ORF » Species Summary » Xenopus tropicalis » ccdc187 cDNA ORF clone

ccdc187 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following ccdc187 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ccdc187 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
OXa65492 XM_031892083.1
Latest version!		 Xenopus tropicalis coiled-coil domain containing 187 (ccdc187), mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $391.30
$559.00
OXa14013 XM_004916632.3
Latest version!		 Xenopus tropicalis coiled-coil domain containing 187 (ccdc187), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $1021.30
$1459.00
OXa14014 XM_004916633.3
Latest version!		 Xenopus tropicalis coiled-coil domain containing 187 (ccdc187), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $1021.30
$1459.00
OXa14015 XM_002935236.4
Latest version!		 Xenopus tropicalis coiled-coil domain containing 187 (ccdc187), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $1021.30
$1459.00

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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)
    ccdc187 ( XM_031892083.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031747943.1 Xenopus tropicalis coiled-coil domain containing 187 (ccdc187), mRNA.
    Price & Availability↑
    CloneID OXa65492
    Clone ID Related Accession (Same CDS sequence) XM_031892083.1
    Accession Version XM_031892083.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2451bp)
    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 187
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030684.2) annotated using gene prediction method: Gnomon. 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
    ATGCCCGTGG CTGAGCTGTG GGAATCTCCG GCGCTGGAAA TGTTAAGCAG AATGGAGGAG 
    GTTTCCCGCG CGTGGGACAG TTTGCTGGAA GCCAAACAAG AGCTACAAAG AATCGAGAAC 
    ACGCTCGACA GCCAGGACCG TCGGCACGGG CAGAGAATGC AGCGGAACAT GAAGTTGGAT 
    AGTAGAATAT TTTCCGGAAT CGATCTGCGT CCGTCGGAAG CCTCTGGCCG GAGGAGCCCG 
    GGGAACGAGC AAGAAGAGCA GAACCTATTG GATCAAACGT TTATTTGCCA CAGACAGGCC 
    ACAGATTTCT CAGAAGGTCA AGGCTCATCT TGGAGGCCTC GGTTCAGCAG TGAAACACAC 
    GTACCTAACA GAGATATGGA CGGAAAGAAT CAAATGACAC ATCTGGTCTC CATGATGGAC 
    GATGGGTTTT CAGAAGACAC TTTATCCAAC ACATTCCTAG ATAGGTCTTC TCCAGCAAGC 
    CAGACTTCCA CAGAAGAAGT TTTAAACCCA TATTCGGAGG TGTATCCTTT ATCTCCAGTT 
    CTGGAAGTGG AGAGATGCCC CAAGCTTTCC TCCTGCCCAG ATCCTCGTCA GTCTCCAAGT 
    GCCGATGTCT ACGCTCAAAG GCTGGAATAT CTGAAGAACA ACTCCCCCAA CAACAAGCTG 
    AAGAAACTGA AAGAAAGGAT CCGAGAGCAA AAACTCCGAC AGAACCTTGG CAGGGAACTG 
    AGGCCAGACC CTCCGCGGGT CACCGAGCCT GTGGGAAAAC ACACTCTAAA GAGGAAAGTG 
    GGGAAGGTGA CATTTGGTGT TCCACCTCCG ACATACAAAG AAACCAAAGA TCCGACGTCG 
    AAGAGCAAAA TCAAGAATTC GGTTTCCAGA AAGCTGTCCT TTGATTCGCC CTCGCCGGAG 
    AGAAGAGTTA AACATTCAGG GAAGGACGTG TACAGGCCCT CAGCATGGAG AGAAGGGCAG 
    AAGATTGTAC GGAAGATCCT CGGGCCGTCA CCTGTGATAC TAAAGGGGCA ACACTTGTCT 
    AGTGGAGATG GTTTGGCTTC CCAGACTCCA GGAATGGCTA AACAGGAAAC AGATGGAGCT 
    CCAGTATGGA GGGATCCACC ACCCAAAGAG AAGGTGAAGG GCAGTGATAG GCCAAGTGAA 
    AGAGTCAAGC GGATCCTAAG AACCAATGTA ACGGCAGTAT TGCAGGATGA GAAGAGAAAG 
    GGGGTGCAGA GGGATTTGCC AAAGAGACGA CCAACCACCT CGGCGGCACA GAGACACCCC 
    AATAAAGAGA ACATACGGCA AGAGGATCGG GTGGGGCCAC GGGGCCACAA ACATGGCTAC 
    AGCACAGAGG AAGTGCGCAA CTTTATGAAC AGGAAGAAGT CGGAGAGACG AAGCAAAGAA 
    CAGGAAGAGC GGGATTCACG GTGCACCGCC GCGCAGCTCC AGCAGAGACG CCTGCAGGAA 
    GTGTTCCGGA AGCAAAAGGA AGCGGGGCCT TTAATAAAGC CCCGTACTGA GCTCTCCAAA 
    CAGAAGTGCC CTGCGACGGA AGATTCTGGA AGACCTGTGG CTGAATGGGT TCAGAGAGAC 
    TGCTCCCGGC TGCTGGGGGA AGAGGAGGGA AGAAGGAAGG AAACCGATGT TGGCCATTGC 
    TTGGGGCCCC TGAAGCTTCG GGACTTAGAT ACATCAGACT CACCCACACA GTCTCCCAAG 
    AGAGGCCCGA CTCTCCCCCA GCCCCGAGAC AGCCAGGAGC GCCTCCAGGC CCTGTGTAAC 
    GTTGCCCGGG ACCTGGCCCG GAGGGTAGAA GTTGAAACCA GCAGGCTGGG AGTTGTAGTT 
    CTTCCACGGC CAATGGTTAG CCAGGAGTCC CAGAGTCCCC CGGGGCTACG GCAACGTTCG 
    CAGGAGGAGC CAACTGGCCT GGACGATGGA CGCTACCAAC GATCCGGGAG TCTGGAGAGA 
    CCACAAGGAT GGGCAGATAT TACAGCGCCT CCGTGTGGGG AAACCGAGAA GAAAGAACAA 
    TGGAGGAGAG CCACGAAAGC TTTAGGCGAT GAACCCTTAG CCAAAAGCCC ACAGAAAGGA 
    TCCCGGGAAC ATAGAGGAGG CAGGAGATTG CAATCGCCGC CGGGATCTAC TCGAGGCCTC 
    TCGGAGCGGC TTGGGAAACA TTCGCCCTCT CGTCCCAGTT GGAAAAGTGG AATTTTGCTG 
    GAATCGGCTC TGCAGGAAGG GGAGGTGGCT CCAGCGAACG GTTTGCGGAA ATCTCACACG 
    GATATTGTGC GGAAGCTTAA GATGCAGAAT GCGGAACAGG GAGTGAAGCT GGCGGCCCTG 
    AGGGAGAAAT CGCGTCGGGA GGCCGCGGAG GCGGAGCATT GTATGGAGGA ACTGAAACTG 
    AAGTCCATCA TGCTGTTCCA ATCCGACGGC CAAAGCGAAG AAGCTAAACC AATGGCAAAT 
    AGGCAGCTGC CCCCTAACGG GGCAGAATTC ATCTACAACA CAAACTGGTG A

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

    RefSeq XP_031747943.1
    CDS114..2564
    Translation

    Target ORF information:

    RefSeq Version XM_031892083.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis coiled-coil domain containing 187 (ccdc187), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_031892083.1

    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
    ATGCCCGTGG CTGAGCTGTG GGAATCTCCG GCGCTGGAAA TGTTAAGCAG AATGGAGGAG 
    GTTTCCCGCG CGTGGGACAG TTTGCTGGAA GCCAAACAAG AGCTACAAAG AATCGAGAAC 
    ACGCTCGACA GCCAGGACCG TCGGCACGGG CAGAGAATGC AGCGGAACAT GAAGTTGGAT 
    AGTAGAATAT TTTCCGGAAT CGATCTGCGT CCGTCGGAAG CCTCTGGCCG GAGGAGCCCG 
    GGGAACGAGC AAGAAGAGCA GAACCTATTG GATCAAACGT TTATTTGCCA CAGACAGGCC 
    ACAGATTTCT CAGAAGGTCA AGGCTCATCT TGGAGGCCTC GGTTCAGCAG TGAAACACAC 
    GTACCTAACA GAGATATGGA CGGAAAGAAT CAAATGACAC ATCTGGTCTC CATGATGGAC 
    GATGGGTTTT CAGAAGACAC TTTATCCAAC ACATTCCTAG ATAGGTCTTC TCCAGCAAGC 
    CAGACTTCCA CAGAAGAAGT TTTAAACCCA TATTCGGAGG TGTATCCTTT ATCTCCAGTT 
    CTGGAAGTGG AGAGATGCCC CAAGCTTTCC TCCTGCCCAG ATCCTCGTCA GTCTCCAAGT 
    GCCGATGTCT ACGCTCAAAG GCTGGAATAT CTGAAGAACA ACTCCCCCAA CAACAAGCTG 
    AAGAAACTGA AAGAAAGGAT CCGAGAGCAA AAACTCCGAC AGAACCTTGG CAGGGAACTG 
    AGGCCAGACC CTCCGCGGGT CACCGAGCCT GTGGGAAAAC ACACTCTAAA GAGGAAAGTG 
    GGGAAGGTGA CATTTGGTGT TCCACCTCCG ACATACAAAG AAACCAAAGA TCCGACGTCG 
    AAGAGCAAAA TCAAGAATTC GGTTTCCAGA AAGCTGTCCT TTGATTCGCC CTCGCCGGAG 
    AGAAGAGTTA AACATTCAGG GAAGGACGTG TACAGGCCCT CAGCATGGAG AGAAGGGCAG 
    AAGATTGTAC GGAAGATCCT CGGGCCGTCA CCTGTGATAC TAAAGGGGCA ACACTTGTCT 
    AGTGGAGATG GTTTGGCTTC CCAGACTCCA GGAATGGCTA AACAGGAAAC AGATGGAGCT 
    CCAGTATGGA GGGATCCACC ACCCAAAGAG AAGGTGAAGG GCAGTGATAG GCCAAGTGAA 
    AGAGTCAAGC GGATCCTAAG AACCAATGTA ACGGCAGTAT TGCAGGATGA GAAGAGAAAG 
    GGGGTGCAGA GGGATTTGCC AAAGAGACGA CCAACCACCT CGGCGGCACA GAGACACCCC 
    AATAAAGAGA ACATACGGCA AGAGGATCGG GTGGGGCCAC GGGGCCACAA ACATGGCTAC 
    AGCACAGAGG AAGTGCGCAA CTTTATGAAC AGGAAGAAGT CGGAGAGACG AAGCAAAGAA 
    CAGGAAGAGC GGGATTCACG GTGCACCGCC GCGCAGCTCC AGCAGAGACG CCTGCAGGAA 
    GTGTTCCGGA AGCAAAAGGA AGCGGGGCCT TTAATAAAGC CCCGTACTGA GCTCTCCAAA 
    CAGAAGTGCC CTGCGACGGA AGATTCTGGA AGACCTGTGG CTGAATGGGT TCAGAGAGAC 
    TGCTCCCGGC TGCTGGGGGA AGAGGAGGGA AGAAGGAAGG AAACCGATGT TGGCCATTGC 
    TTGGGGCCCC TGAAGCTTCG GGACTTAGAT ACATCAGACT CACCCACACA GTCTCCCAAG 
    AGAGGCCCGA CTCTCCCCCA GCCCCGAGAC AGCCAGGAGC GCCTCCAGGC CCTGTGTAAC 
    GTTGCCCGGG ACCTGGCCCG GAGGGTAGAA GTTGAAACCA GCAGGCTGGG AGTTGTAGTT 
    CTTCCACGGC CAATGGTTAG CCAGGAGTCC CAGAGTCCCC CGGGGCTACG GCAACGTTCG 
    CAGGAGGAGC CAACTGGCCT GGACGATGGA CGCTACCAAC GATCCGGGAG TCTGGAGAGA 
    CCACAAGGAT GGGCAGATAT TACAGCGCCT CCGTGTGGGG AAACCGAGAA GAAAGAACAA 
    TGGAGGAGAG CCACGAAAGC TTTAGGCGAT GAACCCTTAG CCAAAAGCCC ACAGAAAGGA 
    TCCCGGGAAC ATAGAGGAGG CAGGAGATTG CAATCGCCGC CGGGATCTAC TCGAGGCCTC 
    TCGGAGCGGC TTGGGAAACA TTCGCCCTCT CGTCCCAGTT GGAAAAGTGG AATTTTGCTG 
    GAATCGGCTC TGCAGGAAGG GGAGGTGGCT CCAGCGAACG GTTTGCGGAA ATCTCACACG 
    GATATTGTGC GGAAGCTTAA GATGCAGAAT GCGGAACAGG GAGTGAAGCT GGCGGCCCTG 
    AGGGAGAAAT CGCGTCGGGA GGCCGCGGAG GCGGAGCATT GTATGGAGGA ACTGAAACTG 
    AAGTCCATCA TGCTGTTCCA ATCCGACGGC CAAAGCGAAG AAGCTAAACC AATGGCAAAT 
    AGGCAGCTGC CCCCTAACGG GGCAGAATTC ATCTACAACA CAAACTGGTG A

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

    ccdc187 ( XM_004916632.3 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_004916689.1 Xenopus tropicalis coiled-coil domain containing 187 (ccdc187), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OXa14013
    Clone ID Related Accession (Same CDS sequence) XM_004916632.3
    Accession Version XM_004916632.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5082bp)
    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 187 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.1) 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_004916632.2. ##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
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    ATGCCCGTGG CTGAGCTGTG GGAATCTCCG GCGCTGGAAA TGTTAAGCAG AATGGAGGAG 
    GTTTCCCGCG CGTGGGACAG TTTGCTGGAA GCCAAACAAG AGCTACAAAG AATCGAGAAC 
    ACGCTCGACA GCCAGGACCG TCGGCACGGG CAGAGAATGC AGCGGAACAT GAAGTTGGAT 
    AGTAGAATAT TTTCCGGAAT CGATCTGCGT CCGTCGGAAG CCTCTGGCCG GAGGAGCCCG 
    GGGAACGAGC AAGAAGAGCA GAACCTATTG GATCAAACGT TTATTTGCCA CAGAAGACAG 
    GCCACAGATT TCTCAGAAGG TCAAGGCTCA TCTTGGAGGC CTCGGTTCAG CAGTGAAACA 
    CACGTACCTA ACAGAGATAT GGACGGAAAG AATCAAATGA CACATCTGGT CTCCATGATG 
    GACGATGGGT TTTCAGAAGA CACTTTATCC AACACATTCC TAGATAGGTC TTCTCCAGCA 
    AGCCAGACTT CCACAGAAGA AGTTTTAAAC CCATATTCGG AGGTGTATCC TTTATCTCCA 
    GTTCTGGAAG TGGAGAGATG CCCCAAGCTT TCCTCCTGCC CAGATCCTCG TCAGTCTCCA 
    AGTGCCGATG TCTACGCTCA AAGGCTGGAA TATCTGAAGA ACAACTCCCC CAACAACAAG 
    CTGAAGAAAC TGAAAGAAAG GATCCGAGAG CAAAAACTCC GACAGAACCT TGGCAGGGAA 
    CTGAGGCCAG ACCCTCCGCG GGTCACCGAG CCTGTGGGAA AACACACTCT AAAGAGGAAA 
    GTGGGGAAGG TGACATTTGG TGTTCCACCT CCGACATACA AAGAAACCAA AGATCCGACG 
    TCGAAGAGCA AATTCAAGAA TTCGGTTTCC AGAAAGCTGT CCTTTGATTC GCCCTCGCCG 
    GAGAGAAGAG TTAAACATTC AGGGAAGGAC GTGTACAGGC CCTCAGCATG GAGAGAAGGG 
    CAGAAGATTG TACGGAAGAT CCTCGGGCCG TCACCTGTGA TACTAAAGGG GCAACACTTG 
    TCTAGTGGAG ATGGTTTGGC TTCCCAGACT CCAGGAATGG CTAAACAGGA AACAGATGGA 
    GCTCCAGTAT GGAGGGATCC ACCACCCAAA GAGAAGGTGA AGGGCAGAGA TAGGCCAAGT 
    GAAAGAGTCA AGCGGATCCT AAGAACCAAT GTAACGGCAG TATTGCAGGA TGAGAAGAGA 
    AAGGGGGTGC AGAGGGATTT GCCAAAGAGA CGACCAACCA CCTCGGCGGC ACAGAGACAC 
    CCCAATAAAG AGAACATACG GCAAGAGGAT CGGGTGGGGC CACGGGGCCA CAAACATGGC 
    TACAGCACAG AGGAAGTGCG CAACTTTATG AACAGGAAGA AGTCGGAGAG ACGAAGCAAA 
    GAACAGGAAG AGCGGGATTC ACGGTGCACC GCCGCGCAGC TCCAGCAGAG ACGCCTGCAG 
    GAAGTGTTCC GGAAGCAAAA GGAAGCGGGG CCTTTAATAA AGCCCCGTAC TGAGCTCTCC 
    AAACAGAAGT GCCCTGCGAC GGAAGATTCT GGAAGACCTG TGGCTGAATG GGTTCAGAGA 
    GACTGCTCCC GGCTGCTGGG GGAAGAGGAG GGAAGAAGGA AGGAAACCGA TGTTGGCCAT 
    TGCTTGGGGC CCCTGAAGCT TCGGGACTTA GATACATCAG ACTCACCCAC ACAGTCTCCC 
    AAGAGAGGCC CGACTCTCCC CCAGCCCCGA GACAGCCAGG AGCGCCTCCA GGCCCTGTGT 
    AACGTTGCCC GGGACCTGGC CCGGAGGGTA GAAGTTGAAA CAAGCAGGCT GGGAGTTGTA 
    GTTCCTCCAC GGCCAATGGT TAGCCAGGAG TCCCAGAGTC CCCCGGGGCT ACGGCAACGT 
    TCGCAGGAGG AGCCAACTGG CCTGGACGAT GGACGCTACC AACGATCCGG GAGTCTGGAG 
    AGACCACAAG GATGGGCAGA TATTACAGCG CCTCCGTGTG GGGAAACCGA GAAGAAAGAA 
    CAAGGGAGGA GAGCCACGAA AGCTTTAGGC GATGAACCCT TAGCCAAAAG CCCACAGAAA 
    GGATCCCGGG AACATAGAGG AGGCAGGAGA TTGCAATCGC CGTCGGGATC TACTCGAGGC 
    CTCTCGGAGC GGCTTGGGAA GCATTCGCCC TCTCGTCCCA GTTGGAAAAG TGGAATTTTG 
    CTGGAATCGG CTCTGCAGGA AGGGGAGGTG GCTCCAGCGA ACGGTTTGCG GAAATCTCAC 
    ACGGATATTG TGCGGAAGCT TAAGATGCAG AATGCGGAAC AGGGAGTGAA GCTGGCGGCC 
    CTGAGGGAGA AATCGCGTCG GGAGGCCGCG GAGGCGGAGC ATTGTATGGA GGAACTGAAA 
    CTGAAGTCCA TCATGCTGTT CCAATCCGAC GGCCAAAGCG AAGAAGCTAA ACCAATGGCA 
    AATAGGCAGC TGCCCCCTAA CGGGGCAGAA TTCATCTACA ACACAAACTG CTTCAAGAAT 
    GATCTGAAAT TCCCTGGAGA ATCAGCCTCG TTAAGTAAAA AGCATGAAGC TAAAGTGAAG 
    CGTAAAGCTC CTTGTGATTG GCAAGCTGCA GATTCTGCAA TGGGTGAAGT GGAAGGGGAT 
    GTGGATTCCT ATGACCGGAC AGAACCAGCC ACTGATTCTA CCAGCAAGTG GAGTGAAATA 
    AGCAAGTTTT ATGGATCCCC CAACATGTTC AGTCGCTTTA CTTTGGAAAT GGCCCAGCAG 
    TATCTCAGAG AAGAGGAGCT GAGGGCACGG CACCAGAGGG CGCTGCTGAG GCTACGAGAA 
    GAGGCCGTCA AGGAGAAGGC CAAGGCGGAA CTGGCATTGC TGGAGCACCA GAGAAAATGT 
    TCAGATGTTG ACAAGGAACC CGGGAAGGTG GAGGAGATAT TGAAGCAGGA GAATGAAATC 
    CAGACCAACC TGAAACAGGA ACAGGCAGAG ATTAGACACC TGCATAATAT CTACCGGGCA 
    GCCCACCAAG AGAGAAAACT TCTCCTAAGA CAGCAGCAGG AGATTTTGCA GATGCGCCAG 
    TCAGTGACCC ACATCCATGA GAAACTGATG AGTTCGGAGT TTCCCGATAA CCTCCCAGTC 
    GGGGCGAGGC TGAGGAACCC TGTGGATCTG AGTGAACAAG ACACGCACTC CGCCATTTCC 
    GATCTGTCGG CCGACGATGG GGACCTCCCT GAGAAGGCAA GCAGTGAAGG CAGCTTACAT 
    GTCTCTGGTG ATCCAGAATC TTCGGCAAGA CACGGGGGCT CCCCCAGTGC CGGTACCAAC 
    CTTACATCAT GTTATAGCAC CGAAGGCCAA GATGGAGCCG CGGAGCTCAA TCCGTTACTG 
    GCGGAACCCA TGGCGGAGTC TGTGCACAAT AACCCATCTC ATCTCAATCA GCCGGGCCCC 
    GGGCCCCAGG GGTATCTGGC CCATCGCTCA CAGGAGGTAA ATATGCCTGT TACTGCACAT 
    CAATCACTTG TAACTGGCGC CGCCGAACAG AAAACTGGCC CTCAGCCAGG GAAATGGAGC 
    CCGGCGGCCG AGGCAGACGC GGAAAAGCCG ATTCCAGGCA TCGACCGGCA TCCAAATCAT 
    GAAACACCAG GTCAGGACGA AGAATCCTCA GAACCAAGTC CATTAGATAT AGAACCATGG 
    AAATTCCCTG GAGATGTGAG TGAAGAGCAG AACACTTCAG GAACATGTGT CCAGTCAGCA 
    AAGTCCATCG CTGGAGATAA TATCCCCCTG GGAGAGTTCT GTAAAGTTTC TGCTAAACTC 
    GTCAACATCT CAAGTTCCTG CTCCACACAG GACTGGGGGG AAGAAGATGA GGAAGATGAG 
    GACACCGAGT GTGTAGATTC TGAGGTTTTT GACATGGAGT CTGAGCGAGA AGCAGGCCAA 
    CCACAAGCAA TGACGGCTCA GGAACCAATC TCAACAGGGC CTTGTATTGA CCAAAGCGAT 
    CAAGATCAAG CAGCAGAGAA TACTAAACGG CCACTGAAGA ATCCCAAAGA CCCACTAGTC 
    CTGGCAAGTG AAATGTTGAG GAACAAACCA GCTCCTCTGG CTTCCGAATC CTTCCCGACC 
    TCCGAGGACG TCTCGGCATC GGATACGAAA AGCGATCGCC GGGAATATTC GAGTAAAGGG 
    CAGGTTAATA AAGCAGTCAA AATTACAAAC ACACAGACGT CGATGTCGAT GAGTCCGGGA 
    GACGTTAGTA ATACAGCCGA AATGAGTTCA CATGACATTA AAGACCGTCC GACGGTGACG 
    GAAAATAATG AAAAGCAATT TGTTATAGAA AACCTAATCT CCAGGAAAAT GGAGACAGTG 
    CCATCCCCGG CCGCATCCCC CAGAGATTTA TTTAAGATTA AAAGCTTGCC ACCTCGGAGT 
    GAGGGAGAGA TCATATTCAT CACCGATGAA GTTCTACAGC CTGTTGGAGA CACCTCGTCA 
    GGAACCCTGT CCTCCGATGA TGAAAGGCTT TCATGTGATA ATGGAGTGGA GTTACATTCG 
    ACGAAAAAGG ATTCTTCTCT TGGTGAGTCG ATTAGAAGTC ACGATAGTGA AAGCGAAGAC 
    TTTCCGACCC CACCCGATGA GGTTTTTTGG TCGGAATGTG AGGATTTAGA AAGCGCCCCG 
    GACGACAGTT TAATTGACCA AATGCATTTA TTTTATACGA ATCAGTTCAG CGAAGACAAT 
    CTGCTTCCTC CTGTCCATCT AGCTGGAGAA GCCACATCTC AAGACAAAAA TACCTTCTTG 
    TTCTCCACAG AACCAAAAAC CTCATTGGTA GGTAAGCCAC CAAGGCCATA TTTAACTCTG 
    TCTATGGTGG AAGAAGATCA TGGTGACCCC TTGGCTGCCT TTGCTATAGG AGACAGAGTT 
    TTAGTAAAAG GTTCCATGCC AGGTACTCTA AGATTTAAAG GTTTGGTCTC CTACCAAGAA 
    GGACATCGCG CTGGAGTAGA GCTTGACAAA GCAGAAGGAA ACTATGATGG AACATTTGAG 
    GGTGTCCAAT ACTTTGAATG CCCTAAAAAC TGTGGAGTTT TTGCCAGTCC TGAAGAACTG 
    TCACATCTGT TGGTTGATGA TAAGTCAAGC ATAGACTATA TTGACGGCAG TTCTTCTGAT 
    GGGGACCCAC CTCCTGGAAA TAGCAGCTCA GACTGCAGAT GA

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

    RefSeq XP_004916689.1
    CDS202..5283
    Translation

    Target ORF information:

    RefSeq Version XM_004916632.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis coiled-coil domain containing 187 (ccdc187), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_004916632.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    ATGCCCGTGG CTGAGCTGTG GGAATCTCCG GCGCTGGAAA TGTTAAGCAG AATGGAGGAG 
    GTTTCCCGCG CGTGGGACAG TTTGCTGGAA GCCAAACAAG AGCTACAAAG AATCGAGAAC 
    ACGCTCGACA GCCAGGACCG TCGGCACGGG CAGAGAATGC AGCGGAACAT GAAGTTGGAT 
    AGTAGAATAT TTTCCGGAAT CGATCTGCGT CCGTCGGAAG CCTCTGGCCG GAGGAGCCCG 
    GGGAACGAGC AAGAAGAGCA GAACCTATTG GATCAAACGT TTATTTGCCA CAGAAGACAG 
    GCCACAGATT TCTCAGAAGG TCAAGGCTCA TCTTGGAGGC CTCGGTTCAG CAGTGAAACA 
    CACGTACCTA ACAGAGATAT GGACGGAAAG AATCAAATGA CACATCTGGT CTCCATGATG 
    GACGATGGGT TTTCAGAAGA CACTTTATCC AACACATTCC TAGATAGGTC TTCTCCAGCA 
    AGCCAGACTT CCACAGAAGA AGTTTTAAAC CCATATTCGG AGGTGTATCC TTTATCTCCA 
    GTTCTGGAAG TGGAGAGATG CCCCAAGCTT TCCTCCTGCC CAGATCCTCG TCAGTCTCCA 
    AGTGCCGATG TCTACGCTCA AAGGCTGGAA TATCTGAAGA ACAACTCCCC CAACAACAAG 
    CTGAAGAAAC TGAAAGAAAG GATCCGAGAG CAAAAACTCC GACAGAACCT TGGCAGGGAA 
    CTGAGGCCAG ACCCTCCGCG GGTCACCGAG CCTGTGGGAA AACACACTCT AAAGAGGAAA 
    GTGGGGAAGG TGACATTTGG TGTTCCACCT CCGACATACA AAGAAACCAA AGATCCGACG 
    TCGAAGAGCA AATTCAAGAA TTCGGTTTCC AGAAAGCTGT CCTTTGATTC GCCCTCGCCG 
    GAGAGAAGAG TTAAACATTC AGGGAAGGAC GTGTACAGGC CCTCAGCATG GAGAGAAGGG 
    CAGAAGATTG TACGGAAGAT CCTCGGGCCG TCACCTGTGA TACTAAAGGG GCAACACTTG 
    TCTAGTGGAG ATGGTTTGGC TTCCCAGACT CCAGGAATGG CTAAACAGGA AACAGATGGA 
    GCTCCAGTAT GGAGGGATCC ACCACCCAAA GAGAAGGTGA AGGGCAGAGA TAGGCCAAGT 
    GAAAGAGTCA AGCGGATCCT AAGAACCAAT GTAACGGCAG TATTGCAGGA TGAGAAGAGA 
    AAGGGGGTGC AGAGGGATTT GCCAAAGAGA CGACCAACCA CCTCGGCGGC ACAGAGACAC 
    CCCAATAAAG AGAACATACG GCAAGAGGAT CGGGTGGGGC CACGGGGCCA CAAACATGGC 
    TACAGCACAG AGGAAGTGCG CAACTTTATG AACAGGAAGA AGTCGGAGAG ACGAAGCAAA 
    GAACAGGAAG AGCGGGATTC ACGGTGCACC GCCGCGCAGC TCCAGCAGAG ACGCCTGCAG 
    GAAGTGTTCC GGAAGCAAAA GGAAGCGGGG CCTTTAATAA AGCCCCGTAC TGAGCTCTCC 
    AAACAGAAGT GCCCTGCGAC GGAAGATTCT GGAAGACCTG TGGCTGAATG GGTTCAGAGA 
    GACTGCTCCC GGCTGCTGGG GGAAGAGGAG GGAAGAAGGA AGGAAACCGA TGTTGGCCAT 
    TGCTTGGGGC CCCTGAAGCT TCGGGACTTA GATACATCAG ACTCACCCAC ACAGTCTCCC 
    AAGAGAGGCC CGACTCTCCC CCAGCCCCGA GACAGCCAGG AGCGCCTCCA GGCCCTGTGT 
    AACGTTGCCC GGGACCTGGC CCGGAGGGTA GAAGTTGAAA CAAGCAGGCT GGGAGTTGTA 
    GTTCCTCCAC GGCCAATGGT TAGCCAGGAG TCCCAGAGTC CCCCGGGGCT ACGGCAACGT 
    TCGCAGGAGG AGCCAACTGG CCTGGACGAT GGACGCTACC AACGATCCGG GAGTCTGGAG 
    AGACCACAAG GATGGGCAGA TATTACAGCG CCTCCGTGTG GGGAAACCGA GAAGAAAGAA 
    CAAGGGAGGA GAGCCACGAA AGCTTTAGGC GATGAACCCT TAGCCAAAAG CCCACAGAAA 
    GGATCCCGGG AACATAGAGG AGGCAGGAGA TTGCAATCGC CGTCGGGATC TACTCGAGGC 
    CTCTCGGAGC GGCTTGGGAA GCATTCGCCC TCTCGTCCCA GTTGGAAAAG TGGAATTTTG 
    CTGGAATCGG CTCTGCAGGA AGGGGAGGTG GCTCCAGCGA ACGGTTTGCG GAAATCTCAC 
    ACGGATATTG TGCGGAAGCT TAAGATGCAG AATGCGGAAC AGGGAGTGAA GCTGGCGGCC 
    CTGAGGGAGA AATCGCGTCG GGAGGCCGCG GAGGCGGAGC ATTGTATGGA GGAACTGAAA 
    CTGAAGTCCA TCATGCTGTT CCAATCCGAC GGCCAAAGCG AAGAAGCTAA ACCAATGGCA 
    AATAGGCAGC TGCCCCCTAA CGGGGCAGAA TTCATCTACA ACACAAACTG CTTCAAGAAT 
    GATCTGAAAT TCCCTGGAGA ATCAGCCTCG TTAAGTAAAA AGCATGAAGC TAAAGTGAAG 
    CGTAAAGCTC CTTGTGATTG GCAAGCTGCA GATTCTGCAA TGGGTGAAGT GGAAGGGGAT 
    GTGGATTCCT ATGACCGGAC AGAACCAGCC ACTGATTCTA CCAGCAAGTG GAGTGAAATA 
    AGCAAGTTTT ATGGATCCCC CAACATGTTC AGTCGCTTTA CTTTGGAAAT GGCCCAGCAG 
    TATCTCAGAG AAGAGGAGCT GAGGGCACGG CACCAGAGGG CGCTGCTGAG GCTACGAGAA 
    GAGGCCGTCA AGGAGAAGGC CAAGGCGGAA CTGGCATTGC TGGAGCACCA GAGAAAATGT 
    TCAGATGTTG ACAAGGAACC CGGGAAGGTG GAGGAGATAT TGAAGCAGGA GAATGAAATC 
    CAGACCAACC TGAAACAGGA ACAGGCAGAG ATTAGACACC TGCATAATAT CTACCGGGCA 
    GCCCACCAAG AGAGAAAACT TCTCCTAAGA CAGCAGCAGG AGATTTTGCA GATGCGCCAG 
    TCAGTGACCC ACATCCATGA GAAACTGATG AGTTCGGAGT TTCCCGATAA CCTCCCAGTC 
    GGGGCGAGGC TGAGGAACCC TGTGGATCTG AGTGAACAAG ACACGCACTC CGCCATTTCC 
    GATCTGTCGG CCGACGATGG GGACCTCCCT GAGAAGGCAA GCAGTGAAGG CAGCTTACAT 
    GTCTCTGGTG ATCCAGAATC TTCGGCAAGA CACGGGGGCT CCCCCAGTGC CGGTACCAAC 
    CTTACATCAT GTTATAGCAC CGAAGGCCAA GATGGAGCCG CGGAGCTCAA TCCGTTACTG 
    GCGGAACCCA TGGCGGAGTC TGTGCACAAT AACCCATCTC ATCTCAATCA GCCGGGCCCC 
    GGGCCCCAGG GGTATCTGGC CCATCGCTCA CAGGAGGTAA ATATGCCTGT TACTGCACAT 
    CAATCACTTG TAACTGGCGC CGCCGAACAG AAAACTGGCC CTCAGCCAGG GAAATGGAGC 
    CCGGCGGCCG AGGCAGACGC GGAAAAGCCG ATTCCAGGCA TCGACCGGCA TCCAAATCAT 
    GAAACACCAG GTCAGGACGA AGAATCCTCA GAACCAAGTC CATTAGATAT AGAACCATGG 
    AAATTCCCTG GAGATGTGAG TGAAGAGCAG AACACTTCAG GAACATGTGT CCAGTCAGCA 
    AAGTCCATCG CTGGAGATAA TATCCCCCTG GGAGAGTTCT GTAAAGTTTC TGCTAAACTC 
    GTCAACATCT CAAGTTCCTG CTCCACACAG GACTGGGGGG AAGAAGATGA GGAAGATGAG 
    GACACCGAGT GTGTAGATTC TGAGGTTTTT GACATGGAGT CTGAGCGAGA AGCAGGCCAA 
    CCACAAGCAA TGACGGCTCA GGAACCAATC TCAACAGGGC CTTGTATTGA CCAAAGCGAT 
    CAAGATCAAG CAGCAGAGAA TACTAAACGG CCACTGAAGA ATCCCAAAGA CCCACTAGTC 
    CTGGCAAGTG AAATGTTGAG GAACAAACCA GCTCCTCTGG CTTCCGAATC CTTCCCGACC 
    TCCGAGGACG TCTCGGCATC GGATACGAAA AGCGATCGCC GGGAATATTC GAGTAAAGGG 
    CAGGTTAATA AAGCAGTCAA AATTACAAAC ACACAGACGT CGATGTCGAT GAGTCCGGGA 
    GACGTTAGTA ATACAGCCGA AATGAGTTCA CATGACATTA AAGACCGTCC GACGGTGACG 
    GAAAATAATG AAAAGCAATT TGTTATAGAA AACCTAATCT CCAGGAAAAT GGAGACAGTG 
    CCATCCCCGG CCGCATCCCC CAGAGATTTA TTTAAGATTA AAAGCTTGCC ACCTCGGAGT 
    GAGGGAGAGA TCATATTCAT CACCGATGAA GTTCTACAGC CTGTTGGAGA CACCTCGTCA 
    GGAACCCTGT CCTCCGATGA TGAAAGGCTT TCATGTGATA ATGGAGTGGA GTTACATTCG 
    ACGAAAAAGG ATTCTTCTCT TGGTGAGTCG ATTAGAAGTC ACGATAGTGA AAGCGAAGAC 
    TTTCCGACCC CACCCGATGA GGTTTTTTGG TCGGAATGTG AGGATTTAGA AAGCGCCCCG 
    GACGACAGTT TAATTGACCA AATGCATTTA TTTTATACGA ATCAGTTCAG CGAAGACAAT 
    CTGCTTCCTC CTGTCCATCT AGCTGGAGAA GCCACATCTC AAGACAAAAA TACCTTCTTG 
    TTCTCCACAG AACCAAAAAC CTCATTGGTA GGTAAGCCAC CAAGGCCATA TTTAACTCTG 
    TCTATGGTGG AAGAAGATCA TGGTGACCCC TTGGCTGCCT TTGCTATAGG AGACAGAGTT 
    TTAGTAAAAG GTTCCATGCC AGGTACTCTA AGATTTAAAG GTTTGGTCTC CTACCAAGAA 
    GGACATCGCG CTGGAGTAGA GCTTGACAAA GCAGAAGGAA ACTATGATGG AACATTTGAG 
    GGTGTCCAAT ACTTTGAATG CCCTAAAAAC TGTGGAGTTT TTGCCAGTCC TGAAGAACTG 
    TCACATCTGT TGGTTGATGA TAAGTCAAGC ATAGACTATA TTGACGGCAG TTCTTCTGAT 
    GGGGACCCAC CTCCTGGAAA TAGCAGCTCA GACTGCAGAT GA

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

    ccdc187 ( XM_004916633.3 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_004916690.1 Xenopus tropicalis coiled-coil domain containing 187 (ccdc187), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OXa14014
    Clone ID Related Accession (Same CDS sequence) XM_004916633.3
    Accession Version XM_004916633.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5079bp)
    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 187 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.1) 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_004916633.2. ##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
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    ATGCCCGTGG CTGAGCTGTG GGAATCTCCG GCGCTGGAAA TGTTAAGCAG AATGGAGGAG 
    GTTTCCCGCG CGTGGGACAG TTTGCTGGAA GCCAAACAAG AGCTACAAAG AATCGAGAAC 
    ACGCTCGACA GCCAGGACCG TCGGCACGGG CAGAGAATGC AGCGGAACAT GAAGTTGGAT 
    AGTAGAATAT TTTCCGGAAT CGATCTGCGT CCGTCGGAAG CCTCTGGCCG GAGGAGCCCG 
    GGGAACGAGC AAGAAGAGCA GAACCTATTG GATCAAACGT TTATTTGCCA CAGACAGGCC 
    ACAGATTTCT CAGAAGGTCA AGGCTCATCT TGGAGGCCTC GGTTCAGCAG TGAAACACAC 
    GTACCTAACA GAGATATGGA CGGAAAGAAT CAAATGACAC ATCTGGTCTC CATGATGGAC 
    GATGGGTTTT CAGAAGACAC TTTATCCAAC ACATTCCTAG ATAGGTCTTC TCCAGCAAGC 
    CAGACTTCCA CAGAAGAAGT TTTAAACCCA TATTCGGAGG TGTATCCTTT ATCTCCAGTT 
    CTGGAAGTGG AGAGATGCCC CAAGCTTTCC TCCTGCCCAG ATCCTCGTCA GTCTCCAAGT 
    GCCGATGTCT ACGCTCAAAG GCTGGAATAT CTGAAGAACA ACTCCCCCAA CAACAAGCTG 
    AAGAAACTGA AAGAAAGGAT CCGAGAGCAA AAACTCCGAC AGAACCTTGG CAGGGAACTG 
    AGGCCAGACC CTCCGCGGGT CACCGAGCCT GTGGGAAAAC ACACTCTAAA GAGGAAAGTG 
    GGGAAGGTGA CATTTGGTGT TCCACCTCCG ACATACAAAG AAACCAAAGA TCCGACGTCG 
    AAGAGCAAAT TCAAGAATTC GGTTTCCAGA AAGCTGTCCT TTGATTCGCC CTCGCCGGAG 
    AGAAGAGTTA AACATTCAGG GAAGGACGTG TACAGGCCCT CAGCATGGAG AGAAGGGCAG 
    AAGATTGTAC GGAAGATCCT CGGGCCGTCA CCTGTGATAC TAAAGGGGCA ACACTTGTCT 
    AGTGGAGATG GTTTGGCTTC CCAGACTCCA GGAATGGCTA AACAGGAAAC AGATGGAGCT 
    CCAGTATGGA GGGATCCACC ACCCAAAGAG AAGGTGAAGG GCAGAGATAG GCCAAGTGAA 
    AGAGTCAAGC GGATCCTAAG AACCAATGTA ACGGCAGTAT TGCAGGATGA GAAGAGAAAG 
    GGGGTGCAGA GGGATTTGCC AAAGAGACGA CCAACCACCT CGGCGGCACA GAGACACCCC 
    AATAAAGAGA ACATACGGCA AGAGGATCGG GTGGGGCCAC GGGGCCACAA ACATGGCTAC 
    AGCACAGAGG AAGTGCGCAA CTTTATGAAC AGGAAGAAGT CGGAGAGACG AAGCAAAGAA 
    CAGGAAGAGC GGGATTCACG GTGCACCGCC GCGCAGCTCC AGCAGAGACG CCTGCAGGAA 
    GTGTTCCGGA AGCAAAAGGA AGCGGGGCCT TTAATAAAGC CCCGTACTGA GCTCTCCAAA 
    CAGAAGTGCC CTGCGACGGA AGATTCTGGA AGACCTGTGG CTGAATGGGT TCAGAGAGAC 
    TGCTCCCGGC TGCTGGGGGA AGAGGAGGGA AGAAGGAAGG AAACCGATGT TGGCCATTGC 
    TTGGGGCCCC TGAAGCTTCG GGACTTAGAT ACATCAGACT CACCCACACA GTCTCCCAAG 
    AGAGGCCCGA CTCTCCCCCA GCCCCGAGAC AGCCAGGAGC GCCTCCAGGC CCTGTGTAAC 
    GTTGCCCGGG ACCTGGCCCG GAGGGTAGAA GTTGAAACAA GCAGGCTGGG AGTTGTAGTT 
    CCTCCACGGC CAATGGTTAG CCAGGAGTCC CAGAGTCCCC CGGGGCTACG GCAACGTTCG 
    CAGGAGGAGC CAACTGGCCT GGACGATGGA CGCTACCAAC GATCCGGGAG TCTGGAGAGA 
    CCACAAGGAT GGGCAGATAT TACAGCGCCT CCGTGTGGGG AAACCGAGAA GAAAGAACAA 
    GGGAGGAGAG CCACGAAAGC TTTAGGCGAT GAACCCTTAG CCAAAAGCCC ACAGAAAGGA 
    TCCCGGGAAC ATAGAGGAGG CAGGAGATTG CAATCGCCGT CGGGATCTAC TCGAGGCCTC 
    TCGGAGCGGC TTGGGAAGCA TTCGCCCTCT CGTCCCAGTT GGAAAAGTGG AATTTTGCTG 
    GAATCGGCTC TGCAGGAAGG GGAGGTGGCT CCAGCGAACG GTTTGCGGAA ATCTCACACG 
    GATATTGTGC GGAAGCTTAA GATGCAGAAT GCGGAACAGG GAGTGAAGCT GGCGGCCCTG 
    AGGGAGAAAT CGCGTCGGGA GGCCGCGGAG GCGGAGCATT GTATGGAGGA ACTGAAACTG 
    AAGTCCATCA TGCTGTTCCA ATCCGACGGC CAAAGCGAAG AAGCTAAACC AATGGCAAAT 
    AGGCAGCTGC CCCCTAACGG GGCAGAATTC ATCTACAACA CAAACTGCTT CAAGAATGAT 
    CTGAAATTCC CTGGAGAATC AGCCTCGTTA AGTAAAAAGC ATGAAGCTAA AGTGAAGCGT 
    AAAGCTCCTT GTGATTGGCA AGCTGCAGAT TCTGCAATGG GTGAAGTGGA AGGGGATGTG 
    GATTCCTATG ACCGGACAGA ACCAGCCACT GATTCTACCA GCAAGTGGAG TGAAATAAGC 
    AAGTTTTATG GATCCCCCAA CATGTTCAGT CGCTTTACTT TGGAAATGGC CCAGCAGTAT 
    CTCAGAGAAG AGGAGCTGAG GGCACGGCAC CAGAGGGCGC TGCTGAGGCT ACGAGAAGAG 
    GCCGTCAAGG AGAAGGCCAA GGCGGAACTG GCATTGCTGG AGCACCAGAG AAAATGTTCA 
    GATGTTGACA AGGAACCCGG GAAGGTGGAG GAGATATTGA AGCAGGAGAA TGAAATCCAG 
    ACCAACCTGA AACAGGAACA GGCAGAGATT AGACACCTGC ATAATATCTA CCGGGCAGCC 
    CACCAAGAGA GAAAACTTCT CCTAAGACAG CAGCAGGAGA TTTTGCAGAT GCGCCAGTCA 
    GTGACCCACA TCCATGAGAA ACTGATGAGT TCGGAGTTTC CCGATAACCT CCCAGTCGGG 
    GCGAGGCTGA GGAACCCTGT GGATCTGAGT GAACAAGACA CGCACTCCGC CATTTCCGAT 
    CTGTCGGCCG ACGATGGGGA CCTCCCTGAG AAGGCAAGCA GTGAAGGCAG CTTACATGTC 
    TCTGGTGATC CAGAATCTTC GGCAAGACAC GGGGGCTCCC CCAGTGCCGG TACCAACCTT 
    ACATCATGTT ATAGCACCGA AGGCCAAGAT GGAGCCGCGG AGCTCAATCC GTTACTGGCG 
    GAACCCATGG CGGAGTCTGT GCACAATAAC CCATCTCATC TCAATCAGCC GGGCCCCGGG 
    CCCCAGGGGT ATCTGGCCCA TCGCTCACAG GAGGTAAATA TGCCTGTTAC TGCACATCAA 
    TCACTTGTAA CTGGCGCCGC CGAACAGAAA ACTGGCCCTC AGCCAGGGAA ATGGAGCCCG 
    GCGGCCGAGG CAGACGCGGA AAAGCCGATT CCAGGCATCG ACCGGCATCC AAATCATGAA 
    ACACCAGGTC AGGACGAAGA ATCCTCAGAA CCAAGTCCAT TAGATATAGA ACCATGGAAA 
    TTCCCTGGAG ATGTGAGTGA AGAGCAGAAC ACTTCAGGAA CATGTGTCCA GTCAGCAAAG 
    TCCATCGCTG GAGATAATAT CCCCCTGGGA GAGTTCTGTA AAGTTTCTGC TAAACTCGTC 
    AACATCTCAA GTTCCTGCTC CACACAGGAC TGGGGGGAAG AAGATGAGGA AGATGAGGAC 
    ACCGAGTGTG TAGATTCTGA GGTTTTTGAC ATGGAGTCTG AGCGAGAAGC AGGCCAACCA 
    CAAGCAATGA CGGCTCAGGA ACCAATCTCA ACAGGGCCTT GTATTGACCA AAGCGATCAA 
    GATCAAGCAG CAGAGAATAC TAAACGGCCA CTGAAGAATC CCAAAGACCC ACTAGTCCTG 
    GCAAGTGAAA TGTTGAGGAA CAAACCAGCT CCTCTGGCTT CCGAATCCTT CCCGACCTCC 
    GAGGACGTCT CGGCATCGGA TACGAAAAGC GATCGCCGGG AATATTCGAG TAAAGGGCAG 
    GTTAATAAAG CAGTCAAAAT TACAAACACA CAGACGTCGA TGTCGATGAG TCCGGGAGAC 
    GTTAGTAATA CAGCCGAAAT GAGTTCACAT GACATTAAAG ACCGTCCGAC GGTGACGGAA 
    AATAATGAAA AGCAATTTGT TATAGAAAAC CTAATCTCCA GGAAAATGGA GACAGTGCCA 
    TCCCCGGCCG CATCCCCCAG AGATTTATTT AAGATTAAAA GCTTGCCACC TCGGAGTGAG 
    GGAGAGATCA TATTCATCAC CGATGAAGTT CTACAGCCTG TTGGAGACAC CTCGTCAGGA 
    ACCCTGTCCT CCGATGATGA AAGGCTTTCA TGTGATAATG GAGTGGAGTT ACATTCGACG 
    AAAAAGGATT CTTCTCTTGG TGAGTCGATT AGAAGTCACG ATAGTGAAAG CGAAGACTTT 
    CCGACCCCAC CCGATGAGGT TTTTTGGTCG GAATGTGAGG ATTTAGAAAG CGCCCCGGAC 
    GACAGTTTAA TTGACCAAAT GCATTTATTT TATACGAATC AGTTCAGCGA AGACAATCTG 
    CTTCCTCCTG TCCATCTAGC TGGAGAAGCC ACATCTCAAG ACAAAAATAC CTTCTTGTTC 
    TCCACAGAAC CAAAAACCTC ATTGGTAGGT AAGCCACCAA GGCCATATTT AACTCTGTCT 
    ATGGTGGAAG AAGATCATGG TGACCCCTTG GCTGCCTTTG CTATAGGAGA CAGAGTTTTA 
    GTAAAAGGTT CCATGCCAGG TACTCTAAGA TTTAAAGGTT TGGTCTCCTA CCAAGAAGGA 
    CATCGCGCTG GAGTAGAGCT TGACAAAGCA GAAGGAAACT ATGATGGAAC ATTTGAGGGT 
    GTCCAATACT TTGAATGCCC TAAAAACTGT GGAGTTTTTG CCAGTCCTGA AGAACTGTCA 
    CATCTGTTGG TTGATGATAA GTCAAGCATA GACTATATTG ACGGCAGTTC TTCTGATGGG 
    GACCCACCTC CTGGAAATAG CAGCTCAGAC TGCAGATGA

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

    RefSeq XP_004916690.1
    CDS201..5279
    Translation

    Target ORF information:

    RefSeq Version XM_004916633.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis coiled-coil domain containing 187 (ccdc187), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_004916633.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    ATGCCCGTGG CTGAGCTGTG GGAATCTCCG GCGCTGGAAA TGTTAAGCAG AATGGAGGAG 
    GTTTCCCGCG CGTGGGACAG TTTGCTGGAA GCCAAACAAG AGCTACAAAG AATCGAGAAC 
    ACGCTCGACA GCCAGGACCG TCGGCACGGG CAGAGAATGC AGCGGAACAT GAAGTTGGAT 
    AGTAGAATAT TTTCCGGAAT CGATCTGCGT CCGTCGGAAG CCTCTGGCCG GAGGAGCCCG 
    GGGAACGAGC AAGAAGAGCA GAACCTATTG GATCAAACGT TTATTTGCCA CAGACAGGCC 
    ACAGATTTCT CAGAAGGTCA AGGCTCATCT TGGAGGCCTC GGTTCAGCAG TGAAACACAC 
    GTACCTAACA GAGATATGGA CGGAAAGAAT CAAATGACAC ATCTGGTCTC CATGATGGAC 
    GATGGGTTTT CAGAAGACAC TTTATCCAAC ACATTCCTAG ATAGGTCTTC TCCAGCAAGC 
    CAGACTTCCA CAGAAGAAGT TTTAAACCCA TATTCGGAGG TGTATCCTTT ATCTCCAGTT 
    CTGGAAGTGG AGAGATGCCC CAAGCTTTCC TCCTGCCCAG ATCCTCGTCA GTCTCCAAGT 
    GCCGATGTCT ACGCTCAAAG GCTGGAATAT CTGAAGAACA ACTCCCCCAA CAACAAGCTG 
    AAGAAACTGA AAGAAAGGAT CCGAGAGCAA AAACTCCGAC AGAACCTTGG CAGGGAACTG 
    AGGCCAGACC CTCCGCGGGT CACCGAGCCT GTGGGAAAAC ACACTCTAAA GAGGAAAGTG 
    GGGAAGGTGA CATTTGGTGT TCCACCTCCG ACATACAAAG AAACCAAAGA TCCGACGTCG 
    AAGAGCAAAT TCAAGAATTC GGTTTCCAGA AAGCTGTCCT TTGATTCGCC CTCGCCGGAG 
    AGAAGAGTTA AACATTCAGG GAAGGACGTG TACAGGCCCT CAGCATGGAG AGAAGGGCAG 
    AAGATTGTAC GGAAGATCCT CGGGCCGTCA CCTGTGATAC TAAAGGGGCA ACACTTGTCT 
    AGTGGAGATG GTTTGGCTTC CCAGACTCCA GGAATGGCTA AACAGGAAAC AGATGGAGCT 
    CCAGTATGGA GGGATCCACC ACCCAAAGAG AAGGTGAAGG GCAGAGATAG GCCAAGTGAA 
    AGAGTCAAGC GGATCCTAAG AACCAATGTA ACGGCAGTAT TGCAGGATGA GAAGAGAAAG 
    GGGGTGCAGA GGGATTTGCC AAAGAGACGA CCAACCACCT CGGCGGCACA GAGACACCCC 
    AATAAAGAGA ACATACGGCA AGAGGATCGG GTGGGGCCAC GGGGCCACAA ACATGGCTAC 
    AGCACAGAGG AAGTGCGCAA CTTTATGAAC AGGAAGAAGT CGGAGAGACG AAGCAAAGAA 
    CAGGAAGAGC GGGATTCACG GTGCACCGCC GCGCAGCTCC AGCAGAGACG CCTGCAGGAA 
    GTGTTCCGGA AGCAAAAGGA AGCGGGGCCT TTAATAAAGC CCCGTACTGA GCTCTCCAAA 
    CAGAAGTGCC CTGCGACGGA AGATTCTGGA AGACCTGTGG CTGAATGGGT TCAGAGAGAC 
    TGCTCCCGGC TGCTGGGGGA AGAGGAGGGA AGAAGGAAGG AAACCGATGT TGGCCATTGC 
    TTGGGGCCCC TGAAGCTTCG GGACTTAGAT ACATCAGACT CACCCACACA GTCTCCCAAG 
    AGAGGCCCGA CTCTCCCCCA GCCCCGAGAC AGCCAGGAGC GCCTCCAGGC CCTGTGTAAC 
    GTTGCCCGGG ACCTGGCCCG GAGGGTAGAA GTTGAAACAA GCAGGCTGGG AGTTGTAGTT 
    CCTCCACGGC CAATGGTTAG CCAGGAGTCC CAGAGTCCCC CGGGGCTACG GCAACGTTCG 
    CAGGAGGAGC CAACTGGCCT GGACGATGGA CGCTACCAAC GATCCGGGAG TCTGGAGAGA 
    CCACAAGGAT GGGCAGATAT TACAGCGCCT CCGTGTGGGG AAACCGAGAA GAAAGAACAA 
    GGGAGGAGAG CCACGAAAGC TTTAGGCGAT GAACCCTTAG CCAAAAGCCC ACAGAAAGGA 
    TCCCGGGAAC ATAGAGGAGG CAGGAGATTG CAATCGCCGT CGGGATCTAC TCGAGGCCTC 
    TCGGAGCGGC TTGGGAAGCA TTCGCCCTCT CGTCCCAGTT GGAAAAGTGG AATTTTGCTG 
    GAATCGGCTC TGCAGGAAGG GGAGGTGGCT CCAGCGAACG GTTTGCGGAA ATCTCACACG 
    GATATTGTGC GGAAGCTTAA GATGCAGAAT GCGGAACAGG GAGTGAAGCT GGCGGCCCTG 
    AGGGAGAAAT CGCGTCGGGA GGCCGCGGAG GCGGAGCATT GTATGGAGGA ACTGAAACTG 
    AAGTCCATCA TGCTGTTCCA ATCCGACGGC CAAAGCGAAG AAGCTAAACC AATGGCAAAT 
    AGGCAGCTGC CCCCTAACGG GGCAGAATTC ATCTACAACA CAAACTGCTT CAAGAATGAT 
    CTGAAATTCC CTGGAGAATC AGCCTCGTTA AGTAAAAAGC ATGAAGCTAA AGTGAAGCGT 
    AAAGCTCCTT GTGATTGGCA AGCTGCAGAT TCTGCAATGG GTGAAGTGGA AGGGGATGTG 
    GATTCCTATG ACCGGACAGA ACCAGCCACT GATTCTACCA GCAAGTGGAG TGAAATAAGC 
    AAGTTTTATG GATCCCCCAA CATGTTCAGT CGCTTTACTT TGGAAATGGC CCAGCAGTAT 
    CTCAGAGAAG AGGAGCTGAG GGCACGGCAC CAGAGGGCGC TGCTGAGGCT ACGAGAAGAG 
    GCCGTCAAGG AGAAGGCCAA GGCGGAACTG GCATTGCTGG AGCACCAGAG AAAATGTTCA 
    GATGTTGACA AGGAACCCGG GAAGGTGGAG GAGATATTGA AGCAGGAGAA TGAAATCCAG 
    ACCAACCTGA AACAGGAACA GGCAGAGATT AGACACCTGC ATAATATCTA CCGGGCAGCC 
    CACCAAGAGA GAAAACTTCT CCTAAGACAG CAGCAGGAGA TTTTGCAGAT GCGCCAGTCA 
    GTGACCCACA TCCATGAGAA ACTGATGAGT TCGGAGTTTC CCGATAACCT CCCAGTCGGG 
    GCGAGGCTGA GGAACCCTGT GGATCTGAGT GAACAAGACA CGCACTCCGC CATTTCCGAT 
    CTGTCGGCCG ACGATGGGGA CCTCCCTGAG AAGGCAAGCA GTGAAGGCAG CTTACATGTC 
    TCTGGTGATC CAGAATCTTC GGCAAGACAC GGGGGCTCCC CCAGTGCCGG TACCAACCTT 
    ACATCATGTT ATAGCACCGA AGGCCAAGAT GGAGCCGCGG AGCTCAATCC GTTACTGGCG 
    GAACCCATGG CGGAGTCTGT GCACAATAAC CCATCTCATC TCAATCAGCC GGGCCCCGGG 
    CCCCAGGGGT ATCTGGCCCA TCGCTCACAG GAGGTAAATA TGCCTGTTAC TGCACATCAA 
    TCACTTGTAA CTGGCGCCGC CGAACAGAAA ACTGGCCCTC AGCCAGGGAA ATGGAGCCCG 
    GCGGCCGAGG CAGACGCGGA AAAGCCGATT CCAGGCATCG ACCGGCATCC AAATCATGAA 
    ACACCAGGTC AGGACGAAGA ATCCTCAGAA CCAAGTCCAT TAGATATAGA ACCATGGAAA 
    TTCCCTGGAG ATGTGAGTGA AGAGCAGAAC ACTTCAGGAA CATGTGTCCA GTCAGCAAAG 
    TCCATCGCTG GAGATAATAT CCCCCTGGGA GAGTTCTGTA AAGTTTCTGC TAAACTCGTC 
    AACATCTCAA GTTCCTGCTC CACACAGGAC TGGGGGGAAG AAGATGAGGA AGATGAGGAC 
    ACCGAGTGTG TAGATTCTGA GGTTTTTGAC ATGGAGTCTG AGCGAGAAGC AGGCCAACCA 
    CAAGCAATGA CGGCTCAGGA ACCAATCTCA ACAGGGCCTT GTATTGACCA AAGCGATCAA 
    GATCAAGCAG CAGAGAATAC TAAACGGCCA CTGAAGAATC CCAAAGACCC ACTAGTCCTG 
    GCAAGTGAAA TGTTGAGGAA CAAACCAGCT CCTCTGGCTT CCGAATCCTT CCCGACCTCC 
    GAGGACGTCT CGGCATCGGA TACGAAAAGC GATCGCCGGG AATATTCGAG TAAAGGGCAG 
    GTTAATAAAG CAGTCAAAAT TACAAACACA CAGACGTCGA TGTCGATGAG TCCGGGAGAC 
    GTTAGTAATA CAGCCGAAAT GAGTTCACAT GACATTAAAG ACCGTCCGAC GGTGACGGAA 
    AATAATGAAA AGCAATTTGT TATAGAAAAC CTAATCTCCA GGAAAATGGA GACAGTGCCA 
    TCCCCGGCCG CATCCCCCAG AGATTTATTT AAGATTAAAA GCTTGCCACC TCGGAGTGAG 
    GGAGAGATCA TATTCATCAC CGATGAAGTT CTACAGCCTG TTGGAGACAC CTCGTCAGGA 
    ACCCTGTCCT CCGATGATGA AAGGCTTTCA TGTGATAATG GAGTGGAGTT ACATTCGACG 
    AAAAAGGATT CTTCTCTTGG TGAGTCGATT AGAAGTCACG ATAGTGAAAG CGAAGACTTT 
    CCGACCCCAC CCGATGAGGT TTTTTGGTCG GAATGTGAGG ATTTAGAAAG CGCCCCGGAC 
    GACAGTTTAA TTGACCAAAT GCATTTATTT TATACGAATC AGTTCAGCGA AGACAATCTG 
    CTTCCTCCTG TCCATCTAGC TGGAGAAGCC ACATCTCAAG ACAAAAATAC CTTCTTGTTC 
    TCCACAGAAC CAAAAACCTC ATTGGTAGGT AAGCCACCAA GGCCATATTT AACTCTGTCT 
    ATGGTGGAAG AAGATCATGG TGACCCCTTG GCTGCCTTTG CTATAGGAGA CAGAGTTTTA 
    GTAAAAGGTT CCATGCCAGG TACTCTAAGA TTTAAAGGTT TGGTCTCCTA CCAAGAAGGA 
    CATCGCGCTG GAGTAGAGCT TGACAAAGCA GAAGGAAACT ATGATGGAAC ATTTGAGGGT 
    GTCCAATACT TTGAATGCCC TAAAAACTGT GGAGTTTTTG CCAGTCCTGA AGAACTGTCA 
    CATCTGTTGG TTGATGATAA GTCAAGCATA GACTATATTG ACGGCAGTTC TTCTGATGGG 
    GACCCACCTC CTGGAAATAG CAGCTCAGAC TGCAGATGA

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

    ccdc187 ( XM_002935236.4 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_002935282.2 Xenopus tropicalis coiled-coil domain containing 187 (ccdc187), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OXa14015
    Clone ID Related Accession (Same CDS sequence) XM_002935236.4
    Accession Version XM_002935236.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5076bp)
    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 187 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.1) 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_002935236.3. ##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
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    ATGCCCGTGG CTGAGCTGTG GGAATCTCCG GCGCTGGAAA TGTTAAGCAG AATGGAGGAG 
    GTTTCCCGCG CGTGGGACAG TTTGCTGGAA GCCAAACAAG AGCTACAAAG AATCGAGAAC 
    ACGCTCGACA GCCAGGACCG TCGGCACGGG CAGAGAATGC AGCGGAACAT GAAGTTGGAT 
    AGTAGAATAT TTTCCGGAAT CGATCTGCGT CCGTCGGAAG CCTCTGGCCG GAGGAGCCCG 
    GGGAACGAGC AAGAAGAGCA GAACCTATTG GATCAAACGT TTATTTGCCA CAGAAGACAG 
    GCCACAGATT TCTCAGAAGG TCAAGGCTCA TCTTGGAGGC CTCGGTTCAG CAGTGAAACA 
    CACGTACCTA ACAGAGATAT GGACGGAAAG AATCAAATGA CACATCTGGT CTCCATGATG 
    GACGATGGGT TTTCAGAAGA CACTTTATCC AACACATTCC TAGATAGGTC TTCTCCAGCA 
    AGCCAGACTT CCACAGAAGA AGTTTTAAAC CCATATTCGG AGGTGTATCC TTTATCTCCA 
    GTTCTGGAAG TGGAGAGATG CCCCAAGCTT TCCTCCTGCC CAGATCCTCG TCAGTCTCCA 
    AGTGCCGATG TCTACGCTCA AAGGCTGGAA TATCTGAAGA ACAACTCCCC CAACAACAAG 
    CTGAAGAAAC TGAAAGAAAG GATCCGAGAG CAAAAACTCC GACAGAACCT TGGCAGGGAA 
    CTGAGGCCAG ACCCTCCGCG GGTCACCGAG CCTGTGGGAA AACACACTCT AAAGAGGAAA 
    GTGGGGAAGG TGACATTTGG TGTTCCACCT CCGACATACA AAGAAACCAA AGATCCGACG 
    TCGAAGAGCA AATTCAAGAA TTCGGTTTCC AGAAAGCTGT CCTTTGATTC GCCCTCGCCG 
    GAGAGAAGAG TTAAACATTC AGGGAAGGAC GTGTACAGGC CCTCAGCATG GAGAGAAGGG 
    CAGAAGATTG TACGGAAGAT CCTCGGGCCG TCACCTGTGA TACTAAAGGG GCAACACTTG 
    TCTAGTGGAG ATGGTTTGGC TTCCCAGACT CCAGGAATGG CTAAACAGGA AACAGATGGA 
    GCTCCAGTAT GGAGGGATCC ACCACCCAAA GAGAAGGTGA AGGGCAGAGA TAGGCCAAGT 
    GAAAGAGTCA AGCGGATCCT AAGAACCAAT GTAACGGCAG TATTGCAGGA TGAGAAGAGA 
    AAGGGGGTGC AGAGGGATTT GCCAAAGAGA CGACCAACCA CCTCGGCGGC ACAGAGACAC 
    CCCAATAAAG AGAACATACG GCAAGAGGAT CGGGTGGGGC CACGGGGCCA CAAACATGGC 
    TACAGCACAG AGGAAGTGCG CAACTTTATG AACAGGAAGA AGTCGGAGAG ACGAAGCAAA 
    GAACAGGAAG AGCGGGATTC ACGGTGCACC GCCGCGCAGC TCCAGCAGAG ACGCCTGCAG 
    GAAGTGTTCC GGAAGCAAAA GGAAGCGGGG CCTTTAATAA AGCCCCGTAC TGAGCTCTCC 
    AAACAGAAGT GCCCTGCGAC GGAAGATTCT GGAAGACCTG TGGCTGAATG GGTTCAGAGA 
    GACTGCTCCC GGCTGCTGGG GGAAGAGGAG GGAAGAAGGA AGGAAACCGA TGTTGGCCAT 
    TGCTTGGGGC CCCTGAAGCT TCGGGACTTA GATACATCAG ACTCACCCAC ACAGTCTCCC 
    AAGAGAGGCC CGACTCTCCC CCAGCCCCGA GACAGCCAGG AGCGCCTCCA GGCCCTGTGT 
    AACGTTGCCC GGGACCTGGC CCGGAGGGTA GAAGTTGAAA CAAGCAGGCT GGGAGTTGTA 
    GTTCCTCCAC GGCCAATGGT TAGCCAGGAG TCCCAGAGTC CCCCGGGGCT ACGGCAACGT 
    TCGCAGGAGG AGCCAACTGG CCTGGACGAT GGACGCTACC AACGATCCGG GAGTCTGGAG 
    AGACCACAAG GATGGGCAGA TATTACAGCG CCTCCGTGTG GGGAAACCGA GAAGAAAGAA 
    CAAGGGAGGA GAGCCACGAA AGCTTTAGGC GATGAACCCT TAGCCAAAAG CCCACAGAAA 
    GGATCCCGGG AACATAGAGG AGGCAGGAGA TTGCAATCGC CGTCGGGATC TACTCGAGGC 
    CTCTCGGAGC GGCTTGGGAA GCATTCGCCC TCTCGTCCCA GTTGGAAAAG TGGAATTTTG 
    CTGGAATCGG CTCTGCAGGA AGGGGAGGTG GCTCCAGCGA ACGGTTTGCG GAAATCTCAC 
    ACGGATATTG TGCGGAAGCT TAAGATGCAG AATGCGGAAC AGGGAGTGAA GCTGGCGGCC 
    CTGAGGGAGA AATCGCGTCG GGAGGCCGCG GAGGCGGAGC ATTGTATGGA GGAACTGAAA 
    CTGAAGTCCA TCATGCTGTT CCAATCCGAC GGCCAAAGCG AAGAAGCTAA ACCAATGGCA 
    AATAGGCAGC TGCCCCCTAA CGGGGCAGAA TTCATCTACA ACACAAACTG CTTCAAGAAT 
    GATCTGAAAT TCCCTGGAGA ATCAGCCTCG TTAAGTAAAA AGCATGAAGC TAAAGTGAAG 
    CGTAAAGCTC CTTGTGATTG GCAAGATTCT GCAATGGGTG AAGTGGAAGG GGATGTGGAT 
    TCCTATGACC GGACAGAACC AGCCACTGAT TCTACCAGCA AGTGGAGTGA AATAAGCAAG 
    TTTTATGGAT CCCCCAACAT GTTCAGTCGC TTTACTTTGG AAATGGCCCA GCAGTATCTC 
    AGAGAAGAGG AGCTGAGGGC ACGGCACCAG AGGGCGCTGC TGAGGCTACG AGAAGAGGCC 
    GTCAAGGAGA AGGCCAAGGC GGAACTGGCA TTGCTGGAGC ACCAGAGAAA ATGTTCAGAT 
    GTTGACAAGG AACCCGGGAA GGTGGAGGAG ATATTGAAGC AGGAGAATGA AATCCAGACC 
    AACCTGAAAC AGGAACAGGC AGAGATTAGA CACCTGCATA ATATCTACCG GGCAGCCCAC 
    CAAGAGAGAA AACTTCTCCT AAGACAGCAG CAGGAGATTT TGCAGATGCG CCAGTCAGTG 
    ACCCACATCC ATGAGAAACT GATGAGTTCG GAGTTTCCCG ATAACCTCCC AGTCGGGGCG 
    AGGCTGAGGA ACCCTGTGGA TCTGAGTGAA CAAGACACGC ACTCCGCCAT TTCCGATCTG 
    TCGGCCGACG ATGGGGACCT CCCTGAGAAG GCAAGCAGTG AAGGCAGCTT ACATGTCTCT 
    GGTGATCCAG AATCTTCGGC AAGACACGGG GGCTCCCCCA GTGCCGGTAC CAACCTTACA 
    TCATGTTATA GCACCGAAGG CCAAGATGGA GCCGCGGAGC TCAATCCGTT ACTGGCGGAA 
    CCCATGGCGG AGTCTGTGCA CAATAACCCA TCTCATCTCA ATCAGCCGGG CCCCGGGCCC 
    CAGGGGTATC TGGCCCATCG CTCACAGGAG GTAAATATGC CTGTTACTGC ACATCAATCA 
    CTTGTAACTG GCGCCGCCGA ACAGAAAACT GGCCCTCAGC CAGGGAAATG GAGCCCGGCG 
    GCCGAGGCAG ACGCGGAAAA GCCGATTCCA GGCATCGACC GGCATCCAAA TCATGAAACA 
    CCAGGTCAGG ACGAAGAATC CTCAGAACCA AGTCCATTAG ATATAGAACC ATGGAAATTC 
    CCTGGAGATG TGAGTGAAGA GCAGAACACT TCAGGAACAT GTGTCCAGTC AGCAAAGTCC 
    ATCGCTGGAG ATAATATCCC CCTGGGAGAG TTCTGTAAAG TTTCTGCTAA ACTCGTCAAC 
    ATCTCAAGTT CCTGCTCCAC ACAGGACTGG GGGGAAGAAG ATGAGGAAGA TGAGGACACC 
    GAGTGTGTAG ATTCTGAGGT TTTTGACATG GAGTCTGAGC GAGAAGCAGG CCAACCACAA 
    GCAATGACGG CTCAGGAACC AATCTCAACA GGGCCTTGTA TTGACCAAAG CGATCAAGAT 
    CAAGCAGCAG AGAATACTAA ACGGCCACTG AAGAATCCCA AAGACCCACT AGTCCTGGCA 
    AGTGAAATGT TGAGGAACAA ACCAGCTCCT CTGGCTTCCG AATCCTTCCC GACCTCCGAG 
    GACGTCTCGG CATCGGATAC GAAAAGCGAT CGCCGGGAAT ATTCGAGTAA AGGGCAGGTT 
    AATAAAGCAG TCAAAATTAC AAACACACAG ACGTCGATGT CGATGAGTCC GGGAGACGTT 
    AGTAATACAG CCGAAATGAG TTCACATGAC ATTAAAGACC GTCCGACGGT GACGGAAAAT 
    AATGAAAAGC AATTTGTTAT AGAAAACCTA ATCTCCAGGA AAATGGAGAC AGTGCCATCC 
    CCGGCCGCAT CCCCCAGAGA TTTATTTAAG ATTAAAAGCT TGCCACCTCG GAGTGAGGGA 
    GAGATCATAT TCATCACCGA TGAAGTTCTA CAGCCTGTTG GAGACACCTC GTCAGGAACC 
    CTGTCCTCCG ATGATGAAAG GCTTTCATGT GATAATGGAG TGGAGTTACA TTCGACGAAA 
    AAGGATTCTT CTCTTGGTGA GTCGATTAGA AGTCACGATA GTGAAAGCGA AGACTTTCCG 
    ACCCCACCCG ATGAGGTTTT TTGGTCGGAA TGTGAGGATT TAGAAAGCGC CCCGGACGAC 
    AGTTTAATTG ACCAAATGCA TTTATTTTAT ACGAATCAGT TCAGCGAAGA CAATCTGCTT 
    CCTCCTGTCC ATCTAGCTGG AGAAGCCACA TCTCAAGACA AAAATACCTT CTTGTTCTCC 
    ACAGAACCAA AAACCTCATT GGTAGGTAAG CCACCAAGGC CATATTTAAC TCTGTCTATG 
    GTGGAAGAAG ATCATGGTGA CCCCTTGGCT GCCTTTGCTA TAGGAGACAG AGTTTTAGTA 
    AAAGGTTCCA TGCCAGGTAC TCTAAGATTT AAAGGTTTGG TCTCCTACCA AGAAGGACAT 
    CGCGCTGGAG TAGAGCTTGA CAAAGCAGAA GGAAACTATG ATGGAACATT TGAGGGTGTC 
    CAATACTTTG AATGCCCTAA AAACTGTGGA GTTTTTGCCA GTCCTGAAGA ACTGTCACAT 
    CTGTTGGTTG ATGATAAGTC AAGCATAGAC TATATTGACG GCAGTTCTTC TGATGGGGAC 
    CCACCTCCTG GAAATAGCAG CTCAGACTGC AGATGA

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

    RefSeq XP_002935282.2
    CDS202..5277
    Translation

    Target ORF information:

    RefSeq Version XM_002935236.4
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis coiled-coil domain containing 187 (ccdc187), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_002935236.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    ATGCCCGTGG CTGAGCTGTG GGAATCTCCG GCGCTGGAAA TGTTAAGCAG AATGGAGGAG 
    GTTTCCCGCG CGTGGGACAG TTTGCTGGAA GCCAAACAAG AGCTACAAAG AATCGAGAAC 
    ACGCTCGACA GCCAGGACCG TCGGCACGGG CAGAGAATGC AGCGGAACAT GAAGTTGGAT 
    AGTAGAATAT TTTCCGGAAT CGATCTGCGT CCGTCGGAAG CCTCTGGCCG GAGGAGCCCG 
    GGGAACGAGC AAGAAGAGCA GAACCTATTG GATCAAACGT TTATTTGCCA CAGAAGACAG 
    GCCACAGATT TCTCAGAAGG TCAAGGCTCA TCTTGGAGGC CTCGGTTCAG CAGTGAAACA 
    CACGTACCTA ACAGAGATAT GGACGGAAAG AATCAAATGA CACATCTGGT CTCCATGATG 
    GACGATGGGT TTTCAGAAGA CACTTTATCC AACACATTCC TAGATAGGTC TTCTCCAGCA 
    AGCCAGACTT CCACAGAAGA AGTTTTAAAC CCATATTCGG AGGTGTATCC TTTATCTCCA 
    GTTCTGGAAG TGGAGAGATG CCCCAAGCTT TCCTCCTGCC CAGATCCTCG TCAGTCTCCA 
    AGTGCCGATG TCTACGCTCA AAGGCTGGAA TATCTGAAGA ACAACTCCCC CAACAACAAG 
    CTGAAGAAAC TGAAAGAAAG GATCCGAGAG CAAAAACTCC GACAGAACCT TGGCAGGGAA 
    CTGAGGCCAG ACCCTCCGCG GGTCACCGAG CCTGTGGGAA AACACACTCT AAAGAGGAAA 
    GTGGGGAAGG TGACATTTGG TGTTCCACCT CCGACATACA AAGAAACCAA AGATCCGACG 
    TCGAAGAGCA AATTCAAGAA TTCGGTTTCC AGAAAGCTGT CCTTTGATTC GCCCTCGCCG 
    GAGAGAAGAG TTAAACATTC AGGGAAGGAC GTGTACAGGC CCTCAGCATG GAGAGAAGGG 
    CAGAAGATTG TACGGAAGAT CCTCGGGCCG TCACCTGTGA TACTAAAGGG GCAACACTTG 
    TCTAGTGGAG ATGGTTTGGC TTCCCAGACT CCAGGAATGG CTAAACAGGA AACAGATGGA 
    GCTCCAGTAT GGAGGGATCC ACCACCCAAA GAGAAGGTGA AGGGCAGAGA TAGGCCAAGT 
    GAAAGAGTCA AGCGGATCCT AAGAACCAAT GTAACGGCAG TATTGCAGGA TGAGAAGAGA 
    AAGGGGGTGC AGAGGGATTT GCCAAAGAGA CGACCAACCA CCTCGGCGGC ACAGAGACAC 
    CCCAATAAAG AGAACATACG GCAAGAGGAT CGGGTGGGGC CACGGGGCCA CAAACATGGC 
    TACAGCACAG AGGAAGTGCG CAACTTTATG AACAGGAAGA AGTCGGAGAG ACGAAGCAAA 
    GAACAGGAAG AGCGGGATTC ACGGTGCACC GCCGCGCAGC TCCAGCAGAG ACGCCTGCAG 
    GAAGTGTTCC GGAAGCAAAA GGAAGCGGGG CCTTTAATAA AGCCCCGTAC TGAGCTCTCC 
    AAACAGAAGT GCCCTGCGAC GGAAGATTCT GGAAGACCTG TGGCTGAATG GGTTCAGAGA 
    GACTGCTCCC GGCTGCTGGG GGAAGAGGAG GGAAGAAGGA AGGAAACCGA TGTTGGCCAT 
    TGCTTGGGGC CCCTGAAGCT TCGGGACTTA GATACATCAG ACTCACCCAC ACAGTCTCCC 
    AAGAGAGGCC CGACTCTCCC CCAGCCCCGA GACAGCCAGG AGCGCCTCCA GGCCCTGTGT 
    AACGTTGCCC GGGACCTGGC CCGGAGGGTA GAAGTTGAAA CAAGCAGGCT GGGAGTTGTA 
    GTTCCTCCAC GGCCAATGGT TAGCCAGGAG TCCCAGAGTC CCCCGGGGCT ACGGCAACGT 
    TCGCAGGAGG AGCCAACTGG CCTGGACGAT GGACGCTACC AACGATCCGG GAGTCTGGAG 
    AGACCACAAG GATGGGCAGA TATTACAGCG CCTCCGTGTG GGGAAACCGA GAAGAAAGAA 
    CAAGGGAGGA GAGCCACGAA AGCTTTAGGC GATGAACCCT TAGCCAAAAG CCCACAGAAA 
    GGATCCCGGG AACATAGAGG AGGCAGGAGA TTGCAATCGC CGTCGGGATC TACTCGAGGC 
    CTCTCGGAGC GGCTTGGGAA GCATTCGCCC TCTCGTCCCA GTTGGAAAAG TGGAATTTTG 
    CTGGAATCGG CTCTGCAGGA AGGGGAGGTG GCTCCAGCGA ACGGTTTGCG GAAATCTCAC 
    ACGGATATTG TGCGGAAGCT TAAGATGCAG AATGCGGAAC AGGGAGTGAA GCTGGCGGCC 
    CTGAGGGAGA AATCGCGTCG GGAGGCCGCG GAGGCGGAGC ATTGTATGGA GGAACTGAAA 
    CTGAAGTCCA TCATGCTGTT CCAATCCGAC GGCCAAAGCG AAGAAGCTAA ACCAATGGCA 
    AATAGGCAGC TGCCCCCTAA CGGGGCAGAA TTCATCTACA ACACAAACTG CTTCAAGAAT 
    GATCTGAAAT TCCCTGGAGA ATCAGCCTCG TTAAGTAAAA AGCATGAAGC TAAAGTGAAG 
    CGTAAAGCTC CTTGTGATTG GCAAGATTCT GCAATGGGTG AAGTGGAAGG GGATGTGGAT 
    TCCTATGACC GGACAGAACC AGCCACTGAT TCTACCAGCA AGTGGAGTGA AATAAGCAAG 
    TTTTATGGAT CCCCCAACAT GTTCAGTCGC TTTACTTTGG AAATGGCCCA GCAGTATCTC 
    AGAGAAGAGG AGCTGAGGGC ACGGCACCAG AGGGCGCTGC TGAGGCTACG AGAAGAGGCC 
    GTCAAGGAGA AGGCCAAGGC GGAACTGGCA TTGCTGGAGC ACCAGAGAAA ATGTTCAGAT 
    GTTGACAAGG AACCCGGGAA GGTGGAGGAG ATATTGAAGC AGGAGAATGA AATCCAGACC 
    AACCTGAAAC AGGAACAGGC AGAGATTAGA CACCTGCATA ATATCTACCG GGCAGCCCAC 
    CAAGAGAGAA AACTTCTCCT AAGACAGCAG CAGGAGATTT TGCAGATGCG CCAGTCAGTG 
    ACCCACATCC ATGAGAAACT GATGAGTTCG GAGTTTCCCG ATAACCTCCC AGTCGGGGCG 
    AGGCTGAGGA ACCCTGTGGA TCTGAGTGAA CAAGACACGC ACTCCGCCAT TTCCGATCTG 
    TCGGCCGACG ATGGGGACCT CCCTGAGAAG GCAAGCAGTG AAGGCAGCTT ACATGTCTCT 
    GGTGATCCAG AATCTTCGGC AAGACACGGG GGCTCCCCCA GTGCCGGTAC CAACCTTACA 
    TCATGTTATA GCACCGAAGG CCAAGATGGA GCCGCGGAGC TCAATCCGTT ACTGGCGGAA 
    CCCATGGCGG AGTCTGTGCA CAATAACCCA TCTCATCTCA ATCAGCCGGG CCCCGGGCCC 
    CAGGGGTATC TGGCCCATCG CTCACAGGAG GTAAATATGC CTGTTACTGC ACATCAATCA 
    CTTGTAACTG GCGCCGCCGA ACAGAAAACT GGCCCTCAGC CAGGGAAATG GAGCCCGGCG 
    GCCGAGGCAG ACGCGGAAAA GCCGATTCCA GGCATCGACC GGCATCCAAA TCATGAAACA 
    CCAGGTCAGG ACGAAGAATC CTCAGAACCA AGTCCATTAG ATATAGAACC ATGGAAATTC 
    CCTGGAGATG TGAGTGAAGA GCAGAACACT TCAGGAACAT GTGTCCAGTC AGCAAAGTCC 
    ATCGCTGGAG ATAATATCCC CCTGGGAGAG TTCTGTAAAG TTTCTGCTAA ACTCGTCAAC 
    ATCTCAAGTT CCTGCTCCAC ACAGGACTGG GGGGAAGAAG ATGAGGAAGA TGAGGACACC 
    GAGTGTGTAG ATTCTGAGGT TTTTGACATG GAGTCTGAGC GAGAAGCAGG CCAACCACAA 
    GCAATGACGG CTCAGGAACC AATCTCAACA GGGCCTTGTA TTGACCAAAG CGATCAAGAT 
    CAAGCAGCAG AGAATACTAA ACGGCCACTG AAGAATCCCA AAGACCCACT AGTCCTGGCA 
    AGTGAAATGT TGAGGAACAA ACCAGCTCCT CTGGCTTCCG AATCCTTCCC GACCTCCGAG 
    GACGTCTCGG CATCGGATAC GAAAAGCGAT CGCCGGGAAT ATTCGAGTAA AGGGCAGGTT 
    AATAAAGCAG TCAAAATTAC AAACACACAG ACGTCGATGT CGATGAGTCC GGGAGACGTT 
    AGTAATACAG CCGAAATGAG TTCACATGAC ATTAAAGACC GTCCGACGGT GACGGAAAAT 
    AATGAAAAGC AATTTGTTAT AGAAAACCTA ATCTCCAGGA AAATGGAGAC AGTGCCATCC 
    CCGGCCGCAT CCCCCAGAGA TTTATTTAAG ATTAAAAGCT TGCCACCTCG GAGTGAGGGA 
    GAGATCATAT TCATCACCGA TGAAGTTCTA CAGCCTGTTG GAGACACCTC GTCAGGAACC 
    CTGTCCTCCG ATGATGAAAG GCTTTCATGT GATAATGGAG TGGAGTTACA TTCGACGAAA 
    AAGGATTCTT CTCTTGGTGA GTCGATTAGA AGTCACGATA GTGAAAGCGA AGACTTTCCG 
    ACCCCACCCG ATGAGGTTTT TTGGTCGGAA TGTGAGGATT TAGAAAGCGC CCCGGACGAC 
    AGTTTAATTG ACCAAATGCA TTTATTTTAT ACGAATCAGT TCAGCGAAGA CAATCTGCTT 
    CCTCCTGTCC ATCTAGCTGG AGAAGCCACA TCTCAAGACA AAAATACCTT CTTGTTCTCC 
    ACAGAACCAA AAACCTCATT GGTAGGTAAG CCACCAAGGC CATATTTAAC TCTGTCTATG 
    GTGGAAGAAG ATCATGGTGA CCCCTTGGCT GCCTTTGCTA TAGGAGACAG AGTTTTAGTA 
    AAAGGTTCCA TGCCAGGTAC TCTAAGATTT AAAGGTTTGG TCTCCTACCA AGAAGGACAT 
    CGCGCTGGAG TAGAGCTTGA CAAAGCAGAA GGAAACTATG ATGGAACATT TGAGGGTGTC 
    CAATACTTTG AATGCCCTAA AAACTGTGGA GTTTTTGCCA GTCCTGAAGA ACTGTCACAT 
    CTGTTGGTTG ATGATAAGTC AAGCATAGAC TATATTGACG GCAGTTCTTC TGATGGGGAC 
    CCACCTCCTG GAAATAGCAG CTCAGACTGC AGATGA

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

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