTGG AAGAAGGACA GAAATATATT GAGAAAATAG TGACAAAACA CAAAGAGGTT 
    CTTGAATCTG TGACTGAATT ATGTGAGTCC CTCACAGAGC TCGAAGAAAA ACTGAAGGGA 
    GATGTTTTAA AGATGAATCC GAATTTGGAA GACTTCCATT ATGATTACAT TGACTTGCTA 
    AAGGAACCAG CAAAAAATAA GCAGACAATA TTCAATGAAG AAAGGAATAA GGGGCAGGTG 
    CAGGTGGCAG ATCTTTTGGG CATCAATGGA ACAGGGGAAG AGCGACTACC ACAAGACCTG 
    AAGGTGTCCA CTGACAAGGA GGGTGGCGTC CAGGACCTGC TCCTGCCTGA AGACATGCTC 
    TCAGGGGAAG AATATGAGTG TGTCTCACCT GATGACATCT CCTTGCCTCC TCTCCCAGGA 
    AGCCCTGAGT CCCCTCTTGC ACCATCTGAC ATGGAGGTGG AAGAGCCTGT CAGCTCCTCC 
    CTCAGCCTTC ACATAAGCAG CTATGGGGTG CAGGCTGGGA CCAGCAGCCC AGGGGATGCC 
    CAGGAATCTG TTCTTCCACC ACCTGTTGCC TTTGCGGATG CATGCAATGA TAAGAGAGAA 
    ACATTTTCAA GTCATTTTGA GAGGCCTTAC CTCCAGTTCA AAGCTGAGCC CCCACTAACC 
    TCCAGAGGAT TCGTGGAAAA GAGTACTGCC TTACACAGAA TCAGTGCTGA ACATCCAGAG 
    AGCATGATGA GTGAAGTGCA TGAGAGAGCT TTACAGCAGC ACCCTCAGGC TCAGGGTGGT 
    TTGCTAGAAA CACGGGAGAA AATGCATGCT GATAATAACT TCACTAAAAC CCAAGATAGG 
    CTGCATGCTT CCTCTGATGC ATTCTCGGGC CTCAGGTTTC AATCAGGCAC CAGCAGGGGC 
    TATCAGAGGC AAATGGTTCC TCGAGAAGAG ATTAAAAGCA CATCAGCAAA GAGCAGCGTG 
    GTCAGCCTAG CTGACCAGGC ACCTAATTTC TCCAGGCTCC TGTCTAATGT AACTGTCATG 
    GAAGGTTCTC CAGTGACTTT GGAAGTTGAA GTAACAGGAT TTCCAGAGCC TACACTGACA 
    TGGGGTAGCT GGATATCTGA ATTTTCATAT GCAATATTCC AATTTTTAAA GGATTTCAAA 
    AAATTCAGTT TTCCAAAAAC ATTGTCTGAG CCAGTCAAAG CAATTCTCTC GCCACCAGTT 
    GCCAACTTCT GCTTGAAAGA TAAACAGCGC ATAATACCAG CTACTCAGGA GGCTGAGGCA 
    GGCAGATTGC TTGAAACCAG GAGTTCAAGA CCAGCCTGGG TACAAGAAGG GCCAGAAATT 
    GTCTGCAGAT GGGCACTTAC AGGTTTTACA CAAGGAGACA AGGCATTCGG TGTTCATTCC 
    AAAGGTATGC AAGGCAGACG CAGGCCTCTA TGTGGCTCGG GCCCAAAACT CTAG

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

    CCDC141 ( XM_017003868.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016859357.1 Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OHu89302
    Clone ID Related Accession (Same CDS sequence) XM_017003868.1 , XM_017003868.2
    Accession Version XM_017003868.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4536bp)
    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 141 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) 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 :: 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
    4381
    4441
    4501
    ATGTCCAGCC AAGGAAGTCC TAGTGTTGCG 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 
    GTCTATGATG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCTCTGGT GTCCATGCTT 
    GAAAGAAGAA CAGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTAGAGTTT 
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAGTGCT 
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGG 
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT 
    GAAGGACCTA ATGTGAATCC TGAGTTGACT CAGGGAGCTC ATAGCAGCTG TCTGAAGGTT 
    GACCGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAAC TAGACAAGTA CTTGAAGCAA 
    CAGTGGCAAG AATTGAGTCA AGTTCTGCAG ATATGTCAGT GGGACCAACA AGAAAACCAG 
    GTTACTTGTT GGTTTCAGAA AACTATAAGA AATTTACAGG AACAAAGTCT AGGTTCATCA 
    CTTTCAGACA ATGAGGATCG AATTCATAAG CAAGAGGAAC TGATAATAAA AGCAAAGGAA 
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GAGGCACTGA GAATTCTGCT GTCAAAGGAC 
    TACGTGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TCAGTCAGCT TCAAGAAGAA 
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCGAATGA ATTTTTTAAC 
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA 
    TCAGAGGGTT TAAGTCTGGC TGTTTTGGCA GTGAGGCATG AGGAATTACA CAGAAAAATT 
    AAAGACTGCA CAACTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC 
    TGCAGCTCTC AGGTGTCCGG CATCCATGAG ATGATGGGGT GCATTAAGAG ACGAGTGGAT 
    CATCTGACCG AACAGTGTTC AGCGCACAAG GAATATGCTC TTAAGAAACA ACAACTAACA 
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTA 
    CTTTCTAATG CAATGGATGT TGGTTCTACC CGTTCTGAAT CAGAGAAGAT TTTGAATAAA 
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA 
    ACCATGATGG AGAAAAATGA ATTTGTATCT GATGAAATGG TATCACTTTC CTCTAAAGCT 
    AGATGGCTAG CAGAAGAATT AAACCTATTT GGCCAAAGCA TTGACTATAG ATCGCAAGTC 
    CTGCAAACTT ACGTGGCATT TCTGAAGTCA TCAGAGGAGG TAGAGATGCA GTTTCAGAGC 
    TTAAAAGAAT TTTATGAAAC CGAAATCCCT CAGAAGGAGC AGGATGATGC TAAAGCCAAG 
    CATTGTTCTG ACTCGGCTGA GAAGCAGTGG CAGCTATTTT TAAAGAAGAG TTTTATAACA 
    CAAGATCTAG GGCTTGAGTT CCTTAATTTA ATAAATATGG CAAAAGAGAA CGAGATATTA 
    GATGTGAAAA ATGAAGTGTA CCTCATGAAG AACACCATGG AAAACCAGAA AGCAGAACGG 
    GAAGAACTTA GCCTCCTTCG GCTGGCATGG CAGCTTAAAG CCACGGAAAG CAAGCCTGGA 
    AAACAGCAGT GGGCGGCATT CAAAGAGCAA CTTAAAAAGA CTTCTCACAA CTTAAAACTT 
    CTTCAGGAAG CACTTATGCC TGTGTCTGCA CTTGACCTCG GAGGGAGCCT CCAGTTCATT 
    TTAGATCTAC GACAAAAATG GAATGACATG AAGCCTCAGT TCCAGCAATT GAATGATGAG 
    GTTCAGTACA TTATGAAAGA ATCAGAGGAG TTAACTGGCA GAGGAGCCCC TGTAAAAGAA 
    AAGTCTCAAC AACTGAAGGA CCTTATTCAC TTCCATCAAA AACAGAAAGA GAGAATCCAG 
    GATTACGAGG ATATCCTGTA CAAGGTGGTC CAGTTCCATC AAGTCAAGGA AGAGCTGGGA 
    CGTCTCATCA AATCAAGAGA GCTGGAGTTT GTAGAGCAGC CGAAGGAACT GGGTGATGCC 
    CATGATGTGC AGATTCACCT CCGGTGCTCT CAGGAAAAGC AAGCCCGTGT AGACCATCTC 
    CACAGACTGG CCCTTTCCTT AGGAGTCGAC ATCATCTCAT CAGTGCAGCG GCCTCACTGC 
    TCTAATGTTT CTGCAAAGAA CCTACAGCAG CAGCTGGAGC TCCTTGAGGA GGACAGCATG 
    AAGTGGCGTG CCAAAGCTGA GGAGTATGGA CGGACCCTGT CCCGTAGTGT GGAGTACTGC 
    GCCATGAGAG ACGAGATAAA TGAGCTCAAA GACTCATTCA AAGATATCAA AAAGAAATTC 
    AATAATTTGA AGTTTAATTA CACTAAGAAA AATGAAAAAT CTCGGAATCT GAAGGCGCTT 
    AAATATCAAA TTCAGCAAGT TGATATGTAT GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA 
    ATGGAAAAAG TTAGTAATAA AACCTCTGAT TCTTTCTTAA ATTATCCAAG TGATAAAGTT 
    AATGTCCTTT TGGAAGTCAT GAAGGATTTG CAAAAACATG TGGATGACTT TGACAAAGTT 
    GTGACAGATT ACAAGAAGAA TTTGGACCTG ACTGAGCATT TCCAGGAGGT GATAGAAGAG 
    TGTCATTTTT GGTACGAAGA TGCAAGTGCC ACAGTTGTAA GAGTTGGAAA ATATTCCACA 
    GAGTGCAAGA CAAAGGAAGC TGTGAAAATT CTCCACCAGC AGTTTAATAA GTTTATTGCA 
    CCCTCAGTGC CGCAGCAAGA AGAAAGGATT CAGGAGGCCA CTGACCTTGC TCAGCACTTA 
    TATGGTTTGG AAGAAGGACA GAAATATATT GAGAAAATAG TGACAAAACA CAAAGAGGTT 
    CTTGAATCTG TGACTGAATT ATGTGAGTCC CTCACAGAGC TCGAAGAAAA ACTGAAGCAG 
    GGAGATGTTT TAAAGATGAA TCCGAATTTG GAAGACTTCC ATTATGATTA CATTGACTTG 
    CTAAAGGAAC CAGCAAAAAA TAAGCAGACA ATATTCAATG AAGAAAGGAA TAAGGGGCAG 
    GTGCAGGTGG CAGATCTTTT GGGCATCAAT GGAACAGGGG AAGAGCGACT ACCACAAGAC 
    CTGAAGGTGT CCACTGACAA GGAGGGTGGC GTCCAGGACC TGCTCCTGCC TGAAGACATG 
    CTCTCAGGGG AAGAATATGA GTGTGTCTCA CCTGATGACA TCTCCTTGCC TCCTCTCCCA 
    GGAAGCCCTG AGTCCCCTCT TGCACCATCT GACATGGAGG TGGAAGAGCC TGTCAGCTCC 
    TCCCTCAGCC TTCACATAAG CAGCTATGGG GTGCAGGCTG GGACCAGCAG CCCAGGGGAT 
    GCCCAGGAAT CTGTTCTTCC ACCACCTGTT GCCTTTGCGG ATGCATGCAA TGATAAGAGA 
    GAAACATTTT CAAGTCATTT TGAGAGGCCT TACCTCCAGT TCAAAGCTGA GCCCCCACTA 
    ACCTCCAGAG GATTCGTGGA AAAGAGTACT GCCTTACACA GAATCAGTGC TGAACATCCA 
    GAGAGCATGA TGAGTGAAGT GCATGAGAGA GCTTTACAGC AGCACCCTCA GGCTCAGGGT 
    GGTTTGCTAG AAACACGGGA GAAAATGCAT GCTGATAATA ACTTCACTAA AACCCAAGAT 
    AGGCTGCATG CTTCCTCTGA TGCATTCTCG GGCCTCAGGT TTCAATCAGG CACCAGCAGG 
    GGCTATCAGA GGCAAATGGT TCCTCGAGAA GAGATTAAAA GCACATCAGC AAAGAGCAGC 
    GTGGTCAGCC TAGCTGACCA GGCACCTAAT TTCTCCAGGC TCCTGTCTAA TGTAACTGTC 
    ATGGAAGGTT CTCCAGTGAC TTTGGAAGTT GAAGTAACAG GATTTCCAGA GCCTACACTG 
    ACATGGTACA AGAAGGGCCA GAAATTGTCT GCAGATGGGC ACTTACAGGT TTTACACAAG 
    GAGACAAGGC ATTCGGTGTT CATTCCAAAG GTATGCAAGG CAGACGCAGG CCTCTATGTG 
    GCTCGGGCCC AAAACTCTAG CGGCGCTCTC TCTTCCAATG TCATCCTCCA CGTGACAGTT 
    CTGCTGAGAC ACAACTTCCC CTGGGAAGCC TCCTGA

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

    RefSeq XP_016859357.1
    CDS193..4728
    Translation

    Target ORF information:

    RefSeq Version XM_017003868.1
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017003868.1

    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
    ATGTCCAGCC AAGGAAGTCC TAGTGTTGCG 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 
    GTCTATGATG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCTCTGGT GTCCATGCTT 
    GAAAGAAGAA CAGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTAGAGTTT 
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAGTGCT 
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGG 
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT 
    GAAGGACCTA ATGTGAATCC TGAGTTGACT CAGGGAGCTC ATAGCAGCTG TCTGAAGGTT 
    GACCGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAAC TAGACAAGTA CTTGAAGCAA 
    CAGTGGCAAG AATTGAGTCA AGTTCTGCAG ATATGTCAGT GGGACCAACA AGAAAACCAG 
    GTTACTTGTT GGTTTCAGAA AACTATAAGA AATTTACAGG AACAAAGTCT AGGTTCATCA 
    CTTTCAGACA ATGAGGATCG AATTCATAAG CAAGAGGAAC TGATAATAAA AGCAAAGGAA 
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GAGGCACTGA GAATTCTGCT GTCAAAGGAC 
    TACGTGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TCAGTCAGCT TCAAGAAGAA 
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCGAATGA ATTTTTTAAC 
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA 
    TCAGAGGGTT TAAGTCTGGC TGTTTTGGCA GTGAGGCATG AGGAATTACA CAGAAAAATT 
    AAAGACTGCA CAACTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC 
    TGCAGCTCTC AGGTGTCCGG CATCCATGAG ATGATGGGGT GCATTAAGAG ACGAGTGGAT 
    CATCTGACCG AACAGTGTTC AGCGCACAAG GAATATGCTC TTAAGAAACA ACAACTAACA 
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTA 
    CTTTCTAATG CAATGGATGT TGGTTCTACC CGTTCTGAAT CAGAGAAGAT TTTGAATAAA 
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA 
    ACCATGATGG AGAAAAATGA ATTTGTATCT GATGAAATGG TATCACTTTC CTCTAAAGCT 
    AGATGGCTAG CAGAAGAATT AAACCTATTT GGCCAAAGCA TTGACTATAG ATCGCAAGTC 
    CTGCAAACTT ACGTGGCATT TCTGAAGTCA TCAGAGGAGG TAGAGATGCA GTTTCAGAGC 
    TTAAAAGAAT TTTATGAAAC CGAAATCCCT CAGAAGGAGC AGGATGATGC TAAAGCCAAG 
    CATTGTTCTG ACTCGGCTGA GAAGCAGTGG CAGCTATTTT TAAAGAAGAG TTTTATAACA 
    CAAGATCTAG GGCTTGAGTT CCTTAATTTA ATAAATATGG CAAAAGAGAA CGAGATATTA 
    GATGTGAAAA ATGAAGTGTA CCTCATGAAG AACACCATGG AAAACCAGAA AGCAGAACGG 
    GAAGAACTTA GCCTCCTTCG GCTGGCATGG CAGCTTAAAG CCACGGAAAG CAAGCCTGGA 
    AAACAGCAGT GGGCGGCATT CAAAGAGCAA CTTAAAAAGA CTTCTCACAA CTTAAAACTT 
    CTTCAGGAAG CACTTATGCC TGTGTCTGCA CTTGACCTCG GAGGGAGCCT CCAGTTCATT 
    TTAGATCTAC GACAAAAATG GAATGACATG AAGCCTCAGT TCCAGCAATT GAATGATGAG 
    GTTCAGTACA TTATGAAAGA ATCAGAGGAG TTAACTGGCA GAGGAGCCCC TGTAAAAGAA 
    AAGTCTCAAC AACTGAAGGA CCTTATTCAC TTCCATCAAA AACAGAAAGA GAGAATCCAG 
    GATTACGAGG ATATCCTGTA CAAGGTGGTC CAGTTCCATC AAGTCAAGGA AGAGCTGGGA 
    CGTCTCATCA AATCAAGAGA GCTGGAGTTT GTAGAGCAGC CGAAGGAACT GGGTGATGCC 
    CATGATGTGC AGATTCACCT CCGGTGCTCT CAGGAAAAGC AAGCCCGTGT AGACCATCTC 
    CACAGACTGG CCCTTTCCTT AGGAGTCGAC ATCATCTCAT CAGTGCAGCG GCCTCACTGC 
    TCTAATGTTT CTGCAAAGAA CCTACAGCAG CAGCTGGAGC TCCTTGAGGA GGACAGCATG 
    AAGTGGCGTG CCAAAGCTGA GGAGTATGGA CGGACCCTGT CCCGTAGTGT GGAGTACTGC 
    GCCATGAGAG ACGAGATAAA TGAGCTCAAA GACTCATTCA AAGATATCAA AAAGAAATTC 
    AATAATTTGA AGTTTAATTA CACTAAGAAA AATGAAAAAT CTCGGAATCT GAAGGCGCTT 
    AAATATCAAA TTCAGCAAGT TGATATGTAT GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA 
    ATGGAAAAAG TTAGTAATAA AACCTCTGAT TCTTTCTTAA ATTATCCAAG TGATAAAGTT 
    AATGTCCTTT TGGAAGTCAT GAAGGATTTG CAAAAACATG TGGATGACTT TGACAAAGTT 
    GTGACAGATT ACAAGAAGAA TTTGGACCTG ACTGAGCATT TCCAGGAGGT GATAGAAGAG 
    TGTCATTTTT GGTACGAAGA TGCAAGTGCC ACAGTTGTAA GAGTTGGAAA ATATTCCACA 
    GAGTGCAAGA CAAAGGAAGC TGTGAAAATT CTCCACCAGC AGTTTAATAA GTTTATTGCA 
    CCCTCAGTGC CGCAGCAAGA AGAAAGGATT CAGGAGGCCA CTGACCTTGC TCAGCACTTA 
    TATGGTTTGG AAGAAGGACA GAAATATATT GAGAAAATAG TGACAAAACA CAAAGAGGTT 
    CTTGAATCTG TGACTGAATT ATGTGAGTCC CTCACAGAGC TCGAAGAAAA ACTGAAGCAG 
    GGAGATGTTT TAAAGATGAA TCCGAATTTG GAAGACTTCC ATTATGATTA CATTGACTTG 
    CTAAAGGAAC CAGCAAAAAA TAAGCAGACA ATATTCAATG AAGAAAGGAA TAAGGGGCAG 
    GTGCAGGTGG CAGATCTTTT GGGCATCAAT GGAACAGGGG AAGAGCGACT ACCACAAGAC 
    CTGAAGGTGT CCACTGACAA GGAGGGTGGC GTCCAGGACC TGCTCCTGCC TGAAGACATG 
    CTCTCAGGGG AAGAATATGA GTGTGTCTCA CCTGATGACA TCTCCTTGCC TCCTCTCCCA 
    GGAAGCCCTG AGTCCCCTCT TGCACCATCT GACATGGAGG TGGAAGAGCC TGTCAGCTCC 
    TCCCTCAGCC TTCACATAAG CAGCTATGGG GTGCAGGCTG GGACCAGCAG CCCAGGGGAT 
    GCCCAGGAAT CTGTTCTTCC ACCACCTGTT GCCTTTGCGG ATGCATGCAA TGATAAGAGA 
    GAAACATTTT CAAGTCATTT TGAGAGGCCT TACCTCCAGT TCAAAGCTGA GCCCCCACTA 
    ACCTCCAGAG GATTCGTGGA AAAGAGTACT GCCTTACACA GAATCAGTGC TGAACATCCA 
    GAGAGCATGA TGAGTGAAGT GCATGAGAGA GCTTTACAGC AGCACCCTCA GGCTCAGGGT 
    GGTTTGCTAG AAACACGGGA GAAAATGCAT GCTGATAATA ACTTCACTAA AACCCAAGAT 
    AGGCTGCATG CTTCCTCTGA TGCATTCTCG GGCCTCAGGT TTCAATCAGG CACCAGCAGG 
    GGCTATCAGA GGCAAATGGT TCCTCGAGAA GAGATTAAAA GCACATCAGC AAAGAGCAGC 
    GTGGTCAGCC TAGCTGACCA GGCACCTAAT TTCTCCAGGC TCCTGTCTAA TGTAACTGTC 
    ATGGAAGGTT CTCCAGTGAC TTTGGAAGTT GAAGTAACAG GATTTCCAGA GCCTACACTG 
    ACATGGTACA AGAAGGGCCA GAAATTGTCT GCAGATGGGC ACTTACAGGT TTTACACAAG 
    GAGACAAGGC ATTCGGTGTT CATTCCAAAG GTATGCAAGG CAGACGCAGG CCTCTATGTG 
    GCTCGGGCCC AAAACTCTAG CGGCGCTCTC TCTTCCAATG TCATCCTCCA CGTGACAGTT 
    CTGCTGAGAC ACAACTTCCC CTGGGAAGCC TCCTGA

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

    CCDC141 ( XM_017003868.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016859357.1 Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OHu89302
    Clone ID Related Accession (Same CDS sequence) XM_017003868.1 , XM_017003868.2
    Accession Version XM_017003868.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4536bp)
    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 141 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017003868.1. ##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
    4381
    4441
    4501
    ATGTCCAGCC AAGGAAGTCC TAGTGTTGCG 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 
    GTCTATGATG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCTCTGGT GTCCATGCTT 
    GAAAGAAGAA CAGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTAGAGTTT 
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAGTGCT 
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGG 
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT 
    GAAGGACCTA ATGTGAATCC TGAGTTGACT CAGGGAGCTC ATAGCAGCTG TCTGAAGGTT 
    GACCGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAAC TAGACAAGTA CTTGAAGCAA 
    CAGTGGCAAG AATTGAGTCA AGTTCTGCAG ATATGTCAGT GGGACCAACA AGAAAACCAG 
    GTTACTTGTT GGTTTCAGAA AACTATAAGA AATTTACAGG AACAAAGTCT AGGTTCATCA 
    CTTTCAGACA ATGAGGATCG AATTCATAAG CAAGAGGAAC TGATAATAAA AGCAAAGGAA 
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GAGGCACTGA GAATTCTGCT GTCAAAGGAC 
    TACGTGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TCAGTCAGCT TCAAGAAGAA 
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCGAATGA ATTTTTTAAC 
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA 
    TCAGAGGGTT TAAGTCTGGC TGTTTTGGCA GTGAGGCATG AGGAATTACA CAGAAAAATT 
    AAAGACTGCA CAACTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC 
    TGCAGCTCTC AGGTGTCCGG CATCCATGAG ATGATGGGGT GCATTAAGAG ACGAGTGGAT 
    CATCTGACCG AACAGTGTTC AGCGCACAAG GAATATGCTC TTAAGAAACA ACAACTAACA 
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTA 
    CTTTCTAATG CAATGGATGT TGGTTCTACC CGTTCTGAAT CAGAGAAGAT TTTGAATAAA 
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA 
    ACCATGATGG AGAAAAATGA ATTTGTATCT GATGAAATGG TATCACTTTC CTCTAAAGCT 
    AGATGGCTAG CAGAAGAATT AAACCTATTT GGCCAAAGCA TTGACTATAG ATCGCAAGTC 
    CTGCAAACTT ACGTGGCATT TCTGAAGTCA TCAGAGGAGG TAGAGATGCA GTTTCAGAGC 
    TTAAAAGAAT TTTATGAAAC CGAAATCCCT CAGAAGGAGC AGGATGATGC TAAAGCCAAG 
    CATTGTTCTG ACTCGGCTGA GAAGCAGTGG CAGCTATTTT TAAAGAAGAG TTTTATAACA 
    CAAGATCTAG GGCTTGAGTT CCTTAATTTA ATAAATATGG CAAAAGAGAA CGAGATATTA 
    GATGTGAAAA ATGAAGTGTA CCTCATGAAG AACACCATGG AAAACCAGAA AGCAGAACGG 
    GAAGAACTTA GCCTCCTTCG GCTGGCATGG CAGCTTAAAG CCACGGAAAG CAAGCCTGGA 
    AAACAGCAGT GGGCGGCATT CAAAGAGCAA CTTAAAAAGA CTTCTCACAA CTTAAAACTT 
    CTTCAGGAAG CACTTATGCC TGTGTCTGCA CTTGACCTCG GAGGGAGCCT CCAGTTCATT 
    TTAGATCTAC GACAAAAATG GAATGACATG AAGCCTCAGT TCCAGCAATT GAATGATGAG 
    GTTCAGTACA TTATGAAAGA ATCAGAGGAG TTAACTGGCA GAGGAGCCCC TGTAAAAGAA 
    AAGTCTCAAC AACTGAAGGA CCTTATTCAC TTCCATCAAA AACAGAAAGA GAGAATCCAG 
    GATTACGAGG ATATCCTGTA CAAGGTGGTC CAGTTCCATC AAGTCAAGGA AGAGCTGGGA 
    CGTCTCATCA AATCAAGAGA GCTGGAGTTT GTAGAGCAGC CGAAGGAACT GGGTGATGCC 
    CATGATGTGC AGATTCACCT CCGGTGCTCT CAGGAAAAGC AAGCCCGTGT AGACCATCTC 
    CACAGACTGG CCCTTTCCTT AGGAGTCGAC ATCATCTCAT CAGTGCAGCG GCCTCACTGC 
    TCTAATGTTT CTGCAAAGAA CCTACAGCAG CAGCTGGAGC TCCTTGAGGA GGACAGCATG 
    AAGTGGCGTG CCAAAGCTGA GGAGTATGGA CGGACCCTGT CCCGTAGTGT GGAGTACTGC 
    GCCATGAGAG ACGAGATAAA TGAGCTCAAA GACTCATTCA AAGATATCAA AAAGAAATTC 
    AATAATTTGA AGTTTAATTA CACTAAGAAA AATGAAAAAT CTCGGAATCT GAAGGCGCTT 
    AAATATCAAA TTCAGCAAGT TGATATGTAT GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA 
    ATGGAAAAAG TTAGTAATAA AACCTCTGAT TCTTTCTTAA ATTATCCAAG TGATAAAGTT 
    AATGTCCTTT TGGAAGTCAT GAAGGATTTG CAAAAACATG TGGATGACTT TGACAAAGTT 
    GTGACAGATT ACAAGAAGAA TTTGGACCTG ACTGAGCATT TCCAGGAGGT GATAGAAGAG 
    TGTCATTTTT GGTACGAAGA TGCAAGTGCC ACAGTTGTAA GAGTTGGAAA ATATTCCACA 
    GAGTGCAAGA CAAAGGAAGC TGTGAAAATT CTCCACCAGC AGTTTAATAA GTTTATTGCA 
    CCCTCAGTGC CGCAGCAAGA AGAAAGGATT CAGGAGGCCA CTGACCTTGC TCAGCACTTA 
    TATGGTTTGG AAGAAGGACA GAAATATATT GAGAAAATAG TGACAAAACA CAAAGAGGTT 
    CTTGAATCTG TGACTGAATT ATGTGAGTCC CTCACAGAGC TCGAAGAAAA ACTGAAGCAG 
    GGAGATGTTT TAAAGATGAA TCCGAATTTG GAAGACTTCC ATTATGATTA CATTGACTTG 
    CTAAAGGAAC CAGCAAAAAA TAAGCAGACA ATATTCAATG AAGAAAGGAA TAAGGGGCAG 
    GTGCAGGTGG CAGATCTTTT GGGCATCAAT GGAACAGGGG AAGAGCGACT ACCACAAGAC 
    CTGAAGGTGT CCACTGACAA GGAGGGTGGC GTCCAGGACC TGCTCCTGCC TGAAGACATG 
    CTCTCAGGGG AAGAATATGA GTGTGTCTCA CCTGATGACA TCTCCTTGCC TCCTCTCCCA 
    GGAAGCCCTG AGTCCCCTCT TGCACCATCT GACATGGAGG TGGAAGAGCC TGTCAGCTCC 
    TCCCTCAGCC TTCACATAAG CAGCTATGGG GTGCAGGCTG GGACCAGCAG CCCAGGGGAT 
    GCCCAGGAAT CTGTTCTTCC ACCACCTGTT GCCTTTGCGG ATGCATGCAA TGATAAGAGA 
    GAAACATTTT CAAGTCATTT TGAGAGGCCT TACCTCCAGT TCAAAGCTGA GCCCCCACTA 
    ACCTCCAGAG GATTCGTGGA AAAGAGTACT GCCTTACACA GAATCAGTGC TGAACATCCA 
    GAGAGCATGA TGAGTGAAGT GCATGAGAGA GCTTTACAGC AGCACCCTCA GGCTCAGGGT 
    GGTTTGCTAG AAACACGGGA GAAAATGCAT GCTGATAATA ACTTCACTAA AACCCAAGAT 
    AGGCTGCATG CTTCCTCTGA TGCATTCTCG GGCCTCAGGT TTCAATCAGG CACCAGCAGG 
    GGCTATCAGA GGCAAATGGT TCCTCGAGAA GAGATTAAAA GCACATCAGC AAAGAGCAGC 
    GTGGTCAGCC TAGCTGACCA GGCACCTAAT TTCTCCAGGC TCCTGTCTAA TGTAACTGTC 
    ATGGAAGGTT CTCCAGTGAC TTTGGAAGTT GAAGTAACAG GATTTCCAGA GCCTACACTG 
    ACATGGTACA AGAAGGGCCA GAAATTGTCT GCAGATGGGC ACTTACAGGT TTTACACAAG 
    GAGACAAGGC ATTCGGTGTT CATTCCAAAG GTATGCAAGG CAGACGCAGG CCTCTATGTG 
    GCTCGGGCCC AAAACTCTAG CGGCGCTCTC TCTTCCAATG TCATCCTCCA CGTGACAGTT 
    CTGCTGAGAC ACAACTTCCC CTGGGAAGCC TCCTGA

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

    RefSeq XP_016859357.1
    CDS190..4725
    Translation

    Target ORF information:

    RefSeq Version XM_017003868.2
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017003868.2

    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
    ATGTCCAGCC AAGGAAGTCC TAGTGTTGCG 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 
    GTCTATGATG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCTCTGGT GTCCATGCTT 
    GAAAGAAGAA CAGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTAGAGTTT 
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAGTGCT 
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGG 
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT 
    GAAGGACCTA ATGTGAATCC TGAGTTGACT CAGGGAGCTC ATAGCAGCTG TCTGAAGGTT 
    GACCGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAAC TAGACAAGTA CTTGAAGCAA 
    CAGTGGCAAG AATTGAGTCA AGTTCTGCAG ATATGTCAGT GGGACCAACA AGAAAACCAG 
    GTTACTTGTT GGTTTCAGAA AACTATAAGA AATTTACAGG AACAAAGTCT AGGTTCATCA 
    CTTTCAGACA ATGAGGATCG AATTCATAAG CAAGAGGAAC TGATAATAAA AGCAAAGGAA 
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GAGGCACTGA GAATTCTGCT GTCAAAGGAC 
    TACGTGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TCAGTCAGCT TCAAGAAGAA 
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCGAATGA ATTTTTTAAC 
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA 
    TCAGAGGGTT TAAGTCTGGC TGTTTTGGCA GTGAGGCATG AGGAATTACA CAGAAAAATT 
    AAAGACTGCA CAACTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC 
    TGCAGCTCTC AGGTGTCCGG CATCCATGAG ATGATGGGGT GCATTAAGAG ACGAGTGGAT 
    CATCTGACCG AACAGTGTTC AGCGCACAAG GAATATGCTC TTAAGAAACA ACAACTAACA 
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTA 
    CTTTCTAATG CAATGGATGT TGGTTCTACC CGTTCTGAAT CAGAGAAGAT TTTGAATAAA 
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA 
    ACCATGATGG AGAAAAATGA ATTTGTATCT GATGAAATGG TATCACTTTC CTCTAAAGCT 
    AGATGGCTAG CAGAAGAATT AAACCTATTT GGCCAAAGCA TTGACTATAG ATCGCAAGTC 
    CTGCAAACTT ACGTGGCATT TCTGAAGTCA TCAGAGGAGG TAGAGATGCA GTTTCAGAGC 
    TTAAAAGAAT TTTATGAAAC CGAAATCCCT CAGAAGGAGC AGGATGATGC TAAAGCCAAG 
    CATTGTTCTG ACTCGGCTGA GAAGCAGTGG CAGCTATTTT TAAAGAAGAG TTTTATAACA 
    CAAGATCTAG GGCTTGAGTT CCTTAATTTA ATAAATATGG CAAAAGAGAA CGAGATATTA 
    GATGTGAAAA ATGAAGTGTA CCTCATGAAG AACACCATGG AAAACCAGAA AGCAGAACGG 
    GAAGAACTTA GCCTCCTTCG GCTGGCATGG CAGCTTAAAG CCACGGAAAG CAAGCCTGGA 
    AAACAGCAGT GGGCGGCATT CAAAGAGCAA CTTAAAAAGA CTTCTCACAA CTTAAAACTT 
    CTTCAGGAAG CACTTATGCC TGTGTCTGCA CTTGACCTCG GAGGGAGCCT CCAGTTCATT 
    TTAGATCTAC GACAAAAATG GAATGACATG AAGCCTCAGT TCCAGCAATT GAATGATGAG 
    GTTCAGTACA TTATGAAAGA ATCAGAGGAG TTAACTGGCA GAGGAGCCCC TGTAAAAGAA 
    AAGTCTCAAC AACTGAAGGA CCTTATTCAC TTCCATCAAA AACAGAAAGA GAGAATCCAG 
    GATTACGAGG ATATCCTGTA CAAGGTGGTC CAGTTCCATC AAGTCAAGGA AGAGCTGGGA 
    CGTCTCATCA AATCAAGAGA GCTGGAGTTT GTAGAGCAGC CGAAGGAACT GGGTGATGCC 
    CATGATGTGC AGATTCACCT CCGGTGCTCT CAGGAAAAGC AAGCCCGTGT AGACCATCTC 
    CACAGACTGG CCCTTTCCTT AGGAGTCGAC ATCATCTCAT CAGTGCAGCG GCCTCACTGC 
    TCTAATGTTT CTGCAAAGAA CCTACAGCAG CAGCTGGAGC TCCTTGAGGA GGACAGCATG 
    AAGTGGCGTG CCAAAGCTGA GGAGTATGGA CGGACCCTGT CCCGTAGTGT GGAGTACTGC 
    GCCATGAGAG ACGAGATAAA TGAGCTCAAA GACTCATTCA AAGATATCAA AAAGAAATTC 
    AATAATTTGA AGTTTAATTA CACTAAGAAA AATGAAAAAT CTCGGAATCT GAAGGCGCTT 
    AAATATCAAA TTCAGCAAGT TGATATGTAT GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA 
    ATGGAAAAAG TTAGTAATAA AACCTCTGAT TCTTTCTTAA ATTATCCAAG TGATAAAGTT 
    AATGTCCTTT TGGAAGTCAT GAAGGATTTG CAAAAACATG TGGATGACTT TGACAAAGTT 
    GTGACAGATT ACAAGAAGAA TTTGGACCTG ACTGAGCATT TCCAGGAGGT GATAGAAGAG 
    TGTCATTTTT GGTACGAAGA TGCAAGTGCC ACAGTTGTAA GAGTTGGAAA ATATTCCACA 
    GAGTGCAAGA CAAAGGAAGC TGTGAAAATT CTCCACCAGC AGTTTAATAA GTTTATTGCA 
    CCCTCAGTGC CGCAGCAAGA AGAAAGGATT CAGGAGGCCA CTGACCTTGC TCAGCACTTA 
    TATGGTTTGG AAGAAGGACA GAAATATATT GAGAAAATAG TGACAAAACA CAAAGAGGTT 
    CTTGAATCTG TGACTGAATT ATGTGAGTCC CTCACAGAGC TCGAAGAAAA ACTGAAGCAG 
    GGAGATGTTT TAAAGATGAA TCCGAATTTG GAAGACTTCC ATTATGATTA CATTGACTTG 
    CTAAAGGAAC CAGCAAAAAA TAAGCAGACA ATATTCAATG AAGAAAGGAA TAAGGGGCAG 
    GTGCAGGTGG CAGATCTTTT GGGCATCAAT GGAACAGGGG AAGAGCGACT ACCACAAGAC 
    CTGAAGGTGT CCACTGACAA GGAGGGTGGC GTCCAGGACC TGCTCCTGCC TGAAGACATG 
    CTCTCAGGGG AAGAATATGA GTGTGTCTCA CCTGATGACA TCTCCTTGCC TCCTCTCCCA 
    GGAAGCCCTG AGTCCCCTCT TGCACCATCT GACATGGAGG TGGAAGAGCC TGTCAGCTCC 
    TCCCTCAGCC TTCACATAAG CAGCTATGGG GTGCAGGCTG GGACCAGCAG CCCAGGGGAT 
    GCCCAGGAAT CTGTTCTTCC ACCACCTGTT GCCTTTGCGG ATGCATGCAA TGATAAGAGA 
    GAAACATTTT CAAGTCATTT TGAGAGGCCT TACCTCCAGT TCAAAGCTGA GCCCCCACTA 
    ACCTCCAGAG GATTCGTGGA AAAGAGTACT GCCTTACACA GAATCAGTGC TGAACATCCA 
    GAGAGCATGA TGAGTGAAGT GCATGAGAGA GCTTTACAGC AGCACCCTCA GGCTCAGGGT 
    GGTTTGCTAG AAACACGGGA GAAAATGCAT GCTGATAATA ACTTCACTAA AACCCAAGAT 
    AGGCTGCATG CTTCCTCTGA TGCATTCTCG GGCCTCAGGT TTCAATCAGG CACCAGCAGG 
    GGCTATCAGA GGCAAATGGT TCCTCGAGAA GAGATTAAAA GCACATCAGC AAAGAGCAGC 
    GTGGTCAGCC TAGCTGACCA GGCACCTAAT TTCTCCAGGC TCCTGTCTAA TGTAACTGTC 
    ATGGAAGGTT CTCCAGTGAC TTTGGAAGTT GAAGTAACAG GATTTCCAGA GCCTACACTG 
    ACATGGTACA AGAAGGGCCA GAAATTGTCT GCAGATGGGC ACTTACAGGT TTTACACAAG 
    GAGACAAGGC ATTCGGTGTT CATTCCAAAG GTATGCAAGG CAGACGCAGG CCTCTATGTG 
    GCTCGGGCCC AAAACTCTAG CGGCGCTCTC TCTTCCAATG TCATCCTCCA CGTGACAGTT 
    CTGCTGAGAC ACAACTTCCC CTGGGAAGCC TCCTGA

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

    CCDC141 ( NM_173648.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_775919.3 Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant 1, mRNA.
    Price & Availability↑
    CloneID OHu21283
    Clone ID Related Accession (Same CDS sequence) NM_173648.3 , NM_173648.4
    Accession Version NM_173648.3 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 2019-02-21
    Organism Homo sapiens(human)
    Product coiled-coil domain-containing protein 141 isoform 1
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AL832777.1, AC092640.3, AC093792.2, BC115378.2, AC023270.7 and AK096821.1. On Jun 30, 2010 this sequence version replaced NM_173648.2. Sequence Note: This RefSeq record was created from transcript and genomic sequence data because no single transcript was available for the full length of the gene. The transcript structure is predicted based on partial transcript alignments; it is unclear if this exon combination exists in vivo. ##Evidence-Data-START## Transcript exon combination :: SRR1803612.276753.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTCCAGCC AAGGAAGTCC TAGTGTTGCG 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 
    GTCTATGATG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCTCTGGT GTCCATGCTT 
    GAAAGAAGAA CAGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTAGAGTTT 
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAGTGCT 
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGG 
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT 
    GAAGGACCTA ATGTGAATCC TGAGTTGACT CAGGGAGCTC ATAGCAGCTG TCTGAAGGTT 
    GACCGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAAC TAGACAAGTA CTTGAAGCAA 
    CAGTGGCAAG AATTGAGTCA AGTTCTGCAG ATATGTCAGT GGGACCAACA AGAAAACCAG 
    GTTACTTGTT GGTTTCAGAA AACTATAAGA AATTTACAGG AACAAAGTCT AGGTTCATCA 
    CTTTCAGACA ATGAGGATCG AATTCATAAG CAAGAGGAAC TGATAATAAA AGCAAAGGAA 
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GAGGCACTGA GAATTCTGCT GTCAAAGGAC 
    TACGTGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TCAGTCAGCT TCAAGAAGAA 
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCGAATGA ATTTTTTAAC 
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA 
    TCAGAGGGTT TAAGTCTGGC TGTTTTGGCA GTGAGGCATG AGGAATTACA CAGAAAAATT 
    AAAGACTGCA CAACTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC 
    TGCAGCTCTC AGGTGTCCGG CATCCATGAG ATGATGGGGT GCATTAAGAG ACGAGTGGAT 
    CATCTGACCG AACAGTGTTC AGCGCACAAG GAATATGCTC TTAAGAAACA ACAACTAACA 
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTA 
    CTTTCTAATG CAATGGATGT TGGTTCTACC CGTTCTGAAT CAGAGAAGAT TTTGAATAAA 
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA 
    ACCATGATGG AGAAAAATGA ATTTGTATCT GATGAAATGG TATCACTTTC CTCTAAAGCT 
    AGATGGCTAG CAGAAGAATT AAACCTATTT GGCCAAAGCA TTGACTATAG ATCGCAAGTC 
    CTGCAAACTT ACGTGGCATT TCTGAAGTCA TCAGAGGAGG TAGAGATGCA GTTTCAGAGC 
    TTAAAAGAAT TTTATGAAAC CGAAATCCCT CAGAAGGAGC AGGATGATGC TAAAGCCAAG 
    CATTGTTCTG ACTCGGCTGA GAAGCAGTGG CAGCTATTTT TAAAGAAGAG TTTTATAACA 
    CAAGATCTAG GGCTTGAGTT CCTTAATTTA ATAAATATGG CAAAAGAGAA CGAGATATTA 
    GATGTGAAAA ATGAAGTGTA CCTCATGAAG AACACCATGG AAAACCAGAA AGCAGAACGG 
    GAAGAACTTA GCCTCCTTCG GCTGGCATGG CAGCTTAAAG CCACGGAAAG CAAGCCTGGA 
    AAACAGCAGT GGGCGGCATT CAAAGAGCAA CTTAAAAAGA CTTCTCACAA CTTAAAACTT 
    CTTCAGGAAG CACTTATGCC TGTGTCTGCA CTTGACCTCG GAGGGAGCCT CCAGTTCATT 
    TTAGATCTAC GACAAAAATG GAATGACATG AAGCCTCAGT TCCAGCAATT GAATGATGAG 
    GTTCAGTACA TTATGAAAGA ATCAGAGGAG TTAACTGGCA GAGGAGCCCC TGTAAAAGAA 
    AAGTCTCAAC AACTGAAGGA CCTTATTCAC TTCCATCAAA AACAGAAAGA GAGAATCCAG 
    GATTACGAGG ATATCCTGTA CAAGGTGGTC CAGTTCCATC AAGTCAAGGA AGAGCTGGGA 
    CGTCTCATCA AATCAAGAGA GCTGGAGTTT GTAGAGCAGC CGAAGGAACT GGGTGATGCC 
    CATGATGTGC AGATTCACCT CCGGTGCTCT CAGGAAAAGC AAGCCCGTGT AGACCATCTC 
    CACAGACTGG CCCTTTCCTT AGGAGTCGAC ATCATCTCAT CAGTGCAGCG GCCTCACTGC 
    TCTAATGTTT CTGCAAAGAA CCTACAGCAG CAGCTGGAGC TCCTTGAGGA GGACAGCATG 
    AAGTGGCGTG CCAAAGCTGA GGAGTATGGA CGGACCCTGT CCCGTAGTGT GGAGTACTGC 
    GCCATGAGAG ACGAGATAAA TGAGCTCAAA GACTCATTCA AAGATATCAA AAAGAAATTC 
    AATAATTTGA AGTTTAATTA CACTAAGAAA AATGAAAAAT CTCGGAATCT GAAGGCGCTT 
    AAATATCAAA TTCAGCAAGT TGATATGTAT GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA 
    ATGGAAAAAG TTAGTAATAA AACCTCTGAT TCTTTCTTAA ATTATCCAAG TGATAAAGTT 
    AATGTCCTTT TGGAAGTCAT GAAGGATTTG CAAAAACATG TGGATGACTT TGACAAAGTT 
    GTGACAGATT ACAAGAAGAA TTTGGACCTG ACTGAGCATT TCCAGGAGGT GATAGAAGAG 
    TGTCATTTTT GGTACGAAGA TGCAAGTGCC ACAGTTGTAA GAGTTGGAAA ATATTCCACA 
    GAGTGCAAGA CAAAGGAAGC TGTGAAAATT CTCCACCAGC AGTTTAATAA GTTTATTGCA 
    CCCTCAGTGC CGCAGCAAGA AGAAAGGATT CAGGAGGCCA CTGACCTTGC TCAGCACTTA 
    TATGGTTTGG AAGAAGGACA GAAATATATT GAGAAAATAG TGACAAAACA CAAAGAGGTT 
    CTTGAATCTG TGACTGAATT ATGTGAGTCC CTCACAGAGC TCGAAGAAAA ACTGAAGCAG 
    GGAGATGTTT TAAAGATGAA TCCGAATTTG GAAGACTTCC ATTATGATTA CATTGACTTG 
    CTAAAGGAAC CAGCAAAAAA TAAGCAGACA ATATTCAATG AAGAAAGGAA TAAGGGGCAG 
    GTGCAGGTGG CAGATCTTTT GGGCATCAAT GGAACAGGGG AAGAGCGACT ACCACAAGAC 
    CTGAAGGTGT CCACTGACAA GGAGGGTGGC GTCCAGGACC TGCTCCTGCC TGAAGACATG 
    CTCTCAGGGG AAGAATATGA GTGTGTCTCA CCTGATGACA TCTCCTTGCC TCCTCTCCCA 
    GGAAGCCCTG AGTCCCCTCT TGCACCATCT GACATGGAGG TGGAAGAGCC TGTCAGCTCC 
    TCCCTCAGCC TTCACATAAG CAGCTATGGG GTGCAGGCTG GGACCAGCAG CCCAGGGGAT 
    GCCCAGGAAT CTGTTCTTCC ACCACCTGTT GCCTTTGCGG ATGCATGCAA TGATAAGAGA 
    GAAACATTTT CAAGTCATTT TGAGAGGCCT TACCTCCAGT TCAAAGCTGA GCCCCCACTA 
    ACCTCCAGAG GATTCGTGGA AAAGAGTACT GCCTTACACA GAATCAGTGC TGAACATCCA 
    GAGAGCATGA TGAGTGAAGT GCATGAGAGA GCTTTACAGC AGCACCCTCA GGCTCAGGGT 
    GGTTTGCTAG AAACACGGGA GAAAATGCAT GCTGATAATA ACTTCACTAA AACCCAAGAT 
    AGGCTGCATG CTTCCTCTGA TGCATTCTCG GGCCTCAGGT TTCAATCAGG CACCAGCAGG 
    GGCTATCAGA GGCAAATGGT TCCTCGAGAA GAGATTAAAA GCACATCAGC AAAGAGCAGC 
    GTGGTCAGCC TAGCTGACCA GGCACCTAAT TTCTCCAGGC TCCTGTCTAA TGTAACTGTC 
    ATGGAAGGTT CTCCAGTGAC TTTGGAAGTT GAAGTAACAG GATTTCCAGA GCCTACACTG 
    ACATGGTACA AGAAGGGCCA GAAATTGTCT GCAGATGGGC ACTTACAGGT TTTACACAAG 
    GAGACAAGGC ATTCGGTGTT CATTCCAAAG GTATGCAAGG CAGACGCAGG CCTCTATGTG 
    GCTCGGGCCC AAAACTCTAG CGGCGCTCTC TCTTCCAATG TCATCCTCCA CGTGACAGGT 
    AACTGCAGGC TGCCAATCAC AAGAGTAAAC TGGATAACCC TGTGTGTCGT CTATGTTAGT 
    GTGTCCCTAA TGTACTGGCT CCTCACACAA TAA

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

    RefSeq NP_775919.3
    CDS119..4711
    Translation

    Target ORF information:

    RefSeq Version NM_173648.3
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_173648.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTCCAGCC AAGGAAGTCC TAGTGTTGCG 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 
    GTCTATGATG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCTCTGGT GTCCATGCTT 
    GAAAGAAGAA CAGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTAGAGTTT 
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAGTGCT 
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGG 
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT 
    GAAGGACCTA ATGTGAATCC TGAGTTGACT CAGGGAGCTC ATAGCAGCTG TCTGAAGGTT 
    GACCGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAAC TAGACAAGTA CTTGAAGCAA 
    CAGTGGCAAG AATTGAGTCA AGTTCTGCAG ATATGTCAGT GGGACCAACA AGAAAACCAG 
    GTTACTTGTT GGTTTCAGAA AACTATAAGA AATTTACAGG AACAAAGTCT AGGTTCATCA 
    CTTTCAGACA ATGAGGATCG AATTCATAAG CAAGAGGAAC TGATAATAAA AGCAAAGGAA 
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GAGGCACTGA GAATTCTGCT GTCAAAGGAC 
    TACGTGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TCAGTCAGCT TCAAGAAGAA 
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCGAATGA ATTTTTTAAC 
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA 
    TCAGAGGGTT TAAGTCTGGC TGTTTTGGCA GTGAGGCATG AGGAATTACA CAGAAAAATT 
    AAAGACTGCA CAACTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC 
    TGCAGCTCTC AGGTGTCCGG CATCCATGAG ATGATGGGGT GCATTAAGAG ACGAGTGGAT 
    CATCTGACCG AACAGTGTTC AGCGCACAAG GAATATGCTC TTAAGAAACA ACAACTAACA 
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTA 
    CTTTCTAATG CAATGGATGT TGGTTCTACC CGTTCTGAAT CAGAGAAGAT TTTGAATAAA 
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA 
    ACCATGATGG AGAAAAATGA ATTTGTATCT GATGAAATGG TATCACTTTC CTCTAAAGCT 
    AGATGGCTAG CAGAAGAATT AAACCTATTT GGCCAAAGCA TTGACTATAG ATCGCAAGTC 
    CTGCAAACTT ACGTGGCATT TCTGAAGTCA TCAGAGGAGG TAGAGATGCA GTTTCAGAGC 
    TTAAAAGAAT TTTATGAAAC CGAAATCCCT CAGAAGGAGC AGGATGATGC TAAAGCCAAG 
    CATTGTTCTG ACTCGGCTGA GAAGCAGTGG CAGCTATTTT TAAAGAAGAG TTTTATAACA 
    CAAGATCTAG GGCTTGAGTT CCTTAATTTA ATAAATATGG CAAAAGAGAA CGAGATATTA 
    GATGTGAAAA ATGAAGTGTA CCTCATGAAG AACACCATGG AAAACCAGAA AGCAGAACGG 
    GAAGAACTTA GCCTCCTTCG GCTGGCATGG CAGCTTAAAG CCACGGAAAG CAAGCCTGGA 
    AAACAGCAGT GGGCGGCATT CAAAGAGCAA CTTAAAAAGA CTTCTCACAA CTTAAAACTT 
    CTTCAGGAAG CACTTATGCC TGTGTCTGCA CTTGACCTCG GAGGGAGCCT CCAGTTCATT 
    TTAGATCTAC GACAAAAATG GAATGACATG AAGCCTCAGT TCCAGCAATT GAATGATGAG 
    GTTCAGTACA TTATGAAAGA ATCAGAGGAG TTAACTGGCA GAGGAGCCCC TGTAAAAGAA 
    AAGTCTCAAC AACTGAAGGA CCTTATTCAC TTCCATCAAA AACAGAAAGA GAGAATCCAG 
    GATTACGAGG ATATCCTGTA CAAGGTGGTC CAGTTCCATC AAGTCAAGGA AGAGCTGGGA 
    CGTCTCATCA AATCAAGAGA GCTGGAGTTT GTAGAGCAGC CGAAGGAACT GGGTGATGCC 
    CATGATGTGC AGATTCACCT CCGGTGCTCT CAGGAAAAGC AAGCCCGTGT AGACCATCTC 
    CACAGACTGG CCCTTTCCTT AGGAGTCGAC ATCATCTCAT CAGTGCAGCG GCCTCACTGC 
    TCTAATGTTT CTGCAAAGAA CCTACAGCAG CAGCTGGAGC TCCTTGAGGA GGACAGCATG 
    AAGTGGCGTG CCAAAGCTGA GGAGTATGGA CGGACCCTGT CCCGTAGTGT GGAGTACTGC 
    GCCATGAGAG ACGAGATAAA TGAGCTCAAA GACTCATTCA AAGATATCAA AAAGAAATTC 
    AATAATTTGA AGTTTAATTA CACTAAGAAA AATGAAAAAT CTCGGAATCT GAAGGCGCTT 
    AAATATCAAA TTCAGCAAGT TGATATGTAT GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA 
    ATGGAAAAAG TTAGTAATAA AACCTCTGAT TCTTTCTTAA ATTATCCAAG TGATAAAGTT 
    AATGTCCTTT TGGAAGTCAT GAAGGATTTG CAAAAACATG TGGATGACTT TGACAAAGTT 
    GTGACAGATT ACAAGAAGAA TTTGGACCTG ACTGAGCATT TCCAGGAGGT GATAGAAGAG 
    TGTCATTTTT GGTACGAAGA TGCAAGTGCC ACAGTTGTAA GAGTTGGAAA ATATTCCACA 
    GAGTGCAAGA CAAAGGAAGC TGTGAAAATT CTCCACCAGC AGTTTAATAA GTTTATTGCA 
    CCCTCAGTGC CGCAGCAAGA AGAAAGGATT CAGGAGGCCA CTGACCTTGC TCAGCACTTA 
    TATGGTTTGG AAGAAGGACA GAAATATATT GAGAAAATAG TGACAAAACA CAAAGAGGTT 
    CTTGAATCTG TGACTGAATT ATGTGAGTCC CTCACAGAGC TCGAAGAAAA ACTGAAGCAG 
    GGAGATGTTT TAAAGATGAA TCCGAATTTG GAAGACTTCC ATTATGATTA CATTGACTTG 
    CTAAAGGAAC CAGCAAAAAA TAAGCAGACA ATATTCAATG AAGAAAGGAA TAAGGGGCAG 
    GTGCAGGTGG CAGATCTTTT GGGCATCAAT GGAACAGGGG AAGAGCGACT ACCACAAGAC 
    CTGAAGGTGT CCACTGACAA GGAGGGTGGC GTCCAGGACC TGCTCCTGCC TGAAGACATG 
    CTCTCAGGGG AAGAATATGA GTGTGTCTCA CCTGATGACA TCTCCTTGCC TCCTCTCCCA 
    GGAAGCCCTG AGTCCCCTCT TGCACCATCT GACATGGAGG TGGAAGAGCC TGTCAGCTCC 
    TCCCTCAGCC TTCACATAAG CAGCTATGGG GTGCAGGCTG GGACCAGCAG CCCAGGGGAT 
    GCCCAGGAAT CTGTTCTTCC ACCACCTGTT GCCTTTGCGG ATGCATGCAA TGATAAGAGA 
    GAAACATTTT CAAGTCATTT TGAGAGGCCT TACCTCCAGT TCAAAGCTGA GCCCCCACTA 
    ACCTCCAGAG GATTCGTGGA AAAGAGTACT GCCTTACACA GAATCAGTGC TGAACATCCA 
    GAGAGCATGA TGAGTGAAGT GCATGAGAGA GCTTTACAGC AGCACCCTCA GGCTCAGGGT 
    GGTTTGCTAG AAACACGGGA GAAAATGCAT GCTGATAATA ACTTCACTAA AACCCAAGAT 
    AGGCTGCATG CTTCCTCTGA TGCATTCTCG GGCCTCAGGT TTCAATCAGG CACCAGCAGG 
    GGCTATCAGA GGCAAATGGT TCCTCGAGAA GAGATTAAAA GCACATCAGC AAAGAGCAGC 
    GTGGTCAGCC TAGCTGACCA GGCACCTAAT TTCTCCAGGC TCCTGTCTAA TGTAACTGTC 
    ATGGAAGGTT CTCCAGTGAC TTTGGAAGTT GAAGTAACAG GATTTCCAGA GCCTACACTG 
    ACATGGTACA AGAAGGGCCA GAAATTGTCT GCAGATGGGC ACTTACAGGT TTTACACAAG 
    GAGACAAGGC ATTCGGTGTT CATTCCAAAG GTATGCAAGG CAGACGCAGG CCTCTATGTG 
    GCTCGGGCCC AAAACTCTAG CGGCGCTCTC TCTTCCAATG TCATCCTCCA CGTGACAGGT 
    AACTGCAGGC TGCCAATCAC AAGAGTAAAC TGGATAACCC TGTGTGTCGT CTATGTTAGT 
    GTGTCCCTAA TGTACTGGCT CCTCACACAA TAA

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

    CCDC141 ( NM_173648.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_775919.3 Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant 1, mRNA.
    Price & Availability↑
    CloneID OHu21283
    Clone ID Related Accession (Same CDS sequence) NM_173648.3 , NM_173648.4
    Accession Version NM_173648.4 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 2019-08-08
    Organism Homo sapiens(human)
    Product coiled-coil domain-containing protein 141 isoform 1
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC092640.3, AL832777.1, AC093792.2, BC115378.2, AC023270.7 and AK096821.1. On Jun 2, 2019 this sequence version replaced NM_173648.3. Sequence Note: This RefSeq record was created from transcript and genomic sequence data because no single transcript was available for the full length of the gene. The transcript structure is predicted based on partial transcript alignments; it is unclear if this exon combination exists in vivo. ##Evidence-Data-START## Transcript exon combination :: SRR1803612.276753.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## RefSeq Select criteria :: based on conservation, 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
    4321
    4381
    4441
    4501
    4561
    ATGTCCAGCC AAGGAAGTCC TAGTGTTGCG 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 
    GTCTATGATG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCTCTGGT GTCCATGCTT 
    GAAAGAAGAA CAGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTAGAGTTT 
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAGTGCT 
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGG 
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT 
    GAAGGACCTA ATGTGAATCC TGAGTTGACT CAGGGAGCTC ATAGCAGCTG TCTGAAGGTT 
    GACCGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAAC TAGACAAGTA CTTGAAGCAA 
    CAGTGGCAAG AATTGAGTCA AGTTCTGCAG ATATGTCAGT GGGACCAACA AGAAAACCAG 
    GTTACTTGTT GGTTTCAGAA AACTATAAGA AATTTACAGG AACAAAGTCT AGGTTCATCA 
    CTTTCAGACA ATGAGGATCG AATTCATAAG CAAGAGGAAC TGATAATAAA AGCAAAGGAA 
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GAGGCACTGA GAATTCTGCT GTCAAAGGAC 
    TACGTGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TCAGTCAGCT TCAAGAAGAA 
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCGAATGA ATTTTTTAAC 
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA 
    TCAGAGGGTT TAAGTCTGGC TGTTTTGGCA GTGAGGCATG AGGAATTACA CAGAAAAATT 
    AAAGACTGCA CAACTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC 
    TGCAGCTCTC AGGTGTCCGG CATCCATGAG ATGATGGGGT GCATTAAGAG ACGAGTGGAT 
    CATCTGACCG AACAGTGTTC AGCGCACAAG GAATATGCTC TTAAGAAACA ACAACTAACA 
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTA 
    CTTTCTAATG CAATGGATGT TGGTTCTACC CGTTCTGAAT CAGAGAAGAT TTTGAATAAA 
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA 
    ACCATGATGG AGAAAAATGA ATTTGTATCT GATGAAATGG TATCACTTTC CTCTAAAGCT 
    AGATGGCTAG CAGAAGAATT AAACCTATTT GGCCAAAGCA TTGACTATAG ATCGCAAGTC 
    CTGCAAACTT ACGTGGCATT TCTGAAGTCA TCAGAGGAGG TAGAGATGCA GTTTCAGAGC 
    TTAAAAGAAT TTTATGAAAC CGAAATCCCT CAGAAGGAGC AGGATGATGC TAAAGCCAAG 
    CATTGTTCTG ACTCGGCTGA GAAGCAGTGG CAGCTATTTT TAAAGAAGAG TTTTATAACA 
    CAAGATCTAG GGCTTGAGTT CCTTAATTTA ATAAATATGG CAAAAGAGAA CGAGATATTA 
    GATGTGAAAA ATGAAGTGTA CCTCATGAAG AACACCATGG AAAACCAGAA AGCAGAACGG 
    GAAGAACTTA GCCTCCTTCG GCTGGCATGG CAGCTTAAAG CCACGGAAAG CAAGCCTGGA 
    AAACAGCAGT GGGCGGCATT CAAAGAGCAA CTTAAAAAGA CTTCTCACAA CTTAAAACTT 
    CTTCAGGAAG CACTTATGCC TGTGTCTGCA CTTGACCTCG GAGGGAGCCT CCAGTTCATT 
    TTAGATCTAC GACAAAAATG GAATGACATG AAGCCTCAGT TCCAGCAATT GAATGATGAG 
    GTTCAGTACA TTATGAAAGA ATCAGAGGAG TTAACTGGCA GAGGAGCCCC TGTAAAAGAA 
    AAGTCTCAAC AACTGAAGGA CCTTATTCAC TTCCATCAAA AACAGAAAGA GAGAATCCAG 
    GATTACGAGG ATATCCTGTA CAAGGTGGTC CAGTTCCATC AAGTCAAGGA AGAGCTGGGA 
    CGTCTCATCA AATCAAGAGA GCTGGAGTTT GTAGAGCAGC CGAAGGAACT GGGTGATGCC 
    CATGATGTGC AGATTCACCT CCGGTGCTCT CAGGAAAAGC AAGCCCGTGT AGACCATCTC 
    CACAGACTGG CCCTTTCCTT AGGAGTCGAC ATCATCTCAT CAGTGCAGCG GCCTCACTGC 
    TCTAATGTTT CTGCAAAGAA CCTACAGCAG CAGCTGGAGC TCCTTGAGGA GGACAGCATG 
    AAGTGGCGTG CCAAAGCTGA GGAGTATGGA CGGACCCTGT CCCGTAGTGT GGAGTACTGC 
    GCCATGAGAG ACGAGATAAA TGAGCTCAAA GACTCATTCA AAGATATCAA AAAGAAATTC 
    AATAATTTGA AGTTTAATTA CACTAAGAAA AATGAAAAAT CTCGGAATCT GAAGGCGCTT 
    AAATATCAAA TTCAGCAAGT TGATATGTAT GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA 
    ATGGAAAAAG TTAGTAATAA AACCTCTGAT TCTTTCTTAA ATTATCCAAG TGATAAAGTT 
    AATGTCCTTT TGGAAGTCAT GAAGGATTTG CAAAAACATG TGGATGACTT TGACAAAGTT 
    GTGACAGATT ACAAGAAGAA TTTGGACCTG ACTGAGCATT TCCAGGAGGT GATAGAAGAG 
    TGTCATTTTT GGTACGAAGA TGCAAGTGCC ACAGTTGTAA GAGTTGGAAA ATATTCCACA 
    GAGTGCAAGA CAAAGGAAGC TGTGAAAATT CTCCACCAGC AGTTTAATAA GTTTATTGCA 
    CCCTCAGTGC CGCAGCAAGA AGAAAGGATT CAGGAGGCCA CTGACCTTGC TCAGCACTTA 
    TATGGTTTGG AAGAAGGACA GAAATATATT GAGAAAATAG TGACAAAACA CAAAGAGGTT 
    CTTGAATCTG TGACTGAATT ATGTGAGTCC CTCACAGAGC TCGAAGAAAA ACTGAAGCAG 
    GGAGATGTTT TAAAGATGAA TCCGAATTTG GAAGACTTCC ATTATGATTA CATTGACTTG 
    CTAAAGGAAC CAGCAAAAAA TAAGCAGACA ATATTCAATG AAGAAAGGAA TAAGGGGCAG 
    GTGCAGGTGG CAGATCTTTT GGGCATCAAT GGAACAGGGG AAGAGCGACT ACCACAAGAC 
    CTGAAGGTGT CCACTGACAA GGAGGGTGGC GTCCAGGACC TGCTCCTGCC TGAAGACATG 
    CTCTCAGGGG AAGAATATGA GTGTGTCTCA CCTGATGACA TCTCCTTGCC TCCTCTCCCA 
    GGAAGCCCTG AGTCCCCTCT TGCACCATCT GACATGGAGG TGGAAGAGCC TGTCAGCTCC 
    TCCCTCAGCC TTCACATAAG CAGCTATGGG GTGCAGGCTG GGACCAGCAG CCCAGGGGAT 
    GCCCAGGAAT CTGTTCTTCC ACCACCTGTT GCCTTTGCGG ATGCATGCAA TGATAAGAGA 
    GAAACATTTT CAAGTCATTT TGAGAGGCCT TACCTCCAGT TCAAAGCTGA GCCCCCACTA 
    ACCTCCAGAG GATTCGTGGA AAAGAGTACT GCCTTACACA GAATCAGTGC TGAACATCCA 
    GAGAGCATGA TGAGTGAAGT GCATGAGAGA GCTTTACAGC AGCACCCTCA GGCTCAGGGT 
    GGTTTGCTAG AAACACGGGA GAAAATGCAT GCTGATAATA ACTTCACTAA AACCCAAGAT 
    AGGCTGCATG CTTCCTCTGA TGCATTCTCG GGCCTCAGGT TTCAATCAGG CACCAGCAGG 
    GGCTATCAGA GGCAAATGGT TCCTCGAGAA GAGATTAAAA GCACATCAGC AAAGAGCAGC 
    GTGGTCAGCC TAGCTGACCA GGCACCTAAT TTCTCCAGGC TCCTGTCTAA TGTAACTGTC 
    ATGGAAGGTT CTCCAGTGAC TTTGGAAGTT GAAGTAACAG GATTTCCAGA GCCTACACTG 
    ACATGGTACA AGAAGGGCCA GAAATTGTCT GCAGATGGGC ACTTACAGGT TTTACACAAG 
    GAGACAAGGC ATTCGGTGTT CATTCCAAAG GTATGCAAGG CAGACGCAGG CCTCTATGTG 
    GCTCGGGCCC AAAACTCTAG CGGCGCTCTC TCTTCCAATG TCATCCTCCA CGTGACAGGT 
    AACTGCAGGC TGCCAATCAC AAGAGTAAAC TGGATAACCC TGTGTGTCGT CTATGTTAGT 
    GTGTCCCTAA TGTACTGGCT CCTCACACAA TAA

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

    RefSeq NP_775919.3
    CDS197..4789
    Translation

    Target ORF information:

    RefSeq Version NM_173648.4
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_173648.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTCCAGCC AAGGAAGTCC TAGTGTTGCG 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 
    GTCTATGATG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCTCTGGT GTCCATGCTT 
    GAAAGAAGAA CAGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTAGAGTTT 
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAGTGCT 
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGG 
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT 
    GAAGGACCTA ATGTGAATCC TGAGTTGACT CAGGGAGCTC ATAGCAGCTG TCTGAAGGTT 
    GACCGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAAC TAGACAAGTA CTTGAAGCAA 
    CAGTGGCAAG AATTGAGTCA AGTTCTGCAG ATATGTCAGT GGGACCAACA AGAAAACCAG 
    GTTACTTGTT GGTTTCAGAA AACTATAAGA AATTTACAGG AACAAAGTCT AGGTTCATCA 
    CTTTCAGACA ATGAGGATCG AATTCATAAG CAAGAGGAAC TGATAATAAA AGCAAAGGAA 
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GAGGCACTGA GAATTCTGCT GTCAAAGGAC 
    TACGTGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TCAGTCAGCT TCAAGAAGAA 
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCGAATGA ATTTTTTAAC 
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA 
    TCAGAGGGTT TAAGTCTGGC TGTTTTGGCA GTGAGGCATG AGGAATTACA CAGAAAAATT 
    AAAGACTGCA CAACTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC 
    TGCAGCTCTC AGGTGTCCGG CATCCATGAG ATGATGGGGT GCATTAAGAG ACGAGTGGAT 
    CATCTGACCG AACAGTGTTC AGCGCACAAG GAATATGCTC TTAAGAAACA ACAACTAACA 
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTA 
    CTTTCTAATG CAATGGATGT TGGTTCTACC CGTTCTGAAT CAGAGAAGAT TTTGAATAAA 
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA 
    ACCATGATGG AGAAAAATGA ATTTGTATCT GATGAAATGG TATCACTTTC CTCTAAAGCT 
    AGATGGCTAG CAGAAGAATT AAACCTATTT GGCCAAAGCA TTGACTATAG ATCGCAAGTC 
    CTGCAAACTT ACGTGGCATT TCTGAAGTCA TCAGAGGAGG TAGAGATGCA GTTTCAGAGC 
    TTAAAAGAAT TTTATGAAAC CGAAATCCCT CAGAAGGAGC AGGATGATGC TAAAGCCAAG 
    CATTGTTCTG ACTCGGCTGA GAAGCAGTGG CAGCTATTTT TAAAGAAGAG TTTTATAACA 
    CAAGATCTAG GGCTTGAGTT CCTTAATTTA ATAAATATGG CAAAAGAGAA CGAGATATTA 
    GATGTGAAAA ATGAAGTGTA CCTCATGAAG AACACCATGG AAAACCAGAA AGCAGAACGG 
    GAAGAACTTA GCCTCCTTCG GCTGGCATGG CAGCTTAAAG CCACGGAAAG CAAGCCTGGA 
    AAACAGCAGT GGGCGGCATT CAAAGAGCAA CTTAAAAAGA CTTCTCACAA CTTAAAACTT 
    CTTCAGGAAG CACTTATGCC TGTGTCTGCA CTTGACCTCG GAGGGAGCCT CCAGTTCATT 
    TTAGATCTAC GACAAAAATG GAATGACATG AAGCCTCAGT TCCAGCAATT GAATGATGAG 
    GTTCAGTACA TTATGAAAGA ATCAGAGGAG TTAACTGGCA GAGGAGCCCC TGTAAAAGAA 
    AAGTCTCAAC AACTGAAGGA CCTTATTCAC TTCCATCAAA AACAGAAAGA GAGAATCCAG 
    GATTACGAGG ATATCCTGTA CAAGGTGGTC CAGTTCCATC AAGTCAAGGA AGAGCTGGGA 
    CGTCTCATCA AATCAAGAGA GCTGGAGTTT GTAGAGCAGC CGAAGGAACT GGGTGATGCC 
    CATGATGTGC AGATTCACCT CCGGTGCTCT CAGGAAAAGC AAGCCCGTGT AGACCATCTC 
    CACAGACTGG CCCTTTCCTT AGGAGTCGAC ATCATCTCAT CAGTGCAGCG GCCTCACTGC 
    TCTAATGTTT CTGCAAAGAA CCTACAGCAG CAGCTGGAGC TCCTTGAGGA GGACAGCATG 
    AAGTGGCGTG CCAAAGCTGA GGAGTATGGA CGGACCCTGT CCCGTAGTGT GGAGTACTGC 
    GCCATGAGAG ACGAGATAAA TGAGCTCAAA GACTCATTCA AAGATATCAA AAAGAAATTC 
    AATAATTTGA AGTTTAATTA CACTAAGAAA AATGAAAAAT CTCGGAATCT GAAGGCGCTT 
    AAATATCAAA TTCAGCAAGT TGATATGTAT GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA 
    ATGGAAAAAG TTAGTAATAA AACCTCTGAT TCTTTCTTAA ATTATCCAAG TGATAAAGTT 
    AATGTCCTTT TGGAAGTCAT GAAGGATTTG CAAAAACATG TGGATGACTT TGACAAAGTT 
    GTGACAGATT ACAAGAAGAA TTTGGACCTG ACTGAGCATT TCCAGGAGGT GATAGAAGAG 
    TGTCATTTTT GGTACGAAGA TGCAAGTGCC ACAGTTGTAA GAGTTGGAAA ATATTCCACA 
    GAGTGCAAGA CAAAGGAAGC TGTGAAAATT CTCCACCAGC AGTTTAATAA GTTTATTGCA 
    CCCTCAGTGC CGCAGCAAGA AGAAAGGATT CAGGAGGCCA CTGACCTTGC TCAGCACTTA 
    TATGGTTTGG AAGAAGGACA GAAATATATT GAGAAAATAG TGACAAAACA CAAAGAGGTT 
    CTTGAATCTG TGACTGAATT ATGTGAGTCC CTCACAGAGC TCGAAGAAAA ACTGAAGCAG 
    GGAGATGTTT TAAAGATGAA TCCGAATTTG GAAGACTTCC ATTATGATTA CATTGACTTG 
    CTAAAGGAAC CAGCAAAAAA TAAGCAGACA ATATTCAATG AAGAAAGGAA TAAGGGGCAG 
    GTGCAGGTGG CAGATCTTTT GGGCATCAAT GGAACAGGGG AAGAGCGACT ACCACAAGAC 
    CTGAAGGTGT CCACTGACAA GGAGGGTGGC GTCCAGGACC TGCTCCTGCC TGAAGACATG 
    CTCTCAGGGG AAGAATATGA GTGTGTCTCA CCTGATGACA TCTCCTTGCC TCCTCTCCCA 
    GGAAGCCCTG AGTCCCCTCT TGCACCATCT GACATGGAGG TGGAAGAGCC TGTCAGCTCC 
    TCCCTCAGCC TTCACATAAG CAGCTATGGG GTGCAGGCTG GGACCAGCAG CCCAGGGGAT 
    GCCCAGGAAT CTGTTCTTCC ACCACCTGTT GCCTTTGCGG ATGCATGCAA TGATAAGAGA 
    GAAACATTTT CAAGTCATTT TGAGAGGCCT TACCTCCAGT TCAAAGCTGA GCCCCCACTA 
    ACCTCCAGAG GATTCGTGGA AAAGAGTACT GCCTTACACA GAATCAGTGC TGAACATCCA 
    GAGAGCATGA TGAGTGAAGT GCATGAGAGA GCTTTACAGC AGCACCCTCA GGCTCAGGGT 
    GGTTTGCTAG AAACACGGGA GAAAATGCAT GCTGATAATA ACTTCACTAA AACCCAAGAT 
    AGGCTGCATG CTTCCTCTGA TGCATTCTCG GGCCTCAGGT TTCAATCAGG CACCAGCAGG 
    GGCTATCAGA GGCAAATGGT TCCTCGAGAA GAGATTAAAA GCACATCAGC AAAGAGCAGC 
    GTGGTCAGCC TAGCTGACCA GGCACCTAAT TTCTCCAGGC TCCTGTCTAA TGTAACTGTC 
    ATGGAAGGTT CTCCAGTGAC TTTGGAAGTT GAAGTAACAG GATTTCCAGA GCCTACACTG 
    ACATGGTACA AGAAGGGCCA GAAATTGTCT GCAGATGGGC ACTTACAGGT TTTACACAAG 
    GAGACAAGGC ATTCGGTGTT CATTCCAAAG GTATGCAAGG CAGACGCAGG CCTCTATGTG 
    GCTCGGGCCC AAAACTCTAG CGGCGCTCTC TCTTCCAATG TCATCCTCCA CGTGACAGGT 
    AACTGCAGGC TGCCAATCAC AAGAGTAAAC TGGATAACCC TGTGTGTCGT CTATGTTAGT 
    GTGTCCCTAA TGTACTGGCT CCTCACACAA TAA

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

    CCDC141 ( XM_011510991.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011509293.1 Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OHu78894
    Clone ID Related Accession (Same CDS sequence) XM_011510991.2 , XM_011510991.3
    Accession Version XM_011510991.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4677bp)
    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 141 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011510991.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGTCCAGCC AAGGAAGTCC TAGTGTTGCG 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 
    GTCTATGATG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCTCTGGT GTCCATGCTT 
    GAAAGAAGAA CAGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTAGAGTTT 
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAGTGCT 
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGG 
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT 
    GAAGGACCTA ATGTGAATCC TGAGTTGACT CAGGGAGCTC ATAGCAGCTG TCTGAAGGTT 
    GACCGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAAC TAGACAAGTA CTTGAAGCAA 
    CAGTGGCAAG AATTGAGTCA AGTTCTGCAG ATATGTCAGT GGGACCAACA AGAAAACCAG 
    GTTACTTGTT GGTTTCAGAA AACTATAAGA AATTTACAGG AACAAAGTCT AGGTTCATCA 
    CTTTCAGACA ATGAGGATCG AATTCATAAG CAAGAGGAAC TGATAATAAA AGCAAAGGAA 
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GAGGCACTGA GAATTCTGCT GTCAAAGGAC 
    TACGTGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TCAGTCAGCT TCAAGAAGAA 
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCGAATGA ATTTTTTAAC 
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA 
    TCAGAGGGTT TAAGTCTGGC TGTTTTGGCA GTGAGGCATG AGGAATTACA CAGAAAAATT 
    AAAGACTGCA CAACTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC 
    TGCAGCTCTC AGGTGTCCGG CATCCATGAG ATGATGGGGT GCATTAAGAG ACGAGTGGAT 
    CATCTGACCG AACAGTGTTC AGCGCACAAG GAATATGCTC TTAAGAAACA ACAACTAACA 
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTA 
    CTTTCTAATG CAATGGATGT TGGTTCTACC CGTTCTGAAT CAGAGAAGAT TTTGAATAAA 
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA 
    ACCATGATGG AGAAAAATGA ATTTGTATCT GATGAAATGG TATCACTTTC CTCTAAAGCT 
    AGATGGCTAG CAGAAGAATT AAACCTATTT GGCCAAAGCA TTGACTATAG ATCGCAAGTC 
    CTGCAAACTT ACGTGGCATT TCTGAAGTCA TCAGAGGAGG TAGAGATGCA GTTTCAGAGC 
    TTAAAAGAAT TTTATGAAAC CGAAATCCCT CAGAAGGAGC AGGATGATGC TAAAGCCAAG 
    CATTGTTCTG ACTCGGCTGA GAAGCAGTGG CAGCTATTTT TAAAGAAGAG TTTTATAACA 
    CAAGATCTAG GGCTTGAGTT CCTTAATTTA ATAAATATGG CAAAAGAGAA CGAGATATTA 
    GATGTGAAAA ATGAAGTGTA CCTCATGAAG AACACCATGG AAAACCAGAA AGCAGAACGG 
    GAAGAACTTA GCCTCCTTCG GCTGGCATGG CAGCTTAAAG CCACGGAAAG CAAGCCTGGA 
    AAACAGCAGT GGGCGGCATT CAAAGAGCAA CTTAAAAAGA CTTCTCACAA CTTAAAACTT 
    CTTCAGGAAG CACTTATGCC TGTGTCTGCA CTTGACCTCG GAGGGAGCCT CCAGTTCATT 
    TTAGATCTAC GACAAAAATG GAATGACATG AAGCCTCAGT TCCAGCAATT GAATGATGAG 
    GTTCAGTACA TTATGAAAGA ATCAGAGGAG TTAACTGGCA GAGGAGCCCC TGTAAAAGAA 
    AAGTCTCAAC AACTGAAGGA CCTTATTCAC TTCCATCAAA AACAGAAAGA GAGAATCCAG 
    GATTACGAGG ATATCCTGTA CAAGGTGGTC CAGTTCCATC AAGTCAAGGA AGAGCTGGGA 
    CGTCTCATCA AATCAAGAGA GCTGGAGTTT GTAGAGCAGC CGAAGGAACT GGGTGATGCC 
    CATGATGTGC AGATTCACCT CCGGTGCTCT CAGGAAAAGC AAGCCCGTGT AGACCATCTC 
    CACAGACTGG CCCTTTCCTT AGGAGTCGAC ATCATCTCAT CAGTGCAGCG GCCTCACTGC 
    TCTAATGTTT CTGCAAAGAA CCTACAGCAG CAGCTGGAGC TCCTTGAGGA GGACAGCATG 
    AAGTGGCGTG CCAAAGCTGA GGAGTATGGA CGGACCCTGT CCCGTAGTGT GGAGTACTGC 
    GCCATGAGAG ACGAGATAAA TGAGCTCAAA GACTCATTCA AAGATATCAA AAAGAAATTC 
    AATAATTTGA AGTTTAATTA CACTAAGAAA AATGAAAAAT CTCGGAATCT GAAGGCGCTT 
    AAATATCAAA TTCAGCAAGT TGATATGTAT GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA 
    ATGGAAAAAG TTAGTAATAA AACCTCTGAT TCTTTCTTAA ATTATCCAAG TGATAAAGTT 
    AATGTCCTTT TGGAAGTCAT GAAGGATTTG CAAAAACATG TGGATGACTT TGACAAAGTT 
    GTGACAGATT ACAAGAAGAA TTTGGACCTG ACTGAGCATT TCCAGGAGGT GATAGAAGAG 
    TGTCATTTTT GGTACGAAGA TGCAAGTGCC ACAGTTGTAA GAGTTGGAAA ATATTCCACA 
    GAGTGCAAGA CAAAGGAAGC TGTGAAAATT CTCCACCAGC AGTTTAATAA GTTTATTGCA 
    CCCTCAGTGC CGCAGCAAGA AGAAAGGATT CAGGAGGCCA CTGACCTTGC TCAGCACTTA 
    TATGGTTTGG AAGAAGGACA GAAATATATT GAGAAAATAG TGACAAAACA CAAAGAGGTT 
    CTTGAATCTG TGACTGAATT ATGTGAGTCC CTCACAGAGC TCGAAGAAAA ACTGAAGCAG 
    GGAGATGTTT TAAAGATGAA TCCGAATTTG GAAGACTTCC ATTATGATTA CATTGACTTG 
    CTAAAGGAAC CAGCAAAAAA TAAGCAGACA ATATTCAATG AAGAAAGGAA TAAGGGGCAG 
    GTGCAGGTGG CAGATCTTTT GGGCATCAAT GGAACAGGGG AAGAGCGACT ACCACAAGAC 
    CTGAAGGTGT CCACTGACAA GGAGGGTGGC GTCCAGGACC TGCTCCTGCC TGAAGACATG 
    CTCTCAGGGG AAGAATATGA GTGTGTCTCA CCTGATGACA TCTCCTTGCC TCCTCTCCCA 
    GGAAGCCCTG AGTCCCCTCT TGCACCATCT GACATGGAGG TGGAAGAGCC TGTCAGCTCC 
    TCCCTCAGCC TTCACATAAG CAGCTATGGG GTGCAGGCTG GGACCAGCAG CCCAGGGGAT 
    GCCCAGGAAT CTGTTCTTCC ACCACCTGTT GCCTTTGCGG ATGCATGCAA TGATAAGAGA 
    GAAACATTTT CAAGTCATTT TGAGAGGCCT TACCTCCAGT TCAAAGCTGA GCCCCCACTA 
    ACCTCCAGAG GATTCGTGGA AAAGAGTACT GCCTTACACA GAATCAGTGC TGAACATCCA 
    GAGAGCATGA TGAGTGAAGT GCATGAGAGA GCTTTACAGC AGCACCCTCA GGCTCAGGGT 
    GGTTTGCTAG AAACACGGGA GAAAATGCAT GCTGATAATA ACTTCACTAA AACCCAAGAT 
    AGGCTGCATG CTTCCTCTGA TGCATTCTCG GGCCTCAGGT TTCAATCAGG CACCAGCAGG 
    GGCTATCAGA GGCAAATGGT TCCTCGAGAA GAGATTAAAA GCACATCAGC AAAGAGCAGC 
    GTGGTCAGCC TAGCTGACCA GGCACCTAAT TTCTCCAGGC TCCTGTCTAA TGTAACTGTC 
    ATGGAAGGTT CTCCAGTGAC TTTGGAAGTT GAAGTAACAG GATTTCCAGA GCCTACACTG 
    ACATGGGGTA GCTGGATATC TGAATTTTCA TATGCAATAT TCCAATTTTT AAAGGATTTC 
    AAAAAATTCA GTTTTCCAAA AACATTGTCT GAGCCAGTCA AAGCAATTCT CTCGCCACCA 
    GTTGCCAACT TCTGCTTGAA AGATAAACAG CGCATAATAC CAGCTACTCA GGAGGCTGAG 
    GCAGGCAGAT TGCTTGAAAC CAGGAGTTCA AGACCAGCCT GGGTACAAGA AGGGCCAGAA 
    ATTGTCTGCA GATGGGCACT TACAGGTTTT ACACAAGGAG ACAAGGCATT CGGTGTTCAT 
    TCCAAAGGTA TGCAAGGCAG ACGCAGGCCT CTATGTGGCT CGGGCCCAAA ACTCTAG

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

    RefSeq XP_011509293.1
    CDS194..4870
    Translation

    Target ORF information:

    RefSeq Version XM_011510991.2
    Organism Homo sapiens(human)
    Definition Homo sapiens 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_011510991.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGTCCAGCC AAGGAAGTCC TAGTGTTGCG 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 
    GTCTATGATG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCTCTGGT GTCCATGCTT 
    GAAAGAAGAA CAGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTAGAGTTT 
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAGTGCT 
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGG 
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT 
    GAAGGACCTA ATGTGAATCC TGAGTTGACT CAGGGAGCTC ATAGCAGCTG TCTGAAGGTT 
    GACCGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAAC TAGACAAGTA CTTGAAGCAA 
    CAGTGGCAAG AATTGAGTCA AGTTCTGCAG ATATGTCAGT GGGACCAACA AGAAAACCAG 
    GTTACTTGTT GGTTTCAGAA AACTATAAGA AATTTACAGG AACAAAGTCT AGGTTCATCA 
    CTTTCAGACA ATGAGGATCG AATTCATAAG CAAGAGGAAC TGATAATAAA AGCAAAGGAA 
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GAGGCACTGA GAATTCTGCT GTCAAAGGAC 
    TACGTGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TCAGTCAGCT TCAAGAAGAA 
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCGAATGA ATTTTTTAAC 
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA 
    TCAGAGGGTT TAAGTCTGGC TGTTTTGGCA GTGAGGCATG AGGAATTACA CAGAAAAATT 
    AAAGACTGCA CAACTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC 
    TGCAGCTCTC AGGTGTCCGG CATCCATGAG ATGATGGGGT GCATTAAGAG ACGAGTGGAT 
    CATCTGACCG AACAGTGTTC AGCGCACAAG GAATATGCTC TTAAGAAACA ACAACTAACA 
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTA 
    CTTTCTAATG CAATGGATGT TGGTTCTACC CGTTCTGAAT CAGAGAAGAT TTTGAATAAA 
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA 
    ACCATGATGG AGAAAAATGA ATTTGTATCT GATGAAATGG TATCACTTTC CTCTAAAGCT 
    AGATGGCTAG CAGAAGAATT AAACCTATTT GGCCAAAGCA TTGACTATAG ATCGCAAGTC 
    CTGCAAACTT ACGTGGCATT TCTGAAGTCA TCAGAGGAGG TAGAGATGCA GTTTCAGAGC 
    TTAAAAGAAT TTTATGAAAC CGAAATCCCT CAGAAGGAGC AGGATGATGC TAAAGCCAAG 
    CATTGTTCTG ACTCGGCTGA GAAGCAGTGG CAGCTATTTT TAAAGAAGAG TTTTATAACA 
    CAAGATCTAG GGCTTGAGTT CCTTAATTTA ATAAATATGG CAAAAGAGAA CGAGATATTA 
    GATGTGAAAA ATGAAGTGTA CCTCATGAAG AACACCATGG AAAACCAGAA AGCAGAACGG 
    GAAGAACTTA GCCTCCTTCG GCTGGCATGG CAGCTTAAAG CCACGGAAAG CAAGCCTGGA 
    AAACAGCAGT GGGCGGCATT CAAAGAGCAA CTTAAAAAGA CTTCTCACAA CTTAAAACTT 
    CTTCAGGAAG CACTTATGCC TGTGTCTGCA CTTGACCTCG GAGGGAGCCT CCAGTTCATT 
    TTAGATCTAC GACAAAAATG GAATGACATG AAGCCTCAGT TCCAGCAATT GAATGATGAG 
    GTTCAGTACA TTATGAAAGA ATCAGAGGAG TTAACTGGCA GAGGAGCCCC TGTAAAAGAA 
    AAGTCTCAAC AACTGAAGGA CCTTATTCAC TTCCATCAAA AACAGAAAGA GAGAATCCAG 
    GATTACGAGG ATATCCTGTA CAAGGTGGTC CAGTTCCATC AAGTCAAGGA AGAGCTGGGA 
    CGTCTCATCA AATCAAGAGA GCTGGAGTTT GTAGAGCAGC CGAAGGAACT GGGTGATGCC 
    CATGATGTGC AGATTCACCT CCGGTGCTCT CAGGAAAAGC AAGCCCGTGT AGACCATCTC 
    CACAGACTGG CCCTTTCCTT AGGAGTCGAC ATCATCTCAT CAGTGCAGCG GCCTCACTGC 
    TCTAATGTTT CTGCAAAGAA CCTACAGCAG CAGCTGGAGC TCCTTGAGGA GGACAGCATG 
    AAGTGGCGTG CCAAAGCTGA GGAGTATGGA CGGACCCTGT CCCGTAGTGT GGAGTACTGC 
    GCCATGAGAG ACGAGATAAA TGAGCTCAAA GACTCATTCA AAGATATCAA AAAGAAATTC 
    AATAATTTGA AGTTTAATTA CACTAAGAAA AATGAAAAAT CTCGGAATCT GAAGGCGCTT 
    AAATATCAAA TTCAGCAAGT TGATATGTAT GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA 
    ATGGAAAAAG TTAGTAATAA AACCTCTGAT TCTTTCTTAA ATTATCCAAG TGATAAAGTT 
    AATGTCCTTT TGGAAGTCAT GAAGGATTTG CAAAAACATG TGGATGACTT TGACAAAGTT 
    GTGACAGATT ACAAGAAGAA TTTGGACCTG ACTGAGCATT TCCAGGAGGT GATAGAAGAG 
    TGTCATTTTT GGTACGAAGA TGCAAGTGCC ACAGTTGTAA GAGTTGGAAA ATATTCCACA 
    GAGTGCAAGA CAAAGGAAGC TGTGAAAATT CTCCACCAGC AGTTTAATAA GTTTATTGCA 
    CCCTCAGTGC CGCAGCAAGA AGAAAGGATT CAGGAGGCCA CTGACCTTGC TCAGCACTTA 
    TATGGTTTGG AAGAAGGACA GAAATATATT GAGAAAATAG TGACAAAACA CAAAGAGGTT 
    CTTGAATCTG TGACTGAATT ATGTGAGTCC CTCACAGAGC TCGAAGAAAA ACTGAAGCAG 
    GGAGATGTTT TAAAGATGAA TCCGAATTTG GAAGACTTCC ATTATGATTA CATTGACTTG 
    CTAAAGGAAC CAGCAAAAAA TAAGCAGACA ATATTCAATG AAGAAAGGAA TAAGGGGCAG 
    GTGCAGGTGG CAGATCTTTT GGGCATCAAT GGAACAGGGG AAGAGCGACT ACCACAAGAC 
    CTGAAGGTGT CCACTGACAA GGAGGGTGGC GTCCAGGACC TGCTCCTGCC TGAAGACATG 
    CTCTCAGGGG AAGAATATGA GTGTGTCTCA CCTGATGACA TCTCCTTGCC TCCTCTCCCA 
    GGAAGCCCTG AGTCCCCTCT TGCACCATCT GACATGGAGG TGGAAGAGCC TGTCAGCTCC 
    TCCCTCAGCC TTCACATAAG CAGCTATGGG GTGCAGGCTG GGACCAGCAG CCCAGGGGAT 
    GCCCAGGAAT CTGTTCTTCC ACCACCTGTT GCCTTTGCGG ATGCATGCAA TGATAAGAGA 
    GAAACATTTT CAAGTCATTT TGAGAGGCCT TACCTCCAGT TCAAAGCTGA GCCCCCACTA 
    ACCTCCAGAG GATTCGTGGA AAAGAGTACT GCCTTACACA GAATCAGTGC TGAACATCCA 
    GAGAGCATGA TGAGTGAAGT GCATGAGAGA GCTTTACAGC AGCACCCTCA GGCTCAGGGT 
    GGTTTGCTAG AAACACGGGA GAAAATGCAT GCTGATAATA ACTTCACTAA AACCCAAGAT 
    AGGCTGCATG CTTCCTCTGA TGCATTCTCG GGCCTCAGGT TTCAATCAGG CACCAGCAGG 
    GGCTATCAGA GGCAAATGGT TCCTCGAGAA GAGATTAAAA GCACATCAGC AAAGAGCAGC 
    GTGGTCAGCC TAGCTGACCA GGCACCTAAT TTCTCCAGGC TCCTGTCTAA TGTAACTGTC 
    ATGGAAGGTT CTCCAGTGAC TTTGGAAGTT GAAGTAACAG GATTTCCAGA GCCTACACTG 
    ACATGGGGTA GCTGGATATC TGAATTTTCA TATGCAATAT TCCAATTTTT AAAGGATTTC 
    AAAAAATTCA GTTTTCCAAA AACATTGTCT GAGCCAGTCA AAGCAATTCT CTCGCCACCA 
    GTTGCCAACT TCTGCTTGAA AGATAAACAG CGCATAATAC CAGCTACTCA GGAGGCTGAG 
    GCAGGCAGAT TGCTTGAAAC CAGGAGTTCA AGACCAGCCT GGGTACAAGA AGGGCCAGAA 
    ATTGTCTGCA GATGGGCACT TACAGGTTTT ACACAAGGAG ACAAGGCATT CGGTGTTCAT 
    TCCAAAGGTA TGCAAGGCAG ACGCAGGCCT CTATGTGGCT CGGGCCCAAA ACTCTAG

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

    CCDC141 ( XM_011510991.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011509293.1 Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OHu78894
    Clone ID Related Accession (Same CDS sequence) XM_011510991.2 , XM_011510991.3
    Accession Version XM_011510991.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4677bp)
    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 141 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011510991.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGTCCAGCC AAGGAAGTCC TAGTGTTGCG 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 
    GTCTATGATG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCTCTGGT GTCCATGCTT 
    GAAAGAAGAA CAGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTAGAGTTT 
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAGTGCT 
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGG 
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT 
    GAAGGACCTA ATGTGAATCC TGAGTTGACT CAGGGAGCTC ATAGCAGCTG TCTGAAGGTT 
    GACCGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAAC TAGACAAGTA CTTGAAGCAA 
    CAGTGGCAAG AATTGAGTCA AGTTCTGCAG ATATGTCAGT GGGACCAACA AGAAAACCAG 
    GTTACTTGTT GGTTTCAGAA AACTATAAGA AATTTACAGG AACAAAGTCT AGGTTCATCA 
    CTTTCAGACA ATGAGGATCG AATTCATAAG CAAGAGGAAC TGATAATAAA AGCAAAGGAA 
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GAGGCACTGA GAATTCTGCT GTCAAAGGAC 
    TACGTGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TCAGTCAGCT TCAAGAAGAA 
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCGAATGA ATTTTTTAAC 
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA 
    TCAGAGGGTT TAAGTCTGGC TGTTTTGGCA GTGAGGCATG AGGAATTACA CAGAAAAATT 
    AAAGACTGCA CAACTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC 
    TGCAGCTCTC AGGTGTCCGG CATCCATGAG ATGATGGGGT GCATTAAGAG ACGAGTGGAT 
    CATCTGACCG AACAGTGTTC AGCGCACAAG GAATATGCTC TTAAGAAACA ACAACTAACA 
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTA 
    CTTTCTAATG CAATGGATGT TGGTTCTACC CGTTCTGAAT CAGAGAAGAT TTTGAATAAA 
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA 
    ACCATGATGG AGAAAAATGA ATTTGTATCT GATGAAATGG TATCACTTTC CTCTAAAGCT 
    AGATGGCTAG CAGAAGAATT AAACCTATTT GGCCAAAGCA TTGACTATAG ATCGCAAGTC 
    CTGCAAACTT ACGTGGCATT TCTGAAGTCA TCAGAGGAGG TAGAGATGCA GTTTCAGAGC 
    TTAAAAGAAT TTTATGAAAC CGAAATCCCT CAGAAGGAGC AGGATGATGC TAAAGCCAAG 
    CATTGTTCTG ACTCGGCTGA GAAGCAGTGG CAGCTATTTT TAAAGAAGAG TTTTATAACA 
    CAAGATCTAG GGCTTGAGTT CCTTAATTTA ATAAATATGG CAAAAGAGAA CGAGATATTA 
    GATGTGAAAA ATGAAGTGTA CCTCATGAAG AACACCATGG AAAACCAGAA AGCAGAACGG 
    GAAGAACTTA GCCTCCTTCG GCTGGCATGG CAGCTTAAAG CCACGGAAAG CAAGCCTGGA 
    AAACAGCAGT GGGCGGCATT CAAAGAGCAA CTTAAAAAGA CTTCTCACAA CTTAAAACTT 
    CTTCAGGAAG CACTTATGCC TGTGTCTGCA CTTGACCTCG GAGGGAGCCT CCAGTTCATT 
    TTAGATCTAC GACAAAAATG GAATGACATG AAGCCTCAGT TCCAGCAATT GAATGATGAG 
    GTTCAGTACA TTATGAAAGA ATCAGAGGAG TTAACTGGCA GAGGAGCCCC TGTAAAAGAA 
    AAGTCTCAAC AACTGAAGGA CCTTATTCAC TTCCATCAAA AACAGAAAGA GAGAATCCAG 
    GATTACGAGG ATATCCTGTA CAAGGTGGTC CAGTTCCATC AAGTCAAGGA AGAGCTGGGA 
    CGTCTCATCA AATCAAGAGA GCTGGAGTTT GTAGAGCAGC CGAAGGAACT GGGTGATGCC 
    CATGATGTGC AGATTCACCT CCGGTGCTCT CAGGAAAAGC AAGCCCGTGT AGACCATCTC 
    CACAGACTGG CCCTTTCCTT AGGAGTCGAC ATCATCTCAT CAGTGCAGCG GCCTCACTGC 
    TCTAATGTTT CTGCAAAGAA CCTACAGCAG CAGCTGGAGC TCCTTGAGGA GGACAGCATG 
    AAGTGGCGTG CCAAAGCTGA GGAGTATGGA CGGACCCTGT CCCGTAGTGT GGAGTACTGC 
    GCCATGAGAG ACGAGATAAA TGAGCTCAAA GACTCATTCA AAGATATCAA AAAGAAATTC 
    AATAATTTGA AGTTTAATTA CACTAAGAAA AATGAAAAAT CTCGGAATCT GAAGGCGCTT 
    AAATATCAAA TTCAGCAAGT TGATATGTAT GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA 
    ATGGAAAAAG TTAGTAATAA AACCTCTGAT TCTTTCTTAA ATTATCCAAG TGATAAAGTT 
    AATGTCCTTT TGGAAGTCAT GAAGGATTTG CAAAAACATG TGGATGACTT TGACAAAGTT 
    GTGACAGATT ACAAGAAGAA TTTGGACCTG ACTGAGCATT TCCAGGAGGT GATAGAAGAG 
    TGTCATTTTT GGTACGAAGA TGCAAGTGCC ACAGTTGTAA GAGTTGGAAA ATATTCCACA 
    GAGTGCAAGA CAAAGGAAGC TGTGAAAATT CTCCACCAGC AGTTTAATAA GTTTATTGCA 
    CCCTCAGTGC CGCAGCAAGA AGAAAGGATT CAGGAGGCCA CTGACCTTGC TCAGCACTTA 
    TATGGTTTGG AAGAAGGACA GAAATATATT GAGAAAATAG TGACAAAACA CAAAGAGGTT 
    CTTGAATCTG TGACTGAATT ATGTGAGTCC CTCACAGAGC TCGAAGAAAA ACTGAAGCAG 
    GGAGATGTTT TAAAGATGAA TCCGAATTTG GAAGACTTCC ATTATGATTA CATTGACTTG 
    CTAAAGGAAC CAGCAAAAAA TAAGCAGACA ATATTCAATG AAGAAAGGAA TAAGGGGCAG 
    GTGCAGGTGG CAGATCTTTT GGGCATCAAT GGAACAGGGG AAGAGCGACT ACCACAAGAC 
    CTGAAGGTGT CCACTGACAA GGAGGGTGGC GTCCAGGACC TGCTCCTGCC TGAAGACATG 
    CTCTCAGGGG AAGAATATGA GTGTGTCTCA CCTGATGACA TCTCCTTGCC TCCTCTCCCA 
    GGAAGCCCTG AGTCCCCTCT TGCACCATCT GACATGGAGG TGGAAGAGCC TGTCAGCTCC 
    TCCCTCAGCC TTCACATAAG CAGCTATGGG GTGCAGGCTG GGACCAGCAG CCCAGGGGAT 
    GCCCAGGAAT CTGTTCTTCC ACCACCTGTT GCCTTTGCGG ATGCATGCAA TGATAAGAGA 
    GAAACATTTT CAAGTCATTT TGAGAGGCCT TACCTCCAGT TCAAAGCTGA GCCCCCACTA 
    ACCTCCAGAG GATTCGTGGA AAAGAGTACT GCCTTACACA GAATCAGTGC TGAACATCCA 
    GAGAGCATGA TGAGTGAAGT GCATGAGAGA GCTTTACAGC AGCACCCTCA GGCTCAGGGT 
    GGTTTGCTAG AAACACGGGA GAAAATGCAT GCTGATAATA ACTTCACTAA AACCCAAGAT 
    AGGCTGCATG CTTCCTCTGA TGCATTCTCG GGCCTCAGGT TTCAATCAGG CACCAGCAGG 
    GGCTATCAGA GGCAAATGGT TCCTCGAGAA GAGATTAAAA GCACATCAGC AAAGAGCAGC 
    GTGGTCAGCC TAGCTGACCA GGCACCTAAT TTCTCCAGGC TCCTGTCTAA TGTAACTGTC 
    ATGGAAGGTT CTCCAGTGAC TTTGGAAGTT GAAGTAACAG GATTTCCAGA GCCTACACTG 
    ACATGGGGTA GCTGGATATC TGAATTTTCA TATGCAATAT TCCAATTTTT AAAGGATTTC 
    AAAAAATTCA GTTTTCCAAA AACATTGTCT GAGCCAGTCA AAGCAATTCT CTCGCCACCA 
    GTTGCCAACT TCTGCTTGAA AGATAAACAG CGCATAATAC CAGCTACTCA GGAGGCTGAG 
    GCAGGCAGAT TGCTTGAAAC CAGGAGTTCA AGACCAGCCT GGGTACAAGA AGGGCCAGAA 
    ATTGTCTGCA GATGGGCACT TACAGGTTTT ACACAAGGAG ACAAGGCATT CGGTGTTCAT 
    TCCAAAGGTA TGCAAGGCAG ACGCAGGCCT CTATGTGGCT CGGGCCCAAA ACTCTAG

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

    RefSeq XP_011509293.1
    CDS190..4866
    Translation

    Target ORF information:

    RefSeq Version XM_011510991.3
    Organism Homo sapiens(human)
    Definition Homo sapiens 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_011510991.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGTCCAGCC AAGGAAGTCC TAGTGTTGCG 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 
    GTCTATGATG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCTCTGGT GTCCATGCTT 
    GAAAGAAGAA CAGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTAGAGTTT 
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAGTGCT 
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGG 
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT 
    GAAGGACCTA ATGTGAATCC TGAGTTGACT CAGGGAGCTC ATAGCAGCTG TCTGAAGGTT 
    GACCGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAAC TAGACAAGTA CTTGAAGCAA 
    CAGTGGCAAG AATTGAGTCA AGTTCTGCAG ATATGTCAGT GGGACCAACA AGAAAACCAG 
    GTTACTTGTT GGTTTCAGAA AACTATAAGA AATTTACAGG AACAAAGTCT AGGTTCATCA 
    CTTTCAGACA ATGAGGATCG AATTCATAAG CAAGAGGAAC TGATAATAAA AGCAAAGGAA 
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GAGGCACTGA GAATTCTGCT GTCAAAGGAC 
    TACGTGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TCAGTCAGCT TCAAGAAGAA 
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCGAATGA ATTTTTTAAC 
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA 
    TCAGAGGGTT TAAGTCTGGC TGTTTTGGCA GTGAGGCATG AGGAATTACA CAGAAAAATT 
    AAAGACTGCA CAACTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC 
    TGCAGCTCTC AGGTGTCCGG CATCCATGAG ATGATGGGGT GCATTAAGAG ACGAGTGGAT 
    CATCTGACCG AACAGTGTTC AGCGCACAAG GAATATGCTC TTAAGAAACA ACAACTAACA 
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTA 
    CTTTCTAATG CAATGGATGT TGGTTCTACC CGTTCTGAAT CAGAGAAGAT TTTGAATAAA 
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA 
    ACCATGATGG AGAAAAATGA ATTTGTATCT GATGAAATGG TATCACTTTC CTCTAAAGCT 
    AGATGGCTAG CAGAAGAATT AAACCTATTT GGCCAAAGCA TTGACTATAG ATCGCAAGTC 
    CTGCAAACTT ACGTGGCATT TCTGAAGTCA TCAGAGGAGG TAGAGATGCA GTTTCAGAGC 
    TTAAAAGAAT TTTATGAAAC CGAAATCCCT CAGAAGGAGC AGGATGATGC TAAAGCCAAG 
    CATTGTTCTG ACTCGGCTGA GAAGCAGTGG CAGCTATTTT TAAAGAAGAG TTTTATAACA 
    CAAGATCTAG GGCTTGAGTT CCTTAATTTA ATAAATATGG CAAAAGAGAA CGAGATATTA 
    GATGTGAAAA ATGAAGTGTA CCTCATGAAG AACACCATGG AAAACCAGAA AGCAGAACGG 
    GAAGAACTTA GCCTCCTTCG GCTGGCATGG CAGCTTAAAG CCACGGAAAG CAAGCCTGGA 
    AAACAGCAGT GGGCGGCATT CAAAGAGCAA CTTAAAAAGA CTTCTCACAA CTTAAAACTT 
    CTTCAGGAAG CACTTATGCC TGTGTCTGCA CTTGACCTCG GAGGGAGCCT CCAGTTCATT 
    TTAGATCTAC GACAAAAATG GAATGACATG AAGCCTCAGT TCCAGCAATT GAATGATGAG 
    GTTCAGTACA TTATGAAAGA ATCAGAGGAG TTAACTGGCA GAGGAGCCCC TGTAAAAGAA 
    AAGTCTCAAC AACTGAAGGA CCTTATTCAC TTCCATCAAA AACAGAAAGA GAGAATCCAG 
    GATTACGAGG ATATCCTGTA CAAGGTGGTC CAGTTCCATC AAGTCAAGGA AGAGCTGGGA 
    CGTCTCATCA AATCAAGAGA GCTGGAGTTT GTAGAGCAGC CGAAGGAACT GGGTGATGCC 
    CATGATGTGC AGATTCACCT CCGGTGCTCT CAGGAAAAGC AAGCCCGTGT AGACCATCTC 
    CACAGACTGG CCCTTTCCTT AGGAGTCGAC ATCATCTCAT CAGTGCAGCG GCCTCACTGC 
    TCTAATGTTT CTGCAAAGAA CCTACAGCAG CAGCTGGAGC TCCTTGAGGA GGACAGCATG 
    AAGTGGCGTG CCAAAGCTGA GGAGTATGGA CGGACCCTGT CCCGTAGTGT GGAGTACTGC 
    GCCATGAGAG ACGAGATAAA TGAGCTCAAA GACTCATTCA AAGATATCAA AAAGAAATTC 
    AATAATTTGA AGTTTAATTA CACTAAGAAA AATGAAAAAT CTCGGAATCT GAAGGCGCTT 
    AAATATCAAA TTCAGCAAGT TGATATGTAT GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA 
    ATGGAAAAAG TTAGTAATAA AACCTCTGAT TCTTTCTTAA ATTATCCAAG TGATAAAGTT 
    AATGTCCTTT TGGAAGTCAT GAAGGATTTG CAAAAACATG TGGATGACTT TGACAAAGTT 
    GTGACAGATT ACAAGAAGAA TTTGGACCTG ACTGAGCATT TCCAGGAGGT GATAGAAGAG 
    TGTCATTTTT GGTACGAAGA TGCAAGTGCC ACAGTTGTAA GAGTTGGAAA ATATTCCACA 
    GAGTGCAAGA CAAAGGAAGC TGTGAAAATT CTCCACCAGC AGTTTAATAA GTTTATTGCA 
    CCCTCAGTGC CGCAGCAAGA AGAAAGGATT CAGGAGGCCA CTGACCTTGC TCAGCACTTA 
    TATGGTTTGG AAGAAGGACA GAAATATATT GAGAAAATAG TGACAAAACA CAAAGAGGTT 
    CTTGAATCTG TGACTGAATT ATGTGAGTCC CTCACAGAGC TCGAAGAAAA ACTGAAGCAG 
    GGAGATGTTT TAAAGATGAA TCCGAATTTG GAAGACTTCC ATTATGATTA CATTGACTTG 
    CTAAAGGAAC CAGCAAAAAA TAAGCAGACA ATATTCAATG AAGAAAGGAA TAAGGGGCAG 
    GTGCAGGTGG CAGATCTTTT GGGCATCAAT GGAACAGGGG AAGAGCGACT ACCACAAGAC 
    CTGAAGGTGT CCACTGACAA GGAGGGTGGC GTCCAGGACC TGCTCCTGCC TGAAGACATG 
    CTCTCAGGGG AAGAATATGA GTGTGTCTCA CCTGATGACA TCTCCTTGCC TCCTCTCCCA 
    GGAAGCCCTG AGTCCCCTCT TGCACCATCT GACATGGAGG TGGAAGAGCC TGTCAGCTCC 
    TCCCTCAGCC TTCACATAAG CAGCTATGGG GTGCAGGCTG GGACCAGCAG CCCAGGGGAT 
    GCCCAGGAAT CTGTTCTTCC ACCACCTGTT GCCTTTGCGG ATGCATGCAA TGATAAGAGA 
    GAAACATTTT CAAGTCATTT TGAGAGGCCT TACCTCCAGT TCAAAGCTGA GCCCCCACTA 
    ACCTCCAGAG GATTCGTGGA AAAGAGTACT GCCTTACACA GAATCAGTGC TGAACATCCA 
    GAGAGCATGA TGAGTGAAGT GCATGAGAGA GCTTTACAGC AGCACCCTCA GGCTCAGGGT 
    GGTTTGCTAG AAACACGGGA GAAAATGCAT GCTGATAATA ACTTCACTAA AACCCAAGAT 
    AGGCTGCATG CTTCCTCTGA TGCATTCTCG GGCCTCAGGT TTCAATCAGG CACCAGCAGG 
    GGCTATCAGA GGCAAATGGT TCCTCGAGAA GAGATTAAAA GCACATCAGC AAAGAGCAGC 
    GTGGTCAGCC TAGCTGACCA GGCACCTAAT TTCTCCAGGC TCCTGTCTAA TGTAACTGTC 
    ATGGAAGGTT CTCCAGTGAC TTTGGAAGTT GAAGTAACAG GATTTCCAGA GCCTACACTG 
    ACATGGGGTA GCTGGATATC TGAATTTTCA TATGCAATAT TCCAATTTTT AAAGGATTTC 
    AAAAAATTCA GTTTTCCAAA AACATTGTCT GAGCCAGTCA AAGCAATTCT CTCGCCACCA 
    GTTGCCAACT TCTGCTTGAA AGATAAACAG CGCATAATAC CAGCTACTCA GGAGGCTGAG 
    GCAGGCAGAT TGCTTGAAAC CAGGAGTTCA AGACCAGCCT GGGTACAAGA AGGGCCAGAA 
    ATTGTCTGCA GATGGGCACT TACAGGTTTT ACACAAGGAG ACAAGGCATT CGGTGTTCAT 
    TCCAAAGGTA TGCAAGGCAG ACGCAGGCCT CTATGTGGCT CGGGCCCAAA ACTCTAG

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

    CCDC141 ( XM_011510992.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011509294.1 Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OHu78895
    Clone ID Related Accession (Same CDS sequence) XM_011510992.3 , XM_011510992.2
    Accession Version XM_011510992.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4665bp)
    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 141 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011510992.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGTCCAGCC AAGGAAGTCC TAGTGTTGCG 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 
    GTCTATGATG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCTCTGGT GTCCATGCTT 
    GAAAGAAGAA CAGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTAGAGTTT 
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAGTGCT 
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGG 
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT 
    GAAGGACCTA ATGTGAATCC TGAGTTGACT CAGGGAGCTC ATAGCAGCTG TCTGAAGGTT 
    GACCGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAAC TAGACAAGTA CTTGAAGCAA 
    CAGTGGCAAG AATTGAGTCA AGTTCTGCAG ATATGTCAGT GGGACCAACA AGAAAACCAG 
    GTTACTTGTT GGTTTCAGAA AACTATAAGA AATTTACAGG AACAAAGTCT AGGTTCATCA 
    CTTTCAGACA ATGAGGATCG AATTCATAAG CAAGAGGAAC TGATAATAAA AGCAAAGGAA 
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GAGGCACTGA GAATTCTGCT GTCAAAGGAC 
    TACGTGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TCAGTCAGCT TCAAGAAGAA 
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCGAATGA ATTTTTTAAC 
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA 
    TCAGAGGGTT TAAGTCTGGC TGTTTTGGCA GTGAGGCATG AGGAATTACA CAGAAAAATT 
    AAAGACTGCA CAACTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC 
    TGCAGCTCTC AGGTGTCCGG CATCCATGAG ATGATGGGGT GCATTAAGAG ACGAGTGGAT 
    CATCTGACCG AACAGTGTTC AGCGCACAAG GAATATGCTC TTAAGAAACA ACAACTAACA 
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTA 
    CTTTCTAATG CAATGGATGT TGGTTCTACC CGTTCTGAAT CAGAGAAGAT TTTGAATAAA 
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA 
    ACCATGATGG AGAAAAATGA ATTTGTATCT GATGAAATGG TATCACTTTC CTCTAAAGCT 
    AGATGGCTAG CAGAAGAATT AAACCTATTT GGCCAAAGCA TTGACTATAG ATCGCAAGTC 
    CTGCAAACTT ACGTGGCATT TCTGAAGTCA TCAGAGGAGG TAGAGATGCA GTTTCAGAGC 
    TTAAAAGAAT TTTATGAAAC CGAAATCCCT CAGAAGGAGC AGGATGATGC TAAAGCCAAG 
    CATTGTTCTG ACTCGGCTGA GAAGCAGTGG CAGCTATTTT TAAAGAAGAG TTTTATAACA 
    CAAGATCTAG GGCTTGAGTT CCTTAATTTA ATAAATATGG CAAAAGAGAA CGAGATATTA 
    GATGTGAAAA ATGAAGTGTA CCTCATGAAG AACACCATGG AAAACCAGAA AGCAGAACGG 
    GAAGAACTTA GCCTCCTTCG GCTGGCATGG CAGCTTAAAG CCACGGAAAG CAAGCCTGGA 
    AAACAGCAGT GGGCGGCATT CAAAGAGCAA CTTAAAAAGA CTTCTCACAA CTTAAAACTT 
    CTTCAGGAAG CACTTATGCC TGTGTCTGCA CTTGACCTCG GAGGGAGCCT CCAGTTCATT 
    TTAGATCTAC GACAAAAATG GAATGACATG AAGCCTCAGT TCCAGCAATT GAATGATGAG 
    GTTCAGTACA TTATGAAAGA ATCAGAGGAG TTAACTGGCA GAGGAGCCCC TGTAAAAGAA 
    AAGTCTCAAC AACTGAAGGA CCTTATTCAC TTCCATCAAA AACAGAAAGA GAGAATCCAG 
    GATTACGAGG ATATCCTGTA CAAGGTGGTC CAGTTCCATC AAGTCAAGGA AGAGCTGGGA 
    CGTCTCATCA AATCAAGAGA GCTGGAGTTT GTAGAGCAGC CGAAGGAACT GGGTGATGCC 
    CATGATGTGC AGATTCACCT CCGGTGCTCT CAGGAAAAGC AAGCCCGTGT AGACCATCTC 
    CACAGACTGG CCCTTTCCTT AGGAGTCGAC ATCATCTCAT CAGTGCAGCG GCCTCACTGC 
    TCTAATGTTT CTGCAAAGAA CCTACAGCAG CAGCTGGAGC TCCTTGAGGA GGACAGCATG 
    AAGTGGCGTG CCAAAGCTGA GGAGTATGGA CGGACCCTGT CCCGTAGTGT GGAGTACTGC 
    GCCATGAGAG ACGAGATAAA TGAGCTCAAA GACTCATTCA AAGATATCAA AAAGAAATTC 
    AATAATTTGA AGTTTAATTA CACTAAGAAA AATGAAAAAT CTCGGAATCT GAAGGCGCTT 
    AAATATCAAA TTCAGCAAGT TGATATGTAT GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA 
    ATGGAAAAAG TTAGTAATAA AACCTCTGAT TCTTTCTTAA ATTATCCAAG TGATAAAGTT 
    AATGTCCTTT TGGAAGTCAT GAAGGATTTG CAAAAACATG TGGATGACTT TGACAAAGTT 
    GTGACAGATT ACAAGAAGAA TTTGGACCTG ACTGAGCATT TCCAGGAGGT GATAGAAGAG 
    TGTCATTTTT GGTACGAAGA TGCAAGTGCC ACAGTTGTAA GAGTTGGAAA ATATTCCACA 
    GAGTGCAAGA CAAAGGAAGC TGTGAAAATT CTCCACCAGC AGTTTAATAA GTTTATTGCA 
    CCCTCAGTGC CGCAGCAAGA AGAAAGGATT CAGGAGGCCA CTGACCTTGC TCAGCACTTA 
    TATGGTTTGG AAGAAGGACA GAAATATATT GAGAAAATAG TGACAAAACA CAAAGAGGTT 
    CTTGAATCTG TGACTGAATT ATGTGAGTCC CTCACAGAGC TCGAAGAAAA ACTGAAGCAG 
    GGAGATGTTT TAAAGATGAA TCCGAATTTG GAAGACTTCC ATTATGATTA CATTGACTTG 
    CTAAAGGAAC CAGCAAAAAA TAAGCAGACA ATATTCAATG AAGAAAGGAA TAAGGGGCAG 
    GTGCAGGTGG CAGATCTTTT GGGCATCAAT GGAACAGGGG AAGAGCGACT ACCACAAGAC 
    CTGAAGGTGT CCACTGACAA GGAGGGTGGC GTCCAGGACC TGCTCCTGCC TGAAGACATG 
    CTCTCAGGGG AAGAATATGA GTGTGTCTCA CCTGATGACA TCTCCTTGCC TCCTCTCCCA 
    GGAAGCCCTG AGTCCCCTCT TGCACCATCT GACATGGAGG TGGAAGAGCC TGTCAGCTCC 
    TCCCTCAGCC TTCACATAAG CAGCTATGGG GTGCAGGCTG GGACCAGCAG CCCAGGGGAT 
    GCCCAGGAAT CTGTTCTTCC ACCACCTGTT GCCTTTGCGG ATGCATGCAA TGATAAGAGA 
    GAAACATTTT CAAGTCATTT TGAGAGGCCT TACCTCCAGT TCAAAGCTGA GCCCCCACTA 
    ACCTCCAGAG GATTCGTGGA AAAGAGTACT GCCTTACACA GAATCAGTGC TGAACATCCA 
    GAGAGCATGA TGAGTGAAGT GCATGAGAGA GCTTTACAGC AGCACCCTCA GGCTCAGGGT 
    GGTTTGCTAG AAACACGGGA GAAAATGCAT GCTGATAATA ACTTCACTAA AACCCAAGAT 
    AGGCTGCATG CTTCCTCTGA TGCATTCTCG GGCCTCAGGT TTCAATCAGG CACCAGCAGG 
    GGCTATCAGA GGCAAATGGT TCCTCGAGAA GAGATTAAAA GCACATCAGC AAAGAGCAGC 
    GTGGTCAGCC TAGCTGACCA GGCACCTAAT TTCTCCAGGC TCCTGTCTAA TGTAACTGTC 
    ATGGAAGGTT CTCCAGTGAC TTTGGAAGTT GAAGTAACAG GATTTCCAGA GCCTACACTG 
    ACATGGGGTA GCTGGATATC TGAATTTTCA TATGCAATAT TCCAATTTTT AAAGGATTTC 
    AAAAAATTCA GTTTTCCAAA AACATTGTCT GAGCCAGTCA AAGCAATTCT CTCGCCACCA 
    GTTGCCAACT TCTGCTTGAA AGATAAACAG CGCATAATAC CAGCTACTCA GGAGGCTGAG 
    GCAGGCAGAT TGCTTGAAAC CAGGAGTTCA AGACCAGCCT GGGTACAAGA AGGGCCAGAA 
    ATTGTCTGCA GATGGGCACT TACAGGTTTT ACACAAGGAG ACAAGGCATT CGGTGTTCAT 
    TCCAAAGTTC TGCTGAGACA CAACTTCCCC TGGGAAGCCT CCTGA

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

    RefSeq XP_011509294.1
    CDS190..4854
    Translation

    Target ORF information:

    RefSeq Version XM_011510992.3
    Organism Homo sapiens(human)
    Definition Homo sapiens 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_011510992.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGTCCAGCC AAGGAAGTCC TAGTGTTGCG 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 
    GTCTATGATG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCTCTGGT GTCCATGCTT 
    GAAAGAAGAA CAGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTAGAGTTT 
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAGTGCT 
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGG 
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT 
    GAAGGACCTA ATGTGAATCC TGAGTTGACT CAGGGAGCTC ATAGCAGCTG TCTGAAGGTT 
    GACCGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAAC TAGACAAGTA CTTGAAGCAA 
    CAGTGGCAAG AATTGAGTCA AGTTCTGCAG ATATGTCAGT GGGACCAACA AGAAAACCAG 
    GTTACTTGTT GGTTTCAGAA AACTATAAGA AATTTACAGG AACAAAGTCT AGGTTCATCA 
    CTTTCAGACA ATGAGGATCG AATTCATAAG CAAGAGGAAC TGATAATAAA AGCAAAGGAA 
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GAGGCACTGA GAATTCTGCT GTCAAAGGAC 
    TACGTGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TCAGTCAGCT TCAAGAAGAA 
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCGAATGA ATTTTTTAAC 
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA 
    TCAGAGGGTT TAAGTCTGGC TGTTTTGGCA GTGAGGCATG AGGAATTACA CAGAAAAATT 
    AAAGACTGCA CAACTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC 
    TGCAGCTCTC AGGTGTCCGG CATCCATGAG ATGATGGGGT GCATTAAGAG ACGAGTGGAT 
    CATCTGACCG AACAGTGTTC AGCGCACAAG GAATATGCTC TTAAGAAACA ACAACTAACA 
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTA 
    CTTTCTAATG CAATGGATGT TGGTTCTACC CGTTCTGAAT CAGAGAAGAT TTTGAATAAA 
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA 
    ACCATGATGG AGAAAAATGA ATTTGTATCT GATGAAATGG TATCACTTTC CTCTAAAGCT 
    AGATGGCTAG CAGAAGAATT AAACCTATTT GGCCAAAGCA TTGACTATAG ATCGCAAGTC 
    CTGCAAACTT ACGTGGCATT TCTGAAGTCA TCAGAGGAGG TAGAGATGCA GTTTCAGAGC 
    TTAAAAGAAT TTTATGAAAC CGAAATCCCT CAGAAGGAGC AGGATGATGC TAAAGCCAAG 
    CATTGTTCTG ACTCGGCTGA GAAGCAGTGG CAGCTATTTT TAAAGAAGAG TTTTATAACA 
    CAAGATCTAG GGCTTGAGTT CCTTAATTTA ATAAATATGG CAAAAGAGAA CGAGATATTA 
    GATGTGAAAA ATGAAGTGTA CCTCATGAAG AACACCATGG AAAACCAGAA AGCAGAACGG 
    GAAGAACTTA GCCTCCTTCG GCTGGCATGG CAGCTTAAAG CCACGGAAAG CAAGCCTGGA 
    AAACAGCAGT GGGCGGCATT CAAAGAGCAA CTTAAAAAGA CTTCTCACAA CTTAAAACTT 
    CTTCAGGAAG CACTTATGCC TGTGTCTGCA CTTGACCTCG GAGGGAGCCT CCAGTTCATT 
    TTAGATCTAC GACAAAAATG GAATGACATG AAGCCTCAGT TCCAGCAATT GAATGATGAG 
    GTTCAGTACA TTATGAAAGA ATCAGAGGAG TTAACTGGCA GAGGAGCCCC TGTAAAAGAA 
    AAGTCTCAAC AACTGAAGGA CCTTATTCAC TTCCATCAAA AACAGAAAGA GAGAATCCAG 
    GATTACGAGG ATATCCTGTA CAAGGTGGTC CAGTTCCATC AAGTCAAGGA AGAGCTGGGA 
    CGTCTCATCA AATCAAGAGA GCTGGAGTTT GTAGAGCAGC CGAAGGAACT GGGTGATGCC 
    CATGATGTGC AGATTCACCT CCGGTGCTCT CAGGAAAAGC AAGCCCGTGT AGACCATCTC 
    CACAGACTGG CCCTTTCCTT AGGAGTCGAC ATCATCTCAT CAGTGCAGCG GCCTCACTGC 
    TCTAATGTTT CTGCAAAGAA CCTACAGCAG CAGCTGGAGC TCCTTGAGGA GGACAGCATG 
    AAGTGGCGTG CCAAAGCTGA GGAGTATGGA CGGACCCTGT CCCGTAGTGT GGAGTACTGC 
    GCCATGAGAG ACGAGATAAA TGAGCTCAAA GACTCATTCA AAGATATCAA AAAGAAATTC 
    AATAATTTGA AGTTTAATTA CACTAAGAAA AATGAAAAAT CTCGGAATCT GAAGGCGCTT 
    AAATATCAAA TTCAGCAAGT TGATATGTAT GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA 
    ATGGAAAAAG TTAGTAATAA AACCTCTGAT TCTTTCTTAA ATTATCCAAG TGATAAAGTT 
    AATGTCCTTT TGGAAGTCAT GAAGGATTTG CAAAAACATG TGGATGACTT TGACAAAGTT 
    GTGACAGATT ACAAGAAGAA TTTGGACCTG ACTGAGCATT TCCAGGAGGT GATAGAAGAG 
    TGTCATTTTT GGTACGAAGA TGCAAGTGCC ACAGTTGTAA GAGTTGGAAA ATATTCCACA 
    GAGTGCAAGA CAAAGGAAGC TGTGAAAATT CTCCACCAGC AGTTTAATAA GTTTATTGCA 
    CCCTCAGTGC CGCAGCAAGA AGAAAGGATT CAGGAGGCCA CTGACCTTGC TCAGCACTTA 
    TATGGTTTGG AAGAAGGACA GAAATATATT GAGAAAATAG TGACAAAACA CAAAGAGGTT 
    CTTGAATCTG TGACTGAATT ATGTGAGTCC CTCACAGAGC TCGAAGAAAA ACTGAAGCAG 
    GGAGATGTTT TAAAGATGAA TCCGAATTTG GAAGACTTCC ATTATGATTA CATTGACTTG 
    CTAAAGGAAC CAGCAAAAAA TAAGCAGACA ATATTCAATG AAGAAAGGAA TAAGGGGCAG 
    GTGCAGGTGG CAGATCTTTT GGGCATCAAT GGAACAGGGG AAGAGCGACT ACCACAAGAC 
    CTGAAGGTGT CCACTGACAA GGAGGGTGGC GTCCAGGACC TGCTCCTGCC TGAAGACATG 
    CTCTCAGGGG AAGAATATGA GTGTGTCTCA CCTGATGACA TCTCCTTGCC TCCTCTCCCA 
    GGAAGCCCTG AGTCCCCTCT TGCACCATCT GACATGGAGG TGGAAGAGCC TGTCAGCTCC 
    TCCCTCAGCC TTCACATAAG CAGCTATGGG GTGCAGGCTG GGACCAGCAG CCCAGGGGAT 
    GCCCAGGAAT CTGTTCTTCC ACCACCTGTT GCCTTTGCGG ATGCATGCAA TGATAAGAGA 
    GAAACATTTT CAAGTCATTT TGAGAGGCCT TACCTCCAGT TCAAAGCTGA GCCCCCACTA 
    ACCTCCAGAG GATTCGTGGA AAAGAGTACT GCCTTACACA GAATCAGTGC TGAACATCCA 
    GAGAGCATGA TGAGTGAAGT GCATGAGAGA GCTTTACAGC AGCACCCTCA GGCTCAGGGT 
    GGTTTGCTAG AAACACGGGA GAAAATGCAT GCTGATAATA ACTTCACTAA AACCCAAGAT 
    AGGCTGCATG CTTCCTCTGA TGCATTCTCG GGCCTCAGGT TTCAATCAGG CACCAGCAGG 
    GGCTATCAGA GGCAAATGGT TCCTCGAGAA GAGATTAAAA GCACATCAGC AAAGAGCAGC 
    GTGGTCAGCC TAGCTGACCA GGCACCTAAT TTCTCCAGGC TCCTGTCTAA TGTAACTGTC 
    ATGGAAGGTT CTCCAGTGAC TTTGGAAGTT GAAGTAACAG GATTTCCAGA GCCTACACTG 
    ACATGGGGTA GCTGGATATC TGAATTTTCA TATGCAATAT TCCAATTTTT AAAGGATTTC 
    AAAAAATTCA GTTTTCCAAA AACATTGTCT GAGCCAGTCA AAGCAATTCT CTCGCCACCA 
    GTTGCCAACT TCTGCTTGAA AGATAAACAG CGCATAATAC CAGCTACTCA GGAGGCTGAG 
    GCAGGCAGAT TGCTTGAAAC CAGGAGTTCA AGACCAGCCT GGGTACAAGA AGGGCCAGAA 
    ATTGTCTGCA GATGGGCACT TACAGGTTTT ACACAAGGAG ACAAGGCATT CGGTGTTCAT 
    TCCAAAGTTC TGCTGAGACA CAACTTCCCC TGGGAAGCCT CCTGA

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

    CCDC141 ( XM_011510992.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011509294.1 Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OHu78895
    Clone ID Related Accession (Same CDS sequence) XM_011510992.3 , XM_011510992.2
    Accession Version XM_011510992.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4665bp)
    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 141 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011510992.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGTCCAGCC AAGGAAGTCC TAGTGTTGCG 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 
    GTCTATGATG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCTCTGGT GTCCATGCTT 
    GAAAGAAGAA CAGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTAGAGTTT 
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAGTGCT 
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGG 
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT 
    GAAGGACCTA ATGTGAATCC TGAGTTGACT CAGGGAGCTC ATAGCAGCTG TCTGAAGGTT 
    GACCGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAAC TAGACAAGTA CTTGAAGCAA 
    CAGTGGCAAG AATTGAGTCA AGTTCTGCAG ATATGTCAGT GGGACCAACA AGAAAACCAG 
    GTTACTTGTT GGTTTCAGAA AACTATAAGA AATTTACAGG AACAAAGTCT AGGTTCATCA 
    CTTTCAGACA ATGAGGATCG AATTCATAAG CAAGAGGAAC TGATAATAAA AGCAAAGGAA 
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GAGGCACTGA GAATTCTGCT GTCAAAGGAC 
    TACGTGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TCAGTCAGCT TCAAGAAGAA 
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCGAATGA ATTTTTTAAC 
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA 
    TCAGAGGGTT TAAGTCTGGC TGTTTTGGCA GTGAGGCATG AGGAATTACA CAGAAAAATT 
    AAAGACTGCA CAACTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC 
    TGCAGCTCTC AGGTGTCCGG CATCCATGAG ATGATGGGGT GCATTAAGAG ACGAGTGGAT 
    CATCTGACCG AACAGTGTTC AGCGCACAAG GAATATGCTC TTAAGAAACA ACAACTAACA 
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTA 
    CTTTCTAATG CAATGGATGT TGGTTCTACC CGTTCTGAAT CAGAGAAGAT TTTGAATAAA 
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA 
    ACCATGATGG AGAAAAATGA ATTTGTATCT GATGAAATGG TATCACTTTC CTCTAAAGCT 
    AGATGGCTAG CAGAAGAATT AAACCTATTT GGCCAAAGCA TTGACTATAG ATCGCAAGTC 
    CTGCAAACTT ACGTGGCATT TCTGAAGTCA TCAGAGGAGG TAGAGATGCA GTTTCAGAGC 
    TTAAAAGAAT TTTATGAAAC CGAAATCCCT CAGAAGGAGC AGGATGATGC TAAAGCCAAG 
    CATTGTTCTG ACTCGGCTGA GAAGCAGTGG CAGCTATTTT TAAAGAAGAG TTTTATAACA 
    CAAGATCTAG GGCTTGAGTT CCTTAATTTA ATAAATATGG CAAAAGAGAA CGAGATATTA 
    GATGTGAAAA ATGAAGTGTA CCTCATGAAG AACACCATGG AAAACCAGAA AGCAGAACGG 
    GAAGAACTTA GCCTCCTTCG GCTGGCATGG CAGCTTAAAG CCACGGAAAG CAAGCCTGGA 
    AAACAGCAGT GGGCGGCATT CAAAGAGCAA CTTAAAAAGA CTTCTCACAA CTTAAAACTT 
    CTTCAGGAAG CACTTATGCC TGTGTCTGCA CTTGACCTCG GAGGGAGCCT CCAGTTCATT 
    TTAGATCTAC GACAAAAATG GAATGACATG AAGCCTCAGT TCCAGCAATT GAATGATGAG 
    GTTCAGTACA TTATGAAAGA ATCAGAGGAG TTAACTGGCA GAGGAGCCCC TGTAAAAGAA 
    AAGTCTCAAC AACTGAAGGA CCTTATTCAC TTCCATCAAA AACAGAAAGA GAGAATCCAG 
    GATTACGAGG ATATCCTGTA CAAGGTGGTC CAGTTCCATC AAGTCAAGGA AGAGCTGGGA 
    CGTCTCATCA AATCAAGAGA GCTGGAGTTT GTAGAGCAGC CGAAGGAACT GGGTGATGCC 
    CATGATGTGC AGATTCACCT CCGGTGCTCT CAGGAAAAGC AAGCCCGTGT AGACCATCTC 
    CACAGACTGG CCCTTTCCTT AGGAGTCGAC ATCATCTCAT CAGTGCAGCG GCCTCACTGC 
    TCTAATGTTT CTGCAAAGAA CCTACAGCAG CAGCTGGAGC TCCTTGAGGA GGACAGCATG 
    AAGTGGCGTG CCAAAGCTGA GGAGTATGGA CGGACCCTGT CCCGTAGTGT GGAGTACTGC 
    GCCATGAGAG ACGAGATAAA TGAGCTCAAA GACTCATTCA AAGATATCAA AAAGAAATTC 
    AATAATTTGA AGTTTAATTA CACTAAGAAA AATGAAAAAT CTCGGAATCT GAAGGCGCTT 
    AAATATCAAA TTCAGCAAGT TGATATGTAT GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA 
    ATGGAAAAAG TTAGTAATAA AACCTCTGAT TCTTTCTTAA ATTATCCAAG TGATAAAGTT 
    AATGTCCTTT TGGAAGTCAT GAAGGATTTG CAAAAACATG TGGATGACTT TGACAAAGTT 
    GTGACAGATT ACAAGAAGAA TTTGGACCTG ACTGAGCATT TCCAGGAGGT GATAGAAGAG 
    TGTCATTTTT GGTACGAAGA TGCAAGTGCC ACAGTTGTAA GAGTTGGAAA ATATTCCACA 
    GAGTGCAAGA CAAAGGAAGC TGTGAAAATT CTCCACCAGC AGTTTAATAA GTTTATTGCA 
    CCCTCAGTGC CGCAGCAAGA AGAAAGGATT CAGGAGGCCA CTGACCTTGC TCAGCACTTA 
    TATGGTTTGG AAGAAGGACA GAAATATATT GAGAAAATAG TGACAAAACA CAAAGAGGTT 
    CTTGAATCTG TGACTGAATT ATGTGAGTCC CTCACAGAGC TCGAAGAAAA ACTGAAGCAG 
    GGAGATGTTT TAAAGATGAA TCCGAATTTG GAAGACTTCC ATTATGATTA CATTGACTTG 
    CTAAAGGAAC CAGCAAAAAA TAAGCAGACA ATATTCAATG AAGAAAGGAA TAAGGGGCAG 
    GTGCAGGTGG CAGATCTTTT GGGCATCAAT GGAACAGGGG AAGAGCGACT ACCACAAGAC 
    CTGAAGGTGT CCACTGACAA GGAGGGTGGC GTCCAGGACC TGCTCCTGCC TGAAGACATG 
    CTCTCAGGGG AAGAATATGA GTGTGTCTCA CCTGATGACA TCTCCTTGCC TCCTCTCCCA 
    GGAAGCCCTG AGTCCCCTCT TGCACCATCT GACATGGAGG TGGAAGAGCC TGTCAGCTCC 
    TCCCTCAGCC TTCACATAAG CAGCTATGGG GTGCAGGCTG GGACCAGCAG CCCAGGGGAT 
    GCCCAGGAAT CTGTTCTTCC ACCACCTGTT GCCTTTGCGG ATGCATGCAA TGATAAGAGA 
    GAAACATTTT CAAGTCATTT TGAGAGGCCT TACCTCCAGT TCAAAGCTGA GCCCCCACTA 
    ACCTCCAGAG GATTCGTGGA AAAGAGTACT GCCTTACACA GAATCAGTGC TGAACATCCA 
    GAGAGCATGA TGAGTGAAGT GCATGAGAGA GCTTTACAGC AGCACCCTCA GGCTCAGGGT 
    GGTTTGCTAG AAACACGGGA GAAAATGCAT GCTGATAATA ACTTCACTAA AACCCAAGAT 
    AGGCTGCATG CTTCCTCTGA TGCATTCTCG GGCCTCAGGT TTCAATCAGG CACCAGCAGG 
    GGCTATCAGA GGCAAATGGT TCCTCGAGAA GAGATTAAAA GCACATCAGC AAAGAGCAGC 
    GTGGTCAGCC TAGCTGACCA GGCACCTAAT TTCTCCAGGC TCCTGTCTAA TGTAACTGTC 
    ATGGAAGGTT CTCCAGTGAC TTTGGAAGTT GAAGTAACAG GATTTCCAGA GCCTACACTG 
    ACATGGGGTA GCTGGATATC TGAATTTTCA TATGCAATAT TCCAATTTTT AAAGGATTTC 
    AAAAAATTCA GTTTTCCAAA AACATTGTCT GAGCCAGTCA AAGCAATTCT CTCGCCACCA 
    GTTGCCAACT TCTGCTTGAA AGATAAACAG CGCATAATAC CAGCTACTCA GGAGGCTGAG 
    GCAGGCAGAT TGCTTGAAAC CAGGAGTTCA AGACCAGCCT GGGTACAAGA AGGGCCAGAA 
    ATTGTCTGCA GATGGGCACT TACAGGTTTT ACACAAGGAG ACAAGGCATT CGGTGTTCAT 
    TCCAAAGTTC TGCTGAGACA CAACTTCCCC TGGGAAGCCT CCTGA

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

    RefSeq XP_011509294.1
    CDS194..4858
    Translation

    Target ORF information:

    RefSeq Version XM_011510992.2
    Organism Homo sapiens(human)
    Definition Homo sapiens 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_011510992.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGTCCAGCC AAGGAAGTCC TAGTGTTGCG 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 
    GTCTATGATG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCTCTGGT GTCCATGCTT 
    GAAAGAAGAA CAGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTAGAGTTT 
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAGTGCT 
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGG 
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT 
    GAAGGACCTA ATGTGAATCC TGAGTTGACT CAGGGAGCTC ATAGCAGCTG TCTGAAGGTT 
    GACCGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAAC TAGACAAGTA CTTGAAGCAA 
    CAGTGGCAAG AATTGAGTCA AGTTCTGCAG ATATGTCAGT GGGACCAACA AGAAAACCAG 
    GTTACTTGTT GGTTTCAGAA AACTATAAGA AATTTACAGG AACAAAGTCT AGGTTCATCA 
    CTTTCAGACA ATGAGGATCG AATTCATAAG CAAGAGGAAC TGATAATAAA AGCAAAGGAA 
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GAGGCACTGA GAATTCTGCT GTCAAAGGAC 
    TACGTGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TCAGTCAGCT TCAAGAAGAA 
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCGAATGA ATTTTTTAAC 
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA 
    TCAGAGGGTT TAAGTCTGGC TGTTTTGGCA GTGAGGCATG AGGAATTACA CAGAAAAATT 
    AAAGACTGCA CAACTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC 
    TGCAGCTCTC AGGTGTCCGG CATCCATGAG ATGATGGGGT GCATTAAGAG ACGAGTGGAT 
    CATCTGACCG AACAGTGTTC AGCGCACAAG GAATATGCTC TTAAGAAACA ACAACTAACA 
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTA 
    CTTTCTAATG CAATGGATGT TGGTTCTACC CGTTCTGAAT CAGAGAAGAT TTTGAATAAA 
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA 
    ACCATGATGG AGAAAAATGA ATTTGTATCT GATGAAATGG TATCACTTTC CTCTAAAGCT 
    AGATGGCTAG CAGAAGAATT AAACCTATTT GGCCAAAGCA TTGACTATAG ATCGCAAGTC 
    CTGCAAACTT ACGTGGCATT TCTGAAGTCA TCAGAGGAGG TAGAGATGCA GTTTCAGAGC 
    TTAAAAGAAT TTTATGAAAC CGAAATCCCT CAGAAGGAGC AGGATGATGC TAAAGCCAAG 
    CATTGTTCTG ACTCGGCTGA GAAGCAGTGG CAGCTATTTT TAAAGAAGAG TTTTATAACA 
    CAAGATCTAG GGCTTGAGTT CCTTAATTTA ATAAATATGG CAAAAGAGAA CGAGATATTA 
    GATGTGAAAA ATGAAGTGTA CCTCATGAAG AACACCATGG AAAACCAGAA AGCAGAACGG 
    GAAGAACTTA GCCTCCTTCG GCTGGCATGG CAGCTTAAAG CCACGGAAAG CAAGCCTGGA 
    AAACAGCAGT GGGCGGCATT CAAAGAGCAA CTTAAAAAGA CTTCTCACAA CTTAAAACTT 
    CTTCAGGAAG CACTTATGCC TGTGTCTGCA CTTGACCTCG GAGGGAGCCT CCAGTTCATT 
    TTAGATCTAC GACAAAAATG GAATGACATG AAGCCTCAGT TCCAGCAATT GAATGATGAG 
    GTTCAGTACA TTATGAAAGA ATCAGAGGAG TTAACTGGCA GAGGAGCCCC TGTAAAAGAA 
    AAGTCTCAAC AACTGAAGGA CCTTATTCAC TTCCATCAAA AACAGAAAGA GAGAATCCAG 
    GATTACGAGG ATATCCTGTA CAAGGTGGTC CAGTTCCATC AAGTCAAGGA AGAGCTGGGA 
    CGTCTCATCA AATCAAGAGA GCTGGAGTTT GTAGAGCAGC CGAAGGAACT GGGTGATGCC 
    CATGATGTGC AGATTCACCT CCGGTGCTCT CAGGAAAAGC AAGCCCGTGT AGACCATCTC 
    CACAGACTGG CCCTTTCCTT AGGAGTCGAC ATCATCTCAT CAGTGCAGCG GCCTCACTGC 
    TCTAATGTTT CTGCAAAGAA CCTACAGCAG CAGCTGGAGC TCCTTGAGGA GGACAGCATG 
    AAGTGGCGTG CCAAAGCTGA GGAGTATGGA CGGACCCTGT CCCGTAGTGT GGAGTACTGC 
    GCCATGAGAG ACGAGATAAA TGAGCTCAAA GACTCATTCA AAGATATCAA AAAGAAATTC 
    AATAATTTGA AGTTTAATTA CACTAAGAAA AATGAAAAAT CTCGGAATCT GAAGGCGCTT 
    AAATATCAAA TTCAGCAAGT TGATATGTAT GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA 
    ATGGAAAAAG TTAGTAATAA AACCTCTGAT TCTTTCTTAA ATTATCCAAG TGATAAAGTT 
    AATGTCCTTT TGGAAGTCAT GAAGGATTTG CAAAAACATG TGGATGACTT TGACAAAGTT 
    GTGACAGATT ACAAGAAGAA TTTGGACCTG ACTGAGCATT TCCAGGAGGT GATAGAAGAG 
    TGTCATTTTT GGTACGAAGA TGCAAGTGCC ACAGTTGTAA GAGTTGGAAA ATATTCCACA 
    GAGTGCAAGA CAAAGGAAGC TGTGAAAATT CTCCACCAGC AGTTTAATAA GTTTATTGCA 
    CCCTCAGTGC CGCAGCAAGA AGAAAGGATT CAGGAGGCCA CTGACCTTGC TCAGCACTTA 
    TATGGTTTGG AAGAAGGACA GAAATATATT GAGAAAATAG TGACAAAACA CAAAGAGGTT 
    CTTGAATCTG TGACTGAATT ATGTGAGTCC CTCACAGAGC TCGAAGAAAA ACTGAAGCAG 
    GGAGATGTTT TAAAGATGAA TCCGAATTTG GAAGACTTCC ATTATGATTA CATTGACTTG 
    CTAAAGGAAC CAGCAAAAAA TAAGCAGACA ATATTCAATG AAGAAAGGAA TAAGGGGCAG 
    GTGCAGGTGG CAGATCTTTT GGGCATCAAT GGAACAGGGG AAGAGCGACT ACCACAAGAC 
    CTGAAGGTGT CCACTGACAA GGAGGGTGGC GTCCAGGACC TGCTCCTGCC TGAAGACATG 
    CTCTCAGGGG AAGAATATGA GTGTGTCTCA CCTGATGACA TCTCCTTGCC TCCTCTCCCA 
    GGAAGCCCTG AGTCCCCTCT TGCACCATCT GACATGGAGG TGGAAGAGCC TGTCAGCTCC 
    TCCCTCAGCC TTCACATAAG CAGCTATGGG GTGCAGGCTG GGACCAGCAG CCCAGGGGAT 
    GCCCAGGAAT CTGTTCTTCC ACCACCTGTT GCCTTTGCGG ATGCATGCAA TGATAAGAGA 
    GAAACATTTT CAAGTCATTT TGAGAGGCCT TACCTCCAGT TCAAAGCTGA GCCCCCACTA 
    ACCTCCAGAG GATTCGTGGA AAAGAGTACT GCCTTACACA GAATCAGTGC TGAACATCCA 
    GAGAGCATGA TGAGTGAAGT GCATGAGAGA GCTTTACAGC AGCACCCTCA GGCTCAGGGT 
    GGTTTGCTAG AAACACGGGA GAAAATGCAT GCTGATAATA ACTTCACTAA AACCCAAGAT 
    AGGCTGCATG CTTCCTCTGA TGCATTCTCG GGCCTCAGGT TTCAATCAGG CACCAGCAGG 
    GGCTATCAGA GGCAAATGGT TCCTCGAGAA GAGATTAAAA GCACATCAGC AAAGAGCAGC 
    GTGGTCAGCC TAGCTGACCA GGCACCTAAT TTCTCCAGGC TCCTGTCTAA TGTAACTGTC 
    ATGGAAGGTT CTCCAGTGAC TTTGGAAGTT GAAGTAACAG GATTTCCAGA GCCTACACTG 
    ACATGGGGTA GCTGGATATC TGAATTTTCA TATGCAATAT TCCAATTTTT AAAGGATTTC 
    AAAAAATTCA GTTTTCCAAA AACATTGTCT GAGCCAGTCA AAGCAATTCT CTCGCCACCA 
    GTTGCCAACT TCTGCTTGAA AGATAAACAG CGCATAATAC CAGCTACTCA GGAGGCTGAG 
    GCAGGCAGAT TGCTTGAAAC CAGGAGTTCA AGACCAGCCT GGGTACAAGA AGGGCCAGAA 
    ATTGTCTGCA GATGGGCACT TACAGGTTTT ACACAAGGAG ACAAGGCATT CGGTGTTCAT 
    TCCAAAGTTC TGCTGAGACA CAACTTCCCC TGGGAAGCCT CCTGA

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

    CCDC141 ( XM_011510993.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011509295.1 Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OHu78896
    Clone ID Related Accession (Same CDS sequence) XM_011510993.2 , XM_011510993.3
    Accession Version XM_011510993.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4497bp)
    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 141 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011510993.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGTCCAGCC AAGGAAGTCC TAGTGTTGCG 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 
    GTCTATGATG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCTCTGGT GTCCATGCTT 
    GAAAGAAGAA CAGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTAGAGTTT 
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAGTGCT 
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGG 
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT 
    GAAGGACCTA ATGTGAATCC TGAGTTGACT CAGGGAGCTC ATAGCAGCTG TCTGAAGGTT 
    GACCGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAAC TAGACAAGTA CTTGAAGCAA 
    CAGTGGCAAG AATTGAGTCA AGTTCTGCAG ATATGTCAGT GGGACCAACA AGAAAACCAG 
    GTTACTTGTT GGTTTCAGAA AACTATAAGA AATTTACAGG AACAAAGTCT AGGTTCATCA 
    CTTTCAGACA ATGAGGATCG AATTCATAAG CAAGAGGAAC TGATAATAAA AGCAAAGGAA 
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GAGGCACTGA GAATTCTGCT GTCAAAGGAC 
    TACGTGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TCAGTCAGCT TCAAGAAGAA 
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCGAATGA ATTTTTTAAC 
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA 
    TCAGAGGGTT TAAGTCTGGC TGTTTTGGCA GTGAGGCATG AGGAATTACA CAGAAAAATT 
    AAAGACTGCA CAACTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC 
    TGCAGCTCTC AGGTGTCCGG CATCCATGAG ATGATGGGGT GCATTAAGAG ACGAGTGGAT 
    CATCTGACCG AACAGTGTTC AGCGCACAAG GAATATGCTC TTAAGAAACA ACAACTAACA 
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTA 
    CTTTCTAATG CAATGGATGT TGGTTCTACC CGTTCTGAAT CAGAGAAGAT TTTGAATAAA 
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA 
    ACCATGATGG AGAAAAATGA ATTTGTATCT GATGAAATGG TATCACTTTC CTCTAAAGCT 
    AGATGGCTAG CAGAAGAATT AAACCTATTT GGCCAAAGCA TTGACTATAG ATCGCAAGTC 
    CTGCAAACTT ACGTGGCATT TCTGAAGTCA TCAGAGGAGG CAAAAGAGAA CGAGATATTA 
    GATGTGAAAA ATGAAGTGTA CCTCATGAAG AACACCATGG AAAACCAGAA AGCAGAACGG 
    GAAGAACTTA GCCTCCTTCG GCTGGCATGG CAGCTTAAAG CCACGGAAAG CAAGCCTGGA 
    AAACAGCAGT GGGCGGCATT CAAAGAGCAA CTTAAAAAGA CTTCTCACAA CTTAAAACTT 
    CTTCAGGAAG CACTTATGCC TGTGTCTGCA CTTGACCTCG GAGGGAGCCT CCAGTTCATT 
    TTAGATCTAC GACAAAAATG GAATGACATG AAGCCTCAGT TCCAGCAATT GAATGATGAG 
    GTTCAGTACA TTATGAAAGA ATCAGAGGAG TTAACTGGCA GAGGAGCCCC TGTAAAAGAA 
    AAGTCTCAAC AACTGAAGGA CCTTATTCAC TTCCATCAAA AACAGAAAGA GAGAATCCAG 
    GATTACGAGG ATATCCTGTA CAAGGTGGTC CAGTTCCATC AAGTCAAGGA AGAGCTGGGA 
    CGTCTCATCA AATCAAGAGA GCTGGAGTTT GTAGAGCAGC CGAAGGAACT GGGTGATGCC 
    CATGATGTGC AGATTCACCT CCGGTGCTCT CAGGAAAAGC AAGCCCGTGT AGACCATCTC 
    CACAGACTGG CCCTTTCCTT AGGAGTCGAC ATCATCTCAT CAGTGCAGCG GCCTCACTGC 
    TCTAATGTTT CTGCAAAGAA CCTACAGCAG CAGCTGGAGC TCCTTGAGGA GGACAGCATG 
    AAGTGGCGTG CCAAAGCTGA GGAGTATGGA CGGACCCTGT CCCGTAGTGT GGAGTACTGC 
    GCCATGAGAG ACGAGATAAA TGAGCTCAAA GACTCATTCA AAGATATCAA AAAGAAATTC 
    AATAATTTGA AGTTTAATTA CACTAAGAAA AATGAAAAAT CTCGGAATCT GAAGGCGCTT 
    AAATATCAAA TTCAGCAAGT TGATATGTAT GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA 
    ATGGAAAAAG TTAGTAATAA AACCTCTGAT TCTTTCTTAA ATTATCCAAG TGATAAAGTT 
    AATGTCCTTT TGGAAGTCAT GAAGGATTTG CAAAAACATG TGGATGACTT TGACAAAGTT 
    GTGACAGATT ACAAGAAGAA TTTGGACCTG ACTGAGCATT TCCAGGAGGT GATAGAAGAG 
    TGTCATTTTT GGTACGAAGA TGCAAGTGCC ACAGTTGTAA GAGTTGGAAA ATATTCCACA 
    GAGTGCAAGA CAAAGGAAGC TGTGAAAATT CTCCACCAGC AGTTTAATAA GTTTATTGCA 
    CCCTCAGTGC CGCAGCAAGA AGAAAGGATT CAGGAGGCCA CTGACCTTGC TCAGCACTTA 
    TATGGTTTGG AAGAAGGACA GAAATATATT GAGAAAATAG TGACAAAACA CAAAGAGGTT 
    CTTGAATCTG TGACTGAATT ATGTGAGTCC CTCACAGAGC TCGAAGAAAA ACTGAAGCAG 
    GGAGATGTTT TAAAGATGAA TCCGAATTTG GAAGACTTCC ATTATGATTA CATTGACTTG 
    CTAAAGGAAC CAGCAAAAAA TAAGCAGACA ATATTCAATG AAGAAAGGAA TAAGGGGCAG 
    GTGCAGGTGG CAGATCTTTT GGGCATCAAT GGAACAGGGG AAGAGCGACT ACCACAAGAC 
    CTGAAGGTGT CCACTGACAA GGAGGGTGGC GTCCAGGACC TGCTCCTGCC TGAAGACATG 
    CTCTCAGGGG AAGAATATGA GTGTGTCTCA CCTGATGACA TCTCCTTGCC TCCTCTCCCA 
    GGAAGCCCTG AGTCCCCTCT TGCACCATCT GACATGGAGG TGGAAGAGCC TGTCAGCTCC 
    TCCCTCAGCC TTCACATAAG CAGCTATGGG GTGCAGGCTG GGACCAGCAG CCCAGGGGAT 
    GCCCAGGAAT CTGTTCTTCC ACCACCTGTT GCCTTTGCGG ATGCATGCAA TGATAAGAGA 
    GAAACATTTT CAAGTCATTT TGAGAGGCCT TACCTCCAGT TCAAAGCTGA GCCCCCACTA 
    ACCTCCAGAG GATTCGTGGA AAAGAGTACT GCCTTACACA GAATCAGTGC TGAACATCCA 
    GAGAGCATGA TGAGTGAAGT GCATGAGAGA GCTTTACAGC AGCACCCTCA GGCTCAGGGT 
    GGTTTGCTAG AAACACGGGA GAAAATGCAT GCTGATAATA ACTTCACTAA AACCCAAGAT 
    AGGCTGCATG CTTCCTCTGA TGCATTCTCG GGCCTCAGGT TTCAATCAGG CACCAGCAGG 
    GGCTATCAGA GGCAAATGGT TCCTCGAGAA GAGATTAAAA GCACATCAGC AAAGAGCAGC 
    GTGGTCAGCC TAGCTGACCA GGCACCTAAT TTCTCCAGGC TCCTGTCTAA TGTAACTGTC 
    ATGGAAGGTT CTCCAGTGAC TTTGGAAGTT GAAGTAACAG GATTTCCAGA GCCTACACTG 
    ACATGGGGTA GCTGGATATC TGAATTTTCA TATGCAATAT TCCAATTTTT AAAGGATTTC 
    AAAAAATTCA GTTTTCCAAA AACATTGTCT GAGCCAGTCA AAGCAATTCT CTCGCCACCA 
    GTTGCCAACT TCTGCTTGAA AGATAAACAG CGCATAATAC CAGCTACTCA GGAGGCTGAG 
    GCAGGCAGAT TGCTTGAAAC CAGGAGTTCA AGACCAGCCT GGGTACAAGA AGGGCCAGAA 
    ATTGTCTGCA GATGGGCACT TACAGGTTTT ACACAAGGAG ACAAGGCATT CGGTGTTCAT 
    TCCAAAGGTA TGCAAGGCAG ACGCAGGCCT CTATGTGGCT CGGGCCCAAA ACTCTAG

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

    RefSeq XP_011509295.1
    CDS194..4690
    Translation

    Target ORF information:

    RefSeq Version XM_011510993.2
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011510993.2

    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
    ATGTCCAGCC AAGGAAGTCC TAGTGTTGCG 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 
    GTCTATGATG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCTCTGGT GTCCATGCTT 
    GAAAGAAGAA CAGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTAGAGTTT 
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAGTGCT 
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGG 
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT 
    GAAGGACCTA ATGTGAATCC TGAGTTGACT CAGGGAGCTC ATAGCAGCTG TCTGAAGGTT 
    GACCGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAAC TAGACAAGTA CTTGAAGCAA 
    CAGTGGCAAG AATTGAGTCA AGTTCTGCAG ATATGTCAGT GGGACCAACA AGAAAACCAG 
    GTTACTTGTT GGTTTCAGAA AACTATAAGA AATTTACAGG AACAAAGTCT AGGTTCATCA 
    CTTTCAGACA ATGAGGATCG AATTCATAAG CAAGAGGAAC TGATAATAAA AGCAAAGGAA 
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GAGGCACTGA GAATTCTGCT GTCAAAGGAC 
    TACGTGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TCAGTCAGCT TCAAGAAGAA 
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCGAATGA ATTTTTTAAC 
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA 
    TCAGAGGGTT TAAGTCTGGC TGTTTTGGCA GTGAGGCATG AGGAATTACA CAGAAAAATT 
    AAAGACTGCA CAACTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC 
    TGCAGCTCTC AGGTGTCCGG CATCCATGAG ATGATGGGGT GCATTAAGAG ACGAGTGGAT 
    CATCTGACCG AACAGTGTTC AGCGCACAAG GAATATGCTC TTAAGAAACA ACAACTAACA 
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTA 
    CTTTCTAATG CAATGGATGT TGGTTCTACC CGTTCTGAAT CAGAGAAGAT TTTGAATAAA 
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA 
    ACCATGATGG AGAAAAATGA ATTTGTATCT GATGAAATGG TATCACTTTC CTCTAAAGCT 
    AGATGGCTAG CAGAAGAATT AAACCTATTT GGCCAAAGCA TTGACTATAG ATCGCAAGTC 
    CTGCAAACTT ACGTGGCATT TCTGAAGTCA TCAGAGGAGG CAAAAGAGAA CGAGATATTA 
    GATGTGAAAA ATGAAGTGTA CCTCATGAAG AACACCATGG AAAACCAGAA AGCAGAACGG 
    GAAGAACTTA GCCTCCTTCG GCTGGCATGG CAGCTTAAAG CCACGGAAAG CAAGCCTGGA 
    AAACAGCAGT GGGCGGCATT CAAAGAGCAA CTTAAAAAGA CTTCTCACAA CTTAAAACTT 
    CTTCAGGAAG CACTTATGCC TGTGTCTGCA CTTGACCTCG GAGGGAGCCT CCAGTTCATT 
    TTAGATCTAC GACAAAAATG GAATGACATG AAGCCTCAGT TCCAGCAATT GAATGATGAG 
    GTTCAGTACA TTATGAAAGA ATCAGAGGAG TTAACTGGCA GAGGAGCCCC TGTAAAAGAA 
    AAGTCTCAAC AACTGAAGGA CCTTATTCAC TTCCATCAAA AACAGAAAGA GAGAATCCAG 
    GATTACGAGG ATATCCTGTA CAAGGTGGTC CAGTTCCATC AAGTCAAGGA AGAGCTGGGA 
    CGTCTCATCA AATCAAGAGA GCTGGAGTTT GTAGAGCAGC CGAAGGAACT GGGTGATGCC 
    CATGATGTGC AGATTCACCT CCGGTGCTCT CAGGAAAAGC AAGCCCGTGT AGACCATCTC 
    CACAGACTGG CCCTTTCCTT AGGAGTCGAC ATCATCTCAT CAGTGCAGCG GCCTCACTGC 
    TCTAATGTTT CTGCAAAGAA CCTACAGCAG CAGCTGGAGC TCCTTGAGGA GGACAGCATG 
    AAGTGGCGTG CCAAAGCTGA GGAGTATGGA CGGACCCTGT CCCGTAGTGT GGAGTACTGC 
    GCCATGAGAG ACGAGATAAA TGAGCTCAAA GACTCATTCA AAGATATCAA AAAGAAATTC 
    AATAATTTGA AGTTTAATTA CACTAAGAAA AATGAAAAAT CTCGGAATCT GAAGGCGCTT 
    AAATATCAAA TTCAGCAAGT TGATATGTAT GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA 
    ATGGAAAAAG TTAGTAATAA AACCTCTGAT TCTTTCTTAA ATTATCCAAG TGATAAAGTT 
    AATGTCCTTT TGGAAGTCAT GAAGGATTTG CAAAAACATG TGGATGACTT TGACAAAGTT 
    GTGACAGATT ACAAGAAGAA TTTGGACCTG ACTGAGCATT TCCAGGAGGT GATAGAAGAG 
    TGTCATTTTT GGTACGAAGA TGCAAGTGCC ACAGTTGTAA GAGTTGGAAA ATATTCCACA 
    GAGTGCAAGA CAAAGGAAGC TGTGAAAATT CTCCACCAGC AGTTTAATAA GTTTATTGCA 
    CCCTCAGTGC CGCAGCAAGA AGAAAGGATT CAGGAGGCCA CTGACCTTGC TCAGCACTTA 
    TATGGTTTGG AAGAAGGACA GAAATATATT GAGAAAATAG TGACAAAACA CAAAGAGGTT 
    CTTGAATCTG TGACTGAATT ATGTGAGTCC CTCACAGAGC TCGAAGAAAA ACTGAAGCAG 
    GGAGATGTTT TAAAGATGAA TCCGAATTTG GAAGACTTCC ATTATGATTA CATTGACTTG 
    CTAAAGGAAC CAGCAAAAAA TAAGCAGACA ATATTCAATG AAGAAAGGAA TAAGGGGCAG 
    GTGCAGGTGG CAGATCTTTT GGGCATCAAT GGAACAGGGG AAGAGCGACT ACCACAAGAC 
    CTGAAGGTGT CCACTGACAA GGAGGGTGGC GTCCAGGACC TGCTCCTGCC TGAAGACATG 
    CTCTCAGGGG AAGAATATGA GTGTGTCTCA CCTGATGACA TCTCCTTGCC TCCTCTCCCA 
    GGAAGCCCTG AGTCCCCTCT TGCACCATCT GACATGGAGG TGGAAGAGCC TGTCAGCTCC 
    TCCCTCAGCC TTCACATAAG CAGCTATGGG GTGCAGGCTG GGACCAGCAG CCCAGGGGAT 
    GCCCAGGAAT CTGTTCTTCC ACCACCTGTT GCCTTTGCGG ATGCATGCAA TGATAAGAGA 
    GAAACATTTT CAAGTCATTT TGAGAGGCCT TACCTCCAGT TCAAAGCTGA GCCCCCACTA 
    ACCTCCAGAG GATTCGTGGA AAAGAGTACT GCCTTACACA GAATCAGTGC TGAACATCCA 
    GAGAGCATGA TGAGTGAAGT GCATGAGAGA GCTTTACAGC AGCACCCTCA GGCTCAGGGT 
    GGTTTGCTAG AAACACGGGA GAAAATGCAT GCTGATAATA ACTTCACTAA AACCCAAGAT 
    AGGCTGCATG CTTCCTCTGA TGCATTCTCG GGCCTCAGGT TTCAATCAGG CACCAGCAGG 
    GGCTATCAGA GGCAAATGGT TCCTCGAGAA GAGATTAAAA GCACATCAGC AAAGAGCAGC 
    GTGGTCAGCC TAGCTGACCA GGCACCTAAT TTCTCCAGGC TCCTGTCTAA TGTAACTGTC 
    ATGGAAGGTT CTCCAGTGAC TTTGGAAGTT GAAGTAACAG GATTTCCAGA GCCTACACTG 
    ACATGGGGTA GCTGGATATC TGAATTTTCA TATGCAATAT TCCAATTTTT AAAGGATTTC 
    AAAAAATTCA GTTTTCCAAA AACATTGTCT GAGCCAGTCA AAGCAATTCT CTCGCCACCA 
    GTTGCCAACT TCTGCTTGAA AGATAAACAG CGCATAATAC CAGCTACTCA GGAGGCTGAG 
    GCAGGCAGAT TGCTTGAAAC CAGGAGTTCA AGACCAGCCT GGGTACAAGA AGGGCCAGAA 
    ATTGTCTGCA GATGGGCACT TACAGGTTTT ACACAAGGAG ACAAGGCATT CGGTGTTCAT 
    TCCAAAGGTA TGCAAGGCAG ACGCAGGCCT CTATGTGGCT CGGGCCCAAA ACTCTAG

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

    CCDC141 ( XM_011510993.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011509295.1 Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OHu78896
    Clone ID Related Accession (Same CDS sequence) XM_011510993.2 , XM_011510993.3
    Accession Version XM_011510993.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4497bp)
    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 141 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011510993.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGTCCAGCC AAGGAAGTCC TAGTGTTGCG 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 
    GTCTATGATG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCTCTGGT GTCCATGCTT 
    GAAAGAAGAA CAGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTAGAGTTT 
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAGTGCT 
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGG 
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT 
    GAAGGACCTA ATGTGAATCC TGAGTTGACT CAGGGAGCTC ATAGCAGCTG TCTGAAGGTT 
    GACCGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAAC TAGACAAGTA CTTGAAGCAA 
    CAGTGGCAAG AATTGAGTCA AGTTCTGCAG ATATGTCAGT GGGACCAACA AGAAAACCAG 
    GTTACTTGTT GGTTTCAGAA AACTATAAGA AATTTACAGG AACAAAGTCT AGGTTCATCA 
    CTTTCAGACA ATGAGGATCG AATTCATAAG CAAGAGGAAC TGATAATAAA AGCAAAGGAA 
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GAGGCACTGA GAATTCTGCT GTCAAAGGAC 
    TACGTGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TCAGTCAGCT TCAAGAAGAA 
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCGAATGA ATTTTTTAAC 
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA 
    TCAGAGGGTT TAAGTCTGGC TGTTTTGGCA GTGAGGCATG AGGAATTACA CAGAAAAATT 
    AAAGACTGCA CAACTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC 
    TGCAGCTCTC AGGTGTCCGG CATCCATGAG ATGATGGGGT GCATTAAGAG ACGAGTGGAT 
    CATCTGACCG AACAGTGTTC AGCGCACAAG GAATATGCTC TTAAGAAACA ACAACTAACA 
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTA 
    CTTTCTAATG CAATGGATGT TGGTTCTACC CGTTCTGAAT CAGAGAAGAT TTTGAATAAA 
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA 
    ACCATGATGG AGAAAAATGA ATTTGTATCT GATGAAATGG TATCACTTTC CTCTAAAGCT 
    AGATGGCTAG CAGAAGAATT AAACCTATTT GGCCAAAGCA TTGACTATAG ATCGCAAGTC 
    CTGCAAACTT ACGTGGCATT TCTGAAGTCA TCAGAGGAGG CAAAAGAGAA CGAGATATTA 
    GATGTGAAAA ATGAAGTGTA CCTCATGAAG AACACCATGG AAAACCAGAA AGCAGAACGG 
    GAAGAACTTA GCCTCCTTCG GCTGGCATGG CAGCTTAAAG CCACGGAAAG CAAGCCTGGA 
    AAACAGCAGT GGGCGGCATT CAAAGAGCAA CTTAAAAAGA CTTCTCACAA CTTAAAACTT 
    CTTCAGGAAG CACTTATGCC TGTGTCTGCA CTTGACCTCG GAGGGAGCCT CCAGTTCATT 
    TTAGATCTAC GACAAAAATG GAATGACATG AAGCCTCAGT TCCAGCAATT GAATGATGAG 
    GTTCAGTACA TTATGAAAGA ATCAGAGGAG TTAACTGGCA GAGGAGCCCC TGTAAAAGAA 
    AAGTCTCAAC AACTGAAGGA CCTTATTCAC TTCCATCAAA AACAGAAAGA GAGAATCCAG 
    GATTACGAGG ATATCCTGTA CAAGGTGGTC CAGTTCCATC AAGTCAAGGA AGAGCTGGGA 
    CGTCTCATCA AATCAAGAGA GCTGGAGTTT GTAGAGCAGC CGAAGGAACT GGGTGATGCC 
    CATGATGTGC AGATTCACCT CCGGTGCTCT CAGGAAAAGC AAGCCCGTGT AGACCATCTC 
    CACAGACTGG CCCTTTCCTT AGGAGTCGAC ATCATCTCAT CAGTGCAGCG GCCTCACTGC 
    TCTAATGTTT CTGCAAAGAA CCTACAGCAG CAGCTGGAGC TCCTTGAGGA GGACAGCATG 
    AAGTGGCGTG CCAAAGCTGA GGAGTATGGA CGGACCCTGT CCCGTAGTGT GGAGTACTGC 
    GCCATGAGAG ACGAGATAAA TGAGCTCAAA GACTCATTCA AAGATATCAA AAAGAAATTC 
    AATAATTTGA AGTTTAATTA CACTAAGAAA AATGAAAAAT CTCGGAATCT GAAGGCGCTT 
    AAATATCAAA TTCAGCAAGT TGATATGTAT GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA 
    ATGGAAAAAG TTAGTAATAA AACCTCTGAT TCTTTCTTAA ATTATCCAAG TGATAAAGTT 
    AATGTCCTTT TGGAAGTCAT GAAGGATTTG CAAAAACATG TGGATGACTT TGACAAAGTT 
    GTGACAGATT ACAAGAAGAA TTTGGACCTG ACTGAGCATT TCCAGGAGGT GATAGAAGAG 
    TGTCATTTTT GGTACGAAGA TGCAAGTGCC ACAGTTGTAA GAGTTGGAAA ATATTCCACA 
    GAGTGCAAGA CAAAGGAAGC TGTGAAAATT CTCCACCAGC AGTTTAATAA GTTTATTGCA 
    CCCTCAGTGC CGCAGCAAGA AGAAAGGATT CAGGAGGCCA CTGACCTTGC TCAGCACTTA 
    TATGGTTTGG AAGAAGGACA GAAATATATT GAGAAAATAG TGACAAAACA CAAAGAGGTT 
    CTTGAATCTG TGACTGAATT ATGTGAGTCC CTCACAGAGC TCGAAGAAAA ACTGAAGCAG 
    GGAGATGTTT TAAAGATGAA TCCGAATTTG GAAGACTTCC ATTATGATTA CATTGACTTG 
    CTAAAGGAAC CAGCAAAAAA TAAGCAGACA ATATTCAATG AAGAAAGGAA TAAGGGGCAG 
    GTGCAGGTGG CAGATCTTTT GGGCATCAAT GGAACAGGGG AAGAGCGACT ACCACAAGAC 
    CTGAAGGTGT CCACTGACAA GGAGGGTGGC GTCCAGGACC TGCTCCTGCC TGAAGACATG 
    CTCTCAGGGG AAGAATATGA GTGTGTCTCA CCTGATGACA TCTCCTTGCC TCCTCTCCCA 
    GGAAGCCCTG AGTCCCCTCT TGCACCATCT GACATGGAGG TGGAAGAGCC TGTCAGCTCC 
    TCCCTCAGCC TTCACATAAG CAGCTATGGG GTGCAGGCTG GGACCAGCAG CCCAGGGGAT 
    GCCCAGGAAT CTGTTCTTCC ACCACCTGTT GCCTTTGCGG ATGCATGCAA TGATAAGAGA 
    GAAACATTTT CAAGTCATTT TGAGAGGCCT TACCTCCAGT TCAAAGCTGA GCCCCCACTA 
    ACCTCCAGAG GATTCGTGGA AAAGAGTACT GCCTTACACA GAATCAGTGC TGAACATCCA 
    GAGAGCATGA TGAGTGAAGT GCATGAGAGA GCTTTACAGC AGCACCCTCA GGCTCAGGGT 
    GGTTTGCTAG AAACACGGGA GAAAATGCAT GCTGATAATA ACTTCACTAA AACCCAAGAT 
    AGGCTGCATG CTTCCTCTGA TGCATTCTCG GGCCTCAGGT TTCAATCAGG CACCAGCAGG 
    GGCTATCAGA GGCAAATGGT TCCTCGAGAA GAGATTAAAA GCACATCAGC AAAGAGCAGC 
    GTGGTCAGCC TAGCTGACCA GGCACCTAAT TTCTCCAGGC TCCTGTCTAA TGTAACTGTC 
    ATGGAAGGTT CTCCAGTGAC TTTGGAAGTT GAAGTAACAG GATTTCCAGA GCCTACACTG 
    ACATGGGGTA GCTGGATATC TGAATTTTCA TATGCAATAT TCCAATTTTT AAAGGATTTC 
    AAAAAATTCA GTTTTCCAAA AACATTGTCT GAGCCAGTCA AAGCAATTCT CTCGCCACCA 
    GTTGCCAACT TCTGCTTGAA AGATAAACAG CGCATAATAC CAGCTACTCA GGAGGCTGAG 
    GCAGGCAGAT TGCTTGAAAC CAGGAGTTCA AGACCAGCCT GGGTACAAGA AGGGCCAGAA 
    ATTGTCTGCA GATGGGCACT TACAGGTTTT ACACAAGGAG ACAAGGCATT CGGTGTTCAT 
    TCCAAAGGTA TGCAAGGCAG ACGCAGGCCT CTATGTGGCT CGGGCCCAAA ACTCTAG

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

    RefSeq XP_011509295.1
    CDS191..4687
    Translation

    Target ORF information:

    RefSeq Version XM_011510993.3
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 141 (CCDC141), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011510993.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGTCCAGCC AAGGAAGTCC TAGTGTTGCG 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 
    GTCTATGATG CCATGGCCGA GACTCTGGGT GAAGCATGGG CAGCTCTGGT GTCCATGCTT 
    GAAAGAAGAA CAGAGCTCCT TAGGTTGACT TCTGAATTTT TTGAAAATGC CTTAGAGTTT 
    GCTATTAAAA TAGACCAAGC TGAAGATTTC CTCCAGAATA CTCATGAGTT TGAGAGTGCT 
    GAGTCCTTAA AATCACTTCT TCAGCTTCAT GAACATCATA CTAAAGAACT CTTGGAACGG 
    TCTTTAGCCC TTTTAAACAA AAGTCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT 
    GAAGGACCTA ATGTGAATCC TGAGTTGACT CAGGGAGCTC ATAGCAGCTG TCTGAAGGTT 
    GACCGCCTTC TTGAACTTCT ACAAGACAGG AGAAGACAAC TAGACAAGTA CTTGAAGCAA 
    CAGTGGCAAG AATTGAGTCA AGTTCTGCAG ATATGTCAGT GGGACCAACA AGAAAACCAG 
    GTTACTTGTT GGTTTCAGAA AACTATAAGA AATTTACAGG AACAAAGTCT AGGTTCATCA 
    CTTTCAGACA ATGAGGATCG AATTCATAAG CAAGAGGAAC TGATAATAAA AGCAAAGGAA 
    TGGAATTCTG CTGTTGAGAA GCTGAAGAGT GAGGCACTGA GAATTCTGCT GTCAAAGGAC 
    TACGTGGAGA AAGAACACCT CCAGCTCTCT CACCAGAAAC TCAGTCAGCT TCAAGAAGAA 
    TTTGGTCAAC TCATGGTGGA AAGGAATACC TGGTTAAAGA AGGCGAATGA ATTTTTTAAC 
    AGTGCTAACA AGGCATTTGA TGTACTTGGA AGAGTTGAAG CTTACCTTAA GCTCCTTAAA 
    TCAGAGGGTT TAAGTCTGGC TGTTTTGGCA GTGAGGCATG AGGAATTACA CAGAAAAATT 
    AAAGACTGCA CAACTGATGC TTTGCAAAAG GGACAAACCT TAATCAGCCA AGTAGACTCC 
    TGCAGCTCTC AGGTGTCCGG CATCCATGAG ATGATGGGGT GCATTAAGAG ACGAGTGGAT 
    CATCTGACCG AACAGTGTTC AGCGCACAAG GAATATGCTC TTAAGAAACA ACAACTAACA 
    GCCTCAGTGG AGGGTTACCT ACGGAAGGTG GAAATGTCAA TTCAGAAAAT CAGTCCAGTA 
    CTTTCTAATG CAATGGATGT TGGTTCTACC CGTTCTGAAT CAGAGAAGAT TTTGAATAAA 
    TATCTGGAAC TAGATATCCA AGCTAAGGAG ACATCACATG AATTAGAAGC AGCTGCAAAA 
    ACCATGATGG AGAAAAATGA ATTTGTATCT GATGAAATGG TATCACTTTC CTCTAAAGCT 
    AGATGGCTAG CAGAAGAATT AAACCTATTT GGCCAAAGCA TTGACTATAG ATCGCAAGTC 
    CTGCAAACTT ACGTGGCATT TCTGAAGTCA TCAGAGGAGG CAAAAGAGAA CGAGATATTA 
    GATGTGAAAA ATGAAGTGTA CCTCATGAAG AACACCATGG AAAACCAGAA AGCAGAACGG 
    GAAGAACTTA GCCTCCTTCG GCTGGCATGG CAGCTTAAAG CCACGGAAAG CAAGCCTGGA 
    AAACAGCAGT GGGCGGCATT CAAAGAGCAA CTTAAAAAGA CTTCTCACAA CTTAAAACTT 
    CTTCAGGAAG CACTTATGCC TGTGTCTGCA CTTGACCTCG GAGGGAGCCT CCAGTTCATT 
    TTAGATCTAC GACAAAAATG GAATGACATG AAGCCTCAGT TCCAGCAATT GAATGATGAG 
    GTTCAGTACA TTATGAAAGA ATCAGAGGAG TTAACTGGCA GAGGAGCCCC TGTAAAAGAA 
    AAGTCTCAAC AACTGAAGGA CCTTATTCAC TTCCATCAAA AACAGAAAGA GAGAATCCAG 
    GATTACGAGG ATATCCTGTA CAAGGTGGTC CAGTTCCATC AAGTCAAGGA AGAGCTGGGA 
    CGTCTCATCA AATCAAGAGA GCTGGAGTTT GTAGAGCAGC CGAAGGAACT GGGTGATGCC 
    CATGATGTGC AGATTCACCT CCGGTGCTCT CAGGAAAAGC AAGCCCGTGT AGACCATCTC 
    CACAGACTGG CCCTTTCCTT AGGAGTCGAC ATCATCTCAT CAGTGCAGCG GCCTCACTGC 
    TCTAATGTTT CTGCAAAGAA CCTACAGCAG CAGCTGGAGC TCCTTGAGGA GGACAGCATG 
    AAGTGGCGTG CCAAAGCTGA GGAGTATGGA CGGACCCTGT CCCGTAGTGT GGAGTACTGC 
    GCCATGAGAG ACGAGATAAA TGAGCTCAAA GACTCATTCA AAGATATCAA AAAGAAATTC 
    AATAATTTGA AGTTTAATTA CACTAAGAAA AATGAAAAAT CTCGGAATCT GAAGGCGCTT 
    AAATATCAAA TTCAGCAAGT TGATATGTAT GCTGAAAAAA TGCAGGCTTT GAAAAGGAAA 
    ATGGAAAAAG TTAGTAATAA AACCTCTGAT TCTTTCTTAA ATTATCCAAG TGATAAAGTT 
    AATGTCCTTT TGGAAGTCAT GAAGGATTTG CAAAAACATG TGGATGACTT TGACAAAGTT 
    GTGACAGATT ACAAGAAGAA TTTGGACCTG ACTGAGCATT TCCAGGAGGT GATAGAAGAG 
    TGTCATTTTT GGTACGAAGA TGCAAGTGCC ACAGTTGTAA GAGTTGGAAA ATATTCCACA 
    GAGTGCAAGA CAAAGGAAGC TGTGAAAATT CTCCACCAGC AGTTTAATAA GTTTATTGCA 
    CCCTCAGTGC CGCAGCAAGA AGAAAGGATT CAGGAGGCCA CTGACCTTGC TCAGCACTTA 
    TATGGTTTGG AAGAAGGACA GAAATATATT GAGAAAATAG TGACAAAACA CAAAGAGGTT 
    CTTGAATCTG TGACTGAATT ATGTGAGTCC CTCACAGAGC TCGAAGAAAA ACTGAAGCAG 
    GGAGATGTTT TAAAGATGAA TCCGAATTTG GAAGACTTCC ATTATGATTA CATTGACTTG 
    CTAAAGGAAC CAGCAAAAAA TAAGCAGACA ATATTCAATG AAGAAAGGAA TAAGGGGCAG 
    GTGCAGGTGG CAGATCTTTT GGGCATCAAT GGAACAGGGG AAGAGCGACT ACCACAAGAC 
    CTGAAGGTGT CCACTGACAA GGAGGGTGGC GTCCAGGACC TGCTCCTGCC TGAAGACATG 
    CTCTCAGGGG AAGAATATGA GTGTGTCTCA CCTGATGACA TCTCCTTGCC TCCTCTCCCA 
    GGAAGCCCTG AGTCCCCTCT TGCACCATCT GACATGGAGG TGGAAGAGCC TGTCAGCTCC 
    TCCCTCAGCC TTCACATAAG CAGCTATGGG GTGCAGGCTG GGACCAGCAG CCCAGGGGAT 
    GCCCAGGAAT CTGTTCTTCC ACCACCTGTT GCCTTTGCGG ATGCATGCAA TGATAAGAGA 
    GAAACATTTT CAAGTCATTT TGAGAGGCCT TACCTCCAGT TCAAAGCTGA GCCCCCACTA 
    ACCTCCAGAG GATTCGTGGA AAAGAGTACT GCCTTACACA GAATCAGTGC TGAACATCCA 
    GAGAGCATGA TGAGTGAAGT GCATGAGAGA GCTTTACAGC AGCACCCTCA GGCTCAGGGT 
    GGTTTGCTAG AAACACGGGA GAAAATGCAT GCTGATAATA ACTTCACTAA AACCCAAGAT 
    AGGCTGCATG CTTCCTCTGA TGCATTCTCG GGCCTCAGGT TTCAATCAGG CACCAGCAGG 
    GGCTATCAGA GGCAAATGGT TCCTCGAGAA GAGATTAAAA GCACATCAGC AAAGAGCAGC 
    GTGGTCAGCC TAGCTGACCA GGCACCTAAT TTCTCCAGGC TCCTGTCTAA TGTAACTGTC 
    ATGGAAGGTT CTCCAGTGAC TTTGGAAGTT GAAGTAACAG GATTTCCAGA GCCTACACTG 
    ACATGGGGTA GCTGGATATC TGAATTTTCA TATGCAATAT TCCAATTTTT AAAGGATTTC 
    AAAAAATTCA GTTTTCCAAA AACATTGTCT GAGCCAGTCA AAGCAATTCT CTCGCCACCA 
    GTTGCCAACT TCTGCTTGAA AGATAAACAG CGCATAATAC CAGCTACTCA GGAGGCTGAG 
    GCAGGCAGAT TGCTTGAAAC CAGGAGTTCA AGACCAGCCT GGGTACAAGA AGGGCCAGAA 
    ATTGTCTGCA GATGGGCACT TACAGGTTTT ACACAAGGAG ACAAGGCATT CGGTGTTCAT 
    TCCAAAGGTA TGCAAGGCAG ACGCAGGCCT CTATGTGGCT CGGGCCCAAA ACTCTAG

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

見積依頼

Eメール

japanmarket@genscript.com

電話

03-6811-6572

FAX

03-6811-6573
050-3174-7589(受注専用)

オンラインフォーム

オンライン注文