ORF » Species Summary » Macaca mulatta » CCDC18 cDNA ORF clone

CCDC18 cDNA ORF clone, Macaca mulatta(Rhesus monkey)

  • Gene

  • Clones

  • gRNAs

The following CCDC18 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CCDC18 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
OMb25751 XM_015145029.1
Latest version!		 Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $426.30
$609.00
OMb25747 XM_015145003.1
Latest version!		 Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
OMb25748 XM_015145011.1
Latest version!		 Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
OMb25749 XM_015145013.1
Latest version!		 Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
OMb25750 XM_015145021.1
Latest version!		 Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
OMb58679 XM_028847494.1
Latest version!		 Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMb58679 XM_028847495.1
Latest version!		 Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMb58680 XM_015145011.2
Latest version!		 Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMb58681 XM_028847497.1
Latest version!		 Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMb58682 XM_015145013.2
Latest version!		 Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMb58683 XM_015145021.2
Latest version!		 Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMb58684 XM_015145003.2
Latest version!		 Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMb58685 XM_028847512.1
Latest version!		 Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMb58686 XM_015145029.2
Latest version!		 Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00

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

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

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

  • Reference Sequences (Refseq)
    CCDC18 ( XM_015145029.1 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_015000515.1 Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OMb25751
    Clone ID Related Accession (Same CDS sequence) XM_015145029.1
    Accession Version XM_015145029.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2277bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2015-12-20
    Organism Macaca mulatta(Rhesus monkey)
    Product coiled-coil domain-containing protein 18 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014804553.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Macaca mulatta Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    ATGGCAGTGA AAAATTCAGA AGTCATGGCA CAGCTAACTG AATCTAGACA AAGTATTTTG 
    AAGCTAGAGA GTGAGTTAGA GAACAAAGAC GAAATACTTA GAGACAAATT TTCTTTAATG 
    AATGAAAACC GAGAATTAAA GGTCCGTGTT GCAGCACAGA ATGAGCGACT AGATTTATGT 
    CAACAAGAAA TTGAAAGTTC AAGGGTAGAA CTAAGAAGTA TGGAAAAGAT TATATCCCAG 
    TTGCCATTAA AGAGAGAATT ATTTGGCTTT AAATCGTCTC TTTCTAAATA CCAGATGAGT 
    AGCTTCTCAA ACAAGGAAGA CCGTTGCATT GGCTGCTGTG AGGCAAATAA ATTGGTGATT 
    TCGGAATTGA GAATTAAGCT TGCAATAAAA GAGGCAGAAA TTCAAAAGCT TCATGCAAAC 
    CTGACTGCAA ATCAGTTATC TCAGAGTCTT ATTACTTGTA ATGACAGCCA AGAAAGTAGC 
    AAATTAAGTA GTTTAGAAAC AGAACCTGTA AAGCTAGGTG GTCATCAAGT GGCAGAAAGC 
    GTGAAAGATC AAAATCAACA TACTATGAAC AAGCAATATG AAAAAGAGAG GCAAAGACTT 
    GTTACTGGAA TAGAAGAGCT ACGTACTAAG CTGATACAAA TAGAAGCTGA AAATTCTGAT 
    TTGAGGGTTA ACATGGCTCA CAGAACTAGT CAGTTTCAGC TGATTCAAGA GGAGCTGCTA 
    GAGAAAGCTT CAAACTCCAG CAAACTGGAA AGTGAAATGA CAAAGAAATG TTCTCAACTT 
    TTAACTCTTG AGAAACAGCT GGAAGAAAAG ATAGTTGCTT ATTCCTCTAT TGCTGCAAAA 
    AATGCAGAAC TAGAACAGGA GCTTATGGAA AAGAATGAAA AGATAAGGAG TCTAGAAACC 
    AATGTTAATA CAGAGCATGA GAAAATTTGT TTAGCCTTTG AAAAAGCAAA GAAAATTCAC 
    TTGGAACAGC ATAAAGAAAT GGAAAAGCAG ATTGAAAGAC TTGAAGCTCA ACTAGAGAAA 
    AAGGATCAAC AATTTAAAGA ACAAGAAAAG ACTATGTCCA TGTTGCAACA AGATATAATA 
    TGCAAACAGC ATCATCTTGA ATCACTAGAT AGACTCTTGA CGGAAAGCAA AGGGGAAATG 
    GAAAAGGAAA ATATGAAGAA AGATGAAGCT TTAAAAGCAT TACAGAACCA AGTATCTGAA 
    GAAACAATCA AGGTTAGGCA ACTAGATTCA GCATTAGAAA TTTGTAAGGA AGAACTTGTC 
    TTGCATTTGA ATCAATTGGA AGGAAATAAG GAAAAGTTTG AAAAACAGTT AAAGAAGAAA 
    TCTGAAGAGG TATATTGTTT ACAGAAAGAG CTAAAAATAA AAAATCACAG TCTTCAAGAG 
    ACTTCTGAGC AAAACATTAT TCTACAGCAT ACTCTTCAGC AACAGCAGCA AATGTTACAA 
    CAAGAGACAA TTAGAAATGG AGAGCTGGAA GATACTCAAA CTAAACTTGA AAAACAGGTG 
    TCAAAACTGG AACAAGAACT TCAAAAACAA AGGGAAAGTT CAGCTGAAAA GTTGAGAAAA 
    ATGGAGGAGA AATGTGAATC AGCTGCACAT GAAGCAGATT TGAAAAGGCA AAAAGTGATT 
    GAGCTTACTA GCACTGCCAG GCAAGTAAAG CTTGAGATGG ATCAGTACAA AGAAGAGCTG 
    TCTAAAATGG AAAAGGAAAT AATGCACCTC AAACGAGATG GAGAAAATAA AGCAATGCAC 
    CTCTCTCAAT TAGATATGAT CTTAGATCAG ACAAAGACAG AGCTAGAAAA GAAAACAAAT 
    GCTGTAAAGG AGTTAGAAAA GTTACAGCAC AGTACTGAAA CTGAACTAAC AGAAGCCTTG 
    CAAAAACGGG AAGCACTTGA GACTGAACTA CAAAATGCTC ATGGAGAATT AAAAAGTACT 
    TTAAGACAAC TCCAGGAATT GAGAGATGTA CTACAGAAGG CTCAGTTATC ATTAGAGGAA 
    AAATACACTA CTATAAAGGA TCTCACAGCT GAACTTAGAG AATGCAAGAT GGAGATTGAA 
    GACAAAAAGC AGGAGCTCCT TGAAATGGAT CAGGCACTTA AGGAGAGAAA TTGGGAACTA 
    AAGCAAAGAG CAGCTCAGGT TACACATTTG GATATGACTA TTCGCGAACA CAGAGGAGAA 
    ATGGAACAAA AAATAATTAA ATTAGAAGGT ACCCTGGAGA AATCAGAATT GGAACTTAAA 
    GAATGTAACA AACAGGTAAA TTATTTTAAA ATTACATATT TTAAATTATT TTTTTAA

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

    RefSeq XP_015000515.1
    CDS359..2635
    Translation

    Target ORF information:

    RefSeq Version XM_015145029.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_015145029.1

    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
    ATGGCAGTGA AAAATTCAGA AGTCATGGCA CAGCTAACTG AATCTAGACA AAGTATTTTG 
    AAGCTAGAGA GTGAGTTAGA GAACAAAGAC GAAATACTTA GAGACAAATT TTCTTTAATG 
    AATGAAAACC GAGAATTAAA GGTCCGTGTT GCAGCACAGA ATGAGCGACT AGATTTATGT 
    CAACAAGAAA TTGAAAGTTC AAGGGTAGAA CTAAGAAGTA TGGAAAAGAT TATATCCCAG 
    TTGCCATTAA AGAGAGAATT ATTTGGCTTT AAATCGTCTC TTTCTAAATA CCAGATGAGT 
    AGCTTCTCAA ACAAGGAAGA CCGTTGCATT GGCTGCTGTG AGGCAAATAA ATTGGTGATT 
    TCGGAATTGA GAATTAAGCT TGCAATAAAA GAGGCAGAAA TTCAAAAGCT TCATGCAAAC 
    CTGACTGCAA ATCAGTTATC TCAGAGTCTT ATTACTTGTA ATGACAGCCA AGAAAGTAGC 
    AAATTAAGTA GTTTAGAAAC AGAACCTGTA AAGCTAGGTG GTCATCAAGT GGCAGAAAGC 
    GTGAAAGATC AAAATCAACA TACTATGAAC AAGCAATATG AAAAAGAGAG GCAAAGACTT 
    GTTACTGGAA TAGAAGAGCT ACGTACTAAG CTGATACAAA TAGAAGCTGA AAATTCTGAT 
    TTGAGGGTTA ACATGGCTCA CAGAACTAGT CAGTTTCAGC TGATTCAAGA GGAGCTGCTA 
    GAGAAAGCTT CAAACTCCAG CAAACTGGAA AGTGAAATGA CAAAGAAATG TTCTCAACTT 
    TTAACTCTTG AGAAACAGCT GGAAGAAAAG ATAGTTGCTT ATTCCTCTAT TGCTGCAAAA 
    AATGCAGAAC TAGAACAGGA GCTTATGGAA AAGAATGAAA AGATAAGGAG TCTAGAAACC 
    AATGTTAATA CAGAGCATGA GAAAATTTGT TTAGCCTTTG AAAAAGCAAA GAAAATTCAC 
    TTGGAACAGC ATAAAGAAAT GGAAAAGCAG ATTGAAAGAC TTGAAGCTCA ACTAGAGAAA 
    AAGGATCAAC AATTTAAAGA ACAAGAAAAG ACTATGTCCA TGTTGCAACA AGATATAATA 
    TGCAAACAGC ATCATCTTGA ATCACTAGAT AGACTCTTGA CGGAAAGCAA AGGGGAAATG 
    GAAAAGGAAA ATATGAAGAA AGATGAAGCT TTAAAAGCAT TACAGAACCA AGTATCTGAA 
    GAAACAATCA AGGTTAGGCA ACTAGATTCA GCATTAGAAA TTTGTAAGGA AGAACTTGTC 
    TTGCATTTGA ATCAATTGGA AGGAAATAAG GAAAAGTTTG AAAAACAGTT AAAGAAGAAA 
    TCTGAAGAGG TATATTGTTT ACAGAAAGAG CTAAAAATAA AAAATCACAG TCTTCAAGAG 
    ACTTCTGAGC AAAACATTAT TCTACAGCAT ACTCTTCAGC AACAGCAGCA AATGTTACAA 
    CAAGAGACAA TTAGAAATGG AGAGCTGGAA GATACTCAAA CTAAACTTGA AAAACAGGTG 
    TCAAAACTGG AACAAGAACT TCAAAAACAA AGGGAAAGTT CAGCTGAAAA GTTGAGAAAA 
    ATGGAGGAGA AATGTGAATC AGCTGCACAT GAAGCAGATT TGAAAAGGCA AAAAGTGATT 
    GAGCTTACTA GCACTGCCAG GCAAGTAAAG CTTGAGATGG ATCAGTACAA AGAAGAGCTG 
    TCTAAAATGG AAAAGGAAAT AATGCACCTC AAACGAGATG GAGAAAATAA AGCAATGCAC 
    CTCTCTCAAT TAGATATGAT CTTAGATCAG ACAAAGACAG AGCTAGAAAA GAAAACAAAT 
    GCTGTAAAGG AGTTAGAAAA GTTACAGCAC AGTACTGAAA CTGAACTAAC AGAAGCCTTG 
    CAAAAACGGG AAGCACTTGA GACTGAACTA CAAAATGCTC ATGGAGAATT AAAAAGTACT 
    TTAAGACAAC TCCAGGAATT GAGAGATGTA CTACAGAAGG CTCAGTTATC ATTAGAGGAA 
    AAATACACTA CTATAAAGGA TCTCACAGCT GAACTTAGAG AATGCAAGAT GGAGATTGAA 
    GACAAAAAGC AGGAGCTCCT TGAAATGGAT CAGGCACTTA AGGAGAGAAA TTGGGAACTA 
    AAGCAAAGAG CAGCTCAGGT TACACATTTG GATATGACTA TTCGCGAACA CAGAGGAGAA 
    ATGGAACAAA AAATAATTAA ATTAGAAGGT ACCCTGGAGA AATCAGAATT GGAACTTAAA 
    GAATGTAACA AACAGGTAAA TTATTTTAAA ATTACATATT TTAAATTATT TTTTTAA

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

    CCDC18 ( XM_015145003.1 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_015000489.1 Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OMb25747
    Clone ID Related Accession (Same CDS sequence) XM_015145003.1
    Accession Version XM_015145003.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3240bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2015-12-20
    Organism Macaca mulatta(Rhesus monkey)
    Product coiled-coil domain-containing protein 18 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014804553.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Macaca mulatta Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    ATGGAATCTA GTTCATCAGA CTACTGTAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAGGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTCTGAA TTATTCACCT 
    TATGAAAACG TTTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GGCAAGAGAT 
    AAGATGTTTT CATCTTCTAC CCCTGTGGAT CAGGAGATTA AAAGCCTTCG AGAGAAACTA 
    AATAAACTTA GGCAACAGAA TGCTTGTTTG GTCACACAGA ATCATTCCTT AATGACCAAA 
    TTTGAATCTA TCCACTTTGA ATTAACACAG TCAAGAGCAA AAGTTTCCAT GCTTGAATTT 
    GCTCAACAGC AGGCAGCCAG TGTCCCAATC TTAGAAGAAC AGATTATAAA TTTGGAAGCA 
    GAGGTTTCAG CTCAAGATAA AGTTTTGAGA GAGGCAGAAA ATAAGCTGGA ACAGAGCCAG 
    AAAATGGTAA TTGAAAAGGA ACAGAGTTTG CAGGAGTCCA AAGAGGAATG TATAAAATTA 
    AAGGTGGACT TACTTGAACA AACCAAACAA GGAAAAAGAG CTGAACGACA AAGGAATGAA 
    GCACTGTACA ATGCTGAAGA GCTGAGTAAC GCTTTCCAAC AATATAAAAA GAAAGTGGCT 
    GAAAAACTGG AAAAGGTTCA AGCTGAAGAA GAAATATTAG AGAGAAATCT AATTAACTGT 
    GAAAAAGAAA ATAAAAGGCT ACAAGAAAAG TGTGGTCTAT GTAAAAGTGA ACTTGAAATT 
    CTGAAAGAGA AATTAAGGCA GTTAAAAGAA GAAAATAACA ATGGAAAAGA AAAACTAAGG 
    ATCATGGCAG TGAAAAATTC AGAAGTCATG GCACAGCTAA CTGAATCTAG ACAAAGTATT 
    TTGAAGCTAG AGAGTGAGTT AGAGAACAAA GACGAAATAC TTAGAGACAA ATTTTCTTTA 
    ATGAATGAAA ACCGAGAATT AAAGGTCCGT GTTGCAGCAC AGAATGAGCG ACTAGATTTA 
    TGTCAACAAG AAATTGAAAG TTCAAGGGTA GAACTAAGAA GTATGGAAAA GATTATATCC 
    CAGTTGCCAT TAAAGAGAGA ATTATTTGGC TTTAAATCGT CTCTTTCTAA ATACCAGATG 
    AGTAGCTTCT CAAACAAGGA AGACCGTTGC ATTGGCTGCT GTGAGGCAAA TAAATTGGTG 
    ATTTCGGAAT TGAGAATTAA GCTTGCAATA AAAGAGGCAG AAATTCAAAA GCTTCATGCA 
    AACCTGACTG CAAATCAGTT ATCTCAGAGT CTTATTACTT GTAATGACAG CCAAGAAAGT 
    AGCAAATTAA GTAGTTTAGA AACAGAACCT GTAAAGCTAG GTGGTCATCA AGTGGCAGAA 
    AGCGTGAAAG ATCAAAATCA ACATACTATG AACAAGCAAT ATGAAAAAGA GAGGCAAAGA 
    CTTGTTACTG GAATAGAAGA GCTACGTACT AAGCTGATAC AAATAGAAGC TGAAAATTCT 
    GATTTGAGGG TTAACATGGC TCACAGAACT AGTCAGTTTC AGCTGATTCA AGAGGAGCTG 
    CTAGAGAAAG CTTCAAACTC CAGCAAACTG GAAAGTGAAA TGACAAAGAA ATGTTCTCAA 
    CTTTTAACTC TTGAGAAACA GCTGGAAGAA AAGATAGTTG CTTATTCCTC TATTGCTGCA 
    AAAAATGCAG AACTAGAACA GGAGCTTATG GAAAAGAATG AAAAGATAAG GAGTCTAGAA 
    ACCAATGTTA ATACAGAGCA TGAGAAAATT TGTTTAGCCT TTGAAAAAGC AAAGAAAATT 
    CACTTGGAAC AGCATAAAGA AATGGAAAAG CAGATTGAAA GACTTGAAGC TCAACTAGAG 
    AAAAAGGATC AACAATTTAA AGAACAAGAA AAGACTATGT CCATGTTGCA ACAAGATATA 
    ATATGCAAAC AGCATCATCT TGAATCACTA GATAGACTCT TGACGGAAAG CAAAGGGGAA 
    ATGGAAAAGG AAAATATGAA GAAAGATGAA GCTTTAAAAG CATTACAGAA CCAAGTATCT 
    GAAGAAACAA TCAAGGTTAG GCAACTAGAT TCAGCATTAG AAATTTGTAA GGAAGAACTT 
    GTCTTGCATT TGAATCAATT GGAAGGAAAT AAGGAAAAGT TTGAAAAACA GTTAAAGAAG 
    AAATCTGAAG AGGTATATTG TTTACAGAAA GAGCTAAAAA TAAAAAATCA CAGTCTTCAA 
    GAGACTTCTG AGCAAAACAT TATTCTACAG CATACTCTTC AGCAACAGCA GCAAATGTTA 
    CAACAAGAGA CAATTAGAAA TGGAGAGCTG GAAGATACTC AAACTAAACT TGAAAAACAG 
    GTGTCAAAAC TGGAACAAGA ACTTCAAAAA CAAAGGGAAA GTTCAGCTGA AAAGTTGAGA 
    AAAATGGAGG AGAAATGTGA ATCAGCTGCA CATGAAGCAG ATTTGAAAAG GCAAAAAGTG 
    ATTGAGCTTA CTAGCACTGC CAGGCAAGTA AAGCTTGAGA TGGATCAGTA CAAAGAAGAG 
    CTGTCTAAAA TGGAAAAGGA AATAATGCAC CTCAAACGAG ATGGAGAAAA TAAAGCAATG 
    CACCTCTCTC AATTAGATAT GATCTTAGAT CAGACAAAGA CAGAGCTAGA AAAGAAAACA 
    AATGCTGTAA AGGAGTTAGA AAAGTTACAG CACAGTACTG AAACTGAACT AACAGAAGCC 
    TTGCAAAAAC GGGAAGCACT TGAGACTGAA CTACAAAATG CTCATGGAGA ATTAAAAAGT 
    ACTTTAAGAC AACTCCAGGA ATTGAGAGAT GTACTACAGA AGGCTCAGTT ATCATTAGAG 
    GAAAAATACA CTACTATAAA GGATCTCACA GCTGAACTTA GAGAATGCAA GATGGAGATT 
    GAAGACAAAA AGCAGGAGCT CCTTGAAATG GATCAGGCAC TTAAGGAGAG AAATTGGGAA 
    CTAAAGCAAA GAGCAGCTCA GGTTACACAT TTGGATATGA CTATTCGCGA ACACAGAGGA 
    GAAATGGAAC AAAAAATAAT TAAATTAGAA GGTACCCTGG AGAAATCAGA ATTGGAACTT 
    AAAGAATGTA ACAAACAGGT AAATTATTTT AAAATTACAT ATTTTAAATT ATTTTTTTAA

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

    RefSeq XP_015000489.1
    CDS140..3379
    Translation

    Target ORF information:

    RefSeq Version XM_015145003.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_015145003.1

    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
    ATGGAATCTA GTTCATCAGA CTACTGTAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAGGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTCTGAA TTATTCACCT 
    TATGAAAACG TTTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GGCAAGAGAT 
    AAGATGTTTT CATCTTCTAC CCCTGTGGAT CAGGAGATTA AAAGCCTTCG AGAGAAACTA 
    AATAAACTTA GGCAACAGAA TGCTTGTTTG GTCACACAGA ATCATTCCTT AATGACCAAA 
    TTTGAATCTA TCCACTTTGA ATTAACACAG TCAAGAGCAA AAGTTTCCAT GCTTGAATTT 
    GCTCAACAGC AGGCAGCCAG TGTCCCAATC TTAGAAGAAC AGATTATAAA TTTGGAAGCA 
    GAGGTTTCAG CTCAAGATAA AGTTTTGAGA GAGGCAGAAA ATAAGCTGGA ACAGAGCCAG 
    AAAATGGTAA TTGAAAAGGA ACAGAGTTTG CAGGAGTCCA AAGAGGAATG TATAAAATTA 
    AAGGTGGACT TACTTGAACA AACCAAACAA GGAAAAAGAG CTGAACGACA AAGGAATGAA 
    GCACTGTACA ATGCTGAAGA GCTGAGTAAC GCTTTCCAAC AATATAAAAA GAAAGTGGCT 
    GAAAAACTGG AAAAGGTTCA AGCTGAAGAA GAAATATTAG AGAGAAATCT AATTAACTGT 
    GAAAAAGAAA ATAAAAGGCT ACAAGAAAAG TGTGGTCTAT GTAAAAGTGA ACTTGAAATT 
    CTGAAAGAGA AATTAAGGCA GTTAAAAGAA GAAAATAACA ATGGAAAAGA AAAACTAAGG 
    ATCATGGCAG TGAAAAATTC AGAAGTCATG GCACAGCTAA CTGAATCTAG ACAAAGTATT 
    TTGAAGCTAG AGAGTGAGTT AGAGAACAAA GACGAAATAC TTAGAGACAA ATTTTCTTTA 
    ATGAATGAAA ACCGAGAATT AAAGGTCCGT GTTGCAGCAC AGAATGAGCG ACTAGATTTA 
    TGTCAACAAG AAATTGAAAG TTCAAGGGTA GAACTAAGAA GTATGGAAAA GATTATATCC 
    CAGTTGCCAT TAAAGAGAGA ATTATTTGGC TTTAAATCGT CTCTTTCTAA ATACCAGATG 
    AGTAGCTTCT CAAACAAGGA AGACCGTTGC ATTGGCTGCT GTGAGGCAAA TAAATTGGTG 
    ATTTCGGAAT TGAGAATTAA GCTTGCAATA AAAGAGGCAG AAATTCAAAA GCTTCATGCA 
    AACCTGACTG CAAATCAGTT ATCTCAGAGT CTTATTACTT GTAATGACAG CCAAGAAAGT 
    AGCAAATTAA GTAGTTTAGA AACAGAACCT GTAAAGCTAG GTGGTCATCA AGTGGCAGAA 
    AGCGTGAAAG ATCAAAATCA ACATACTATG AACAAGCAAT ATGAAAAAGA GAGGCAAAGA 
    CTTGTTACTG GAATAGAAGA GCTACGTACT AAGCTGATAC AAATAGAAGC TGAAAATTCT 
    GATTTGAGGG TTAACATGGC TCACAGAACT AGTCAGTTTC AGCTGATTCA AGAGGAGCTG 
    CTAGAGAAAG CTTCAAACTC CAGCAAACTG GAAAGTGAAA TGACAAAGAA ATGTTCTCAA 
    CTTTTAACTC TTGAGAAACA GCTGGAAGAA AAGATAGTTG CTTATTCCTC TATTGCTGCA 
    AAAAATGCAG AACTAGAACA GGAGCTTATG GAAAAGAATG AAAAGATAAG GAGTCTAGAA 
    ACCAATGTTA ATACAGAGCA TGAGAAAATT TGTTTAGCCT TTGAAAAAGC AAAGAAAATT 
    CACTTGGAAC AGCATAAAGA AATGGAAAAG CAGATTGAAA GACTTGAAGC TCAACTAGAG 
    AAAAAGGATC AACAATTTAA AGAACAAGAA AAGACTATGT CCATGTTGCA ACAAGATATA 
    ATATGCAAAC AGCATCATCT TGAATCACTA GATAGACTCT TGACGGAAAG CAAAGGGGAA 
    ATGGAAAAGG AAAATATGAA GAAAGATGAA GCTTTAAAAG CATTACAGAA CCAAGTATCT 
    GAAGAAACAA TCAAGGTTAG GCAACTAGAT TCAGCATTAG AAATTTGTAA GGAAGAACTT 
    GTCTTGCATT TGAATCAATT GGAAGGAAAT AAGGAAAAGT TTGAAAAACA GTTAAAGAAG 
    AAATCTGAAG AGGTATATTG TTTACAGAAA GAGCTAAAAA TAAAAAATCA CAGTCTTCAA 
    GAGACTTCTG AGCAAAACAT TATTCTACAG CATACTCTTC AGCAACAGCA GCAAATGTTA 
    CAACAAGAGA CAATTAGAAA TGGAGAGCTG GAAGATACTC AAACTAAACT TGAAAAACAG 
    GTGTCAAAAC TGGAACAAGA ACTTCAAAAA CAAAGGGAAA GTTCAGCTGA AAAGTTGAGA 
    AAAATGGAGG AGAAATGTGA ATCAGCTGCA CATGAAGCAG ATTTGAAAAG GCAAAAAGTG 
    ATTGAGCTTA CTAGCACTGC CAGGCAAGTA AAGCTTGAGA TGGATCAGTA CAAAGAAGAG 
    CTGTCTAAAA TGGAAAAGGA AATAATGCAC CTCAAACGAG ATGGAGAAAA TAAAGCAATG 
    CACCTCTCTC AATTAGATAT GATCTTAGAT CAGACAAAGA CAGAGCTAGA AAAGAAAACA 
    AATGCTGTAA AGGAGTTAGA AAAGTTACAG CACAGTACTG AAACTGAACT AACAGAAGCC 
    TTGCAAAAAC GGGAAGCACT TGAGACTGAA CTACAAAATG CTCATGGAGA ATTAAAAAGT 
    ACTTTAAGAC AACTCCAGGA ATTGAGAGAT GTACTACAGA AGGCTCAGTT ATCATTAGAG 
    GAAAAATACA CTACTATAAA GGATCTCACA GCTGAACTTA GAGAATGCAA GATGGAGATT 
    GAAGACAAAA AGCAGGAGCT CCTTGAAATG GATCAGGCAC TTAAGGAGAG AAATTGGGAA 
    CTAAAGCAAA GAGCAGCTCA GGTTACACAT TTGGATATGA CTATTCGCGA ACACAGAGGA 
    GAAATGGAAC AAAAAATAAT TAAATTAGAA GGTACCCTGG AGAAATCAGA ATTGGAACTT 
    AAAGAATGTA ACAAACAGGT AAATTATTTT AAAATTACAT ATTTTAAATT ATTTTTTTAA

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

    CCDC18 ( XM_015145011.1 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_015000497.1 Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OMb25748
    Clone ID Related Accession (Same CDS sequence) XM_015145011.1
    Accession Version XM_015145011.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3237bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2015-12-20
    Organism Macaca mulatta(Rhesus monkey)
    Product coiled-coil domain-containing protein 18 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014804553.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Macaca mulatta Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    ATGGAATCTA GTTCATCAGA CTACTGTAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAGGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTCTGAA TTATTCACCT 
    TATGAAAACG TTTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GGCAAGAGAT 
    AAGATGTTTT CATCTTCTAC CCCTGTGGAT CAGGAGATTA AAAGCCTTCG AGAGAAACTA 
    AATAAACTTA GGCAACAGAA TGCTTGTTTG GTCACACAGA ATCATTCCTT AATGACCAAA 
    TTTGAATCTA TCCACTTTGA ATTAACACAG TCAAGAGCAA AAGTTTCCAT GCTTGAATTT 
    GCTCAACAGC AGGCAGCCAG TGTCCCAATC TTAGAAGAAC AGATTATAAA TTTGGAAGCA 
    GAGGTTTCAG CTCAAGATAA AGTTTTGAGA GAGGCAGAAA ATAAGCTGGA ACAGAGCCAG 
    AAAATGGTAA TTGAAAAGGA ACAGAGTTTG CAGGAGTCCA AAGAGGAATG TATAAAATTA 
    AAGGTGGACT TACTTGAACA AACCAAACAA GGAAAAAGAG CTGAACGACA AAGGAATGAA 
    GCACTGTACA ATGCTGAAGA GCTGAGTAAC GCTTTCCAAC AATATAAAAA GAAAGTGGCT 
    GAAAAACTGG AAAAGGTTCA AGCTGAAGAA GAAATATTAG AGAGAAATCT AATTAACTGT 
    GAAAAAGAAA ATAAAAGGCT ACAAGAAAAG TGTGGTCTAT GTAAAAGTGA ACTTGAAATT 
    CTGAAAGAGA AATTAAGGCA GTTAAAAGAA GAAAATAACA ATGGAAAAGA AAAACTAAGG 
    ATCATGGCAG TGAAAAATTC AGAAGTCATG GCACAGCTAA CTGAATCTAG ACAAAGTATT 
    TTGAAGCTAG AGAGTGAGTT AGAGAACAAA GACGAAATAC TTAGAGACAA ATTTTCTTTA 
    ATGAATGAAA ACCGAGAATT AAAGGTCCGT GTTGCAGCAC AGAATGAGCG ACTAGATTTA 
    TGTCAACAAG AAATTGAAAG TTCAAGGGTA GAACTAAGAA GTATGGAAAA GATTATATCC 
    CAGTTGCCAT TAAAGAGAGA ATTATTTGGC TTTAAATCGT CTCTTTCTAA ATACCAGATG 
    AGTAGCTTCT CAAACAAGGA AGACCGTTGC ATTGGCTGCT GTGAGGCAAA TAAATTGGTG 
    ATTTCGGAAT TGAGAATTAA GCTTGCAATA AAAGAGGCAG AAATTCAAAA GCTTCATGCA 
    AACCTGACTG CAAATCAGTT ATCTCAGAGT CTTATTACTT GTAATGACAG CCAAGAAAGT 
    AGCAAATTAA GTAGTTTAGA AACAGAACCT GTAAAGCTAG GTGGTCATCA AGTGGAAAGC 
    GTGAAAGATC AAAATCAACA TACTATGAAC AAGCAATATG AAAAAGAGAG GCAAAGACTT 
    GTTACTGGAA TAGAAGAGCT ACGTACTAAG CTGATACAAA TAGAAGCTGA AAATTCTGAT 
    TTGAGGGTTA ACATGGCTCA CAGAACTAGT CAGTTTCAGC TGATTCAAGA GGAGCTGCTA 
    GAGAAAGCTT CAAACTCCAG CAAACTGGAA AGTGAAATGA CAAAGAAATG TTCTCAACTT 
    TTAACTCTTG AGAAACAGCT GGAAGAAAAG ATAGTTGCTT ATTCCTCTAT TGCTGCAAAA 
    AATGCAGAAC TAGAACAGGA GCTTATGGAA AAGAATGAAA AGATAAGGAG TCTAGAAACC 
    AATGTTAATA CAGAGCATGA GAAAATTTGT TTAGCCTTTG AAAAAGCAAA GAAAATTCAC 
    TTGGAACAGC ATAAAGAAAT GGAAAAGCAG ATTGAAAGAC TTGAAGCTCA ACTAGAGAAA 
    AAGGATCAAC AATTTAAAGA ACAAGAAAAG ACTATGTCCA TGTTGCAACA AGATATAATA 
    TGCAAACAGC ATCATCTTGA ATCACTAGAT AGACTCTTGA CGGAAAGCAA AGGGGAAATG 
    GAAAAGGAAA ATATGAAGAA AGATGAAGCT TTAAAAGCAT TACAGAACCA AGTATCTGAA 
    GAAACAATCA AGGTTAGGCA ACTAGATTCA GCATTAGAAA TTTGTAAGGA AGAACTTGTC 
    TTGCATTTGA ATCAATTGGA AGGAAATAAG GAAAAGTTTG AAAAACAGTT AAAGAAGAAA 
    TCTGAAGAGG TATATTGTTT ACAGAAAGAG CTAAAAATAA AAAATCACAG TCTTCAAGAG 
    ACTTCTGAGC AAAACATTAT TCTACAGCAT ACTCTTCAGC AACAGCAGCA AATGTTACAA 
    CAAGAGACAA TTAGAAATGG AGAGCTGGAA GATACTCAAA CTAAACTTGA AAAACAGGTG 
    TCAAAACTGG AACAAGAACT TCAAAAACAA AGGGAAAGTT CAGCTGAAAA GTTGAGAAAA 
    ATGGAGGAGA AATGTGAATC AGCTGCACAT GAAGCAGATT TGAAAAGGCA AAAAGTGATT 
    GAGCTTACTA GCACTGCCAG GCAAGTAAAG CTTGAGATGG ATCAGTACAA AGAAGAGCTG 
    TCTAAAATGG AAAAGGAAAT AATGCACCTC AAACGAGATG GAGAAAATAA AGCAATGCAC 
    CTCTCTCAAT TAGATATGAT CTTAGATCAG ACAAAGACAG AGCTAGAAAA GAAAACAAAT 
    GCTGTAAAGG AGTTAGAAAA GTTACAGCAC AGTACTGAAA CTGAACTAAC AGAAGCCTTG 
    CAAAAACGGG AAGCACTTGA GACTGAACTA CAAAATGCTC ATGGAGAATT AAAAAGTACT 
    TTAAGACAAC TCCAGGAATT GAGAGATGTA CTACAGAAGG CTCAGTTATC ATTAGAGGAA 
    AAATACACTA CTATAAAGGA TCTCACAGCT GAACTTAGAG AATGCAAGAT GGAGATTGAA 
    GACAAAAAGC AGGAGCTCCT TGAAATGGAT CAGGCACTTA AGGAGAGAAA TTGGGAACTA 
    AAGCAAAGAG CAGCTCAGGT TACACATTTG GATATGACTA TTCGCGAACA CAGAGGAGAA 
    ATGGAACAAA AAATAATTAA ATTAGAAGGT ACCCTGGAGA AATCAGAATT GGAACTTAAA 
    GAATGTAACA AACAGGTAAA TTATTTTAAA ATTACATATT TTAAATTATT TTTTTAA

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

    RefSeq XP_015000497.1
    CDS140..3376
    Translation

    Target ORF information:

    RefSeq Version XM_015145011.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_015145011.1

    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
    ATGGAATCTA GTTCATCAGA CTACTGTAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAGGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTCTGAA TTATTCACCT 
    TATGAAAACG TTTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GGCAAGAGAT 
    AAGATGTTTT CATCTTCTAC CCCTGTGGAT CAGGAGATTA AAAGCCTTCG AGAGAAACTA 
    AATAAACTTA GGCAACAGAA TGCTTGTTTG GTCACACAGA ATCATTCCTT AATGACCAAA 
    TTTGAATCTA TCCACTTTGA ATTAACACAG TCAAGAGCAA AAGTTTCCAT GCTTGAATTT 
    GCTCAACAGC AGGCAGCCAG TGTCCCAATC TTAGAAGAAC AGATTATAAA TTTGGAAGCA 
    GAGGTTTCAG CTCAAGATAA AGTTTTGAGA GAGGCAGAAA ATAAGCTGGA ACAGAGCCAG 
    AAAATGGTAA TTGAAAAGGA ACAGAGTTTG CAGGAGTCCA AAGAGGAATG TATAAAATTA 
    AAGGTGGACT TACTTGAACA AACCAAACAA GGAAAAAGAG CTGAACGACA AAGGAATGAA 
    GCACTGTACA ATGCTGAAGA GCTGAGTAAC GCTTTCCAAC AATATAAAAA GAAAGTGGCT 
    GAAAAACTGG AAAAGGTTCA AGCTGAAGAA GAAATATTAG AGAGAAATCT AATTAACTGT 
    GAAAAAGAAA ATAAAAGGCT ACAAGAAAAG TGTGGTCTAT GTAAAAGTGA ACTTGAAATT 
    CTGAAAGAGA AATTAAGGCA GTTAAAAGAA GAAAATAACA ATGGAAAAGA AAAACTAAGG 
    ATCATGGCAG TGAAAAATTC AGAAGTCATG GCACAGCTAA CTGAATCTAG ACAAAGTATT 
    TTGAAGCTAG AGAGTGAGTT AGAGAACAAA GACGAAATAC TTAGAGACAA ATTTTCTTTA 
    ATGAATGAAA ACCGAGAATT AAAGGTCCGT GTTGCAGCAC AGAATGAGCG ACTAGATTTA 
    TGTCAACAAG AAATTGAAAG TTCAAGGGTA GAACTAAGAA GTATGGAAAA GATTATATCC 
    CAGTTGCCAT TAAAGAGAGA ATTATTTGGC TTTAAATCGT CTCTTTCTAA ATACCAGATG 
    AGTAGCTTCT CAAACAAGGA AGACCGTTGC ATTGGCTGCT GTGAGGCAAA TAAATTGGTG 
    ATTTCGGAAT TGAGAATTAA GCTTGCAATA AAAGAGGCAG AAATTCAAAA GCTTCATGCA 
    AACCTGACTG CAAATCAGTT ATCTCAGAGT CTTATTACTT GTAATGACAG CCAAGAAAGT 
    AGCAAATTAA GTAGTTTAGA AACAGAACCT GTAAAGCTAG GTGGTCATCA AGTGGAAAGC 
    GTGAAAGATC AAAATCAACA TACTATGAAC AAGCAATATG AAAAAGAGAG GCAAAGACTT 
    GTTACTGGAA TAGAAGAGCT ACGTACTAAG CTGATACAAA TAGAAGCTGA AAATTCTGAT 
    TTGAGGGTTA ACATGGCTCA CAGAACTAGT CAGTTTCAGC TGATTCAAGA GGAGCTGCTA 
    GAGAAAGCTT CAAACTCCAG CAAACTGGAA AGTGAAATGA CAAAGAAATG TTCTCAACTT 
    TTAACTCTTG AGAAACAGCT GGAAGAAAAG ATAGTTGCTT ATTCCTCTAT TGCTGCAAAA 
    AATGCAGAAC TAGAACAGGA GCTTATGGAA AAGAATGAAA AGATAAGGAG TCTAGAAACC 
    AATGTTAATA CAGAGCATGA GAAAATTTGT TTAGCCTTTG AAAAAGCAAA GAAAATTCAC 
    TTGGAACAGC ATAAAGAAAT GGAAAAGCAG ATTGAAAGAC TTGAAGCTCA ACTAGAGAAA 
    AAGGATCAAC AATTTAAAGA ACAAGAAAAG ACTATGTCCA TGTTGCAACA AGATATAATA 
    TGCAAACAGC ATCATCTTGA ATCACTAGAT AGACTCTTGA CGGAAAGCAA AGGGGAAATG 
    GAAAAGGAAA ATATGAAGAA AGATGAAGCT TTAAAAGCAT TACAGAACCA AGTATCTGAA 
    GAAACAATCA AGGTTAGGCA ACTAGATTCA GCATTAGAAA TTTGTAAGGA AGAACTTGTC 
    TTGCATTTGA ATCAATTGGA AGGAAATAAG GAAAAGTTTG AAAAACAGTT AAAGAAGAAA 
    TCTGAAGAGG TATATTGTTT ACAGAAAGAG CTAAAAATAA AAAATCACAG TCTTCAAGAG 
    ACTTCTGAGC AAAACATTAT TCTACAGCAT ACTCTTCAGC AACAGCAGCA AATGTTACAA 
    CAAGAGACAA TTAGAAATGG AGAGCTGGAA GATACTCAAA CTAAACTTGA AAAACAGGTG 
    TCAAAACTGG AACAAGAACT TCAAAAACAA AGGGAAAGTT CAGCTGAAAA GTTGAGAAAA 
    ATGGAGGAGA AATGTGAATC AGCTGCACAT GAAGCAGATT TGAAAAGGCA AAAAGTGATT 
    GAGCTTACTA GCACTGCCAG GCAAGTAAAG CTTGAGATGG ATCAGTACAA AGAAGAGCTG 
    TCTAAAATGG AAAAGGAAAT AATGCACCTC AAACGAGATG GAGAAAATAA AGCAATGCAC 
    CTCTCTCAAT TAGATATGAT CTTAGATCAG ACAAAGACAG AGCTAGAAAA GAAAACAAAT 
    GCTGTAAAGG AGTTAGAAAA GTTACAGCAC AGTACTGAAA CTGAACTAAC AGAAGCCTTG 
    CAAAAACGGG AAGCACTTGA GACTGAACTA CAAAATGCTC ATGGAGAATT AAAAAGTACT 
    TTAAGACAAC TCCAGGAATT GAGAGATGTA CTACAGAAGG CTCAGTTATC ATTAGAGGAA 
    AAATACACTA CTATAAAGGA TCTCACAGCT GAACTTAGAG AATGCAAGAT GGAGATTGAA 
    GACAAAAAGC AGGAGCTCCT TGAAATGGAT CAGGCACTTA AGGAGAGAAA TTGGGAACTA 
    AAGCAAAGAG CAGCTCAGGT TACACATTTG GATATGACTA TTCGCGAACA CAGAGGAGAA 
    ATGGAACAAA AAATAATTAA ATTAGAAGGT ACCCTGGAGA AATCAGAATT GGAACTTAAA 
    GAATGTAACA AACAGGTAAA TTATTTTAAA ATTACATATT TTAAATTATT TTTTTAA

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

    CCDC18 ( XM_015145013.1 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_015000499.1 Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OMb25749
    Clone ID Related Accession (Same CDS sequence) XM_015145013.1
    Accession Version XM_015145013.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3228bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2015-12-20
    Organism Macaca mulatta(Rhesus monkey)
    Product coiled-coil domain-containing protein 18 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014804553.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Macaca mulatta Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    ATGGAATCTA GTTCATCAGA CTACTGTAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAGGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTCTGAA TTATTCACCT 
    TATGAAAACG TTTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GATGTTTTCA 
    TCTTCTACCC CTGTGGATCA GGAGATTAAA AGCCTTCGAG AGAAACTAAA TAAACTTAGG 
    CAACAGAATG CTTGTTTGGT CACACAGAAT CATTCCTTAA TGACCAAATT TGAATCTATC 
    CACTTTGAAT TAACACAGTC AAGAGCAAAA GTTTCCATGC TTGAATTTGC TCAACAGCAG 
    GCAGCCAGTG TCCCAATCTT AGAAGAACAG ATTATAAATT TGGAAGCAGA GGTTTCAGCT 
    CAAGATAAAG TTTTGAGAGA GGCAGAAAAT AAGCTGGAAC AGAGCCAGAA AATGGTAATT 
    GAAAAGGAAC AGAGTTTGCA GGAGTCCAAA GAGGAATGTA TAAAATTAAA GGTGGACTTA 
    CTTGAACAAA CCAAACAAGG AAAAAGAGCT GAACGACAAA GGAATGAAGC ACTGTACAAT 
    GCTGAAGAGC TGAGTAACGC TTTCCAACAA TATAAAAAGA AAGTGGCTGA AAAACTGGAA 
    AAGGTTCAAG CTGAAGAAGA AATATTAGAG AGAAATCTAA TTAACTGTGA AAAAGAAAAT 
    AAAAGGCTAC AAGAAAAGTG TGGTCTATGT AAAAGTGAAC TTGAAATTCT GAAAGAGAAA 
    TTAAGGCAGT TAAAAGAAGA AAATAACAAT GGAAAAGAAA AACTAAGGAT CATGGCAGTG 
    AAAAATTCAG AAGTCATGGC ACAGCTAACT GAATCTAGAC AAAGTATTTT GAAGCTAGAG 
    AGTGAGTTAG AGAACAAAGA CGAAATACTT AGAGACAAAT TTTCTTTAAT GAATGAAAAC 
    CGAGAATTAA AGGTCCGTGT TGCAGCACAG AATGAGCGAC TAGATTTATG TCAACAAGAA 
    ATTGAAAGTT CAAGGGTAGA ACTAAGAAGT ATGGAAAAGA TTATATCCCA GTTGCCATTA 
    AAGAGAGAAT TATTTGGCTT TAAATCGTCT CTTTCTAAAT ACCAGATGAG TAGCTTCTCA 
    AACAAGGAAG ACCGTTGCAT TGGCTGCTGT GAGGCAAATA AATTGGTGAT TTCGGAATTG 
    AGAATTAAGC TTGCAATAAA AGAGGCAGAA ATTCAAAAGC TTCATGCAAA CCTGACTGCA 
    AATCAGTTAT CTCAGAGTCT TATTACTTGT AATGACAGCC AAGAAAGTAG CAAATTAAGT 
    AGTTTAGAAA CAGAACCTGT AAAGCTAGGT GGTCATCAAG TGGCAGAAAG CGTGAAAGAT 
    CAAAATCAAC ATACTATGAA CAAGCAATAT GAAAAAGAGA GGCAAAGACT TGTTACTGGA 
    ATAGAAGAGC TACGTACTAA GCTGATACAA ATAGAAGCTG AAAATTCTGA TTTGAGGGTT 
    AACATGGCTC ACAGAACTAG TCAGTTTCAG CTGATTCAAG AGGAGCTGCT AGAGAAAGCT 
    TCAAACTCCA GCAAACTGGA AAGTGAAATG ACAAAGAAAT GTTCTCAACT TTTAACTCTT 
    GAGAAACAGC TGGAAGAAAA GATAGTTGCT TATTCCTCTA TTGCTGCAAA AAATGCAGAA 
    CTAGAACAGG AGCTTATGGA AAAGAATGAA AAGATAAGGA GTCTAGAAAC CAATGTTAAT 
    ACAGAGCATG AGAAAATTTG TTTAGCCTTT GAAAAAGCAA AGAAAATTCA CTTGGAACAG 
    CATAAAGAAA TGGAAAAGCA GATTGAAAGA CTTGAAGCTC AACTAGAGAA AAAGGATCAA 
    CAATTTAAAG AACAAGAAAA GACTATGTCC ATGTTGCAAC AAGATATAAT ATGCAAACAG 
    CATCATCTTG AATCACTAGA TAGACTCTTG ACGGAAAGCA AAGGGGAAAT GGAAAAGGAA 
    AATATGAAGA AAGATGAAGC TTTAAAAGCA TTACAGAACC AAGTATCTGA AGAAACAATC 
    AAGGTTAGGC AACTAGATTC AGCATTAGAA ATTTGTAAGG AAGAACTTGT CTTGCATTTG 
    AATCAATTGG AAGGAAATAA GGAAAAGTTT GAAAAACAGT TAAAGAAGAA ATCTGAAGAG 
    GTATATTGTT TACAGAAAGA GCTAAAAATA AAAAATCACA GTCTTCAAGA GACTTCTGAG 
    CAAAACATTA TTCTACAGCA TACTCTTCAG CAACAGCAGC AAATGTTACA ACAAGAGACA 
    ATTAGAAATG GAGAGCTGGA AGATACTCAA ACTAAACTTG AAAAACAGGT GTCAAAACTG 
    GAACAAGAAC TTCAAAAACA AAGGGAAAGT TCAGCTGAAA AGTTGAGAAA AATGGAGGAG 
    AAATGTGAAT CAGCTGCACA TGAAGCAGAT TTGAAAAGGC AAAAAGTGAT TGAGCTTACT 
    AGCACTGCCA GGCAAGTAAA GCTTGAGATG GATCAGTACA AAGAAGAGCT GTCTAAAATG 
    GAAAAGGAAA TAATGCACCT CAAACGAGAT GGAGAAAATA AAGCAATGCA CCTCTCTCAA 
    TTAGATATGA TCTTAGATCA GACAAAGACA GAGCTAGAAA AGAAAACAAA TGCTGTAAAG 
    GAGTTAGAAA AGTTACAGCA CAGTACTGAA ACTGAACTAA CAGAAGCCTT GCAAAAACGG 
    GAAGCACTTG AGACTGAACT ACAAAATGCT CATGGAGAAT TAAAAAGTAC TTTAAGACAA 
    CTCCAGGAAT TGAGAGATGT ACTACAGAAG GCTCAGTTAT CATTAGAGGA AAAATACACT 
    ACTATAAAGG ATCTCACAGC TGAACTTAGA GAATGCAAGA TGGAGATTGA AGACAAAAAG 
    CAGGAGCTCC TTGAAATGGA TCAGGCACTT AAGGAGAGAA ATTGGGAACT AAAGCAAAGA 
    GCAGCTCAGG TTACACATTT GGATATGACT ATTCGCGAAC ACAGAGGAGA AATGGAACAA 
    AAAATAATTA AATTAGAAGG TACCCTGGAG AAATCAGAAT TGGAACTTAA AGAATGTAAC 
    AAACAGGTAA ATTATTTTAA AATTACATAT TTTAAATTAT TTTTTTAA

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

    RefSeq XP_015000499.1
    CDS90..3317
    Translation

    Target ORF information:

    RefSeq Version XM_015145013.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_015145013.1

    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
    ATGGAATCTA GTTCATCAGA CTACTGTAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAGGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTCTGAA TTATTCACCT 
    TATGAAAACG TTTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GATGTTTTCA 
    TCTTCTACCC CTGTGGATCA GGAGATTAAA AGCCTTCGAG AGAAACTAAA TAAACTTAGG 
    CAACAGAATG CTTGTTTGGT CACACAGAAT CATTCCTTAA TGACCAAATT TGAATCTATC 
    CACTTTGAAT TAACACAGTC AAGAGCAAAA GTTTCCATGC TTGAATTTGC TCAACAGCAG 
    GCAGCCAGTG TCCCAATCTT AGAAGAACAG ATTATAAATT TGGAAGCAGA GGTTTCAGCT 
    CAAGATAAAG TTTTGAGAGA GGCAGAAAAT AAGCTGGAAC AGAGCCAGAA AATGGTAATT 
    GAAAAGGAAC AGAGTTTGCA GGAGTCCAAA GAGGAATGTA TAAAATTAAA GGTGGACTTA 
    CTTGAACAAA CCAAACAAGG AAAAAGAGCT GAACGACAAA GGAATGAAGC ACTGTACAAT 
    GCTGAAGAGC TGAGTAACGC TTTCCAACAA TATAAAAAGA AAGTGGCTGA AAAACTGGAA 
    AAGGTTCAAG CTGAAGAAGA AATATTAGAG AGAAATCTAA TTAACTGTGA AAAAGAAAAT 
    AAAAGGCTAC AAGAAAAGTG TGGTCTATGT AAAAGTGAAC TTGAAATTCT GAAAGAGAAA 
    TTAAGGCAGT TAAAAGAAGA AAATAACAAT GGAAAAGAAA AACTAAGGAT CATGGCAGTG 
    AAAAATTCAG AAGTCATGGC ACAGCTAACT GAATCTAGAC AAAGTATTTT GAAGCTAGAG 
    AGTGAGTTAG AGAACAAAGA CGAAATACTT AGAGACAAAT TTTCTTTAAT GAATGAAAAC 
    CGAGAATTAA AGGTCCGTGT TGCAGCACAG AATGAGCGAC TAGATTTATG TCAACAAGAA 
    ATTGAAAGTT CAAGGGTAGA ACTAAGAAGT ATGGAAAAGA TTATATCCCA GTTGCCATTA 
    AAGAGAGAAT TATTTGGCTT TAAATCGTCT CTTTCTAAAT ACCAGATGAG TAGCTTCTCA 
    AACAAGGAAG ACCGTTGCAT TGGCTGCTGT GAGGCAAATA AATTGGTGAT TTCGGAATTG 
    AGAATTAAGC TTGCAATAAA AGAGGCAGAA ATTCAAAAGC TTCATGCAAA CCTGACTGCA 
    AATCAGTTAT CTCAGAGTCT TATTACTTGT AATGACAGCC AAGAAAGTAG CAAATTAAGT 
    AGTTTAGAAA CAGAACCTGT AAAGCTAGGT GGTCATCAAG TGGCAGAAAG CGTGAAAGAT 
    CAAAATCAAC ATACTATGAA CAAGCAATAT GAAAAAGAGA GGCAAAGACT TGTTACTGGA 
    ATAGAAGAGC TACGTACTAA GCTGATACAA ATAGAAGCTG AAAATTCTGA TTTGAGGGTT 
    AACATGGCTC ACAGAACTAG TCAGTTTCAG CTGATTCAAG AGGAGCTGCT AGAGAAAGCT 
    TCAAACTCCA GCAAACTGGA AAGTGAAATG ACAAAGAAAT GTTCTCAACT TTTAACTCTT 
    GAGAAACAGC TGGAAGAAAA GATAGTTGCT TATTCCTCTA TTGCTGCAAA AAATGCAGAA 
    CTAGAACAGG AGCTTATGGA AAAGAATGAA AAGATAAGGA GTCTAGAAAC CAATGTTAAT 
    ACAGAGCATG AGAAAATTTG TTTAGCCTTT GAAAAAGCAA AGAAAATTCA CTTGGAACAG 
    CATAAAGAAA TGGAAAAGCA GATTGAAAGA CTTGAAGCTC AACTAGAGAA AAAGGATCAA 
    CAATTTAAAG AACAAGAAAA GACTATGTCC ATGTTGCAAC AAGATATAAT ATGCAAACAG 
    CATCATCTTG AATCACTAGA TAGACTCTTG ACGGAAAGCA AAGGGGAAAT GGAAAAGGAA 
    AATATGAAGA AAGATGAAGC TTTAAAAGCA TTACAGAACC AAGTATCTGA AGAAACAATC 
    AAGGTTAGGC AACTAGATTC AGCATTAGAA ATTTGTAAGG AAGAACTTGT CTTGCATTTG 
    AATCAATTGG AAGGAAATAA GGAAAAGTTT GAAAAACAGT TAAAGAAGAA ATCTGAAGAG 
    GTATATTGTT TACAGAAAGA GCTAAAAATA AAAAATCACA GTCTTCAAGA GACTTCTGAG 
    CAAAACATTA TTCTACAGCA TACTCTTCAG CAACAGCAGC AAATGTTACA ACAAGAGACA 
    ATTAGAAATG GAGAGCTGGA AGATACTCAA ACTAAACTTG AAAAACAGGT GTCAAAACTG 
    GAACAAGAAC TTCAAAAACA AAGGGAAAGT TCAGCTGAAA AGTTGAGAAA AATGGAGGAG 
    AAATGTGAAT CAGCTGCACA TGAAGCAGAT TTGAAAAGGC AAAAAGTGAT TGAGCTTACT 
    AGCACTGCCA GGCAAGTAAA GCTTGAGATG GATCAGTACA AAGAAGAGCT GTCTAAAATG 
    GAAAAGGAAA TAATGCACCT CAAACGAGAT GGAGAAAATA AAGCAATGCA CCTCTCTCAA 
    TTAGATATGA TCTTAGATCA GACAAAGACA GAGCTAGAAA AGAAAACAAA TGCTGTAAAG 
    GAGTTAGAAA AGTTACAGCA CAGTACTGAA ACTGAACTAA CAGAAGCCTT GCAAAAACGG 
    GAAGCACTTG AGACTGAACT ACAAAATGCT CATGGAGAAT TAAAAAGTAC TTTAAGACAA 
    CTCCAGGAAT TGAGAGATGT ACTACAGAAG GCTCAGTTAT CATTAGAGGA AAAATACACT 
    ACTATAAAGG ATCTCACAGC TGAACTTAGA GAATGCAAGA TGGAGATTGA AGACAAAAAG 
    CAGGAGCTCC TTGAAATGGA TCAGGCACTT AAGGAGAGAA ATTGGGAACT AAAGCAAAGA 
    GCAGCTCAGG TTACACATTT GGATATGACT ATTCGCGAAC ACAGAGGAGA AATGGAACAA 
    AAAATAATTA AATTAGAAGG TACCCTGGAG AAATCAGAAT TGGAACTTAA AGAATGTAAC 
    AAACAGGTAA ATTATTTTAA AATTACATAT TTTAAATTAT TTTTTTAA

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

    CCDC18 ( XM_015145021.1 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_015000507.1 Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OMb25750
    Clone ID Related Accession (Same CDS sequence) XM_015145021.1
    Accession Version XM_015145021.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3162bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2015-12-20
    Organism Macaca mulatta(Rhesus monkey)
    Product coiled-coil domain-containing protein 18 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014804553.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Macaca mulatta Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    ATGGAATCTA GTTCATCAGA CTACTGTAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAGGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTCTGAA TTATTCACCT 
    TATGAAAACG TTTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GGCAAGAGAT 
    AAGATGTTTT CATCTTCTAC CCCTGTGGAT CAGGAGATTA AAAGCCTTCG AGAGAAACTA 
    AATAAACTTA GGCAACAGAA TGCTTGTTTG GTCACACAGA ATCATTCCTT AATGACCAAA 
    TTTGAATCTA TCCACTTTGA ATTAACACAG TCAAGAGCAA AAGTTTCCAT GCTTGAATTT 
    GCTCAACAGC AGGCAGCCAG TGTCCCAATC TTAGAAGAAC AGATTATAAA TTTGGAAGCA 
    GAGGTTTCAG CTCAAGATAA AGTTTTGAGA GAGGCAGAAA ATAAGCTGGA ACAGAGCCAG 
    AAAATGGTAA TTGAAAAGGA ACAGAGTTTG CAGGAGTCCA AAGAGGAATG TATAAAATTA 
    AAGGTGGACT TACTTGAACA AACCAAACAA GGAAAAAGAG CTGAACGACA AAGGAATGAA 
    GCACTGTACA ATGCTGAAGA GCTGAGTAAC GCTTTCCAAC AATATAAAAA GAAAGTGGCT 
    GAAAAACTGG AAAAGGTTCA AGCTGAAGAA GAAATATTAG AGAGAAATCT AATTAACTGT 
    GAAAAAGAAA ATAAAAGGCT ACAAGAAAAG TGTGGTCTAT GTAAAAGTGA ACTTGAAATT 
    CTGAAAGAGA AATTAAGGCA GTTAAAAGAA GAAAATAACA ATGGAAAAGA AAAACTAAGG 
    ATCATGGCAG TGAAAAATTC AGAAGTCATG GCACAGCTAA CTGAATCTAG ACAAAGTATT 
    TTGAAGCTAG AGAGTGAGTT AGAGAACAAA GACGAAATAC TTAGAGACAA ATTTTCTTTA 
    ATGAATGAAA ACCGAGAATT AAAGGTCCGT GTTGCAGCAC AGAATGAGCG ACTAGATTTA 
    TGTCAACAAG AAATTGAAAG TTCAAGGGTA GAACTAAGAA GTATGGAAAA GATTATATCC 
    CAGTTGCCAT TAAAGAGAGA ATTATTTGGC TTTAAATCGT CTCTTTCTAA ATACCAGATG 
    AGTAGCTTCT CAAACAAGGA AGACCGTTGC ATTGGCTGCT GTGAGGCAAA TAAATTGGTG 
    ATTTCGGAAT TGAGAATTAA GCTTGCAATA AAAGAGGCAG AAATTCAAAA GCTTCATGCA 
    AACCTGACTG CAAATCAGTT ATCTCAGAGT CTTATTACTT GTAATGACAG CCAAGAAAGT 
    AGCAAATTAA GTAGTTTAGA AACAGAACCT GTAAAGCTAG GTGGTCATCA AGTGGCAGAA 
    AGCGTGAAAG ATCAAAATCA ACATACTATG AACAAGCAAT ATGAAAAAGA GAGGCAAAGA 
    CTTGTTACTG GAATAGAAGA GCTACGTACT AAGCTGATAC AAATAGAAGC TGAAAATTCT 
    GATTTGAGGG TTAACATGGC TCACAGAACT AGTCAGTTTC AGCTGATTCA AGAGGAGCTG 
    CTAGAGAAAG CTTCAAACTC CAGCAAACTG GAAAGTGAAA TGACAAAGAA ATGTTCTCAA 
    CTTTTAACTC TTGAGAAACA GCTGGAAGAA AAGATAGTTG CTTATTCCTC TATTGCTGCA 
    AAAAATGCAG AACTAGAACA GGAGCTTATG GAAAAGAATG AAAAGATAAG GAGTCTAGAA 
    ACCAATGTTA ATACAGAGCA TGAGAAAATT TGTTTAGCCT TTGAAAAAGC AAAGAAAATT 
    CACTTGGAAC AGCATAAAGA AATGGAAAAG CAGATTGAAA GACTTGAAGC TCAACTAGAG 
    AAAAAGGATC AACAATTTAA AGAACAAGAA AAGACTATGT CCATGTTGCA ACAAGATATA 
    ATATGCAAAC AGCATCATCT TGAATCACTA GATAGACTCT TGACGGAAAG CAAAGGGGAA 
    ATGGAAAAGG AAAATATGAA GAAAGATGAA GCTTTAAAAG CATTACAGAA CCAAGTATCT 
    GAAGAAACAA TCAAGGTTAG GCAACTAGAT TCAGCATTAG AAATTTGTAA GGAAGAACTT 
    GTCTTGCATT TGAATCAATT GGAAGGAAAT AAGGAAAAGT TTGAAAAACA GTTAAAGAAG 
    AAATCTGAAG AGCATACTCT TCAGCAACAG CAGCAAATGT TACAACAAGA GACAATTAGA 
    AATGGAGAGC TGGAAGATAC TCAAACTAAA CTTGAAAAAC AGGTGTCAAA ACTGGAACAA 
    GAACTTCAAA AACAAAGGGA AAGTTCAGCT GAAAAGTTGA GAAAAATGGA GGAGAAATGT 
    GAATCAGCTG CACATGAAGC AGATTTGAAA AGGCAAAAAG TGATTGAGCT TACTAGCACT 
    GCCAGGCAAG TAAAGCTTGA GATGGATCAG TACAAAGAAG AGCTGTCTAA AATGGAAAAG 
    GAAATAATGC ACCTCAAACG AGATGGAGAA AATAAAGCAA TGCACCTCTC TCAATTAGAT 
    ATGATCTTAG ATCAGACAAA GACAGAGCTA GAAAAGAAAA CAAATGCTGT AAAGGAGTTA 
    GAAAAGTTAC AGCACAGTAC TGAAACTGAA CTAACAGAAG CCTTGCAAAA ACGGGAAGCA 
    CTTGAGACTG AACTACAAAA TGCTCATGGA GAATTAAAAA GTACTTTAAG ACAACTCCAG 
    GAATTGAGAG ATGTACTACA GAAGGCTCAG TTATCATTAG AGGAAAAATA CACTACTATA 
    AAGGATCTCA CAGCTGAACT TAGAGAATGC AAGATGGAGA TTGAAGACAA AAAGCAGGAG 
    CTCCTTGAAA TGGATCAGGC ACTTAAGGAG AGAAATTGGG AACTAAAGCA AAGAGCAGCT 
    CAGGTTACAC ATTTGGATAT GACTATTCGC GAACACAGAG GAGAAATGGA ACAAAAAATA 
    ATTAAATTAG AAGGTACCCT GGAGAAATCA GAATTGGAAC TTAAAGAATG TAACAAACAG 
    GTAAATTATT TTAAAATTAC ATATTTTAAA TTATTTTTTT AA

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

    RefSeq XP_015000507.1
    CDS140..3301
    Translation

    Target ORF information:

    RefSeq Version XM_015145021.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_015145021.1

    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
    ATGGAATCTA GTTCATCAGA CTACTGTAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAGGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTCTGAA TTATTCACCT 
    TATGAAAACG TTTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GGCAAGAGAT 
    AAGATGTTTT CATCTTCTAC CCCTGTGGAT CAGGAGATTA AAAGCCTTCG AGAGAAACTA 
    AATAAACTTA GGCAACAGAA TGCTTGTTTG GTCACACAGA ATCATTCCTT AATGACCAAA 
    TTTGAATCTA TCCACTTTGA ATTAACACAG TCAAGAGCAA AAGTTTCCAT GCTTGAATTT 
    GCTCAACAGC AGGCAGCCAG TGTCCCAATC TTAGAAGAAC AGATTATAAA TTTGGAAGCA 
    GAGGTTTCAG CTCAAGATAA AGTTTTGAGA GAGGCAGAAA ATAAGCTGGA ACAGAGCCAG 
    AAAATGGTAA TTGAAAAGGA ACAGAGTTTG CAGGAGTCCA AAGAGGAATG TATAAAATTA 
    AAGGTGGACT TACTTGAACA AACCAAACAA GGAAAAAGAG CTGAACGACA AAGGAATGAA 
    GCACTGTACA ATGCTGAAGA GCTGAGTAAC GCTTTCCAAC AATATAAAAA GAAAGTGGCT 
    GAAAAACTGG AAAAGGTTCA AGCTGAAGAA GAAATATTAG AGAGAAATCT AATTAACTGT 
    GAAAAAGAAA ATAAAAGGCT ACAAGAAAAG TGTGGTCTAT GTAAAAGTGA ACTTGAAATT 
    CTGAAAGAGA AATTAAGGCA GTTAAAAGAA GAAAATAACA ATGGAAAAGA AAAACTAAGG 
    ATCATGGCAG TGAAAAATTC AGAAGTCATG GCACAGCTAA CTGAATCTAG ACAAAGTATT 
    TTGAAGCTAG AGAGTGAGTT AGAGAACAAA GACGAAATAC TTAGAGACAA ATTTTCTTTA 
    ATGAATGAAA ACCGAGAATT AAAGGTCCGT GTTGCAGCAC AGAATGAGCG ACTAGATTTA 
    TGTCAACAAG AAATTGAAAG TTCAAGGGTA GAACTAAGAA GTATGGAAAA GATTATATCC 
    CAGTTGCCAT TAAAGAGAGA ATTATTTGGC TTTAAATCGT CTCTTTCTAA ATACCAGATG 
    AGTAGCTTCT CAAACAAGGA AGACCGTTGC ATTGGCTGCT GTGAGGCAAA TAAATTGGTG 
    ATTTCGGAAT TGAGAATTAA GCTTGCAATA AAAGAGGCAG AAATTCAAAA GCTTCATGCA 
    AACCTGACTG CAAATCAGTT ATCTCAGAGT CTTATTACTT GTAATGACAG CCAAGAAAGT 
    AGCAAATTAA GTAGTTTAGA AACAGAACCT GTAAAGCTAG GTGGTCATCA AGTGGCAGAA 
    AGCGTGAAAG ATCAAAATCA ACATACTATG AACAAGCAAT ATGAAAAAGA GAGGCAAAGA 
    CTTGTTACTG GAATAGAAGA GCTACGTACT AAGCTGATAC AAATAGAAGC TGAAAATTCT 
    GATTTGAGGG TTAACATGGC TCACAGAACT AGTCAGTTTC AGCTGATTCA AGAGGAGCTG 
    CTAGAGAAAG CTTCAAACTC CAGCAAACTG GAAAGTGAAA TGACAAAGAA ATGTTCTCAA 
    CTTTTAACTC TTGAGAAACA GCTGGAAGAA AAGATAGTTG CTTATTCCTC TATTGCTGCA 
    AAAAATGCAG AACTAGAACA GGAGCTTATG GAAAAGAATG AAAAGATAAG GAGTCTAGAA 
    ACCAATGTTA ATACAGAGCA TGAGAAAATT TGTTTAGCCT TTGAAAAAGC AAAGAAAATT 
    CACTTGGAAC AGCATAAAGA AATGGAAAAG CAGATTGAAA GACTTGAAGC TCAACTAGAG 
    AAAAAGGATC AACAATTTAA AGAACAAGAA AAGACTATGT CCATGTTGCA ACAAGATATA 
    ATATGCAAAC AGCATCATCT TGAATCACTA GATAGACTCT TGACGGAAAG CAAAGGGGAA 
    ATGGAAAAGG AAAATATGAA GAAAGATGAA GCTTTAAAAG CATTACAGAA CCAAGTATCT 
    GAAGAAACAA TCAAGGTTAG GCAACTAGAT TCAGCATTAG AAATTTGTAA GGAAGAACTT 
    GTCTTGCATT TGAATCAATT GGAAGGAAAT AAGGAAAAGT TTGAAAAACA GTTAAAGAAG 
    AAATCTGAAG AGCATACTCT TCAGCAACAG CAGCAAATGT TACAACAAGA GACAATTAGA 
    AATGGAGAGC TGGAAGATAC TCAAACTAAA CTTGAAAAAC AGGTGTCAAA ACTGGAACAA 
    GAACTTCAAA AACAAAGGGA AAGTTCAGCT GAAAAGTTGA GAAAAATGGA GGAGAAATGT 
    GAATCAGCTG CACATGAAGC AGATTTGAAA AGGCAAAAAG TGATTGAGCT TACTAGCACT 
    GCCAGGCAAG TAAAGCTTGA GATGGATCAG TACAAAGAAG AGCTGTCTAA AATGGAAAAG 
    GAAATAATGC ACCTCAAACG AGATGGAGAA AATAAAGCAA TGCACCTCTC TCAATTAGAT 
    ATGATCTTAG ATCAGACAAA GACAGAGCTA GAAAAGAAAA CAAATGCTGT AAAGGAGTTA 
    GAAAAGTTAC AGCACAGTAC TGAAACTGAA CTAACAGAAG CCTTGCAAAA ACGGGAAGCA 
    CTTGAGACTG AACTACAAAA TGCTCATGGA GAATTAAAAA GTACTTTAAG ACAACTCCAG 
    GAATTGAGAG ATGTACTACA GAAGGCTCAG TTATCATTAG AGGAAAAATA CACTACTATA 
    AAGGATCTCA CAGCTGAACT TAGAGAATGC AAGATGGAGA TTGAAGACAA AAAGCAGGAG 
    CTCCTTGAAA TGGATCAGGC ACTTAAGGAG AGAAATTGGG AACTAAAGCA AAGAGCAGCT 
    CAGGTTACAC ATTTGGATAT GACTATTCGC GAACACAGAG GAGAAATGGA ACAAAAAATA 
    ATTAAATTAG AAGGTACCCT GGAGAAATCA GAATTGGAAC TTAAAGAATG TAACAAACAG 
    GTAAATTATT TTAAAATTAC ATATTTTAAA TTATTTTTTT AA

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

    CCDC18 ( XM_028847494.1 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_028703327.1 Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OMb58679
    Clone ID Related Accession (Same CDS sequence) XM_028847494.1 , XM_028847495.1
    Accession Version XM_028847494.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4368bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    Product coiled-coil domain-containing protein 18 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041754.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGAATCTA GTTCATCAGA CTACTGTAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAGGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTCTGAA TTATTCACCT 
    TATGAAAACG TTTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GGCAAGAGAT 
    AAGATGTTTT CATCTTCTAC CCCTGTGGAT CAGGAGATTA AAAGCCTTCG AGAGAAACTA 
    AATAAACTTA GGCAACAGAA TGCTTGTTTG GTCACACAGA ATCATTCCTT AATGACCAAA 
    TTTGAATCTA TCCACTTTGA ATTAACACAG TCAAGAGCAA AAGTTTCCAT GCTTGAATTT 
    GCTCAACAGC AGGCAGCCAG TGTCCCAATC TTAGAAGAAC AGATTATAAA TTTGGAAGCA 
    GAGGTTTCAG CTCAAGATAA AGTTTTGAGA GAGGCAGAAA ATAAGCTGGA ACAGAGCCAG 
    AAAATGGTAA TTGAAAAGGA ACAGAGTTTG CAGGAGTCCA AAGAGGAATG TATAAAATTA 
    AAGGTGGACT TACTTGAACA AACCAAACAA GGAAAAAGAG CTGAACGACA AAGGAATGAA 
    GCACTGTACA ATGCTGAAGA GCTGAGTAAC GCTTTCCAAC AATATAAAAA GAAAGTGGCT 
    GAAAAACTGG AAAAGGTTCA AGCTGAAGAA GAAATATTAG AGAGAAATCT AATTAACTGT 
    GAAAAAGAAA ATAAAAGGCT ACAAGAAAAG TGTGGTCTAT GTAAAAGTGA ACTTGAAATT 
    CTGAAAGAGA AATTAAGGCA GTTAAAAGAA GAAAATAACA ATGGAAAAGA AAAACTAAGG 
    ATCATGGCAG TGAAAAATTC AGAAGTCATG GCACAGCTAA CTGAATCTAG ACAAAGTATT 
    TTGAAGCTAG AGAGTGAGTT AGAGAACAAA GACGAAATAC TTAGAGACAA ATTTTCTTTA 
    ATGAATGAAA ACCGAGAATT AAAGGTCCGT GTTGCAGCAC AGAATGAGCG ACTAGATTTA 
    TGTCAACAAG AAATTGAAAG TTCAAGGGTA GAACTAAGAA GTATGGAAAA GATTATATCC 
    CAGTTGCCAT TAAAGAGAGA ATTATTTGGC TTTAAATCGT CTCTTTCTAA ATACCAGATG 
    AGTAGCTTCT CAAACAAGGA AGACCGTTGC ATTGGCTGCT GTGAGGCAAA TAAATTGGTG 
    ATTTCGGAAT TGAGAATTAA GCTTGCAATA AAAGAGGCAG AAATTCAAAA GCTTCATGCA 
    AACCTGACTG CAAATCAGTT ATCTCAGAGT CTTATTACTT GTAATGACAG CCAAGAAAGT 
    AGCAAATTAA GTAGTTTAGA AACAGAACCT GTAAAGCTAG GTGGTCATCA AGTGGCAGAA 
    AGCGTGAAAG ATCAAAATCA ACATACTATG AACAAGCAAT ATGAAAAAGA GAGGCAAAGA 
    CTTGTTACTG GAATAGAAGA GCTACGTACT AAGCTGATAC AAATAGAAGC TGAAAATTCT 
    GATTTGAGGG TTAACATGGC TCACAGAACT AGTCAGTTTC AGCTGATTCA AGAGGAGCTG 
    CTAGAGAAAG CTTCAAACTC CAGCAAACTG GAAAGTGAAA TGACAAAGAA ATGTTCTCAA 
    CTTTTAACTC TTGAGAAACA GCTGGAAGAA AAGATAGTTG CTTATTCCTC TATTGCTGCA 
    AAAAATGCAG AACTAGAACA GGAGCTTATG GAAAAGAATG AAAAGATAAG GAGTCTAGAA 
    ACCAATGTTA ATACAGAGCA TGAGAAAATT TGTTTAGCCT TTGAAAAAGC AAAGAAAATT 
    CACTTGGAAC AGCATAAAGA AATGGAAAAG CAGATTGAAA GACTTGAAGC TCAACTAGAG 
    AAAAAGGATC AACAATTTAA AGAACAAGAA AAGACTATGT CCATGTTGCA ACAAGATATA 
    ATATGCAAAC AGCATCATCT TGAATCACTA GATAGACTCT TGACGGAAAG CAAAGGGGAA 
    ATGGAAAAGG AAAATATGAA GAAAGATGAA GCTTTAAAAG CATTACAGAA CCAAGTATCT 
    GAAGAAACAA TCAAGGTTAG GCAACTAGAT TCAGCATTAG AAATTTGTAA GGAAGAACTT 
    GTCTTGCATT TGAATCAATT GGAAGGAAAT AAGGAAAAGT TTGAAAAACA GTTAAAGAAG 
    AAATCTGAAG AGGTATATTG TTTACAGAAA GAGCTAAAAA TAAAAAATCA CAGTCTTCAA 
    GAGACTTCTG AGCAAAACAT TATTCTACAG CATACTCTTC AGCAACAGCA GCAAATGTTA 
    CAACAAGAGA CAATTAGAAA TGGAGAGCTG GAAGATACTC AAACTAAACT TGAAAAACAG 
    GTGTCAAAAC TGGAACAAGA ACTTCAAAAA CAAAGGGAAA GTTCAGCTGA AAAGTTGAGA 
    AAAATGGAGG AGAAATGTGA ATCAGCTGCA CATGAAGCAG ATTTGAAAAG GCAAAAAGTG 
    ATTGAGCTTA CTAGCACTGC CAGGCAAGTA AAGCTTGAGA TGGATCAGTA CAAAGAAGAG 
    CTGTCTAAAA TGGAAAAGGA AATAATGCAC CTCAAACGAG ATGGAGAAAA TAAAGCAATG 
    CACCTCTCTC AATTAGATAT GATCTTAGAT CAGACAAAGA CAGAGCTAGA AAAGAAAACA 
    AATGCTGTAA AGGAGTTAGA AAAGTTACAG CACAGTACTG AAACTGAACT AACAGAAGCC 
    TTGCAAAAAC GGGAAGCACT TGAGACTGAA CTACAAAATG CTCATGGAGA ATTAAAAAGT 
    ACTTTAAGAC AACTCCAGGA ATTGAGAGAT GTACTACAGA AGGCTCAGTT ATCATTAGAG 
    GAAAAATACA CTACTATAAA GGATCTCACA GCTGAACTTA GAGAATGCAA GATGGAGATT 
    GAAGACAAAA AGCAGGAGCT CCTTGAAATG GATCAGGCAC TTAAGGAGAG AAATTGGGAA 
    CTAAAGCAAA GAGCAGCTCA GGTTACACAT TTGGATATGA CTATTCGCGA ACACAGAGGA 
    GAAATGGAAC AAAAAATAAT TAAATTAGAA GGTACCCTGG AGAAATCAGA ATTGGAACTT 
    AAAGAATGTA ACAAACAGAT AGAAAGTTTG AATGACAAGT TACAAAATGC TAAAGAACAG 
    CTTCGAGAAA AAGAGTTTAT AATGCTACAA AATGAACAGG AGATAAGTCA ACTGAAAAAA 
    GAAATCGAAA GAACACAACA AAGGATGAAA GAAATGGAGA GTGTTATGAA AGAGCAGGAA 
    CAGTACATTG CCACTCAGTA CAAGGAGGCC ATAGATTTGG GGCAAGAATT GAGGCTAACC 
    CGGGAGCAGG TGCAGAACTC TCATACAGAA TTGGCGGAGG CTCGTCGTCA ACAAGTCCAA 
    GCACAGAGAG AAACAGAAAG GCTCTCTAGC GAACTGGAGG ATATAAAGCA ACTCTCTAAA 
    GAGAAAGATG CTCATGGAAA CCATTTAGCT GAAGAATTGG GGGCTTCTAA AGTACGTGAA 
    GCTCATTTAG AAGCAAGAAT GCAAGCAGAA ATCAAGAAAT TGTCAGCAGA AGTAGAATCT 
    CTCAAAGAAG CTTATCATAT GGAGATGATT TCACATCAAG AGAACCATGC AAAGTGGAAG 
    ATTTCTGCTG ACTCTCAAAA GACTTCTGTT CAGCAACTAA ATGAACAATT AGAGAAGGCA 
    AAACTGGAAT TAGAAGAAGC TCAGGATACT GTAAGCAATT TGCATCAACA AGTCCAAGAT 
    AGGAATGAAG TAATTGAAGC TGCAAATGAA GCATTACTTA CTAAAGAATC AGAATTAACC 
    AGATTACAAG CCAAAATTTC TGGACATGAA AAGGCAGAAG ACACCAAGTT TCTACCAGGC 
    CCATTTACAT CTCCAACAGA AATTATGCCT GATGTTCAAG ATCCAAAATT TGCTAAACAT 
    TTTCACACAT CTTTTTCCAA GTGTACAAAA TTACGTCGCT CTATTAGTGC CAGTGATCTT 
    ACTTTCAAAA CTCATGGTGA TGAAGATCTT TCTGAAGAAT TACTACAGGA CTTGAAGAAA 
    ATGCAATTAG AACAGCCTTC AACATCAGAA GAAAGCCGTA AGAATCTGAC TTACACCCAG 
    CCAGACTCAT TTAAACCTCT CACGTATAAC CTAGAAGATG ATAGTTCTGA GAGTAATGAC 
    TTTAGCACGC TTAGTGGGAT GCTAAGGTAC ATAAACAAAG AAGTAAGACT ATTAAAAAAG 
    TCTTCTATGC AGACAGGTGC TGGTTTAACT CAGGGAGAAA ATGTGTAA

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

    RefSeq XP_028703327.1
    CDS140..4507
    Translation

    Target ORF information:

    RefSeq Version XM_028847494.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_028847494.1

    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
    ATGGAATCTA GTTCATCAGA CTACTGTAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAGGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTCTGAA TTATTCACCT 
    TATGAAAACG TTTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GGCAAGAGAT 
    AAGATGTTTT CATCTTCTAC CCCTGTGGAT CAGGAGATTA AAAGCCTTCG AGAGAAACTA 
    AATAAACTTA GGCAACAGAA TGCTTGTTTG GTCACACAGA ATCATTCCTT AATGACCAAA 
    TTTGAATCTA TCCACTTTGA ATTAACACAG TCAAGAGCAA AAGTTTCCAT GCTTGAATTT 
    GCTCAACAGC AGGCAGCCAG TGTCCCAATC TTAGAAGAAC AGATTATAAA TTTGGAAGCA 
    GAGGTTTCAG CTCAAGATAA AGTTTTGAGA GAGGCAGAAA ATAAGCTGGA ACAGAGCCAG 
    AAAATGGTAA TTGAAAAGGA ACAGAGTTTG CAGGAGTCCA AAGAGGAATG TATAAAATTA 
    AAGGTGGACT TACTTGAACA AACCAAACAA GGAAAAAGAG CTGAACGACA AAGGAATGAA 
    GCACTGTACA ATGCTGAAGA GCTGAGTAAC GCTTTCCAAC AATATAAAAA GAAAGTGGCT 
    GAAAAACTGG AAAAGGTTCA AGCTGAAGAA GAAATATTAG AGAGAAATCT AATTAACTGT 
    GAAAAAGAAA ATAAAAGGCT ACAAGAAAAG TGTGGTCTAT GTAAAAGTGA ACTTGAAATT 
    CTGAAAGAGA AATTAAGGCA GTTAAAAGAA GAAAATAACA ATGGAAAAGA AAAACTAAGG 
    ATCATGGCAG TGAAAAATTC AGAAGTCATG GCACAGCTAA CTGAATCTAG ACAAAGTATT 
    TTGAAGCTAG AGAGTGAGTT AGAGAACAAA GACGAAATAC TTAGAGACAA ATTTTCTTTA 
    ATGAATGAAA ACCGAGAATT AAAGGTCCGT GTTGCAGCAC AGAATGAGCG ACTAGATTTA 
    TGTCAACAAG AAATTGAAAG TTCAAGGGTA GAACTAAGAA GTATGGAAAA GATTATATCC 
    CAGTTGCCAT TAAAGAGAGA ATTATTTGGC TTTAAATCGT CTCTTTCTAA ATACCAGATG 
    AGTAGCTTCT CAAACAAGGA AGACCGTTGC ATTGGCTGCT GTGAGGCAAA TAAATTGGTG 
    ATTTCGGAAT TGAGAATTAA GCTTGCAATA AAAGAGGCAG AAATTCAAAA GCTTCATGCA 
    AACCTGACTG CAAATCAGTT ATCTCAGAGT CTTATTACTT GTAATGACAG CCAAGAAAGT 
    AGCAAATTAA GTAGTTTAGA AACAGAACCT GTAAAGCTAG GTGGTCATCA AGTGGCAGAA 
    AGCGTGAAAG ATCAAAATCA ACATACTATG AACAAGCAAT ATGAAAAAGA GAGGCAAAGA 
    CTTGTTACTG GAATAGAAGA GCTACGTACT AAGCTGATAC AAATAGAAGC TGAAAATTCT 
    GATTTGAGGG TTAACATGGC TCACAGAACT AGTCAGTTTC AGCTGATTCA AGAGGAGCTG 
    CTAGAGAAAG CTTCAAACTC CAGCAAACTG GAAAGTGAAA TGACAAAGAA ATGTTCTCAA 
    CTTTTAACTC TTGAGAAACA GCTGGAAGAA AAGATAGTTG CTTATTCCTC TATTGCTGCA 
    AAAAATGCAG AACTAGAACA GGAGCTTATG GAAAAGAATG AAAAGATAAG GAGTCTAGAA 
    ACCAATGTTA ATACAGAGCA TGAGAAAATT TGTTTAGCCT TTGAAAAAGC AAAGAAAATT 
    CACTTGGAAC AGCATAAAGA AATGGAAAAG CAGATTGAAA GACTTGAAGC TCAACTAGAG 
    AAAAAGGATC AACAATTTAA AGAACAAGAA AAGACTATGT CCATGTTGCA ACAAGATATA 
    ATATGCAAAC AGCATCATCT TGAATCACTA GATAGACTCT TGACGGAAAG CAAAGGGGAA 
    ATGGAAAAGG AAAATATGAA GAAAGATGAA GCTTTAAAAG CATTACAGAA CCAAGTATCT 
    GAAGAAACAA TCAAGGTTAG GCAACTAGAT TCAGCATTAG AAATTTGTAA GGAAGAACTT 
    GTCTTGCATT TGAATCAATT GGAAGGAAAT AAGGAAAAGT TTGAAAAACA GTTAAAGAAG 
    AAATCTGAAG AGGTATATTG TTTACAGAAA GAGCTAAAAA TAAAAAATCA CAGTCTTCAA 
    GAGACTTCTG AGCAAAACAT TATTCTACAG CATACTCTTC AGCAACAGCA GCAAATGTTA 
    CAACAAGAGA CAATTAGAAA TGGAGAGCTG GAAGATACTC AAACTAAACT TGAAAAACAG 
    GTGTCAAAAC TGGAACAAGA ACTTCAAAAA CAAAGGGAAA GTTCAGCTGA AAAGTTGAGA 
    AAAATGGAGG AGAAATGTGA ATCAGCTGCA CATGAAGCAG ATTTGAAAAG GCAAAAAGTG 
    ATTGAGCTTA CTAGCACTGC CAGGCAAGTA AAGCTTGAGA TGGATCAGTA CAAAGAAGAG 
    CTGTCTAAAA TGGAAAAGGA AATAATGCAC CTCAAACGAG ATGGAGAAAA TAAAGCAATG 
    CACCTCTCTC AATTAGATAT GATCTTAGAT CAGACAAAGA CAGAGCTAGA AAAGAAAACA 
    AATGCTGTAA AGGAGTTAGA AAAGTTACAG CACAGTACTG AAACTGAACT AACAGAAGCC 
    TTGCAAAAAC GGGAAGCACT TGAGACTGAA CTACAAAATG CTCATGGAGA ATTAAAAAGT 
    ACTTTAAGAC AACTCCAGGA ATTGAGAGAT GTACTACAGA AGGCTCAGTT ATCATTAGAG 
    GAAAAATACA CTACTATAAA GGATCTCACA GCTGAACTTA GAGAATGCAA GATGGAGATT 
    GAAGACAAAA AGCAGGAGCT CCTTGAAATG GATCAGGCAC TTAAGGAGAG AAATTGGGAA 
    CTAAAGCAAA GAGCAGCTCA GGTTACACAT TTGGATATGA CTATTCGCGA ACACAGAGGA 
    GAAATGGAAC AAAAAATAAT TAAATTAGAA GGTACCCTGG AGAAATCAGA ATTGGAACTT 
    AAAGAATGTA ACAAACAGAT AGAAAGTTTG AATGACAAGT TACAAAATGC TAAAGAACAG 
    CTTCGAGAAA AAGAGTTTAT AATGCTACAA AATGAACAGG AGATAAGTCA ACTGAAAAAA 
    GAAATCGAAA GAACACAACA AAGGATGAAA GAAATGGAGA GTGTTATGAA AGAGCAGGAA 
    CAGTACATTG CCACTCAGTA CAAGGAGGCC ATAGATTTGG GGCAAGAATT GAGGCTAACC 
    CGGGAGCAGG TGCAGAACTC TCATACAGAA TTGGCGGAGG CTCGTCGTCA ACAAGTCCAA 
    GCACAGAGAG AAACAGAAAG GCTCTCTAGC GAACTGGAGG ATATAAAGCA ACTCTCTAAA 
    GAGAAAGATG CTCATGGAAA CCATTTAGCT GAAGAATTGG GGGCTTCTAA AGTACGTGAA 
    GCTCATTTAG AAGCAAGAAT GCAAGCAGAA ATCAAGAAAT TGTCAGCAGA AGTAGAATCT 
    CTCAAAGAAG CTTATCATAT GGAGATGATT TCACATCAAG AGAACCATGC AAAGTGGAAG 
    ATTTCTGCTG ACTCTCAAAA GACTTCTGTT CAGCAACTAA ATGAACAATT AGAGAAGGCA 
    AAACTGGAAT TAGAAGAAGC TCAGGATACT GTAAGCAATT TGCATCAACA AGTCCAAGAT 
    AGGAATGAAG TAATTGAAGC TGCAAATGAA GCATTACTTA CTAAAGAATC AGAATTAACC 
    AGATTACAAG CCAAAATTTC TGGACATGAA AAGGCAGAAG ACACCAAGTT TCTACCAGGC 
    CCATTTACAT CTCCAACAGA AATTATGCCT GATGTTCAAG ATCCAAAATT TGCTAAACAT 
    TTTCACACAT CTTTTTCCAA GTGTACAAAA TTACGTCGCT CTATTAGTGC CAGTGATCTT 
    ACTTTCAAAA CTCATGGTGA TGAAGATCTT TCTGAAGAAT TACTACAGGA CTTGAAGAAA 
    ATGCAATTAG AACAGCCTTC AACATCAGAA GAAAGCCGTA AGAATCTGAC TTACACCCAG 
    CCAGACTCAT TTAAACCTCT CACGTATAAC CTAGAAGATG ATAGTTCTGA GAGTAATGAC 
    TTTAGCACGC TTAGTGGGAT GCTAAGGTAC ATAAACAAAG AAGTAAGACT ATTAAAAAAG 
    TCTTCTATGC AGACAGGTGC TGGTTTAACT CAGGGAGAAA ATGTGTAA

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

    CCDC18 ( XM_028847495.1 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_028703328.1 Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OMb58679
    Clone ID Related Accession (Same CDS sequence) XM_028847494.1 , XM_028847495.1
    Accession Version XM_028847495.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4368bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    Product coiled-coil domain-containing protein 18 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041754.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGAATCTA GTTCATCAGA CTACTGTAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAGGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTCTGAA TTATTCACCT 
    TATGAAAACG TTTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GGCAAGAGAT 
    AAGATGTTTT CATCTTCTAC CCCTGTGGAT CAGGAGATTA AAAGCCTTCG AGAGAAACTA 
    AATAAACTTA GGCAACAGAA TGCTTGTTTG GTCACACAGA ATCATTCCTT AATGACCAAA 
    TTTGAATCTA TCCACTTTGA ATTAACACAG TCAAGAGCAA AAGTTTCCAT GCTTGAATTT 
    GCTCAACAGC AGGCAGCCAG TGTCCCAATC TTAGAAGAAC AGATTATAAA TTTGGAAGCA 
    GAGGTTTCAG CTCAAGATAA AGTTTTGAGA GAGGCAGAAA ATAAGCTGGA ACAGAGCCAG 
    AAAATGGTAA TTGAAAAGGA ACAGAGTTTG CAGGAGTCCA AAGAGGAATG TATAAAATTA 
    AAGGTGGACT TACTTGAACA AACCAAACAA GGAAAAAGAG CTGAACGACA AAGGAATGAA 
    GCACTGTACA ATGCTGAAGA GCTGAGTAAC GCTTTCCAAC AATATAAAAA GAAAGTGGCT 
    GAAAAACTGG AAAAGGTTCA AGCTGAAGAA GAAATATTAG AGAGAAATCT AATTAACTGT 
    GAAAAAGAAA ATAAAAGGCT ACAAGAAAAG TGTGGTCTAT GTAAAAGTGA ACTTGAAATT 
    CTGAAAGAGA AATTAAGGCA GTTAAAAGAA GAAAATAACA ATGGAAAAGA AAAACTAAGG 
    ATCATGGCAG TGAAAAATTC AGAAGTCATG GCACAGCTAA CTGAATCTAG ACAAAGTATT 
    TTGAAGCTAG AGAGTGAGTT AGAGAACAAA GACGAAATAC TTAGAGACAA ATTTTCTTTA 
    ATGAATGAAA ACCGAGAATT AAAGGTCCGT GTTGCAGCAC AGAATGAGCG ACTAGATTTA 
    TGTCAACAAG AAATTGAAAG TTCAAGGGTA GAACTAAGAA GTATGGAAAA GATTATATCC 
    CAGTTGCCAT TAAAGAGAGA ATTATTTGGC TTTAAATCGT CTCTTTCTAA ATACCAGATG 
    AGTAGCTTCT CAAACAAGGA AGACCGTTGC ATTGGCTGCT GTGAGGCAAA TAAATTGGTG 
    ATTTCGGAAT TGAGAATTAA GCTTGCAATA AAAGAGGCAG AAATTCAAAA GCTTCATGCA 
    AACCTGACTG CAAATCAGTT ATCTCAGAGT CTTATTACTT GTAATGACAG CCAAGAAAGT 
    AGCAAATTAA GTAGTTTAGA AACAGAACCT GTAAAGCTAG GTGGTCATCA AGTGGCAGAA 
    AGCGTGAAAG ATCAAAATCA ACATACTATG AACAAGCAAT ATGAAAAAGA GAGGCAAAGA 
    CTTGTTACTG GAATAGAAGA GCTACGTACT AAGCTGATAC AAATAGAAGC TGAAAATTCT 
    GATTTGAGGG TTAACATGGC TCACAGAACT AGTCAGTTTC AGCTGATTCA AGAGGAGCTG 
    CTAGAGAAAG CTTCAAACTC CAGCAAACTG GAAAGTGAAA TGACAAAGAA ATGTTCTCAA 
    CTTTTAACTC TTGAGAAACA GCTGGAAGAA AAGATAGTTG CTTATTCCTC TATTGCTGCA 
    AAAAATGCAG AACTAGAACA GGAGCTTATG GAAAAGAATG AAAAGATAAG GAGTCTAGAA 
    ACCAATGTTA ATACAGAGCA TGAGAAAATT TGTTTAGCCT TTGAAAAAGC AAAGAAAATT 
    CACTTGGAAC AGCATAAAGA AATGGAAAAG CAGATTGAAA GACTTGAAGC TCAACTAGAG 
    AAAAAGGATC AACAATTTAA AGAACAAGAA AAGACTATGT CCATGTTGCA ACAAGATATA 
    ATATGCAAAC AGCATCATCT TGAATCACTA GATAGACTCT TGACGGAAAG CAAAGGGGAA 
    ATGGAAAAGG AAAATATGAA GAAAGATGAA GCTTTAAAAG CATTACAGAA CCAAGTATCT 
    GAAGAAACAA TCAAGGTTAG GCAACTAGAT TCAGCATTAG AAATTTGTAA GGAAGAACTT 
    GTCTTGCATT TGAATCAATT GGAAGGAAAT AAGGAAAAGT TTGAAAAACA GTTAAAGAAG 
    AAATCTGAAG AGGTATATTG TTTACAGAAA GAGCTAAAAA TAAAAAATCA CAGTCTTCAA 
    GAGACTTCTG AGCAAAACAT TATTCTACAG CATACTCTTC AGCAACAGCA GCAAATGTTA 
    CAACAAGAGA CAATTAGAAA TGGAGAGCTG GAAGATACTC AAACTAAACT TGAAAAACAG 
    GTGTCAAAAC TGGAACAAGA ACTTCAAAAA CAAAGGGAAA GTTCAGCTGA AAAGTTGAGA 
    AAAATGGAGG AGAAATGTGA ATCAGCTGCA CATGAAGCAG ATTTGAAAAG GCAAAAAGTG 
    ATTGAGCTTA CTAGCACTGC CAGGCAAGTA AAGCTTGAGA TGGATCAGTA CAAAGAAGAG 
    CTGTCTAAAA TGGAAAAGGA AATAATGCAC CTCAAACGAG ATGGAGAAAA TAAAGCAATG 
    CACCTCTCTC AATTAGATAT GATCTTAGAT CAGACAAAGA CAGAGCTAGA AAAGAAAACA 
    AATGCTGTAA AGGAGTTAGA AAAGTTACAG CACAGTACTG AAACTGAACT AACAGAAGCC 
    TTGCAAAAAC GGGAAGCACT TGAGACTGAA CTACAAAATG CTCATGGAGA ATTAAAAAGT 
    ACTTTAAGAC AACTCCAGGA ATTGAGAGAT GTACTACAGA AGGCTCAGTT ATCATTAGAG 
    GAAAAATACA CTACTATAAA GGATCTCACA GCTGAACTTA GAGAATGCAA GATGGAGATT 
    GAAGACAAAA AGCAGGAGCT CCTTGAAATG GATCAGGCAC TTAAGGAGAG AAATTGGGAA 
    CTAAAGCAAA GAGCAGCTCA GGTTACACAT TTGGATATGA CTATTCGCGA ACACAGAGGA 
    GAAATGGAAC AAAAAATAAT TAAATTAGAA GGTACCCTGG AGAAATCAGA ATTGGAACTT 
    AAAGAATGTA ACAAACAGAT AGAAAGTTTG AATGACAAGT TACAAAATGC TAAAGAACAG 
    CTTCGAGAAA AAGAGTTTAT AATGCTACAA AATGAACAGG AGATAAGTCA ACTGAAAAAA 
    GAAATCGAAA GAACACAACA AAGGATGAAA GAAATGGAGA GTGTTATGAA AGAGCAGGAA 
    CAGTACATTG CCACTCAGTA CAAGGAGGCC ATAGATTTGG GGCAAGAATT GAGGCTAACC 
    CGGGAGCAGG TGCAGAACTC TCATACAGAA TTGGCGGAGG CTCGTCGTCA ACAAGTCCAA 
    GCACAGAGAG AAACAGAAAG GCTCTCTAGC GAACTGGAGG ATATAAAGCA ACTCTCTAAA 
    GAGAAAGATG CTCATGGAAA CCATTTAGCT GAAGAATTGG GGGCTTCTAA AGTACGTGAA 
    GCTCATTTAG AAGCAAGAAT GCAAGCAGAA ATCAAGAAAT TGTCAGCAGA AGTAGAATCT 
    CTCAAAGAAG CTTATCATAT GGAGATGATT TCACATCAAG AGAACCATGC AAAGTGGAAG 
    ATTTCTGCTG ACTCTCAAAA GACTTCTGTT CAGCAACTAA ATGAACAATT AGAGAAGGCA 
    AAACTGGAAT TAGAAGAAGC TCAGGATACT GTAAGCAATT TGCATCAACA AGTCCAAGAT 
    AGGAATGAAG TAATTGAAGC TGCAAATGAA GCATTACTTA CTAAAGAATC AGAATTAACC 
    AGATTACAAG CCAAAATTTC TGGACATGAA AAGGCAGAAG ACACCAAGTT TCTACCAGGC 
    CCATTTACAT CTCCAACAGA AATTATGCCT GATGTTCAAG ATCCAAAATT TGCTAAACAT 
    TTTCACACAT CTTTTTCCAA GTGTACAAAA TTACGTCGCT CTATTAGTGC CAGTGATCTT 
    ACTTTCAAAA CTCATGGTGA TGAAGATCTT TCTGAAGAAT TACTACAGGA CTTGAAGAAA 
    ATGCAATTAG AACAGCCTTC AACATCAGAA GAAAGCCGTA AGAATCTGAC TTACACCCAG 
    CCAGACTCAT TTAAACCTCT CACGTATAAC CTAGAAGATG ATAGTTCTGA GAGTAATGAC 
    TTTAGCACGC TTAGTGGGAT GCTAAGGTAC ATAAACAAAG AAGTAAGACT ATTAAAAAAG 
    TCTTCTATGC AGACAGGTGC TGGTTTAACT CAGGGAGAAA ATGTGTAA

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

    RefSeq XP_028703328.1
    CDS636..5003
    Translation

    Target ORF information:

    RefSeq Version XM_028847495.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_028847495.1

    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
    ATGGAATCTA GTTCATCAGA CTACTGTAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAGGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTCTGAA TTATTCACCT 
    TATGAAAACG TTTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GGCAAGAGAT 
    AAGATGTTTT CATCTTCTAC CCCTGTGGAT CAGGAGATTA AAAGCCTTCG AGAGAAACTA 
    AATAAACTTA GGCAACAGAA TGCTTGTTTG GTCACACAGA ATCATTCCTT AATGACCAAA 
    TTTGAATCTA TCCACTTTGA ATTAACACAG TCAAGAGCAA AAGTTTCCAT GCTTGAATTT 
    GCTCAACAGC AGGCAGCCAG TGTCCCAATC TTAGAAGAAC AGATTATAAA TTTGGAAGCA 
    GAGGTTTCAG CTCAAGATAA AGTTTTGAGA GAGGCAGAAA ATAAGCTGGA ACAGAGCCAG 
    AAAATGGTAA TTGAAAAGGA ACAGAGTTTG CAGGAGTCCA AAGAGGAATG TATAAAATTA 
    AAGGTGGACT TACTTGAACA AACCAAACAA GGAAAAAGAG CTGAACGACA AAGGAATGAA 
    GCACTGTACA ATGCTGAAGA GCTGAGTAAC GCTTTCCAAC AATATAAAAA GAAAGTGGCT 
    GAAAAACTGG AAAAGGTTCA AGCTGAAGAA GAAATATTAG AGAGAAATCT AATTAACTGT 
    GAAAAAGAAA ATAAAAGGCT ACAAGAAAAG TGTGGTCTAT GTAAAAGTGA ACTTGAAATT 
    CTGAAAGAGA AATTAAGGCA GTTAAAAGAA GAAAATAACA ATGGAAAAGA AAAACTAAGG 
    ATCATGGCAG TGAAAAATTC AGAAGTCATG GCACAGCTAA CTGAATCTAG ACAAAGTATT 
    TTGAAGCTAG AGAGTGAGTT AGAGAACAAA GACGAAATAC TTAGAGACAA ATTTTCTTTA 
    ATGAATGAAA ACCGAGAATT AAAGGTCCGT GTTGCAGCAC AGAATGAGCG ACTAGATTTA 
    TGTCAACAAG AAATTGAAAG TTCAAGGGTA GAACTAAGAA GTATGGAAAA GATTATATCC 
    CAGTTGCCAT TAAAGAGAGA ATTATTTGGC TTTAAATCGT CTCTTTCTAA ATACCAGATG 
    AGTAGCTTCT CAAACAAGGA AGACCGTTGC ATTGGCTGCT GTGAGGCAAA TAAATTGGTG 
    ATTTCGGAAT TGAGAATTAA GCTTGCAATA AAAGAGGCAG AAATTCAAAA GCTTCATGCA 
    AACCTGACTG CAAATCAGTT ATCTCAGAGT CTTATTACTT GTAATGACAG CCAAGAAAGT 
    AGCAAATTAA GTAGTTTAGA AACAGAACCT GTAAAGCTAG GTGGTCATCA AGTGGCAGAA 
    AGCGTGAAAG ATCAAAATCA ACATACTATG AACAAGCAAT ATGAAAAAGA GAGGCAAAGA 
    CTTGTTACTG GAATAGAAGA GCTACGTACT AAGCTGATAC AAATAGAAGC TGAAAATTCT 
    GATTTGAGGG TTAACATGGC TCACAGAACT AGTCAGTTTC AGCTGATTCA AGAGGAGCTG 
    CTAGAGAAAG CTTCAAACTC CAGCAAACTG GAAAGTGAAA TGACAAAGAA ATGTTCTCAA 
    CTTTTAACTC TTGAGAAACA GCTGGAAGAA AAGATAGTTG CTTATTCCTC TATTGCTGCA 
    AAAAATGCAG AACTAGAACA GGAGCTTATG GAAAAGAATG AAAAGATAAG GAGTCTAGAA 
    ACCAATGTTA ATACAGAGCA TGAGAAAATT TGTTTAGCCT TTGAAAAAGC AAAGAAAATT 
    CACTTGGAAC AGCATAAAGA AATGGAAAAG CAGATTGAAA GACTTGAAGC TCAACTAGAG 
    AAAAAGGATC AACAATTTAA AGAACAAGAA AAGACTATGT CCATGTTGCA ACAAGATATA 
    ATATGCAAAC AGCATCATCT TGAATCACTA GATAGACTCT TGACGGAAAG CAAAGGGGAA 
    ATGGAAAAGG AAAATATGAA GAAAGATGAA GCTTTAAAAG CATTACAGAA CCAAGTATCT 
    GAAGAAACAA TCAAGGTTAG GCAACTAGAT TCAGCATTAG AAATTTGTAA GGAAGAACTT 
    GTCTTGCATT TGAATCAATT GGAAGGAAAT AAGGAAAAGT TTGAAAAACA GTTAAAGAAG 
    AAATCTGAAG AGGTATATTG TTTACAGAAA GAGCTAAAAA TAAAAAATCA CAGTCTTCAA 
    GAGACTTCTG AGCAAAACAT TATTCTACAG CATACTCTTC AGCAACAGCA GCAAATGTTA 
    CAACAAGAGA CAATTAGAAA TGGAGAGCTG GAAGATACTC AAACTAAACT TGAAAAACAG 
    GTGTCAAAAC TGGAACAAGA ACTTCAAAAA CAAAGGGAAA GTTCAGCTGA AAAGTTGAGA 
    AAAATGGAGG AGAAATGTGA ATCAGCTGCA CATGAAGCAG ATTTGAAAAG GCAAAAAGTG 
    ATTGAGCTTA CTAGCACTGC CAGGCAAGTA AAGCTTGAGA TGGATCAGTA CAAAGAAGAG 
    CTGTCTAAAA TGGAAAAGGA AATAATGCAC CTCAAACGAG ATGGAGAAAA TAAAGCAATG 
    CACCTCTCTC AATTAGATAT GATCTTAGAT CAGACAAAGA CAGAGCTAGA AAAGAAAACA 
    AATGCTGTAA AGGAGTTAGA AAAGTTACAG CACAGTACTG AAACTGAACT AACAGAAGCC 
    TTGCAAAAAC GGGAAGCACT TGAGACTGAA CTACAAAATG CTCATGGAGA ATTAAAAAGT 
    ACTTTAAGAC AACTCCAGGA ATTGAGAGAT GTACTACAGA AGGCTCAGTT ATCATTAGAG 
    GAAAAATACA CTACTATAAA GGATCTCACA GCTGAACTTA GAGAATGCAA GATGGAGATT 
    GAAGACAAAA AGCAGGAGCT CCTTGAAATG GATCAGGCAC TTAAGGAGAG AAATTGGGAA 
    CTAAAGCAAA GAGCAGCTCA GGTTACACAT TTGGATATGA CTATTCGCGA ACACAGAGGA 
    GAAATGGAAC AAAAAATAAT TAAATTAGAA GGTACCCTGG AGAAATCAGA ATTGGAACTT 
    AAAGAATGTA ACAAACAGAT AGAAAGTTTG AATGACAAGT TACAAAATGC TAAAGAACAG 
    CTTCGAGAAA AAGAGTTTAT AATGCTACAA AATGAACAGG AGATAAGTCA ACTGAAAAAA 
    GAAATCGAAA GAACACAACA AAGGATGAAA GAAATGGAGA GTGTTATGAA AGAGCAGGAA 
    CAGTACATTG CCACTCAGTA CAAGGAGGCC ATAGATTTGG GGCAAGAATT GAGGCTAACC 
    CGGGAGCAGG TGCAGAACTC TCATACAGAA TTGGCGGAGG CTCGTCGTCA ACAAGTCCAA 
    GCACAGAGAG AAACAGAAAG GCTCTCTAGC GAACTGGAGG ATATAAAGCA ACTCTCTAAA 
    GAGAAAGATG CTCATGGAAA CCATTTAGCT GAAGAATTGG GGGCTTCTAA AGTACGTGAA 
    GCTCATTTAG AAGCAAGAAT GCAAGCAGAA ATCAAGAAAT TGTCAGCAGA AGTAGAATCT 
    CTCAAAGAAG CTTATCATAT GGAGATGATT TCACATCAAG AGAACCATGC AAAGTGGAAG 
    ATTTCTGCTG ACTCTCAAAA GACTTCTGTT CAGCAACTAA ATGAACAATT AGAGAAGGCA 
    AAACTGGAAT TAGAAGAAGC TCAGGATACT GTAAGCAATT TGCATCAACA AGTCCAAGAT 
    AGGAATGAAG TAATTGAAGC TGCAAATGAA GCATTACTTA CTAAAGAATC AGAATTAACC 
    AGATTACAAG CCAAAATTTC TGGACATGAA AAGGCAGAAG ACACCAAGTT TCTACCAGGC 
    CCATTTACAT CTCCAACAGA AATTATGCCT GATGTTCAAG ATCCAAAATT TGCTAAACAT 
    TTTCACACAT CTTTTTCCAA GTGTACAAAA TTACGTCGCT CTATTAGTGC CAGTGATCTT 
    ACTTTCAAAA CTCATGGTGA TGAAGATCTT TCTGAAGAAT TACTACAGGA CTTGAAGAAA 
    ATGCAATTAG AACAGCCTTC AACATCAGAA GAAAGCCGTA AGAATCTGAC TTACACCCAG 
    CCAGACTCAT TTAAACCTCT CACGTATAAC CTAGAAGATG ATAGTTCTGA GAGTAATGAC 
    TTTAGCACGC TTAGTGGGAT GCTAAGGTAC ATAAACAAAG AAGTAAGACT ATTAAAAAAG 
    TCTTCTATGC AGACAGGTGC TGGTTTAACT CAGGGAGAAA ATGTGTAA

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

    CCDC18 ( XM_015145011.2 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_015000497.2 Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OMb58680
    Clone ID Related Accession (Same CDS sequence) XM_015145011.2
    Accession Version XM_015145011.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4365bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    Product coiled-coil domain-containing protein 18 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041754.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_015145011.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGAATCTA GTTCATCAGA CTACTGTAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAGGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTCTGAA TTATTCACCT 
    TATGAAAACG TTTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GGCAAGAGAT 
    AAGATGTTTT CATCTTCTAC CCCTGTGGAT CAGGAGATTA AAAGCCTTCG AGAGAAACTA 
    AATAAACTTA GGCAACAGAA TGCTTGTTTG GTCACACAGA ATCATTCCTT AATGACCAAA 
    TTTGAATCTA TCCACTTTGA ATTAACACAG TCAAGAGCAA AAGTTTCCAT GCTTGAATTT 
    GCTCAACAGC AGGCAGCCAG TGTCCCAATC TTAGAAGAAC AGATTATAAA TTTGGAAGCA 
    GAGGTTTCAG CTCAAGATAA AGTTTTGAGA GAGGCAGAAA ATAAGCTGGA ACAGAGCCAG 
    AAAATGGTAA TTGAAAAGGA ACAGAGTTTG CAGGAGTCCA AAGAGGAATG TATAAAATTA 
    AAGGTGGACT TACTTGAACA AACCAAACAA GGAAAAAGAG CTGAACGACA AAGGAATGAA 
    GCACTGTACA ATGCTGAAGA GCTGAGTAAC GCTTTCCAAC AATATAAAAA GAAAGTGGCT 
    GAAAAACTGG AAAAGGTTCA AGCTGAAGAA GAAATATTAG AGAGAAATCT AATTAACTGT 
    GAAAAAGAAA ATAAAAGGCT ACAAGAAAAG TGTGGTCTAT GTAAAAGTGA ACTTGAAATT 
    CTGAAAGAGA AATTAAGGCA GTTAAAAGAA GAAAATAACA ATGGAAAAGA AAAACTAAGG 
    ATCATGGCAG TGAAAAATTC AGAAGTCATG GCACAGCTAA CTGAATCTAG ACAAAGTATT 
    TTGAAGCTAG AGAGTGAGTT AGAGAACAAA GACGAAATAC TTAGAGACAA ATTTTCTTTA 
    ATGAATGAAA ACCGAGAATT AAAGGTCCGT GTTGCAGCAC AGAATGAGCG ACTAGATTTA 
    TGTCAACAAG AAATTGAAAG TTCAAGGGTA GAACTAAGAA GTATGGAAAA GATTATATCC 
    CAGTTGCCAT TAAAGAGAGA ATTATTTGGC TTTAAATCGT CTCTTTCTAA ATACCAGATG 
    AGTAGCTTCT CAAACAAGGA AGACCGTTGC ATTGGCTGCT GTGAGGCAAA TAAATTGGTG 
    ATTTCGGAAT TGAGAATTAA GCTTGCAATA AAAGAGGCAG AAATTCAAAA GCTTCATGCA 
    AACCTGACTG CAAATCAGTT ATCTCAGAGT CTTATTACTT GTAATGACAG CCAAGAAAGT 
    AGCAAATTAA GTAGTTTAGA AACAGAACCT GTAAAGCTAG GTGGTCATCA AGTGGAAAGC 
    GTGAAAGATC AAAATCAACA TACTATGAAC AAGCAATATG AAAAAGAGAG GCAAAGACTT 
    GTTACTGGAA TAGAAGAGCT ACGTACTAAG CTGATACAAA TAGAAGCTGA AAATTCTGAT 
    TTGAGGGTTA ACATGGCTCA CAGAACTAGT CAGTTTCAGC TGATTCAAGA GGAGCTGCTA 
    GAGAAAGCTT CAAACTCCAG CAAACTGGAA AGTGAAATGA CAAAGAAATG TTCTCAACTT 
    TTAACTCTTG AGAAACAGCT GGAAGAAAAG ATAGTTGCTT ATTCCTCTAT TGCTGCAAAA 
    AATGCAGAAC TAGAACAGGA GCTTATGGAA AAGAATGAAA AGATAAGGAG TCTAGAAACC 
    AATGTTAATA CAGAGCATGA GAAAATTTGT TTAGCCTTTG AAAAAGCAAA GAAAATTCAC 
    TTGGAACAGC ATAAAGAAAT GGAAAAGCAG ATTGAAAGAC TTGAAGCTCA ACTAGAGAAA 
    AAGGATCAAC AATTTAAAGA ACAAGAAAAG ACTATGTCCA TGTTGCAACA AGATATAATA 
    TGCAAACAGC ATCATCTTGA ATCACTAGAT AGACTCTTGA CGGAAAGCAA AGGGGAAATG 
    GAAAAGGAAA ATATGAAGAA AGATGAAGCT TTAAAAGCAT TACAGAACCA AGTATCTGAA 
    GAAACAATCA AGGTTAGGCA ACTAGATTCA GCATTAGAAA TTTGTAAGGA AGAACTTGTC 
    TTGCATTTGA ATCAATTGGA AGGAAATAAG GAAAAGTTTG AAAAACAGTT AAAGAAGAAA 
    TCTGAAGAGG TATATTGTTT ACAGAAAGAG CTAAAAATAA AAAATCACAG TCTTCAAGAG 
    ACTTCTGAGC AAAACATTAT TCTACAGCAT ACTCTTCAGC AACAGCAGCA AATGTTACAA 
    CAAGAGACAA TTAGAAATGG AGAGCTGGAA GATACTCAAA CTAAACTTGA AAAACAGGTG 
    TCAAAACTGG AACAAGAACT TCAAAAACAA AGGGAAAGTT CAGCTGAAAA GTTGAGAAAA 
    ATGGAGGAGA AATGTGAATC AGCTGCACAT GAAGCAGATT TGAAAAGGCA AAAAGTGATT 
    GAGCTTACTA GCACTGCCAG GCAAGTAAAG CTTGAGATGG ATCAGTACAA AGAAGAGCTG 
    TCTAAAATGG AAAAGGAAAT AATGCACCTC AAACGAGATG GAGAAAATAA AGCAATGCAC 
    CTCTCTCAAT TAGATATGAT CTTAGATCAG ACAAAGACAG AGCTAGAAAA GAAAACAAAT 
    GCTGTAAAGG AGTTAGAAAA GTTACAGCAC AGTACTGAAA CTGAACTAAC AGAAGCCTTG 
    CAAAAACGGG AAGCACTTGA GACTGAACTA CAAAATGCTC ATGGAGAATT AAAAAGTACT 
    TTAAGACAAC TCCAGGAATT GAGAGATGTA CTACAGAAGG CTCAGTTATC ATTAGAGGAA 
    AAATACACTA CTATAAAGGA TCTCACAGCT GAACTTAGAG AATGCAAGAT GGAGATTGAA 
    GACAAAAAGC AGGAGCTCCT TGAAATGGAT CAGGCACTTA AGGAGAGAAA TTGGGAACTA 
    AAGCAAAGAG CAGCTCAGGT TACACATTTG GATATGACTA TTCGCGAACA CAGAGGAGAA 
    ATGGAACAAA AAATAATTAA ATTAGAAGGT ACCCTGGAGA AATCAGAATT GGAACTTAAA 
    GAATGTAACA AACAGATAGA AAGTTTGAAT GACAAGTTAC AAAATGCTAA AGAACAGCTT 
    CGAGAAAAAG AGTTTATAAT GCTACAAAAT GAACAGGAGA TAAGTCAACT GAAAAAAGAA 
    ATCGAAAGAA CACAACAAAG GATGAAAGAA ATGGAGAGTG TTATGAAAGA GCAGGAACAG 
    TACATTGCCA CTCAGTACAA GGAGGCCATA GATTTGGGGC AAGAATTGAG GCTAACCCGG 
    GAGCAGGTGC AGAACTCTCA TACAGAATTG GCGGAGGCTC GTCGTCAACA AGTCCAAGCA 
    CAGAGAGAAA CAGAAAGGCT CTCTAGCGAA CTGGAGGATA TAAAGCAACT CTCTAAAGAG 
    AAAGATGCTC ATGGAAACCA TTTAGCTGAA GAATTGGGGG CTTCTAAAGT ACGTGAAGCT 
    CATTTAGAAG CAAGAATGCA AGCAGAAATC AAGAAATTGT CAGCAGAAGT AGAATCTCTC 
    AAAGAAGCTT ATCATATGGA GATGATTTCA CATCAAGAGA ACCATGCAAA GTGGAAGATT 
    TCTGCTGACT CTCAAAAGAC TTCTGTTCAG CAACTAAATG AACAATTAGA GAAGGCAAAA 
    CTGGAATTAG AAGAAGCTCA GGATACTGTA AGCAATTTGC ATCAACAAGT CCAAGATAGG 
    AATGAAGTAA TTGAAGCTGC AAATGAAGCA TTACTTACTA AAGAATCAGA ATTAACCAGA 
    TTACAAGCCA AAATTTCTGG ACATGAAAAG GCAGAAGACA CCAAGTTTCT ACCAGGCCCA 
    TTTACATCTC CAACAGAAAT TATGCCTGAT GTTCAAGATC CAAAATTTGC TAAACATTTT 
    CACACATCTT TTTCCAAGTG TACAAAATTA CGTCGCTCTA TTAGTGCCAG TGATCTTACT 
    TTCAAAACTC ATGGTGATGA AGATCTTTCT GAAGAATTAC TACAGGACTT GAAGAAAATG 
    CAATTAGAAC AGCCTTCAAC ATCAGAAGAA AGCCGTAAGA ATCTGACTTA CACCCAGCCA 
    GACTCATTTA AACCTCTCAC GTATAACCTA GAAGATGATA GTTCTGAGAG TAATGACTTT 
    AGCACGCTTA GTGGGATGCT AAGGTACATA AACAAAGAAG TAAGACTATT AAAAAAGTCT 
    TCTATGCAGA CAGGTGCTGG TTTAACTCAG GGAGAAAATG TGTAA

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

    RefSeq XP_015000497.2
    CDS140..4504
    Translation

    Target ORF information:

    RefSeq Version XM_015145011.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_015145011.2

    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
    ATGGAATCTA GTTCATCAGA CTACTGTAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAGGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTCTGAA TTATTCACCT 
    TATGAAAACG TTTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GGCAAGAGAT 
    AAGATGTTTT CATCTTCTAC CCCTGTGGAT CAGGAGATTA AAAGCCTTCG AGAGAAACTA 
    AATAAACTTA GGCAACAGAA TGCTTGTTTG GTCACACAGA ATCATTCCTT AATGACCAAA 
    TTTGAATCTA TCCACTTTGA ATTAACACAG TCAAGAGCAA AAGTTTCCAT GCTTGAATTT 
    GCTCAACAGC AGGCAGCCAG TGTCCCAATC TTAGAAGAAC AGATTATAAA TTTGGAAGCA 
    GAGGTTTCAG CTCAAGATAA AGTTTTGAGA GAGGCAGAAA ATAAGCTGGA ACAGAGCCAG 
    AAAATGGTAA TTGAAAAGGA ACAGAGTTTG CAGGAGTCCA AAGAGGAATG TATAAAATTA 
    AAGGTGGACT TACTTGAACA AACCAAACAA GGAAAAAGAG CTGAACGACA AAGGAATGAA 
    GCACTGTACA ATGCTGAAGA GCTGAGTAAC GCTTTCCAAC AATATAAAAA GAAAGTGGCT 
    GAAAAACTGG AAAAGGTTCA AGCTGAAGAA GAAATATTAG AGAGAAATCT AATTAACTGT 
    GAAAAAGAAA ATAAAAGGCT ACAAGAAAAG TGTGGTCTAT GTAAAAGTGA ACTTGAAATT 
    CTGAAAGAGA AATTAAGGCA GTTAAAAGAA GAAAATAACA ATGGAAAAGA AAAACTAAGG 
    ATCATGGCAG TGAAAAATTC AGAAGTCATG GCACAGCTAA CTGAATCTAG ACAAAGTATT 
    TTGAAGCTAG AGAGTGAGTT AGAGAACAAA GACGAAATAC TTAGAGACAA ATTTTCTTTA 
    ATGAATGAAA ACCGAGAATT AAAGGTCCGT GTTGCAGCAC AGAATGAGCG ACTAGATTTA 
    TGTCAACAAG AAATTGAAAG TTCAAGGGTA GAACTAAGAA GTATGGAAAA GATTATATCC 
    CAGTTGCCAT TAAAGAGAGA ATTATTTGGC TTTAAATCGT CTCTTTCTAA ATACCAGATG 
    AGTAGCTTCT CAAACAAGGA AGACCGTTGC ATTGGCTGCT GTGAGGCAAA TAAATTGGTG 
    ATTTCGGAAT TGAGAATTAA GCTTGCAATA AAAGAGGCAG AAATTCAAAA GCTTCATGCA 
    AACCTGACTG CAAATCAGTT ATCTCAGAGT CTTATTACTT GTAATGACAG CCAAGAAAGT 
    AGCAAATTAA GTAGTTTAGA AACAGAACCT GTAAAGCTAG GTGGTCATCA AGTGGAAAGC 
    GTGAAAGATC AAAATCAACA TACTATGAAC AAGCAATATG AAAAAGAGAG GCAAAGACTT 
    GTTACTGGAA TAGAAGAGCT ACGTACTAAG CTGATACAAA TAGAAGCTGA AAATTCTGAT 
    TTGAGGGTTA ACATGGCTCA CAGAACTAGT CAGTTTCAGC TGATTCAAGA GGAGCTGCTA 
    GAGAAAGCTT CAAACTCCAG CAAACTGGAA AGTGAAATGA CAAAGAAATG TTCTCAACTT 
    TTAACTCTTG AGAAACAGCT GGAAGAAAAG ATAGTTGCTT ATTCCTCTAT TGCTGCAAAA 
    AATGCAGAAC TAGAACAGGA GCTTATGGAA AAGAATGAAA AGATAAGGAG TCTAGAAACC 
    AATGTTAATA CAGAGCATGA GAAAATTTGT TTAGCCTTTG AAAAAGCAAA GAAAATTCAC 
    TTGGAACAGC ATAAAGAAAT GGAAAAGCAG ATTGAAAGAC TTGAAGCTCA ACTAGAGAAA 
    AAGGATCAAC AATTTAAAGA ACAAGAAAAG ACTATGTCCA TGTTGCAACA AGATATAATA 
    TGCAAACAGC ATCATCTTGA ATCACTAGAT AGACTCTTGA CGGAAAGCAA AGGGGAAATG 
    GAAAAGGAAA ATATGAAGAA AGATGAAGCT TTAAAAGCAT TACAGAACCA AGTATCTGAA 
    GAAACAATCA AGGTTAGGCA ACTAGATTCA GCATTAGAAA TTTGTAAGGA AGAACTTGTC 
    TTGCATTTGA ATCAATTGGA AGGAAATAAG GAAAAGTTTG AAAAACAGTT AAAGAAGAAA 
    TCTGAAGAGG TATATTGTTT ACAGAAAGAG CTAAAAATAA AAAATCACAG TCTTCAAGAG 
    ACTTCTGAGC AAAACATTAT TCTACAGCAT ACTCTTCAGC AACAGCAGCA AATGTTACAA 
    CAAGAGACAA TTAGAAATGG AGAGCTGGAA GATACTCAAA CTAAACTTGA AAAACAGGTG 
    TCAAAACTGG AACAAGAACT TCAAAAACAA AGGGAAAGTT CAGCTGAAAA GTTGAGAAAA 
    ATGGAGGAGA AATGTGAATC AGCTGCACAT GAAGCAGATT TGAAAAGGCA AAAAGTGATT 
    GAGCTTACTA GCACTGCCAG GCAAGTAAAG CTTGAGATGG ATCAGTACAA AGAAGAGCTG 
    TCTAAAATGG AAAAGGAAAT AATGCACCTC AAACGAGATG GAGAAAATAA AGCAATGCAC 
    CTCTCTCAAT TAGATATGAT CTTAGATCAG ACAAAGACAG AGCTAGAAAA GAAAACAAAT 
    GCTGTAAAGG AGTTAGAAAA GTTACAGCAC AGTACTGAAA CTGAACTAAC AGAAGCCTTG 
    CAAAAACGGG AAGCACTTGA GACTGAACTA CAAAATGCTC ATGGAGAATT AAAAAGTACT 
    TTAAGACAAC TCCAGGAATT GAGAGATGTA CTACAGAAGG CTCAGTTATC ATTAGAGGAA 
    AAATACACTA CTATAAAGGA TCTCACAGCT GAACTTAGAG AATGCAAGAT GGAGATTGAA 
    GACAAAAAGC AGGAGCTCCT TGAAATGGAT CAGGCACTTA AGGAGAGAAA TTGGGAACTA 
    AAGCAAAGAG CAGCTCAGGT TACACATTTG GATATGACTA TTCGCGAACA CAGAGGAGAA 
    ATGGAACAAA AAATAATTAA ATTAGAAGGT ACCCTGGAGA AATCAGAATT GGAACTTAAA 
    GAATGTAACA AACAGATAGA AAGTTTGAAT GACAAGTTAC AAAATGCTAA AGAACAGCTT 
    CGAGAAAAAG AGTTTATAAT GCTACAAAAT GAACAGGAGA TAAGTCAACT GAAAAAAGAA 
    ATCGAAAGAA CACAACAAAG GATGAAAGAA ATGGAGAGTG TTATGAAAGA GCAGGAACAG 
    TACATTGCCA CTCAGTACAA GGAGGCCATA GATTTGGGGC AAGAATTGAG GCTAACCCGG 
    GAGCAGGTGC AGAACTCTCA TACAGAATTG GCGGAGGCTC GTCGTCAACA AGTCCAAGCA 
    CAGAGAGAAA CAGAAAGGCT CTCTAGCGAA CTGGAGGATA TAAAGCAACT CTCTAAAGAG 
    AAAGATGCTC ATGGAAACCA TTTAGCTGAA GAATTGGGGG CTTCTAAAGT ACGTGAAGCT 
    CATTTAGAAG CAAGAATGCA AGCAGAAATC AAGAAATTGT CAGCAGAAGT AGAATCTCTC 
    AAAGAAGCTT ATCATATGGA GATGATTTCA CATCAAGAGA ACCATGCAAA GTGGAAGATT 
    TCTGCTGACT CTCAAAAGAC TTCTGTTCAG CAACTAAATG AACAATTAGA GAAGGCAAAA 
    CTGGAATTAG AAGAAGCTCA GGATACTGTA AGCAATTTGC ATCAACAAGT CCAAGATAGG 
    AATGAAGTAA TTGAAGCTGC AAATGAAGCA TTACTTACTA AAGAATCAGA ATTAACCAGA 
    TTACAAGCCA AAATTTCTGG ACATGAAAAG GCAGAAGACA CCAAGTTTCT ACCAGGCCCA 
    TTTACATCTC CAACAGAAAT TATGCCTGAT GTTCAAGATC CAAAATTTGC TAAACATTTT 
    CACACATCTT TTTCCAAGTG TACAAAATTA CGTCGCTCTA TTAGTGCCAG TGATCTTACT 
    TTCAAAACTC ATGGTGATGA AGATCTTTCT GAAGAATTAC TACAGGACTT GAAGAAAATG 
    CAATTAGAAC AGCCTTCAAC ATCAGAAGAA AGCCGTAAGA ATCTGACTTA CACCCAGCCA 
    GACTCATTTA AACCTCTCAC GTATAACCTA GAAGATGATA GTTCTGAGAG TAATGACTTT 
    AGCACGCTTA GTGGGATGCT AAGGTACATA AACAAAGAAG TAAGACTATT AAAAAAGTCT 
    TCTATGCAGA CAGGTGCTGG TTTAACTCAG GGAGAAAATG TGTAA

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

    CCDC18 ( XM_028847497.1 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_028703330.1 Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OMb58681
    Clone ID Related Accession (Same CDS sequence) XM_028847497.1
    Accession Version XM_028847497.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4362bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    Product coiled-coil domain-containing protein 18 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041754.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGAATCTA GTTCATCAGA CTACTGTAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAGGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTCTGAA TTATTCACCT 
    TATGAAAACG TTTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GGCAAGAGAT 
    AAGATGTTTT CATCTTCTAC CCCTGTGGAT CAGGAGATTA AAAGCCTTCG AGAGAAACTA 
    AATAAACTTA GGCAACAGAA TGCTTGTTTG GTCACACAGA ATCATTCCTT AATGACCAAA 
    TTTGAATCTA TCCACTTTGA ATTAACACAG TCAAGAGCAA AAGTTTCCAT GCTTGAATTT 
    GCTCAACAGC AGGCAGCCAG TGTCCCAATC TTAGAAGAAC AGATTATAAA TTTGGAAGCA 
    GAGGTTTCAG CTCAAGATAA AGTTTTGAGA GAGGCAGAAA ATAAGCTGGA ACAGAGCCAG 
    AAAATGGTAA TTGAAAAGGA ACAGAGTTTG CAGGAGTCCA AAGAGGAATG TATAAAATTA 
    AAGGTGGACT TACTTGAACA AACCAAACAA GGAAAAAGAG CTGAACGACA AAGGAATGAA 
    GCACTGTACA ATGCTGAAGA GCTGAGTAAC GCTTTCCAAC AATATAAAAA GAAAGTGGCT 
    GAAAAACTGG AAAAGGTTCA AGCTGAAGAA GAAATATTAG AGAGAAATCT AATTAACTGT 
    GAAAAAGAAA ATAAAAGGCT ACAAGAAAAG TGTGGTCTAT GTAAAAGTGA ACTTGAAATT 
    CTGAAAGAGA AATTAAGGCA GTTAAAAGAA GAAAATAACA ATGGAAAAGA AAAACTAAGG 
    ATCATGGCAG TGAAAAATTC AGAAGTCATG GCACAGCTAA CTGAATCTAG ACAAAGTATT 
    TTGAAGCTAG AGAGTGAGTT AGAGAACAAA GACGAAATAC TTAGAGACAA ATTTTCTTTA 
    ATGAATGAAA ACCGAGAATT AAAGGTCCGT GTTGCAGCAC AGAATGAGCG ACTAGATTTA 
    TGTCAACAAG AAATTGAAAG TTCAAGGGTA GAACTAAGAA GTATGGAAAA GATTATATCC 
    CAGTTGCCAT TAAAGAGAGA ATTATTTGGC TTTAAATCGT CTCTTTCTAA ATACCAGATG 
    AGTAGCTTCT CAAACAAGGA AGACCGTTGC ATTGGCTGCT GTGAGGCAAA TAAATTGGTG 
    ATTTCGGAAT TGAGAATTAA GCTTGCAATA AAAGAGGCAG AAATTCAAAA GCTTCATGCA 
    AACCTGACTG CAAATCAGTT ATCTCAGAGT CTTATTACTT GTAATGACAG CCAAGAAAGT 
    AGCAAATTAA GTAGTTTAGA AACAGAACCT GTAAAGCTAG GTGGTCATCA AGTGGCAGAA 
    AGCGTGAAAG ATCAAAATCA ACATACTATG AACAAGCAAT ATGAAAAAGA GAGGCAAAGA 
    CTTGTTACTG GAATAGAAGA GCTACGTACT AAGCTGATAC AAATAGAAGC TGAAAATTCT 
    GATTTGAGGG TTAACATGGC TCACAGAACT AGTCAGTTTC AGCTGATTCA AGAGGAGCTG 
    CTAGAGAAAG CTTCAAACTC CAGCAAACTG GAAAGTGAAA TGACAAAGAA ATGTTCTCAA 
    CTTTTAACTC TTGAGAAACA GCTGGAAGAA AAGATAGTTG CTTATTCCTC TATTGCTGCA 
    AAAAATGCAG AACTAGAACA GGAGCTTATG GAAAAGAATG AAAAGATAAG GAGTCTAGAA 
    ACCAATGTTA ATACAGAGCA TGAGAAAATT TGTTTAGCCT TTGAAAAAGC AAAGAAAATT 
    CACTTGGAAC AGCATAAAGA AATGGAAAAG CAGATTGAAA GACTTGAAGC TCAACTAGAG 
    AAAAAGGATC AACAATTTAA AGAACAAGAA AAGACTATGT CCATGTTGCA ACAAGATATA 
    ATATGCAAAC AGCATCATCT TGAATCACTA GATAGACTCT TGACGGAAAG CAAAGGGGAA 
    ATGGAAAAGG AAAATATGAA GAAAGATGAA GCTTTAAAAG CATTACAGAA CCAAGTATCT 
    GAAGAAACAA TCAAGGTTAG GCAACTAGAT TCAGCATTAG AAATTTGTAA GGAAGAACTT 
    GTCTTGCATT TGAATCAATT GGAAGGAAAT AAGGAAAAGT TTGAAAAACA GTTAAAGAAG 
    AAATCTGAAG AGGTATATTG TTTACAGAAA GAGCTAAAAA TAAAAAATCA CAGTCTTCAA 
    GAGACTTCTG AGCAAAACAT TATTCTACAG CATACTCTTC AGCAACAGCA GCAAATGTTA 
    CAACAAGAGA CAATTAGAAA TGGAGAGCTG GAAGATACTC AAACTAAACT TGAAAAACAG 
    GTGTCAAAAC TGGAACAAGA ACTTCAAAAA CAAAGGGAAA GTTCAGCTGA AAAGTTGAGA 
    AAAATGGAGG AGAAATGTGA ATCAGCTGCA CATGAAGCAG ATTTGAAAAG GCAAAAAGTG 
    ATTGAGCTTA CTAGCACTGC CAGGCAAGTA AAGCTTGAGA TGGATCAGTA CAAAGAAGAG 
    CTGTCTAAAA TGGAAAAGGA AATAATGCAC CTCAAACGAG ATGGAGAAAA TAAAGCAATG 
    CACCTCTCTC AATTAGATAT GATCTTAGAT CAGACAAAGA CAGAGCTAGA AAAGAAAACA 
    AATGCTGTAA AGGAGTTAGA AAAGTTACAG CACAGTACTG AAACTGAACT AACAGAAGCC 
    TTGCAAAAAC GGGAAGCACT TGAGACTGAA CTACAAAATG CTCATGGAGA ATTAAAAAGT 
    ACTTTAAGAC AACTCCAGGA ATTGAGAGAT GTACTACAGA AGGCTCAGTT ATCATTAGAG 
    GAAAAATACA CTACTATAAA GGATCTCACA GCTGAACTTA GAGAATGCAA GATGGAGATT 
    GAAGACAAAA AGCAGGAGCT CCTTGAAATG GATCAGGCAC TTAAGGAGAG AAATTGGGAA 
    CTAAAGCAAA GAGCAGCTCA GGTTACACAT TTGGATATGA CTATTCGCGA ACACAGAGGA 
    GAAATGGAAC AAAAAATAAT TAAATTAGAA GGTACCCTGG AGAAATCAGA ATTGGAACTT 
    AAAGAATGTA ACAAACAGAT AGAAAGTTTG AATGACAAGT TACAAAATGC TAAAGAACAG 
    CTTCGAGAAA AAGAGTTTAT AATGCTACAA AATGAACAGG AGATAAGTCA ACTGAAAAAA 
    GAAATCGAAA GAACACAACA AAGGATGAAA GAAATGGAGA GTGTTATGAA AGAGCAGGAA 
    CAGTACATTG CCACTCAGTA CAAGGAGGCC ATAGATTTGG GGCAAGAATT GAGGCTAACC 
    CGGGAGCAGG TGCAGAACTC TCATACAGAA TTGGCGGAGG CTCGTCGTCA ACAAGTCCAA 
    GCACAGAGAG AAACAGAAAG GCTCTCTAGC GAACTGGAGG ATATAAAGCA ACTCTCTAAA 
    GAGAAAGATG CTCATGGAAA CCATTTAGCT GAAGAATTGG GGGCTTCTAA AGTACGTGAA 
    GCTCATTTAG AAGCAAGAAT GCAAGCAGAA ATCAAGAAAT TGTCAGCAGA AGTAGAATCT 
    CTCAAAGAAG CTTATCATAT GGAGATGATT TCACATCAAG AGAACCATGC AAAGTGGAAG 
    ATTTCTGCTG ACTCTCAAAA GACTTCTGTT CAGCAACTAA ATGAACAATT AGAGAAGGCA 
    AAACTGGAAT TAGAAGAAGC TCAGGATACT GTAAGCAATT TGCATCAACA AGTCCAAGAT 
    AGGAATGAAG TAATTGAAGC TGCAAATGAA GCATTACTTA CTAAAGAATC AGAATTAACC 
    AGATTACAAG CCAAAATTTC TGGACATGAA AAGGCAGAAG ACACCAAGTT TCTACCAGGC 
    CCATTTACAT CTCCAACAGA AATTATGCCT GATGTTCAAG ATCCAAAATT TGCTAAACAT 
    TTTCACACAT CTTTTTCCAA GTGTACAAAA TTACGTCGCT CTATTAGTGC CAGTGATCTT 
    ACTTTCAAAA CTCATGGTGA TGAAGATCTT TCTGAAGAAT TACTACAGGA CTTGAAGAAA 
    ATGCAATTAG AACAGCCTTC AACATCAGAA GAAAGCCGTA AGAATCTGAC TTACACCCAG 
    CCAGACTCAT TTAAACCTCT CACGTATAAC CTAGAAGATG ATAGTTCTGA GAGTAATGAC 
    TTTAGCACGC TTAGTGGGAT GCTAAGGTAC ATAAACAAAG AAGTAAGACT ATTAAAAAAG 
    TCTTCTATGC AGACAGGTGC TGGTTTAACT CAGACATCTT AA

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

    RefSeq XP_028703330.1
    CDS140..4501
    Translation

    Target ORF information:

    RefSeq Version XM_028847497.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_028847497.1

    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
    ATGGAATCTA GTTCATCAGA CTACTGTAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAGGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTCTGAA TTATTCACCT 
    TATGAAAACG TTTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GGCAAGAGAT 
    AAGATGTTTT CATCTTCTAC CCCTGTGGAT CAGGAGATTA AAAGCCTTCG AGAGAAACTA 
    AATAAACTTA GGCAACAGAA TGCTTGTTTG GTCACACAGA ATCATTCCTT AATGACCAAA 
    TTTGAATCTA TCCACTTTGA ATTAACACAG TCAAGAGCAA AAGTTTCCAT GCTTGAATTT 
    GCTCAACAGC AGGCAGCCAG TGTCCCAATC TTAGAAGAAC AGATTATAAA TTTGGAAGCA 
    GAGGTTTCAG CTCAAGATAA AGTTTTGAGA GAGGCAGAAA ATAAGCTGGA ACAGAGCCAG 
    AAAATGGTAA TTGAAAAGGA ACAGAGTTTG CAGGAGTCCA AAGAGGAATG TATAAAATTA 
    AAGGTGGACT TACTTGAACA AACCAAACAA GGAAAAAGAG CTGAACGACA AAGGAATGAA 
    GCACTGTACA ATGCTGAAGA GCTGAGTAAC GCTTTCCAAC AATATAAAAA GAAAGTGGCT 
    GAAAAACTGG AAAAGGTTCA AGCTGAAGAA GAAATATTAG AGAGAAATCT AATTAACTGT 
    GAAAAAGAAA ATAAAAGGCT ACAAGAAAAG TGTGGTCTAT GTAAAAGTGA ACTTGAAATT 
    CTGAAAGAGA AATTAAGGCA GTTAAAAGAA GAAAATAACA ATGGAAAAGA AAAACTAAGG 
    ATCATGGCAG TGAAAAATTC AGAAGTCATG GCACAGCTAA CTGAATCTAG ACAAAGTATT 
    TTGAAGCTAG AGAGTGAGTT AGAGAACAAA GACGAAATAC TTAGAGACAA ATTTTCTTTA 
    ATGAATGAAA ACCGAGAATT AAAGGTCCGT GTTGCAGCAC AGAATGAGCG ACTAGATTTA 
    TGTCAACAAG AAATTGAAAG TTCAAGGGTA GAACTAAGAA GTATGGAAAA GATTATATCC 
    CAGTTGCCAT TAAAGAGAGA ATTATTTGGC TTTAAATCGT CTCTTTCTAA ATACCAGATG 
    AGTAGCTTCT CAAACAAGGA AGACCGTTGC ATTGGCTGCT GTGAGGCAAA TAAATTGGTG 
    ATTTCGGAAT TGAGAATTAA GCTTGCAATA AAAGAGGCAG AAATTCAAAA GCTTCATGCA 
    AACCTGACTG CAAATCAGTT ATCTCAGAGT CTTATTACTT GTAATGACAG CCAAGAAAGT 
    AGCAAATTAA GTAGTTTAGA AACAGAACCT GTAAAGCTAG GTGGTCATCA AGTGGCAGAA 
    AGCGTGAAAG ATCAAAATCA ACATACTATG AACAAGCAAT ATGAAAAAGA GAGGCAAAGA 
    CTTGTTACTG GAATAGAAGA GCTACGTACT AAGCTGATAC AAATAGAAGC TGAAAATTCT 
    GATTTGAGGG TTAACATGGC TCACAGAACT AGTCAGTTTC AGCTGATTCA AGAGGAGCTG 
    CTAGAGAAAG CTTCAAACTC CAGCAAACTG GAAAGTGAAA TGACAAAGAA ATGTTCTCAA 
    CTTTTAACTC TTGAGAAACA GCTGGAAGAA AAGATAGTTG CTTATTCCTC TATTGCTGCA 
    AAAAATGCAG AACTAGAACA GGAGCTTATG GAAAAGAATG AAAAGATAAG GAGTCTAGAA 
    ACCAATGTTA ATACAGAGCA TGAGAAAATT TGTTTAGCCT TTGAAAAAGC AAAGAAAATT 
    CACTTGGAAC AGCATAAAGA AATGGAAAAG CAGATTGAAA GACTTGAAGC TCAACTAGAG 
    AAAAAGGATC AACAATTTAA AGAACAAGAA AAGACTATGT CCATGTTGCA ACAAGATATA 
    ATATGCAAAC AGCATCATCT TGAATCACTA GATAGACTCT TGACGGAAAG CAAAGGGGAA 
    ATGGAAAAGG AAAATATGAA GAAAGATGAA GCTTTAAAAG CATTACAGAA CCAAGTATCT 
    GAAGAAACAA TCAAGGTTAG GCAACTAGAT TCAGCATTAG AAATTTGTAA GGAAGAACTT 
    GTCTTGCATT TGAATCAATT GGAAGGAAAT AAGGAAAAGT TTGAAAAACA GTTAAAGAAG 
    AAATCTGAAG AGGTATATTG TTTACAGAAA GAGCTAAAAA TAAAAAATCA CAGTCTTCAA 
    GAGACTTCTG AGCAAAACAT TATTCTACAG CATACTCTTC AGCAACAGCA GCAAATGTTA 
    CAACAAGAGA CAATTAGAAA TGGAGAGCTG GAAGATACTC AAACTAAACT TGAAAAACAG 
    GTGTCAAAAC TGGAACAAGA ACTTCAAAAA CAAAGGGAAA GTTCAGCTGA AAAGTTGAGA 
    AAAATGGAGG AGAAATGTGA ATCAGCTGCA CATGAAGCAG ATTTGAAAAG GCAAAAAGTG 
    ATTGAGCTTA CTAGCACTGC CAGGCAAGTA AAGCTTGAGA TGGATCAGTA CAAAGAAGAG 
    CTGTCTAAAA TGGAAAAGGA AATAATGCAC CTCAAACGAG ATGGAGAAAA TAAAGCAATG 
    CACCTCTCTC AATTAGATAT GATCTTAGAT CAGACAAAGA CAGAGCTAGA AAAGAAAACA 
    AATGCTGTAA AGGAGTTAGA AAAGTTACAG CACAGTACTG AAACTGAACT AACAGAAGCC 
    TTGCAAAAAC GGGAAGCACT TGAGACTGAA CTACAAAATG CTCATGGAGA ATTAAAAAGT 
    ACTTTAAGAC AACTCCAGGA ATTGAGAGAT GTACTACAGA AGGCTCAGTT ATCATTAGAG 
    GAAAAATACA CTACTATAAA GGATCTCACA GCTGAACTTA GAGAATGCAA GATGGAGATT 
    GAAGACAAAA AGCAGGAGCT CCTTGAAATG GATCAGGCAC TTAAGGAGAG AAATTGGGAA 
    CTAAAGCAAA GAGCAGCTCA GGTTACACAT TTGGATATGA CTATTCGCGA ACACAGAGGA 
    GAAATGGAAC AAAAAATAAT TAAATTAGAA GGTACCCTGG AGAAATCAGA ATTGGAACTT 
    AAAGAATGTA ACAAACAGAT AGAAAGTTTG AATGACAAGT TACAAAATGC TAAAGAACAG 
    CTTCGAGAAA AAGAGTTTAT AATGCTACAA AATGAACAGG AGATAAGTCA ACTGAAAAAA 
    GAAATCGAAA GAACACAACA AAGGATGAAA GAAATGGAGA GTGTTATGAA AGAGCAGGAA 
    CAGTACATTG CCACTCAGTA CAAGGAGGCC ATAGATTTGG GGCAAGAATT GAGGCTAACC 
    CGGGAGCAGG TGCAGAACTC TCATACAGAA TTGGCGGAGG CTCGTCGTCA ACAAGTCCAA 
    GCACAGAGAG AAACAGAAAG GCTCTCTAGC GAACTGGAGG ATATAAAGCA ACTCTCTAAA 
    GAGAAAGATG CTCATGGAAA CCATTTAGCT GAAGAATTGG GGGCTTCTAA AGTACGTGAA 
    GCTCATTTAG AAGCAAGAAT GCAAGCAGAA ATCAAGAAAT TGTCAGCAGA AGTAGAATCT 
    CTCAAAGAAG CTTATCATAT GGAGATGATT TCACATCAAG AGAACCATGC AAAGTGGAAG 
    ATTTCTGCTG ACTCTCAAAA GACTTCTGTT CAGCAACTAA ATGAACAATT AGAGAAGGCA 
    AAACTGGAAT TAGAAGAAGC TCAGGATACT GTAAGCAATT TGCATCAACA AGTCCAAGAT 
    AGGAATGAAG TAATTGAAGC TGCAAATGAA GCATTACTTA CTAAAGAATC AGAATTAACC 
    AGATTACAAG CCAAAATTTC TGGACATGAA AAGGCAGAAG ACACCAAGTT TCTACCAGGC 
    CCATTTACAT CTCCAACAGA AATTATGCCT GATGTTCAAG ATCCAAAATT TGCTAAACAT 
    TTTCACACAT CTTTTTCCAA GTGTACAAAA TTACGTCGCT CTATTAGTGC CAGTGATCTT 
    ACTTTCAAAA CTCATGGTGA TGAAGATCTT TCTGAAGAAT TACTACAGGA CTTGAAGAAA 
    ATGCAATTAG AACAGCCTTC AACATCAGAA GAAAGCCGTA AGAATCTGAC TTACACCCAG 
    CCAGACTCAT TTAAACCTCT CACGTATAAC CTAGAAGATG ATAGTTCTGA GAGTAATGAC 
    TTTAGCACGC TTAGTGGGAT GCTAAGGTAC ATAAACAAAG AAGTAAGACT ATTAAAAAAG 
    TCTTCTATGC AGACAGGTGC TGGTTTAACT CAGACATCTT AA

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

    CCDC18 ( XM_015145013.2 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_015000499.2 Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OMb58682
    Clone ID Related Accession (Same CDS sequence) XM_015145013.2
    Accession Version XM_015145013.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4356bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    Product coiled-coil domain-containing protein 18 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041754.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_015145013.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGAATCTA GTTCATCAGA CTACTGTAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAGGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTCTGAA TTATTCACCT 
    TATGAAAACG TTTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GATGTTTTCA 
    TCTTCTACCC CTGTGGATCA GGAGATTAAA AGCCTTCGAG AGAAACTAAA TAAACTTAGG 
    CAACAGAATG CTTGTTTGGT CACACAGAAT CATTCCTTAA TGACCAAATT TGAATCTATC 
    CACTTTGAAT TAACACAGTC AAGAGCAAAA GTTTCCATGC TTGAATTTGC TCAACAGCAG 
    GCAGCCAGTG TCCCAATCTT AGAAGAACAG ATTATAAATT TGGAAGCAGA GGTTTCAGCT 
    CAAGATAAAG TTTTGAGAGA GGCAGAAAAT AAGCTGGAAC AGAGCCAGAA AATGGTAATT 
    GAAAAGGAAC AGAGTTTGCA GGAGTCCAAA GAGGAATGTA TAAAATTAAA GGTGGACTTA 
    CTTGAACAAA CCAAACAAGG AAAAAGAGCT GAACGACAAA GGAATGAAGC ACTGTACAAT 
    GCTGAAGAGC TGAGTAACGC TTTCCAACAA TATAAAAAGA AAGTGGCTGA AAAACTGGAA 
    AAGGTTCAAG CTGAAGAAGA AATATTAGAG AGAAATCTAA TTAACTGTGA AAAAGAAAAT 
    AAAAGGCTAC AAGAAAAGTG TGGTCTATGT AAAAGTGAAC TTGAAATTCT GAAAGAGAAA 
    TTAAGGCAGT TAAAAGAAGA AAATAACAAT GGAAAAGAAA AACTAAGGAT CATGGCAGTG 
    AAAAATTCAG AAGTCATGGC ACAGCTAACT GAATCTAGAC AAAGTATTTT GAAGCTAGAG 
    AGTGAGTTAG AGAACAAAGA CGAAATACTT AGAGACAAAT TTTCTTTAAT GAATGAAAAC 
    CGAGAATTAA AGGTCCGTGT TGCAGCACAG AATGAGCGAC TAGATTTATG TCAACAAGAA 
    ATTGAAAGTT CAAGGGTAGA ACTAAGAAGT ATGGAAAAGA TTATATCCCA GTTGCCATTA 
    AAGAGAGAAT TATTTGGCTT TAAATCGTCT CTTTCTAAAT ACCAGATGAG TAGCTTCTCA 
    AACAAGGAAG ACCGTTGCAT TGGCTGCTGT GAGGCAAATA AATTGGTGAT TTCGGAATTG 
    AGAATTAAGC TTGCAATAAA AGAGGCAGAA ATTCAAAAGC TTCATGCAAA CCTGACTGCA 
    AATCAGTTAT CTCAGAGTCT TATTACTTGT AATGACAGCC AAGAAAGTAG CAAATTAAGT 
    AGTTTAGAAA CAGAACCTGT AAAGCTAGGT GGTCATCAAG TGGCAGAAAG CGTGAAAGAT 
    CAAAATCAAC ATACTATGAA CAAGCAATAT GAAAAAGAGA GGCAAAGACT TGTTACTGGA 
    ATAGAAGAGC TACGTACTAA GCTGATACAA ATAGAAGCTG AAAATTCTGA TTTGAGGGTT 
    AACATGGCTC ACAGAACTAG TCAGTTTCAG CTGATTCAAG AGGAGCTGCT AGAGAAAGCT 
    TCAAACTCCA GCAAACTGGA AAGTGAAATG ACAAAGAAAT GTTCTCAACT TTTAACTCTT 
    GAGAAACAGC TGGAAGAAAA GATAGTTGCT TATTCCTCTA TTGCTGCAAA AAATGCAGAA 
    CTAGAACAGG AGCTTATGGA AAAGAATGAA AAGATAAGGA GTCTAGAAAC CAATGTTAAT 
    ACAGAGCATG AGAAAATTTG TTTAGCCTTT GAAAAAGCAA AGAAAATTCA CTTGGAACAG 
    CATAAAGAAA TGGAAAAGCA GATTGAAAGA CTTGAAGCTC AACTAGAGAA AAAGGATCAA 
    CAATTTAAAG AACAAGAAAA GACTATGTCC ATGTTGCAAC AAGATATAAT ATGCAAACAG 
    CATCATCTTG AATCACTAGA TAGACTCTTG ACGGAAAGCA AAGGGGAAAT GGAAAAGGAA 
    AATATGAAGA AAGATGAAGC TTTAAAAGCA TTACAGAACC AAGTATCTGA AGAAACAATC 
    AAGGTTAGGC AACTAGATTC AGCATTAGAA ATTTGTAAGG AAGAACTTGT CTTGCATTTG 
    AATCAATTGG AAGGAAATAA GGAAAAGTTT GAAAAACAGT TAAAGAAGAA ATCTGAAGAG 
    GTATATTGTT TACAGAAAGA GCTAAAAATA AAAAATCACA GTCTTCAAGA GACTTCTGAG 
    CAAAACATTA TTCTACAGCA TACTCTTCAG CAACAGCAGC AAATGTTACA ACAAGAGACA 
    ATTAGAAATG GAGAGCTGGA AGATACTCAA ACTAAACTTG AAAAACAGGT GTCAAAACTG 
    GAACAAGAAC TTCAAAAACA AAGGGAAAGT TCAGCTGAAA AGTTGAGAAA AATGGAGGAG 
    AAATGTGAAT CAGCTGCACA TGAAGCAGAT TTGAAAAGGC AAAAAGTGAT TGAGCTTACT 
    AGCACTGCCA GGCAAGTAAA GCTTGAGATG GATCAGTACA AAGAAGAGCT GTCTAAAATG 
    GAAAAGGAAA TAATGCACCT CAAACGAGAT GGAGAAAATA AAGCAATGCA CCTCTCTCAA 
    TTAGATATGA TCTTAGATCA GACAAAGACA GAGCTAGAAA AGAAAACAAA TGCTGTAAAG 
    GAGTTAGAAA AGTTACAGCA CAGTACTGAA ACTGAACTAA CAGAAGCCTT GCAAAAACGG 
    GAAGCACTTG AGACTGAACT ACAAAATGCT CATGGAGAAT TAAAAAGTAC TTTAAGACAA 
    CTCCAGGAAT TGAGAGATGT ACTACAGAAG GCTCAGTTAT CATTAGAGGA AAAATACACT 
    ACTATAAAGG ATCTCACAGC TGAACTTAGA GAATGCAAGA TGGAGATTGA AGACAAAAAG 
    CAGGAGCTCC TTGAAATGGA TCAGGCACTT AAGGAGAGAA ATTGGGAACT AAAGCAAAGA 
    GCAGCTCAGG TTACACATTT GGATATGACT ATTCGCGAAC ACAGAGGAGA AATGGAACAA 
    AAAATAATTA AATTAGAAGG TACCCTGGAG AAATCAGAAT TGGAACTTAA AGAATGTAAC 
    AAACAGATAG AAAGTTTGAA TGACAAGTTA CAAAATGCTA AAGAACAGCT TCGAGAAAAA 
    GAGTTTATAA TGCTACAAAA TGAACAGGAG ATAAGTCAAC TGAAAAAAGA AATCGAAAGA 
    ACACAACAAA GGATGAAAGA AATGGAGAGT GTTATGAAAG AGCAGGAACA GTACATTGCC 
    ACTCAGTACA AGGAGGCCAT AGATTTGGGG CAAGAATTGA GGCTAACCCG GGAGCAGGTG 
    CAGAACTCTC ATACAGAATT GGCGGAGGCT CGTCGTCAAC AAGTCCAAGC ACAGAGAGAA 
    ACAGAAAGGC TCTCTAGCGA ACTGGAGGAT ATAAAGCAAC TCTCTAAAGA GAAAGATGCT 
    CATGGAAACC ATTTAGCTGA AGAATTGGGG GCTTCTAAAG TACGTGAAGC TCATTTAGAA 
    GCAAGAATGC AAGCAGAAAT CAAGAAATTG TCAGCAGAAG TAGAATCTCT CAAAGAAGCT 
    TATCATATGG AGATGATTTC ACATCAAGAG AACCATGCAA AGTGGAAGAT TTCTGCTGAC 
    TCTCAAAAGA CTTCTGTTCA GCAACTAAAT GAACAATTAG AGAAGGCAAA ACTGGAATTA 
    GAAGAAGCTC AGGATACTGT AAGCAATTTG CATCAACAAG TCCAAGATAG GAATGAAGTA 
    ATTGAAGCTG CAAATGAAGC ATTACTTACT AAAGAATCAG AATTAACCAG ATTACAAGCC 
    AAAATTTCTG GACATGAAAA GGCAGAAGAC ACCAAGTTTC TACCAGGCCC ATTTACATCT 
    CCAACAGAAA TTATGCCTGA TGTTCAAGAT CCAAAATTTG CTAAACATTT TCACACATCT 
    TTTTCCAAGT GTACAAAATT ACGTCGCTCT ATTAGTGCCA GTGATCTTAC TTTCAAAACT 
    CATGGTGATG AAGATCTTTC TGAAGAATTA CTACAGGACT TGAAGAAAAT GCAATTAGAA 
    CAGCCTTCAA CATCAGAAGA AAGCCGTAAG AATCTGACTT ACACCCAGCC AGACTCATTT 
    AAACCTCTCA CGTATAACCT AGAAGATGAT AGTTCTGAGA GTAATGACTT TAGCACGCTT 
    AGTGGGATGC TAAGGTACAT AAACAAAGAA GTAAGACTAT TAAAAAAGTC TTCTATGCAG 
    ACAGGTGCTG GTTTAACTCA GGGAGAAAAT GTGTAA

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

    RefSeq XP_015000499.2
    CDS98..4453
    Translation

    Target ORF information:

    RefSeq Version XM_015145013.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_015145013.2

    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
    ATGGAATCTA GTTCATCAGA CTACTGTAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAGGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTCTGAA TTATTCACCT 
    TATGAAAACG TTTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GATGTTTTCA 
    TCTTCTACCC CTGTGGATCA GGAGATTAAA AGCCTTCGAG AGAAACTAAA TAAACTTAGG 
    CAACAGAATG CTTGTTTGGT CACACAGAAT CATTCCTTAA TGACCAAATT TGAATCTATC 
    CACTTTGAAT TAACACAGTC AAGAGCAAAA GTTTCCATGC TTGAATTTGC TCAACAGCAG 
    GCAGCCAGTG TCCCAATCTT AGAAGAACAG ATTATAAATT TGGAAGCAGA GGTTTCAGCT 
    CAAGATAAAG TTTTGAGAGA GGCAGAAAAT AAGCTGGAAC AGAGCCAGAA AATGGTAATT 
    GAAAAGGAAC AGAGTTTGCA GGAGTCCAAA GAGGAATGTA TAAAATTAAA GGTGGACTTA 
    CTTGAACAAA CCAAACAAGG AAAAAGAGCT GAACGACAAA GGAATGAAGC ACTGTACAAT 
    GCTGAAGAGC TGAGTAACGC TTTCCAACAA TATAAAAAGA AAGTGGCTGA AAAACTGGAA 
    AAGGTTCAAG CTGAAGAAGA AATATTAGAG AGAAATCTAA TTAACTGTGA AAAAGAAAAT 
    AAAAGGCTAC AAGAAAAGTG TGGTCTATGT AAAAGTGAAC TTGAAATTCT GAAAGAGAAA 
    TTAAGGCAGT TAAAAGAAGA AAATAACAAT GGAAAAGAAA AACTAAGGAT CATGGCAGTG 
    AAAAATTCAG AAGTCATGGC ACAGCTAACT GAATCTAGAC AAAGTATTTT GAAGCTAGAG 
    AGTGAGTTAG AGAACAAAGA CGAAATACTT AGAGACAAAT TTTCTTTAAT GAATGAAAAC 
    CGAGAATTAA AGGTCCGTGT TGCAGCACAG AATGAGCGAC TAGATTTATG TCAACAAGAA 
    ATTGAAAGTT CAAGGGTAGA ACTAAGAAGT ATGGAAAAGA TTATATCCCA GTTGCCATTA 
    AAGAGAGAAT TATTTGGCTT TAAATCGTCT CTTTCTAAAT ACCAGATGAG TAGCTTCTCA 
    AACAAGGAAG ACCGTTGCAT TGGCTGCTGT GAGGCAAATA AATTGGTGAT TTCGGAATTG 
    AGAATTAAGC TTGCAATAAA AGAGGCAGAA ATTCAAAAGC TTCATGCAAA CCTGACTGCA 
    AATCAGTTAT CTCAGAGTCT TATTACTTGT AATGACAGCC AAGAAAGTAG CAAATTAAGT 
    AGTTTAGAAA CAGAACCTGT AAAGCTAGGT GGTCATCAAG TGGCAGAAAG CGTGAAAGAT 
    CAAAATCAAC ATACTATGAA CAAGCAATAT GAAAAAGAGA GGCAAAGACT TGTTACTGGA 
    ATAGAAGAGC TACGTACTAA GCTGATACAA ATAGAAGCTG AAAATTCTGA TTTGAGGGTT 
    AACATGGCTC ACAGAACTAG TCAGTTTCAG CTGATTCAAG AGGAGCTGCT AGAGAAAGCT 
    TCAAACTCCA GCAAACTGGA AAGTGAAATG ACAAAGAAAT GTTCTCAACT TTTAACTCTT 
    GAGAAACAGC TGGAAGAAAA GATAGTTGCT TATTCCTCTA TTGCTGCAAA AAATGCAGAA 
    CTAGAACAGG AGCTTATGGA AAAGAATGAA AAGATAAGGA GTCTAGAAAC CAATGTTAAT 
    ACAGAGCATG AGAAAATTTG TTTAGCCTTT GAAAAAGCAA AGAAAATTCA CTTGGAACAG 
    CATAAAGAAA TGGAAAAGCA GATTGAAAGA CTTGAAGCTC AACTAGAGAA AAAGGATCAA 
    CAATTTAAAG AACAAGAAAA GACTATGTCC ATGTTGCAAC AAGATATAAT ATGCAAACAG 
    CATCATCTTG AATCACTAGA TAGACTCTTG ACGGAAAGCA AAGGGGAAAT GGAAAAGGAA 
    AATATGAAGA AAGATGAAGC TTTAAAAGCA TTACAGAACC AAGTATCTGA AGAAACAATC 
    AAGGTTAGGC AACTAGATTC AGCATTAGAA ATTTGTAAGG AAGAACTTGT CTTGCATTTG 
    AATCAATTGG AAGGAAATAA GGAAAAGTTT GAAAAACAGT TAAAGAAGAA ATCTGAAGAG 
    GTATATTGTT TACAGAAAGA GCTAAAAATA AAAAATCACA GTCTTCAAGA GACTTCTGAG 
    CAAAACATTA TTCTACAGCA TACTCTTCAG CAACAGCAGC AAATGTTACA ACAAGAGACA 
    ATTAGAAATG GAGAGCTGGA AGATACTCAA ACTAAACTTG AAAAACAGGT GTCAAAACTG 
    GAACAAGAAC TTCAAAAACA AAGGGAAAGT TCAGCTGAAA AGTTGAGAAA AATGGAGGAG 
    AAATGTGAAT CAGCTGCACA TGAAGCAGAT TTGAAAAGGC AAAAAGTGAT TGAGCTTACT 
    AGCACTGCCA GGCAAGTAAA GCTTGAGATG GATCAGTACA AAGAAGAGCT GTCTAAAATG 
    GAAAAGGAAA TAATGCACCT CAAACGAGAT GGAGAAAATA AAGCAATGCA CCTCTCTCAA 
    TTAGATATGA TCTTAGATCA GACAAAGACA GAGCTAGAAA AGAAAACAAA TGCTGTAAAG 
    GAGTTAGAAA AGTTACAGCA CAGTACTGAA ACTGAACTAA CAGAAGCCTT GCAAAAACGG 
    GAAGCACTTG AGACTGAACT ACAAAATGCT CATGGAGAAT TAAAAAGTAC TTTAAGACAA 
    CTCCAGGAAT TGAGAGATGT ACTACAGAAG GCTCAGTTAT CATTAGAGGA AAAATACACT 
    ACTATAAAGG ATCTCACAGC TGAACTTAGA GAATGCAAGA TGGAGATTGA AGACAAAAAG 
    CAGGAGCTCC TTGAAATGGA TCAGGCACTT AAGGAGAGAA ATTGGGAACT AAAGCAAAGA 
    GCAGCTCAGG TTACACATTT GGATATGACT ATTCGCGAAC ACAGAGGAGA AATGGAACAA 
    AAAATAATTA AATTAGAAGG TACCCTGGAG AAATCAGAAT TGGAACTTAA AGAATGTAAC 
    AAACAGATAG AAAGTTTGAA TGACAAGTTA CAAAATGCTA AAGAACAGCT TCGAGAAAAA 
    GAGTTTATAA TGCTACAAAA TGAACAGGAG ATAAGTCAAC TGAAAAAAGA AATCGAAAGA 
    ACACAACAAA GGATGAAAGA AATGGAGAGT GTTATGAAAG AGCAGGAACA GTACATTGCC 
    ACTCAGTACA AGGAGGCCAT AGATTTGGGG CAAGAATTGA GGCTAACCCG GGAGCAGGTG 
    CAGAACTCTC ATACAGAATT GGCGGAGGCT CGTCGTCAAC AAGTCCAAGC ACAGAGAGAA 
    ACAGAAAGGC TCTCTAGCGA ACTGGAGGAT ATAAAGCAAC TCTCTAAAGA GAAAGATGCT 
    CATGGAAACC ATTTAGCTGA AGAATTGGGG GCTTCTAAAG TACGTGAAGC TCATTTAGAA 
    GCAAGAATGC AAGCAGAAAT CAAGAAATTG TCAGCAGAAG TAGAATCTCT CAAAGAAGCT 
    TATCATATGG AGATGATTTC ACATCAAGAG AACCATGCAA AGTGGAAGAT TTCTGCTGAC 
    TCTCAAAAGA CTTCTGTTCA GCAACTAAAT GAACAATTAG AGAAGGCAAA ACTGGAATTA 
    GAAGAAGCTC AGGATACTGT AAGCAATTTG CATCAACAAG TCCAAGATAG GAATGAAGTA 
    ATTGAAGCTG CAAATGAAGC ATTACTTACT AAAGAATCAG AATTAACCAG ATTACAAGCC 
    AAAATTTCTG GACATGAAAA GGCAGAAGAC ACCAAGTTTC TACCAGGCCC ATTTACATCT 
    CCAACAGAAA TTATGCCTGA TGTTCAAGAT CCAAAATTTG CTAAACATTT TCACACATCT 
    TTTTCCAAGT GTACAAAATT ACGTCGCTCT ATTAGTGCCA GTGATCTTAC TTTCAAAACT 
    CATGGTGATG AAGATCTTTC TGAAGAATTA CTACAGGACT TGAAGAAAAT GCAATTAGAA 
    CAGCCTTCAA CATCAGAAGA AAGCCGTAAG AATCTGACTT ACACCCAGCC AGACTCATTT 
    AAACCTCTCA CGTATAACCT AGAAGATGAT AGTTCTGAGA GTAATGACTT TAGCACGCTT 
    AGTGGGATGC TAAGGTACAT AAACAAAGAA GTAAGACTAT TAAAAAAGTC TTCTATGCAG 
    ACAGGTGCTG GTTTAACTCA GGGAGAAAAT GTGTAA

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

    CCDC18 ( XM_015145021.2 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_015000507.2 Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OMb58683
    Clone ID Related Accession (Same CDS sequence) XM_015145021.2
    Accession Version XM_015145021.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4290bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    Product coiled-coil domain-containing protein 18 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041754.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_015145021.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGAATCTA GTTCATCAGA CTACTGTAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAGGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTCTGAA TTATTCACCT 
    TATGAAAACG TTTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GGCAAGAGAT 
    AAGATGTTTT CATCTTCTAC CCCTGTGGAT CAGGAGATTA AAAGCCTTCG AGAGAAACTA 
    AATAAACTTA GGCAACAGAA TGCTTGTTTG GTCACACAGA ATCATTCCTT AATGACCAAA 
    TTTGAATCTA TCCACTTTGA ATTAACACAG TCAAGAGCAA AAGTTTCCAT GCTTGAATTT 
    GCTCAACAGC AGGCAGCCAG TGTCCCAATC TTAGAAGAAC AGATTATAAA TTTGGAAGCA 
    GAGGTTTCAG CTCAAGATAA AGTTTTGAGA GAGGCAGAAA ATAAGCTGGA ACAGAGCCAG 
    AAAATGGTAA TTGAAAAGGA ACAGAGTTTG CAGGAGTCCA AAGAGGAATG TATAAAATTA 
    AAGGTGGACT TACTTGAACA AACCAAACAA GGAAAAAGAG CTGAACGACA AAGGAATGAA 
    GCACTGTACA ATGCTGAAGA GCTGAGTAAC GCTTTCCAAC AATATAAAAA GAAAGTGGCT 
    GAAAAACTGG AAAAGGTTCA AGCTGAAGAA GAAATATTAG AGAGAAATCT AATTAACTGT 
    GAAAAAGAAA ATAAAAGGCT ACAAGAAAAG TGTGGTCTAT GTAAAAGTGA ACTTGAAATT 
    CTGAAAGAGA AATTAAGGCA GTTAAAAGAA GAAAATAACA ATGGAAAAGA AAAACTAAGG 
    ATCATGGCAG TGAAAAATTC AGAAGTCATG GCACAGCTAA CTGAATCTAG ACAAAGTATT 
    TTGAAGCTAG AGAGTGAGTT AGAGAACAAA GACGAAATAC TTAGAGACAA ATTTTCTTTA 
    ATGAATGAAA ACCGAGAATT AAAGGTCCGT GTTGCAGCAC AGAATGAGCG ACTAGATTTA 
    TGTCAACAAG AAATTGAAAG TTCAAGGGTA GAACTAAGAA GTATGGAAAA GATTATATCC 
    CAGTTGCCAT TAAAGAGAGA ATTATTTGGC TTTAAATCGT CTCTTTCTAA ATACCAGATG 
    AGTAGCTTCT CAAACAAGGA AGACCGTTGC ATTGGCTGCT GTGAGGCAAA TAAATTGGTG 
    ATTTCGGAAT TGAGAATTAA GCTTGCAATA AAAGAGGCAG AAATTCAAAA GCTTCATGCA 
    AACCTGACTG CAAATCAGTT ATCTCAGAGT CTTATTACTT GTAATGACAG CCAAGAAAGT 
    AGCAAATTAA GTAGTTTAGA AACAGAACCT GTAAAGCTAG GTGGTCATCA AGTGGCAGAA 
    AGCGTGAAAG ATCAAAATCA ACATACTATG AACAAGCAAT ATGAAAAAGA GAGGCAAAGA 
    CTTGTTACTG GAATAGAAGA GCTACGTACT AAGCTGATAC AAATAGAAGC TGAAAATTCT 
    GATTTGAGGG TTAACATGGC TCACAGAACT AGTCAGTTTC AGCTGATTCA AGAGGAGCTG 
    CTAGAGAAAG CTTCAAACTC CAGCAAACTG GAAAGTGAAA TGACAAAGAA ATGTTCTCAA 
    CTTTTAACTC TTGAGAAACA GCTGGAAGAA AAGATAGTTG CTTATTCCTC TATTGCTGCA 
    AAAAATGCAG AACTAGAACA GGAGCTTATG GAAAAGAATG AAAAGATAAG GAGTCTAGAA 
    ACCAATGTTA ATACAGAGCA TGAGAAAATT TGTTTAGCCT TTGAAAAAGC AAAGAAAATT 
    CACTTGGAAC AGCATAAAGA AATGGAAAAG CAGATTGAAA GACTTGAAGC TCAACTAGAG 
    AAAAAGGATC AACAATTTAA AGAACAAGAA AAGACTATGT CCATGTTGCA ACAAGATATA 
    ATATGCAAAC AGCATCATCT TGAATCACTA GATAGACTCT TGACGGAAAG CAAAGGGGAA 
    ATGGAAAAGG AAAATATGAA GAAAGATGAA GCTTTAAAAG CATTACAGAA CCAAGTATCT 
    GAAGAAACAA TCAAGGTTAG GCAACTAGAT TCAGCATTAG AAATTTGTAA GGAAGAACTT 
    GTCTTGCATT TGAATCAATT GGAAGGAAAT AAGGAAAAGT TTGAAAAACA GTTAAAGAAG 
    AAATCTGAAG AGCATACTCT TCAGCAACAG CAGCAAATGT TACAACAAGA GACAATTAGA 
    AATGGAGAGC TGGAAGATAC TCAAACTAAA CTTGAAAAAC AGGTGTCAAA ACTGGAACAA 
    GAACTTCAAA AACAAAGGGA AAGTTCAGCT GAAAAGTTGA GAAAAATGGA GGAGAAATGT 
    GAATCAGCTG CACATGAAGC AGATTTGAAA AGGCAAAAAG TGATTGAGCT TACTAGCACT 
    GCCAGGCAAG TAAAGCTTGA GATGGATCAG TACAAAGAAG AGCTGTCTAA AATGGAAAAG 
    GAAATAATGC ACCTCAAACG AGATGGAGAA AATAAAGCAA TGCACCTCTC TCAATTAGAT 
    ATGATCTTAG ATCAGACAAA GACAGAGCTA GAAAAGAAAA CAAATGCTGT AAAGGAGTTA 
    GAAAAGTTAC AGCACAGTAC TGAAACTGAA CTAACAGAAG CCTTGCAAAA ACGGGAAGCA 
    CTTGAGACTG AACTACAAAA TGCTCATGGA GAATTAAAAA GTACTTTAAG ACAACTCCAG 
    GAATTGAGAG ATGTACTACA GAAGGCTCAG TTATCATTAG AGGAAAAATA CACTACTATA 
    AAGGATCTCA CAGCTGAACT TAGAGAATGC AAGATGGAGA TTGAAGACAA AAAGCAGGAG 
    CTCCTTGAAA TGGATCAGGC ACTTAAGGAG AGAAATTGGG AACTAAAGCA AAGAGCAGCT 
    CAGGTTACAC ATTTGGATAT GACTATTCGC GAACACAGAG GAGAAATGGA ACAAAAAATA 
    ATTAAATTAG AAGGTACCCT GGAGAAATCA GAATTGGAAC TTAAAGAATG TAACAAACAG 
    ATAGAAAGTT TGAATGACAA GTTACAAAAT GCTAAAGAAC AGCTTCGAGA AAAAGAGTTT 
    ATAATGCTAC AAAATGAACA GGAGATAAGT CAACTGAAAA AAGAAATCGA AAGAACACAA 
    CAAAGGATGA AAGAAATGGA GAGTGTTATG AAAGAGCAGG AACAGTACAT TGCCACTCAG 
    TACAAGGAGG CCATAGATTT GGGGCAAGAA TTGAGGCTAA CCCGGGAGCA GGTGCAGAAC 
    TCTCATACAG AATTGGCGGA GGCTCGTCGT CAACAAGTCC AAGCACAGAG AGAAACAGAA 
    AGGCTCTCTA GCGAACTGGA GGATATAAAG CAACTCTCTA AAGAGAAAGA TGCTCATGGA 
    AACCATTTAG CTGAAGAATT GGGGGCTTCT AAAGTACGTG AAGCTCATTT AGAAGCAAGA 
    ATGCAAGCAG AAATCAAGAA ATTGTCAGCA GAAGTAGAAT CTCTCAAAGA AGCTTATCAT 
    ATGGAGATGA TTTCACATCA AGAGAACCAT GCAAAGTGGA AGATTTCTGC TGACTCTCAA 
    AAGACTTCTG TTCAGCAACT AAATGAACAA TTAGAGAAGG CAAAACTGGA ATTAGAAGAA 
    GCTCAGGATA CTGTAAGCAA TTTGCATCAA CAAGTCCAAG ATAGGAATGA AGTAATTGAA 
    GCTGCAAATG AAGCATTACT TACTAAAGAA TCAGAATTAA CCAGATTACA AGCCAAAATT 
    TCTGGACATG AAAAGGCAGA AGACACCAAG TTTCTACCAG GCCCATTTAC ATCTCCAACA 
    GAAATTATGC CTGATGTTCA AGATCCAAAA TTTGCTAAAC ATTTTCACAC ATCTTTTTCC 
    AAGTGTACAA AATTACGTCG CTCTATTAGT GCCAGTGATC TTACTTTCAA AACTCATGGT 
    GATGAAGATC TTTCTGAAGA ATTACTACAG GACTTGAAGA AAATGCAATT AGAACAGCCT 
    TCAACATCAG AAGAAAGCCG TAAGAATCTG ACTTACACCC AGCCAGACTC ATTTAAACCT 
    CTCACGTATA ACCTAGAAGA TGATAGTTCT GAGAGTAATG ACTTTAGCAC GCTTAGTGGG 
    ATGCTAAGGT ACATAAACAA AGAAGTAAGA CTATTAAAAA AGTCTTCTAT GCAGACAGGT 
    GCTGGTTTAA CTCAGGGAGA AAATGTGTAA

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

    RefSeq XP_015000507.2
    CDS140..4429
    Translation

    Target ORF information:

    RefSeq Version XM_015145021.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_015145021.2

    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
    ATGGAATCTA GTTCATCAGA CTACTGTAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAGGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTCTGAA TTATTCACCT 
    TATGAAAACG TTTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GGCAAGAGAT 
    AAGATGTTTT CATCTTCTAC CCCTGTGGAT CAGGAGATTA AAAGCCTTCG AGAGAAACTA 
    AATAAACTTA GGCAACAGAA TGCTTGTTTG GTCACACAGA ATCATTCCTT AATGACCAAA 
    TTTGAATCTA TCCACTTTGA ATTAACACAG TCAAGAGCAA AAGTTTCCAT GCTTGAATTT 
    GCTCAACAGC AGGCAGCCAG TGTCCCAATC TTAGAAGAAC AGATTATAAA TTTGGAAGCA 
    GAGGTTTCAG CTCAAGATAA AGTTTTGAGA GAGGCAGAAA ATAAGCTGGA ACAGAGCCAG 
    AAAATGGTAA TTGAAAAGGA ACAGAGTTTG CAGGAGTCCA AAGAGGAATG TATAAAATTA 
    AAGGTGGACT TACTTGAACA AACCAAACAA GGAAAAAGAG CTGAACGACA AAGGAATGAA 
    GCACTGTACA ATGCTGAAGA GCTGAGTAAC GCTTTCCAAC AATATAAAAA GAAAGTGGCT 
    GAAAAACTGG AAAAGGTTCA AGCTGAAGAA GAAATATTAG AGAGAAATCT AATTAACTGT 
    GAAAAAGAAA ATAAAAGGCT ACAAGAAAAG TGTGGTCTAT GTAAAAGTGA ACTTGAAATT 
    CTGAAAGAGA AATTAAGGCA GTTAAAAGAA GAAAATAACA ATGGAAAAGA AAAACTAAGG 
    ATCATGGCAG TGAAAAATTC AGAAGTCATG GCACAGCTAA CTGAATCTAG ACAAAGTATT 
    TTGAAGCTAG AGAGTGAGTT AGAGAACAAA GACGAAATAC TTAGAGACAA ATTTTCTTTA 
    ATGAATGAAA ACCGAGAATT AAAGGTCCGT GTTGCAGCAC AGAATGAGCG ACTAGATTTA 
    TGTCAACAAG AAATTGAAAG TTCAAGGGTA GAACTAAGAA GTATGGAAAA GATTATATCC 
    CAGTTGCCAT TAAAGAGAGA ATTATTTGGC TTTAAATCGT CTCTTTCTAA ATACCAGATG 
    AGTAGCTTCT CAAACAAGGA AGACCGTTGC ATTGGCTGCT GTGAGGCAAA TAAATTGGTG 
    ATTTCGGAAT TGAGAATTAA GCTTGCAATA AAAGAGGCAG AAATTCAAAA GCTTCATGCA 
    AACCTGACTG CAAATCAGTT ATCTCAGAGT CTTATTACTT GTAATGACAG CCAAGAAAGT 
    AGCAAATTAA GTAGTTTAGA AACAGAACCT GTAAAGCTAG GTGGTCATCA AGTGGCAGAA 
    AGCGTGAAAG ATCAAAATCA ACATACTATG AACAAGCAAT ATGAAAAAGA GAGGCAAAGA 
    CTTGTTACTG GAATAGAAGA GCTACGTACT AAGCTGATAC AAATAGAAGC TGAAAATTCT 
    GATTTGAGGG TTAACATGGC TCACAGAACT AGTCAGTTTC AGCTGATTCA AGAGGAGCTG 
    CTAGAGAAAG CTTCAAACTC CAGCAAACTG GAAAGTGAAA TGACAAAGAA ATGTTCTCAA 
    CTTTTAACTC TTGAGAAACA GCTGGAAGAA AAGATAGTTG CTTATTCCTC TATTGCTGCA 
    AAAAATGCAG AACTAGAACA GGAGCTTATG GAAAAGAATG AAAAGATAAG GAGTCTAGAA 
    ACCAATGTTA ATACAGAGCA TGAGAAAATT TGTTTAGCCT TTGAAAAAGC AAAGAAAATT 
    CACTTGGAAC AGCATAAAGA AATGGAAAAG CAGATTGAAA GACTTGAAGC TCAACTAGAG 
    AAAAAGGATC AACAATTTAA AGAACAAGAA AAGACTATGT CCATGTTGCA ACAAGATATA 
    ATATGCAAAC AGCATCATCT TGAATCACTA GATAGACTCT TGACGGAAAG CAAAGGGGAA 
    ATGGAAAAGG AAAATATGAA GAAAGATGAA GCTTTAAAAG CATTACAGAA CCAAGTATCT 
    GAAGAAACAA TCAAGGTTAG GCAACTAGAT TCAGCATTAG AAATTTGTAA GGAAGAACTT 
    GTCTTGCATT TGAATCAATT GGAAGGAAAT AAGGAAAAGT TTGAAAAACA GTTAAAGAAG 
    AAATCTGAAG AGCATACTCT TCAGCAACAG CAGCAAATGT TACAACAAGA GACAATTAGA 
    AATGGAGAGC TGGAAGATAC TCAAACTAAA CTTGAAAAAC AGGTGTCAAA ACTGGAACAA 
    GAACTTCAAA AACAAAGGGA AAGTTCAGCT GAAAAGTTGA GAAAAATGGA GGAGAAATGT 
    GAATCAGCTG CACATGAAGC AGATTTGAAA AGGCAAAAAG TGATTGAGCT TACTAGCACT 
    GCCAGGCAAG TAAAGCTTGA GATGGATCAG TACAAAGAAG AGCTGTCTAA AATGGAAAAG 
    GAAATAATGC ACCTCAAACG AGATGGAGAA AATAAAGCAA TGCACCTCTC TCAATTAGAT 
    ATGATCTTAG ATCAGACAAA GACAGAGCTA GAAAAGAAAA CAAATGCTGT AAAGGAGTTA 
    GAAAAGTTAC AGCACAGTAC TGAAACTGAA CTAACAGAAG CCTTGCAAAA ACGGGAAGCA 
    CTTGAGACTG AACTACAAAA TGCTCATGGA GAATTAAAAA GTACTTTAAG ACAACTCCAG 
    GAATTGAGAG ATGTACTACA GAAGGCTCAG TTATCATTAG AGGAAAAATA CACTACTATA 
    AAGGATCTCA CAGCTGAACT TAGAGAATGC AAGATGGAGA TTGAAGACAA AAAGCAGGAG 
    CTCCTTGAAA TGGATCAGGC ACTTAAGGAG AGAAATTGGG AACTAAAGCA AAGAGCAGCT 
    CAGGTTACAC ATTTGGATAT GACTATTCGC GAACACAGAG GAGAAATGGA ACAAAAAATA 
    ATTAAATTAG AAGGTACCCT GGAGAAATCA GAATTGGAAC TTAAAGAATG TAACAAACAG 
    ATAGAAAGTT TGAATGACAA GTTACAAAAT GCTAAAGAAC AGCTTCGAGA AAAAGAGTTT 
    ATAATGCTAC AAAATGAACA GGAGATAAGT CAACTGAAAA AAGAAATCGA AAGAACACAA 
    CAAAGGATGA AAGAAATGGA GAGTGTTATG AAAGAGCAGG AACAGTACAT TGCCACTCAG 
    TACAAGGAGG CCATAGATTT GGGGCAAGAA TTGAGGCTAA CCCGGGAGCA GGTGCAGAAC 
    TCTCATACAG AATTGGCGGA GGCTCGTCGT CAACAAGTCC AAGCACAGAG AGAAACAGAA 
    AGGCTCTCTA GCGAACTGGA GGATATAAAG CAACTCTCTA AAGAGAAAGA TGCTCATGGA 
    AACCATTTAG CTGAAGAATT GGGGGCTTCT AAAGTACGTG AAGCTCATTT AGAAGCAAGA 
    ATGCAAGCAG AAATCAAGAA ATTGTCAGCA GAAGTAGAAT CTCTCAAAGA AGCTTATCAT 
    ATGGAGATGA TTTCACATCA AGAGAACCAT GCAAAGTGGA AGATTTCTGC TGACTCTCAA 
    AAGACTTCTG TTCAGCAACT AAATGAACAA TTAGAGAAGG CAAAACTGGA ATTAGAAGAA 
    GCTCAGGATA CTGTAAGCAA TTTGCATCAA CAAGTCCAAG ATAGGAATGA AGTAATTGAA 
    GCTGCAAATG AAGCATTACT TACTAAAGAA TCAGAATTAA CCAGATTACA AGCCAAAATT 
    TCTGGACATG AAAAGGCAGA AGACACCAAG TTTCTACCAG GCCCATTTAC ATCTCCAACA 
    GAAATTATGC CTGATGTTCA AGATCCAAAA TTTGCTAAAC ATTTTCACAC ATCTTTTTCC 
    AAGTGTACAA AATTACGTCG CTCTATTAGT GCCAGTGATC TTACTTTCAA AACTCATGGT 
    GATGAAGATC TTTCTGAAGA ATTACTACAG GACTTGAAGA AAATGCAATT AGAACAGCCT 
    TCAACATCAG AAGAAAGCCG TAAGAATCTG ACTTACACCC AGCCAGACTC ATTTAAACCT 
    CTCACGTATA ACCTAGAAGA TGATAGTTCT GAGAGTAATG ACTTTAGCAC GCTTAGTGGG 
    ATGCTAAGGT ACATAAACAA AGAAGTAAGA CTATTAAAAA AGTCTTCTAT GCAGACAGGT 
    GCTGGTTTAA CTCAGGGAGA AAATGTGTAA

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

    CCDC18 ( XM_015145003.2 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_015000489.2 Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OMb58684
    Clone ID Related Accession (Same CDS sequence) XM_015145003.2
    Accession Version XM_015145003.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4224bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    Product coiled-coil domain-containing protein 18 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041754.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_015145003.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGGAATCTA GTTCATCAGA CTACTGTAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAGGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTCTGAA TTATTCACCT 
    TATGAAAACG TTTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GGCAAGAGAT 
    AAGATGTTTT CATCTTCTAC CCCTGTGGAT CAGGAGATTA AAAGCCTTCG AGAGAAACTA 
    AATAAACTTA GGCAACAGAA TGCTTGTTTG GTCACACAGA ATCATTCCTT AATGACCAAA 
    TTTGAATCTA TCCACTTTGA ATTAACACAG TCAAGAGCAA AAGTTTCCAT GCTTGAATTT 
    GCTCAACAGC AGGCAGCCAG TGTCCCAATC TTAGAAGAAC AGATTATAAA TTTGGAAGCA 
    GAGGTTTCAG CTCAAGATAA AGTTTTGAGA GAGGCAGAAA ATAAGCTGGA ACAGAGCCAG 
    AAAATGGTAA TTGAAAAGGA ACAGAGTTTG CAGGAGTCCA AAGAGGAATG TATAAAATTA 
    AAGGTGGACT TACTTGAACA AACCAAACAA GGAAAAAGAG CTGAACGACA AAGGAATGAA 
    GCACTGTACA ATGCTGAAGA GCTGAGTAAC GCTTTCCAAC AATATAAAAA GAAAGTGGCT 
    GAAAAACTGG AAAAGGTTCA AGCTGAAGAA GAAATATTAG AGAGAAATCT AATTAACTGT 
    GAAAAAGAAA ATAAAAGGCT ACAAGAAAAG TGTGGTCTAT GTAAAAGTGA ACTTGAAATT 
    CTGAAAGAGA AATTAAGGCA GTTAAAAGAA GAAAATAACA ATGGAAAAGA AAAACTAAGG 
    ATCATGGCAG TGAAAAATTC AGAAGTCATG GCACAGCTAA CTGAATCTAG ACAAAGTATT 
    TTGAAGCTAG AGAGTGAGTT AGAGAACAAA GACGAAATAC TTAGAGACAA ATTTTCTTTA 
    ATGAATGAAA ACCGAGAATT AAAGGTCCGT GTTGCAGCAC AGAATGAGCG ACTAGATTTA 
    TGTCAACAAG AAATTGAAAG TTCAAGGGTA GAACTAAGAA GTATGGAAAA GATTATATCC 
    CAGTTGCCAT TAAAGAGAGA ATTATTTGGC TTTAAATCGT CTCTTTCTAA ATACCAGATG 
    AGTAGCTTCT CAAACAAGGA AGACCGTTGC ATTGGCTGCT GTGAGGCAAA TAAATTGGTG 
    ATTTCGGAAT TGAGAATTAA GCTTGCAATA AAAGAGGCAG AAATTCAAAA GCTTCATGCA 
    AACCTGACTG CAAATCAGTT ATCTCAGAGT CTTATTACTT GTAATGACAG CCAAGAAAGT 
    AGCAAATTAA GTAGTTTAGA AACAGAACCT GTAAAGCTAG GTGGTCATCA AGTGGCAGAA 
    AGCGTGAAAG ATCAAAATCA ACATACTATG AACAAGCAAT ATGAAAAAGA GAGGCAAAGA 
    CTTGTTACTG GAATAGAAGA GCTACGTACT AAGCTGATAC AAATAGAAGC TGAAAATTCT 
    GATTTGAGGG TTAACATGGC TCACAGAACT AGTCAGTTTC AGCTGATTCA AGAGGAGCTG 
    CTAGAGAAAG CTTCAAACTC CAGCAAACTG GAAAGTGAAA TGACAAAGAA ATGTTCTCAA 
    CTTTTAACTC TTGAGAAACA GCTGGAAGAA AAGATAGTTG CTTATTCCTC TATTGCTGCA 
    AAAAATGCAG AACTAGAACA GGAGCTTATG GAAAAGAATG AAAAGATAAG GAGTCTAGAA 
    ACCAATGTTA ATACAGAGCA TGAGAAAATT TGTTTAGCCT TTGAAAAAGC AAAGAAAATT 
    CACTTGGAAC AGCATAAAGA AATGGAAAAG CAGATTGAAA GACTTGAAGC TCAACTAGAG 
    AAAAAGGATC AACAATTTAA AGAACAAGAA AAGACTATGT CCATGTTGCA ACAAGATATA 
    ATATGCAAAC AGCATCATCT TGAATCACTA GATAGACTCT TGACGGAAAG CAAAGGGGAA 
    ATGGAAAAGG AAAATATGAA GAAAGATGAA GCTTTAAAAG CATTACAGAA CCAAGTATCT 
    GAAGAAACAA TCAAGGTTAG GCAACTAGAT TCAGCATTAG AAATTTGTAA GGAAGAACTT 
    GTCTTGCATT TGAATCAATT GGAAGGAAAT AAGGAAAAGT TTGAAAAACA GTTAAAGAAG 
    AAATCTGAAG AGGTATATTG TTTACAGAAA GAGCTAAAAA TAAAAAATCA CAGTCTTCAA 
    GAGACTTCTG AGCAAAACAT TATTCTACAG CATACTCTTC AGCAACAGCA GCAAATGTTA 
    CAACAAGAGA CAATTAGAAA TGGAGAGCTG GAAGATACTC AAACTAAACT TGAAAAACAG 
    GTGTCAAAAC TGGAACAAGA ACTTCAAAAA CAAAGGGAAA GTTCAGCTGA AAAGTTGAGA 
    AAAATGGAGG AGAAATGTGA ATCAGCTGCA CATGAAGCAG ATTTGAAAAG GCAAAAAGTG 
    ATTGAGCTTA CTAGCACTGC CAGGCAAGTA AAGCTTGAGA TGGATCAGTA CAAAGAAGAG 
    CTGTCTAAAA TGGAAAAGGA AATAATGCAC CTCAAACGAG ATGGAGAAAA TAAAGCAATG 
    CACCTCTCTC AATTAGATAT GATCTTAGAT CAGACAAAGA CAGAGCTAGA AAAGAAAACA 
    AATGCTGTAA AGGAGTTAGA AAAGTTACAG CACAGTACTG AAACTGAACT AACAGAAGCC 
    TTGCAAAAAC GGGAAGCACT TGAGACTGAA CTACAAAATG CTCATGGAGA ATTAAAAAGT 
    ACTTTAAGAC AACTCCAGGA ATTGAGAGAT GTACTACAGA AGGCTCAGTT ATCATTAGAG 
    GAAAAATACA CTACTATAAA GGATCTCACA GCTGAACTTA GAGAATGCAA GATGGAGATT 
    GAAGACAAAA AGCAGGAGCT CCTTGAAATG GATCAGGCAC TTAAGGAGAG AAATTGGGAA 
    CTAAAGCAAA GAGCAGCTCA GGTTACACAT TTGGATATGA CTATTCGCGA ACACAGAGGA 
    GAAATGGAAC AAAAAATAAT TAAATTAGAA GGTACCCTGG AGAAATCAGA ATTGGAACTT 
    AAAGAATGTA ACAAACAGGT TATGAAAGAG CAGGAACAGT ACATTGCCAC TCAGTACAAG 
    GAGGCCATAG ATTTGGGGCA AGAATTGAGG CTAACCCGGG AGCAGGTGCA GAACTCTCAT 
    ACAGAATTGG CGGAGGCTCG TCGTCAACAA GTCCAAGCAC AGAGAGAAAC AGAAAGGCTC 
    TCTAGCGAAC TGGAGGATAT AAAGCAACTC TCTAAAGAGA AAGATGCTCA TGGAAACCAT 
    TTAGCTGAAG AATTGGGGGC TTCTAAAGTA CGTGAAGCTC ATTTAGAAGC AAGAATGCAA 
    GCAGAAATCA AGAAATTGTC AGCAGAAGTA GAATCTCTCA AAGAAGCTTA TCATATGGAG 
    ATGATTTCAC ATCAAGAGAA CCATGCAAAG TGGAAGATTT CTGCTGACTC TCAAAAGACT 
    TCTGTTCAGC AACTAAATGA ACAATTAGAG AAGGCAAAAC TGGAATTAGA AGAAGCTCAG 
    GATACTGTAA GCAATTTGCA TCAACAAGTC CAAGATAGGA ATGAAGTAAT TGAAGCTGCA 
    AATGAAGCAT TACTTACTAA AGAATCAGAA TTAACCAGAT TACAAGCCAA AATTTCTGGA 
    CATGAAAAGG CAGAAGACAC CAAGTTTCTA CCAGGCCCAT TTACATCTCC AACAGAAATT 
    ATGCCTGATG TTCAAGATCC AAAATTTGCT AAACATTTTC ACACATCTTT TTCCAAGTGT 
    ACAAAATTAC GTCGCTCTAT TAGTGCCAGT GATCTTACTT TCAAAACTCA TGGTGATGAA 
    GATCTTTCTG AAGAATTACT ACAGGACTTG AAGAAAATGC AATTAGAACA GCCTTCAACA 
    TCAGAAGAAA GCCGTAAGAA TCTGACTTAC ACCCAGCCAG ACTCATTTAA ACCTCTCACG 
    TATAACCTAG AAGATGATAG TTCTGAGAGT AATGACTTTA GCACGCTTAG TGGGATGCTA 
    AGGTACATAA ACAAAGAAGT AAGACTATTA AAAAAGTCTT CTATGCAGAC AGGTGCTGGT 
    TTAACTCAGG GAGAAAATGT GTAA

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

    RefSeq XP_015000489.2
    CDS140..4363
    Translation

    Target ORF information:

    RefSeq Version XM_015145003.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_015145003.2

    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
    ATGGAATCTA GTTCATCAGA CTACTGTAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAGGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTCTGAA TTATTCACCT 
    TATGAAAACG TTTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GGCAAGAGAT 
    AAGATGTTTT CATCTTCTAC CCCTGTGGAT CAGGAGATTA AAAGCCTTCG AGAGAAACTA 
    AATAAACTTA GGCAACAGAA TGCTTGTTTG GTCACACAGA ATCATTCCTT AATGACCAAA 
    TTTGAATCTA TCCACTTTGA ATTAACACAG TCAAGAGCAA AAGTTTCCAT GCTTGAATTT 
    GCTCAACAGC AGGCAGCCAG TGTCCCAATC TTAGAAGAAC AGATTATAAA TTTGGAAGCA 
    GAGGTTTCAG CTCAAGATAA AGTTTTGAGA GAGGCAGAAA ATAAGCTGGA ACAGAGCCAG 
    AAAATGGTAA TTGAAAAGGA ACAGAGTTTG CAGGAGTCCA AAGAGGAATG TATAAAATTA 
    AAGGTGGACT TACTTGAACA AACCAAACAA GGAAAAAGAG CTGAACGACA AAGGAATGAA 
    GCACTGTACA ATGCTGAAGA GCTGAGTAAC GCTTTCCAAC AATATAAAAA GAAAGTGGCT 
    GAAAAACTGG AAAAGGTTCA AGCTGAAGAA GAAATATTAG AGAGAAATCT AATTAACTGT 
    GAAAAAGAAA ATAAAAGGCT ACAAGAAAAG TGTGGTCTAT GTAAAAGTGA ACTTGAAATT 
    CTGAAAGAGA AATTAAGGCA GTTAAAAGAA GAAAATAACA ATGGAAAAGA AAAACTAAGG 
    ATCATGGCAG TGAAAAATTC AGAAGTCATG GCACAGCTAA CTGAATCTAG ACAAAGTATT 
    TTGAAGCTAG AGAGTGAGTT AGAGAACAAA GACGAAATAC TTAGAGACAA ATTTTCTTTA 
    ATGAATGAAA ACCGAGAATT AAAGGTCCGT GTTGCAGCAC AGAATGAGCG ACTAGATTTA 
    TGTCAACAAG AAATTGAAAG TTCAAGGGTA GAACTAAGAA GTATGGAAAA GATTATATCC 
    CAGTTGCCAT TAAAGAGAGA ATTATTTGGC TTTAAATCGT CTCTTTCTAA ATACCAGATG 
    AGTAGCTTCT CAAACAAGGA AGACCGTTGC ATTGGCTGCT GTGAGGCAAA TAAATTGGTG 
    ATTTCGGAAT TGAGAATTAA GCTTGCAATA AAAGAGGCAG AAATTCAAAA GCTTCATGCA 
    AACCTGACTG CAAATCAGTT ATCTCAGAGT CTTATTACTT GTAATGACAG CCAAGAAAGT 
    AGCAAATTAA GTAGTTTAGA AACAGAACCT GTAAAGCTAG GTGGTCATCA AGTGGCAGAA 
    AGCGTGAAAG ATCAAAATCA ACATACTATG AACAAGCAAT ATGAAAAAGA GAGGCAAAGA 
    CTTGTTACTG GAATAGAAGA GCTACGTACT AAGCTGATAC AAATAGAAGC TGAAAATTCT 
    GATTTGAGGG TTAACATGGC TCACAGAACT AGTCAGTTTC AGCTGATTCA AGAGGAGCTG 
    CTAGAGAAAG CTTCAAACTC CAGCAAACTG GAAAGTGAAA TGACAAAGAA ATGTTCTCAA 
    CTTTTAACTC TTGAGAAACA GCTGGAAGAA AAGATAGTTG CTTATTCCTC TATTGCTGCA 
    AAAAATGCAG AACTAGAACA GGAGCTTATG GAAAAGAATG AAAAGATAAG GAGTCTAGAA 
    ACCAATGTTA ATACAGAGCA TGAGAAAATT TGTTTAGCCT TTGAAAAAGC AAAGAAAATT 
    CACTTGGAAC AGCATAAAGA AATGGAAAAG CAGATTGAAA GACTTGAAGC TCAACTAGAG 
    AAAAAGGATC AACAATTTAA AGAACAAGAA AAGACTATGT CCATGTTGCA ACAAGATATA 
    ATATGCAAAC AGCATCATCT TGAATCACTA GATAGACTCT TGACGGAAAG CAAAGGGGAA 
    ATGGAAAAGG AAAATATGAA GAAAGATGAA GCTTTAAAAG CATTACAGAA CCAAGTATCT 
    GAAGAAACAA TCAAGGTTAG GCAACTAGAT TCAGCATTAG AAATTTGTAA GGAAGAACTT 
    GTCTTGCATT TGAATCAATT GGAAGGAAAT AAGGAAAAGT TTGAAAAACA GTTAAAGAAG 
    AAATCTGAAG AGGTATATTG TTTACAGAAA GAGCTAAAAA TAAAAAATCA CAGTCTTCAA 
    GAGACTTCTG AGCAAAACAT TATTCTACAG CATACTCTTC AGCAACAGCA GCAAATGTTA 
    CAACAAGAGA CAATTAGAAA TGGAGAGCTG GAAGATACTC AAACTAAACT TGAAAAACAG 
    GTGTCAAAAC TGGAACAAGA ACTTCAAAAA CAAAGGGAAA GTTCAGCTGA AAAGTTGAGA 
    AAAATGGAGG AGAAATGTGA ATCAGCTGCA CATGAAGCAG ATTTGAAAAG GCAAAAAGTG 
    ATTGAGCTTA CTAGCACTGC CAGGCAAGTA AAGCTTGAGA TGGATCAGTA CAAAGAAGAG 
    CTGTCTAAAA TGGAAAAGGA AATAATGCAC CTCAAACGAG ATGGAGAAAA TAAAGCAATG 
    CACCTCTCTC AATTAGATAT GATCTTAGAT CAGACAAAGA CAGAGCTAGA AAAGAAAACA 
    AATGCTGTAA AGGAGTTAGA AAAGTTACAG CACAGTACTG AAACTGAACT AACAGAAGCC 
    TTGCAAAAAC GGGAAGCACT TGAGACTGAA CTACAAAATG CTCATGGAGA ATTAAAAAGT 
    ACTTTAAGAC AACTCCAGGA ATTGAGAGAT GTACTACAGA AGGCTCAGTT ATCATTAGAG 
    GAAAAATACA CTACTATAAA GGATCTCACA GCTGAACTTA GAGAATGCAA GATGGAGATT 
    GAAGACAAAA AGCAGGAGCT CCTTGAAATG GATCAGGCAC TTAAGGAGAG AAATTGGGAA 
    CTAAAGCAAA GAGCAGCTCA GGTTACACAT TTGGATATGA CTATTCGCGA ACACAGAGGA 
    GAAATGGAAC AAAAAATAAT TAAATTAGAA GGTACCCTGG AGAAATCAGA ATTGGAACTT 
    AAAGAATGTA ACAAACAGGT TATGAAAGAG CAGGAACAGT ACATTGCCAC TCAGTACAAG 
    GAGGCCATAG ATTTGGGGCA AGAATTGAGG CTAACCCGGG AGCAGGTGCA GAACTCTCAT 
    ACAGAATTGG CGGAGGCTCG TCGTCAACAA GTCCAAGCAC AGAGAGAAAC AGAAAGGCTC 
    TCTAGCGAAC TGGAGGATAT AAAGCAACTC TCTAAAGAGA AAGATGCTCA TGGAAACCAT 
    TTAGCTGAAG AATTGGGGGC TTCTAAAGTA CGTGAAGCTC ATTTAGAAGC AAGAATGCAA 
    GCAGAAATCA AGAAATTGTC AGCAGAAGTA GAATCTCTCA AAGAAGCTTA TCATATGGAG 
    ATGATTTCAC ATCAAGAGAA CCATGCAAAG TGGAAGATTT CTGCTGACTC TCAAAAGACT 
    TCTGTTCAGC AACTAAATGA ACAATTAGAG AAGGCAAAAC TGGAATTAGA AGAAGCTCAG 
    GATACTGTAA GCAATTTGCA TCAACAAGTC CAAGATAGGA ATGAAGTAAT TGAAGCTGCA 
    AATGAAGCAT TACTTACTAA AGAATCAGAA TTAACCAGAT TACAAGCCAA AATTTCTGGA 
    CATGAAAAGG CAGAAGACAC CAAGTTTCTA CCAGGCCCAT TTACATCTCC AACAGAAATT 
    ATGCCTGATG TTCAAGATCC AAAATTTGCT AAACATTTTC ACACATCTTT TTCCAAGTGT 
    ACAAAATTAC GTCGCTCTAT TAGTGCCAGT GATCTTACTT TCAAAACTCA TGGTGATGAA 
    GATCTTTCTG AAGAATTACT ACAGGACTTG AAGAAAATGC AATTAGAACA GCCTTCAACA 
    TCAGAAGAAA GCCGTAAGAA TCTGACTTAC ACCCAGCCAG ACTCATTTAA ACCTCTCACG 
    TATAACCTAG AAGATGATAG TTCTGAGAGT AATGACTTTA GCACGCTTAG TGGGATGCTA 
    AGGTACATAA ACAAAGAAGT AAGACTATTA AAAAAGTCTT CTATGCAGAC AGGTGCTGGT 
    TTAACTCAGG GAGAAAATGT GTAA

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

    CCDC18 ( XM_028847512.1 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_028703345.1 Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OMb58685
    Clone ID Related Accession (Same CDS sequence) XM_028847512.1
    Accession Version XM_028847512.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4200bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    Product coiled-coil domain-containing protein 18 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041754.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGGAATCTA GTTCATCAGA CTACTGTAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAGGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTCTGAA TTATTCACCT 
    TATGAAAACG TTTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GGCAAGAGAT 
    AAGATGTTTT CATCTTCTAC CCCTGTGGAT CAGGAGATTA AAAGCCTTCG AGAGAAACTA 
    AATAAACTTA GGCAACAGAA TGCTTGTTTG GTCACACAGA ATCATTCCTT AATGACCAAA 
    TTTGAATCTA TCCACTTTGA ATTAACACAG TCAAGAGCAA AAGTTTCCAT GCTTGAATTT 
    GCTCAACAGC AGGCAGCCAG TGTCCCAATC TTAGAAGAAC AGATTATAAA TTTGGAAGCA 
    GAGGTTTCAG CTCAAGATAA AGTTTTGAGA GAGGCAGAAA ATAAGCTGGA ACAGAGCCAG 
    AAAATGGTAA TTGAAAAGGA ACAGAGTTTG CAGGAGTCCA AAGAGGAATG TATAAAATTA 
    AAGGTGGACT TACTTGAACA AACCAAACAA GGAAAAAGAG CTGAACGACA AAGGAATGAA 
    GCACTGTACA ATGCTGAAGA GCTGAGTAAC GCTTTCCAAC AATATAAAAA GAAAGTGGCT 
    GAAAAACTGG AAAAGGTTCA AGCTGAAGAA GAAATATTAG AGAGAAATCT AATTAACTGT 
    GAAAAAGAAA ATAAAAGGCT ACAAGAAAAG TGTGGTCTAT GTAAAAGTGA ACTTGAAATT 
    CTGAAAGAGA AATTAAGGCA GTTAAAAGAA GAAAATAACA ATGGAAAAGA AAAACTAAGG 
    ATCATGGCAG TGAAAAATTC AGAAGTCATG GCACAGCTAA CTGAATCTAG ACAAAGTATT 
    TTGAAGCTAG AGAGTGAGTT AGAGAACAAA GACGAAATAC TTAGAGACAA ATTTTCTTTA 
    ATGAATGAAA ACCGAGAATT AAAGGTCCGT GTTGCAGCAC AGAATGAGCG ACTAGATTTA 
    TGTCAACAAG AAATTGAAAG TTCAAGGGTA GAACTAAGAA GTATGGAAAA GATTATATCC 
    CAGTTGCCAT TAAAGAGAGA ATTATTTGGC TTTAAATCGT CTCTTTCTAA ATACCAGATG 
    AGTAGCTTCT CAAACAAGGA AGACCGTTGC ATTGGCTGCT GTGAGGCAAA TAAATTGGTG 
    ATTTCGGAAT TGAGAATTAA GCTTGCAATA AAAGAGGCAG AAATTCAAAA GCTTCATGCA 
    AACCTGACTG CAAATCAGTT ATCTCAGAGT CTTATTACTT GTAATGACAG CCAAGAAAGT 
    AGCAAATTAA GTAGTTTAGA AACAGAACCT GTAAAGCTAG GTGGTCATCA AGTGGCAGAA 
    AGCGTGAAAG ATCAAAATCA ACATACTATG AACAAGCAAT ATGAAAAAGA GAGGCAAAGA 
    CTTGTTACTG GAATAGAAGA GCTACGTACT AAGCTGATAC AAATAGAAGC TGAAAATTCT 
    GATTTGAGGG TTAACATGGC TCACAGAACT AGTCAGTTTC AGCTGATTCA AGAGGAGCTG 
    CTAGAGAAAG CTTCAAACTC CAGCAAACTG GAAAGTGAAA TGACAAAGAA ATGTTCTCAA 
    CTTTTAACTC TTGAGAAACA GCTGGAAGAA AAGATAGTTG CTTATTCCTC TATTGCTGCA 
    AAAAATGCAG AACTAGAACA GGAGCTTATG GAAAAGAATG AAAAGATAAG GAGTCTAGAA 
    ACCAATGTTA ATACAGAGCA TGAGAAAATT TGTTTAGCCT TTGAAAAAGC AAAGAAAATT 
    CACTTGGAAC AGCATAAAGA AATGGAAAAG CAGATTGAAA GACTTGAAGC TCAACTAGAG 
    AAAAAGGATC AACAATTTAA AGAACAAGAA AAGACTATGT CCATGTTGCA ACAAGATATA 
    ATATGCAAAC AGCATCATCT TGAATCACTA GATAGACTCT TGACGGAAAG CAAAGGGGAA 
    ATGGAAAAGG AAAATATGAA GAAAGATGAA GCTTTAAAAG CATTACAGAA CCAAGTATCT 
    GAAGAAACAA TCAAGGTTAG GCAACTAGAT TCAGCATTAG AAATTTGTAA GGAAGAACTT 
    GTCTTGCATT TGAATCAATT GGAAGGAAAT AAGGAAAAGT TTGAAAAACA GTTAAAGAAG 
    AAATCTGAAG AGGTGTCAAA ACTGGAACAA GAACTTCAAA AACAAAGGGA AAGTTCAGCT 
    GAAAAGTTGA GAAAAATGGA GGAGAAATGT GAATCAGCTG CACATGAAGC AGATTTGAAA 
    AGGCAAAAAG TGATTGAGCT TACTAGCACT GCCAGGCAAG TAAAGCTTGA GATGGATCAG 
    TACAAAGAAG AGCTGTCTAA AATGGAAAAG GAAATAATGC ACCTCAAACG AGATGGAGAA 
    AATAAAGCAA TGCACCTCTC TCAATTAGAT ATGATCTTAG ATCAGACAAA GACAGAGCTA 
    GAAAAGAAAA CAAATGCTGT AAAGGAGTTA GAAAAGTTAC AGCACAGTAC TGAAACTGAA 
    CTAACAGAAG CCTTGCAAAA ACGGGAAGCA CTTGAGACTG AACTACAAAA TGCTCATGGA 
    GAATTAAAAA GTACTTTAAG ACAACTCCAG GAATTGAGAG ATGTACTACA GAAGGCTCAG 
    TTATCATTAG AGGAAAAATA CACTACTATA AAGGATCTCA CAGCTGAACT TAGAGAATGC 
    AAGATGGAGA TTGAAGACAA AAAGCAGGAG CTCCTTGAAA TGGATCAGGC ACTTAAGGAG 
    AGAAATTGGG AACTAAAGCA AAGAGCAGCT CAGGTTACAC ATTTGGATAT GACTATTCGC 
    GAACACAGAG GAGAAATGGA ACAAAAAATA ATTAAATTAG AAGGTACCCT GGAGAAATCA 
    GAATTGGAAC TTAAAGAATG TAACAAACAG ATAGAAAGTT TGAATGACAA GTTACAAAAT 
    GCTAAAGAAC AGCTTCGAGA AAAAGAGTTT ATAATGCTAC AAAATGAACA GGAGATAAGT 
    CAACTGAAAA AAGAAATCGA AAGAACACAA CAAAGGATGA AAGAAATGGA GAGTGTTATG 
    AAAGAGCAGG AACAGTACAT TGCCACTCAG TACAAGGAGG CCATAGATTT GGGGCAAGAA 
    TTGAGGCTAA CCCGGGAGCA GGTGCAGAAC TCTCATACAG AATTGGCGGA GGCTCGTCGT 
    CAACAAGTCC AAGCACAGAG AGAAACAGAA AGGCTCTCTA GCGAACTGGA GGATATAAAG 
    CAACTCTCTA AAGAGAAAGA TGCTCATGGA AACCATTTAG CTGAAGAATT GGGGGCTTCT 
    AAAGTACGTG AAGCTCATTT AGAAGCAAGA ATGCAAGCAG AAATCAAGAA ATTGTCAGCA 
    GAAGTAGAAT CTCTCAAAGA AGCTTATCAT ATGGAGATGA TTTCACATCA AGAGAACCAT 
    GCAAAGTGGA AGATTTCTGC TGACTCTCAA AAGACTTCTG TTCAGCAACT AAATGAACAA 
    TTAGAGAAGG CAAAACTGGA ATTAGAAGAA GCTCAGGATA CTGTAAGCAA TTTGCATCAA 
    CAAGTCCAAG ATAGGAATGA AGTAATTGAA GCTGCAAATG AAGCATTACT TACTAAAGAA 
    TCAGAATTAA CCAGATTACA AGCCAAAATT TCTGGACATG AAAAGGCAGA AGACACCAAG 
    TTTCTACCAG GCCCATTTAC ATCTCCAACA GAAATTATGC CTGATGTTCA AGATCCAAAA 
    TTTGCTAAAC ATTTTCACAC ATCTTTTTCC AAGTGTACAA AATTACGTCG CTCTATTAGT 
    GCCAGTGATC TTACTTTCAA AACTCATGGT GATGAAGATC TTTCTGAAGA ATTACTACAG 
    GACTTGAAGA AAATGCAATT AGAACAGCCT TCAACATCAG AAGAAAGCCG TAAGAATCTG 
    ACTTACACCC AGCCAGACTC ATTTAAACCT CTCACGTATA ACCTAGAAGA TGATAGTTCT 
    GAGAGTAATG ACTTTAGCAC GCTTAGTGGG ATGCTAAGGT ACATAAACAA AGAAGTAAGA 
    CTATTAAAAA AGTCTTCTAT GCAGACAGGT GCTGGTTTAA CTCAGGGAGA AAATGTGTAA

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

    RefSeq XP_028703345.1
    CDS140..4339
    Translation

    Target ORF information:

    RefSeq Version XM_028847512.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_028847512.1

    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
    ATGGAATCTA GTTCATCAGA CTACTGTAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAGGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTCTGAA TTATTCACCT 
    TATGAAAACG TTTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GGCAAGAGAT 
    AAGATGTTTT CATCTTCTAC CCCTGTGGAT CAGGAGATTA AAAGCCTTCG AGAGAAACTA 
    AATAAACTTA GGCAACAGAA TGCTTGTTTG GTCACACAGA ATCATTCCTT AATGACCAAA 
    TTTGAATCTA TCCACTTTGA ATTAACACAG TCAAGAGCAA AAGTTTCCAT GCTTGAATTT 
    GCTCAACAGC AGGCAGCCAG TGTCCCAATC TTAGAAGAAC AGATTATAAA TTTGGAAGCA 
    GAGGTTTCAG CTCAAGATAA AGTTTTGAGA GAGGCAGAAA ATAAGCTGGA ACAGAGCCAG 
    AAAATGGTAA TTGAAAAGGA ACAGAGTTTG CAGGAGTCCA AAGAGGAATG TATAAAATTA 
    AAGGTGGACT TACTTGAACA AACCAAACAA GGAAAAAGAG CTGAACGACA AAGGAATGAA 
    GCACTGTACA ATGCTGAAGA GCTGAGTAAC GCTTTCCAAC AATATAAAAA GAAAGTGGCT 
    GAAAAACTGG AAAAGGTTCA AGCTGAAGAA GAAATATTAG AGAGAAATCT AATTAACTGT 
    GAAAAAGAAA ATAAAAGGCT ACAAGAAAAG TGTGGTCTAT GTAAAAGTGA ACTTGAAATT 
    CTGAAAGAGA AATTAAGGCA GTTAAAAGAA GAAAATAACA ATGGAAAAGA AAAACTAAGG 
    ATCATGGCAG TGAAAAATTC AGAAGTCATG GCACAGCTAA CTGAATCTAG ACAAAGTATT 
    TTGAAGCTAG AGAGTGAGTT AGAGAACAAA GACGAAATAC TTAGAGACAA ATTTTCTTTA 
    ATGAATGAAA ACCGAGAATT AAAGGTCCGT GTTGCAGCAC AGAATGAGCG ACTAGATTTA 
    TGTCAACAAG AAATTGAAAG TTCAAGGGTA GAACTAAGAA GTATGGAAAA GATTATATCC 
    CAGTTGCCAT TAAAGAGAGA ATTATTTGGC TTTAAATCGT CTCTTTCTAA ATACCAGATG 
    AGTAGCTTCT CAAACAAGGA AGACCGTTGC ATTGGCTGCT GTGAGGCAAA TAAATTGGTG 
    ATTTCGGAAT TGAGAATTAA GCTTGCAATA AAAGAGGCAG AAATTCAAAA GCTTCATGCA 
    AACCTGACTG CAAATCAGTT ATCTCAGAGT CTTATTACTT GTAATGACAG CCAAGAAAGT 
    AGCAAATTAA GTAGTTTAGA AACAGAACCT GTAAAGCTAG GTGGTCATCA AGTGGCAGAA 
    AGCGTGAAAG ATCAAAATCA ACATACTATG AACAAGCAAT ATGAAAAAGA GAGGCAAAGA 
    CTTGTTACTG GAATAGAAGA GCTACGTACT AAGCTGATAC AAATAGAAGC TGAAAATTCT 
    GATTTGAGGG TTAACATGGC TCACAGAACT AGTCAGTTTC AGCTGATTCA AGAGGAGCTG 
    CTAGAGAAAG CTTCAAACTC CAGCAAACTG GAAAGTGAAA TGACAAAGAA ATGTTCTCAA 
    CTTTTAACTC TTGAGAAACA GCTGGAAGAA AAGATAGTTG CTTATTCCTC TATTGCTGCA 
    AAAAATGCAG AACTAGAACA GGAGCTTATG GAAAAGAATG AAAAGATAAG GAGTCTAGAA 
    ACCAATGTTA ATACAGAGCA TGAGAAAATT TGTTTAGCCT TTGAAAAAGC AAAGAAAATT 
    CACTTGGAAC AGCATAAAGA AATGGAAAAG CAGATTGAAA GACTTGAAGC TCAACTAGAG 
    AAAAAGGATC AACAATTTAA AGAACAAGAA AAGACTATGT CCATGTTGCA ACAAGATATA 
    ATATGCAAAC AGCATCATCT TGAATCACTA GATAGACTCT TGACGGAAAG CAAAGGGGAA 
    ATGGAAAAGG AAAATATGAA GAAAGATGAA GCTTTAAAAG CATTACAGAA CCAAGTATCT 
    GAAGAAACAA TCAAGGTTAG GCAACTAGAT TCAGCATTAG AAATTTGTAA GGAAGAACTT 
    GTCTTGCATT TGAATCAATT GGAAGGAAAT AAGGAAAAGT TTGAAAAACA GTTAAAGAAG 
    AAATCTGAAG AGGTGTCAAA ACTGGAACAA GAACTTCAAA AACAAAGGGA AAGTTCAGCT 
    GAAAAGTTGA GAAAAATGGA GGAGAAATGT GAATCAGCTG CACATGAAGC AGATTTGAAA 
    AGGCAAAAAG TGATTGAGCT TACTAGCACT GCCAGGCAAG TAAAGCTTGA GATGGATCAG 
    TACAAAGAAG AGCTGTCTAA AATGGAAAAG GAAATAATGC ACCTCAAACG AGATGGAGAA 
    AATAAAGCAA TGCACCTCTC TCAATTAGAT ATGATCTTAG ATCAGACAAA GACAGAGCTA 
    GAAAAGAAAA CAAATGCTGT AAAGGAGTTA GAAAAGTTAC AGCACAGTAC TGAAACTGAA 
    CTAACAGAAG CCTTGCAAAA ACGGGAAGCA CTTGAGACTG AACTACAAAA TGCTCATGGA 
    GAATTAAAAA GTACTTTAAG ACAACTCCAG GAATTGAGAG ATGTACTACA GAAGGCTCAG 
    TTATCATTAG AGGAAAAATA CACTACTATA AAGGATCTCA CAGCTGAACT TAGAGAATGC 
    AAGATGGAGA TTGAAGACAA AAAGCAGGAG CTCCTTGAAA TGGATCAGGC ACTTAAGGAG 
    AGAAATTGGG AACTAAAGCA AAGAGCAGCT CAGGTTACAC ATTTGGATAT GACTATTCGC 
    GAACACAGAG GAGAAATGGA ACAAAAAATA ATTAAATTAG AAGGTACCCT GGAGAAATCA 
    GAATTGGAAC TTAAAGAATG TAACAAACAG ATAGAAAGTT TGAATGACAA GTTACAAAAT 
    GCTAAAGAAC AGCTTCGAGA AAAAGAGTTT ATAATGCTAC AAAATGAACA GGAGATAAGT 
    CAACTGAAAA AAGAAATCGA AAGAACACAA CAAAGGATGA AAGAAATGGA GAGTGTTATG 
    AAAGAGCAGG AACAGTACAT TGCCACTCAG TACAAGGAGG CCATAGATTT GGGGCAAGAA 
    TTGAGGCTAA CCCGGGAGCA GGTGCAGAAC TCTCATACAG AATTGGCGGA GGCTCGTCGT 
    CAACAAGTCC AAGCACAGAG AGAAACAGAA AGGCTCTCTA GCGAACTGGA GGATATAAAG 
    CAACTCTCTA AAGAGAAAGA TGCTCATGGA AACCATTTAG CTGAAGAATT GGGGGCTTCT 
    AAAGTACGTG AAGCTCATTT AGAAGCAAGA ATGCAAGCAG AAATCAAGAA ATTGTCAGCA 
    GAAGTAGAAT CTCTCAAAGA AGCTTATCAT ATGGAGATGA TTTCACATCA AGAGAACCAT 
    GCAAAGTGGA AGATTTCTGC TGACTCTCAA AAGACTTCTG TTCAGCAACT AAATGAACAA 
    TTAGAGAAGG CAAAACTGGA ATTAGAAGAA GCTCAGGATA CTGTAAGCAA TTTGCATCAA 
    CAAGTCCAAG ATAGGAATGA AGTAATTGAA GCTGCAAATG AAGCATTACT TACTAAAGAA 
    TCAGAATTAA CCAGATTACA AGCCAAAATT TCTGGACATG AAAAGGCAGA AGACACCAAG 
    TTTCTACCAG GCCCATTTAC ATCTCCAACA GAAATTATGC CTGATGTTCA AGATCCAAAA 
    TTTGCTAAAC ATTTTCACAC ATCTTTTTCC AAGTGTACAA AATTACGTCG CTCTATTAGT 
    GCCAGTGATC TTACTTTCAA AACTCATGGT GATGAAGATC TTTCTGAAGA ATTACTACAG 
    GACTTGAAGA AAATGCAATT AGAACAGCCT TCAACATCAG AAGAAAGCCG TAAGAATCTG 
    ACTTACACCC AGCCAGACTC ATTTAAACCT CTCACGTATA ACCTAGAAGA TGATAGTTCT 
    GAGAGTAATG ACTTTAGCAC GCTTAGTGGG ATGCTAAGGT ACATAAACAA AGAAGTAAGA 
    CTATTAAAAA AGTCTTCTAT GCAGACAGGT GCTGGTTTAA CTCAGGGAGA AAATGTGTAA

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

    CCDC18 ( XM_015145029.2 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_015000515.2 Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID OMb58686
    Clone ID Related Accession (Same CDS sequence) XM_015145029.2
    Accession Version XM_015145029.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3405bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    Product coiled-coil domain-containing protein 18 isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041754.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_015145029.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    ATGGCAGTGA AAAATTCAGA AGTCATGGCA CAGCTAACTG AATCTAGACA AAGTATTTTG 
    AAGCTAGAGA GTGAGTTAGA GAACAAAGAC GAAATACTTA GAGACAAATT TTCTTTAATG 
    AATGAAAACC GAGAATTAAA GGTCCGTGTT GCAGCACAGA ATGAGCGACT AGATTTATGT 
    CAACAAGAAA TTGAAAGTTC AAGGGTAGAA CTAAGAAGTA TGGAAAAGAT TATATCCCAG 
    TTGCCATTAA AGAGAGAATT ATTTGGCTTT AAATCGTCTC TTTCTAAATA CCAGATGAGT 
    AGCTTCTCAA ACAAGGAAGA CCGTTGCATT GGCTGCTGTG AGGCAAATAA ATTGGTGATT 
    TCGGAATTGA GAATTAAGCT TGCAATAAAA GAGGCAGAAA TTCAAAAGCT TCATGCAAAC 
    CTGACTGCAA ATCAGTTATC TCAGAGTCTT ATTACTTGTA ATGACAGCCA AGAAAGTAGC 
    AAATTAAGTA GTTTAGAAAC AGAACCTGTA AAGCTAGGTG GTCATCAAGT GGCAGAAAGC 
    GTGAAAGATC AAAATCAACA TACTATGAAC AAGCAATATG AAAAAGAGAG GCAAAGACTT 
    GTTACTGGAA TAGAAGAGCT ACGTACTAAG CTGATACAAA TAGAAGCTGA AAATTCTGAT 
    TTGAGGGTTA ACATGGCTCA CAGAACTAGT CAGTTTCAGC TGATTCAAGA GGAGCTGCTA 
    GAGAAAGCTT CAAACTCCAG CAAACTGGAA AGTGAAATGA CAAAGAAATG TTCTCAACTT 
    TTAACTCTTG AGAAACAGCT GGAAGAAAAG ATAGTTGCTT ATTCCTCTAT TGCTGCAAAA 
    AATGCAGAAC TAGAACAGGA GCTTATGGAA AAGAATGAAA AGATAAGGAG TCTAGAAACC 
    AATGTTAATA CAGAGCATGA GAAAATTTGT TTAGCCTTTG AAAAAGCAAA GAAAATTCAC 
    TTGGAACAGC ATAAAGAAAT GGAAAAGCAG ATTGAAAGAC TTGAAGCTCA ACTAGAGAAA 
    AAGGATCAAC AATTTAAAGA ACAAGAAAAG ACTATGTCCA TGTTGCAACA AGATATAATA 
    TGCAAACAGC ATCATCTTGA ATCACTAGAT AGACTCTTGA CGGAAAGCAA AGGGGAAATG 
    GAAAAGGAAA ATATGAAGAA AGATGAAGCT TTAAAAGCAT TACAGAACCA AGTATCTGAA 
    GAAACAATCA AGGTTAGGCA ACTAGATTCA GCATTAGAAA TTTGTAAGGA AGAACTTGTC 
    TTGCATTTGA ATCAATTGGA AGGAAATAAG GAAAAGTTTG AAAAACAGTT AAAGAAGAAA 
    TCTGAAGAGG TATATTGTTT ACAGAAAGAG CTAAAAATAA AAAATCACAG TCTTCAAGAG 
    ACTTCTGAGC AAAACATTAT TCTACAGCAT ACTCTTCAGC AACAGCAGCA AATGTTACAA 
    CAAGAGACAA TTAGAAATGG AGAGCTGGAA GATACTCAAA CTAAACTTGA AAAACAGGTG 
    TCAAAACTGG AACAAGAACT TCAAAAACAA AGGGAAAGTT CAGCTGAAAA GTTGAGAAAA 
    ATGGAGGAGA AATGTGAATC AGCTGCACAT GAAGCAGATT TGAAAAGGCA AAAAGTGATT 
    GAGCTTACTA GCACTGCCAG GCAAGTAAAG CTTGAGATGG ATCAGTACAA AGAAGAGCTG 
    TCTAAAATGG AAAAGGAAAT AATGCACCTC AAACGAGATG GAGAAAATAA AGCAATGCAC 
    CTCTCTCAAT TAGATATGAT CTTAGATCAG ACAAAGACAG AGCTAGAAAA GAAAACAAAT 
    GCTGTAAAGG AGTTAGAAAA GTTACAGCAC AGTACTGAAA CTGAACTAAC AGAAGCCTTG 
    CAAAAACGGG AAGCACTTGA GACTGAACTA CAAAATGCTC ATGGAGAATT AAAAAGTACT 
    TTAAGACAAC TCCAGGAATT GAGAGATGTA CTACAGAAGG CTCAGTTATC ATTAGAGGAA 
    AAATACACTA CTATAAAGGA TCTCACAGCT GAACTTAGAG AATGCAAGAT GGAGATTGAA 
    GACAAAAAGC AGGAGCTCCT TGAAATGGAT CAGGCACTTA AGGAGAGAAA TTGGGAACTA 
    AAGCAAAGAG CAGCTCAGGT TACACATTTG GATATGACTA TTCGCGAACA CAGAGGAGAA 
    ATGGAACAAA AAATAATTAA ATTAGAAGGT ACCCTGGAGA AATCAGAATT GGAACTTAAA 
    GAATGTAACA AACAGATAGA AAGTTTGAAT GACAAGTTAC AAAATGCTAA AGAACAGCTT 
    CGAGAAAAAG AGTTTATAAT GCTACAAAAT GAACAGGAGA TAAGTCAACT GAAAAAAGAA 
    ATCGAAAGAA CACAACAAAG GATGAAAGAA ATGGAGAGTG TTATGAAAGA GCAGGAACAG 
    TACATTGCCA CTCAGTACAA GGAGGCCATA GATTTGGGGC AAGAATTGAG GCTAACCCGG 
    GAGCAGGTGC AGAACTCTCA TACAGAATTG GCGGAGGCTC GTCGTCAACA AGTCCAAGCA 
    CAGAGAGAAA CAGAAAGGCT CTCTAGCGAA CTGGAGGATA TAAAGCAACT CTCTAAAGAG 
    AAAGATGCTC ATGGAAACCA TTTAGCTGAA GAATTGGGGG CTTCTAAAGT ACGTGAAGCT 
    CATTTAGAAG CAAGAATGCA AGCAGAAATC AAGAAATTGT CAGCAGAAGT AGAATCTCTC 
    AAAGAAGCTT ATCATATGGA GATGATTTCA CATCAAGAGA ACCATGCAAA GTGGAAGATT 
    TCTGCTGACT CTCAAAAGAC TTCTGTTCAG CAACTAAATG AACAATTAGA GAAGGCAAAA 
    CTGGAATTAG AAGAAGCTCA GGATACTGTA AGCAATTTGC ATCAACAAGT CCAAGATAGG 
    AATGAAGTAA TTGAAGCTGC AAATGAAGCA TTACTTACTA AAGAATCAGA ATTAACCAGA 
    TTACAAGCCA AAATTTCTGG ACATGAAAAG GCAGAAGACA CCAAGTTTCT ACCAGGCCCA 
    TTTACATCTC CAACAGAAAT TATGCCTGAT GTTCAAGATC CAAAATTTGC TAAACATTTT 
    CACACATCTT TTTCCAAGTG TACAAAATTA CGTCGCTCTA TTAGTGCCAG TGATCTTACT 
    TTCAAAACTC ATGGTGATGA AGATCTTTCT GAAGAATTAC TACAGGACTT GAAGAAAATG 
    CAATTAGAAC AGCCTTCAAC ATCAGAAGAA AGCCGTAAGA ATCTGACTTA CACCCAGCCA 
    GACTCATTTA AACCTCTCAC GTATAACCTA GAAGATGATA GTTCTGAGAG TAATGACTTT 
    AGCACGCTTA GTGGGATGCT AAGGTACATA AACAAAGAAG TAAGACTATT AAAAAAGTCT 
    TCTATGCAGA CAGGTGCTGG TTTAACTCAG GGAGAAAATG TGTAA

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

    RefSeq XP_015000515.2
    CDS359..3763
    Translation

    Target ORF information:

    RefSeq Version XM_015145029.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta coiled-coil domain containing 18 (CCDC18), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_015145029.2

    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
    ATGGCAGTGA AAAATTCAGA AGTCATGGCA CAGCTAACTG AATCTAGACA AAGTATTTTG 
    AAGCTAGAGA GTGAGTTAGA GAACAAAGAC GAAATACTTA GAGACAAATT TTCTTTAATG 
    AATGAAAACC GAGAATTAAA GGTCCGTGTT GCAGCACAGA ATGAGCGACT AGATTTATGT 
    CAACAAGAAA TTGAAAGTTC AAGGGTAGAA CTAAGAAGTA TGGAAAAGAT TATATCCCAG 
    TTGCCATTAA AGAGAGAATT ATTTGGCTTT AAATCGTCTC TTTCTAAATA CCAGATGAGT 
    AGCTTCTCAA ACAAGGAAGA CCGTTGCATT GGCTGCTGTG AGGCAAATAA ATTGGTGATT 
    TCGGAATTGA GAATTAAGCT TGCAATAAAA GAGGCAGAAA TTCAAAAGCT TCATGCAAAC 
    CTGACTGCAA ATCAGTTATC TCAGAGTCTT ATTACTTGTA ATGACAGCCA AGAAAGTAGC 
    AAATTAAGTA GTTTAGAAAC AGAACCTGTA AAGCTAGGTG GTCATCAAGT GGCAGAAAGC 
    GTGAAAGATC AAAATCAACA TACTATGAAC AAGCAATATG AAAAAGAGAG GCAAAGACTT 
    GTTACTGGAA TAGAAGAGCT ACGTACTAAG CTGATACAAA TAGAAGCTGA AAATTCTGAT 
    TTGAGGGTTA ACATGGCTCA CAGAACTAGT CAGTTTCAGC TGATTCAAGA GGAGCTGCTA 
    GAGAAAGCTT CAAACTCCAG CAAACTGGAA AGTGAAATGA CAAAGAAATG TTCTCAACTT 
    TTAACTCTTG AGAAACAGCT GGAAGAAAAG ATAGTTGCTT ATTCCTCTAT TGCTGCAAAA 
    AATGCAGAAC TAGAACAGGA GCTTATGGAA AAGAATGAAA AGATAAGGAG TCTAGAAACC 
    AATGTTAATA CAGAGCATGA GAAAATTTGT TTAGCCTTTG AAAAAGCAAA GAAAATTCAC 
    TTGGAACAGC ATAAAGAAAT GGAAAAGCAG ATTGAAAGAC TTGAAGCTCA ACTAGAGAAA 
    AAGGATCAAC AATTTAAAGA ACAAGAAAAG ACTATGTCCA TGTTGCAACA AGATATAATA 
    TGCAAACAGC ATCATCTTGA ATCACTAGAT AGACTCTTGA CGGAAAGCAA AGGGGAAATG 
    GAAAAGGAAA ATATGAAGAA AGATGAAGCT TTAAAAGCAT TACAGAACCA AGTATCTGAA 
    GAAACAATCA AGGTTAGGCA ACTAGATTCA GCATTAGAAA TTTGTAAGGA AGAACTTGTC 
    TTGCATTTGA ATCAATTGGA AGGAAATAAG GAAAAGTTTG AAAAACAGTT AAAGAAGAAA 
    TCTGAAGAGG TATATTGTTT ACAGAAAGAG CTAAAAATAA AAAATCACAG TCTTCAAGAG 
    ACTTCTGAGC AAAACATTAT TCTACAGCAT ACTCTTCAGC AACAGCAGCA AATGTTACAA 
    CAAGAGACAA TTAGAAATGG AGAGCTGGAA GATACTCAAA CTAAACTTGA AAAACAGGTG 
    TCAAAACTGG AACAAGAACT TCAAAAACAA AGGGAAAGTT CAGCTGAAAA GTTGAGAAAA 
    ATGGAGGAGA AATGTGAATC AGCTGCACAT GAAGCAGATT TGAAAAGGCA AAAAGTGATT 
    GAGCTTACTA GCACTGCCAG GCAAGTAAAG CTTGAGATGG ATCAGTACAA AGAAGAGCTG 
    TCTAAAATGG AAAAGGAAAT AATGCACCTC AAACGAGATG GAGAAAATAA AGCAATGCAC 
    CTCTCTCAAT TAGATATGAT CTTAGATCAG ACAAAGACAG AGCTAGAAAA GAAAACAAAT 
    GCTGTAAAGG AGTTAGAAAA GTTACAGCAC AGTACTGAAA CTGAACTAAC AGAAGCCTTG 
    CAAAAACGGG AAGCACTTGA GACTGAACTA CAAAATGCTC ATGGAGAATT AAAAAGTACT 
    TTAAGACAAC TCCAGGAATT GAGAGATGTA CTACAGAAGG CTCAGTTATC ATTAGAGGAA 
    AAATACACTA CTATAAAGGA TCTCACAGCT GAACTTAGAG AATGCAAGAT GGAGATTGAA 
    GACAAAAAGC AGGAGCTCCT TGAAATGGAT CAGGCACTTA AGGAGAGAAA TTGGGAACTA 
    AAGCAAAGAG CAGCTCAGGT TACACATTTG GATATGACTA TTCGCGAACA CAGAGGAGAA 
    ATGGAACAAA AAATAATTAA ATTAGAAGGT ACCCTGGAGA AATCAGAATT GGAACTTAAA 
    GAATGTAACA AACAGATAGA AAGTTTGAAT GACAAGTTAC AAAATGCTAA AGAACAGCTT 
    CGAGAAAAAG AGTTTATAAT GCTACAAAAT GAACAGGAGA TAAGTCAACT GAAAAAAGAA 
    ATCGAAAGAA CACAACAAAG GATGAAAGAA ATGGAGAGTG TTATGAAAGA GCAGGAACAG 
    TACATTGCCA CTCAGTACAA GGAGGCCATA GATTTGGGGC AAGAATTGAG GCTAACCCGG 
    GAGCAGGTGC AGAACTCTCA TACAGAATTG GCGGAGGCTC GTCGTCAACA AGTCCAAGCA 
    CAGAGAGAAA CAGAAAGGCT CTCTAGCGAA CTGGAGGATA TAAAGCAACT CTCTAAAGAG 
    AAAGATGCTC ATGGAAACCA TTTAGCTGAA GAATTGGGGG CTTCTAAAGT ACGTGAAGCT 
    CATTTAGAAG CAAGAATGCA AGCAGAAATC AAGAAATTGT CAGCAGAAGT AGAATCTCTC 
    AAAGAAGCTT ATCATATGGA GATGATTTCA CATCAAGAGA ACCATGCAAA GTGGAAGATT 
    TCTGCTGACT CTCAAAAGAC TTCTGTTCAG CAACTAAATG AACAATTAGA GAAGGCAAAA 
    CTGGAATTAG AAGAAGCTCA GGATACTGTA AGCAATTTGC ATCAACAAGT CCAAGATAGG 
    AATGAAGTAA TTGAAGCTGC AAATGAAGCA TTACTTACTA AAGAATCAGA ATTAACCAGA 
    TTACAAGCCA AAATTTCTGG ACATGAAAAG GCAGAAGACA CCAAGTTTCT ACCAGGCCCA 
    TTTACATCTC CAACAGAAAT TATGCCTGAT GTTCAAGATC CAAAATTTGC TAAACATTTT 
    CACACATCTT TTTCCAAGTG TACAAAATTA CGTCGCTCTA TTAGTGCCAG TGATCTTACT 
    TTCAAAACTC ATGGTGATGA AGATCTTTCT GAAGAATTAC TACAGGACTT GAAGAAAATG 
    CAATTAGAAC AGCCTTCAAC ATCAGAAGAA AGCCGTAAGA ATCTGACTTA CACCCAGCCA 
    GACTCATTTA AACCTCTCAC GTATAACCTA GAAGATGATA GTTCTGAGAG TAATGACTTT 
    AGCACGCTTA GTGGGATGCT AAGGTACATA AACAAAGAAG TAAGACTATT AAAAAAGTCT 
    TCTATGCAGA CAGGTGCTGG TTTAACTCAG GGAGAAAATG TGTAA

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

見積依頼

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