ORF » Species Summary » Xenopus tropicalis » ccdc17 cDNA ORF clone

ccdc17 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following ccdc17 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ccdc17 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
OXa57146 XM_012961579.3
Latest version!		 Xenopus tropicalis coiled-coil domain containing 17 (ccdc17), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa36318 XM_012961579.2
Latest version!		 Xenopus tropicalis coiled-coil domain containing 17 (ccdc17), 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)
    ccdc17 ( XM_012961579.3 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_012817033.2 Xenopus tropicalis coiled-coil domain containing 17 (ccdc17), mRNA.
    Price & Availability↑
    CloneID OXa57146
    Clone ID Related Accession (Same CDS sequence) XM_012961579.3
    Accession Version XM_012961579.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4428bp)
    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 17
    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_012961579.2. ##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
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGCCAATT TGGACACATA CCGATGCAAT AATTGCAAAA TGGATTTCCG TTCCCAGAGA 
    CTACTGGAGA AGCACAAGGA AAAGTTCTGT ATTGGGAGCA ACATCGGAGA TCCTGTAGTT 
    CTCAGTTCTC GATACGCAGA TGGAGGGGAG ATCTTGCACT TGGATGGTAG AGGAGTTCCA 
    AGGATGACAG AGAGCCCTGA TTTTAAGACA AGCGATAGTA TTGCTCGCCT AAGAGCCAGG 
    GAAAATCTTC TTAAGGAGCG GGAACAGCAA CTGATGGATG GATACGGGCA GTTCGAAAGT 
    CCTTCTGACA GTAGAGCTCT AAGAAGTCTA ACAGATGAGT TTCAGAAGCT GAGAAAATCA 
    TTGCAGGAGA CTGTTCCAAC ACTGAGATCG TTACAGTTTC AGGGGGAACC TAACTCCCAA 
    ATACATTGGG AAAGAGATTA TCGTGAACGC ATGCAAGAAA TGGCAGAGGC TCATGAACGG 
    CACCTTGCAG ATATCCATGC ACGGAACCAA ACATTAGAGC TTCAGCGAGA AGATATCCGC 
    CAGCGACTTT CAGACTTTAC TGGTGCTGGC TCCACCACTT CACACCTTGA ACAGATGCTC 
    CTGGAACTAA AGGCCCAGGA GGAAAAGAAC CAGTTGGCAT TGGATGCTCT GAGGGACCAA 
    ATTGGGCTCA TCCAGTCAGA AAACAGAACC AAAACAGAGA CCGCGAACAA AAATATCCCA 
    TCCAACACCT CTATACAAAA AGAAAAGGTG TCTTTTAACT TGATTGCCTT TCCCCAACGT 
    GGAAGCTCCC TATCCTCAGA GATCAGTGCC CTACAACTGG CTTATGTTCA AAGTGGTGGA 
    AATGATCCAT CTGTTTTGGT ACAAATGCAG GATCTGCAAG CAGAAGCACT GACATTTGAA 
    GAAATGGCAC ATAAACAGGA GCGCAAGGAG AAGAAGAAGC GAAAAAATGA AGCTGCCCCT 
    CGATTGCTTG ATGCTGAACT TATGGCAGTG GAGTTGGAGA ATCAGCGCTT GGAAGAGGAG 
    ATCTTTAATA TAAAGATACA GAGAGGCAAG AAGAAGGTTG GCAATGGGGA CTCTGAACTG 
    GTTGAGATGC AGCGGGAGCA TCTCCAACAA ATGGCACAGC TACAGGCTGA CATTGAGCTA 
    CTCAGAAGGG ACGTCAGCAG AATGCCTCCT CGAGTTAGTC ATGGGCCCCC GCCATTTCTG 
    CCTCCGCCTG TTGCACCCCC ACCCCCACCA CCAGCGCATA TCTCAAGGCA CCCAGCAGGG 
    AGACCAGACG GTGCAGTAAT GATGGGAAGT TTGGATATGG TGCGCCCTCC TAGTCCGTCT 
    GCAAACAGAC ATGTAGTTGA ACCTATAGAT GCACTGGGAC CTGCACCTTA TGATCCAGTG 
    GCTGGTTTTG TCATATTCTA TGACTTTCTG CTGGGACTGG ACCCAACAAT TCAGAAGATC 
    CGGCTGGTCA GTGGCCTGTA TAGTAATGGG CAGAAAATGG GACAAACTAC ATCCCTCCCG 
    GATGTTTTGT GTGAAGTGTG GCAATCATCA CACCACCTGG CCAATGCCCC TAAAGGAAAC 
    ATTGCTATGT TATCAGCAAA GCAGCCCATT CCAAGAGTTC GACCATCTTT TTCCATTTCT 
    CTTATTATGG AACTACAAGG ATCAGGAGGA TTCAACCCAT ATGGGCAGGA AGTGCAACAG 
    CTGTCCCCAT TTGGATGGGC AAAATTTGAT CTGTTTGATC AGCACAACCA AGTCTTAAGT 
    GGCCGATGGA AGCTCCCTGT TAGATCATTC CCAGTAAGAC CAGGTTTACA TACAGGACAA 
    CTCAACACAG TTCCACAGGT GGGAAAAGCT GAGATTTTCT TTCGTGTAAT TAATGCCAGA 
    GATGCTGAAA TTCAGTCCAT GGCAGAAATA GACCCTAGAA ATGCATCACT ATACCAGTAC 
    CCTCCTTTGA TGTCTGGTCC AGCCGTTGCT GTCGTGAATA ACCCAGCACC TCAACCAACT 
    TTCCACCCTT CCCTAAAGTC ATTTAACATG CCTCTTTCTC ATTTCACTGA CTATGTTGAC 
    CCACCCCCAG TACAAGAGCT GCCAAACCAA CAAAAAGACA GTCAGAGTGA AATACCATTG 
    GACGGACAGA AAGAACTAGA GTTGTCCAAA GCAGGAAACC CACACAGCCT GGGGTTTATA 
    ATAGACAGAG TTAAAGATGC GCCTTTAGGA GATGGAACAC TGCGTCTGAC AGGATATCAC 
    ATGAAGACAG GAAAAGTTGT TCAAACTAAG CACAAGGGAA TGAATTTTGT CATTTCTGCT 
    GTGAGCTCCA ACATCAGGCA TGGACACTTC ATTTTTGGAG AGCAGGAGGT GATTTTTGGT 
    GGTGTGACTC CTGAAGAAGA CATGCTTCTT ATGCTGCGCT TCTATCACTG GCCTGGAGGC 
    AGCACTGCCT CGGCTCCCTG GGAAGCAAGG AGGGCCTTTA AGCCACTGCC AGCCAGTGAT 
    GAATGGGCAG CAGCTTGGGC TATTCTGAGG CTCACTAGGG CAGCATCAAC AGAAATAAAA 
    GATCGTGATT ATACTAAAAA AGGCACATAT GTGTGGAACA CAGGGACCCA AGAACTTGCT 
    CTGTACCACT CTCCTGCACC CCCAATAATG CAACTGTCGG CAATACTGCC AGAGCGTTAC 
    AATGAGACAT TTGAACAATA TGGCAGTGCC ACAGTGCATC TCTGTCTATT CAGTGCATCA 
    AGACCAGACC AGGCATTTCC TTCAGTGGCT CCCACAACTG ATGAGCGTAT CCAAGAGATT 
    CCTAGGGATG TATACATTCC CATCTCTCGA ATGACACCAG TGTGTGAGCA CTTCACTTCT 
    GCCGACAGCA TTATCCTGTA CATTGACGGT GCTCGTTTCC TTCCTGACTC AGTTACAGTC 
    ACCCATGTCA CAGGAAGAAT ATTTGACAAG AACTATGAGC AGTTTGGACC AGATATCTCC 
    ACAGGAGTAG ATTTAAATAG TGACATTTTC CAGCCATTCT ATAACTTCTC ATTACAGATC 
    CAGCCATCAA ACCTACCTCC TACAGCTACT CTCCTATTGA AGGTATACAC TATTGATAGA 
    TTTATGCAAG AACTGACGCT TATAGGTTGG GCAGCTCTCA ATTTGTTTGT AGAGTCTGGA 
    ACCCAGAGAG CACCCATTTC AGACTCAGAA GATATCAAGG TATCTTTAAA TGAAGGTGCC 
    CATCAAATCC GTTTGTATCA CAAAGCCCCT GCTACTGATC AGTCATTTTC AGTGGAATCA 
    GTGATATCTT CAGGACGTGT TGTACCATGT GCCACTTTGC TGATACGAGT AATGAAAGTT 
    TCCATGAAAA ACCAACAACA CTTGCAGAAT TATAACAATT CCCAGTTGGT CAAGGAGCAT 
    CCTGATTATG AAAAAGGGGT GTATATTTCA GATTCTGCAC AACCTACGCA GGGAGAGATA 
    CAGCTCTACA GAGCAATGAT AAACAGATCA GTGATATTGG GCCGAGATGT GATCCCTTCT 
    CTAGCTGGGA CTTCAGATCA CGAACTAAAC TCAGACAAGC AACTTTCCAC TTGGGTCCAG 
    AGGACATTTT TGTATTTGAA AAATAAAATC CCCCAACCAT TCCAGCTTTG TTGTGTCTCT 
    CGCTACATTG TATCTTCAGG ATTAATGGTT TCAGCTGACA GAGCCTACAA TTTACCTTGG 
    TCCGGTTTCA CTCTTGCTCA TATTTGCCTC AGCCCTCCAG CAGCATTTTA TTTTGGCCAG 
    CCTTGGGTAA AATATGACCA TGCAGTCCCT GTGGATGACA TTGATTTAAA CAGTGATCAG 
    AAATGCCCAT TGTGGAAAGA TGGGTTTAAG AGCTTTCCAG AGAGGGTATA CCATAAGTAT 
    TTAACAGTTA TATTTCAACT ACATGAGATT CTTCTGGTTA AAAAAGGTAA AAATCCGGAG 
    ACTGATAACA AGCAAGATTA CCATTCAGCA GAACAAAGTC AGCATGAGTT ATGGCAGGGG 
    CAACAGGCAT GGACAGCTTT GCAAGTATTT TACAAACAAT ACTGTAACTT TGGCATCTAC 
    CAACTGCCCT TGTACTATGG AGTTCCCAGT AAGGCAGTGT TATCGGCATT GGCATCAGAT 
    GACTGTAAAG TGACACTGAC AGATCTTGTA AAAACAAACA CTATCCAGTT ATTGCCTGGT 
    GCTTCTCTAA CTGTTCGAAT AGCAGATGGA AGGCGGCATG GAGAGTTGCT GGTGTATAAT 
    CTCCAAGAAA AGAATCAGAT GTACCTGCCC ACAGAGGCTA TGAACTCATA CAGCGAAGAG 
    CAAAGTGGTG GAAAATTGGC AGAGTTAATA CCAGACAGAG AAAAAGAGGA CTTTAAAAAG 
    CACCTTGTAA ACTGGTTCAG AAAGCATCTC AGCCTAAATA ATGAACTTGT CCATCATAAC 
    AATGATGTGG AGAAGGAGAC AAGGCAGCAC ACTCAAGATA CAGACTGA

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

    RefSeq XP_012817033.2
    CDS86..4513
    Translation

    Target ORF information:

    RefSeq Version XM_012961579.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis coiled-coil domain containing 17 (ccdc17), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_012961579.3

    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
    ATGGCCAATT TGGACACATA CCGATGCAAT AATTGCAAAA TGGATTTCCG TTCCCAGAGA 
    CTACTGGAGA AGCACAAGGA AAAGTTCTGT ATTGGGAGCA ACATCGGAGA TCCTGTAGTT 
    CTCAGTTCTC GATACGCAGA TGGAGGGGAG ATCTTGCACT TGGATGGTAG AGGAGTTCCA 
    AGGATGACAG AGAGCCCTGA TTTTAAGACA AGCGATAGTA TTGCTCGCCT AAGAGCCAGG 
    GAAAATCTTC TTAAGGAGCG GGAACAGCAA CTGATGGATG GATACGGGCA GTTCGAAAGT 
    CCTTCTGACA GTAGAGCTCT AAGAAGTCTA ACAGATGAGT TTCAGAAGCT GAGAAAATCA 
    TTGCAGGAGA CTGTTCCAAC ACTGAGATCG TTACAGTTTC AGGGGGAACC TAACTCCCAA 
    ATACATTGGG AAAGAGATTA TCGTGAACGC ATGCAAGAAA TGGCAGAGGC TCATGAACGG 
    CACCTTGCAG ATATCCATGC ACGGAACCAA ACATTAGAGC TTCAGCGAGA AGATATCCGC 
    CAGCGACTTT CAGACTTTAC TGGTGCTGGC TCCACCACTT CACACCTTGA ACAGATGCTC 
    CTGGAACTAA AGGCCCAGGA GGAAAAGAAC CAGTTGGCAT TGGATGCTCT GAGGGACCAA 
    ATTGGGCTCA TCCAGTCAGA AAACAGAACC AAAACAGAGA CCGCGAACAA AAATATCCCA 
    TCCAACACCT CTATACAAAA AGAAAAGGTG TCTTTTAACT TGATTGCCTT TCCCCAACGT 
    GGAAGCTCCC TATCCTCAGA GATCAGTGCC CTACAACTGG CTTATGTTCA AAGTGGTGGA 
    AATGATCCAT CTGTTTTGGT ACAAATGCAG GATCTGCAAG CAGAAGCACT GACATTTGAA 
    GAAATGGCAC ATAAACAGGA GCGCAAGGAG AAGAAGAAGC GAAAAAATGA AGCTGCCCCT 
    CGATTGCTTG ATGCTGAACT TATGGCAGTG GAGTTGGAGA ATCAGCGCTT GGAAGAGGAG 
    ATCTTTAATA TAAAGATACA GAGAGGCAAG AAGAAGGTTG GCAATGGGGA CTCTGAACTG 
    GTTGAGATGC AGCGGGAGCA TCTCCAACAA ATGGCACAGC TACAGGCTGA CATTGAGCTA 
    CTCAGAAGGG ACGTCAGCAG AATGCCTCCT CGAGTTAGTC ATGGGCCCCC GCCATTTCTG 
    CCTCCGCCTG TTGCACCCCC ACCCCCACCA CCAGCGCATA TCTCAAGGCA CCCAGCAGGG 
    AGACCAGACG GTGCAGTAAT GATGGGAAGT TTGGATATGG TGCGCCCTCC TAGTCCGTCT 
    GCAAACAGAC ATGTAGTTGA ACCTATAGAT GCACTGGGAC CTGCACCTTA TGATCCAGTG 
    GCTGGTTTTG TCATATTCTA TGACTTTCTG CTGGGACTGG ACCCAACAAT TCAGAAGATC 
    CGGCTGGTCA GTGGCCTGTA TAGTAATGGG CAGAAAATGG GACAAACTAC ATCCCTCCCG 
    GATGTTTTGT GTGAAGTGTG GCAATCATCA CACCACCTGG CCAATGCCCC TAAAGGAAAC 
    ATTGCTATGT TATCAGCAAA GCAGCCCATT CCAAGAGTTC GACCATCTTT TTCCATTTCT 
    CTTATTATGG AACTACAAGG ATCAGGAGGA TTCAACCCAT ATGGGCAGGA AGTGCAACAG 
    CTGTCCCCAT TTGGATGGGC AAAATTTGAT CTGTTTGATC AGCACAACCA AGTCTTAAGT 
    GGCCGATGGA AGCTCCCTGT TAGATCATTC CCAGTAAGAC CAGGTTTACA TACAGGACAA 
    CTCAACACAG TTCCACAGGT GGGAAAAGCT GAGATTTTCT TTCGTGTAAT TAATGCCAGA 
    GATGCTGAAA TTCAGTCCAT GGCAGAAATA GACCCTAGAA ATGCATCACT ATACCAGTAC 
    CCTCCTTTGA TGTCTGGTCC AGCCGTTGCT GTCGTGAATA ACCCAGCACC TCAACCAACT 
    TTCCACCCTT CCCTAAAGTC ATTTAACATG CCTCTTTCTC ATTTCACTGA CTATGTTGAC 
    CCACCCCCAG TACAAGAGCT GCCAAACCAA CAAAAAGACA GTCAGAGTGA AATACCATTG 
    GACGGACAGA AAGAACTAGA GTTGTCCAAA GCAGGAAACC CACACAGCCT GGGGTTTATA 
    ATAGACAGAG TTAAAGATGC GCCTTTAGGA GATGGAACAC TGCGTCTGAC AGGATATCAC 
    ATGAAGACAG GAAAAGTTGT TCAAACTAAG CACAAGGGAA TGAATTTTGT CATTTCTGCT 
    GTGAGCTCCA ACATCAGGCA TGGACACTTC ATTTTTGGAG AGCAGGAGGT GATTTTTGGT 
    GGTGTGACTC CTGAAGAAGA CATGCTTCTT ATGCTGCGCT TCTATCACTG GCCTGGAGGC 
    AGCACTGCCT CGGCTCCCTG GGAAGCAAGG AGGGCCTTTA AGCCACTGCC AGCCAGTGAT 
    GAATGGGCAG CAGCTTGGGC TATTCTGAGG CTCACTAGGG CAGCATCAAC AGAAATAAAA 
    GATCGTGATT ATACTAAAAA AGGCACATAT GTGTGGAACA CAGGGACCCA AGAACTTGCT 
    CTGTACCACT CTCCTGCACC CCCAATAATG CAACTGTCGG CAATACTGCC AGAGCGTTAC 
    AATGAGACAT TTGAACAATA TGGCAGTGCC ACAGTGCATC TCTGTCTATT CAGTGCATCA 
    AGACCAGACC AGGCATTTCC TTCAGTGGCT CCCACAACTG ATGAGCGTAT CCAAGAGATT 
    CCTAGGGATG TATACATTCC CATCTCTCGA ATGACACCAG TGTGTGAGCA CTTCACTTCT 
    GCCGACAGCA TTATCCTGTA CATTGACGGT GCTCGTTTCC TTCCTGACTC AGTTACAGTC 
    ACCCATGTCA CAGGAAGAAT ATTTGACAAG AACTATGAGC AGTTTGGACC AGATATCTCC 
    ACAGGAGTAG ATTTAAATAG TGACATTTTC CAGCCATTCT ATAACTTCTC ATTACAGATC 
    CAGCCATCAA ACCTACCTCC TACAGCTACT CTCCTATTGA AGGTATACAC TATTGATAGA 
    TTTATGCAAG AACTGACGCT TATAGGTTGG GCAGCTCTCA ATTTGTTTGT AGAGTCTGGA 
    ACCCAGAGAG CACCCATTTC AGACTCAGAA GATATCAAGG TATCTTTAAA TGAAGGTGCC 
    CATCAAATCC GTTTGTATCA CAAAGCCCCT GCTACTGATC AGTCATTTTC AGTGGAATCA 
    GTGATATCTT CAGGACGTGT TGTACCATGT GCCACTTTGC TGATACGAGT AATGAAAGTT 
    TCCATGAAAA ACCAACAACA CTTGCAGAAT TATAACAATT CCCAGTTGGT CAAGGAGCAT 
    CCTGATTATG AAAAAGGGGT GTATATTTCA GATTCTGCAC AACCTACGCA GGGAGAGATA 
    CAGCTCTACA GAGCAATGAT AAACAGATCA GTGATATTGG GCCGAGATGT GATCCCTTCT 
    CTAGCTGGGA CTTCAGATCA CGAACTAAAC TCAGACAAGC AACTTTCCAC TTGGGTCCAG 
    AGGACATTTT TGTATTTGAA AAATAAAATC CCCCAACCAT TCCAGCTTTG TTGTGTCTCT 
    CGCTACATTG TATCTTCAGG ATTAATGGTT TCAGCTGACA GAGCCTACAA TTTACCTTGG 
    TCCGGTTTCA CTCTTGCTCA TATTTGCCTC AGCCCTCCAG CAGCATTTTA TTTTGGCCAG 
    CCTTGGGTAA AATATGACCA TGCAGTCCCT GTGGATGACA TTGATTTAAA CAGTGATCAG 
    AAATGCCCAT TGTGGAAAGA TGGGTTTAAG AGCTTTCCAG AGAGGGTATA CCATAAGTAT 
    TTAACAGTTA TATTTCAACT ACATGAGATT CTTCTGGTTA AAAAAGGTAA AAATCCGGAG 
    ACTGATAACA AGCAAGATTA CCATTCAGCA GAACAAAGTC AGCATGAGTT ATGGCAGGGG 
    CAACAGGCAT GGACAGCTTT GCAAGTATTT TACAAACAAT ACTGTAACTT TGGCATCTAC 
    CAACTGCCCT TGTACTATGG AGTTCCCAGT AAGGCAGTGT TATCGGCATT GGCATCAGAT 
    GACTGTAAAG TGACACTGAC AGATCTTGTA AAAACAAACA CTATCCAGTT ATTGCCTGGT 
    GCTTCTCTAA CTGTTCGAAT AGCAGATGGA AGGCGGCATG GAGAGTTGCT GGTGTATAAT 
    CTCCAAGAAA AGAATCAGAT GTACCTGCCC ACAGAGGCTA TGAACTCATA CAGCGAAGAG 
    CAAAGTGGTG GAAAATTGGC AGAGTTAATA CCAGACAGAG AAAAAGAGGA CTTTAAAAAG 
    CACCTTGTAA ACTGGTTCAG AAAGCATCTC AGCCTAAATA ATGAACTTGT CCATCATAAC 
    AATGATGTGG AGAAGGAGAC AAGGCAGCAC ACTCAAGATA CAGACTGA

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

    ccdc17 ( XM_012961579.2 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_012817033.1 Xenopus tropicalis coiled-coil domain containing 17 (ccdc17), mRNA.
    Price & Availability↑
    CloneID OXa36318
    Clone ID Related Accession (Same CDS sequence) XM_012961579.2
    Accession Version XM_012961579.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4428bp)
    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 17
    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_012961579.1. ##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
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGCCAATT TGGACACATA CCGATGCAAT AATTGCAAAA TGGATTTCCG TTCCCAGAGA 
    CTACTGGAGA AGCACAAGGA AAAGTTCTGT ATTGGGAGCA ACATCGGAGA TCCTGTAGTT 
    CTCAGTTCTC GATACGCAGA TGGAGGGGAG ATCTTGCACT TGGATGGTAG AGGAGTTCCA 
    AGGATGACAG AGAGCCCTGA TTTTAAGACA AGCGATAGTA TTGCTCGCCT AAGAGCCAGG 
    GAAAATCTTC TTAAGGAGCG GGAACAGCAA CTGATGGATG GATACGGGCA GTTCGAAAGT 
    CCTTCTGACA GTAGAGCTCT AAGAAGTCTA ACAGATGAGT TTCAGAAGCT GAGAAAATCA 
    TTGCAGGAGA CAGTTCCAAC ACTGAGATCG TTACAGTTTC AGGGGGAACC CAACTCCCAA 
    ATACATTGGG AAAGAGATTA TCGTGAACGC ATGCAAGAAA TGGCAGAGGC TCATGAACGG 
    CACCTTGCAG ATATCCATGC ACGGAACCAA ACATTAGAGC TTCAGCGAGA AGATATCCGC 
    CAGCGACTTT CAGACTTTAC CGGTGCTGGC TCCACCACTT CACACCTTGA ACAGATGCTC 
    CTGGAACTAA AGGCCCAGGA GGAAAAGAAC CAGTTGGCAT TGGATGCTCT GAGGGACCAA 
    ATTGGGCTCA TCCAGTCAGA AAACAGAACC AAAACAGAGA CCGTGAACAA AAATATCCCA 
    TCCAACACCT CTATACAAAA AGAAAAGGTG TCTTTTAACT TGATTGCCTT TCCCCAACGT 
    GGAAGCTCCC TATCCTCAGA GATCAGTGCC CTACAACTGG CTTATGTTCA AAGTGGTGGA 
    AATGATCCAT CTGTTTTGGT ACAAATGCAG GATCTGCAAG CAGAAGCACT GACATTTGAA 
    GAAATGGCAC ATAAACAGGA GCGCAAGGAG AAGAAGAAGC GAAAAAATGA AGCTGCCCCT 
    CGATTGCTTG ATGCTGAACT TATGGCAGTG GAGTTGGAGA ATCAGCGCTT GGAAGAGGAG 
    ATCTTTAATA TAAAGATACA GAGAGGCAAG AAGAAGGTTG GCAATGGGGA CTCTGAACTG 
    GTTGAGATGC AGCGGGAGCA TCTCCAACAA ATGGCACAGC TACAGGCTGA CATTGAGCTA 
    CTCAGAAGGG ACGTCAGCAG AATGCCTCCT CGAGTTAGTC ATGGGCCCCC GCCATTTCTG 
    CCTCCGCCTG TTGCACCCCC ACCCCCACCA CCAGCGCATA TCTCAAGGCA CCCAGCAGGG 
    AGACCAGACG GTGCAGTAAT GATGGGAAGT TTGGATATGG TGCGCCCTCC TAGTCCGTCT 
    GCAAACAGAC ATGTAGTTGA ACCTATAGAT GCACTGGGAC CTGCACCTTA TGATCCAGTG 
    GCTGGTTTTG TCATATTCTA TGACTTTCTG CTGGGACTGG ACCCAACAAT TCAGAAGATC 
    CGGCTGGTCA GTGGCCTGTA TAGTAATGGG CAGAAAATGG GACAAACTAC ATCCCTCCCG 
    GATGTTTTGT GTGAAGTGTG GCAATCATCA CACCACCTGG CCAATGCCCC TAAAGGAAAC 
    ATTGCTATGT TATCAGCAAA GCAGCCCATT CCAAGGGTTC GACCATCTTT TTCCATTTCT 
    CTTATTATGG AACTACAAGG ATCAGGAGGA TTCAACCCAT ATGGGCAGGA AGTGCAACAG 
    CTGTCCCCAT TTGGATGGGC AAAATTTGAT CTGTTTGATC AGCACAACCA AGTCTTAAGT 
    GGCCGATGGA AGCTCCCTGT TAGATCATTC CCAGTAAGAC CAGGTTTACA TACAGGACAA 
    CTCAACACAG TTCCACAGGT GGGAAAAGCT GAGATTTTCT TTCGTGTAAT TAATGCCAGA 
    GATGCTGAAA TTCAGTCCAT GGCAGAAATA GACCCTAGAA ATGCATCACT ATACCAGTAC 
    CCTCCTTTGA TGTCTGGTCC AGCCGTTGCT GTCGTGAATA ACCCAGCACC TCAACCAACT 
    TTCCACCCTT CCCTAAAGTC ATTTAACATG CCTCTTTCTC ATTTCACTGA CTATGTTGAC 
    CCACCCCCAG TACAAGAGCT GCCAAACCAA CAAAAAGACA GTCAGAGTGA AATACCATTG 
    GACGGACAGA AAGAACTAGA GTTGTCCAAA GCAGGAAACC CAAACAGCCT GGGGTTTATA 
    ATAGACAGAG TTAAAGATGC GCCTTTAGGA GATGGAACAC TGCGTCTGAC AGGATATCAC 
    ATGAAGACAG GAAAAGTTGT TCAAACTAAG CACAAGGGAA TGAATTTTGT CATTTCTGCT 
    GTGAGCTCCA ACATCAGGCA CGGACATTTC ATTTTTGGAG AGCAGGAGGT GATTTTTGGT 
    GGTGTGACTC CTGAAGAAGA CATGCTTCTT ATGCTGCGCT TCTATCACTG GCCTGGAGGC 
    AGCACTGCCT CGGCTCCCTG GGAAGCAAGG AGGGCATTTA AGCCACTGCC ACCCAGTGAT 
    GAATGGGCAG CAGCTTGGGC TATTCTGAGG CTCACTAGGG CAGCATCAAC AGAAATAAAA 
    GATCGTGATT ATACTAAAAA AGGCACATAT GTGTGGAACA CAGGGACCCA AGAACTTGCT 
    CTGTACCACT CTCCTGCACC CCCAATAATG CAACTGTCGG CAATACTGCC AGAGCGTTAC 
    AATGAGACAT TTGAACAATA TGGCAGTGCC ACAGTGCATC TCTGTCTATT CAGTGCATCA 
    AGACCAGACC AGGCATTTCC TTCAGTGGCT CCCACAACTG ATGAGCGTAT CCAAGAGATT 
    CCTAGGGATG TATACATTCC CATCTCTCGA ATGACACCAG TGTATGAGCA CTTCACTTCT 
    GCCGACAGCA TTATCCTGTA CATCGATGGT GCTCGTTTCC TTCCTGACGC AGTTACAGTC 
    ACCCATGTCA CAGGAAGAAT ATTTGACAGG AACTATGAGC AGTTTGGACC AGATATCTCC 
    ACAGGAGTAG ATTTAAATAG TGACATTTTC CAGCCATTCT ATAACTTCTC ATTACAGATC 
    CAGCCATCAA ACCTACCTCC TACAGCTACT CTCCTATTGA AGGTATACAC TATTGATAGA 
    TTTATGCAAG AACTGACGCT TATAGGTTGG GCAGCTCTCA ATTTGTTTGT AGAGTCTGGA 
    ACCCAGAGAG CACCCATCTC AGACTCAGAA GATATCAAGG TATCTTTAAA TGAAGGTGCC 
    CATCAAATCC GTTTGTATCA CAAAGCCCCT GCTACTGATC AGTCATTTTC AGTGGAATCA 
    GTGATATCTT CAGGACGTGT TGTACCATGT GCCACTTTGC TGATACGAGT AATGAAAGTT 
    TCCATGAAAA ACCAACAACA CTTGCAGAAT TATAACAATT CCCAGTTGGT CAAGGAGCAT 
    CCTGATTATG AAAAAGGGGT GTATATTTCA GATTCTGCAC AACCTACGCA GGGAGAGATA 
    CAGCTCTACA GAGCAATGAT AAACAGATCA GTGATATTGG GCCGAGATGT GATCCCTTCT 
    CTAGCTGGGA CTTCAGATCA CGAACTAAAC TCAGACAAGC AACTTTCCAC TTGGGTCCAG 
    AGGACATTTT TGTATTTGAA AAATAAAATC CCCCAACCAT TCCAGCTTTG TTGTGTCTCT 
    CGCTACATTG TATCTTCAGG ATTAATGGTT TCAGCTGACA GAGCCTACAA TTTACCTTGG 
    TCCGGTTTCA CTCTTGCTCA TATTTGCCTC AGCCCTCCAG CAGCATTTTA TTTTGGCCAG 
    CCTTGGGTAA AATATGACCA TGCAGTCCCT GTGGATGACA TTGATTTAAA CAGTGATCAG 
    AAATGCCCAT TGTGGAAAGA TGGGTTTAAG AGCTTTCCAG AGAGGGTATA CCATAAGTAT 
    TTAACAGTTA TATTTCAACT ACATGAGATT CTTCTGGTTA AAAAAGGTAA AAATCCGGAG 
    ACTGATAACA AGCAAGATTA CCATTCAGCA GAACAAAGTC AGCATGAGTT ATGGCAGGGG 
    CAACAGGCAT GGACAGCTTT GCAAGTATTT TACAAACAAT ACTGTAACTT TGGCATCTAC 
    CAACTGCCCT TGTACTATGG AGTTCCCAGT AAGGCAGTGT TATCGGCATT GGCATCAGAT 
    GACTGTAAAG TGACACTGAC AGATCTTGTA AAAACAAACA CTATCCAGTT ATTGCCTGGT 
    GCTTCTGTAA CTGTTCGAAT AGCAGATGGA AGGCGGCATG GAGAGTTGCT GGTGTATAAT 
    CTCCAAGAAA AGAATCAGAT GTACCTGCCC ACAGAGGCTA TGAACTCATA CAGCGAAGAG 
    CAAAGTGGTG GAAAATTGGC AGAGTTAATA CCAGACAGAG AAAAAGAGGA CTTTAAAAAG 
    CACCTCGTAA ACTGGTTCAG AAAGCATCTC AGCCTAAATA ATGAACTTGT CCATCATAAC 
    AATGATGTGG AGAAGGAGAC AAGGCAGCAC ACTCAAGATA CAGACTGA

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

    RefSeq XP_012817033.1
    CDS290..4717
    Translation

    Target ORF information:

    RefSeq Version XM_012961579.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis coiled-coil domain containing 17 (ccdc17), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_012961579.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGCCAATT TGGACACATA CCGATGCAAT AATTGCAAAA TGGATTTCCG TTCCCAGAGA 
    CTACTGGAGA AGCACAAGGA AAAGTTCTGT ATTGGGAGCA ACATCGGAGA TCCTGTAGTT 
    CTCAGTTCTC GATACGCAGA TGGAGGGGAG ATCTTGCACT TGGATGGTAG AGGAGTTCCA 
    AGGATGACAG AGAGCCCTGA TTTTAAGACA AGCGATAGTA TTGCTCGCCT AAGAGCCAGG 
    GAAAATCTTC TTAAGGAGCG GGAACAGCAA CTGATGGATG GATACGGGCA GTTCGAAAGT 
    CCTTCTGACA GTAGAGCTCT AAGAAGTCTA ACAGATGAGT TTCAGAAGCT GAGAAAATCA 
    TTGCAGGAGA CAGTTCCAAC ACTGAGATCG TTACAGTTTC AGGGGGAACC CAACTCCCAA 
    ATACATTGGG AAAGAGATTA TCGTGAACGC ATGCAAGAAA TGGCAGAGGC TCATGAACGG 
    CACCTTGCAG ATATCCATGC ACGGAACCAA ACATTAGAGC TTCAGCGAGA AGATATCCGC 
    CAGCGACTTT CAGACTTTAC CGGTGCTGGC TCCACCACTT CACACCTTGA ACAGATGCTC 
    CTGGAACTAA AGGCCCAGGA GGAAAAGAAC CAGTTGGCAT TGGATGCTCT GAGGGACCAA 
    ATTGGGCTCA TCCAGTCAGA AAACAGAACC AAAACAGAGA CCGTGAACAA AAATATCCCA 
    TCCAACACCT CTATACAAAA AGAAAAGGTG TCTTTTAACT TGATTGCCTT TCCCCAACGT 
    GGAAGCTCCC TATCCTCAGA GATCAGTGCC CTACAACTGG CTTATGTTCA AAGTGGTGGA 
    AATGATCCAT CTGTTTTGGT ACAAATGCAG GATCTGCAAG CAGAAGCACT GACATTTGAA 
    GAAATGGCAC ATAAACAGGA GCGCAAGGAG AAGAAGAAGC GAAAAAATGA AGCTGCCCCT 
    CGATTGCTTG ATGCTGAACT TATGGCAGTG GAGTTGGAGA ATCAGCGCTT GGAAGAGGAG 
    ATCTTTAATA TAAAGATACA GAGAGGCAAG AAGAAGGTTG GCAATGGGGA CTCTGAACTG 
    GTTGAGATGC AGCGGGAGCA TCTCCAACAA ATGGCACAGC TACAGGCTGA CATTGAGCTA 
    CTCAGAAGGG ACGTCAGCAG AATGCCTCCT CGAGTTAGTC ATGGGCCCCC GCCATTTCTG 
    CCTCCGCCTG TTGCACCCCC ACCCCCACCA CCAGCGCATA TCTCAAGGCA CCCAGCAGGG 
    AGACCAGACG GTGCAGTAAT GATGGGAAGT TTGGATATGG TGCGCCCTCC TAGTCCGTCT 
    GCAAACAGAC ATGTAGTTGA ACCTATAGAT GCACTGGGAC CTGCACCTTA TGATCCAGTG 
    GCTGGTTTTG TCATATTCTA TGACTTTCTG CTGGGACTGG ACCCAACAAT TCAGAAGATC 
    CGGCTGGTCA GTGGCCTGTA TAGTAATGGG CAGAAAATGG GACAAACTAC ATCCCTCCCG 
    GATGTTTTGT GTGAAGTGTG GCAATCATCA CACCACCTGG CCAATGCCCC TAAAGGAAAC 
    ATTGCTATGT TATCAGCAAA GCAGCCCATT CCAAGGGTTC GACCATCTTT TTCCATTTCT 
    CTTATTATGG AACTACAAGG ATCAGGAGGA TTCAACCCAT ATGGGCAGGA AGTGCAACAG 
    CTGTCCCCAT TTGGATGGGC AAAATTTGAT CTGTTTGATC AGCACAACCA AGTCTTAAGT 
    GGCCGATGGA AGCTCCCTGT TAGATCATTC CCAGTAAGAC CAGGTTTACA TACAGGACAA 
    CTCAACACAG TTCCACAGGT GGGAAAAGCT GAGATTTTCT TTCGTGTAAT TAATGCCAGA 
    GATGCTGAAA TTCAGTCCAT GGCAGAAATA GACCCTAGAA ATGCATCACT ATACCAGTAC 
    CCTCCTTTGA TGTCTGGTCC AGCCGTTGCT GTCGTGAATA ACCCAGCACC TCAACCAACT 
    TTCCACCCTT CCCTAAAGTC ATTTAACATG CCTCTTTCTC ATTTCACTGA CTATGTTGAC 
    CCACCCCCAG TACAAGAGCT GCCAAACCAA CAAAAAGACA GTCAGAGTGA AATACCATTG 
    GACGGACAGA AAGAACTAGA GTTGTCCAAA GCAGGAAACC CAAACAGCCT GGGGTTTATA 
    ATAGACAGAG TTAAAGATGC GCCTTTAGGA GATGGAACAC TGCGTCTGAC AGGATATCAC 
    ATGAAGACAG GAAAAGTTGT TCAAACTAAG CACAAGGGAA TGAATTTTGT CATTTCTGCT 
    GTGAGCTCCA ACATCAGGCA CGGACATTTC ATTTTTGGAG AGCAGGAGGT GATTTTTGGT 
    GGTGTGACTC CTGAAGAAGA CATGCTTCTT ATGCTGCGCT TCTATCACTG GCCTGGAGGC 
    AGCACTGCCT CGGCTCCCTG GGAAGCAAGG AGGGCATTTA AGCCACTGCC ACCCAGTGAT 
    GAATGGGCAG CAGCTTGGGC TATTCTGAGG CTCACTAGGG CAGCATCAAC AGAAATAAAA 
    GATCGTGATT ATACTAAAAA AGGCACATAT GTGTGGAACA CAGGGACCCA AGAACTTGCT 
    CTGTACCACT CTCCTGCACC CCCAATAATG CAACTGTCGG CAATACTGCC AGAGCGTTAC 
    AATGAGACAT TTGAACAATA TGGCAGTGCC ACAGTGCATC TCTGTCTATT CAGTGCATCA 
    AGACCAGACC AGGCATTTCC TTCAGTGGCT CCCACAACTG ATGAGCGTAT CCAAGAGATT 
    CCTAGGGATG TATACATTCC CATCTCTCGA ATGACACCAG TGTATGAGCA CTTCACTTCT 
    GCCGACAGCA TTATCCTGTA CATCGATGGT GCTCGTTTCC TTCCTGACGC AGTTACAGTC 
    ACCCATGTCA CAGGAAGAAT ATTTGACAGG AACTATGAGC AGTTTGGACC AGATATCTCC 
    ACAGGAGTAG ATTTAAATAG TGACATTTTC CAGCCATTCT ATAACTTCTC ATTACAGATC 
    CAGCCATCAA ACCTACCTCC TACAGCTACT CTCCTATTGA AGGTATACAC TATTGATAGA 
    TTTATGCAAG AACTGACGCT TATAGGTTGG GCAGCTCTCA ATTTGTTTGT AGAGTCTGGA 
    ACCCAGAGAG CACCCATCTC AGACTCAGAA GATATCAAGG TATCTTTAAA TGAAGGTGCC 
    CATCAAATCC GTTTGTATCA CAAAGCCCCT GCTACTGATC AGTCATTTTC AGTGGAATCA 
    GTGATATCTT CAGGACGTGT TGTACCATGT GCCACTTTGC TGATACGAGT AATGAAAGTT 
    TCCATGAAAA ACCAACAACA CTTGCAGAAT TATAACAATT CCCAGTTGGT CAAGGAGCAT 
    CCTGATTATG AAAAAGGGGT GTATATTTCA GATTCTGCAC AACCTACGCA GGGAGAGATA 
    CAGCTCTACA GAGCAATGAT AAACAGATCA GTGATATTGG GCCGAGATGT GATCCCTTCT 
    CTAGCTGGGA CTTCAGATCA CGAACTAAAC TCAGACAAGC AACTTTCCAC TTGGGTCCAG 
    AGGACATTTT TGTATTTGAA AAATAAAATC CCCCAACCAT TCCAGCTTTG TTGTGTCTCT 
    CGCTACATTG TATCTTCAGG ATTAATGGTT TCAGCTGACA GAGCCTACAA TTTACCTTGG 
    TCCGGTTTCA CTCTTGCTCA TATTTGCCTC AGCCCTCCAG CAGCATTTTA TTTTGGCCAG 
    CCTTGGGTAA AATATGACCA TGCAGTCCCT GTGGATGACA TTGATTTAAA CAGTGATCAG 
    AAATGCCCAT TGTGGAAAGA TGGGTTTAAG AGCTTTCCAG AGAGGGTATA CCATAAGTAT 
    TTAACAGTTA TATTTCAACT ACATGAGATT CTTCTGGTTA AAAAAGGTAA AAATCCGGAG 
    ACTGATAACA AGCAAGATTA CCATTCAGCA GAACAAAGTC AGCATGAGTT ATGGCAGGGG 
    CAACAGGCAT GGACAGCTTT GCAAGTATTT TACAAACAAT ACTGTAACTT TGGCATCTAC 
    CAACTGCCCT TGTACTATGG AGTTCCCAGT AAGGCAGTGT TATCGGCATT GGCATCAGAT 
    GACTGTAAAG TGACACTGAC AGATCTTGTA AAAACAAACA CTATCCAGTT ATTGCCTGGT 
    GCTTCTGTAA CTGTTCGAAT AGCAGATGGA AGGCGGCATG GAGAGTTGCT GGTGTATAAT 
    CTCCAAGAAA AGAATCAGAT GTACCTGCCC ACAGAGGCTA TGAACTCATA CAGCGAAGAG 
    CAAAGTGGTG GAAAATTGGC AGAGTTAATA CCAGACAGAG AAAAAGAGGA CTTTAAAAAG 
    CACCTCGTAA ACTGGTTCAG AAAGCATCTC AGCCTAAATA ATGAACTTGT CCATCATAAC 
    AATGATGTGG AGAAGGAGAC AAGGCAGCAC ACTCAAGATA CAGACTGA

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

見積依頼

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03-6811-6572

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03-6811-6573
050-3174-7589(受注専用)

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