ORF » Species Summary » Xenopus tropicalis » ccdc18 cDNA ORF clone

ccdc18 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

  • 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
OXa57258 XM_031901000.1
Latest version!		 Xenopus tropicalis coiled-coil domain containing 18 (ccdc18), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa57259 XM_012962434.3
Latest version!		 Xenopus tropicalis coiled-coil domain containing 18 (ccdc18), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa57260 XM_031901001.1
Latest version!		 Xenopus tropicalis coiled-coil domain containing 18 (ccdc18), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa57261 XM_002933794.5
Latest version!		 Xenopus tropicalis coiled-coil domain containing 18 (ccdc18), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa09061 XM_002933794.4
Latest version!		 Xenopus tropicalis coiled-coil domain containing 18 (ccdc18), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
OXa32929 XM_012962434.2
Latest version!		 Xenopus tropicalis coiled-coil domain containing 18 (ccdc18), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00

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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_031901000.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031756860.1 Xenopus tropicalis coiled-coil domain containing 18 (ccdc18), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OXa57258
    Clone ID Related Accession (Same CDS sequence) XM_031901000.1
    Accession Version XM_031901000.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4080bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030680.2) 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 Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGGTACTGA TCGATTTAGC AGTGTCAGCA GAACGAAGGA AGTATATTGT ACAAATGGAA 
    TTAAATATGC CAACATATAA TGATCACATT GAGGAACCAA AAGATGATCT TCTGTTAATG 
    GGCCAACTGA TGCGAGCAGA TTGGGGTATA AAGAATGTAG AAGAAAAGCT GTCTGTTGAC 
    CATTCTAGTG AGCATTCCCT AAGCAGAGCT CCACTGGGGC TCACTTTGGA AGATCTTGAG 
    CAGCCCGGTA ATCCCAGTGT CAGAGAAAAC CTGCTTAGAA GCAGAAACAC AGTTGCACAG 
    AATGGAGGAA ACTCTCTAAG GACATTCAAA GATAAGCTCA TCATCACACA ACCTGGATCG 
    TCAAGAAATA CAGAACAACA AAATAGGCAA TTAAAGGAAA AATTGAATTT TCTTCGAGAA 
    CAAAATGCTT CATTGGTGTC CCAAAACCAC TCTCTTATGA ATAAGATTGA CTGTGTACAG 
    TCAGAATTAA CAAAGTCCAG GTCTAGAATC CGCTATGTTG AGTCTACTGT TGGCGCAAGG 
    GCAATGAGAT TAACTGATCT GGAGGAGCGA TTAGTAATCT TGGAAGCCAA AGCTGAAGCT 
    CAAGAAAAAG CCCTTAGAAC TACAGAAGAT CAGCTAGAAC ATAGTCAGCA TATCTTGGCT 
    GAAAAAGAGA GCATTCTACA AAAGTTTAAA GAAGAGCTAA AGAAGCTGAA AGAAGAATTG 
    TTTGAATCCT GTAGGTTATG CAAAAGAACT GAAAAACAGA GAAATGAGGC ACTTTTCAAT 
    GCTGAAGAAC TCAAAAAAGC CTTTCAACAG TACAAAAACA AAATGGAAAA TAAAATGGAA 
    AAGGTTCAGG AAGAAGGGGA GCTCCTAAAA AAGAATATTT TAAGCTGTGA GAAAGAACAA 
    GAGGCTTTGC AGCAAAAGTG TGTAATGTTG GAAACTGAAC TGGAAAAGTC AAGGGAGCTT 
    TTAAGAAATG TGCAGTCTGA AAAGATTTCC AGCCAAGAGC GGCATCAGTG TGTTGAAGCC 
    AAAAATGCTG AACTTATTTC TCTGTTAACA CAGTCTAATC AGAGAATTCT TAGACTTGAA 
    AGTGAACTTG AACATAAAGG AAAAGTGCTC AAAGAGAACA CAAGTCTTCT TGATGAGAAC 
    AAAGCAGTGA AAGAATGTCC TGCAAAGACA AAACAAGAAA CGATCTCCAA TCAGTTACCA 
    GAACAACCTG CAGATTCTGT TTCTGATGAC AGCAGAATGA TTATTGCAGA GCTAAGGGCA 
    AAACTGTTAA TCAGAGAAGC AGAAAACCGA GAACTTCAAG CCAAACTTAC AAACAGAAAG 
    TTACTAACAA ACAGCTATAA AAATAACCAA GAAAAAGACT GCTTGGATGA ATTGGAGACC 
    GAACCAGTGA AACTGAACCA ACAAAATACA GCGGAGGAAA AATACCTGCA GCTCGAGCTC 
    CTCTGCAAGC AGATTCAGAT GGACAAGGAA AGACTTACAG ACCATGTGAA AGAATTACAA 
    GGGAAGTTCA GCCGGGCACG GACTGAACTT ACCAACACAA AGACTTCCAT GGAACAGAGA 
    ACCAGCCAGT TTCAGCTGAT ACAACAGGAG TTGCTGGAAA AAGCATCAAA AGCAACCAAG 
    TTAGAGCAGG AATTATTAAA GAAACGTATG AAGATCAGTG CGCTTCAGAA GCTGGTGGAA 
    GAAAAGACAC AGGTTTATTC TGCTGCTGAA ACCAGGAATG CAGAAGTGGA AAAAGAGCTT 
    AAGAAATATA AAGATCAAAT AGTCAACCTG GAAGACAATA TTAACAAAGA ACATGAAGAA 
    GTCCTCTTGA CATTTGAAAA ATCTAAAGAG ATCCATCTGG AGCAGCAGAA GGAATTGATG 
    AAACAGATAG AACATCTTCA GATTCAACTA GAAATGAAAA ATCTTCATGC AGGAGAACAA 
    GAACAGACAA TTGCAATCCT TCAGAAAGAA AATTTATCAA AGCAACAACA GCTGGAATCA 
    CTCAATCATC TTTTAACACA AGCAAGAAAG GCGCAGGAAC TGGATATTCA GACAAAGAAT 
    ACAAGTACAA CAATAAGAAG TCTAGAAAAT CAAGTGGAGG TAGAATCTGC TAAGGTGAGT 
    CATCTGGAGT CTGCTCTGAC AGTCTGCAAA GAAGAACTAG CCTTGTATTT GCACGAGATA 
    GAGGACAACA GAGAGCAATT TGAACATCAA ATCAAAACAA AGTCTGAAGA GTTGTGTTGC 
    TTGCAAAATG AAGTCAAATT AAGGACTCTG AGCCTGCAGG AAACAAGTGA GGAAAATGTT 
    CGCTTGCAGC AAACTTTACA ACAGCAGCAG AATATGTTGC AACAGGGAAC TGCACGAATT 
    GGAGAGCTGG AGGACCACCA GACAGAGTTA GAAAAACAGG TTTCCAAACT TGAATATGAA 
    CTTGAGAAGC AAAGATCCAT CTCAGAAGAT AAGCTTCAGA GGACACAAGA TTTGCTGCAT 
    GCGGCCAATA GGGAAATAGG TCTAAAAACC CAAGAAGTAC AGGAGGTGTG CTGCACACTG 
    AATGAGGTTA AACTTGAACT AAAACATTCC AAGGTGAAAA TCCTGCAAAT GGAAGAAGAG 
    TTGGTCTCCT TCAAAAGCAA AGAAGAAAAC AATGCCAGCA TGTTTAACCA GCTGCAGAAG 
    GATTTGCAGA AAACACAAGT GGAACTGGAC ATGAAAAAAT GTGTTGGGAC AGAATTAGAG 
    GAAAAATTAC ACAGTGCTGA AAAGGACATT AAAAGAAAAG AAGAGATGGA GATACAGCTC 
    AGTGCTATGC AAAAGGATTT AGAGGGCTAT ACAAAACACA TTGAGGAATT ACAGGAAACA 
    CTGACAAAAA CCCACTTGTC TGTGGAGGAG AAGCAAGTAA TTATAGAAGG CCTTACAGAA 
    GAGCTGAGAT CATGTAAGCA AGAACTTGAG GAGAGAGACC ACGAATTGCT AGATATGGAT 
    CAGCTGCTAA AAGATCGCAA CTGGGAACTG AAACAGCGAG CTGCACAATT AACCCAGCTG 
    GACATGAGTA TTCGGGAGCA CAAAGGAGAG ATGGAACAAA AAATTCTAAG ACTGGAAAGT 
    GCTTTGGAGA AAGCTAAATT AGAAGACCGG GATCATATTA AGGAGATCAC ATCTTTAGAT 
    GAAAGATTGC AACAAACAAG AGATCAGCTC TGTGAAAAAG ATTTTGACTT GGTGCAAAAA 
    GACCAAGTTA TAAATCAACT GAAGAAGGAC ATTGAGCGAA GTCAGCAAAC AATTACTGAT 
    ATGGAAAAGA CTTTAAAAGT GCAGGAGCAA CGTATCTCAG AAAGGCATCA AGACGGTATG 
    GACCTCAGCA AGCAATTACG CCTTGCCCAA GAACGAATGC ATTTCTCCCA GCAGGAGCTC 
    CTAAAAACCC GACAACAGTT GGCTGAGGCT CAGAAAGAAT CAGACAGGCT TACACAACAG 
    CTAGAAGGAA TGGATCTCAT TTCCAAAGAA AAGCTGCAGC ATGCAGAACA AATGTTAGAA 
    GAAACAAATG AAACAATATG TAATCTAAAG ATGGAACTTC AGGCCAGGAA CGAGGTCATC 
    AAAGCAACAA ATGAAGTATT GATACTAAAG GAATCTGAGT TAACACGGCT GAAAACCCGG 
    ATTTCAAGCT ATGAAAGAAC ATTAGGCCTT AAGCAGCTGT CAGACACTAC TGCTAACCCA 
    TCAGTATCTT TTATAGATCA CCACCCTATG GAATCATACA AACATCCTGA GGCTTCAGAC 
    TTGTGGCGGC TCAGCCCACC ACTCAGTGCC AGTAATCTAA GTCTGACAGA CATGAGCTCT 
    TTGGAGTTGC CTAAAAGCAT GTTGGAAGTT ATGAAGGACC TGGCTCCACC AGACTCTCCA 
    CCAATGAAGG ATACTAGCGA GGGGGCATCT TGTGTGTCTT CTGATAGTCT GAACAATTCT 
    TCATTTAACC CTCTTACATA CACGTTGGAT GAAAACTGTG ATTTTACTTC TGACTGCCCA 
    GACCTAACAA CTCTTAGTGG AATGCTTAAA TACATAAAGA AAGAGATGAG ATTATCTGAA 
    TATCCAGCGG AACATAGCCC CAGCAAGGAT GCTGAGATTG ATGGCGGATT CTTAGGATAG

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

    RefSeq XP_031756860.1
    CDS27..4106
    Translation

    Target ORF information:

    RefSeq Version XM_031901000.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_031901000.1

    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
    ATGGTACTGA TCGATTTAGC AGTGTCAGCA GAACGAAGGA AGTATATTGT ACAAATGGAA 
    TTAAATATGC CAACATATAA TGATCACATT GAGGAACCAA AAGATGATCT TCTGTTAATG 
    GGCCAACTGA TGCGAGCAGA TTGGGGTATA AAGAATGTAG AAGAAAAGCT GTCTGTTGAC 
    CATTCTAGTG AGCATTCCCT AAGCAGAGCT CCACTGGGGC TCACTTTGGA AGATCTTGAG 
    CAGCCCGGTA ATCCCAGTGT CAGAGAAAAC CTGCTTAGAA GCAGAAACAC AGTTGCACAG 
    AATGGAGGAA ACTCTCTAAG GACATTCAAA GATAAGCTCA TCATCACACA ACCTGGATCG 
    TCAAGAAATA CAGAACAACA AAATAGGCAA TTAAAGGAAA AATTGAATTT TCTTCGAGAA 
    CAAAATGCTT CATTGGTGTC CCAAAACCAC TCTCTTATGA ATAAGATTGA CTGTGTACAG 
    TCAGAATTAA CAAAGTCCAG GTCTAGAATC CGCTATGTTG AGTCTACTGT TGGCGCAAGG 
    GCAATGAGAT TAACTGATCT GGAGGAGCGA TTAGTAATCT TGGAAGCCAA AGCTGAAGCT 
    CAAGAAAAAG CCCTTAGAAC TACAGAAGAT CAGCTAGAAC ATAGTCAGCA TATCTTGGCT 
    GAAAAAGAGA GCATTCTACA AAAGTTTAAA GAAGAGCTAA AGAAGCTGAA AGAAGAATTG 
    TTTGAATCCT GTAGGTTATG CAAAAGAACT GAAAAACAGA GAAATGAGGC ACTTTTCAAT 
    GCTGAAGAAC TCAAAAAAGC CTTTCAACAG TACAAAAACA AAATGGAAAA TAAAATGGAA 
    AAGGTTCAGG AAGAAGGGGA GCTCCTAAAA AAGAATATTT TAAGCTGTGA GAAAGAACAA 
    GAGGCTTTGC AGCAAAAGTG TGTAATGTTG GAAACTGAAC TGGAAAAGTC AAGGGAGCTT 
    TTAAGAAATG TGCAGTCTGA AAAGATTTCC AGCCAAGAGC GGCATCAGTG TGTTGAAGCC 
    AAAAATGCTG AACTTATTTC TCTGTTAACA CAGTCTAATC AGAGAATTCT TAGACTTGAA 
    AGTGAACTTG AACATAAAGG AAAAGTGCTC AAAGAGAACA CAAGTCTTCT TGATGAGAAC 
    AAAGCAGTGA AAGAATGTCC TGCAAAGACA AAACAAGAAA CGATCTCCAA TCAGTTACCA 
    GAACAACCTG CAGATTCTGT TTCTGATGAC AGCAGAATGA TTATTGCAGA GCTAAGGGCA 
    AAACTGTTAA TCAGAGAAGC AGAAAACCGA GAACTTCAAG CCAAACTTAC AAACAGAAAG 
    TTACTAACAA ACAGCTATAA AAATAACCAA GAAAAAGACT GCTTGGATGA ATTGGAGACC 
    GAACCAGTGA AACTGAACCA ACAAAATACA GCGGAGGAAA AATACCTGCA GCTCGAGCTC 
    CTCTGCAAGC AGATTCAGAT GGACAAGGAA AGACTTACAG ACCATGTGAA AGAATTACAA 
    GGGAAGTTCA GCCGGGCACG GACTGAACTT ACCAACACAA AGACTTCCAT GGAACAGAGA 
    ACCAGCCAGT TTCAGCTGAT ACAACAGGAG TTGCTGGAAA AAGCATCAAA AGCAACCAAG 
    TTAGAGCAGG AATTATTAAA GAAACGTATG AAGATCAGTG CGCTTCAGAA GCTGGTGGAA 
    GAAAAGACAC AGGTTTATTC TGCTGCTGAA ACCAGGAATG CAGAAGTGGA AAAAGAGCTT 
    AAGAAATATA AAGATCAAAT AGTCAACCTG GAAGACAATA TTAACAAAGA ACATGAAGAA 
    GTCCTCTTGA CATTTGAAAA ATCTAAAGAG ATCCATCTGG AGCAGCAGAA GGAATTGATG 
    AAACAGATAG AACATCTTCA GATTCAACTA GAAATGAAAA ATCTTCATGC AGGAGAACAA 
    GAACAGACAA TTGCAATCCT TCAGAAAGAA AATTTATCAA AGCAACAACA GCTGGAATCA 
    CTCAATCATC TTTTAACACA AGCAAGAAAG GCGCAGGAAC TGGATATTCA GACAAAGAAT 
    ACAAGTACAA CAATAAGAAG TCTAGAAAAT CAAGTGGAGG TAGAATCTGC TAAGGTGAGT 
    CATCTGGAGT CTGCTCTGAC AGTCTGCAAA GAAGAACTAG CCTTGTATTT GCACGAGATA 
    GAGGACAACA GAGAGCAATT TGAACATCAA ATCAAAACAA AGTCTGAAGA GTTGTGTTGC 
    TTGCAAAATG AAGTCAAATT AAGGACTCTG AGCCTGCAGG AAACAAGTGA GGAAAATGTT 
    CGCTTGCAGC AAACTTTACA ACAGCAGCAG AATATGTTGC AACAGGGAAC TGCACGAATT 
    GGAGAGCTGG AGGACCACCA GACAGAGTTA GAAAAACAGG TTTCCAAACT TGAATATGAA 
    CTTGAGAAGC AAAGATCCAT CTCAGAAGAT AAGCTTCAGA GGACACAAGA TTTGCTGCAT 
    GCGGCCAATA GGGAAATAGG TCTAAAAACC CAAGAAGTAC AGGAGGTGTG CTGCACACTG 
    AATGAGGTTA AACTTGAACT AAAACATTCC AAGGTGAAAA TCCTGCAAAT GGAAGAAGAG 
    TTGGTCTCCT TCAAAAGCAA AGAAGAAAAC AATGCCAGCA TGTTTAACCA GCTGCAGAAG 
    GATTTGCAGA AAACACAAGT GGAACTGGAC ATGAAAAAAT GTGTTGGGAC AGAATTAGAG 
    GAAAAATTAC ACAGTGCTGA AAAGGACATT AAAAGAAAAG AAGAGATGGA GATACAGCTC 
    AGTGCTATGC AAAAGGATTT AGAGGGCTAT ACAAAACACA TTGAGGAATT ACAGGAAACA 
    CTGACAAAAA CCCACTTGTC TGTGGAGGAG AAGCAAGTAA TTATAGAAGG CCTTACAGAA 
    GAGCTGAGAT CATGTAAGCA AGAACTTGAG GAGAGAGACC ACGAATTGCT AGATATGGAT 
    CAGCTGCTAA AAGATCGCAA CTGGGAACTG AAACAGCGAG CTGCACAATT AACCCAGCTG 
    GACATGAGTA TTCGGGAGCA CAAAGGAGAG ATGGAACAAA AAATTCTAAG ACTGGAAAGT 
    GCTTTGGAGA AAGCTAAATT AGAAGACCGG GATCATATTA AGGAGATCAC ATCTTTAGAT 
    GAAAGATTGC AACAAACAAG AGATCAGCTC TGTGAAAAAG ATTTTGACTT GGTGCAAAAA 
    GACCAAGTTA TAAATCAACT GAAGAAGGAC ATTGAGCGAA GTCAGCAAAC AATTACTGAT 
    ATGGAAAAGA CTTTAAAAGT GCAGGAGCAA CGTATCTCAG AAAGGCATCA AGACGGTATG 
    GACCTCAGCA AGCAATTACG CCTTGCCCAA GAACGAATGC ATTTCTCCCA GCAGGAGCTC 
    CTAAAAACCC GACAACAGTT GGCTGAGGCT CAGAAAGAAT CAGACAGGCT TACACAACAG 
    CTAGAAGGAA TGGATCTCAT TTCCAAAGAA AAGCTGCAGC ATGCAGAACA AATGTTAGAA 
    GAAACAAATG AAACAATATG TAATCTAAAG ATGGAACTTC AGGCCAGGAA CGAGGTCATC 
    AAAGCAACAA ATGAAGTATT GATACTAAAG GAATCTGAGT TAACACGGCT GAAAACCCGG 
    ATTTCAAGCT ATGAAAGAAC ATTAGGCCTT AAGCAGCTGT CAGACACTAC TGCTAACCCA 
    TCAGTATCTT TTATAGATCA CCACCCTATG GAATCATACA AACATCCTGA GGCTTCAGAC 
    TTGTGGCGGC TCAGCCCACC ACTCAGTGCC AGTAATCTAA GTCTGACAGA CATGAGCTCT 
    TTGGAGTTGC CTAAAAGCAT GTTGGAAGTT ATGAAGGACC TGGCTCCACC AGACTCTCCA 
    CCAATGAAGG ATACTAGCGA GGGGGCATCT TGTGTGTCTT CTGATAGTCT GAACAATTCT 
    TCATTTAACC CTCTTACATA CACGTTGGAT GAAAACTGTG ATTTTACTTC TGACTGCCCA 
    GACCTAACAA CTCTTAGTGG AATGCTTAAA TACATAAAGA AAGAGATGAG ATTATCTGAA 
    TATCCAGCGG AACATAGCCC CAGCAAGGAT GCTGAGATTG ATGGCGGATT CTTAGGATAG

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

    ccdc18 ( XM_012962434.3 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_012817888.2 Xenopus tropicalis coiled-coil domain containing 18 (ccdc18), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OXa57259
    Clone ID Related Accession (Same CDS sequence) XM_012962434.3
    Accession Version XM_012962434.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4074bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030680.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_012962434.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGGTACTGA TCGATTTAGC AGTGTCAGCA GAACGAAGGA AGTATATTGT ACAAATGGAA 
    TTAAATATGC CAACATATAA TGATCACATT GAGGAACCAA AAGATGATCT TCTGTTAATG 
    GGCCAACTGA TGCGAGCAGA TTGGGGTATA AAGAATGTAG AAGAAAAGCT GTCTGTTGAC 
    CATTCTAGTG AGCATTCCCT AAGCAGAGCT CCACTGGGGC TCACTTTGGA AGATCTTGAG 
    CAGCCCGGTA ATCCCAGTGT CAGAGAAAAC CTGCTTAGAA GCAGAAACAC AGTTGCACAG 
    AATGGAGGAA ACTCTCTAAG GACATTCAAA GATAAGCTCA TCATCACACA ACCTGGATCG 
    TCAAGAAATA CAGAACAACA AAATAGGCAA TTAAAGGAAA AATTGAATTT TCTTCGAGAA 
    CAAAATGCTT CATTGGTGTC CCAAAACCAC TCTCTTATGA ATAAGATTGA CTGTGTACAG 
    TCAGAATTAA CAAAGTCCAG GTCTAGAATC CGCTATGTTG AGTCTACTGT TGGCGCAAGG 
    GCAATGAGAT TAACTGATCT GGAGGAGCGA TTAGTAATCT TGGAAGCCAA AGCTGAAGCT 
    CAAGAAAAAG CCCTTAGAAC TACAGAAGAT CAGCTAGAAC ATAGTCAGCA TATCTTGGCT 
    GAAAAAGAGA GCATTCTACA AAAGTTTAAA GAAGAGCTAA AGAAGCTGAA AGAAGAATTG 
    TTTGAATCCT GTAGGTTATG CAAAAGAACT GAAAAACAGA GAAATGAGGC ACTTTTCAAT 
    GCTGAAGAAC TCAAAAAAGC CTTTCAACAG TACAAAAACA AAATGGAAAA TAAAATGGAA 
    AAGGTTCAGG AAGAAGGGGA GCTCCTAAAA AAGAATATTT TAAGCTGTGA GAAAGAACAA 
    GAGGCTTTGC AGCAAAAGTG TGTAATGTTG GAAACTGAAC TGGAAAAGTC AAGGGAGCTT 
    TTAAGAAATG TGCAGTCTGA AAAGATTTCC AGCCAAGAGC GGCATCAGTG TGTTGAAGCC 
    AAAAATGCTG AACTTATTTC TCTGTTAACA CAGTCTAATC AGAGAATTCT TAGACTTGAA 
    AGTGAACTTG AACATAAAGG AAAAGTGCTC AAAGAGAACA CAAGTCTTCT TGATGAGAAC 
    AAAGCAGTGA AAGAATGTCC TGCAAAGACA AAACAAGAAA CGATCTCCAA TCAGTTACCA 
    GAACAACCTG CAGATTCTGT TTCTGATGAC AGCAGAATGA TTATTGCAGA GCTAAGGGCA 
    AAACTGTTAA TCAGAGAAGC AGAAAACCGA GAACTTCAAG CCAAACTTAC AAACAGAAAG 
    TTACTAACAA ACAGCTATAA AAATAACCAA GAAAAAGACT GCTTGGATGA ATTGGAGACC 
    GAACCAGTGA AACTGAACCA ACAAAATACA GCGGAGGAAA AATACCTGCA GCTCGAGCTC 
    CTCTGCAAGC AGATTCAGAT GGACAAGGAA AGACTTACAG ACCATGTGAA AGAATTACAA 
    GGGAAGTTCA GCCGGGCACG GACTGAACTT ACCAACACAA AGACTTCCAT GGAACAGAGA 
    ACCAGCCAGT TTCAGCTGAT ACAACAGGAG TTGCTGGAAA AAGCATCAAA AGCAACCAAG 
    TTAGAGCAGG AATTATTAAA GAAACGTATG AAGATCAGTG CGCTTCAGAA GCTGGTGGAA 
    GAAAAGACAC AGGTTTATTC TGCTGCTGAA ACCAGGAATG CAGAAGTGGA AAAAGAGCTT 
    AAGAAATATA AAGATCAAAT AGTCAACCTG GAAGACAATA TTAACAAAGA ACATGAAGAA 
    GTCCTCTTGA CATTTGAAAA ATCTAAAGAG ATCCATCTGG AGCAGCAGAA GGAATTGATG 
    AAACAGATAG AACATCTTCA GATTCAACTA GAAATGAAAA ATCTTCATGC AGGAGAACAA 
    GAACAGACAA TTGCAATCCT TCAGAAAGAA AATTTATCAA AGCAACAACA GCTGGAATCA 
    CTCAATCATC TTTTAACACA AGCAAGAAAG GAACTGGATA TTCAGACAAA GAATACAAGT 
    ACAACAATAA GAAGTCTAGA AAATCAAGTG GAGGTAGAAT CTGCTAAGGT GAGTCATCTG 
    GAGTCTGCTC TGACAGTCTG CAAAGAAGAA CTAGCCTTGT ATTTGCACGA GATAGAGGAC 
    AACAGAGAGC AATTTGAACA TCAAATCAAA ACAAAGTCTG AAGAGTTGTG TTGCTTGCAA 
    AATGAAGTCA AATTAAGGAC TCTGAGCCTG CAGGAAACAA GTGAGGAAAA TGTTCGCTTG 
    CAGCAAACTT TACAACAGCA GCAGAATATG TTGCAACAGG GAACTGCACG AATTGGAGAG 
    CTGGAGGACC ACCAGACAGA GTTAGAAAAA CAGGTTTCCA AACTTGAATA TGAACTTGAG 
    AAGCAAAGAT CCATCTCAGA AGATAAGCTT CAGAGGACAC AAGATTTGCT GCATGCGGCC 
    AATAGGGAAA TAGGTCTAAA AACCCAAGAA GTACAGGAGG TGTGCTGCAC ACTGAATGAG 
    GTTAAACTTG AACTAAAACA TTCCAAGGTG AAAATCCTGC AAATGGAAGA AGAGTTGGTC 
    TCCTTCAAAA GCAAAGAAGA AAACAATGCC AGCATGTTTA ACCAGCTGCA GAAGGATTTG 
    CAGAAAACAC AAGTGGAACT GGACATGAAA AAATGTGTTG GGACAGAATT AGAGGAAAAA 
    TTACACAGTG CTGAAAAGGA CATTAAAAGA AAAGAAGAGA TGGAGATACA GCTCAGTGCT 
    ATGCAAAAGG ATTTAGAGGG CTATACAAAA CACATTGAGG AATTACAGGA AACACTGACA 
    AAAACCCACT TGTCTGTGGA GGAGAAGCAA GTAATTATAG AAGGCCTTAC AGAAGAGCTG 
    AGATCATGTA AGCAAGAACT TGAGGAGAGA GACCACGAAT TGCTAGATAT GGATCAGCTG 
    CTAAAAGATC GCAACTGGGA ACTGAAACAG CGAGCTGCAC AATTAACCCA GCTGGACATG 
    AGTATTCGGG AGCACAAAGG AGAGATGGAA CAAAAAATTC TAAGACTGGA AAGTGCTTTG 
    GAGAAAGCTA AATTAGAAGA CCGGGATCAT ATTAAGGAGA TCACATCTTT AGATGAAAGA 
    TTGCAACAAA CAAGAGATCA GCTCTGTGAA AAAGATTTTG ACTTGGTGCA AAAAGACCAA 
    GTTATAAATC AACTGAAGAA GGACATTGAG CGAAGTCAGC AAACAATTAC TGATATGGAA 
    AAGACTTTAA AAGTGCAGGA GCAACGTATC TCAGAAAGGC ATCAAGACGG TATGGACCTC 
    AGCAAGCAAT TACGCCTTGC CCAAGAACGA ATGCATTTCT CCCAGCAGGA GCTCCTAAAA 
    ACCCGACAAC AGTTGGCTGA GGCTCAGAAA GAATCAGACA GGCTTACACA ACAGCTAGAA 
    GGAATGGATC TCATTTCCAA AGAAAAGCTG CAGCATGCAG AACAAATGTT AGAAGAAACA 
    AATGAAACAA TATGTAATCT AAAGATGGAA CTTCAGGCCA GGAACGAGGT CATCAAAGCA 
    ACAAATGAAG TATTGATACT AAAGGAATCT GAGTTAACAC GGCTGAAAAC CCGGATTTCA 
    AGCTATGAAA GAACATTAGG CCTTAAGCAG CTGTCAGACA CTACTGCTAA CCCATCAGTA 
    TCTTTTATAG ATCACCACCC TATGGAATCA TACAAACATC CTGAGGCTTC AGACTTGTGG 
    CGGCTCAGCC CACCACTCAG TGCCAGTAAT CTAAGTCTGA CAGACATGAG CTCTTTGGAG 
    TTGCCTAAAA GCATGTTGGA AGTTATGAAG GACCTGGCTC CACCAGACTC TCCACCAATG 
    AAGGATACTA GCGAGGGGGC ATCTTGTGTG TCTTCTGATA GTCTGAACAA TTCTTCATTT 
    AACCCTCTTA CATACACGTT GGATGAAAAC TGTGATTTTA CTTCTGACTG CCCAGACCTA 
    ACAACTCTTA GTGGAATGCT TAAATACATA AAGAAAGAGA TGAGATTATC TGAATATCCA 
    GCGGAACATA GCCCCAGCAA GGATGCTGAG ATTGATGGCG GATTCTTAGG ATAG

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

    RefSeq XP_012817888.2
    CDS27..4100
    Translation

    Target ORF information:

    RefSeq Version XM_012962434.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_012962434.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGGTACTGA TCGATTTAGC AGTGTCAGCA GAACGAAGGA AGTATATTGT ACAAATGGAA 
    TTAAATATGC CAACATATAA TGATCACATT GAGGAACCAA AAGATGATCT TCTGTTAATG 
    GGCCAACTGA TGCGAGCAGA TTGGGGTATA AAGAATGTAG AAGAAAAGCT GTCTGTTGAC 
    CATTCTAGTG AGCATTCCCT AAGCAGAGCT CCACTGGGGC TCACTTTGGA AGATCTTGAG 
    CAGCCCGGTA ATCCCAGTGT CAGAGAAAAC CTGCTTAGAA GCAGAAACAC AGTTGCACAG 
    AATGGAGGAA ACTCTCTAAG GACATTCAAA GATAAGCTCA TCATCACACA ACCTGGATCG 
    TCAAGAAATA CAGAACAACA AAATAGGCAA TTAAAGGAAA AATTGAATTT TCTTCGAGAA 
    CAAAATGCTT CATTGGTGTC CCAAAACCAC TCTCTTATGA ATAAGATTGA CTGTGTACAG 
    TCAGAATTAA CAAAGTCCAG GTCTAGAATC CGCTATGTTG AGTCTACTGT TGGCGCAAGG 
    GCAATGAGAT TAACTGATCT GGAGGAGCGA TTAGTAATCT TGGAAGCCAA AGCTGAAGCT 
    CAAGAAAAAG CCCTTAGAAC TACAGAAGAT CAGCTAGAAC ATAGTCAGCA TATCTTGGCT 
    GAAAAAGAGA GCATTCTACA AAAGTTTAAA GAAGAGCTAA AGAAGCTGAA AGAAGAATTG 
    TTTGAATCCT GTAGGTTATG CAAAAGAACT GAAAAACAGA GAAATGAGGC ACTTTTCAAT 
    GCTGAAGAAC TCAAAAAAGC CTTTCAACAG TACAAAAACA AAATGGAAAA TAAAATGGAA 
    AAGGTTCAGG AAGAAGGGGA GCTCCTAAAA AAGAATATTT TAAGCTGTGA GAAAGAACAA 
    GAGGCTTTGC AGCAAAAGTG TGTAATGTTG GAAACTGAAC TGGAAAAGTC AAGGGAGCTT 
    TTAAGAAATG TGCAGTCTGA AAAGATTTCC AGCCAAGAGC GGCATCAGTG TGTTGAAGCC 
    AAAAATGCTG AACTTATTTC TCTGTTAACA CAGTCTAATC AGAGAATTCT TAGACTTGAA 
    AGTGAACTTG AACATAAAGG AAAAGTGCTC AAAGAGAACA CAAGTCTTCT TGATGAGAAC 
    AAAGCAGTGA AAGAATGTCC TGCAAAGACA AAACAAGAAA CGATCTCCAA TCAGTTACCA 
    GAACAACCTG CAGATTCTGT TTCTGATGAC AGCAGAATGA TTATTGCAGA GCTAAGGGCA 
    AAACTGTTAA TCAGAGAAGC AGAAAACCGA GAACTTCAAG CCAAACTTAC AAACAGAAAG 
    TTACTAACAA ACAGCTATAA AAATAACCAA GAAAAAGACT GCTTGGATGA ATTGGAGACC 
    GAACCAGTGA AACTGAACCA ACAAAATACA GCGGAGGAAA AATACCTGCA GCTCGAGCTC 
    CTCTGCAAGC AGATTCAGAT GGACAAGGAA AGACTTACAG ACCATGTGAA AGAATTACAA 
    GGGAAGTTCA GCCGGGCACG GACTGAACTT ACCAACACAA AGACTTCCAT GGAACAGAGA 
    ACCAGCCAGT TTCAGCTGAT ACAACAGGAG TTGCTGGAAA AAGCATCAAA AGCAACCAAG 
    TTAGAGCAGG AATTATTAAA GAAACGTATG AAGATCAGTG CGCTTCAGAA GCTGGTGGAA 
    GAAAAGACAC AGGTTTATTC TGCTGCTGAA ACCAGGAATG CAGAAGTGGA AAAAGAGCTT 
    AAGAAATATA AAGATCAAAT AGTCAACCTG GAAGACAATA TTAACAAAGA ACATGAAGAA 
    GTCCTCTTGA CATTTGAAAA ATCTAAAGAG ATCCATCTGG AGCAGCAGAA GGAATTGATG 
    AAACAGATAG AACATCTTCA GATTCAACTA GAAATGAAAA ATCTTCATGC AGGAGAACAA 
    GAACAGACAA TTGCAATCCT TCAGAAAGAA AATTTATCAA AGCAACAACA GCTGGAATCA 
    CTCAATCATC TTTTAACACA AGCAAGAAAG GAACTGGATA TTCAGACAAA GAATACAAGT 
    ACAACAATAA GAAGTCTAGA AAATCAAGTG GAGGTAGAAT CTGCTAAGGT GAGTCATCTG 
    GAGTCTGCTC TGACAGTCTG CAAAGAAGAA CTAGCCTTGT ATTTGCACGA GATAGAGGAC 
    AACAGAGAGC AATTTGAACA TCAAATCAAA ACAAAGTCTG AAGAGTTGTG TTGCTTGCAA 
    AATGAAGTCA AATTAAGGAC TCTGAGCCTG CAGGAAACAA GTGAGGAAAA TGTTCGCTTG 
    CAGCAAACTT TACAACAGCA GCAGAATATG TTGCAACAGG GAACTGCACG AATTGGAGAG 
    CTGGAGGACC ACCAGACAGA GTTAGAAAAA CAGGTTTCCA AACTTGAATA TGAACTTGAG 
    AAGCAAAGAT CCATCTCAGA AGATAAGCTT CAGAGGACAC AAGATTTGCT GCATGCGGCC 
    AATAGGGAAA TAGGTCTAAA AACCCAAGAA GTACAGGAGG TGTGCTGCAC ACTGAATGAG 
    GTTAAACTTG AACTAAAACA TTCCAAGGTG AAAATCCTGC AAATGGAAGA AGAGTTGGTC 
    TCCTTCAAAA GCAAAGAAGA AAACAATGCC AGCATGTTTA ACCAGCTGCA GAAGGATTTG 
    CAGAAAACAC AAGTGGAACT GGACATGAAA AAATGTGTTG GGACAGAATT AGAGGAAAAA 
    TTACACAGTG CTGAAAAGGA CATTAAAAGA AAAGAAGAGA TGGAGATACA GCTCAGTGCT 
    ATGCAAAAGG ATTTAGAGGG CTATACAAAA CACATTGAGG AATTACAGGA AACACTGACA 
    AAAACCCACT TGTCTGTGGA GGAGAAGCAA GTAATTATAG AAGGCCTTAC AGAAGAGCTG 
    AGATCATGTA AGCAAGAACT TGAGGAGAGA GACCACGAAT TGCTAGATAT GGATCAGCTG 
    CTAAAAGATC GCAACTGGGA ACTGAAACAG CGAGCTGCAC AATTAACCCA GCTGGACATG 
    AGTATTCGGG AGCACAAAGG AGAGATGGAA CAAAAAATTC TAAGACTGGA AAGTGCTTTG 
    GAGAAAGCTA AATTAGAAGA CCGGGATCAT ATTAAGGAGA TCACATCTTT AGATGAAAGA 
    TTGCAACAAA CAAGAGATCA GCTCTGTGAA AAAGATTTTG ACTTGGTGCA AAAAGACCAA 
    GTTATAAATC AACTGAAGAA GGACATTGAG CGAAGTCAGC AAACAATTAC TGATATGGAA 
    AAGACTTTAA AAGTGCAGGA GCAACGTATC TCAGAAAGGC ATCAAGACGG TATGGACCTC 
    AGCAAGCAAT TACGCCTTGC CCAAGAACGA ATGCATTTCT CCCAGCAGGA GCTCCTAAAA 
    ACCCGACAAC AGTTGGCTGA GGCTCAGAAA GAATCAGACA GGCTTACACA ACAGCTAGAA 
    GGAATGGATC TCATTTCCAA AGAAAAGCTG CAGCATGCAG AACAAATGTT AGAAGAAACA 
    AATGAAACAA TATGTAATCT AAAGATGGAA CTTCAGGCCA GGAACGAGGT CATCAAAGCA 
    ACAAATGAAG TATTGATACT AAAGGAATCT GAGTTAACAC GGCTGAAAAC CCGGATTTCA 
    AGCTATGAAA GAACATTAGG CCTTAAGCAG CTGTCAGACA CTACTGCTAA CCCATCAGTA 
    TCTTTTATAG ATCACCACCC TATGGAATCA TACAAACATC CTGAGGCTTC AGACTTGTGG 
    CGGCTCAGCC CACCACTCAG TGCCAGTAAT CTAAGTCTGA CAGACATGAG CTCTTTGGAG 
    TTGCCTAAAA GCATGTTGGA AGTTATGAAG GACCTGGCTC CACCAGACTC TCCACCAATG 
    AAGGATACTA GCGAGGGGGC ATCTTGTGTG TCTTCTGATA GTCTGAACAA TTCTTCATTT 
    AACCCTCTTA CATACACGTT GGATGAAAAC TGTGATTTTA CTTCTGACTG CCCAGACCTA 
    ACAACTCTTA GTGGAATGCT TAAATACATA AAGAAAGAGA TGAGATTATC TGAATATCCA 
    GCGGAACATA GCCCCAGCAA GGATGCTGAG ATTGATGGCG GATTCTTAGG ATAG

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

    ccdc18 ( XM_031901001.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031756861.1 Xenopus tropicalis coiled-coil domain containing 18 (ccdc18), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OXa57260
    Clone ID Related Accession (Same CDS sequence) XM_031901001.1
    Accession Version XM_031901001.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4026bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030680.2) 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 :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGGAATTAA ATATGCCAAC ATATAATGAT CACATTGAGG AACCAAAAGA TGATCTTCTG 
    TTAATGGGCC AACTGATGCG AGCAGATTGG GGTATAAAGA ATGTAGAAGA AAAGCTGTCT 
    GTTGACCATT CTAGTGAGCA TTCCCTAAGC AGAGCTCCAC TGGGGCTCAC TTTGGAAGAT 
    CTTGAGCAGC CCGGTAATCC CAGTGTCAGA GAAAACCTGC TTAGAAGCAG AAACACAGTT 
    GCACAGAATG GAGGAAACTC TCTAAGGACA TTCAAAGATA AGCTCATCAT CACACAACCT 
    GGATCGTCAA GAAATACAGA ACAACAAAAT AGGCAATTAA AGGAAAAATT GAATTTTCTT 
    CGAGAACAAA ATGCTTCATT GGTGTCCCAA AACCACTCTC TTATGAATAA GATTGACTGT 
    GTACAGTCAG AATTAACAAA GTCCAGGTCT AGAATCCGCT ATGTTGAGTC TACTGTTGGC 
    GCAAGGGCAA TGAGATTAAC TGATCTGGAG GAGCGATTAG TAATCTTGGA AGCCAAAGCT 
    GAAGCTCAAG AAAAAGCCCT TAGAACTACA GAAGATCAGC TAGAACATAG TCAGCATATC 
    TTGGCTGAAA AAGAGAGCAT TCTACAAAAG TTTAAAGAAG AGCTAAAGAA GCTGAAAGAA 
    GAATTGTTTG AATCCTGTAG GTTATGCAAA AGAACTGAAA AACAGAGAAA TGAGGCACTT 
    TTCAATGCTG AAGAACTCAA AAAAGCCTTT CAACAGTACA AAAACAAAAT GGAAAATAAA 
    ATGGAAAAGG TTCAGGAAGA AGGGGAGCTC CTAAAAAAGA ATATTTTAAG CTGTGAGAAA 
    GAACAAGAGG CTTTGCAGCA AAAGTGTGTA ATGTTGGAAA CTGAACTGGA AAAGTCAAGG 
    GAGCTTTTAA GAAATGTGCA GTCTGAAAAG ATTTCCAGCC AAGAGCGGCA TCAGTGTGTT 
    GAAGCCAAAA ATGCTGAACT TATTTCTCTG TTAACACAGT CTAATCAGAG AATTCTTAGA 
    CTTGAAAGTG AACTTGAACA TAAAGGAAAA GTGCTCAAAG AGAACACAAG TCTTCTTGAT 
    GAGAACAAAG CAGTGAAAGA ATGTCCTGCA AAGACAAAAC AAGAAACGAT CTCCAATCAG 
    TTACCAGAAC AACCTGCAGA TTCTGTTTCT GATGACAGCA GAATGATTAT TGCAGAGCTA 
    AGGGCAAAAC TGTTAATCAG AGAAGCAGAA AACCGAGAAC TTCAAGCCAA ACTTACAAAC 
    AGAAAGTTAC TAACAAACAG CTATAAAAAT AACCAAGAAA AAGACTGCTT GGATGAATTG 
    GAGACCGAAC CAGTGAAACT GAACCAACAA AATACAGCGG AGGAAAAATA CCTGCAGCTC 
    GAGCTCCTCT GCAAGCAGAT TCAGATGGAC AAGGAAAGAC TTACAGACCA TGTGAAAGAA 
    TTACAAGGGA AGTTCAGCCG GGCACGGACT GAACTTACCA ACACAAAGAC TTCCATGGAA 
    CAGAGAACCA GCCAGTTTCA GCTGATACAA CAGGAGTTGC TGGAAAAAGC ATCAAAAGCA 
    ACCAAGTTAG AGCAGGAATT ATTAAAGAAA CGTATGAAGA TCAGTGCGCT TCAGAAGCTG 
    GTGGAAGAAA AGACACAGGT TTATTCTGCT GCTGAAACCA GGAATGCAGA AGTGGAAAAA 
    GAGCTTAAGA AATATAAAGA TCAAATAGTC AACCTGGAAG ACAATATTAA CAAAGAACAT 
    GAAGAAGTCC TCTTGACATT TGAAAAATCT AAAGAGATCC ATCTGGAGCA GCAGAAGGAA 
    TTGATGAAAC AGATAGAACA TCTTCAGATT CAACTAGAAA TGAAAAATCT TCATGCAGGA 
    GAACAAGAAC AGACAATTGC AATCCTTCAG AAAGAAAATT TATCAAAGCA ACAACAGCTG 
    GAATCACTCA ATCATCTTTT AACACAAGCA AGAAAGGCGC AGGAACTGGA TATTCAGACA 
    AAGAATACAA GTACAACAAT AAGAAGTCTA GAAAATCAAG TGGAGGTAGA ATCTGCTAAG 
    GTGAGTCATC TGGAGTCTGC TCTGACAGTC TGCAAAGAAG AACTAGCCTT GTATTTGCAC 
    GAGATAGAGG ACAACAGAGA GCAATTTGAA CATCAAATCA AAACAAAGTC TGAAGAGTTG 
    TGTTGCTTGC AAAATGAAGT CAAATTAAGG ACTCTGAGCC TGCAGGAAAC AAGTGAGGAA 
    AATGTTCGCT TGCAGCAAAC TTTACAACAG CAGCAGAATA TGTTGCAACA GGGAACTGCA 
    CGAATTGGAG AGCTGGAGGA CCACCAGACA GAGTTAGAAA AACAGGTTTC CAAACTTGAA 
    TATGAACTTG AGAAGCAAAG ATCCATCTCA GAAGATAAGC TTCAGAGGAC ACAAGATTTG 
    CTGCATGCGG CCAATAGGGA AATAGGTCTA AAAACCCAAG AAGTACAGGA GGTGTGCTGC 
    ACACTGAATG AGGTTAAACT TGAACTAAAA CATTCCAAGG TGAAAATCCT GCAAATGGAA 
    GAAGAGTTGG TCTCCTTCAA AAGCAAAGAA GAAAACAATG CCAGCATGTT TAACCAGCTG 
    CAGAAGGATT TGCAGAAAAC ACAAGTGGAA CTGGACATGA AAAAATGTGT TGGGACAGAA 
    TTAGAGGAAA AATTACACAG TGCTGAAAAG GACATTAAAA GAAAAGAAGA GATGGAGATA 
    CAGCTCAGTG CTATGCAAAA GGATTTAGAG GGCTATACAA AACACATTGA GGAATTACAG 
    GAAACACTGA CAAAAACCCA CTTGTCTGTG GAGGAGAAGC AAGTAATTAT AGAAGGCCTT 
    ACAGAAGAGC TGAGATCATG TAAGCAAGAA CTTGAGGAGA GAGACCACGA ATTGCTAGAT 
    ATGGATCAGC TGCTAAAAGA TCGCAACTGG GAACTGAAAC AGCGAGCTGC ACAATTAACC 
    CAGCTGGACA TGAGTATTCG GGAGCACAAA GGAGAGATGG AACAAAAAAT TCTAAGACTG 
    GAAAGTGCTT TGGAGAAAGC TAAATTAGAA GACCGGGATC ATATTAAGGA GATCACATCT 
    TTAGATGAAA GATTGCAACA AACAAGAGAT CAGCTCTGTG AAAAAGATTT TGACTTGGTG 
    CAAAAAGACC AAGTTATAAA TCAACTGAAG AAGGACATTG AGCGAAGTCA GCAAACAATT 
    ACTGATATGG AAAAGACTTT AAAAGTGCAG GAGCAACGTA TCTCAGAAAG GCATCAAGAC 
    GGTATGGACC TCAGCAAGCA ATTACGCCTT GCCCAAGAAC GAATGCATTT CTCCCAGCAG 
    GAGCTCCTAA AAACCCGACA ACAGTTGGCT GAGGCTCAGA AAGAATCAGA CAGGCTTACA 
    CAACAGCTAG AAGGAATGGA TCTCATTTCC AAAGAAAAGC TGCAGCATGC AGAACAAATG 
    TTAGAAGAAA CAAATGAAAC AATATGTAAT CTAAAGATGG AACTTCAGGC CAGGAACGAG 
    GTCATCAAAG CAACAAATGA AGTATTGATA CTAAAGGAAT CTGAGTTAAC ACGGCTGAAA 
    ACCCGGATTT CAAGCTATGA AAGAACATTA GGCCTTAAGC AGCTGTCAGA CACTACTGCT 
    AACCCATCAG TATCTTTTAT AGATCACCAC CCTATGGAAT CATACAAACA TCCTGAGGCT 
    TCAGACTTGT GGCGGCTCAG CCCACCACTC AGTGCCAGTA ATCTAAGTCT GACAGACATG 
    AGCTCTTTGG AGTTGCCTAA AAGCATGTTG GAAGTTATGA AGGACCTGGC TCCACCAGAC 
    TCTCCACCAA TGAAGGATAC TAGCGAGGGG GCATCTTGTG TGTCTTCTGA TAGTCTGAAC 
    AATTCTTCAT TTAACCCTCT TACATACACG TTGGATGAAA ACTGTGATTT TACTTCTGAC 
    TGCCCAGACC TAACAACTCT TAGTGGAATG CTTAAATACA TAAAGAAAGA GATGAGATTA 
    TCTGAATATC CAGCGGAACA TAGCCCCAGC AAGGATGCTG AGATTGATGG CGGATTCTTA 
    GGATAG

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

    RefSeq XP_031756861.1
    CDS272..4297
    Translation

    Target ORF information:

    RefSeq Version XM_031901001.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_031901001.1

    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
    ATGGAATTAA ATATGCCAAC ATATAATGAT CACATTGAGG AACCAAAAGA TGATCTTCTG 
    TTAATGGGCC AACTGATGCG AGCAGATTGG GGTATAAAGA ATGTAGAAGA AAAGCTGTCT 
    GTTGACCATT CTAGTGAGCA TTCCCTAAGC AGAGCTCCAC TGGGGCTCAC TTTGGAAGAT 
    CTTGAGCAGC CCGGTAATCC CAGTGTCAGA GAAAACCTGC TTAGAAGCAG AAACACAGTT 
    GCACAGAATG GAGGAAACTC TCTAAGGACA TTCAAAGATA AGCTCATCAT CACACAACCT 
    GGATCGTCAA GAAATACAGA ACAACAAAAT AGGCAATTAA AGGAAAAATT GAATTTTCTT 
    CGAGAACAAA ATGCTTCATT GGTGTCCCAA AACCACTCTC TTATGAATAA GATTGACTGT 
    GTACAGTCAG AATTAACAAA GTCCAGGTCT AGAATCCGCT ATGTTGAGTC TACTGTTGGC 
    GCAAGGGCAA TGAGATTAAC TGATCTGGAG GAGCGATTAG TAATCTTGGA AGCCAAAGCT 
    GAAGCTCAAG AAAAAGCCCT TAGAACTACA GAAGATCAGC TAGAACATAG TCAGCATATC 
    TTGGCTGAAA AAGAGAGCAT TCTACAAAAG TTTAAAGAAG AGCTAAAGAA GCTGAAAGAA 
    GAATTGTTTG AATCCTGTAG GTTATGCAAA AGAACTGAAA AACAGAGAAA TGAGGCACTT 
    TTCAATGCTG AAGAACTCAA AAAAGCCTTT CAACAGTACA AAAACAAAAT GGAAAATAAA 
    ATGGAAAAGG TTCAGGAAGA AGGGGAGCTC CTAAAAAAGA ATATTTTAAG CTGTGAGAAA 
    GAACAAGAGG CTTTGCAGCA AAAGTGTGTA ATGTTGGAAA CTGAACTGGA AAAGTCAAGG 
    GAGCTTTTAA GAAATGTGCA GTCTGAAAAG ATTTCCAGCC AAGAGCGGCA TCAGTGTGTT 
    GAAGCCAAAA ATGCTGAACT TATTTCTCTG TTAACACAGT CTAATCAGAG AATTCTTAGA 
    CTTGAAAGTG AACTTGAACA TAAAGGAAAA GTGCTCAAAG AGAACACAAG TCTTCTTGAT 
    GAGAACAAAG CAGTGAAAGA ATGTCCTGCA AAGACAAAAC AAGAAACGAT CTCCAATCAG 
    TTACCAGAAC AACCTGCAGA TTCTGTTTCT GATGACAGCA GAATGATTAT TGCAGAGCTA 
    AGGGCAAAAC TGTTAATCAG AGAAGCAGAA AACCGAGAAC TTCAAGCCAA ACTTACAAAC 
    AGAAAGTTAC TAACAAACAG CTATAAAAAT AACCAAGAAA AAGACTGCTT GGATGAATTG 
    GAGACCGAAC CAGTGAAACT GAACCAACAA AATACAGCGG AGGAAAAATA CCTGCAGCTC 
    GAGCTCCTCT GCAAGCAGAT TCAGATGGAC AAGGAAAGAC TTACAGACCA TGTGAAAGAA 
    TTACAAGGGA AGTTCAGCCG GGCACGGACT GAACTTACCA ACACAAAGAC TTCCATGGAA 
    CAGAGAACCA GCCAGTTTCA GCTGATACAA CAGGAGTTGC TGGAAAAAGC ATCAAAAGCA 
    ACCAAGTTAG AGCAGGAATT ATTAAAGAAA CGTATGAAGA TCAGTGCGCT TCAGAAGCTG 
    GTGGAAGAAA AGACACAGGT TTATTCTGCT GCTGAAACCA GGAATGCAGA AGTGGAAAAA 
    GAGCTTAAGA AATATAAAGA TCAAATAGTC AACCTGGAAG ACAATATTAA CAAAGAACAT 
    GAAGAAGTCC TCTTGACATT TGAAAAATCT AAAGAGATCC ATCTGGAGCA GCAGAAGGAA 
    TTGATGAAAC AGATAGAACA TCTTCAGATT CAACTAGAAA TGAAAAATCT TCATGCAGGA 
    GAACAAGAAC AGACAATTGC AATCCTTCAG AAAGAAAATT TATCAAAGCA ACAACAGCTG 
    GAATCACTCA ATCATCTTTT AACACAAGCA AGAAAGGCGC AGGAACTGGA TATTCAGACA 
    AAGAATACAA GTACAACAAT AAGAAGTCTA GAAAATCAAG TGGAGGTAGA ATCTGCTAAG 
    GTGAGTCATC TGGAGTCTGC TCTGACAGTC TGCAAAGAAG AACTAGCCTT GTATTTGCAC 
    GAGATAGAGG ACAACAGAGA GCAATTTGAA CATCAAATCA AAACAAAGTC TGAAGAGTTG 
    TGTTGCTTGC AAAATGAAGT CAAATTAAGG ACTCTGAGCC TGCAGGAAAC AAGTGAGGAA 
    AATGTTCGCT TGCAGCAAAC TTTACAACAG CAGCAGAATA TGTTGCAACA GGGAACTGCA 
    CGAATTGGAG AGCTGGAGGA CCACCAGACA GAGTTAGAAA AACAGGTTTC CAAACTTGAA 
    TATGAACTTG AGAAGCAAAG ATCCATCTCA GAAGATAAGC TTCAGAGGAC ACAAGATTTG 
    CTGCATGCGG CCAATAGGGA AATAGGTCTA AAAACCCAAG AAGTACAGGA GGTGTGCTGC 
    ACACTGAATG AGGTTAAACT TGAACTAAAA CATTCCAAGG TGAAAATCCT GCAAATGGAA 
    GAAGAGTTGG TCTCCTTCAA AAGCAAAGAA GAAAACAATG CCAGCATGTT TAACCAGCTG 
    CAGAAGGATT TGCAGAAAAC ACAAGTGGAA CTGGACATGA AAAAATGTGT TGGGACAGAA 
    TTAGAGGAAA AATTACACAG TGCTGAAAAG GACATTAAAA GAAAAGAAGA GATGGAGATA 
    CAGCTCAGTG CTATGCAAAA GGATTTAGAG GGCTATACAA AACACATTGA GGAATTACAG 
    GAAACACTGA CAAAAACCCA CTTGTCTGTG GAGGAGAAGC AAGTAATTAT AGAAGGCCTT 
    ACAGAAGAGC TGAGATCATG TAAGCAAGAA CTTGAGGAGA GAGACCACGA ATTGCTAGAT 
    ATGGATCAGC TGCTAAAAGA TCGCAACTGG GAACTGAAAC AGCGAGCTGC ACAATTAACC 
    CAGCTGGACA TGAGTATTCG GGAGCACAAA GGAGAGATGG AACAAAAAAT TCTAAGACTG 
    GAAAGTGCTT TGGAGAAAGC TAAATTAGAA GACCGGGATC ATATTAAGGA GATCACATCT 
    TTAGATGAAA GATTGCAACA AACAAGAGAT CAGCTCTGTG AAAAAGATTT TGACTTGGTG 
    CAAAAAGACC AAGTTATAAA TCAACTGAAG AAGGACATTG AGCGAAGTCA GCAAACAATT 
    ACTGATATGG AAAAGACTTT AAAAGTGCAG GAGCAACGTA TCTCAGAAAG GCATCAAGAC 
    GGTATGGACC TCAGCAAGCA ATTACGCCTT GCCCAAGAAC GAATGCATTT CTCCCAGCAG 
    GAGCTCCTAA AAACCCGACA ACAGTTGGCT GAGGCTCAGA AAGAATCAGA CAGGCTTACA 
    CAACAGCTAG AAGGAATGGA TCTCATTTCC AAAGAAAAGC TGCAGCATGC AGAACAAATG 
    TTAGAAGAAA CAAATGAAAC AATATGTAAT CTAAAGATGG AACTTCAGGC CAGGAACGAG 
    GTCATCAAAG CAACAAATGA AGTATTGATA CTAAAGGAAT CTGAGTTAAC ACGGCTGAAA 
    ACCCGGATTT CAAGCTATGA AAGAACATTA GGCCTTAAGC AGCTGTCAGA CACTACTGCT 
    AACCCATCAG TATCTTTTAT AGATCACCAC CCTATGGAAT CATACAAACA TCCTGAGGCT 
    TCAGACTTGT GGCGGCTCAG CCCACCACTC AGTGCCAGTA ATCTAAGTCT GACAGACATG 
    AGCTCTTTGG AGTTGCCTAA AAGCATGTTG GAAGTTATGA AGGACCTGGC TCCACCAGAC 
    TCTCCACCAA TGAAGGATAC TAGCGAGGGG GCATCTTGTG TGTCTTCTGA TAGTCTGAAC 
    AATTCTTCAT TTAACCCTCT TACATACACG TTGGATGAAA ACTGTGATTT TACTTCTGAC 
    TGCCCAGACC TAACAACTCT TAGTGGAATG CTTAAATACA TAAAGAAAGA GATGAGATTA 
    TCTGAATATC CAGCGGAACA TAGCCCCAGC AAGGATGCTG AGATTGATGG CGGATTCTTA 
    GGATAG

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

    ccdc18 ( XM_002933794.5 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_002933840.3 Xenopus tropicalis coiled-coil domain containing 18 (ccdc18), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OXa57261
    Clone ID Related Accession (Same CDS sequence) XM_002933794.5
    Accession Version XM_002933794.5 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4020bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030680.2) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_002933794.4. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGGAATTAA ATATGCCAAC ATATAATGAT CACATTGAGG AACCAAAAGA TGATCTTCTG 
    TTAATGGGCC AACTGATGCG AGCAGATTGG GGTATAAAGA ATGTAGAAGA AAAGCTGTCT 
    GTTGACCATT CTAGTGAGCA TTCCCTAAGC AGAGCTCCAC TGGGGCTCAC TTTGGAAGAT 
    CTTGAGCAGC CCGGTAATCC CAGTGTCAGA GAAAACCTGC TTAGAAGCAG AAACACAGTT 
    GCACAGAATG GAGGAAACTC TCTAAGGACA TTCAAAGATA AGCTCATCAT CACACAACCT 
    GGATCGTCAA GAAATACAGA ACAACAAAAT AGGCAATTAA AGGAAAAATT GAATTTTCTT 
    CGAGAACAAA ATGCTTCATT GGTGTCCCAA AACCACTCTC TTATGAATAA GATTGACTGT 
    GTACAGTCAG AATTAACAAA GTCCAGGTCT AGAATCCGCT ATGTTGAGTC TACTGTTGGC 
    GCAAGGGCAA TGAGATTAAC TGATCTGGAG GAGCGATTAG TAATCTTGGA AGCCAAAGCT 
    GAAGCTCAAG AAAAAGCCCT TAGAACTACA GAAGATCAGC TAGAACATAG TCAGCATATC 
    TTGGCTGAAA AAGAGAGCAT TCTACAAAAG TTTAAAGAAG AGCTAAAGAA GCTGAAAGAA 
    GAATTGTTTG AATCCTGTAG GTTATGCAAA AGAACTGAAA AACAGAGAAA TGAGGCACTT 
    TTCAATGCTG AAGAACTCAA AAAAGCCTTT CAACAGTACA AAAACAAAAT GGAAAATAAA 
    ATGGAAAAGG TTCAGGAAGA AGGGGAGCTC CTAAAAAAGA ATATTTTAAG CTGTGAGAAA 
    GAACAAGAGG CTTTGCAGCA AAAGTGTGTA ATGTTGGAAA CTGAACTGGA AAAGTCAAGG 
    GAGCTTTTAA GAAATGTGCA GTCTGAAAAG ATTTCCAGCC AAGAGCGGCA TCAGTGTGTT 
    GAAGCCAAAA ATGCTGAACT TATTTCTCTG TTAACACAGT CTAATCAGAG AATTCTTAGA 
    CTTGAAAGTG AACTTGAACA TAAAGGAAAA GTGCTCAAAG AGAACACAAG TCTTCTTGAT 
    GAGAACAAAG CAGTGAAAGA ATGTCCTGCA AAGACAAAAC AAGAAACGAT CTCCAATCAG 
    TTACCAGAAC AACCTGCAGA TTCTGTTTCT GATGACAGCA GAATGATTAT TGCAGAGCTA 
    AGGGCAAAAC TGTTAATCAG AGAAGCAGAA AACCGAGAAC TTCAAGCCAA ACTTACAAAC 
    AGAAAGTTAC TAACAAACAG CTATAAAAAT AACCAAGAAA AAGACTGCTT GGATGAATTG 
    GAGACCGAAC CAGTGAAACT GAACCAACAA AATACAGCGG AGGAAAAATA CCTGCAGCTC 
    GAGCTCCTCT GCAAGCAGAT TCAGATGGAC AAGGAAAGAC TTACAGACCA TGTGAAAGAA 
    TTACAAGGGA AGTTCAGCCG GGCACGGACT GAACTTACCA ACACAAAGAC TTCCATGGAA 
    CAGAGAACCA GCCAGTTTCA GCTGATACAA CAGGAGTTGC TGGAAAAAGC ATCAAAAGCA 
    ACCAAGTTAG AGCAGGAATT ATTAAAGAAA CGTATGAAGA TCAGTGCGCT TCAGAAGCTG 
    GTGGAAGAAA AGACACAGGT TTATTCTGCT GCTGAAACCA GGAATGCAGA AGTGGAAAAA 
    GAGCTTAAGA AATATAAAGA TCAAATAGTC AACCTGGAAG ACAATATTAA CAAAGAACAT 
    GAAGAAGTCC TCTTGACATT TGAAAAATCT AAAGAGATCC ATCTGGAGCA GCAGAAGGAA 
    TTGATGAAAC AGATAGAACA TCTTCAGATT CAACTAGAAA TGAAAAATCT TCATGCAGGA 
    GAACAAGAAC AGACAATTGC AATCCTTCAG AAAGAAAATT TATCAAAGCA ACAACAGCTG 
    GAATCACTCA ATCATCTTTT AACACAAGCA AGAAAGGAAC TGGATATTCA GACAAAGAAT 
    ACAAGTACAA CAATAAGAAG TCTAGAAAAT CAAGTGGAGG TAGAATCTGC TAAGGTGAGT 
    CATCTGGAGT CTGCTCTGAC AGTCTGCAAA GAAGAACTAG CCTTGTATTT GCACGAGATA 
    GAGGACAACA GAGAGCAATT TGAACATCAA ATCAAAACAA AGTCTGAAGA GTTGTGTTGC 
    TTGCAAAATG AAGTCAAATT AAGGACTCTG AGCCTGCAGG AAACAAGTGA GGAAAATGTT 
    CGCTTGCAGC AAACTTTACA ACAGCAGCAG AATATGTTGC AACAGGGAAC TGCACGAATT 
    GGAGAGCTGG AGGACCACCA GACAGAGTTA GAAAAACAGG TTTCCAAACT TGAATATGAA 
    CTTGAGAAGC AAAGATCCAT CTCAGAAGAT AAGCTTCAGA GGACACAAGA TTTGCTGCAT 
    GCGGCCAATA GGGAAATAGG TCTAAAAACC CAAGAAGTAC AGGAGGTGTG CTGCACACTG 
    AATGAGGTTA AACTTGAACT AAAACATTCC AAGGTGAAAA TCCTGCAAAT GGAAGAAGAG 
    TTGGTCTCCT TCAAAAGCAA AGAAGAAAAC AATGCCAGCA TGTTTAACCA GCTGCAGAAG 
    GATTTGCAGA AAACACAAGT GGAACTGGAC ATGAAAAAAT GTGTTGGGAC AGAATTAGAG 
    GAAAAATTAC ACAGTGCTGA AAAGGACATT AAAAGAAAAG AAGAGATGGA GATACAGCTC 
    AGTGCTATGC AAAAGGATTT AGAGGGCTAT ACAAAACACA TTGAGGAATT ACAGGAAACA 
    CTGACAAAAA CCCACTTGTC TGTGGAGGAG AAGCAAGTAA TTATAGAAGG CCTTACAGAA 
    GAGCTGAGAT CATGTAAGCA AGAACTTGAG GAGAGAGACC ACGAATTGCT AGATATGGAT 
    CAGCTGCTAA AAGATCGCAA CTGGGAACTG AAACAGCGAG CTGCACAATT AACCCAGCTG 
    GACATGAGTA TTCGGGAGCA CAAAGGAGAG ATGGAACAAA AAATTCTAAG ACTGGAAAGT 
    GCTTTGGAGA AAGCTAAATT AGAAGACCGG GATCATATTA AGGAGATCAC ATCTTTAGAT 
    GAAAGATTGC AACAAACAAG AGATCAGCTC TGTGAAAAAG ATTTTGACTT GGTGCAAAAA 
    GACCAAGTTA TAAATCAACT GAAGAAGGAC ATTGAGCGAA GTCAGCAAAC AATTACTGAT 
    ATGGAAAAGA CTTTAAAAGT GCAGGAGCAA CGTATCTCAG AAAGGCATCA AGACGGTATG 
    GACCTCAGCA AGCAATTACG CCTTGCCCAA GAACGAATGC ATTTCTCCCA GCAGGAGCTC 
    CTAAAAACCC GACAACAGTT GGCTGAGGCT CAGAAAGAAT CAGACAGGCT TACACAACAG 
    CTAGAAGGAA TGGATCTCAT TTCCAAAGAA AAGCTGCAGC ATGCAGAACA AATGTTAGAA 
    GAAACAAATG AAACAATATG TAATCTAAAG ATGGAACTTC AGGCCAGGAA CGAGGTCATC 
    AAAGCAACAA ATGAAGTATT GATACTAAAG GAATCTGAGT TAACACGGCT GAAAACCCGG 
    ATTTCAAGCT ATGAAAGAAC ATTAGGCCTT AAGCAGCTGT CAGACACTAC TGCTAACCCA 
    TCAGTATCTT TTATAGATCA CCACCCTATG GAATCATACA AACATCCTGA GGCTTCAGAC 
    TTGTGGCGGC TCAGCCCACC ACTCAGTGCC AGTAATCTAA GTCTGACAGA CATGAGCTCT 
    TTGGAGTTGC CTAAAAGCAT GTTGGAAGTT ATGAAGGACC TGGCTCCACC AGACTCTCCA 
    CCAATGAAGG ATACTAGCGA GGGGGCATCT TGTGTGTCTT CTGATAGTCT GAACAATTCT 
    TCATTTAACC CTCTTACATA CACGTTGGAT GAAAACTGTG ATTTTACTTC TGACTGCCCA 
    GACCTAACAA CTCTTAGTGG AATGCTTAAA TACATAAAGA AAGAGATGAG ATTATCTGAA 
    TATCCAGCGG AACATAGCCC CAGCAAGGAT GCTGAGATTG ATGGCGGATT CTTAGGATAG

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

    RefSeq XP_002933840.3
    CDS129..4148
    Translation

    Target ORF information:

    RefSeq Version XM_002933794.5
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_002933794.5

    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
    ATGGAATTAA ATATGCCAAC ATATAATGAT CACATTGAGG AACCAAAAGA TGATCTTCTG 
    TTAATGGGCC AACTGATGCG AGCAGATTGG GGTATAAAGA ATGTAGAAGA AAAGCTGTCT 
    GTTGACCATT CTAGTGAGCA TTCCCTAAGC AGAGCTCCAC TGGGGCTCAC TTTGGAAGAT 
    CTTGAGCAGC CCGGTAATCC CAGTGTCAGA GAAAACCTGC TTAGAAGCAG AAACACAGTT 
    GCACAGAATG GAGGAAACTC TCTAAGGACA TTCAAAGATA AGCTCATCAT CACACAACCT 
    GGATCGTCAA GAAATACAGA ACAACAAAAT AGGCAATTAA AGGAAAAATT GAATTTTCTT 
    CGAGAACAAA ATGCTTCATT GGTGTCCCAA AACCACTCTC TTATGAATAA GATTGACTGT 
    GTACAGTCAG AATTAACAAA GTCCAGGTCT AGAATCCGCT ATGTTGAGTC TACTGTTGGC 
    GCAAGGGCAA TGAGATTAAC TGATCTGGAG GAGCGATTAG TAATCTTGGA AGCCAAAGCT 
    GAAGCTCAAG AAAAAGCCCT TAGAACTACA GAAGATCAGC TAGAACATAG TCAGCATATC 
    TTGGCTGAAA AAGAGAGCAT TCTACAAAAG TTTAAAGAAG AGCTAAAGAA GCTGAAAGAA 
    GAATTGTTTG AATCCTGTAG GTTATGCAAA AGAACTGAAA AACAGAGAAA TGAGGCACTT 
    TTCAATGCTG AAGAACTCAA AAAAGCCTTT CAACAGTACA AAAACAAAAT GGAAAATAAA 
    ATGGAAAAGG TTCAGGAAGA AGGGGAGCTC CTAAAAAAGA ATATTTTAAG CTGTGAGAAA 
    GAACAAGAGG CTTTGCAGCA AAAGTGTGTA ATGTTGGAAA CTGAACTGGA AAAGTCAAGG 
    GAGCTTTTAA GAAATGTGCA GTCTGAAAAG ATTTCCAGCC AAGAGCGGCA TCAGTGTGTT 
    GAAGCCAAAA ATGCTGAACT TATTTCTCTG TTAACACAGT CTAATCAGAG AATTCTTAGA 
    CTTGAAAGTG AACTTGAACA TAAAGGAAAA GTGCTCAAAG AGAACACAAG TCTTCTTGAT 
    GAGAACAAAG CAGTGAAAGA ATGTCCTGCA AAGACAAAAC AAGAAACGAT CTCCAATCAG 
    TTACCAGAAC AACCTGCAGA TTCTGTTTCT GATGACAGCA GAATGATTAT TGCAGAGCTA 
    AGGGCAAAAC TGTTAATCAG AGAAGCAGAA AACCGAGAAC TTCAAGCCAA ACTTACAAAC 
    AGAAAGTTAC TAACAAACAG CTATAAAAAT AACCAAGAAA AAGACTGCTT GGATGAATTG 
    GAGACCGAAC CAGTGAAACT GAACCAACAA AATACAGCGG AGGAAAAATA CCTGCAGCTC 
    GAGCTCCTCT GCAAGCAGAT TCAGATGGAC AAGGAAAGAC TTACAGACCA TGTGAAAGAA 
    TTACAAGGGA AGTTCAGCCG GGCACGGACT GAACTTACCA ACACAAAGAC TTCCATGGAA 
    CAGAGAACCA GCCAGTTTCA GCTGATACAA CAGGAGTTGC TGGAAAAAGC ATCAAAAGCA 
    ACCAAGTTAG AGCAGGAATT ATTAAAGAAA CGTATGAAGA TCAGTGCGCT TCAGAAGCTG 
    GTGGAAGAAA AGACACAGGT TTATTCTGCT GCTGAAACCA GGAATGCAGA AGTGGAAAAA 
    GAGCTTAAGA AATATAAAGA TCAAATAGTC AACCTGGAAG ACAATATTAA CAAAGAACAT 
    GAAGAAGTCC TCTTGACATT TGAAAAATCT AAAGAGATCC ATCTGGAGCA GCAGAAGGAA 
    TTGATGAAAC AGATAGAACA TCTTCAGATT CAACTAGAAA TGAAAAATCT TCATGCAGGA 
    GAACAAGAAC AGACAATTGC AATCCTTCAG AAAGAAAATT TATCAAAGCA ACAACAGCTG 
    GAATCACTCA ATCATCTTTT AACACAAGCA AGAAAGGAAC TGGATATTCA GACAAAGAAT 
    ACAAGTACAA CAATAAGAAG TCTAGAAAAT CAAGTGGAGG TAGAATCTGC TAAGGTGAGT 
    CATCTGGAGT CTGCTCTGAC AGTCTGCAAA GAAGAACTAG CCTTGTATTT GCACGAGATA 
    GAGGACAACA GAGAGCAATT TGAACATCAA ATCAAAACAA AGTCTGAAGA GTTGTGTTGC 
    TTGCAAAATG AAGTCAAATT AAGGACTCTG AGCCTGCAGG AAACAAGTGA GGAAAATGTT 
    CGCTTGCAGC AAACTTTACA ACAGCAGCAG AATATGTTGC AACAGGGAAC TGCACGAATT 
    GGAGAGCTGG AGGACCACCA GACAGAGTTA GAAAAACAGG TTTCCAAACT TGAATATGAA 
    CTTGAGAAGC AAAGATCCAT CTCAGAAGAT AAGCTTCAGA GGACACAAGA TTTGCTGCAT 
    GCGGCCAATA GGGAAATAGG TCTAAAAACC CAAGAAGTAC AGGAGGTGTG CTGCACACTG 
    AATGAGGTTA AACTTGAACT AAAACATTCC AAGGTGAAAA TCCTGCAAAT GGAAGAAGAG 
    TTGGTCTCCT TCAAAAGCAA AGAAGAAAAC AATGCCAGCA TGTTTAACCA GCTGCAGAAG 
    GATTTGCAGA AAACACAAGT GGAACTGGAC ATGAAAAAAT GTGTTGGGAC AGAATTAGAG 
    GAAAAATTAC ACAGTGCTGA AAAGGACATT AAAAGAAAAG AAGAGATGGA GATACAGCTC 
    AGTGCTATGC AAAAGGATTT AGAGGGCTAT ACAAAACACA TTGAGGAATT ACAGGAAACA 
    CTGACAAAAA CCCACTTGTC TGTGGAGGAG AAGCAAGTAA TTATAGAAGG CCTTACAGAA 
    GAGCTGAGAT CATGTAAGCA AGAACTTGAG GAGAGAGACC ACGAATTGCT AGATATGGAT 
    CAGCTGCTAA AAGATCGCAA CTGGGAACTG AAACAGCGAG CTGCACAATT AACCCAGCTG 
    GACATGAGTA TTCGGGAGCA CAAAGGAGAG ATGGAACAAA AAATTCTAAG ACTGGAAAGT 
    GCTTTGGAGA AAGCTAAATT AGAAGACCGG GATCATATTA AGGAGATCAC ATCTTTAGAT 
    GAAAGATTGC AACAAACAAG AGATCAGCTC TGTGAAAAAG ATTTTGACTT GGTGCAAAAA 
    GACCAAGTTA TAAATCAACT GAAGAAGGAC ATTGAGCGAA GTCAGCAAAC AATTACTGAT 
    ATGGAAAAGA CTTTAAAAGT GCAGGAGCAA CGTATCTCAG AAAGGCATCA AGACGGTATG 
    GACCTCAGCA AGCAATTACG CCTTGCCCAA GAACGAATGC ATTTCTCCCA GCAGGAGCTC 
    CTAAAAACCC GACAACAGTT GGCTGAGGCT CAGAAAGAAT CAGACAGGCT TACACAACAG 
    CTAGAAGGAA TGGATCTCAT TTCCAAAGAA AAGCTGCAGC ATGCAGAACA AATGTTAGAA 
    GAAACAAATG AAACAATATG TAATCTAAAG ATGGAACTTC AGGCCAGGAA CGAGGTCATC 
    AAAGCAACAA ATGAAGTATT GATACTAAAG GAATCTGAGT TAACACGGCT GAAAACCCGG 
    ATTTCAAGCT ATGAAAGAAC ATTAGGCCTT AAGCAGCTGT CAGACACTAC TGCTAACCCA 
    TCAGTATCTT TTATAGATCA CCACCCTATG GAATCATACA AACATCCTGA GGCTTCAGAC 
    TTGTGGCGGC TCAGCCCACC ACTCAGTGCC AGTAATCTAA GTCTGACAGA CATGAGCTCT 
    TTGGAGTTGC CTAAAAGCAT GTTGGAAGTT ATGAAGGACC TGGCTCCACC AGACTCTCCA 
    CCAATGAAGG ATACTAGCGA GGGGGCATCT TGTGTGTCTT CTGATAGTCT GAACAATTCT 
    TCATTTAACC CTCTTACATA CACGTTGGAT GAAAACTGTG ATTTTACTTC TGACTGCCCA 
    GACCTAACAA CTCTTAGTGG AATGCTTAAA TACATAAAGA AAGAGATGAG ATTATCTGAA 
    TATCCAGCGG AACATAGCCC CAGCAAGGAT GCTGAGATTG ATGGCGGATT CTTAGGATAG

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

    ccdc18 ( XM_002933794.4 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_002933840.2 Xenopus tropicalis coiled-coil domain containing 18 (ccdc18), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OXa09061
    Clone ID Related Accession (Same CDS sequence) XM_002933794.4
    Accession Version XM_002933794.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4020bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030680.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_002933794.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 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
    ATGGAATTAA ATATGCCTAC ATATAATGAT CACATTGAGG AACCAAAAGA TGATCTTCTG 
    TTAATGGGCC AACTGATGCG AGCAGATTGG GGTATAAAGA ATGTAGAAGA AAAGCTGTCT 
    GTTGACCATT CTAGTGAGCA TTCCCTAAGC AGAGCTCCAC TGGGGCTCAC TTTGGAAGAT 
    CTTGAGCAGC CCGGTAATCC CAGTGTCAGA GAAAACCTGC TTAGAAGCAG AAACACAGTT 
    GCACAGAATG GAGGAAACTC TCTAAGGACA TTCAAAGATA AGCTCATCAT CACACAACCT 
    GGATCGTCAA GAAATACAGA ACAACAAAAT AGGCAATTAA AGGAAAAATT TAATTTTCTT 
    CGAGAACAAA ATGCTTCATT GGTGTCCCAA AACCACTCTC TTATGAATAA GATTGACTGT 
    GTACAGTCAG AATTAACAAA GTCCAGGTCT AGAATCCGCT ATGTTGAGTC TACTGTTGGC 
    GCAAGGGCAA TGAGATTACC TGATCTGGAG GAGCGATTAG TAATCTTGGA AGCCAAAGCT 
    GAAGCTCAAG AAAAAGCCCT TAGAACTACA GAAGATCAGC TAGAACATAG TCAGCATATC 
    TTGGCTGAAA AAGAGAGCAT TCTACAAAAG TTTAAAGAAG AGCTAAAGAA GCTGAAAGAA 
    GAATTGTTTG AATCCTGTAG GTTATGCAAG AGAACTGAAA AACAGAGAAA TGAGGCACTT 
    TTCAATGCTG AAGAACTCAA AAAAGCCTTT CAACAGTACA AAAACAAAAT GGAAAATAAA 
    ATGGAAAAGG TTCAGGAAGA AGGGGAGCTC CTAAAAAAGA ATATTTTAAG CTGTGAGAAA 
    GAACAAGAGG CTTTGCAGCA AAAGTGTGTA ATGTTGGACA CTGAACTGGA AAAGTCAAGG 
    GAGCTTTTAA GAAATGTGCA GTCTGAAAAG ATTTCCAGCC AAGAGCGGCA TCAGTGTGTT 
    GAAGCCAAAA ATGCTGAACT TATTTCTCTG TTAACACAGT CTAATCAGAG AATTCTTAGA 
    CTTGAAAGTG AACTTGAACA TAAAGGAAAA GTGCTCAAAG AGAACACAAG TCTTCTTGAT 
    GAGAACAAAG CAGTGAAAGA ATGTCCTGCA AAGACAAAAC AAGAAATGAT CTCCAATCAG 
    TCACCAGAAC AACCTGCAGA TTCTGTTTCT GATGACAGCA GAATGATTAT TGCAGAGCTA 
    AGGGCAAAAC TGTTAATCAG AGAAGCAGAA AACCGAGAAC TTCAAGCCAA ACTTACAAAC 
    AGAAAGTTAC TAACAAACAG CTATAAAAAT AACCAAGAAA AAGACTGCTT GGATGAATTG 
    GAGACCGAAC CAGTGAAACT GAACCAACAA AATACAGCGG AGGAAAAATA CCTGCAGCTC 
    GAGCTCCTCT GCAAGCAGAT TCAGATGGAC AAGGAAAGAC TTACAGACCA TGTGAAAGAA 
    TTACAAGGGA AGTTCAGCCG GGCACGTACT GAACTTACCA ACACAAAGAC TTCCATGGAA 
    CAGAGAACCA GCCAGTTTCA GCTGATACAA CAGGAGTTGC TGGAAAAAGC ATCAAAAGCA 
    ACCAAGTTAG AGCAGGAATT ATTAAAGAAA CGTATGAAGA TCAGTGCGCT TCAGAAGCTG 
    GTGGAAGAAA AGACACAGGT TTATTCTGCT GCTGAAACCA GGAATGCAGA AGTGGAAAAA 
    GAGCTTAAGA AATATAAAGA TCAAATAGTC AATCTGGAAG ACAATATTAA CAAAGAACAT 
    GAAGAAGTCC TCTTGACATT TGAAAAATCT AAAGAGATCC ATCTTGAGCA GCAGAAGGAA 
    TTGATGAAAC AGATAGAACA TCTTCAGATT CAACTAGAAA TGAAAAATCT TCATGCAGGA 
    GAACAAGAAC AGACAATTGC AATCCTTCAG AAAGAAAATT TATCAAAGCA ACAACAGCTG 
    GAATCACTCA ATCATCTTTT AACACAAACA AGAAAGGAAC TGGATATTCA GACAAAGAAT 
    ACAAGTACAA CAATAAGAAG TCTAGAAAAT CAAGTGGAGG TAGAATCTGC TAAGGTGAGT 
    CATCTGGAGT CTGCTCTGAC AGTCTGCAAA GAAGAACTAG CCTTGTATTT GCACGAGATA 
    GAGGACAACA GAGAGCAATT TGAACATCAA ATCAAAACAA AGTCTGAAGA GTTGTGTTGC 
    TTGCAAAATG AAGTCAAATT AAGGACTCTG AGCCTGCAGG AAACAAGTGA GGAAAATGTT 
    CGCTTGCAGC AAACTTTACA ACAGCAGCAG AATATGTTGC AACAGGGAAC TGCACGAATT 
    GGAGAGCTGG AGGACCACCA GACAGAGTTA GAAAAACAGG TTTCCAAACT TGAATATGAA 
    CTTGAGAAGC AAAGATCCAT CTCAGAAGAT AAGCTTCAGA GGACACAAGA TTTGCTGCAT 
    GCGGCCAATA GGGAAATAGG TCTAAAAACC CAAGAAGTAC AGGAGGTGTG CTGCACATTG 
    AATGAGGTTA AACTTGAACT AAAACATTCC AAGGTGAAAA TCCTGCAAAT GGAAGAAGAG 
    TTGGTCTCCT TCAAAAGCAA AGAAGAAAAC AATGCCAGCA TGTTTAACCA GCTGCAGAAG 
    GATTTGCAGA AAACACAAGT GGAACTGGAC ATGAAAAAAT GTGTTGGGAC AGAATTAGAG 
    GAAAAATTAC ACAGTGCTGA AAAGGACATT AAAAGAAAAG AAGAGATGGA GATACAGCTC 
    AGTGCCATGC AAAAGGATTT AGAGGGCTAT ACAAAACACA TTGAGGAATT ACAGGAAACA 
    CTGACAAAAA CCCACTTGTC TGTGGAGGAG AAGCAAGTAA TTATAGAAGG CCTTACAGAA 
    GAGCTGAGAT CATGTAAGCA AGAACTTGAG GAGAGAGACC ACGAATTGCT AGATATGGAT 
    CAGCTGCTAA AAGATCGCAA CTGGGAACTG AAACAGCGAG CTGCACAATT AACCCAGCTG 
    GACATGAGTA TTCGGGAGCA CAAAGGAGAG ATGGAACAAA AAATTCTAAG ACTGGAAAGT 
    GCTTTGGAGA AAGCTAAATT AGAAGACCGG GATCATATTA AGGAGATCAC ATCTTTAGAT 
    GAAAGATTGC AACAAACAAG AGATCAGCTC TGTGAAAAAG ATTTTGACTT GATGCAAAAA 
    GACCAAGTTA TAAATCAACT GAAGAAGGAC ATTGAGCGAA GTCAGCAAAC AATTACTGAT 
    ATGGAAAAGA CTTTAAAAGT GCAGGAGCAA CGTATCTCAG AAAGGCATCA AGACGGTATG 
    GACCTCAGCA AGCAATTACG CCTTGCCCAA GAACGAATGC ATTTCTCCCA GCAGGAGCTC 
    CTAAAAACCC GACAACAGTT GGCTGAGGCT CAGAAAGAAT CAGACAGGCT TACACAACAG 
    CTAGAAGGAA TGGATCTAAT TTCCAAAGAA AAGCTGCAGC ATGCAGAACA AATGTTAGAA 
    GAAACAAATG AAACAATATG TAATCTAAAG ATGGAACTTC AGGCCAGGAA CGAGGTCATC 
    AAAGCAACAA ATGAAGTATT GATACTAAAG GAATCTGAGT TAACACGGCT GAAAACCCGG 
    ATTTCAAGCT ATGAAAGAAC ATTAGGCCTT AAGCAGCTGT CAGACACTAC TGCTAACCCG 
    TCAGTATCTT TTATAGATCA CCACCCTATG GAATCATACA AACATCCTGA GGCTTCAGAC 
    TTGTGGCGGC TCAGCCCACC ACTCAGTGCC AGTAATCTAA GTCTGACAGA CATGAGCTCT 
    TTGGAGTTGC CTAAAAGCAT GTTGGAAGTT ATGAAGGACC TGGCTCCACC AGACTCTCCA 
    CCAATGAAGG ATACTAGCGA GGGGGCATCT TGTGTGTCTT CTGATAGTCT GAACAATTCT 
    TCATTTAACC CTCTTACATA CACGTTGGAT GAAAACTGTG ATTTTACTTC TGACTGCCCA 
    GACCTAACAA CTCTTAGTGG AATGCTTAAA TACATAAAGA AAGAGATGAG ATTATCTGAA 
    TATCCAGCGG AACATAGCCC CAGCAAGGAT GCTGAGATTG ATGGCGGATT CTTAGGATAG

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

    RefSeq XP_002933840.2
    CDS461..4480
    Translation

    Target ORF information:

    RefSeq Version XM_002933794.4
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_002933794.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    ATGGAATTAA ATATGCCTAC ATATAATGAT CACATTGAGG AACCAAAAGA TGATCTTCTG 
    TTAATGGGCC AACTGATGCG AGCAGATTGG GGTATAAAGA ATGTAGAAGA AAAGCTGTCT 
    GTTGACCATT CTAGTGAGCA TTCCCTAAGC AGAGCTCCAC TGGGGCTCAC TTTGGAAGAT 
    CTTGAGCAGC CCGGTAATCC CAGTGTCAGA GAAAACCTGC TTAGAAGCAG AAACACAGTT 
    GCACAGAATG GAGGAAACTC TCTAAGGACA TTCAAAGATA AGCTCATCAT CACACAACCT 
    GGATCGTCAA GAAATACAGA ACAACAAAAT AGGCAATTAA AGGAAAAATT TAATTTTCTT 
    CGAGAACAAA ATGCTTCATT GGTGTCCCAA AACCACTCTC TTATGAATAA GATTGACTGT 
    GTACAGTCAG AATTAACAAA GTCCAGGTCT AGAATCCGCT ATGTTGAGTC TACTGTTGGC 
    GCAAGGGCAA TGAGATTACC TGATCTGGAG GAGCGATTAG TAATCTTGGA AGCCAAAGCT 
    GAAGCTCAAG AAAAAGCCCT TAGAACTACA GAAGATCAGC TAGAACATAG TCAGCATATC 
    TTGGCTGAAA AAGAGAGCAT TCTACAAAAG TTTAAAGAAG AGCTAAAGAA GCTGAAAGAA 
    GAATTGTTTG AATCCTGTAG GTTATGCAAG AGAACTGAAA AACAGAGAAA TGAGGCACTT 
    TTCAATGCTG AAGAACTCAA AAAAGCCTTT CAACAGTACA AAAACAAAAT GGAAAATAAA 
    ATGGAAAAGG TTCAGGAAGA AGGGGAGCTC CTAAAAAAGA ATATTTTAAG CTGTGAGAAA 
    GAACAAGAGG CTTTGCAGCA AAAGTGTGTA ATGTTGGACA CTGAACTGGA AAAGTCAAGG 
    GAGCTTTTAA GAAATGTGCA GTCTGAAAAG ATTTCCAGCC AAGAGCGGCA TCAGTGTGTT 
    GAAGCCAAAA ATGCTGAACT TATTTCTCTG TTAACACAGT CTAATCAGAG AATTCTTAGA 
    CTTGAAAGTG AACTTGAACA TAAAGGAAAA GTGCTCAAAG AGAACACAAG TCTTCTTGAT 
    GAGAACAAAG CAGTGAAAGA ATGTCCTGCA AAGACAAAAC AAGAAATGAT CTCCAATCAG 
    TCACCAGAAC AACCTGCAGA TTCTGTTTCT GATGACAGCA GAATGATTAT TGCAGAGCTA 
    AGGGCAAAAC TGTTAATCAG AGAAGCAGAA AACCGAGAAC TTCAAGCCAA ACTTACAAAC 
    AGAAAGTTAC TAACAAACAG CTATAAAAAT AACCAAGAAA AAGACTGCTT GGATGAATTG 
    GAGACCGAAC CAGTGAAACT GAACCAACAA AATACAGCGG AGGAAAAATA CCTGCAGCTC 
    GAGCTCCTCT GCAAGCAGAT TCAGATGGAC AAGGAAAGAC TTACAGACCA TGTGAAAGAA 
    TTACAAGGGA AGTTCAGCCG GGCACGTACT GAACTTACCA ACACAAAGAC TTCCATGGAA 
    CAGAGAACCA GCCAGTTTCA GCTGATACAA CAGGAGTTGC TGGAAAAAGC ATCAAAAGCA 
    ACCAAGTTAG AGCAGGAATT ATTAAAGAAA CGTATGAAGA TCAGTGCGCT TCAGAAGCTG 
    GTGGAAGAAA AGACACAGGT TTATTCTGCT GCTGAAACCA GGAATGCAGA AGTGGAAAAA 
    GAGCTTAAGA AATATAAAGA TCAAATAGTC AATCTGGAAG ACAATATTAA CAAAGAACAT 
    GAAGAAGTCC TCTTGACATT TGAAAAATCT AAAGAGATCC ATCTTGAGCA GCAGAAGGAA 
    TTGATGAAAC AGATAGAACA TCTTCAGATT CAACTAGAAA TGAAAAATCT TCATGCAGGA 
    GAACAAGAAC AGACAATTGC AATCCTTCAG AAAGAAAATT TATCAAAGCA ACAACAGCTG 
    GAATCACTCA ATCATCTTTT AACACAAACA AGAAAGGAAC TGGATATTCA GACAAAGAAT 
    ACAAGTACAA CAATAAGAAG TCTAGAAAAT CAAGTGGAGG TAGAATCTGC TAAGGTGAGT 
    CATCTGGAGT CTGCTCTGAC AGTCTGCAAA GAAGAACTAG CCTTGTATTT GCACGAGATA 
    GAGGACAACA GAGAGCAATT TGAACATCAA ATCAAAACAA AGTCTGAAGA GTTGTGTTGC 
    TTGCAAAATG AAGTCAAATT AAGGACTCTG AGCCTGCAGG AAACAAGTGA GGAAAATGTT 
    CGCTTGCAGC AAACTTTACA ACAGCAGCAG AATATGTTGC AACAGGGAAC TGCACGAATT 
    GGAGAGCTGG AGGACCACCA GACAGAGTTA GAAAAACAGG TTTCCAAACT TGAATATGAA 
    CTTGAGAAGC AAAGATCCAT CTCAGAAGAT AAGCTTCAGA GGACACAAGA TTTGCTGCAT 
    GCGGCCAATA GGGAAATAGG TCTAAAAACC CAAGAAGTAC AGGAGGTGTG CTGCACATTG 
    AATGAGGTTA AACTTGAACT AAAACATTCC AAGGTGAAAA TCCTGCAAAT GGAAGAAGAG 
    TTGGTCTCCT TCAAAAGCAA AGAAGAAAAC AATGCCAGCA TGTTTAACCA GCTGCAGAAG 
    GATTTGCAGA AAACACAAGT GGAACTGGAC ATGAAAAAAT GTGTTGGGAC AGAATTAGAG 
    GAAAAATTAC ACAGTGCTGA AAAGGACATT AAAAGAAAAG AAGAGATGGA GATACAGCTC 
    AGTGCCATGC AAAAGGATTT AGAGGGCTAT ACAAAACACA TTGAGGAATT ACAGGAAACA 
    CTGACAAAAA CCCACTTGTC TGTGGAGGAG AAGCAAGTAA TTATAGAAGG CCTTACAGAA 
    GAGCTGAGAT CATGTAAGCA AGAACTTGAG GAGAGAGACC ACGAATTGCT AGATATGGAT 
    CAGCTGCTAA AAGATCGCAA CTGGGAACTG AAACAGCGAG CTGCACAATT AACCCAGCTG 
    GACATGAGTA TTCGGGAGCA CAAAGGAGAG ATGGAACAAA AAATTCTAAG ACTGGAAAGT 
    GCTTTGGAGA AAGCTAAATT AGAAGACCGG GATCATATTA AGGAGATCAC ATCTTTAGAT 
    GAAAGATTGC AACAAACAAG AGATCAGCTC TGTGAAAAAG ATTTTGACTT GATGCAAAAA 
    GACCAAGTTA TAAATCAACT GAAGAAGGAC ATTGAGCGAA GTCAGCAAAC AATTACTGAT 
    ATGGAAAAGA CTTTAAAAGT GCAGGAGCAA CGTATCTCAG AAAGGCATCA AGACGGTATG 
    GACCTCAGCA AGCAATTACG CCTTGCCCAA GAACGAATGC ATTTCTCCCA GCAGGAGCTC 
    CTAAAAACCC GACAACAGTT GGCTGAGGCT CAGAAAGAAT CAGACAGGCT TACACAACAG 
    CTAGAAGGAA TGGATCTAAT TTCCAAAGAA AAGCTGCAGC ATGCAGAACA AATGTTAGAA 
    GAAACAAATG AAACAATATG TAATCTAAAG ATGGAACTTC AGGCCAGGAA CGAGGTCATC 
    AAAGCAACAA ATGAAGTATT GATACTAAAG GAATCTGAGT TAACACGGCT GAAAACCCGG 
    ATTTCAAGCT ATGAAAGAAC ATTAGGCCTT AAGCAGCTGT CAGACACTAC TGCTAACCCG 
    TCAGTATCTT TTATAGATCA CCACCCTATG GAATCATACA AACATCCTGA GGCTTCAGAC 
    TTGTGGCGGC TCAGCCCACC ACTCAGTGCC AGTAATCTAA GTCTGACAGA CATGAGCTCT 
    TTGGAGTTGC CTAAAAGCAT GTTGGAAGTT ATGAAGGACC TGGCTCCACC AGACTCTCCA 
    CCAATGAAGG ATACTAGCGA GGGGGCATCT TGTGTGTCTT CTGATAGTCT GAACAATTCT 
    TCATTTAACC CTCTTACATA CACGTTGGAT GAAAACTGTG ATTTTACTTC TGACTGCCCA 
    GACCTAACAA CTCTTAGTGG AATGCTTAAA TACATAAAGA AAGAGATGAG ATTATCTGAA 
    TATCCAGCGG AACATAGCCC CAGCAAGGAT GCTGAGATTG ATGGCGGATT CTTAGGATAG

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

    ccdc18 ( XM_012962434.2 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_012817888.1 Xenopus tropicalis coiled-coil domain containing 18 (ccdc18), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OXa32929
    Clone ID Related Accession (Same CDS sequence) XM_012962434.2
    Accession Version XM_012962434.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4074bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030680.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012962434.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 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
    ATGGTACTGA TCGATTTACC AGTGTCAGCA GAACGAAGGA AGTATATTGT ACAAATGGAA 
    TTAAATATGC CTACATATAA TGATCACATT GAGGAACCAA AAGATGATCT TCTGTTAATG 
    GGCCAACTGA TGCGAGCAGA TTGGGGTATA AAGAATGTAG AAGAAAAGCT GTCTGTTGAC 
    CATTCTAGTG AGCATTCCCT AAGCAGAGCT CCACTGGGGC TCACTTTGGA AGATCTTGAG 
    CAGCCCGGTA ATCCCAGTGT CAGAGAAAAC CTGCTTAGAA GCAGAAACAC AGTTGCACAG 
    AATGGAGGAA ACTCTCTAAG GACATTCAAA GATAAGCTCA TCATCACACA ACCTGGATCG 
    TCAAGAAATA CAGAACAACA AAATAGGCAA TTAAAGGAAA AATTTAATTT TCTTCGAGAA 
    CAAAATGCTT CATTGGTGTC CCAAAACCAC TCTCTTATGA ATAAGATTGA CTGTGTACAG 
    TCAGAATTAA CAAAGTCCAG GTCTAGAATC CGCTATGTTG AGTCTACTGT TGGCGCAAGG 
    GCAATGAGAT TACCTGATCT GGAGGAGCGA TTAGTAATCT TGGAAGCCAA AGCTGAAGCT 
    CAAGAAAAAG CCCTTAGAAC TACAGAAGAT CAGCTAGAAC ATAGTCAGCA TATCTTGGCT 
    GAAAAAGAGA GCATTCTACA AAAGTTTAAA GAAGAGCTAA AGAAGCTGAA AGAAGAATTG 
    TTTGAATCCT GTAGGTTATG CAAGAGAACT GAAAAACAGA GAAATGAGGC ACTTTTCAAT 
    GCTGAAGAAC TCAAAAAAGC CTTTCAACAG TACAAAAACA AAATGGAAAA TAAAATGGAA 
    AAGGTTCAGG AAGAAGGGGA GCTCCTAAAA AAGAATATTT TAAGCTGTGA GAAAGAACAA 
    GAGGCTTTGC AGCAAAAGTG TGTAATGTTG GACACTGAAC TGGAAAAGTC AAGGGAGCTT 
    TTAAGAAATG TGCAGTCTGA AAAGATTTCC AGCCAAGAGC GGCATCAGTG TGTTGAAGCC 
    AAAAATGCTG AACTTATTTC TCTGTTAACA CAGTCTAATC AGAGAATTCT TAGACTTGAA 
    AGTGAACTTG AACATAAAGG AAAAGTGCTC AAAGAGAACA CAAGTCTTCT TGATGAGAAC 
    AAAGCAGTGA AAGAATGTCC TGCAAAGACA AAACAAGAAA TGATCTCCAA TCAGTCACCA 
    GAACAACCTG CAGATTCTGT TTCTGATGAC AGCAGAATGA TTATTGCAGA GCTAAGGGCA 
    AAACTGTTAA TCAGAGAAGC AGAAAACCGA GAACTTCAAG CCAAACTTAC AAACAGAAAG 
    TTACTAACAA ACAGCTATAA AAATAACCAA GAAAAAGACT GCTTGGATGA ATTGGAGACC 
    GAACCAGTGA AACTGAACCA ACAAAATACA GCGGAGGAAA AATACCTGCA GCTCGAGCTC 
    CTCTGCAAGC AGATTCAGAT GGACAAGGAA AGACTTACAG ACCATGTGAA AGAATTACAA 
    GGGAAGTTCA GCCGGGCACG TACTGAACTT ACCAACACAA AGACTTCCAT GGAACAGAGA 
    ACCAGCCAGT TTCAGCTGAT ACAACAGGAG TTGCTGGAAA AAGCATCAAA AGCAACCAAG 
    TTAGAGCAGG AATTATTAAA GAAACGTATG AAGATCAGTG CGCTTCAGAA GCTGGTGGAA 
    GAAAAGACAC AGGTTTATTC TGCTGCTGAA ACCAGGAATG CAGAAGTGGA AAAAGAGCTT 
    AAGAAATATA AAGATCAAAT AGTCAATCTG GAAGACAATA TTAACAAAGA ACATGAAGAA 
    GTCCTCTTGA CATTTGAAAA ATCTAAAGAG ATCCATCTTG AGCAGCAGAA GGAATTGATG 
    AAACAGATAG AACATCTTCA GATTCAACTA GAAATGAAAA ATCTTCATGC AGGAGAACAA 
    GAACAGACAA TTGCAATCCT TCAGAAAGAA AATTTATCAA AGCAACAACA GCTGGAATCA 
    CTCAATCATC TTTTAACACA AACAAGAAAG GAACTGGATA TTCAGACAAA GAATACAAGT 
    ACAACAATAA GAAGTCTAGA AAATCAAGTG GAGGTAGAAT CTGCTAAGGT GAGTCATCTG 
    GAGTCTGCTC TGACAGTCTG CAAAGAAGAA CTAGCCTTGT ATTTGCACGA GATAGAGGAC 
    AACAGAGAGC AATTTGAACA TCAAATCAAA ACAAAGTCTG AAGAGTTGTG TTGCTTGCAA 
    AATGAAGTCA AATTAAGGAC TCTGAGCCTG CAGGAAACAA GTGAGGAAAA TGTTCGCTTG 
    CAGCAAACTT TACAACAGCA GCAGAATATG TTGCAACAGG GAACTGCACG AATTGGAGAG 
    CTGGAGGACC ACCAGACAGA GTTAGAAAAA CAGGTTTCCA AACTTGAATA TGAACTTGAG 
    AAGCAAAGAT CCATCTCAGA AGATAAGCTT CAGAGGACAC AAGATTTGCT GCATGCGGCC 
    AATAGGGAAA TAGGTCTAAA AACCCAAGAA GTACAGGAGG TGTGCTGCAC ATTGAATGAG 
    GTTAAACTTG AACTAAAACA TTCCAAGGTG AAAATCCTGC AAATGGAAGA AGAGTTGGTC 
    TCCTTCAAAA GCAAAGAAGA AAACAATGCC AGCATGTTTA ACCAGCTGCA GAAGGATTTG 
    CAGAAAACAC AAGTGGAACT GGACATGAAA AAATGTGTTG GGACAGAATT AGAGGAAAAA 
    TTACACAGTG CTGAAAAGGA CATTAAAAGA AAAGAAGAGA TGGAGATACA GCTCAGTGCC 
    ATGCAAAAGG ATTTAGAGGG CTATACAAAA CACATTGAGG AATTACAGGA AACACTGACA 
    AAAACCCACT TGTCTGTGGA GGAGAAGCAA GTAATTATAG AAGGCCTTAC AGAAGAGCTG 
    AGATCATGTA AGCAAGAACT TGAGGAGAGA GACCACGAAT TGCTAGATAT GGATCAGCTG 
    CTAAAAGATC GCAACTGGGA ACTGAAACAG CGAGCTGCAC AATTAACCCA GCTGGACATG 
    AGTATTCGGG AGCACAAAGG AGAGATGGAA CAAAAAATTC TAAGACTGGA AAGTGCTTTG 
    GAGAAAGCTA AATTAGAAGA CCGGGATCAT ATTAAGGAGA TCACATCTTT AGATGAAAGA 
    TTGCAACAAA CAAGAGATCA GCTCTGTGAA AAAGATTTTG ACTTGATGCA AAAAGACCAA 
    GTTATAAATC AACTGAAGAA GGACATTGAG CGAAGTCAGC AAACAATTAC TGATATGGAA 
    AAGACTTTAA AAGTGCAGGA GCAACGTATC TCAGAAAGGC ATCAAGACGG TATGGACCTC 
    AGCAAGCAAT TACGCCTTGC CCAAGAACGA ATGCATTTCT CCCAGCAGGA GCTCCTAAAA 
    ACCCGACAAC AGTTGGCTGA GGCTCAGAAA GAATCAGACA GGCTTACACA ACAGCTAGAA 
    GGAATGGATC TAATTTCCAA AGAAAAGCTG CAGCATGCAG AACAAATGTT AGAAGAAACA 
    AATGAAACAA TATGTAATCT AAAGATGGAA CTTCAGGCCA GGAACGAGGT CATCAAAGCA 
    ACAAATGAAG TATTGATACT AAAGGAATCT GAGTTAACAC GGCTGAAAAC CCGGATTTCA 
    AGCTATGAAA GAACATTAGG CCTTAAGCAG CTGTCAGACA CTACTGCTAA CCCGTCAGTA 
    TCTTTTATAG ATCACCACCC TATGGAATCA TACAAACATC CTGAGGCTTC AGACTTGTGG 
    CGGCTCAGCC CACCACTCAG TGCCAGTAAT CTAAGTCTGA CAGACATGAG CTCTTTGGAG 
    TTGCCTAAAA GCATGTTGGA AGTTATGAAG GACCTGGCTC CACCAGACTC TCCACCAATG 
    AAGGATACTA GCGAGGGGGC ATCTTGTGTG TCTTCTGATA GTCTGAACAA TTCTTCATTT 
    AACCCTCTTA CATACACGTT GGATGAAAAC TGTGATTTTA CTTCTGACTG CCCAGACCTA 
    ACAACTCTTA GTGGAATGCT TAAATACATA AAGAAAGAGA TGAGATTATC TGAATATCCA 
    GCGGAACATA GCCCCAGCAA GGATGCTGAG ATTGATGGCG GATTCTTAGG ATAG

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

    RefSeq XP_012817888.1
    CDS16..4089
    Translation

    Target ORF information:

    RefSeq Version XM_012962434.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_012962434.2

    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
    ATGGTACTGA TCGATTTACC AGTGTCAGCA GAACGAAGGA AGTATATTGT ACAAATGGAA 
    TTAAATATGC CTACATATAA TGATCACATT GAGGAACCAA AAGATGATCT TCTGTTAATG 
    GGCCAACTGA TGCGAGCAGA TTGGGGTATA AAGAATGTAG AAGAAAAGCT GTCTGTTGAC 
    CATTCTAGTG AGCATTCCCT AAGCAGAGCT CCACTGGGGC TCACTTTGGA AGATCTTGAG 
    CAGCCCGGTA ATCCCAGTGT CAGAGAAAAC CTGCTTAGAA GCAGAAACAC AGTTGCACAG 
    AATGGAGGAA ACTCTCTAAG GACATTCAAA GATAAGCTCA TCATCACACA ACCTGGATCG 
    TCAAGAAATA CAGAACAACA AAATAGGCAA TTAAAGGAAA AATTTAATTT TCTTCGAGAA 
    CAAAATGCTT CATTGGTGTC CCAAAACCAC TCTCTTATGA ATAAGATTGA CTGTGTACAG 
    TCAGAATTAA CAAAGTCCAG GTCTAGAATC CGCTATGTTG AGTCTACTGT TGGCGCAAGG 
    GCAATGAGAT TACCTGATCT GGAGGAGCGA TTAGTAATCT TGGAAGCCAA AGCTGAAGCT 
    CAAGAAAAAG CCCTTAGAAC TACAGAAGAT CAGCTAGAAC ATAGTCAGCA TATCTTGGCT 
    GAAAAAGAGA GCATTCTACA AAAGTTTAAA GAAGAGCTAA AGAAGCTGAA AGAAGAATTG 
    TTTGAATCCT GTAGGTTATG CAAGAGAACT GAAAAACAGA GAAATGAGGC ACTTTTCAAT 
    GCTGAAGAAC TCAAAAAAGC CTTTCAACAG TACAAAAACA AAATGGAAAA TAAAATGGAA 
    AAGGTTCAGG AAGAAGGGGA GCTCCTAAAA AAGAATATTT TAAGCTGTGA GAAAGAACAA 
    GAGGCTTTGC AGCAAAAGTG TGTAATGTTG GACACTGAAC TGGAAAAGTC AAGGGAGCTT 
    TTAAGAAATG TGCAGTCTGA AAAGATTTCC AGCCAAGAGC GGCATCAGTG TGTTGAAGCC 
    AAAAATGCTG AACTTATTTC TCTGTTAACA CAGTCTAATC AGAGAATTCT TAGACTTGAA 
    AGTGAACTTG AACATAAAGG AAAAGTGCTC AAAGAGAACA CAAGTCTTCT TGATGAGAAC 
    AAAGCAGTGA AAGAATGTCC TGCAAAGACA AAACAAGAAA TGATCTCCAA TCAGTCACCA 
    GAACAACCTG CAGATTCTGT TTCTGATGAC AGCAGAATGA TTATTGCAGA GCTAAGGGCA 
    AAACTGTTAA TCAGAGAAGC AGAAAACCGA GAACTTCAAG CCAAACTTAC AAACAGAAAG 
    TTACTAACAA ACAGCTATAA AAATAACCAA GAAAAAGACT GCTTGGATGA ATTGGAGACC 
    GAACCAGTGA AACTGAACCA ACAAAATACA GCGGAGGAAA AATACCTGCA GCTCGAGCTC 
    CTCTGCAAGC AGATTCAGAT GGACAAGGAA AGACTTACAG ACCATGTGAA AGAATTACAA 
    GGGAAGTTCA GCCGGGCACG TACTGAACTT ACCAACACAA AGACTTCCAT GGAACAGAGA 
    ACCAGCCAGT TTCAGCTGAT ACAACAGGAG TTGCTGGAAA AAGCATCAAA AGCAACCAAG 
    TTAGAGCAGG AATTATTAAA GAAACGTATG AAGATCAGTG CGCTTCAGAA GCTGGTGGAA 
    GAAAAGACAC AGGTTTATTC TGCTGCTGAA ACCAGGAATG CAGAAGTGGA AAAAGAGCTT 
    AAGAAATATA AAGATCAAAT AGTCAATCTG GAAGACAATA TTAACAAAGA ACATGAAGAA 
    GTCCTCTTGA CATTTGAAAA ATCTAAAGAG ATCCATCTTG AGCAGCAGAA GGAATTGATG 
    AAACAGATAG AACATCTTCA GATTCAACTA GAAATGAAAA ATCTTCATGC AGGAGAACAA 
    GAACAGACAA TTGCAATCCT TCAGAAAGAA AATTTATCAA AGCAACAACA GCTGGAATCA 
    CTCAATCATC TTTTAACACA AACAAGAAAG GAACTGGATA TTCAGACAAA GAATACAAGT 
    ACAACAATAA GAAGTCTAGA AAATCAAGTG GAGGTAGAAT CTGCTAAGGT GAGTCATCTG 
    GAGTCTGCTC TGACAGTCTG CAAAGAAGAA CTAGCCTTGT ATTTGCACGA GATAGAGGAC 
    AACAGAGAGC AATTTGAACA TCAAATCAAA ACAAAGTCTG AAGAGTTGTG TTGCTTGCAA 
    AATGAAGTCA AATTAAGGAC TCTGAGCCTG CAGGAAACAA GTGAGGAAAA TGTTCGCTTG 
    CAGCAAACTT TACAACAGCA GCAGAATATG TTGCAACAGG GAACTGCACG AATTGGAGAG 
    CTGGAGGACC ACCAGACAGA GTTAGAAAAA CAGGTTTCCA AACTTGAATA TGAACTTGAG 
    AAGCAAAGAT CCATCTCAGA AGATAAGCTT CAGAGGACAC AAGATTTGCT GCATGCGGCC 
    AATAGGGAAA TAGGTCTAAA AACCCAAGAA GTACAGGAGG TGTGCTGCAC ATTGAATGAG 
    GTTAAACTTG AACTAAAACA TTCCAAGGTG AAAATCCTGC AAATGGAAGA AGAGTTGGTC 
    TCCTTCAAAA GCAAAGAAGA AAACAATGCC AGCATGTTTA ACCAGCTGCA GAAGGATTTG 
    CAGAAAACAC AAGTGGAACT GGACATGAAA AAATGTGTTG GGACAGAATT AGAGGAAAAA 
    TTACACAGTG CTGAAAAGGA CATTAAAAGA AAAGAAGAGA TGGAGATACA GCTCAGTGCC 
    ATGCAAAAGG ATTTAGAGGG CTATACAAAA CACATTGAGG AATTACAGGA AACACTGACA 
    AAAACCCACT TGTCTGTGGA GGAGAAGCAA GTAATTATAG AAGGCCTTAC AGAAGAGCTG 
    AGATCATGTA AGCAAGAACT TGAGGAGAGA GACCACGAAT TGCTAGATAT GGATCAGCTG 
    CTAAAAGATC GCAACTGGGA ACTGAAACAG CGAGCTGCAC AATTAACCCA GCTGGACATG 
    AGTATTCGGG AGCACAAAGG AGAGATGGAA CAAAAAATTC TAAGACTGGA AAGTGCTTTG 
    GAGAAAGCTA AATTAGAAGA CCGGGATCAT ATTAAGGAGA TCACATCTTT AGATGAAAGA 
    TTGCAACAAA CAAGAGATCA GCTCTGTGAA AAAGATTTTG ACTTGATGCA AAAAGACCAA 
    GTTATAAATC AACTGAAGAA GGACATTGAG CGAAGTCAGC AAACAATTAC TGATATGGAA 
    AAGACTTTAA AAGTGCAGGA GCAACGTATC TCAGAAAGGC ATCAAGACGG TATGGACCTC 
    AGCAAGCAAT TACGCCTTGC CCAAGAACGA ATGCATTTCT CCCAGCAGGA GCTCCTAAAA 
    ACCCGACAAC AGTTGGCTGA GGCTCAGAAA GAATCAGACA GGCTTACACA ACAGCTAGAA 
    GGAATGGATC TAATTTCCAA AGAAAAGCTG CAGCATGCAG AACAAATGTT AGAAGAAACA 
    AATGAAACAA TATGTAATCT AAAGATGGAA CTTCAGGCCA GGAACGAGGT CATCAAAGCA 
    ACAAATGAAG TATTGATACT AAAGGAATCT GAGTTAACAC GGCTGAAAAC CCGGATTTCA 
    AGCTATGAAA GAACATTAGG CCTTAAGCAG CTGTCAGACA CTACTGCTAA CCCGTCAGTA 
    TCTTTTATAG ATCACCACCC TATGGAATCA TACAAACATC CTGAGGCTTC AGACTTGTGG 
    CGGCTCAGCC CACCACTCAG TGCCAGTAAT CTAAGTCTGA CAGACATGAG CTCTTTGGAG 
    TTGCCTAAAA GCATGTTGGA AGTTATGAAG GACCTGGCTC CACCAGACTC TCCACCAATG 
    AAGGATACTA GCGAGGGGGC ATCTTGTGTG TCTTCTGATA GTCTGAACAA TTCTTCATTT 
    AACCCTCTTA CATACACGTT GGATGAAAAC TGTGATTTTA CTTCTGACTG CCCAGACCTA 
    ACAACTCTTA GTGGAATGCT TAAATACATA AAGAAAGAGA TGAGATTATC TGAATATCCA 
    GCGGAACATA GCCCCAGCAA GGATGCTGAG ATTGATGGCG GATTCTTAGG ATAG

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

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