ORF » Species Summary » Xenopus tropicalis » ccdc180 cDNA ORF clone

ccdc180 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following ccdc180 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ccdc180 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
OXa64701 XM_031891402.1
Latest version!		 Xenopus tropicalis coiled-coil domain containing 180 (ccdc180), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OXa64701 XM_012968714.3
Latest version!		 Xenopus tropicalis coiled-coil domain containing 180 (ccdc180), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OXa64702 XM_031891403.1
Latest version!		 Xenopus tropicalis coiled-coil domain containing 180 (ccdc180), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OXa64703 XM_031891404.1
Latest version!		 Xenopus tropicalis coiled-coil domain containing 180 (ccdc180), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OXa64704 XM_031891405.1
Latest version!		 Xenopus tropicalis coiled-coil domain containing 180 (ccdc180), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OXa35406 XM_012968714.2
Latest version!		 Xenopus tropicalis coiled-coil domain containing 180 (ccdc180), 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)
    ccdc180 ( XM_031891402.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031747262.1 Xenopus tropicalis coiled-coil domain containing 180 (ccdc180), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OXa64701
    Clone ID Related Accession (Same CDS sequence) XM_031891402.1 , XM_012968714.3
    Accession Version XM_031891402.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4662bp)
    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 180 isoform X1
    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, 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
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGGCAGCAG TGGGACAGAT CCAGGCAGTT CCTAGTGGAA GAGTCTACAG GCAACTTTTT 
    GATGCTGAGG TTCAGCTTGT GCGGTCCCTC GGAGAGGCTC GTGCTAGAGC GGTGCAGCAT 
    GGAGGTGCAG TGGACACTGG GAACATTCCT CCAATCAGAA GCCGGGATAA CAACACAGCA 
    TTGCCTGAGT CTCACCACCA GAGCACGGAT AAAATGACTC CACCTGCTAG GAAAAAGCAG 
    GAAAGTGAGG ATGATATTGC AGCAAGAGAA GTGAGAGGTC TTTCTGATGT CATCGTTCCA 
    GAAAAGAAAG ATACCGGCAT TCTTGAGCGG ATCGCTGCAA ACAGACTGGA ACGCCATGAA 
    GTGGCACTGT CCAACCTGCA CAGGGAACTG GCTGAGATCA GCAAAGAGAT GGAGCTATCA 
    GTATTGGAAG TGGGGAAGCA CCTGCAGCAA AAGATCTCGG AATCAGATGC AAATATTGAA 
    CTTTTGTTTC AGAAACTGGA AATCGGTAAC GACAGCACCA CCACAAAGGA AATAAATGAG 
    ACTTGGGATG CAGTGACCCA GGAATCTGCC CGTACAAGGC AGTGCATCAA AAGAACCGAA 
    AGCACTTTAC TGGCGCTAGA AGAAAACAGA GCGAAACGAA TTTCTGAAGT CTTAAAGAAA 
    TACACGTCCC TCTTAAAGGA CATCTGCCAT CTCATGCCCT CCGACGTGGA CAGATTTATT 
    CATAATGAAG CCATGATGAT TAACCAGGCA ATTTTAGCTA ACCACCGAGC TCTGGCTAGA 
    TTATCTGTAA ACCTTCTGGA AGCCAATCTG AAGAGGGAGA ATACCCAGCG CTTCCAATGG 
    CAGGACCTGA AGAAGGCCTG GGAGTGTTAC CAGAGGGAGA TCATAATGAA GGAGTTCAGG 
    GTGTTTGCTG AGAAAGAAAT GGAACATATA CCCACAAGTG TGAAAGTATT AGTGGATCAG 
    CTGACCACCC AACTCAGCTC TCTCAAAGAA AGGAGACTTC AGATTCTGGG TTTAGCCAGA 
    AGTTTTGTAC CTCCTACTTG CACGAGAACA GGTGTCATGG AATGGTATGA ATCGTTGGCA 
    GCCCTGAACA GTCAAGCTGA GTCCATCAAC AAACAATTCT TAGAGAAGCT TCAGGAGCTG 
    CGGGAGGAAT TCTGCCAAAA ATTTGAGGTG AAAGCAGAAA GCTGTAAAGA GCAGTTGGTC 
    AGTGTGGATA TTTGTACCCC AGAGGAAGCT GAGGATATAA TAACCAAAGA ACTCAGCCCA 
    GTGACGGCAC AGATCCACAT GAAATTTAAG GAAGAGCAAG AGAAGTGGGA AAAACTGCTG 
    GTACATAGCT CTAAGTTAAC GATCCTTCAG ACCCAGAAGT TGCTGAAATT CTTGGAAGAT 
    GTTGTTGATA TTTGGCAAAC GCTGGAACGT GGCCTCTCCA AACAGGAAAA TGCTGTGCAG 
    CTAAGGATGG AGCAGTGTCG CTATAAATAT GATAGTGACA GCAAGGCCAA GGAGGCAAAT 
    TTGGACAAGA TACTGGACAG ACTGAGACAA GACAGCACTA AGGAAACATT ACGTAGCACA 
    TTGGGGAAAG CACTGGCGTC CTTGGAAACC ATAAAAGCAG GATACAAGAC TTTTCATTTG 
    GACCAAGTCG CTGTAATTGA TTCCTACCCT GCCCTGGTGC TTGCAGAGTT GGCCTCCTAC 
    AGCTGCGCTC TTAGCAATTA TTTTGGGGTC AAAGAGGTGT ATGGGCAGGT GCAGAAGAAG 
    GATGGGGAGA ACCCCAGCAC CAGTATAACA ACGATTCCGG CAGATGGAGT GAGGTCTCAT 
    TCTAGAGAGG GGATATCAGT AAACTCCGAA TTTAATTCCT ACAACTATTC TGCAGTAGAA 
    AGTGTTTTGC TGGAAGGTGA ATGGCTGGAA GGGCCAGGAG ATGGAACCCA CAACACAAGA 
    GAAGACACGG AAGTGCCTGG AATAGTACAG TGTGATTCTA CTATGGCACC AGTGCAAACC 
    CCTTATCGGG AGAGCACCCA AGCAGCAGAG GGAGCTGGTG AGCAGACATC ACAGGGAGCC 
    CAGATTCCAT TTGAGCTCTT CACAACATCT AAAGGGAACA CCTATACTGC TTTGCGTTTG 
    GCATCAGAAG ATGACACGGC GGTGCCTGAG TTTCCAGGAG AACATTCCGA CACAAATATA 
    TTCATGACGG AGGCGGTGCT GGACGATTCC GTTCCCTTAA ATCATGACAT AATGGTCATA 
    CCCGAGCAAC AGTTGATTGT TATTAGGAAA AGCGTCCGGC TTGGGTTCTT TGAGCACCTG 
    GAGACCTGGT TCGGTGAGAC CCTTTCCAGT GCCCAGGGTA TCGTCAGTGC CAAGAAGGAA 
    GAGTTCAATT CTGAGTTAGC GCTTCGCTAT CACCTGCACG AGCCAAGGAG CCAACGGATC 
    GAGATGGATA TCCATAACGT CAGAGCTGCC GAGCTGATTC TGCACTCCGA GAGAGTGGAT 
    CGTCACTGTG ATGGGGTAAG CCATTCTCTG GAGCAGCTGA AGCGGGAGAG TTCCGTGCTG 
    ATTGAGAACA TGAAGCAACA GACTCTCGGA TTCCGCAGCA AGATCCGGGC CATGGAGAGC 
    ATGTTCCTCG GTGCCAACAA GTCTGATAAG CTTGTGGCCC TGACACAGTC TCTGCCGTCC 
    ATTTTGGACA GCCACGTAAG CGGGGTTCAG ACTTCCATGC GCAACTACCG GCAGCATGTA 
    GAGGAAATGC TCGGAACCCT GCGCGACACA AACTCGGACT TCATCAAATC ATTCAGATTG 
    TTCTCAGAGG GCGGAAACTT TTCTCCCGAT GAAGTGGAGG TGTTTCGCAA GAAGCTGCAT 
    AAAGCGTCAG ACACCATCGC CTCTTTCGAG GGCTCCATCA TGGTGGATTT GGAGGGCTTG 
    GAGTCTGTGT GTTTAGAACA GGCCACTGAG ATTGTAAAGA AATTTGAGGA CAAATTCAAC 
    ATGTTAACAA CGGATGCAAT TTTCCTAGAA AACATTCAGA AGCTGCTGAC GAACCTGCAA 
    GTGAAAATCA AAGCCTTGGT TGTGAGCAGC AATTTTCAGA CTCAGCAGAT CAACTCCTCT 
    CTGGAGCAGC TCCAACAGAA GACAGATGCC TGCGCTCATC CCAATATGGA TAAGGAAACA 
    GTCACAGCTG AAGAACTGTA CTCCTTTGTG CAAATCCCCA TGGGTCAGCT GGCAAAGAGA 
    AGTCTCTATC TGTCCTGCCT TCTAGAGCCC AGCCAAATAC TCTCTGAGAC CCCACTGCAA 
    GGCCCTATTG CAACGGCATC ACGTTCGGAC ACCCCACTCC GTCAAGACGC GAAAGGAACC 
    TTTACGACCC CCGACAACCT TCTTACTCCG AGCAGAGTGG GGAAGTTGGC TCTCGATGAT 
    CCCGCTGTGA GTGTCATCAA GAACATTACC AGAACAAAGC GGGTTATGGA TTCACAACAG 
    GACTCTGACC GTGCAAGTAG CTATCAGCGG CCGGGCACAG TCTCACATCA GGCTGCTGCC 
    ATAGCGCCAC ATCCACCATC GCAGTCGGGT AAACCTCATC TGAAGAAAAA GAAACCCCCA 
    TCAAGCAATG GTGAAAATCC TGGCCAGTCT GTTCAGGCTC CAAGTGTCCG GAAGCTTACA 
    AAGCCCAGCA GGTTTGACAA GAAGTACCAA TTGTTTGGGG AGAACAGAGT CGAATCAGAC 
    AACTTCAAGG GAATTCTCAC CTGTATACTG TGGGAGAGCA ATGACACCTT ACTGTACCTG 
    GCTGAGGAGT TCTATAAGAA GAAGGACAGG CGGAACATTG GCCGGACAGA TCTTCTTCAA 
    GAGACGTTTG AGGAGTGTGC AGATACGCTG GTGTTTAAAC TGCAGTCCTA CGAGAAGCAG 
    GCCCTGGAGT ATCAGAACAA CTGCCTGCTG GAGTTCCGGG AGCAGCTACA AACTTTCGAG 
    AGGCTGGTAA ATGAGGTGCC GCCGCTGGTC ATAGAGAGTC ACCGGAGGCA ACACCTGGAC 
    AAACTGCTGG CGGCCACTGA CCAGATACGG AAGCAGTTTG CTGAGGACCT GCAGCGCTGG 
    GACCAAGCCA AGGAGACACT GAAGAGTGTG CTGAGGCCAA ATTTAGGCCA CCCAGACAGC 
    GAGCAGGCCC TGGGGGAGCT GTGCCAGCAG GAGGAACTAA GGCAGAGAGA GGAGGCAGAA 
    GGGATTGACT GCAACACTAA ACAATTACAA GCGTGCGTCT CCGAGTGCAC CCAGCACTTC 
    CTGATGTCTC TGGCCTCCCT CACCGAGAGA CTGCTGCTGG AACTCGATGA GACACTTACA 
    GTCGATGATG TTTTAGCAGC TGATGTTGAG ATTCCCAAAG AAAAACTGTC AACGCTGATC 
    AGACGCAAGC AGGCGGGGCT GCCGTTGGAA AGCACAGAGC ACAAGCCACT GGTGGAGAGA 
    GGCAGCAGGG TCTGGCCAGG AATTGGAATT GTGGATCCTA CAGACCCTGA AGGGGACAGT 
    GCGCGCCACA TCAGCGCATC GGTCACCACG GCCAAGACCA CAGTCGGCCA CATCTCAGCG 
    GTGCAGGCTC GCGACTCCAC TCGCTCGCGG TTCCTGCAGG ACACAGAGGC GGTACTGACC 
    CGTATCCGGG AGGAGAGCCG GCAGCAGCAC TTTGATGCCC AGCGCTGGAG GGATTGGTGG 
    TGCCAGTCTG TACGCAATAT AAAAGCTCTG TATATGGGCT GA

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

    RefSeq XP_031747262.1
    CDS206..4867
    Translation

    Target ORF information:

    RefSeq Version XM_031891402.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis coiled-coil domain containing 180 (ccdc180), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_031891402.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGGCAGCAG TGGGACAGAT CCAGGCAGTT CCTAGTGGAA GAGTCTACAG GCAACTTTTT 
    GATGCTGAGG TTCAGCTTGT GCGGTCCCTC GGAGAGGCTC GTGCTAGAGC GGTGCAGCAT 
    GGAGGTGCAG TGGACACTGG GAACATTCCT CCAATCAGAA GCCGGGATAA CAACACAGCA 
    TTGCCTGAGT CTCACCACCA GAGCACGGAT AAAATGACTC CACCTGCTAG GAAAAAGCAG 
    GAAAGTGAGG ATGATATTGC AGCAAGAGAA GTGAGAGGTC TTTCTGATGT CATCGTTCCA 
    GAAAAGAAAG ATACCGGCAT TCTTGAGCGG ATCGCTGCAA ACAGACTGGA ACGCCATGAA 
    GTGGCACTGT CCAACCTGCA CAGGGAACTG GCTGAGATCA GCAAAGAGAT GGAGCTATCA 
    GTATTGGAAG TGGGGAAGCA CCTGCAGCAA AAGATCTCGG AATCAGATGC AAATATTGAA 
    CTTTTGTTTC AGAAACTGGA AATCGGTAAC GACAGCACCA CCACAAAGGA AATAAATGAG 
    ACTTGGGATG CAGTGACCCA GGAATCTGCC CGTACAAGGC AGTGCATCAA AAGAACCGAA 
    AGCACTTTAC TGGCGCTAGA AGAAAACAGA GCGAAACGAA TTTCTGAAGT CTTAAAGAAA 
    TACACGTCCC TCTTAAAGGA CATCTGCCAT CTCATGCCCT CCGACGTGGA CAGATTTATT 
    CATAATGAAG CCATGATGAT TAACCAGGCA ATTTTAGCTA ACCACCGAGC TCTGGCTAGA 
    TTATCTGTAA ACCTTCTGGA AGCCAATCTG AAGAGGGAGA ATACCCAGCG CTTCCAATGG 
    CAGGACCTGA AGAAGGCCTG GGAGTGTTAC CAGAGGGAGA TCATAATGAA GGAGTTCAGG 
    GTGTTTGCTG AGAAAGAAAT GGAACATATA CCCACAAGTG TGAAAGTATT AGTGGATCAG 
    CTGACCACCC AACTCAGCTC TCTCAAAGAA AGGAGACTTC AGATTCTGGG TTTAGCCAGA 
    AGTTTTGTAC CTCCTACTTG CACGAGAACA GGTGTCATGG AATGGTATGA ATCGTTGGCA 
    GCCCTGAACA GTCAAGCTGA GTCCATCAAC AAACAATTCT TAGAGAAGCT TCAGGAGCTG 
    CGGGAGGAAT TCTGCCAAAA ATTTGAGGTG AAAGCAGAAA GCTGTAAAGA GCAGTTGGTC 
    AGTGTGGATA TTTGTACCCC AGAGGAAGCT GAGGATATAA TAACCAAAGA ACTCAGCCCA 
    GTGACGGCAC AGATCCACAT GAAATTTAAG GAAGAGCAAG AGAAGTGGGA AAAACTGCTG 
    GTACATAGCT CTAAGTTAAC GATCCTTCAG ACCCAGAAGT TGCTGAAATT CTTGGAAGAT 
    GTTGTTGATA TTTGGCAAAC GCTGGAACGT GGCCTCTCCA AACAGGAAAA TGCTGTGCAG 
    CTAAGGATGG AGCAGTGTCG CTATAAATAT GATAGTGACA GCAAGGCCAA GGAGGCAAAT 
    TTGGACAAGA TACTGGACAG ACTGAGACAA GACAGCACTA AGGAAACATT ACGTAGCACA 
    TTGGGGAAAG CACTGGCGTC CTTGGAAACC ATAAAAGCAG GATACAAGAC TTTTCATTTG 
    GACCAAGTCG CTGTAATTGA TTCCTACCCT GCCCTGGTGC TTGCAGAGTT GGCCTCCTAC 
    AGCTGCGCTC TTAGCAATTA TTTTGGGGTC AAAGAGGTGT ATGGGCAGGT GCAGAAGAAG 
    GATGGGGAGA ACCCCAGCAC CAGTATAACA ACGATTCCGG CAGATGGAGT GAGGTCTCAT 
    TCTAGAGAGG GGATATCAGT AAACTCCGAA TTTAATTCCT ACAACTATTC TGCAGTAGAA 
    AGTGTTTTGC TGGAAGGTGA ATGGCTGGAA GGGCCAGGAG ATGGAACCCA CAACACAAGA 
    GAAGACACGG AAGTGCCTGG AATAGTACAG TGTGATTCTA CTATGGCACC AGTGCAAACC 
    CCTTATCGGG AGAGCACCCA AGCAGCAGAG GGAGCTGGTG AGCAGACATC ACAGGGAGCC 
    CAGATTCCAT TTGAGCTCTT CACAACATCT AAAGGGAACA CCTATACTGC TTTGCGTTTG 
    GCATCAGAAG ATGACACGGC GGTGCCTGAG TTTCCAGGAG AACATTCCGA CACAAATATA 
    TTCATGACGG AGGCGGTGCT GGACGATTCC GTTCCCTTAA ATCATGACAT AATGGTCATA 
    CCCGAGCAAC AGTTGATTGT TATTAGGAAA AGCGTCCGGC TTGGGTTCTT TGAGCACCTG 
    GAGACCTGGT TCGGTGAGAC CCTTTCCAGT GCCCAGGGTA TCGTCAGTGC CAAGAAGGAA 
    GAGTTCAATT CTGAGTTAGC GCTTCGCTAT CACCTGCACG AGCCAAGGAG CCAACGGATC 
    GAGATGGATA TCCATAACGT CAGAGCTGCC GAGCTGATTC TGCACTCCGA GAGAGTGGAT 
    CGTCACTGTG ATGGGGTAAG CCATTCTCTG GAGCAGCTGA AGCGGGAGAG TTCCGTGCTG 
    ATTGAGAACA TGAAGCAACA GACTCTCGGA TTCCGCAGCA AGATCCGGGC CATGGAGAGC 
    ATGTTCCTCG GTGCCAACAA GTCTGATAAG CTTGTGGCCC TGACACAGTC TCTGCCGTCC 
    ATTTTGGACA GCCACGTAAG CGGGGTTCAG ACTTCCATGC GCAACTACCG GCAGCATGTA 
    GAGGAAATGC TCGGAACCCT GCGCGACACA AACTCGGACT TCATCAAATC ATTCAGATTG 
    TTCTCAGAGG GCGGAAACTT TTCTCCCGAT GAAGTGGAGG TGTTTCGCAA GAAGCTGCAT 
    AAAGCGTCAG ACACCATCGC CTCTTTCGAG GGCTCCATCA TGGTGGATTT GGAGGGCTTG 
    GAGTCTGTGT GTTTAGAACA GGCCACTGAG ATTGTAAAGA AATTTGAGGA CAAATTCAAC 
    ATGTTAACAA CGGATGCAAT TTTCCTAGAA AACATTCAGA AGCTGCTGAC GAACCTGCAA 
    GTGAAAATCA AAGCCTTGGT TGTGAGCAGC AATTTTCAGA CTCAGCAGAT CAACTCCTCT 
    CTGGAGCAGC TCCAACAGAA GACAGATGCC TGCGCTCATC CCAATATGGA TAAGGAAACA 
    GTCACAGCTG AAGAACTGTA CTCCTTTGTG CAAATCCCCA TGGGTCAGCT GGCAAAGAGA 
    AGTCTCTATC TGTCCTGCCT TCTAGAGCCC AGCCAAATAC TCTCTGAGAC CCCACTGCAA 
    GGCCCTATTG CAACGGCATC ACGTTCGGAC ACCCCACTCC GTCAAGACGC GAAAGGAACC 
    TTTACGACCC CCGACAACCT TCTTACTCCG AGCAGAGTGG GGAAGTTGGC TCTCGATGAT 
    CCCGCTGTGA GTGTCATCAA GAACATTACC AGAACAAAGC GGGTTATGGA TTCACAACAG 
    GACTCTGACC GTGCAAGTAG CTATCAGCGG CCGGGCACAG TCTCACATCA GGCTGCTGCC 
    ATAGCGCCAC ATCCACCATC GCAGTCGGGT AAACCTCATC TGAAGAAAAA GAAACCCCCA 
    TCAAGCAATG GTGAAAATCC TGGCCAGTCT GTTCAGGCTC CAAGTGTCCG GAAGCTTACA 
    AAGCCCAGCA GGTTTGACAA GAAGTACCAA TTGTTTGGGG AGAACAGAGT CGAATCAGAC 
    AACTTCAAGG GAATTCTCAC CTGTATACTG TGGGAGAGCA ATGACACCTT ACTGTACCTG 
    GCTGAGGAGT TCTATAAGAA GAAGGACAGG CGGAACATTG GCCGGACAGA TCTTCTTCAA 
    GAGACGTTTG AGGAGTGTGC AGATACGCTG GTGTTTAAAC TGCAGTCCTA CGAGAAGCAG 
    GCCCTGGAGT ATCAGAACAA CTGCCTGCTG GAGTTCCGGG AGCAGCTACA AACTTTCGAG 
    AGGCTGGTAA ATGAGGTGCC GCCGCTGGTC ATAGAGAGTC ACCGGAGGCA ACACCTGGAC 
    AAACTGCTGG CGGCCACTGA CCAGATACGG AAGCAGTTTG CTGAGGACCT GCAGCGCTGG 
    GACCAAGCCA AGGAGACACT GAAGAGTGTG CTGAGGCCAA ATTTAGGCCA CCCAGACAGC 
    GAGCAGGCCC TGGGGGAGCT GTGCCAGCAG GAGGAACTAA GGCAGAGAGA GGAGGCAGAA 
    GGGATTGACT GCAACACTAA ACAATTACAA GCGTGCGTCT CCGAGTGCAC CCAGCACTTC 
    CTGATGTCTC TGGCCTCCCT CACCGAGAGA CTGCTGCTGG AACTCGATGA GACACTTACA 
    GTCGATGATG TTTTAGCAGC TGATGTTGAG ATTCCCAAAG AAAAACTGTC AACGCTGATC 
    AGACGCAAGC AGGCGGGGCT GCCGTTGGAA AGCACAGAGC ACAAGCCACT GGTGGAGAGA 
    GGCAGCAGGG TCTGGCCAGG AATTGGAATT GTGGATCCTA CAGACCCTGA AGGGGACAGT 
    GCGCGCCACA TCAGCGCATC GGTCACCACG GCCAAGACCA CAGTCGGCCA CATCTCAGCG 
    GTGCAGGCTC GCGACTCCAC TCGCTCGCGG TTCCTGCAGG ACACAGAGGC GGTACTGACC 
    CGTATCCGGG AGGAGAGCCG GCAGCAGCAC TTTGATGCCC AGCGCTGGAG GGATTGGTGG 
    TGCCAGTCTG TACGCAATAT AAAAGCTCTG TATATGGGCT GA

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

    ccdc180 ( XM_012968714.3 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_012824168.2 Xenopus tropicalis coiled-coil domain containing 180 (ccdc180), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OXa64701
    Clone ID Related Accession (Same CDS sequence) XM_031891402.1 , XM_012968714.3
    Accession Version XM_012968714.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4662bp)
    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 180 isoform X1
    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, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_012968714.2. ##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
    4441
    4501
    4561
    4621
    ATGGCAGCAG TGGGACAGAT CCAGGCAGTT CCTAGTGGAA GAGTCTACAG GCAACTTTTT 
    GATGCTGAGG TTCAGCTTGT GCGGTCCCTC GGAGAGGCTC GTGCTAGAGC GGTGCAGCAT 
    GGAGGTGCAG TGGACACTGG GAACATTCCT CCAATCAGAA GCCGGGATAA CAACACAGCA 
    TTGCCTGAGT CTCACCACCA GAGCACGGAT AAAATGACTC CACCTGCTAG GAAAAAGCAG 
    GAAAGTGAGG ATGATATTGC AGCAAGAGAA GTGAGAGGTC TTTCTGATGT CATCGTTCCA 
    GAAAAGAAAG ATACCGGCAT TCTTGAGCGG ATCGCTGCAA ACAGACTGGA ACGCCATGAA 
    GTGGCACTGT CCAACCTGCA CAGGGAACTG GCTGAGATCA GCAAAGAGAT GGAGCTATCA 
    GTATTGGAAG TGGGGAAGCA CCTGCAGCAA AAGATCTCGG AATCAGATGC AAATATTGAA 
    CTTTTGTTTC AGAAACTGGA AATCGGTAAC GACAGCACCA CCACAAAGGA AATAAATGAG 
    ACTTGGGATG CAGTGACCCA GGAATCTGCC CGTACAAGGC AGTGCATCAA AAGAACCGAA 
    AGCACTTTAC TGGCGCTAGA AGAAAACAGA GCGAAACGAA TTTCTGAAGT CTTAAAGAAA 
    TACACGTCCC TCTTAAAGGA CATCTGCCAT CTCATGCCCT CCGACGTGGA CAGATTTATT 
    CATAATGAAG CCATGATGAT TAACCAGGCA ATTTTAGCTA ACCACCGAGC TCTGGCTAGA 
    TTATCTGTAA ACCTTCTGGA AGCCAATCTG AAGAGGGAGA ATACCCAGCG CTTCCAATGG 
    CAGGACCTGA AGAAGGCCTG GGAGTGTTAC CAGAGGGAGA TCATAATGAA GGAGTTCAGG 
    GTGTTTGCTG AGAAAGAAAT GGAACATATA CCCACAAGTG TGAAAGTATT AGTGGATCAG 
    CTGACCACCC AACTCAGCTC TCTCAAAGAA AGGAGACTTC AGATTCTGGG TTTAGCCAGA 
    AGTTTTGTAC CTCCTACTTG CACGAGAACA GGTGTCATGG AATGGTATGA ATCGTTGGCA 
    GCCCTGAACA GTCAAGCTGA GTCCATCAAC AAACAATTCT TAGAGAAGCT TCAGGAGCTG 
    CGGGAGGAAT TCTGCCAAAA ATTTGAGGTG AAAGCAGAAA GCTGTAAAGA GCAGTTGGTC 
    AGTGTGGATA TTTGTACCCC AGAGGAAGCT GAGGATATAA TAACCAAAGA ACTCAGCCCA 
    GTGACGGCAC AGATCCACAT GAAATTTAAG GAAGAGCAAG AGAAGTGGGA AAAACTGCTG 
    GTACATAGCT CTAAGTTAAC GATCCTTCAG ACCCAGAAGT TGCTGAAATT CTTGGAAGAT 
    GTTGTTGATA TTTGGCAAAC GCTGGAACGT GGCCTCTCCA AACAGGAAAA TGCTGTGCAG 
    CTAAGGATGG AGCAGTGTCG CTATAAATAT GATAGTGACA GCAAGGCCAA GGAGGCAAAT 
    TTGGACAAGA TACTGGACAG ACTGAGACAA GACAGCACTA AGGAAACATT ACGTAGCACA 
    TTGGGGAAAG CACTGGCGTC CTTGGAAACC ATAAAAGCAG GATACAAGAC TTTTCATTTG 
    GACCAAGTCG CTGTAATTGA TTCCTACCCT GCCCTGGTGC TTGCAGAGTT GGCCTCCTAC 
    AGCTGCGCTC TTAGCAATTA TTTTGGGGTC AAAGAGGTGT ATGGGCAGGT GCAGAAGAAG 
    GATGGGGAGA ACCCCAGCAC CAGTATAACA ACGATTCCGG CAGATGGAGT GAGGTCTCAT 
    TCTAGAGAGG GGATATCAGT AAACTCCGAA TTTAATTCCT ACAACTATTC TGCAGTAGAA 
    AGTGTTTTGC TGGAAGGTGA ATGGCTGGAA GGGCCAGGAG ATGGAACCCA CAACACAAGA 
    GAAGACACGG AAGTGCCTGG AATAGTACAG TGTGATTCTA CTATGGCACC AGTGCAAACC 
    CCTTATCGGG AGAGCACCCA AGCAGCAGAG GGAGCTGGTG AGCAGACATC ACAGGGAGCC 
    CAGATTCCAT TTGAGCTCTT CACAACATCT AAAGGGAACA CCTATACTGC TTTGCGTTTG 
    GCATCAGAAG ATGACACGGC GGTGCCTGAG TTTCCAGGAG AACATTCCGA CACAAATATA 
    TTCATGACGG AGGCGGTGCT GGACGATTCC GTTCCCTTAA ATCATGACAT AATGGTCATA 
    CCCGAGCAAC AGTTGATTGT TATTAGGAAA AGCGTCCGGC TTGGGTTCTT TGAGCACCTG 
    GAGACCTGGT TCGGTGAGAC CCTTTCCAGT GCCCAGGGTA TCGTCAGTGC CAAGAAGGAA 
    GAGTTCAATT CTGAGTTAGC GCTTCGCTAT CACCTGCACG AGCCAAGGAG CCAACGGATC 
    GAGATGGATA TCCATAACGT CAGAGCTGCC GAGCTGATTC TGCACTCCGA GAGAGTGGAT 
    CGTCACTGTG ATGGGGTAAG CCATTCTCTG GAGCAGCTGA AGCGGGAGAG TTCCGTGCTG 
    ATTGAGAACA TGAAGCAACA GACTCTCGGA TTCCGCAGCA AGATCCGGGC CATGGAGAGC 
    ATGTTCCTCG GTGCCAACAA GTCTGATAAG CTTGTGGCCC TGACACAGTC TCTGCCGTCC 
    ATTTTGGACA GCCACGTAAG CGGGGTTCAG ACTTCCATGC GCAACTACCG GCAGCATGTA 
    GAGGAAATGC TCGGAACCCT GCGCGACACA AACTCGGACT TCATCAAATC ATTCAGATTG 
    TTCTCAGAGG GCGGAAACTT TTCTCCCGAT GAAGTGGAGG TGTTTCGCAA GAAGCTGCAT 
    AAAGCGTCAG ACACCATCGC CTCTTTCGAG GGCTCCATCA TGGTGGATTT GGAGGGCTTG 
    GAGTCTGTGT GTTTAGAACA GGCCACTGAG ATTGTAAAGA AATTTGAGGA CAAATTCAAC 
    ATGTTAACAA CGGATGCAAT TTTCCTAGAA AACATTCAGA AGCTGCTGAC GAACCTGCAA 
    GTGAAAATCA AAGCCTTGGT TGTGAGCAGC AATTTTCAGA CTCAGCAGAT CAACTCCTCT 
    CTGGAGCAGC TCCAACAGAA GACAGATGCC TGCGCTCATC CCAATATGGA TAAGGAAACA 
    GTCACAGCTG AAGAACTGTA CTCCTTTGTG CAAATCCCCA TGGGTCAGCT GGCAAAGAGA 
    AGTCTCTATC TGTCCTGCCT TCTAGAGCCC AGCCAAATAC TCTCTGAGAC CCCACTGCAA 
    GGCCCTATTG CAACGGCATC ACGTTCGGAC ACCCCACTCC GTCAAGACGC GAAAGGAACC 
    TTTACGACCC CCGACAACCT TCTTACTCCG AGCAGAGTGG GGAAGTTGGC TCTCGATGAT 
    CCCGCTGTGA GTGTCATCAA GAACATTACC AGAACAAAGC GGGTTATGGA TTCACAACAG 
    GACTCTGACC GTGCAAGTAG CTATCAGCGG CCGGGCACAG TCTCACATCA GGCTGCTGCC 
    ATAGCGCCAC ATCCACCATC GCAGTCGGGT AAACCTCATC TGAAGAAAAA GAAACCCCCA 
    TCAAGCAATG GTGAAAATCC TGGCCAGTCT GTTCAGGCTC CAAGTGTCCG GAAGCTTACA 
    AAGCCCAGCA GGTTTGACAA GAAGTACCAA TTGTTTGGGG AGAACAGAGT CGAATCAGAC 
    AACTTCAAGG GAATTCTCAC CTGTATACTG TGGGAGAGCA ATGACACCTT ACTGTACCTG 
    GCTGAGGAGT TCTATAAGAA GAAGGACAGG CGGAACATTG GCCGGACAGA TCTTCTTCAA 
    GAGACGTTTG AGGAGTGTGC AGATACGCTG GTGTTTAAAC TGCAGTCCTA CGAGAAGCAG 
    GCCCTGGAGT ATCAGAACAA CTGCCTGCTG GAGTTCCGGG AGCAGCTACA AACTTTCGAG 
    AGGCTGGTAA ATGAGGTGCC GCCGCTGGTC ATAGAGAGTC ACCGGAGGCA ACACCTGGAC 
    AAACTGCTGG CGGCCACTGA CCAGATACGG AAGCAGTTTG CTGAGGACCT GCAGCGCTGG 
    GACCAAGCCA AGGAGACACT GAAGAGTGTG CTGAGGCCAA ATTTAGGCCA CCCAGACAGC 
    GAGCAGGCCC TGGGGGAGCT GTGCCAGCAG GAGGAACTAA GGCAGAGAGA GGAGGCAGAA 
    GGGATTGACT GCAACACTAA ACAATTACAA GCGTGCGTCT CCGAGTGCAC CCAGCACTTC 
    CTGATGTCTC TGGCCTCCCT CACCGAGAGA CTGCTGCTGG AACTCGATGA GACACTTACA 
    GTCGATGATG TTTTAGCAGC TGATGTTGAG ATTCCCAAAG AAAAACTGTC AACGCTGATC 
    AGACGCAAGC AGGCGGGGCT GCCGTTGGAA AGCACAGAGC ACAAGCCACT GGTGGAGAGA 
    GGCAGCAGGG TCTGGCCAGG AATTGGAATT GTGGATCCTA CAGACCCTGA AGGGGACAGT 
    GCGCGCCACA TCAGCGCATC GGTCACCACG GCCAAGACCA CAGTCGGCCA CATCTCAGCG 
    GTGCAGGCTC GCGACTCCAC TCGCTCGCGG TTCCTGCAGG ACACAGAGGC GGTACTGACC 
    CGTATCCGGG AGGAGAGCCG GCAGCAGCAC TTTGATGCCC AGCGCTGGAG GGATTGGTGG 
    TGCCAGTCTG TACGCAATAT AAAAGCTCTG TATATGGGCT GA

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

    RefSeq XP_012824168.2
    CDS180..4841
    Translation

    Target ORF information:

    RefSeq Version XM_012968714.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis coiled-coil domain containing 180 (ccdc180), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_012968714.3

    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
    ATGGCAGCAG TGGGACAGAT CCAGGCAGTT CCTAGTGGAA GAGTCTACAG GCAACTTTTT 
    GATGCTGAGG TTCAGCTTGT GCGGTCCCTC GGAGAGGCTC GTGCTAGAGC GGTGCAGCAT 
    GGAGGTGCAG TGGACACTGG GAACATTCCT CCAATCAGAA GCCGGGATAA CAACACAGCA 
    TTGCCTGAGT CTCACCACCA GAGCACGGAT AAAATGACTC CACCTGCTAG GAAAAAGCAG 
    GAAAGTGAGG ATGATATTGC AGCAAGAGAA GTGAGAGGTC TTTCTGATGT CATCGTTCCA 
    GAAAAGAAAG ATACCGGCAT TCTTGAGCGG ATCGCTGCAA ACAGACTGGA ACGCCATGAA 
    GTGGCACTGT CCAACCTGCA CAGGGAACTG GCTGAGATCA GCAAAGAGAT GGAGCTATCA 
    GTATTGGAAG TGGGGAAGCA CCTGCAGCAA AAGATCTCGG AATCAGATGC AAATATTGAA 
    CTTTTGTTTC AGAAACTGGA AATCGGTAAC GACAGCACCA CCACAAAGGA AATAAATGAG 
    ACTTGGGATG CAGTGACCCA GGAATCTGCC CGTACAAGGC AGTGCATCAA AAGAACCGAA 
    AGCACTTTAC TGGCGCTAGA AGAAAACAGA GCGAAACGAA TTTCTGAAGT CTTAAAGAAA 
    TACACGTCCC TCTTAAAGGA CATCTGCCAT CTCATGCCCT CCGACGTGGA CAGATTTATT 
    CATAATGAAG CCATGATGAT TAACCAGGCA ATTTTAGCTA ACCACCGAGC TCTGGCTAGA 
    TTATCTGTAA ACCTTCTGGA AGCCAATCTG AAGAGGGAGA ATACCCAGCG CTTCCAATGG 
    CAGGACCTGA AGAAGGCCTG GGAGTGTTAC CAGAGGGAGA TCATAATGAA GGAGTTCAGG 
    GTGTTTGCTG AGAAAGAAAT GGAACATATA CCCACAAGTG TGAAAGTATT AGTGGATCAG 
    CTGACCACCC AACTCAGCTC TCTCAAAGAA AGGAGACTTC AGATTCTGGG TTTAGCCAGA 
    AGTTTTGTAC CTCCTACTTG CACGAGAACA GGTGTCATGG AATGGTATGA ATCGTTGGCA 
    GCCCTGAACA GTCAAGCTGA GTCCATCAAC AAACAATTCT TAGAGAAGCT TCAGGAGCTG 
    CGGGAGGAAT TCTGCCAAAA ATTTGAGGTG AAAGCAGAAA GCTGTAAAGA GCAGTTGGTC 
    AGTGTGGATA TTTGTACCCC AGAGGAAGCT GAGGATATAA TAACCAAAGA ACTCAGCCCA 
    GTGACGGCAC AGATCCACAT GAAATTTAAG GAAGAGCAAG AGAAGTGGGA AAAACTGCTG 
    GTACATAGCT CTAAGTTAAC GATCCTTCAG ACCCAGAAGT TGCTGAAATT CTTGGAAGAT 
    GTTGTTGATA TTTGGCAAAC GCTGGAACGT GGCCTCTCCA AACAGGAAAA TGCTGTGCAG 
    CTAAGGATGG AGCAGTGTCG CTATAAATAT GATAGTGACA GCAAGGCCAA GGAGGCAAAT 
    TTGGACAAGA TACTGGACAG ACTGAGACAA GACAGCACTA AGGAAACATT ACGTAGCACA 
    TTGGGGAAAG CACTGGCGTC CTTGGAAACC ATAAAAGCAG GATACAAGAC TTTTCATTTG 
    GACCAAGTCG CTGTAATTGA TTCCTACCCT GCCCTGGTGC TTGCAGAGTT GGCCTCCTAC 
    AGCTGCGCTC TTAGCAATTA TTTTGGGGTC AAAGAGGTGT ATGGGCAGGT GCAGAAGAAG 
    GATGGGGAGA ACCCCAGCAC CAGTATAACA ACGATTCCGG CAGATGGAGT GAGGTCTCAT 
    TCTAGAGAGG GGATATCAGT AAACTCCGAA TTTAATTCCT ACAACTATTC TGCAGTAGAA 
    AGTGTTTTGC TGGAAGGTGA ATGGCTGGAA GGGCCAGGAG ATGGAACCCA CAACACAAGA 
    GAAGACACGG AAGTGCCTGG AATAGTACAG TGTGATTCTA CTATGGCACC AGTGCAAACC 
    CCTTATCGGG AGAGCACCCA AGCAGCAGAG GGAGCTGGTG AGCAGACATC ACAGGGAGCC 
    CAGATTCCAT TTGAGCTCTT CACAACATCT AAAGGGAACA CCTATACTGC TTTGCGTTTG 
    GCATCAGAAG ATGACACGGC GGTGCCTGAG TTTCCAGGAG AACATTCCGA CACAAATATA 
    TTCATGACGG AGGCGGTGCT GGACGATTCC GTTCCCTTAA ATCATGACAT AATGGTCATA 
    CCCGAGCAAC AGTTGATTGT TATTAGGAAA AGCGTCCGGC TTGGGTTCTT TGAGCACCTG 
    GAGACCTGGT TCGGTGAGAC CCTTTCCAGT GCCCAGGGTA TCGTCAGTGC CAAGAAGGAA 
    GAGTTCAATT CTGAGTTAGC GCTTCGCTAT CACCTGCACG AGCCAAGGAG CCAACGGATC 
    GAGATGGATA TCCATAACGT CAGAGCTGCC GAGCTGATTC TGCACTCCGA GAGAGTGGAT 
    CGTCACTGTG ATGGGGTAAG CCATTCTCTG GAGCAGCTGA AGCGGGAGAG TTCCGTGCTG 
    ATTGAGAACA TGAAGCAACA GACTCTCGGA TTCCGCAGCA AGATCCGGGC CATGGAGAGC 
    ATGTTCCTCG GTGCCAACAA GTCTGATAAG CTTGTGGCCC TGACACAGTC TCTGCCGTCC 
    ATTTTGGACA GCCACGTAAG CGGGGTTCAG ACTTCCATGC GCAACTACCG GCAGCATGTA 
    GAGGAAATGC TCGGAACCCT GCGCGACACA AACTCGGACT TCATCAAATC ATTCAGATTG 
    TTCTCAGAGG GCGGAAACTT TTCTCCCGAT GAAGTGGAGG TGTTTCGCAA GAAGCTGCAT 
    AAAGCGTCAG ACACCATCGC CTCTTTCGAG GGCTCCATCA TGGTGGATTT GGAGGGCTTG 
    GAGTCTGTGT GTTTAGAACA GGCCACTGAG ATTGTAAAGA AATTTGAGGA CAAATTCAAC 
    ATGTTAACAA CGGATGCAAT TTTCCTAGAA AACATTCAGA AGCTGCTGAC GAACCTGCAA 
    GTGAAAATCA AAGCCTTGGT TGTGAGCAGC AATTTTCAGA CTCAGCAGAT CAACTCCTCT 
    CTGGAGCAGC TCCAACAGAA GACAGATGCC TGCGCTCATC CCAATATGGA TAAGGAAACA 
    GTCACAGCTG AAGAACTGTA CTCCTTTGTG CAAATCCCCA TGGGTCAGCT GGCAAAGAGA 
    AGTCTCTATC TGTCCTGCCT TCTAGAGCCC AGCCAAATAC TCTCTGAGAC CCCACTGCAA 
    GGCCCTATTG CAACGGCATC ACGTTCGGAC ACCCCACTCC GTCAAGACGC GAAAGGAACC 
    TTTACGACCC CCGACAACCT TCTTACTCCG AGCAGAGTGG GGAAGTTGGC TCTCGATGAT 
    CCCGCTGTGA GTGTCATCAA GAACATTACC AGAACAAAGC GGGTTATGGA TTCACAACAG 
    GACTCTGACC GTGCAAGTAG CTATCAGCGG CCGGGCACAG TCTCACATCA GGCTGCTGCC 
    ATAGCGCCAC ATCCACCATC GCAGTCGGGT AAACCTCATC TGAAGAAAAA GAAACCCCCA 
    TCAAGCAATG GTGAAAATCC TGGCCAGTCT GTTCAGGCTC CAAGTGTCCG GAAGCTTACA 
    AAGCCCAGCA GGTTTGACAA GAAGTACCAA TTGTTTGGGG AGAACAGAGT CGAATCAGAC 
    AACTTCAAGG GAATTCTCAC CTGTATACTG TGGGAGAGCA ATGACACCTT ACTGTACCTG 
    GCTGAGGAGT TCTATAAGAA GAAGGACAGG CGGAACATTG GCCGGACAGA TCTTCTTCAA 
    GAGACGTTTG AGGAGTGTGC AGATACGCTG GTGTTTAAAC TGCAGTCCTA CGAGAAGCAG 
    GCCCTGGAGT ATCAGAACAA CTGCCTGCTG GAGTTCCGGG AGCAGCTACA AACTTTCGAG 
    AGGCTGGTAA ATGAGGTGCC GCCGCTGGTC ATAGAGAGTC ACCGGAGGCA ACACCTGGAC 
    AAACTGCTGG CGGCCACTGA CCAGATACGG AAGCAGTTTG CTGAGGACCT GCAGCGCTGG 
    GACCAAGCCA AGGAGACACT GAAGAGTGTG CTGAGGCCAA ATTTAGGCCA CCCAGACAGC 
    GAGCAGGCCC TGGGGGAGCT GTGCCAGCAG GAGGAACTAA GGCAGAGAGA GGAGGCAGAA 
    GGGATTGACT GCAACACTAA ACAATTACAA GCGTGCGTCT CCGAGTGCAC CCAGCACTTC 
    CTGATGTCTC TGGCCTCCCT CACCGAGAGA CTGCTGCTGG AACTCGATGA GACACTTACA 
    GTCGATGATG TTTTAGCAGC TGATGTTGAG ATTCCCAAAG AAAAACTGTC AACGCTGATC 
    AGACGCAAGC AGGCGGGGCT GCCGTTGGAA AGCACAGAGC ACAAGCCACT GGTGGAGAGA 
    GGCAGCAGGG TCTGGCCAGG AATTGGAATT GTGGATCCTA CAGACCCTGA AGGGGACAGT 
    GCGCGCCACA TCAGCGCATC GGTCACCACG GCCAAGACCA CAGTCGGCCA CATCTCAGCG 
    GTGCAGGCTC GCGACTCCAC TCGCTCGCGG TTCCTGCAGG ACACAGAGGC GGTACTGACC 
    CGTATCCGGG AGGAGAGCCG GCAGCAGCAC TTTGATGCCC AGCGCTGGAG GGATTGGTGG 
    TGCCAGTCTG TACGCAATAT AAAAGCTCTG TATATGGGCT GA

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

    ccdc180 ( XM_031891403.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031747263.1 Xenopus tropicalis coiled-coil domain containing 180 (ccdc180), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OXa64702
    Clone ID Related Accession (Same CDS sequence) XM_031891403.1
    Accession Version XM_031891403.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4659bp)
    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 180 isoform X2
    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, 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
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGGCAGCAG TGGGACAGAT CCAGGCAGTT CCTAGTGGAA GAGTCTACAG GCAACTTTTT 
    GATGCTGAGG TTCAGCTTGT GCGGTCCCTC GGAGAGGCTC GTGCTAGAGC GGTGCAGCAT 
    GGAGGTGCAG TGGACACTGG GAACATTCCT CCAATCAGAA GCCGGGATAA CAACACAGCA 
    TTGCCTGAGT CTCACCACCA GAGCACGGAT AAAATGACTC CACCTGCTAG GAAAAAGCAG 
    GAAAGTGAGG ATGATATTGC AGCAAGAGAA GTGAGAGGTC TTTCTGATGT CATCGTTCCA 
    GAAAAGAAAG ATACCGGCAT TCTTGAGCGG ATCGCTGCAA ACAGACTGGA ACGCCATGAA 
    GTGGCACTGT CCAACCTGCA CAGGGAACTG GCTGAGATCA GCAAAGAGAT GGAGCTATCA 
    GTATTGGAAG TGGGGAAGCA CCTGCAGCAA AAGATCTCGG AATCAGATGC AAATATTGAA 
    CTTTTGTTTC AGAAACTGGA AATCGGTAAC GACAGCACCA CCACAAAGGA AATAAATGAG 
    ACTTGGGATG CAGTGACCCA GGAATCTGCC CGTACAAGGC AGTGCATCAA AAGAACCGAA 
    AGCACTTTAC TGGCGCTAGA AGAAAACAGA GCGAAACGAA TTTCTGAAGT CTTAAAGAAA 
    TACACGTCCC TCTTAAAGGA CATCTGCCAT CTCATGCCCT CCGACGTGGA CAGATTTATT 
    CATAATGAAG CCATGATGAT TAACCAGGCA ATTTTAGCTA ACCACCGAGC TCTGGCTAGA 
    TTATCTGTAA ACCTTCTGGA AGCCAATCTG AAGAGGGAGA ATACCCAGCG CTTCCAATGG 
    CAGGACCTGA AGAAGGCCTG GGAGTGTTAC CAGAGGGAGA TCATAATGAA GGAGTTCAGG 
    GTGTTTGCTG AGAAAGAAAT GGAACATATA CCCACAAGTG TGAAAGTATT AGTGGATCAG 
    CTGACCACCC AACTCAGCTC TCTCAAAGAA AGGAGACTTC AGATTCTGGG TTTAGCCAGT 
    TTTGTACCTC CTACTTGCAC GAGAACAGGT GTCATGGAAT GGTATGAATC GTTGGCAGCC 
    CTGAACAGTC AAGCTGAGTC CATCAACAAA CAATTCTTAG AGAAGCTTCA GGAGCTGCGG 
    GAGGAATTCT GCCAAAAATT TGAGGTGAAA GCAGAAAGCT GTAAAGAGCA GTTGGTCAGT 
    GTGGATATTT GTACCCCAGA GGAAGCTGAG GATATAATAA CCAAAGAACT CAGCCCAGTG 
    ACGGCACAGA TCCACATGAA ATTTAAGGAA GAGCAAGAGA AGTGGGAAAA ACTGCTGGTA 
    CATAGCTCTA AGTTAACGAT CCTTCAGACC CAGAAGTTGC TGAAATTCTT GGAAGATGTT 
    GTTGATATTT GGCAAACGCT GGAACGTGGC CTCTCCAAAC AGGAAAATGC TGTGCAGCTA 
    AGGATGGAGC AGTGTCGCTA TAAATATGAT AGTGACAGCA AGGCCAAGGA GGCAAATTTG 
    GACAAGATAC TGGACAGACT GAGACAAGAC AGCACTAAGG AAACATTACG TAGCACATTG 
    GGGAAAGCAC TGGCGTCCTT GGAAACCATA AAAGCAGGAT ACAAGACTTT TCATTTGGAC 
    CAAGTCGCTG TAATTGATTC CTACCCTGCC CTGGTGCTTG CAGAGTTGGC CTCCTACAGC 
    TGCGCTCTTA GCAATTATTT TGGGGTCAAA GAGGTGTATG GGCAGGTGCA GAAGAAGGAT 
    GGGGAGAACC CCAGCACCAG TATAACAACG ATTCCGGCAG ATGGAGTGAG GTCTCATTCT 
    AGAGAGGGGA TATCAGTAAA CTCCGAATTT AATTCCTACA ACTATTCTGC AGTAGAAAGT 
    GTTTTGCTGG AAGGTGAATG GCTGGAAGGG CCAGGAGATG GAACCCACAA CACAAGAGAA 
    GACACGGAAG TGCCTGGAAT AGTACAGTGT GATTCTACTA TGGCACCAGT GCAAACCCCT 
    TATCGGGAGA GCACCCAAGC AGCAGAGGGA GCTGGTGAGC AGACATCACA GGGAGCCCAG 
    ATTCCATTTG AGCTCTTCAC AACATCTAAA GGGAACACCT ATACTGCTTT GCGTTTGGCA 
    TCAGAAGATG ACACGGCGGT GCCTGAGTTT CCAGGAGAAC ATTCCGACAC AAATATATTC 
    ATGACGGAGG CGGTGCTGGA CGATTCCGTT CCCTTAAATC ATGACATAAT GGTCATACCC 
    GAGCAACAGT TGATTGTTAT TAGGAAAAGC GTCCGGCTTG GGTTCTTTGA GCACCTGGAG 
    ACCTGGTTCG GTGAGACCCT TTCCAGTGCC CAGGGTATCG TCAGTGCCAA GAAGGAAGAG 
    TTCAATTCTG AGTTAGCGCT TCGCTATCAC CTGCACGAGC CAAGGAGCCA ACGGATCGAG 
    ATGGATATCC ATAACGTCAG AGCTGCCGAG CTGATTCTGC ACTCCGAGAG AGTGGATCGT 
    CACTGTGATG GGGTAAGCCA TTCTCTGGAG CAGCTGAAGC GGGAGAGTTC CGTGCTGATT 
    GAGAACATGA AGCAACAGAC TCTCGGATTC CGCAGCAAGA TCCGGGCCAT GGAGAGCATG 
    TTCCTCGGTG CCAACAAGTC TGATAAGCTT GTGGCCCTGA CACAGTCTCT GCCGTCCATT 
    TTGGACAGCC ACGTAAGCGG GGTTCAGACT TCCATGCGCA ACTACCGGCA GCATGTAGAG 
    GAAATGCTCG GAACCCTGCG CGACACAAAC TCGGACTTCA TCAAATCATT CAGATTGTTC 
    TCAGAGGGCG GAAACTTTTC TCCCGATGAA GTGGAGGTGT TTCGCAAGAA GCTGCATAAA 
    GCGTCAGACA CCATCGCCTC TTTCGAGGGC TCCATCATGG TGGATTTGGA GGGCTTGGAG 
    TCTGTGTGTT TAGAACAGGC CACTGAGATT GTAAAGAAAT TTGAGGACAA ATTCAACATG 
    TTAACAACGG ATGCAATTTT CCTAGAAAAC ATTCAGAAGC TGCTGACGAA CCTGCAAGTG 
    AAAATCAAAG CCTTGGTTGT GAGCAGCAAT TTTCAGACTC AGCAGATCAA CTCCTCTCTG 
    GAGCAGCTCC AACAGAAGAC AGATGCCTGC GCTCATCCCA ATATGGATAA GGAAACAGTC 
    ACAGCTGAAG AACTGTACTC CTTTGTGCAA ATCCCCATGG GTCAGCTGGC AAAGAGAAGT 
    CTCTATCTGT CCTGCCTTCT AGAGCCCAGC CAAATACTCT CTGAGACCCC ACTGCAAGGC 
    CCTATTGCAA CGGCATCACG TTCGGACACC CCACTCCGTC AAGACGCGAA AGGAACCTTT 
    ACGACCCCCG ACAACCTTCT TACTCCGAGC AGAGTGGGGA AGTTGGCTCT CGATGATCCC 
    GCTGTGAGTG TCATCAAGAA CATTACCAGA ACAAAGCGGG TTATGGATTC ACAACAGGAC 
    TCTGACCGTG CAAGTAGCTA TCAGCGGCCG GGCACAGTCT CACATCAGGC TGCTGCCATA 
    GCGCCACATC CACCATCGCA GTCGGGTAAA CCTCATCTGA AGAAAAAGAA ACCCCCATCA 
    AGCAATGGTG AAAATCCTGG CCAGTCTGTT CAGGCTCCAA GTGTCCGGAA GCTTACAAAG 
    CCCAGCAGGT TTGACAAGAA GTACCAATTG TTTGGGGAGA ACAGAGTCGA ATCAGACAAC 
    TTCAAGGGAA TTCTCACCTG TATACTGTGG GAGAGCAATG ACACCTTACT GTACCTGGCT 
    GAGGAGTTCT ATAAGAAGAA GGACAGGCGG AACATTGGCC GGACAGATCT TCTTCAAGAG 
    ACGTTTGAGG AGTGTGCAGA TACGCTGGTG TTTAAACTGC AGTCCTACGA GAAGCAGGCC 
    CTGGAGTATC AGAACAACTG CCTGCTGGAG TTCCGGGAGC AGCTACAAAC TTTCGAGAGG 
    CTGGTAAATG AGGTGCCGCC GCTGGTCATA GAGAGTCACC GGAGGCAACA CCTGGACAAA 
    CTGCTGGCGG CCACTGACCA GATACGGAAG CAGTTTGCTG AGGACCTGCA GCGCTGGGAC 
    CAAGCCAAGG AGACACTGAA GAGTGTGCTG AGGCCAAATT TAGGCCACCC AGACAGCGAG 
    CAGGCCCTGG GGGAGCTGTG CCAGCAGGAG GAACTAAGGC AGAGAGAGGA GGCAGAAGGG 
    ATTGACTGCA ACACTAAACA ATTACAAGCG TGCGTCTCCG AGTGCACCCA GCACTTCCTG 
    ATGTCTCTGG CCTCCCTCAC CGAGAGACTG CTGCTGGAAC TCGATGAGAC ACTTACAGTC 
    GATGATGTTT TAGCAGCTGA TGTTGAGATT CCCAAAGAAA AACTGTCAAC GCTGATCAGA 
    CGCAAGCAGG CGGGGCTGCC GTTGGAAAGC ACAGAGCACA AGCCACTGGT GGAGAGAGGC 
    AGCAGGGTCT GGCCAGGAAT TGGAATTGTG GATCCTACAG ACCCTGAAGG GGACAGTGCG 
    CGCCACATCA GCGCATCGGT CACCACGGCC AAGACCACAG TCGGCCACAT CTCAGCGGTG 
    CAGGCTCGCG ACTCCACTCG CTCGCGGTTC CTGCAGGACA CAGAGGCGGT ACTGACCCGT 
    ATCCGGGAGG AGAGCCGGCA GCAGCACTTT GATGCCCAGC GCTGGAGGGA TTGGTGGTGC 
    CAGTCTGTAC GCAATATAAA AGCTCTGTAT ATGGGCTGA

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

    RefSeq XP_031747263.1
    CDS180..4838
    Translation

    Target ORF information:

    RefSeq Version XM_031891403.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis coiled-coil domain containing 180 (ccdc180), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_031891403.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGGCAGCAG TGGGACAGAT CCAGGCAGTT CCTAGTGGAA GAGTCTACAG GCAACTTTTT 
    GATGCTGAGG TTCAGCTTGT GCGGTCCCTC GGAGAGGCTC GTGCTAGAGC GGTGCAGCAT 
    GGAGGTGCAG TGGACACTGG GAACATTCCT CCAATCAGAA GCCGGGATAA CAACACAGCA 
    TTGCCTGAGT CTCACCACCA GAGCACGGAT AAAATGACTC CACCTGCTAG GAAAAAGCAG 
    GAAAGTGAGG ATGATATTGC AGCAAGAGAA GTGAGAGGTC TTTCTGATGT CATCGTTCCA 
    GAAAAGAAAG ATACCGGCAT TCTTGAGCGG ATCGCTGCAA ACAGACTGGA ACGCCATGAA 
    GTGGCACTGT CCAACCTGCA CAGGGAACTG GCTGAGATCA GCAAAGAGAT GGAGCTATCA 
    GTATTGGAAG TGGGGAAGCA CCTGCAGCAA AAGATCTCGG AATCAGATGC AAATATTGAA 
    CTTTTGTTTC AGAAACTGGA AATCGGTAAC GACAGCACCA CCACAAAGGA AATAAATGAG 
    ACTTGGGATG CAGTGACCCA GGAATCTGCC CGTACAAGGC AGTGCATCAA AAGAACCGAA 
    AGCACTTTAC TGGCGCTAGA AGAAAACAGA GCGAAACGAA TTTCTGAAGT CTTAAAGAAA 
    TACACGTCCC TCTTAAAGGA CATCTGCCAT CTCATGCCCT CCGACGTGGA CAGATTTATT 
    CATAATGAAG CCATGATGAT TAACCAGGCA ATTTTAGCTA ACCACCGAGC TCTGGCTAGA 
    TTATCTGTAA ACCTTCTGGA AGCCAATCTG AAGAGGGAGA ATACCCAGCG CTTCCAATGG 
    CAGGACCTGA AGAAGGCCTG GGAGTGTTAC CAGAGGGAGA TCATAATGAA GGAGTTCAGG 
    GTGTTTGCTG AGAAAGAAAT GGAACATATA CCCACAAGTG TGAAAGTATT AGTGGATCAG 
    CTGACCACCC AACTCAGCTC TCTCAAAGAA AGGAGACTTC AGATTCTGGG TTTAGCCAGT 
    TTTGTACCTC CTACTTGCAC GAGAACAGGT GTCATGGAAT GGTATGAATC GTTGGCAGCC 
    CTGAACAGTC AAGCTGAGTC CATCAACAAA CAATTCTTAG AGAAGCTTCA GGAGCTGCGG 
    GAGGAATTCT GCCAAAAATT TGAGGTGAAA GCAGAAAGCT GTAAAGAGCA GTTGGTCAGT 
    GTGGATATTT GTACCCCAGA GGAAGCTGAG GATATAATAA CCAAAGAACT CAGCCCAGTG 
    ACGGCACAGA TCCACATGAA ATTTAAGGAA GAGCAAGAGA AGTGGGAAAA ACTGCTGGTA 
    CATAGCTCTA AGTTAACGAT CCTTCAGACC CAGAAGTTGC TGAAATTCTT GGAAGATGTT 
    GTTGATATTT GGCAAACGCT GGAACGTGGC CTCTCCAAAC AGGAAAATGC TGTGCAGCTA 
    AGGATGGAGC AGTGTCGCTA TAAATATGAT AGTGACAGCA AGGCCAAGGA GGCAAATTTG 
    GACAAGATAC TGGACAGACT GAGACAAGAC AGCACTAAGG AAACATTACG TAGCACATTG 
    GGGAAAGCAC TGGCGTCCTT GGAAACCATA AAAGCAGGAT ACAAGACTTT TCATTTGGAC 
    CAAGTCGCTG TAATTGATTC CTACCCTGCC CTGGTGCTTG CAGAGTTGGC CTCCTACAGC 
    TGCGCTCTTA GCAATTATTT TGGGGTCAAA GAGGTGTATG GGCAGGTGCA GAAGAAGGAT 
    GGGGAGAACC CCAGCACCAG TATAACAACG ATTCCGGCAG ATGGAGTGAG GTCTCATTCT 
    AGAGAGGGGA TATCAGTAAA CTCCGAATTT AATTCCTACA ACTATTCTGC AGTAGAAAGT 
    GTTTTGCTGG AAGGTGAATG GCTGGAAGGG CCAGGAGATG GAACCCACAA CACAAGAGAA 
    GACACGGAAG TGCCTGGAAT AGTACAGTGT GATTCTACTA TGGCACCAGT GCAAACCCCT 
    TATCGGGAGA GCACCCAAGC AGCAGAGGGA GCTGGTGAGC AGACATCACA GGGAGCCCAG 
    ATTCCATTTG AGCTCTTCAC AACATCTAAA GGGAACACCT ATACTGCTTT GCGTTTGGCA 
    TCAGAAGATG ACACGGCGGT GCCTGAGTTT CCAGGAGAAC ATTCCGACAC AAATATATTC 
    ATGACGGAGG CGGTGCTGGA CGATTCCGTT CCCTTAAATC ATGACATAAT GGTCATACCC 
    GAGCAACAGT TGATTGTTAT TAGGAAAAGC GTCCGGCTTG GGTTCTTTGA GCACCTGGAG 
    ACCTGGTTCG GTGAGACCCT TTCCAGTGCC CAGGGTATCG TCAGTGCCAA GAAGGAAGAG 
    TTCAATTCTG AGTTAGCGCT TCGCTATCAC CTGCACGAGC CAAGGAGCCA ACGGATCGAG 
    ATGGATATCC ATAACGTCAG AGCTGCCGAG CTGATTCTGC ACTCCGAGAG AGTGGATCGT 
    CACTGTGATG GGGTAAGCCA TTCTCTGGAG CAGCTGAAGC GGGAGAGTTC CGTGCTGATT 
    GAGAACATGA AGCAACAGAC TCTCGGATTC CGCAGCAAGA TCCGGGCCAT GGAGAGCATG 
    TTCCTCGGTG CCAACAAGTC TGATAAGCTT GTGGCCCTGA CACAGTCTCT GCCGTCCATT 
    TTGGACAGCC ACGTAAGCGG GGTTCAGACT TCCATGCGCA ACTACCGGCA GCATGTAGAG 
    GAAATGCTCG GAACCCTGCG CGACACAAAC TCGGACTTCA TCAAATCATT CAGATTGTTC 
    TCAGAGGGCG GAAACTTTTC TCCCGATGAA GTGGAGGTGT TTCGCAAGAA GCTGCATAAA 
    GCGTCAGACA CCATCGCCTC TTTCGAGGGC TCCATCATGG TGGATTTGGA GGGCTTGGAG 
    TCTGTGTGTT TAGAACAGGC CACTGAGATT GTAAAGAAAT TTGAGGACAA ATTCAACATG 
    TTAACAACGG ATGCAATTTT CCTAGAAAAC ATTCAGAAGC TGCTGACGAA CCTGCAAGTG 
    AAAATCAAAG CCTTGGTTGT GAGCAGCAAT TTTCAGACTC AGCAGATCAA CTCCTCTCTG 
    GAGCAGCTCC AACAGAAGAC AGATGCCTGC GCTCATCCCA ATATGGATAA GGAAACAGTC 
    ACAGCTGAAG AACTGTACTC CTTTGTGCAA ATCCCCATGG GTCAGCTGGC AAAGAGAAGT 
    CTCTATCTGT CCTGCCTTCT AGAGCCCAGC CAAATACTCT CTGAGACCCC ACTGCAAGGC 
    CCTATTGCAA CGGCATCACG TTCGGACACC CCACTCCGTC AAGACGCGAA AGGAACCTTT 
    ACGACCCCCG ACAACCTTCT TACTCCGAGC AGAGTGGGGA AGTTGGCTCT CGATGATCCC 
    GCTGTGAGTG TCATCAAGAA CATTACCAGA ACAAAGCGGG TTATGGATTC ACAACAGGAC 
    TCTGACCGTG CAAGTAGCTA TCAGCGGCCG GGCACAGTCT CACATCAGGC TGCTGCCATA 
    GCGCCACATC CACCATCGCA GTCGGGTAAA CCTCATCTGA AGAAAAAGAA ACCCCCATCA 
    AGCAATGGTG AAAATCCTGG CCAGTCTGTT CAGGCTCCAA GTGTCCGGAA GCTTACAAAG 
    CCCAGCAGGT TTGACAAGAA GTACCAATTG TTTGGGGAGA ACAGAGTCGA ATCAGACAAC 
    TTCAAGGGAA TTCTCACCTG TATACTGTGG GAGAGCAATG ACACCTTACT GTACCTGGCT 
    GAGGAGTTCT ATAAGAAGAA GGACAGGCGG AACATTGGCC GGACAGATCT TCTTCAAGAG 
    ACGTTTGAGG AGTGTGCAGA TACGCTGGTG TTTAAACTGC AGTCCTACGA GAAGCAGGCC 
    CTGGAGTATC AGAACAACTG CCTGCTGGAG TTCCGGGAGC AGCTACAAAC TTTCGAGAGG 
    CTGGTAAATG AGGTGCCGCC GCTGGTCATA GAGAGTCACC GGAGGCAACA CCTGGACAAA 
    CTGCTGGCGG CCACTGACCA GATACGGAAG CAGTTTGCTG AGGACCTGCA GCGCTGGGAC 
    CAAGCCAAGG AGACACTGAA GAGTGTGCTG AGGCCAAATT TAGGCCACCC AGACAGCGAG 
    CAGGCCCTGG GGGAGCTGTG CCAGCAGGAG GAACTAAGGC AGAGAGAGGA GGCAGAAGGG 
    ATTGACTGCA ACACTAAACA ATTACAAGCG TGCGTCTCCG AGTGCACCCA GCACTTCCTG 
    ATGTCTCTGG CCTCCCTCAC CGAGAGACTG CTGCTGGAAC TCGATGAGAC ACTTACAGTC 
    GATGATGTTT TAGCAGCTGA TGTTGAGATT CCCAAAGAAA AACTGTCAAC GCTGATCAGA 
    CGCAAGCAGG CGGGGCTGCC GTTGGAAAGC ACAGAGCACA AGCCACTGGT GGAGAGAGGC 
    AGCAGGGTCT GGCCAGGAAT TGGAATTGTG GATCCTACAG ACCCTGAAGG GGACAGTGCG 
    CGCCACATCA GCGCATCGGT CACCACGGCC AAGACCACAG TCGGCCACAT CTCAGCGGTG 
    CAGGCTCGCG ACTCCACTCG CTCGCGGTTC CTGCAGGACA CAGAGGCGGT ACTGACCCGT 
    ATCCGGGAGG AGAGCCGGCA GCAGCACTTT GATGCCCAGC GCTGGAGGGA TTGGTGGTGC 
    CAGTCTGTAC GCAATATAAA AGCTCTGTAT ATGGGCTGA

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

    ccdc180 ( XM_031891404.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031747264.1 Xenopus tropicalis coiled-coil domain containing 180 (ccdc180), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OXa64703
    Clone ID Related Accession (Same CDS sequence) XM_031891404.1
    Accession Version XM_031891404.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4656bp)
    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 180 isoform X3
    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, 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
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGGCAGCAG TGGGACAGAT CCAGGCAGTT CCTAGTGGAA GAGTCTACAG GCAACTTTTT 
    GATGCTGAGG TTCAGCTTGT GCGGTCCCTC GGAGAGGCTC GTGCTAGAGC GGTGCAGCAT 
    GGAGGTGCAG TGGACACTGG GAACATTCCT CCAATCAGAA GCCGGGATAA CAACACAGCA 
    TTGCCTGAGT CTCACCACCA GAGCACGGAT AAAATGACTC CACCTGCTAG GAAAAAGCAG 
    GAAAGTGAGG ATGATATTGC AGCAAGAGAA GTGAGAGGTC TTTCTGATGT CATCGTTCCA 
    GAAAAGAAAG ATACCGGCAT TCTTGAGCGG ATCGCTGCAA ACAGACTGGA ACGCCATGAA 
    GTGGCACTGT CCAACCTGCA CAGGGAACTG GCTGAGATCA GCAAAGAGAT GGAGCTATCA 
    GTATTGGAAG TGGGGAAGCA CCTGCAGCAA AAGATCTCGG AATCAGATGC AAATATTGAA 
    CTTTTGTTTC AGAAACTGGA AATCGGTAAC GACAGCACCA CCACAAAGGA AATAAATGAG 
    ACTTGGGATG CAGTGACCCA GGAATCTGCC CGTACAAGGC AGTGCATCAA AAGAACCGAA 
    AGCACTTTAC TGGCGCTAGA AGAAAACAGA GCGAAACGAA TTTCTGAAGT CTTAAAGAAA 
    TACACGTCCC TCTTAAAGGA CATCTGCCAT CTCATGCCCT CCGACGTGGA CAGATTTATT 
    CATAATGAAG CCATGATGAT TAACCAGGCA ATTTTAGCTA ACCACCGAGC TCTGGCTAGA 
    TTATCTGTAA ACCTTCTGGA AGCCAATCTG AAGAGGGAGA ATACCCAGCG CTTCCAATGG 
    CAGGACCTGA AGAAGGCCTG GGAGTGTTAC CAGAGGGAGA TCATAATGAA GGAGTTCAGG 
    GTGTTTGCTG AGAAAGAAAT GGAACATATA CCCACAAGTG TGAAAGTATT AGTGGATCAG 
    CTGACCACCC AACTCAGCTC TCTCAAAGAA AGGAGACTTC AGATTCTGGG TTTAGCCAGA 
    AGTTTTGTAC CTCCTACTTG CACGAGAACA GGTGTCATGG AATGGTATGA ATCGTTGGCA 
    GCCCTGAACA GTCAAGCTGA GTCCATCAAC AAACAATTCT TAGAGAAGCT TCAGGAGCTG 
    CGGGAGGAAT TCTGCCAAAA ATTTGAGGTG AAAGCAGAAA GCTGTAAATT GGTCAGTGTG 
    GATATTTGTA CCCCAGAGGA AGCTGAGGAT ATAATAACCA AAGAACTCAG CCCAGTGACG 
    GCACAGATCC ACATGAAATT TAAGGAAGAG CAAGAGAAGT GGGAAAAACT GCTGGTACAT 
    AGCTCTAAGT TAACGATCCT TCAGACCCAG AAGTTGCTGA AATTCTTGGA AGATGTTGTT 
    GATATTTGGC AAACGCTGGA ACGTGGCCTC TCCAAACAGG AAAATGCTGT GCAGCTAAGG 
    ATGGAGCAGT GTCGCTATAA ATATGATAGT GACAGCAAGG CCAAGGAGGC AAATTTGGAC 
    AAGATACTGG ACAGACTGAG ACAAGACAGC ACTAAGGAAA CATTACGTAG CACATTGGGG 
    AAAGCACTGG CGTCCTTGGA AACCATAAAA GCAGGATACA AGACTTTTCA TTTGGACCAA 
    GTCGCTGTAA TTGATTCCTA CCCTGCCCTG GTGCTTGCAG AGTTGGCCTC CTACAGCTGC 
    GCTCTTAGCA ATTATTTTGG GGTCAAAGAG GTGTATGGGC AGGTGCAGAA GAAGGATGGG 
    GAGAACCCCA GCACCAGTAT AACAACGATT CCGGCAGATG GAGTGAGGTC TCATTCTAGA 
    GAGGGGATAT CAGTAAACTC CGAATTTAAT TCCTACAACT ATTCTGCAGT AGAAAGTGTT 
    TTGCTGGAAG GTGAATGGCT GGAAGGGCCA GGAGATGGAA CCCACAACAC AAGAGAAGAC 
    ACGGAAGTGC CTGGAATAGT ACAGTGTGAT TCTACTATGG CACCAGTGCA AACCCCTTAT 
    CGGGAGAGCA CCCAAGCAGC AGAGGGAGCT GGTGAGCAGA CATCACAGGG AGCCCAGATT 
    CCATTTGAGC TCTTCACAAC ATCTAAAGGG AACACCTATA CTGCTTTGCG TTTGGCATCA 
    GAAGATGACA CGGCGGTGCC TGAGTTTCCA GGAGAACATT CCGACACAAA TATATTCATG 
    ACGGAGGCGG TGCTGGACGA TTCCGTTCCC TTAAATCATG ACATAATGGT CATACCCGAG 
    CAACAGTTGA TTGTTATTAG GAAAAGCGTC CGGCTTGGGT TCTTTGAGCA CCTGGAGACC 
    TGGTTCGGTG AGACCCTTTC CAGTGCCCAG GGTATCGTCA GTGCCAAGAA GGAAGAGTTC 
    AATTCTGAGT TAGCGCTTCG CTATCACCTG CACGAGCCAA GGAGCCAACG GATCGAGATG 
    GATATCCATA ACGTCAGAGC TGCCGAGCTG ATTCTGCACT CCGAGAGAGT GGATCGTCAC 
    TGTGATGGGG TAAGCCATTC TCTGGAGCAG CTGAAGCGGG AGAGTTCCGT GCTGATTGAG 
    AACATGAAGC AACAGACTCT CGGATTCCGC AGCAAGATCC GGGCCATGGA GAGCATGTTC 
    CTCGGTGCCA ACAAGTCTGA TAAGCTTGTG GCCCTGACAC AGTCTCTGCC GTCCATTTTG 
    GACAGCCACG TAAGCGGGGT TCAGACTTCC ATGCGCAACT ACCGGCAGCA TGTAGAGGAA 
    ATGCTCGGAA CCCTGCGCGA CACAAACTCG GACTTCATCA AATCATTCAG ATTGTTCTCA 
    GAGGGCGGAA ACTTTTCTCC CGATGAAGTG GAGGTGTTTC GCAAGAAGCT GCATAAAGCG 
    TCAGACACCA TCGCCTCTTT CGAGGGCTCC ATCATGGTGG ATTTGGAGGG CTTGGAGTCT 
    GTGTGTTTAG AACAGGCCAC TGAGATTGTA AAGAAATTTG AGGACAAATT CAACATGTTA 
    ACAACGGATG CAATTTTCCT AGAAAACATT CAGAAGCTGC TGACGAACCT GCAAGTGAAA 
    ATCAAAGCCT TGGTTGTGAG CAGCAATTTT CAGACTCAGC AGATCAACTC CTCTCTGGAG 
    CAGCTCCAAC AGAAGACAGA TGCCTGCGCT CATCCCAATA TGGATAAGGA AACAGTCACA 
    GCTGAAGAAC TGTACTCCTT TGTGCAAATC CCCATGGGTC AGCTGGCAAA GAGAAGTCTC 
    TATCTGTCCT GCCTTCTAGA GCCCAGCCAA ATACTCTCTG AGACCCCACT GCAAGGCCCT 
    ATTGCAACGG CATCACGTTC GGACACCCCA CTCCGTCAAG ACGCGAAAGG AACCTTTACG 
    ACCCCCGACA ACCTTCTTAC TCCGAGCAGA GTGGGGAAGT TGGCTCTCGA TGATCCCGCT 
    GTGAGTGTCA TCAAGAACAT TACCAGAACA AAGCGGGTTA TGGATTCACA ACAGGACTCT 
    GACCGTGCAA GTAGCTATCA GCGGCCGGGC ACAGTCTCAC ATCAGGCTGC TGCCATAGCG 
    CCACATCCAC CATCGCAGTC GGGTAAACCT CATCTGAAGA AAAAGAAACC CCCATCAAGC 
    AATGGTGAAA ATCCTGGCCA GTCTGTTCAG GCTCCAAGTG TCCGGAAGCT TACAAAGCCC 
    AGCAGGTTTG ACAAGAAGTA CCAATTGTTT GGGGAGAACA GAGTCGAATC AGACAACTTC 
    AAGGGAATTC TCACCTGTAT ACTGTGGGAG AGCAATGACA CCTTACTGTA CCTGGCTGAG 
    GAGTTCTATA AGAAGAAGGA CAGGCGGAAC ATTGGCCGGA CAGATCTTCT TCAAGAGACG 
    TTTGAGGAGT GTGCAGATAC GCTGGTGTTT AAACTGCAGT CCTACGAGAA GCAGGCCCTG 
    GAGTATCAGA ACAACTGCCT GCTGGAGTTC CGGGAGCAGC TACAAACTTT CGAGAGGCTG 
    GTAAATGAGG TGCCGCCGCT GGTCATAGAG AGTCACCGGA GGCAACACCT GGACAAACTG 
    CTGGCGGCCA CTGACCAGAT ACGGAAGCAG TTTGCTGAGG ACCTGCAGCG CTGGGACCAA 
    GCCAAGGAGA CACTGAAGAG TGTGCTGAGG CCAAATTTAG GCCACCCAGA CAGCGAGCAG 
    GCCCTGGGGG AGCTGTGCCA GCAGGAGGAA CTAAGGCAGA GAGAGGAGGC AGAAGGGATT 
    GACTGCAACA CTAAACAATT ACAAGCGTGC GTCTCCGAGT GCACCCAGCA CTTCCTGATG 
    TCTCTGGCCT CCCTCACCGA GAGACTGCTG CTGGAACTCG ATGAGACACT TACAGTCGAT 
    GATGTTTTAG CAGCTGATGT TGAGATTCCC AAAGAAAAAC TGTCAACGCT GATCAGACGC 
    AAGCAGGCGG GGCTGCCGTT GGAAAGCACA GAGCACAAGC CACTGGTGGA GAGAGGCAGC 
    AGGGTCTGGC CAGGAATTGG AATTGTGGAT CCTACAGACC CTGAAGGGGA CAGTGCGCGC 
    CACATCAGCG CATCGGTCAC CACGGCCAAG ACCACAGTCG GCCACATCTC AGCGGTGCAG 
    GCTCGCGACT CCACTCGCTC GCGGTTCCTG CAGGACACAG AGGCGGTACT GACCCGTATC 
    CGGGAGGAGA GCCGGCAGCA GCACTTTGAT GCCCAGCGCT GGAGGGATTG GTGGTGCCAG 
    TCTGTACGCA ATATAAAAGC TCTGTATATG GGCTGA

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

    RefSeq XP_031747264.1
    CDS180..4835
    Translation

    Target ORF information:

    RefSeq Version XM_031891404.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis coiled-coil domain containing 180 (ccdc180), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_031891404.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGGCAGCAG TGGGACAGAT CCAGGCAGTT CCTAGTGGAA GAGTCTACAG GCAACTTTTT 
    GATGCTGAGG TTCAGCTTGT GCGGTCCCTC GGAGAGGCTC GTGCTAGAGC GGTGCAGCAT 
    GGAGGTGCAG TGGACACTGG GAACATTCCT CCAATCAGAA GCCGGGATAA CAACACAGCA 
    TTGCCTGAGT CTCACCACCA GAGCACGGAT AAAATGACTC CACCTGCTAG GAAAAAGCAG 
    GAAAGTGAGG ATGATATTGC AGCAAGAGAA GTGAGAGGTC TTTCTGATGT CATCGTTCCA 
    GAAAAGAAAG ATACCGGCAT TCTTGAGCGG ATCGCTGCAA ACAGACTGGA ACGCCATGAA 
    GTGGCACTGT CCAACCTGCA CAGGGAACTG GCTGAGATCA GCAAAGAGAT GGAGCTATCA 
    GTATTGGAAG TGGGGAAGCA CCTGCAGCAA AAGATCTCGG AATCAGATGC AAATATTGAA 
    CTTTTGTTTC AGAAACTGGA AATCGGTAAC GACAGCACCA CCACAAAGGA AATAAATGAG 
    ACTTGGGATG CAGTGACCCA GGAATCTGCC CGTACAAGGC AGTGCATCAA AAGAACCGAA 
    AGCACTTTAC TGGCGCTAGA AGAAAACAGA GCGAAACGAA TTTCTGAAGT CTTAAAGAAA 
    TACACGTCCC TCTTAAAGGA CATCTGCCAT CTCATGCCCT CCGACGTGGA CAGATTTATT 
    CATAATGAAG CCATGATGAT TAACCAGGCA ATTTTAGCTA ACCACCGAGC TCTGGCTAGA 
    TTATCTGTAA ACCTTCTGGA AGCCAATCTG AAGAGGGAGA ATACCCAGCG CTTCCAATGG 
    CAGGACCTGA AGAAGGCCTG GGAGTGTTAC CAGAGGGAGA TCATAATGAA GGAGTTCAGG 
    GTGTTTGCTG AGAAAGAAAT GGAACATATA CCCACAAGTG TGAAAGTATT AGTGGATCAG 
    CTGACCACCC AACTCAGCTC TCTCAAAGAA AGGAGACTTC AGATTCTGGG TTTAGCCAGA 
    AGTTTTGTAC CTCCTACTTG CACGAGAACA GGTGTCATGG AATGGTATGA ATCGTTGGCA 
    GCCCTGAACA GTCAAGCTGA GTCCATCAAC AAACAATTCT TAGAGAAGCT TCAGGAGCTG 
    CGGGAGGAAT TCTGCCAAAA ATTTGAGGTG AAAGCAGAAA GCTGTAAATT GGTCAGTGTG 
    GATATTTGTA CCCCAGAGGA AGCTGAGGAT ATAATAACCA AAGAACTCAG CCCAGTGACG 
    GCACAGATCC ACATGAAATT TAAGGAAGAG CAAGAGAAGT GGGAAAAACT GCTGGTACAT 
    AGCTCTAAGT TAACGATCCT TCAGACCCAG AAGTTGCTGA AATTCTTGGA AGATGTTGTT 
    GATATTTGGC AAACGCTGGA ACGTGGCCTC TCCAAACAGG AAAATGCTGT GCAGCTAAGG 
    ATGGAGCAGT GTCGCTATAA ATATGATAGT GACAGCAAGG CCAAGGAGGC AAATTTGGAC 
    AAGATACTGG ACAGACTGAG ACAAGACAGC ACTAAGGAAA CATTACGTAG CACATTGGGG 
    AAAGCACTGG CGTCCTTGGA AACCATAAAA GCAGGATACA AGACTTTTCA TTTGGACCAA 
    GTCGCTGTAA TTGATTCCTA CCCTGCCCTG GTGCTTGCAG AGTTGGCCTC CTACAGCTGC 
    GCTCTTAGCA ATTATTTTGG GGTCAAAGAG GTGTATGGGC AGGTGCAGAA GAAGGATGGG 
    GAGAACCCCA GCACCAGTAT AACAACGATT CCGGCAGATG GAGTGAGGTC TCATTCTAGA 
    GAGGGGATAT CAGTAAACTC CGAATTTAAT TCCTACAACT ATTCTGCAGT AGAAAGTGTT 
    TTGCTGGAAG GTGAATGGCT GGAAGGGCCA GGAGATGGAA CCCACAACAC AAGAGAAGAC 
    ACGGAAGTGC CTGGAATAGT ACAGTGTGAT TCTACTATGG CACCAGTGCA AACCCCTTAT 
    CGGGAGAGCA CCCAAGCAGC AGAGGGAGCT GGTGAGCAGA CATCACAGGG AGCCCAGATT 
    CCATTTGAGC TCTTCACAAC ATCTAAAGGG AACACCTATA CTGCTTTGCG TTTGGCATCA 
    GAAGATGACA CGGCGGTGCC TGAGTTTCCA GGAGAACATT CCGACACAAA TATATTCATG 
    ACGGAGGCGG TGCTGGACGA TTCCGTTCCC TTAAATCATG ACATAATGGT CATACCCGAG 
    CAACAGTTGA TTGTTATTAG GAAAAGCGTC CGGCTTGGGT TCTTTGAGCA CCTGGAGACC 
    TGGTTCGGTG AGACCCTTTC CAGTGCCCAG GGTATCGTCA GTGCCAAGAA GGAAGAGTTC 
    AATTCTGAGT TAGCGCTTCG CTATCACCTG CACGAGCCAA GGAGCCAACG GATCGAGATG 
    GATATCCATA ACGTCAGAGC TGCCGAGCTG ATTCTGCACT CCGAGAGAGT GGATCGTCAC 
    TGTGATGGGG TAAGCCATTC TCTGGAGCAG CTGAAGCGGG AGAGTTCCGT GCTGATTGAG 
    AACATGAAGC AACAGACTCT CGGATTCCGC AGCAAGATCC GGGCCATGGA GAGCATGTTC 
    CTCGGTGCCA ACAAGTCTGA TAAGCTTGTG GCCCTGACAC AGTCTCTGCC GTCCATTTTG 
    GACAGCCACG TAAGCGGGGT TCAGACTTCC ATGCGCAACT ACCGGCAGCA TGTAGAGGAA 
    ATGCTCGGAA CCCTGCGCGA CACAAACTCG GACTTCATCA AATCATTCAG ATTGTTCTCA 
    GAGGGCGGAA ACTTTTCTCC CGATGAAGTG GAGGTGTTTC GCAAGAAGCT GCATAAAGCG 
    TCAGACACCA TCGCCTCTTT CGAGGGCTCC ATCATGGTGG ATTTGGAGGG CTTGGAGTCT 
    GTGTGTTTAG AACAGGCCAC TGAGATTGTA AAGAAATTTG AGGACAAATT CAACATGTTA 
    ACAACGGATG CAATTTTCCT AGAAAACATT CAGAAGCTGC TGACGAACCT GCAAGTGAAA 
    ATCAAAGCCT TGGTTGTGAG CAGCAATTTT CAGACTCAGC AGATCAACTC CTCTCTGGAG 
    CAGCTCCAAC AGAAGACAGA TGCCTGCGCT CATCCCAATA TGGATAAGGA AACAGTCACA 
    GCTGAAGAAC TGTACTCCTT TGTGCAAATC CCCATGGGTC AGCTGGCAAA GAGAAGTCTC 
    TATCTGTCCT GCCTTCTAGA GCCCAGCCAA ATACTCTCTG AGACCCCACT GCAAGGCCCT 
    ATTGCAACGG CATCACGTTC GGACACCCCA CTCCGTCAAG ACGCGAAAGG AACCTTTACG 
    ACCCCCGACA ACCTTCTTAC TCCGAGCAGA GTGGGGAAGT TGGCTCTCGA TGATCCCGCT 
    GTGAGTGTCA TCAAGAACAT TACCAGAACA AAGCGGGTTA TGGATTCACA ACAGGACTCT 
    GACCGTGCAA GTAGCTATCA GCGGCCGGGC ACAGTCTCAC ATCAGGCTGC TGCCATAGCG 
    CCACATCCAC CATCGCAGTC GGGTAAACCT CATCTGAAGA AAAAGAAACC CCCATCAAGC 
    AATGGTGAAA ATCCTGGCCA GTCTGTTCAG GCTCCAAGTG TCCGGAAGCT TACAAAGCCC 
    AGCAGGTTTG ACAAGAAGTA CCAATTGTTT GGGGAGAACA GAGTCGAATC AGACAACTTC 
    AAGGGAATTC TCACCTGTAT ACTGTGGGAG AGCAATGACA CCTTACTGTA CCTGGCTGAG 
    GAGTTCTATA AGAAGAAGGA CAGGCGGAAC ATTGGCCGGA CAGATCTTCT TCAAGAGACG 
    TTTGAGGAGT GTGCAGATAC GCTGGTGTTT AAACTGCAGT CCTACGAGAA GCAGGCCCTG 
    GAGTATCAGA ACAACTGCCT GCTGGAGTTC CGGGAGCAGC TACAAACTTT CGAGAGGCTG 
    GTAAATGAGG TGCCGCCGCT GGTCATAGAG AGTCACCGGA GGCAACACCT GGACAAACTG 
    CTGGCGGCCA CTGACCAGAT ACGGAAGCAG TTTGCTGAGG ACCTGCAGCG CTGGGACCAA 
    GCCAAGGAGA CACTGAAGAG TGTGCTGAGG CCAAATTTAG GCCACCCAGA CAGCGAGCAG 
    GCCCTGGGGG AGCTGTGCCA GCAGGAGGAA CTAAGGCAGA GAGAGGAGGC AGAAGGGATT 
    GACTGCAACA CTAAACAATT ACAAGCGTGC GTCTCCGAGT GCACCCAGCA CTTCCTGATG 
    TCTCTGGCCT CCCTCACCGA GAGACTGCTG CTGGAACTCG ATGAGACACT TACAGTCGAT 
    GATGTTTTAG CAGCTGATGT TGAGATTCCC AAAGAAAAAC TGTCAACGCT GATCAGACGC 
    AAGCAGGCGG GGCTGCCGTT GGAAAGCACA GAGCACAAGC CACTGGTGGA GAGAGGCAGC 
    AGGGTCTGGC CAGGAATTGG AATTGTGGAT CCTACAGACC CTGAAGGGGA CAGTGCGCGC 
    CACATCAGCG CATCGGTCAC CACGGCCAAG ACCACAGTCG GCCACATCTC AGCGGTGCAG 
    GCTCGCGACT CCACTCGCTC GCGGTTCCTG CAGGACACAG AGGCGGTACT GACCCGTATC 
    CGGGAGGAGA GCCGGCAGCA GCACTTTGAT GCCCAGCGCT GGAGGGATTG GTGGTGCCAG 
    TCTGTACGCA ATATAAAAGC TCTGTATATG GGCTGA

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

    ccdc180 ( XM_031891405.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031747265.1 Xenopus tropicalis coiled-coil domain containing 180 (ccdc180), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OXa64704
    Clone ID Related Accession (Same CDS sequence) XM_031891405.1
    Accession Version XM_031891405.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4605bp)
    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 180 isoform X4
    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, 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
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGCTGAGGT TCAGCTTGTG CGGTCCCTCG GAGAGGCTCG TGCTAGAGCG GTGCAGCATG 
    GAGGTGCAGT GGACACTGGG AACATTCCTC CAATCAGAAG CCGGGATAAC AACACAGCAT 
    TGCCTGAGTC TCACCACCAG AGCACGTAGG GATAAAATGA CTCCACCTGC TAGGAAAAAG 
    CAGGAAAGTG AGGATGATAT TGCAGCAAGA GAAGTGAGAG GTCTTTCTGA TGTCATCGTT 
    CCAGAAAAGA AAGATACCGG CATTCTTGAG CGGATCGCTG CAAACAGACT GGAACGCCAT 
    GAAGTGGCAC TGTCCAACCT GCACAGGGAA CTGGCTGAGA TCAGCAAAGA GATGGAGCTA 
    TCAGTATTGG AAGTGGGGAA GCACCTGCAG CAAAAGATCT CGGAATCAGA TGCAAATATT 
    GAACTTTTGT TTCAGAAACT GGAAATCGGT AACGACAGCA CCACCACAAA GGAAATAAAT 
    GAGACTTGGG ATGCAGTGAC CCAGGAATCT GCCCGTACAA GGCAGTGCAT CAAAAGAACC 
    GAAAGCACTT TACTGGCGCT AGAAGAAAAC AGAGCGAAAC GAATTTCTGA AGTCTTAAAG 
    AAATACACGT CCCTCTTAAA GGACATCTGC CATCTCATGC CCTCCGACGT GGACAGATTT 
    ATTCATAATG AAGCCATGAT GATTAACCAG GCAATTTTAG CTAACCACCG AGCTCTGGCT 
    AGATTATCTG TAAACCTTCT GGAAGCCAAT CTGAAGAGGG AGAATACCCA GCGCTTCCAA 
    TGGCAGGACC TGAAGAAGGC CTGGGAGTGT TACCAGAGGG AGATCATAAT GAAGGAGTTC 
    AGGGTGTTTG CTGAGAAAGA AATGGAACAT ATACCCACAA GTGTGAAAGT ATTAGTGGAT 
    CAGCTGACCA CCCAACTCAG CTCTCTCAAA GAAAGGAGAC TTCAGATTCT GGGTTTAGCC 
    AGAAGTTTTG TACCTCCTAC TTGCACGAGA ACAGGTGTCA TGGAATGGTA TGAATCGTTG 
    GCAGCCCTGA ACAGTCAAGC TGAGTCCATC AACAAACAAT TCTTAGAGAA GCTTCAGGAG 
    CTGCGGGAGG AATTCTGCCA AAAATTTGAG GTGAAAGCAG AAAGCTGTAA AGAGCAGTTG 
    GTCAGTGTGG ATATTTGTAC CCCAGAGGAA GCTGAGGATA TAATAACCAA AGAACTCAGC 
    CCAGTGACGG CACAGATCCA CATGAAATTT AAGGAAGAGC AAGAGAAGTG GGAAAAACTG 
    CTGGTACATA GCTCTAAGTT AACGATCCTT CAGACCCAGA AGTTGCTGAA ATTCTTGGAA 
    GATGTTGTTG ATATTTGGCA AACGCTGGAA CGTGGCCTCT CCAAACAGGA AAATGCTGTG 
    CAGCTAAGGA TGGAGCAGTG TCGCTATAAA TATGATAGTG ACAGCAAGGC CAAGGAGGCA 
    AATTTGGACA AGATACTGGA CAGACTGAGA CAAGACAGCA CTAAGGAAAC ATTACGTAGC 
    ACATTGGGGA AAGCACTGGC GTCCTTGGAA ACCATAAAAG CAGGATACAA GACTTTTCAT 
    TTGGACCAAG TCGCTGTAAT TGATTCCTAC CCTGCCCTGG TGCTTGCAGA GTTGGCCTCC 
    TACAGCTGCG CTCTTAGCAA TTATTTTGGG GTCAAAGAGG TGTATGGGCA GGTGCAGAAG 
    AAGGATGGGG AGAACCCCAG CACCAGTATA ACAACGATTC CGGCAGATGG AGTGAGGTCT 
    CATTCTAGAG AGGGGATATC AGTAAACTCC GAATTTAATT CCTACAACTA TTCTGCAGTA 
    GAAAGTGTTT TGCTGGAAGG TGAATGGCTG GAAGGGCCAG GAGATGGAAC CCACAACACA 
    AGAGAAGACA CGGAAGTGCC TGGAATAGTA CAGTGTGATT CTACTATGGC ACCAGTGCAA 
    ACCCCTTATC GGGAGAGCAC CCAAGCAGCA GAGGGAGCTG GTGAGCAGAC ATCACAGGGA 
    GCCCAGATTC CATTTGAGCT CTTCACAACA TCTAAAGGGA ACACCTATAC TGCTTTGCGT 
    TTGGCATCAG AAGATGACAC GGCGGTGCCT GAGTTTCCAG GAGAACATTC CGACACAAAT 
    ATATTCATGA CGGAGGCGGT GCTGGACGAT TCCGTTCCCT TAAATCATGA CATAATGGTC 
    ATACCCGAGC AACAGTTGAT TGTTATTAGG AAAAGCGTCC GGCTTGGGTT CTTTGAGCAC 
    CTGGAGACCT GGTTCGGTGA GACCCTTTCC AGTGCCCAGG GTATCGTCAG TGCCAAGAAG 
    GAAGAGTTCA ATTCTGAGTT AGCGCTTCGC TATCACCTGC ACGAGCCAAG GAGCCAACGG 
    ATCGAGATGG ATATCCATAA CGTCAGAGCT GCCGAGCTGA TTCTGCACTC CGAGAGAGTG 
    GATCGTCACT GTGATGGGGT AAGCCATTCT CTGGAGCAGC TGAAGCGGGA GAGTTCCGTG 
    CTGATTGAGA ACATGAAGCA ACAGACTCTC GGATTCCGCA GCAAGATCCG GGCCATGGAG 
    AGCATGTTCC TCGGTGCCAA CAAGTCTGAT AAGCTTGTGG CCCTGACACA GTCTCTGCCG 
    TCCATTTTGG ACAGCCACGT AAGCGGGGTT CAGACTTCCA TGCGCAACTA CCGGCAGCAT 
    GTAGAGGAAA TGCTCGGAAC CCTGCGCGAC ACAAACTCGG ACTTCATCAA ATCATTCAGA 
    TTGTTCTCAG AGGGCGGAAA CTTTTCTCCC GATGAAGTGG AGGTGTTTCG CAAGAAGCTG 
    CATAAAGCGT CAGACACCAT CGCCTCTTTC GAGGGCTCCA TCATGGTGGA TTTGGAGGGC 
    TTGGAGTCTG TGTGTTTAGA ACAGGCCACT GAGATTGTAA AGAAATTTGA GGACAAATTC 
    AACATGTTAA CAACGGATGC AATTTTCCTA GAAAACATTC AGAAGCTGCT GACGAACCTG 
    CAAGTGAAAA TCAAAGCCTT GGTTGTGAGC AGCAATTTTC AGACTCAGCA GATCAACTCC 
    TCTCTGGAGC AGCTCCAACA GAAGACAGAT GCCTGCGCTC ATCCCAATAT GGATAAGGAA 
    ACAGTCACAG CTGAAGAACT GTACTCCTTT GTGCAAATCC CCATGGGTCA GCTGGCAAAG 
    AGAAGTCTCT ATCTGTCCTG CCTTCTAGAG CCCAGCCAAA TACTCTCTGA GACCCCACTG 
    CAAGGCCCTA TTGCAACGGC ATCACGTTCG GACACCCCAC TCCGTCAAGA CGCGAAAGGA 
    ACCTTTACGA CCCCCGACAA CCTTCTTACT CCGAGCAGAG TGGGGAAGTT GGCTCTCGAT 
    GATCCCGCTG TGAGTGTCAT CAAGAACATT ACCAGAACAA AGCGGGTTAT GGATTCACAA 
    CAGGACTCTG ACCGTGCAAG TAGCTATCAG CGGCCGGGCA CAGTCTCACA TCAGGCTGCT 
    GCCATAGCGC CACATCCACC ATCGCAGTCG GGTAAACCTC ATCTGAAGAA AAAGAAACCC 
    CCATCAAGCA ATGGTGAAAA TCCTGGCCAG TCTGTTCAGG CTCCAAGTGT CCGGAAGCTT 
    ACAAAGCCCA GCAGGTTTGA CAAGAAGTAC CAATTGTTTG GGGAGAACAG AGTCGAATCA 
    GACAACTTCA AGGGAATTCT CACCTGTATA CTGTGGGAGA GCAATGACAC CTTACTGTAC 
    CTGGCTGAGG AGTTCTATAA GAAGAAGGAC AGGCGGAACA TTGGCCGGAC AGATCTTCTT 
    CAAGAGACGT TTGAGGAGTG TGCAGATACG CTGGTGTTTA AACTGCAGTC CTACGAGAAG 
    CAGGCCCTGG AGTATCAGAA CAACTGCCTG CTGGAGTTCC GGGAGCAGCT ACAAACTTTC 
    GAGAGGCTGG TAAATGAGGT GCCGCCGCTG GTCATAGAGA GTCACCGGAG GCAACACCTG 
    GACAAACTGC TGGCGGCCAC TGACCAGATA CGGAAGCAGT TTGCTGAGGA CCTGCAGCGC 
    TGGGACCAAG CCAAGGAGAC ACTGAAGAGT GTGCTGAGGC CAAATTTAGG CCACCCAGAC 
    AGCGAGCAGG CCCTGGGGGA GCTGTGCCAG CAGGAGGAAC TAAGGCAGAG AGAGGAGGCA 
    GAAGGGATTG ACTGCAACAC TAAACAATTA CAAGCGTGCG TCTCCGAGTG CACCCAGCAC 
    TTCCTGATGT CTCTGGCCTC CCTCACCGAG AGACTGCTGC TGGAACTCGA TGAGACACTT 
    ACAGTCGATG ATGTTTTAGC AGCTGATGTT GAGATTCCCA AAGAAAAACT GTCAACGCTG 
    ATCAGACGCA AGCAGGCGGG GCTGCCGTTG GAAAGCACAG AGCACAAGCC ACTGGTGGAG 
    AGAGGCAGCA GGGTCTGGCC AGGAATTGGA ATTGTGGATC CTACAGACCC TGAAGGGGAC 
    AGTGCGCGCC ACATCAGCGC ATCGGTCACC ACGGCCAAGA CCACAGTCGG CCACATCTCA 
    GCGGTGCAGG CTCGCGACTC CACTCGCTCG CGGTTCCTGC AGGACACAGA GGCGGTACTG 
    ACCCGTATCC GGGAGGAGAG CCGGCAGCAG CACTTTGATG CCCAGCGCTG GAGGGATTGG 
    TGGTGCCAGT CTGTACGCAA TATAAAAGCT CTGTATATGG GCTGA

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

    RefSeq XP_031747265.1
    CDS241..4845
    Translation

    Target ORF information:

    RefSeq Version XM_031891405.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis coiled-coil domain containing 180 (ccdc180), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_031891405.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGCTGAGGT TCAGCTTGTG CGGTCCCTCG GAGAGGCTCG TGCTAGAGCG GTGCAGCATG 
    GAGGTGCAGT GGACACTGGG AACATTCCTC CAATCAGAAG CCGGGATAAC AACACAGCAT 
    TGCCTGAGTC TCACCACCAG AGCACGTAGG GATAAAATGA CTCCACCTGC TAGGAAAAAG 
    CAGGAAAGTG AGGATGATAT TGCAGCAAGA GAAGTGAGAG GTCTTTCTGA TGTCATCGTT 
    CCAGAAAAGA AAGATACCGG CATTCTTGAG CGGATCGCTG CAAACAGACT GGAACGCCAT 
    GAAGTGGCAC TGTCCAACCT GCACAGGGAA CTGGCTGAGA TCAGCAAAGA GATGGAGCTA 
    TCAGTATTGG AAGTGGGGAA GCACCTGCAG CAAAAGATCT CGGAATCAGA TGCAAATATT 
    GAACTTTTGT TTCAGAAACT GGAAATCGGT AACGACAGCA CCACCACAAA GGAAATAAAT 
    GAGACTTGGG ATGCAGTGAC CCAGGAATCT GCCCGTACAA GGCAGTGCAT CAAAAGAACC 
    GAAAGCACTT TACTGGCGCT AGAAGAAAAC AGAGCGAAAC GAATTTCTGA AGTCTTAAAG 
    AAATACACGT CCCTCTTAAA GGACATCTGC CATCTCATGC CCTCCGACGT GGACAGATTT 
    ATTCATAATG AAGCCATGAT GATTAACCAG GCAATTTTAG CTAACCACCG AGCTCTGGCT 
    AGATTATCTG TAAACCTTCT GGAAGCCAAT CTGAAGAGGG AGAATACCCA GCGCTTCCAA 
    TGGCAGGACC TGAAGAAGGC CTGGGAGTGT TACCAGAGGG AGATCATAAT GAAGGAGTTC 
    AGGGTGTTTG CTGAGAAAGA AATGGAACAT ATACCCACAA GTGTGAAAGT ATTAGTGGAT 
    CAGCTGACCA CCCAACTCAG CTCTCTCAAA GAAAGGAGAC TTCAGATTCT GGGTTTAGCC 
    AGAAGTTTTG TACCTCCTAC TTGCACGAGA ACAGGTGTCA TGGAATGGTA TGAATCGTTG 
    GCAGCCCTGA ACAGTCAAGC TGAGTCCATC AACAAACAAT TCTTAGAGAA GCTTCAGGAG 
    CTGCGGGAGG AATTCTGCCA AAAATTTGAG GTGAAAGCAG AAAGCTGTAA AGAGCAGTTG 
    GTCAGTGTGG ATATTTGTAC CCCAGAGGAA GCTGAGGATA TAATAACCAA AGAACTCAGC 
    CCAGTGACGG CACAGATCCA CATGAAATTT AAGGAAGAGC AAGAGAAGTG GGAAAAACTG 
    CTGGTACATA GCTCTAAGTT AACGATCCTT CAGACCCAGA AGTTGCTGAA ATTCTTGGAA 
    GATGTTGTTG ATATTTGGCA AACGCTGGAA CGTGGCCTCT CCAAACAGGA AAATGCTGTG 
    CAGCTAAGGA TGGAGCAGTG TCGCTATAAA TATGATAGTG ACAGCAAGGC CAAGGAGGCA 
    AATTTGGACA AGATACTGGA CAGACTGAGA CAAGACAGCA CTAAGGAAAC ATTACGTAGC 
    ACATTGGGGA AAGCACTGGC GTCCTTGGAA ACCATAAAAG CAGGATACAA GACTTTTCAT 
    TTGGACCAAG TCGCTGTAAT TGATTCCTAC CCTGCCCTGG TGCTTGCAGA GTTGGCCTCC 
    TACAGCTGCG CTCTTAGCAA TTATTTTGGG GTCAAAGAGG TGTATGGGCA GGTGCAGAAG 
    AAGGATGGGG AGAACCCCAG CACCAGTATA ACAACGATTC CGGCAGATGG AGTGAGGTCT 
    CATTCTAGAG AGGGGATATC AGTAAACTCC GAATTTAATT CCTACAACTA TTCTGCAGTA 
    GAAAGTGTTT TGCTGGAAGG TGAATGGCTG GAAGGGCCAG GAGATGGAAC CCACAACACA 
    AGAGAAGACA CGGAAGTGCC TGGAATAGTA CAGTGTGATT CTACTATGGC ACCAGTGCAA 
    ACCCCTTATC GGGAGAGCAC CCAAGCAGCA GAGGGAGCTG GTGAGCAGAC ATCACAGGGA 
    GCCCAGATTC CATTTGAGCT CTTCACAACA TCTAAAGGGA ACACCTATAC TGCTTTGCGT 
    TTGGCATCAG AAGATGACAC GGCGGTGCCT GAGTTTCCAG GAGAACATTC CGACACAAAT 
    ATATTCATGA CGGAGGCGGT GCTGGACGAT TCCGTTCCCT TAAATCATGA CATAATGGTC 
    ATACCCGAGC AACAGTTGAT TGTTATTAGG AAAAGCGTCC GGCTTGGGTT CTTTGAGCAC 
    CTGGAGACCT GGTTCGGTGA GACCCTTTCC AGTGCCCAGG GTATCGTCAG TGCCAAGAAG 
    GAAGAGTTCA ATTCTGAGTT AGCGCTTCGC TATCACCTGC ACGAGCCAAG GAGCCAACGG 
    ATCGAGATGG ATATCCATAA CGTCAGAGCT GCCGAGCTGA TTCTGCACTC CGAGAGAGTG 
    GATCGTCACT GTGATGGGGT AAGCCATTCT CTGGAGCAGC TGAAGCGGGA GAGTTCCGTG 
    CTGATTGAGA ACATGAAGCA ACAGACTCTC GGATTCCGCA GCAAGATCCG GGCCATGGAG 
    AGCATGTTCC TCGGTGCCAA CAAGTCTGAT AAGCTTGTGG CCCTGACACA GTCTCTGCCG 
    TCCATTTTGG ACAGCCACGT AAGCGGGGTT CAGACTTCCA TGCGCAACTA CCGGCAGCAT 
    GTAGAGGAAA TGCTCGGAAC CCTGCGCGAC ACAAACTCGG ACTTCATCAA ATCATTCAGA 
    TTGTTCTCAG AGGGCGGAAA CTTTTCTCCC GATGAAGTGG AGGTGTTTCG CAAGAAGCTG 
    CATAAAGCGT CAGACACCAT CGCCTCTTTC GAGGGCTCCA TCATGGTGGA TTTGGAGGGC 
    TTGGAGTCTG TGTGTTTAGA ACAGGCCACT GAGATTGTAA AGAAATTTGA GGACAAATTC 
    AACATGTTAA CAACGGATGC AATTTTCCTA GAAAACATTC AGAAGCTGCT GACGAACCTG 
    CAAGTGAAAA TCAAAGCCTT GGTTGTGAGC AGCAATTTTC AGACTCAGCA GATCAACTCC 
    TCTCTGGAGC AGCTCCAACA GAAGACAGAT GCCTGCGCTC ATCCCAATAT GGATAAGGAA 
    ACAGTCACAG CTGAAGAACT GTACTCCTTT GTGCAAATCC CCATGGGTCA GCTGGCAAAG 
    AGAAGTCTCT ATCTGTCCTG CCTTCTAGAG CCCAGCCAAA TACTCTCTGA GACCCCACTG 
    CAAGGCCCTA TTGCAACGGC ATCACGTTCG GACACCCCAC TCCGTCAAGA CGCGAAAGGA 
    ACCTTTACGA CCCCCGACAA CCTTCTTACT CCGAGCAGAG TGGGGAAGTT GGCTCTCGAT 
    GATCCCGCTG TGAGTGTCAT CAAGAACATT ACCAGAACAA AGCGGGTTAT GGATTCACAA 
    CAGGACTCTG ACCGTGCAAG TAGCTATCAG CGGCCGGGCA CAGTCTCACA TCAGGCTGCT 
    GCCATAGCGC CACATCCACC ATCGCAGTCG GGTAAACCTC ATCTGAAGAA AAAGAAACCC 
    CCATCAAGCA ATGGTGAAAA TCCTGGCCAG TCTGTTCAGG CTCCAAGTGT CCGGAAGCTT 
    ACAAAGCCCA GCAGGTTTGA CAAGAAGTAC CAATTGTTTG GGGAGAACAG AGTCGAATCA 
    GACAACTTCA AGGGAATTCT CACCTGTATA CTGTGGGAGA GCAATGACAC CTTACTGTAC 
    CTGGCTGAGG AGTTCTATAA GAAGAAGGAC AGGCGGAACA TTGGCCGGAC AGATCTTCTT 
    CAAGAGACGT TTGAGGAGTG TGCAGATACG CTGGTGTTTA AACTGCAGTC CTACGAGAAG 
    CAGGCCCTGG AGTATCAGAA CAACTGCCTG CTGGAGTTCC GGGAGCAGCT ACAAACTTTC 
    GAGAGGCTGG TAAATGAGGT GCCGCCGCTG GTCATAGAGA GTCACCGGAG GCAACACCTG 
    GACAAACTGC TGGCGGCCAC TGACCAGATA CGGAAGCAGT TTGCTGAGGA CCTGCAGCGC 
    TGGGACCAAG CCAAGGAGAC ACTGAAGAGT GTGCTGAGGC CAAATTTAGG CCACCCAGAC 
    AGCGAGCAGG CCCTGGGGGA GCTGTGCCAG CAGGAGGAAC TAAGGCAGAG AGAGGAGGCA 
    GAAGGGATTG ACTGCAACAC TAAACAATTA CAAGCGTGCG TCTCCGAGTG CACCCAGCAC 
    TTCCTGATGT CTCTGGCCTC CCTCACCGAG AGACTGCTGC TGGAACTCGA TGAGACACTT 
    ACAGTCGATG ATGTTTTAGC AGCTGATGTT GAGATTCCCA AAGAAAAACT GTCAACGCTG 
    ATCAGACGCA AGCAGGCGGG GCTGCCGTTG GAAAGCACAG AGCACAAGCC ACTGGTGGAG 
    AGAGGCAGCA GGGTCTGGCC AGGAATTGGA ATTGTGGATC CTACAGACCC TGAAGGGGAC 
    AGTGCGCGCC ACATCAGCGC ATCGGTCACC ACGGCCAAGA CCACAGTCGG CCACATCTCA 
    GCGGTGCAGG CTCGCGACTC CACTCGCTCG CGGTTCCTGC AGGACACAGA GGCGGTACTG 
    ACCCGTATCC GGGAGGAGAG CCGGCAGCAG CACTTTGATG CCCAGCGCTG GAGGGATTGG 
    TGGTGCCAGT CTGTACGCAA TATAAAAGCT CTGTATATGG GCTGA

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

    ccdc180 ( XM_012968714.2 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_012824168.1 Xenopus tropicalis coiled-coil domain containing 180 (ccdc180), mRNA.
    Price & Availability↑
    CloneID OXa35406
    Clone ID Related Accession (Same CDS sequence) XM_012968714.2
    Accession Version XM_012968714.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4197bp)
    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 180
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_016683403.1) 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_012968714.1. ##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## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGGCAGCAG TGGGACAGAT CCAGGCAGTT CCTAGTGGAA GAGTCTACAG GCAACTTTTT 
    GATGCTGAGG TTCAGCTTGT GCGGTCCCTC GGAGAGGCTC GTGCTAGAGC GGTGCAGCAT 
    GGAGGTGCAG TGGACACTGG GAACATTCCT CCAATCAGAA GCCGGGATAA CAACACAGCA 
    TTGCCTGAGT CTCACCACCA GAGCACGGAT AAAATGACTC CACCTGCTAG GAAAAAGCAG 
    GAAAGTGAGG ATGATATTGC AGCAAGAGAA GTGAGAGGTC TTTCTGATGT CATCGTTCCA 
    GAAAAGAAAG ATACCGGCAT TCTTGAGCGG ATCGCTGCAA ACAGACTGGA ACGCCATGAA 
    GTGGCACTGT CCAACCTGCA CAGGGAACTG GCTGAGATCA GCAAAGAGAT GGAGCTATCA 
    GTATTGGAAG TGGGGAAGCA CCTGCAGCAA AAGATCTCGG AATCAGATGC AAATATTGAA 
    CTTTTGTTTC AGAAACTGGA AATCGGTAAC GACAGCACCA CCACAAAGGA AATAAATGAG 
    ACTTGGGATG CAGTGACCCA GGAATCTGCC CGTACAAGGC AGTGCATCAA AAGAACCGAA 
    AGCACTTTAC TGGCGCTAGA AGAAAACAGA GCGAAACGAA TTTCTGAAGT CTTAAAGAAA 
    TACACGTCCC TCTTAAAGGA CATCTGCCAT CTCATGCCCT CCGACGTGGA CAGATTTATT 
    CATAATGAAG CCATGATGAT TAACCAGGCA ATTTTAGCTA ACCACCGAGC TCTGGCTAGA 
    TTATCTGTAA ACCTTCTGGA AGCCAATCTG AAGAGGGAGA ATACCCAGCG CTTCCAATGG 
    CAGGACCTGA AGAAGGCCTG GGAGTGTTAC CAGAGGGAGA TCATAATGAA GGAGTTCAGG 
    GTGTTTGCTG AGAAAGAAAT GGAACATATA CCCACAAGTG TGAAAGTATT AGTGGATCAG 
    CTGACCACCC AACTCAGCTC TCTCAAAGAA AGGAGACTTC AGATTCTGGG TTTAGCCAGA 
    AGTTTTGTAC CTCCTACTTG CACGAGAACA GGTGTCATGG AATGGTATGA ATCGTTGGCA 
    GCCCTGAACA GTCAAGCTGA GTCCATCAAC AAACAATTCT TAGAGAAGCT TCAGGAGCTG 
    CGGGAGGAAT TCTGCCAAAA ATTTGAGGTG AAAGCAGAAA GCTGTAAAGA GCAGTTGGTC 
    AGTGTGGATA TTTGTACCCC AGAGGAAGCT GAGGATATAA TAACCAAAGA ACTCAGCCCA 
    GTGACGGCAC AGATCCACAT GAAATTTAAG GAAGAGCAAG AGAAGTGGGA AAAACTGCTG 
    GTACATAGCT CTAAGTTAAC GATCCTTCAG ACCCAGAAGT TGCTGAAATT CTTGGAAGAT 
    GTTGTTGATA TTTGGCAAAC GCTGGAACGT GGCCTCTCCA AACAGGAAAA TGCTGTGCAG 
    CTAAGGATGG AGCAGTGTCG CTATAAATAT GATAGTGACA GCAAGGCCAA GGAGGCAAAT 
    TTGGACAAGA TACTGGACAG ACTGAGACAA GACAGCACTA AGGAAACATT ACGTAGCACA 
    TTGGGGAAAG CACTGGCGTC CTTGGAAACC ATAAAAGCAG GATACAAGAC TTTTCATTTG 
    GACCAAGTCG CTGTAATTGA TTCCTACCCT GCCCTGGTGC TTGCAGAGTT GGCCTCCTAC 
    AGCTGCGCTC TTAGCAATTA TTTTGGGGTC AAAGAGGTGT ATGGGCAGGT GCAGAAGAAG 
    GATGGGGAGA ACCCCAGCAC CAGTATAACA ACGATTCCGG CAGATGGAGT GAGGTCTCAT 
    TCTAGAGAGG GGATATCAGT AAACTCCGAA TTTAATTCCT ACAACTATTC TGCAGTAGAA 
    AGTGTTTTGC TGGAAGGTGA ATGGCTGGAA GGGCCAGGAG ATGGAACCCA CAACACAAGA 
    GAAGACACGG AAGTGCCTGG AATAGTACAG TGTGATTCTA CTATGGCACC AGTGCAAACC 
    CCTTATCGGG AGAGCACCCA AGCAGCAGAG GGAGCTGGTG AGCAGACATC ACAGGGAGCC 
    CAGATTCCAT TTGAGCTCTT CACAACATCT AAAGGGAACA CCTATACTGC TTTGCGTTTG 
    GCATCAGAAG ATGACACGGC GGTGCCTGAG TTTCCAGGAG AACATTCCGA CACAAATATA 
    TTCATGACGG AGGCGGTGCT GGACGATTCC GTTCCCTTAA ATCATGACAT AATGGTCATA 
    CCCGAGCAAC AGTTGATTGT TATTAGGAAA AGCGTCCGGC TTGGGTTCTT TGAGCACCTG 
    GAGACCTGGT TCGGTGAGAC CCTTTCCAGT GCCCAGGGTA TCGTCAGTGC CAAGAAGGAA 
    GAGTTCAATT CTGAGTTAGC GCTTCGCTAT CACCTGCACG AGCCAAGGAG CCAACGGATC 
    GAGATGGATA TCCATAACGT CAGAGCTGCC GAGCTGATTC TGCACTCCGA GAGAGTGGAT 
    CGTCACTGTG ATGGGGTAAG CCATTCTCTG GAGCAGCTGA AGCGGGAGAG TTCCGTGCTG 
    ATTGAGAACA TGAAGCAACA GACTCTCGGA TTCCGCAGCA AGATCCGGGC CATGGAGAGC 
    ATGTTCCTCG GTGCCAACAA GTCTGATAAG CTTGTGGCCC TGACACAGTC TCTGCCGTCC 
    ATTTTGGACA GCCACGTAAG CGGGGTTCAG ACTTCCATGC GCAACTACCG GCAGCATGTA 
    GAGGAAATGC TCGGAACCCT GCGCGACACA AACTCGGACT TCATCAAATC ATTCAGATTG 
    TTCTCAGAGG GCGGAAACTT TTCTCCCGAT GAAGTGGAGG TGTTTCGCAA GAAGCTGCAT 
    AAAGCGTCAG ACACCATCGC CTCTTTCGAG GGCTCCATCA TGGTGGATTT GGAGGGCTTG 
    GAGTCTGTGT GTTTAGAACA GGCCACTGAG ATTGTAAAGA AATTTGAGGA CAAATTCAAC 
    ATGTTAACAA CGGATGCAAT TTTCCTAGAA AACATTCAGA AGCTGCTGAC GAACCTGCAA 
    GTGAAAATCA AAGCCTTGGT TGTGAGCAGC AATTTTCAGA CTCAGCAGAT CAACTCCTCT 
    CTGGAGCAGC TCCAACAGAA GACAGATGCC TGCGCTCATC CCAATATGGA TAAGGAAACA 
    GTCACAGCTG AAGAACTGTA CTCCTTTGTG CAAATCCCCA TGGGTCAGCT GGCAAAGAGA 
    AGTCTCTATC TGTCCTGCCT TCTAGAGCCC AGCCAAATAC TCTCTGAGAC CCCACTGCAA 
    GGCCCTATTG CAACGGCATC ACGTTCGGAC ACCCCACTCC GTCAAGACGC GAAAGGAACC 
    TTTACGACCC CCGACAACCT TCTTACTCCG AGCAGAGTGG GGAAGTTGGC TCTCGATGAT 
    CCCGCTGTGA GTGTCATCAA GAACATTACC AGAACAAAGC GGGTTATGGA TTCACAACAG 
    GACTCTGACC GTGCAAGTAG CTATCAGCGG CCGGGCACAG TCTCACATCA GGCTGCTGCC 
    ATAGCGCCAC ATCCACCATC GCAGTCGGGT AAACCTCATC TGAAGAAAAA GAAACCCCCA 
    TCAAGCAATG GTGAAAATCC TGGCCAGTCT GTTCAGGCTC CAAGTGTCCG GAAGCTTACA 
    AAGCCCAGCA GGTTTGACAA GAAGTACCAA TTGTTTGGGG AGAACAGAGT CGAATCAGAC 
    AACTTCAAGG GAATTCTCAC CTGTATACTG TGGGAGAGCA ATGACACCTT ACTGTACCTG 
    GCTGAGGAGT TCTATAAGAA GAAGGACAGG CGGAACATTG GCCGGACAGA TCTTCTTCAA 
    GAGACGTTTG AGGAGTGTGC AGATACGCTG GTGTTTAAAC TGCAGTCCTA CGAGAAGCAG 
    GCCCTGGAGT ATCAGAACAA CTGCCTGCTG GAGTTCCGGG AGCAGCTACA AACTTTCGAG 
    AGGCTGGTAA ATGAGGTGCC GCCGCTGGTC ATAGAGAGTC ACCGGAGGCA ACACCTGGAC 
    AAACTGCTGG CGGCCACTGA CCAGATACGG AAGCAGTTTG CTGAGGACCT GCAGCGCTGG 
    GACCAAGCCA AGGAGACACT GAAGAGTGTG CTGAGGCCAA ATTTAGGCCA CCCAGACAGC 
    GAGCAGGCCC TGGGGGAGCT GTGCCAGCAG GAGGAACTAA GGCAGAGAGA GGAGGCAGAA 
    GGGATTGACT GCAACACTAA ACAATTACAA GCGTGCGTCT CCGAGGGAAT GGGATAG

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

    RefSeq XP_012824168.1
    CDS168..4364
    Translation

    Target ORF information:

    RefSeq Version XM_012968714.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis coiled-coil domain containing 180 (ccdc180), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_012968714.2

    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
    ATGGCAGCAG TGGGACAGAT CCAGGCAGTT CCTAGTGGAA GAGTCTACAG GCAACTTTTT 
    GATGCTGAGG TTCAGCTTGT GCGGTCCCTC GGAGAGGCTC GTGCTAGAGC GGTGCAGCAT 
    GGAGGTGCAG TGGACACTGG GAACATTCCT CCAATCAGAA GCCGGGATAA CAACACAGCA 
    TTGCCTGAGT CTCACCACCA GAGCACGGAT AAAATGACTC CACCTGCTAG GAAAAAGCAG 
    GAAAGTGAGG ATGATATTGC AGCAAGAGAA GTGAGAGGTC TTTCTGATGT CATCGTTCCA 
    GAAAAGAAAG ATACCGGCAT TCTTGAGCGG ATCGCTGCAA ACAGACTGGA ACGCCATGAA 
    GTGGCACTGT CCAACCTGCA CAGGGAACTG GCTGAGATCA GCAAAGAGAT GGAGCTATCA 
    GTATTGGAAG TGGGGAAGCA CCTGCAGCAA AAGATCTCGG AATCAGATGC AAATATTGAA 
    CTTTTGTTTC AGAAACTGGA AATCGGTAAC GACAGCACCA CCACAAAGGA AATAAATGAG 
    ACTTGGGATG CAGTGACCCA GGAATCTGCC CGTACAAGGC AGTGCATCAA AAGAACCGAA 
    AGCACTTTAC TGGCGCTAGA AGAAAACAGA GCGAAACGAA TTTCTGAAGT CTTAAAGAAA 
    TACACGTCCC TCTTAAAGGA CATCTGCCAT CTCATGCCCT CCGACGTGGA CAGATTTATT 
    CATAATGAAG CCATGATGAT TAACCAGGCA ATTTTAGCTA ACCACCGAGC TCTGGCTAGA 
    TTATCTGTAA ACCTTCTGGA AGCCAATCTG AAGAGGGAGA ATACCCAGCG CTTCCAATGG 
    CAGGACCTGA AGAAGGCCTG GGAGTGTTAC CAGAGGGAGA TCATAATGAA GGAGTTCAGG 
    GTGTTTGCTG AGAAAGAAAT GGAACATATA CCCACAAGTG TGAAAGTATT AGTGGATCAG 
    CTGACCACCC AACTCAGCTC TCTCAAAGAA AGGAGACTTC AGATTCTGGG TTTAGCCAGA 
    AGTTTTGTAC CTCCTACTTG CACGAGAACA GGTGTCATGG AATGGTATGA ATCGTTGGCA 
    GCCCTGAACA GTCAAGCTGA GTCCATCAAC AAACAATTCT TAGAGAAGCT TCAGGAGCTG 
    CGGGAGGAAT TCTGCCAAAA ATTTGAGGTG AAAGCAGAAA GCTGTAAAGA GCAGTTGGTC 
    AGTGTGGATA TTTGTACCCC AGAGGAAGCT GAGGATATAA TAACCAAAGA ACTCAGCCCA 
    GTGACGGCAC AGATCCACAT GAAATTTAAG GAAGAGCAAG AGAAGTGGGA AAAACTGCTG 
    GTACATAGCT CTAAGTTAAC GATCCTTCAG ACCCAGAAGT TGCTGAAATT CTTGGAAGAT 
    GTTGTTGATA TTTGGCAAAC GCTGGAACGT GGCCTCTCCA AACAGGAAAA TGCTGTGCAG 
    CTAAGGATGG AGCAGTGTCG CTATAAATAT GATAGTGACA GCAAGGCCAA GGAGGCAAAT 
    TTGGACAAGA TACTGGACAG ACTGAGACAA GACAGCACTA AGGAAACATT ACGTAGCACA 
    TTGGGGAAAG CACTGGCGTC CTTGGAAACC ATAAAAGCAG GATACAAGAC TTTTCATTTG 
    GACCAAGTCG CTGTAATTGA TTCCTACCCT GCCCTGGTGC TTGCAGAGTT GGCCTCCTAC 
    AGCTGCGCTC TTAGCAATTA TTTTGGGGTC AAAGAGGTGT ATGGGCAGGT GCAGAAGAAG 
    GATGGGGAGA ACCCCAGCAC CAGTATAACA ACGATTCCGG CAGATGGAGT GAGGTCTCAT 
    TCTAGAGAGG GGATATCAGT AAACTCCGAA TTTAATTCCT ACAACTATTC TGCAGTAGAA 
    AGTGTTTTGC TGGAAGGTGA ATGGCTGGAA GGGCCAGGAG ATGGAACCCA CAACACAAGA 
    GAAGACACGG AAGTGCCTGG AATAGTACAG TGTGATTCTA CTATGGCACC AGTGCAAACC 
    CCTTATCGGG AGAGCACCCA AGCAGCAGAG GGAGCTGGTG AGCAGACATC ACAGGGAGCC 
    CAGATTCCAT TTGAGCTCTT CACAACATCT AAAGGGAACA CCTATACTGC TTTGCGTTTG 
    GCATCAGAAG ATGACACGGC GGTGCCTGAG TTTCCAGGAG AACATTCCGA CACAAATATA 
    TTCATGACGG AGGCGGTGCT GGACGATTCC GTTCCCTTAA ATCATGACAT AATGGTCATA 
    CCCGAGCAAC AGTTGATTGT TATTAGGAAA AGCGTCCGGC TTGGGTTCTT TGAGCACCTG 
    GAGACCTGGT TCGGTGAGAC CCTTTCCAGT GCCCAGGGTA TCGTCAGTGC CAAGAAGGAA 
    GAGTTCAATT CTGAGTTAGC GCTTCGCTAT CACCTGCACG AGCCAAGGAG CCAACGGATC 
    GAGATGGATA TCCATAACGT CAGAGCTGCC GAGCTGATTC TGCACTCCGA GAGAGTGGAT 
    CGTCACTGTG ATGGGGTAAG CCATTCTCTG GAGCAGCTGA AGCGGGAGAG TTCCGTGCTG 
    ATTGAGAACA TGAAGCAACA GACTCTCGGA TTCCGCAGCA AGATCCGGGC CATGGAGAGC 
    ATGTTCCTCG GTGCCAACAA GTCTGATAAG CTTGTGGCCC TGACACAGTC TCTGCCGTCC 
    ATTTTGGACA GCCACGTAAG CGGGGTTCAG ACTTCCATGC GCAACTACCG GCAGCATGTA 
    GAGGAAATGC TCGGAACCCT GCGCGACACA AACTCGGACT TCATCAAATC ATTCAGATTG 
    TTCTCAGAGG GCGGAAACTT TTCTCCCGAT GAAGTGGAGG TGTTTCGCAA GAAGCTGCAT 
    AAAGCGTCAG ACACCATCGC CTCTTTCGAG GGCTCCATCA TGGTGGATTT GGAGGGCTTG 
    GAGTCTGTGT GTTTAGAACA GGCCACTGAG ATTGTAAAGA AATTTGAGGA CAAATTCAAC 
    ATGTTAACAA CGGATGCAAT TTTCCTAGAA AACATTCAGA AGCTGCTGAC GAACCTGCAA 
    GTGAAAATCA AAGCCTTGGT TGTGAGCAGC AATTTTCAGA CTCAGCAGAT CAACTCCTCT 
    CTGGAGCAGC TCCAACAGAA GACAGATGCC TGCGCTCATC CCAATATGGA TAAGGAAACA 
    GTCACAGCTG AAGAACTGTA CTCCTTTGTG CAAATCCCCA TGGGTCAGCT GGCAAAGAGA 
    AGTCTCTATC TGTCCTGCCT TCTAGAGCCC AGCCAAATAC TCTCTGAGAC CCCACTGCAA 
    GGCCCTATTG CAACGGCATC ACGTTCGGAC ACCCCACTCC GTCAAGACGC GAAAGGAACC 
    TTTACGACCC CCGACAACCT TCTTACTCCG AGCAGAGTGG GGAAGTTGGC TCTCGATGAT 
    CCCGCTGTGA GTGTCATCAA GAACATTACC AGAACAAAGC GGGTTATGGA TTCACAACAG 
    GACTCTGACC GTGCAAGTAG CTATCAGCGG CCGGGCACAG TCTCACATCA GGCTGCTGCC 
    ATAGCGCCAC ATCCACCATC GCAGTCGGGT AAACCTCATC TGAAGAAAAA GAAACCCCCA 
    TCAAGCAATG GTGAAAATCC TGGCCAGTCT GTTCAGGCTC CAAGTGTCCG GAAGCTTACA 
    AAGCCCAGCA GGTTTGACAA GAAGTACCAA TTGTTTGGGG AGAACAGAGT CGAATCAGAC 
    AACTTCAAGG GAATTCTCAC CTGTATACTG TGGGAGAGCA ATGACACCTT ACTGTACCTG 
    GCTGAGGAGT TCTATAAGAA GAAGGACAGG CGGAACATTG GCCGGACAGA TCTTCTTCAA 
    GAGACGTTTG AGGAGTGTGC AGATACGCTG GTGTTTAAAC TGCAGTCCTA CGAGAAGCAG 
    GCCCTGGAGT ATCAGAACAA CTGCCTGCTG GAGTTCCGGG AGCAGCTACA AACTTTCGAG 
    AGGCTGGTAA ATGAGGTGCC GCCGCTGGTC ATAGAGAGTC ACCGGAGGCA ACACCTGGAC 
    AAACTGCTGG CGGCCACTGA CCAGATACGG AAGCAGTTTG CTGAGGACCT GCAGCGCTGG 
    GACCAAGCCA AGGAGACACT GAAGAGTGTG CTGAGGCCAA ATTTAGGCCA CCCAGACAGC 
    GAGCAGGCCC TGGGGGAGCT GTGCCAGCAG GAGGAACTAA GGCAGAGAGA GGAGGCAGAA 
    GGGATTGACT GCAACACTAA ACAATTACAA GCGTGCGTCT CCGAGGGAAT GGGATAG

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

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