ORF » Species Summary » Fukomys damarensis » Rb1cc1 cDNA ORF clone

Rb1cc1 cDNA ORF clone, Fukomys damarensis(Damara mole-rat)

The following Rb1cc1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Rb1cc1 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
OFu79770 XM_010605534.2
Latest version!		 Fukomys damarensis RB1 inducible coiled-coil 1 (Rb1cc1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OFu79771 XM_010605536.2
Latest version!		 Fukomys damarensis RB1 inducible coiled-coil 1 (Rb1cc1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OFu79772 XM_010605537.2
Latest version!		 Fukomys damarensis RB1 inducible coiled-coil 1 (Rb1cc1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00

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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)
    Rb1cc1 ( XM_010605534.2 ) cDNA ORF clone, Fukomys damarensis(Damara mole-rat) -> XP_010603836.1 Fukomys damarensis RB1 inducible coiled-coil 1 (Rb1cc1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OFu79770
    Clone ID Related Accession (Same CDS sequence) XM_010605534.2
    Accession Version XM_010605534.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4779bp)
    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 2016-11-23
    Organism Fukomys damarensis(Damara mole-rat)
    Product RB1-inducible coiled-coil protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_011046444.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Nov 24, 2016 this sequence version replaced XM_010605534.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Fukomys damarensis Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGAAGTTAT ATGTATTTCT GGTTAACACT GGAACTACTC TAACATTTGA CACTGAACTT 
    ACAGTGCAAA CTGTGGCTGA CCTTAAACAT GCCATTCAAA GCAAATACAA GATTGCTATT 
    CAGCATCAGG TGCTGGTGGT CAACGGAGGA GAATGCATGG CTGCAGATCG AAGAGTGTGC 
    ACCTATAGCG CTGGGACGGA CACAAACCCA ATTTTTCTTT TTAACAAAGA AATGATCTTA 
    TGTGATCGTG CACCTGCTAT TCCTAAAACT ACATTTTCAA CAGAAAACGA CATGGAAATA 
    AAAGTTGAAG AATCTCTTAT GATGCCTGCA GTTTTTCACA CTGTTGCTTC AAGGACACAA 
    CTTGCTGTGG AAATGTATGA AGTTGCCAAG AAACTTTGTT CTTTTTGTGA AGGTCTTGTC 
    CATGATGAAC ATCTTCAACA CCAAGGCTGG GCTGCAATTA TGGCCAATCT GGAGGACTGT 
    TCAAATTCAT ACCAAAAGCT ACTTTTCAAG TTTGAAAGTA TTTATTCAAA TTATCTGCAA 
    TCCATAGAAG ACATCAAGTT AAAACTTACT CATTTAGGAA CTGCGGTTTC AGTAATGGCC 
    AAGATTCCAT TGTTGGAGTG CCTAACCAGA CATAGTTACA GGGAATGTTT GGAAAGACTG 
    GATTCTTTAA GTGAACATGA AGGCTCTGAA AAGGCTGAGA TGAAACAATC CACTGAACTG 
    GTGCTCTCTC CTGATATGCC TAGAACAACT AATACATCCT TGTTAACCTC ATTTCACAAG 
    TCAGTGGAAC ATGTAGCCCC AGATACAGAT GCTGAGAGTG GCAAAGAAAT TAGAGAATCT 
    GGTCAAAGTA CTGTACAGCA AGATGAAACT TCAGTAGATG CTAAAGACAG TGAACTGCCT 
    TTTTTTAATG TTTCTTTGTT AGACTGGATA AATGTTCAAG ATAGACCTAA TGATGTGGAA 
    TCTTTGGTCA GAAAGTGCTT TGATTCTATG AGCAGGCTTG ATCCAAAGAT TATCAGACCA 
    TTTATAGTAG AATGCCATCA AACTATTGCC AAACTTGATA ATCAGAATAT GAAAGCCATT 
    AAAGGGCTTG AAGATCGTCT ATATGCCCTG GACCAGATGA TTGCCAGCTG TGGCCGGCTG 
    GTGAACGAAC AGAAAGAGCT CGCTCAGGGA TTTTTAGCTA ATCAGATGAG AGCTGAGAAT 
    TTGAAGGATG CATCTGTATT ACCTGATTTG TGCCTGAGTC ATGCAAACCA GTTGATGATT 
    ATGTTGCAAA ACCATAGAAA ATTATTGGAT ATTAAACAAA AGTGTACCAC TGCCAAACAA 
    GAACTAGCAA ATAATCTACA TGTCAGATTG AAGTGGTGTT GCTTTGTGAT GCTTCATGCT 
    GATCAAGATG GAGAAAAATT GCAAGCTTTG CTCCGCCTTG TGATAGAGCT GTTAGAAAGA 
    GTCAAAATTG TTGAAGCCCT TAGTACTGTT CCTCAGATGT ATTGCTTAGC TGTTGTTGAG 
    GTTGTAAGGA GAAAAATGTT CATTAAACAC TACAGGGAGT GGGCTGGTGC TTTAGTCAAA 
    GATGGAAAGC GATTGTATGA AGCTGAAAAG TCTAAAAGGG AATCCTTTGG GAAAGTATTT 
    AGGAAGTCCT TTTTAAGAAA TCGCCTATTT AGAGGACTGG ACTCCTGGCC ACCTTCCTTT 
    TGTACTCAGA AGCCTCGAAA GTTTGACTGT GAACTTCCGG ATATTTCATT AAAAGATTTA 
    CAGTTTCTGC AATCATTTTG TCCTTCTGAA GTTCAGCCAT TTCTCAGGGT TCCTTTACTT 
    TGTGACTTTG AACCTCTACA CCAGCATGTA CTTGCCCTAC ATAACTTGGT AAAAGCAGCA 
    CAAAGTTTGG ATGAAATGTC ACAGACCATT ACAGATCTCC TGAATGAACA AAAGGCATCT 
    GTGAGTCAAG CATCCCCTCA GTCGGCTTCT TCCCCACGGA CAGAAAGTGC AGCAGGAATT 
    ACAACTACTA CCTCACCGAG AACTCCCCCT CCACTCACTG TTCAGGGTCC CTTGTGTCCT 
    GCAGTTTGTC CCTTAGAAGA ATTATCTCCA GATAGCATTG ATGCACATAC ATTTGATTTT 
    GAAACTATAC CCCATCCAAA CATTGAACAA ACTATTCACC AAGTTTCTTT AGACTTAGAT 
    TCATTAGCAG AAAGTCCTGA GTCAGATTTT ATGTCTGCTG TGAATGAGTT TGTGATAGAA 
    GAAAACTTAT CATCTCCTAA TCCTATAAGT GATCCCCAGA GTCCAGAAAT GATGGTGGAA 
    TCACTCTATT CATCGGTTAT CAATGCGATA GATAGTAGAC GTATGCAAGA TACAAATATA 
    TGTGGTAAAG AGGATTTTGG AGATCGTGCT TCTCTGAATG TCCAGTTGGA AAAATGTAGA 
    GTTGTTGCCC AAGATTTTCA TTTTAGTATA CAAACCATTA AGGAAGATCT TTGCCATTTC 
    AAAACATTTG TACAAAAAGA ACAGTGTGAC TTCTCAAATT CTTTAAAATG TACAGCAATA 
    GAAATAAGAA ATATTATTGA AAAAGTAAAA TGTTCCCTGG AAATAACACT AAAAGAAAAG 
    CATCAAAAAG AACTACAGTC TTTGAAAACT GAATATGAAG GTAAAGTCAA TGCATTAATT 
    AAGGAGAGTG AAGAAAATGA AAACAAAATT AAAAAATTGG AAGGAGACTT GGTATATCTT 
    GAGGAAGTTT TACAAAATAA AGATAGTGAA TTTGCTTTGG TTAAACATGA AAAAGAAGCT 
    GTCATCTGCC TGCAGAATGA AAAGGATCAG AAATTGTTGG AAATGGAAAA TATAATGCAC 
    ACTCAAAATT GTGAAATAAA CGAATTGAAA CAGTCAAGAG AAGTTGTGTT AGAAGATTTA 
    AAAAAGCTCC ATGTTGAAAA TGATGAGAAA ATTGAGTTAT TGAGGGCAGA ACTTCAGTGC 
    TTAGAGCAAA GCCACCTAAA AGAATTAGAA GACACATTGC ACGTCAGGCA CACACAGGAG 
    TTTGACAAAG TTATGACAGA CCACAAAATT TCTTTGGAGA AATTAAAACA GGAAAATCAA 
    CAAAGAATTG ATCAACTACA AGACTCTCAT GCCATAGCTA TCCATGAAAA AGAACAGCAG 
    CTGCAGGAAT TAAAACTCAA GGTTTCTGAT TTGTCAGACA TGAGATGTAA GTTGGAGGTT 
    GAGCTTGCAC TGAAGGAAGC AGAAACTGAT GAAATAAAAA TGTTGCTGGA AGAAAGCAGA 
    ATGCAGCAGA AAGAAACATT AGAATGTCTT CTTGAAAAAG AAACAGAAAA CTTGAGAACA 
    GAGATAAGTC AGTTAAACCA GAAGATTCAC AATAATAATG AAAATTATCA GGTGGGCTTA 
    GCAGAGCTAA GAACTTTAAT GACAATTGAA AAGGATCAAT GCATTTCAGA GTTAATTAGT 
    AGACACGAAG AAGAATCTGG CATACTTAAA GCTGAATTAG ATAAAGTAAC ATCTTTGCAT 
    CACCAAGCAT TTGAAATAGA AAAAAACCTA AAAGAACAAG TACTTGAACT GCAGAATAAA 
    TTGGATTCAG AATTGTGTGT TCTTGAAAAA CAAAAAGATG AAAAAATCAC CCAACAAGAA 
    GAGAAATATG AAGTCATTAT ACAGAACCTT GAGAAAGACC AAGAGAGATT GGTTATGAGC 
    CATGAACAAG AGAGAGAACA GTTAATTCAG AAGCTTAATT GTGAAAAAGA TGAAGCTATT 
    CAGACTGCCC TAAAAGAATT TAAATTGGAG AGAGAAGTTG TTGAGAAAGA GTTATTAGAA 
    AAAATTAAAC ATCTTGAAAA TCAAATAGCA AAAAGTCCTG TCATTGAATC TACCAGAGAA 
    GATTCTTCAA GCTTAGTTGC TGAGCTTCAA GAAAAGCTTC AGGAAGAAAA AGCTAAGTTT 
    CTGGAACAAC TTGAAGAGCA AGAGAAGAGA AAAAATGAAG AAATGCAAAA TGTTCGAACA 
    TCTTTGATTG CTGAACAACA GACCAATTTT AATACTGTTT TAACAAGAGA GAAAATGAGA 
    AAAGAAAACA TAATAAATGA TCTTAGTGAT AAGTTGAAGA GTACAATGCA ACAACAAGAG 
    CGGGATAAAG ACTTGATAGA ATCACTTTCT GAAGATAGAG CTCGTTTGCT TGAGGAAAAG 
    AAAAAGCTTG AAGAGGAAGT CAGTAAGTTG CGTAGCAGCA CTTTTGTTCC TTCACCATAT 
    GTAGCTGCAG CCCCAGAACT TTATGGAGCA TGTGCACCTG GATCCCCAGG TGAAGCAGAT 
    CGATCAACCT TGGAGACAGC AGATGAAGGA AGAGTGGATT CAGCAATGGA GACAAGCATG 
    ATGTCTGTCC AGGAAAATGT CCATATGCTT TCTGAAGAAA AACAGAGGAT AATGCTCTTA 
    GAAAGAACAT TGCAGTTGAA AGAGGAAGAA AATAAGCGGT TAAATCAACG ACTGATGTCT 
    CAGAGCATGT CTTCTGTATC TTCAAGGCAT TCTGAAAAGA TAGCGATTAG AGATTTTCAG 
    GTGGGAGATT TGGTACTCAT CATCCTAGAT GAACGCCACG ACAATTATGT ATTATTTACT 
    GTTAGTCCTA CTTTATATTT TTTGCACTCA GAATCTCTGC CTGCCCTGGA TCTCAAACCA 
    GGTGAGGGTG CTTCAGGTGC ATCTAGAAGA CCCTGGGTAC TTGGAAAAGT AATGGAAAAG 
    GAATACTGTC AAGCCAAAAA GGCACAAAAC AGATTTAAAG TTCCTTTGGG GACAAAGTTT 
    TACAGAGTGA AAGCTGTGTC ATGGAATAAG AAAGTATAA

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

    RefSeq XP_010603836.1
    CDS236..5014
    Translation

    Target ORF information:

    RefSeq Version XM_010605534.2
    Organism Fukomys damarensis(Damara mole-rat)
    Definition Fukomys damarensis RB1 inducible coiled-coil 1 (Rb1cc1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_010605534.2

    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
    4441
    4501
    4561
    4621
    4681
    4741
    ATGAAGTTAT ATGTATTTCT GGTTAACACT GGAACTACTC TAACATTTGA CACTGAACTT 
    ACAGTGCAAA CTGTGGCTGA CCTTAAACAT GCCATTCAAA GCAAATACAA GATTGCTATT 
    CAGCATCAGG TGCTGGTGGT CAACGGAGGA GAATGCATGG CTGCAGATCG AAGAGTGTGC 
    ACCTATAGCG CTGGGACGGA CACAAACCCA ATTTTTCTTT TTAACAAAGA AATGATCTTA 
    TGTGATCGTG CACCTGCTAT TCCTAAAACT ACATTTTCAA CAGAAAACGA CATGGAAATA 
    AAAGTTGAAG AATCTCTTAT GATGCCTGCA GTTTTTCACA CTGTTGCTTC AAGGACACAA 
    CTTGCTGTGG AAATGTATGA AGTTGCCAAG AAACTTTGTT CTTTTTGTGA AGGTCTTGTC 
    CATGATGAAC ATCTTCAACA CCAAGGCTGG GCTGCAATTA TGGCCAATCT GGAGGACTGT 
    TCAAATTCAT ACCAAAAGCT ACTTTTCAAG TTTGAAAGTA TTTATTCAAA TTATCTGCAA 
    TCCATAGAAG ACATCAAGTT AAAACTTACT CATTTAGGAA CTGCGGTTTC AGTAATGGCC 
    AAGATTCCAT TGTTGGAGTG CCTAACCAGA CATAGTTACA GGGAATGTTT GGAAAGACTG 
    GATTCTTTAA GTGAACATGA AGGCTCTGAA AAGGCTGAGA TGAAACAATC CACTGAACTG 
    GTGCTCTCTC CTGATATGCC TAGAACAACT AATACATCCT TGTTAACCTC ATTTCACAAG 
    TCAGTGGAAC ATGTAGCCCC AGATACAGAT GCTGAGAGTG GCAAAGAAAT TAGAGAATCT 
    GGTCAAAGTA CTGTACAGCA AGATGAAACT TCAGTAGATG CTAAAGACAG TGAACTGCCT 
    TTTTTTAATG TTTCTTTGTT AGACTGGATA AATGTTCAAG ATAGACCTAA TGATGTGGAA 
    TCTTTGGTCA GAAAGTGCTT TGATTCTATG AGCAGGCTTG ATCCAAAGAT TATCAGACCA 
    TTTATAGTAG AATGCCATCA AACTATTGCC AAACTTGATA ATCAGAATAT GAAAGCCATT 
    AAAGGGCTTG AAGATCGTCT ATATGCCCTG GACCAGATGA TTGCCAGCTG TGGCCGGCTG 
    GTGAACGAAC AGAAAGAGCT CGCTCAGGGA TTTTTAGCTA ATCAGATGAG AGCTGAGAAT 
    TTGAAGGATG CATCTGTATT ACCTGATTTG TGCCTGAGTC ATGCAAACCA GTTGATGATT 
    ATGTTGCAAA ACCATAGAAA ATTATTGGAT ATTAAACAAA AGTGTACCAC TGCCAAACAA 
    GAACTAGCAA ATAATCTACA TGTCAGATTG AAGTGGTGTT GCTTTGTGAT GCTTCATGCT 
    GATCAAGATG GAGAAAAATT GCAAGCTTTG CTCCGCCTTG TGATAGAGCT GTTAGAAAGA 
    GTCAAAATTG TTGAAGCCCT TAGTACTGTT CCTCAGATGT ATTGCTTAGC TGTTGTTGAG 
    GTTGTAAGGA GAAAAATGTT CATTAAACAC TACAGGGAGT GGGCTGGTGC TTTAGTCAAA 
    GATGGAAAGC GATTGTATGA AGCTGAAAAG TCTAAAAGGG AATCCTTTGG GAAAGTATTT 
    AGGAAGTCCT TTTTAAGAAA TCGCCTATTT AGAGGACTGG ACTCCTGGCC ACCTTCCTTT 
    TGTACTCAGA AGCCTCGAAA GTTTGACTGT GAACTTCCGG ATATTTCATT AAAAGATTTA 
    CAGTTTCTGC AATCATTTTG TCCTTCTGAA GTTCAGCCAT TTCTCAGGGT TCCTTTACTT 
    TGTGACTTTG AACCTCTACA CCAGCATGTA CTTGCCCTAC ATAACTTGGT AAAAGCAGCA 
    CAAAGTTTGG ATGAAATGTC ACAGACCATT ACAGATCTCC TGAATGAACA AAAGGCATCT 
    GTGAGTCAAG CATCCCCTCA GTCGGCTTCT TCCCCACGGA CAGAAAGTGC AGCAGGAATT 
    ACAACTACTA CCTCACCGAG AACTCCCCCT CCACTCACTG TTCAGGGTCC CTTGTGTCCT 
    GCAGTTTGTC CCTTAGAAGA ATTATCTCCA GATAGCATTG ATGCACATAC ATTTGATTTT 
    GAAACTATAC CCCATCCAAA CATTGAACAA ACTATTCACC AAGTTTCTTT AGACTTAGAT 
    TCATTAGCAG AAAGTCCTGA GTCAGATTTT ATGTCTGCTG TGAATGAGTT TGTGATAGAA 
    GAAAACTTAT CATCTCCTAA TCCTATAAGT GATCCCCAGA GTCCAGAAAT GATGGTGGAA 
    TCACTCTATT CATCGGTTAT CAATGCGATA GATAGTAGAC GTATGCAAGA TACAAATATA 
    TGTGGTAAAG AGGATTTTGG AGATCGTGCT TCTCTGAATG TCCAGTTGGA AAAATGTAGA 
    GTTGTTGCCC AAGATTTTCA TTTTAGTATA CAAACCATTA AGGAAGATCT TTGCCATTTC 
    AAAACATTTG TACAAAAAGA ACAGTGTGAC TTCTCAAATT CTTTAAAATG TACAGCAATA 
    GAAATAAGAA ATATTATTGA AAAAGTAAAA TGTTCCCTGG AAATAACACT AAAAGAAAAG 
    CATCAAAAAG AACTACAGTC TTTGAAAACT GAATATGAAG GTAAAGTCAA TGCATTAATT 
    AAGGAGAGTG AAGAAAATGA AAACAAAATT AAAAAATTGG AAGGAGACTT GGTATATCTT 
    GAGGAAGTTT TACAAAATAA AGATAGTGAA TTTGCTTTGG TTAAACATGA AAAAGAAGCT 
    GTCATCTGCC TGCAGAATGA AAAGGATCAG AAATTGTTGG AAATGGAAAA TATAATGCAC 
    ACTCAAAATT GTGAAATAAA CGAATTGAAA CAGTCAAGAG AAGTTGTGTT AGAAGATTTA 
    AAAAAGCTCC ATGTTGAAAA TGATGAGAAA ATTGAGTTAT TGAGGGCAGA ACTTCAGTGC 
    TTAGAGCAAA GCCACCTAAA AGAATTAGAA GACACATTGC ACGTCAGGCA CACACAGGAG 
    TTTGACAAAG TTATGACAGA CCACAAAATT TCTTTGGAGA AATTAAAACA GGAAAATCAA 
    CAAAGAATTG ATCAACTACA AGACTCTCAT GCCATAGCTA TCCATGAAAA AGAACAGCAG 
    CTGCAGGAAT TAAAACTCAA GGTTTCTGAT TTGTCAGACA TGAGATGTAA GTTGGAGGTT 
    GAGCTTGCAC TGAAGGAAGC AGAAACTGAT GAAATAAAAA TGTTGCTGGA AGAAAGCAGA 
    ATGCAGCAGA AAGAAACATT AGAATGTCTT CTTGAAAAAG AAACAGAAAA CTTGAGAACA 
    GAGATAAGTC AGTTAAACCA GAAGATTCAC AATAATAATG AAAATTATCA GGTGGGCTTA 
    GCAGAGCTAA GAACTTTAAT GACAATTGAA AAGGATCAAT GCATTTCAGA GTTAATTAGT 
    AGACACGAAG AAGAATCTGG CATACTTAAA GCTGAATTAG ATAAAGTAAC ATCTTTGCAT 
    CACCAAGCAT TTGAAATAGA AAAAAACCTA AAAGAACAAG TACTTGAACT GCAGAATAAA 
    TTGGATTCAG AATTGTGTGT TCTTGAAAAA CAAAAAGATG AAAAAATCAC CCAACAAGAA 
    GAGAAATATG AAGTCATTAT ACAGAACCTT GAGAAAGACC AAGAGAGATT GGTTATGAGC 
    CATGAACAAG AGAGAGAACA GTTAATTCAG AAGCTTAATT GTGAAAAAGA TGAAGCTATT 
    CAGACTGCCC TAAAAGAATT TAAATTGGAG AGAGAAGTTG TTGAGAAAGA GTTATTAGAA 
    AAAATTAAAC ATCTTGAAAA TCAAATAGCA AAAAGTCCTG TCATTGAATC TACCAGAGAA 
    GATTCTTCAA GCTTAGTTGC TGAGCTTCAA GAAAAGCTTC AGGAAGAAAA AGCTAAGTTT 
    CTGGAACAAC TTGAAGAGCA AGAGAAGAGA AAAAATGAAG AAATGCAAAA TGTTCGAACA 
    TCTTTGATTG CTGAACAACA GACCAATTTT AATACTGTTT TAACAAGAGA GAAAATGAGA 
    AAAGAAAACA TAATAAATGA TCTTAGTGAT AAGTTGAAGA GTACAATGCA ACAACAAGAG 
    CGGGATAAAG ACTTGATAGA ATCACTTTCT GAAGATAGAG CTCGTTTGCT TGAGGAAAAG 
    AAAAAGCTTG AAGAGGAAGT CAGTAAGTTG CGTAGCAGCA CTTTTGTTCC TTCACCATAT 
    GTAGCTGCAG CCCCAGAACT TTATGGAGCA TGTGCACCTG GATCCCCAGG TGAAGCAGAT 
    CGATCAACCT TGGAGACAGC AGATGAAGGA AGAGTGGATT CAGCAATGGA GACAAGCATG 
    ATGTCTGTCC AGGAAAATGT CCATATGCTT TCTGAAGAAA AACAGAGGAT AATGCTCTTA 
    GAAAGAACAT TGCAGTTGAA AGAGGAAGAA AATAAGCGGT TAAATCAACG ACTGATGTCT 
    CAGAGCATGT CTTCTGTATC TTCAAGGCAT TCTGAAAAGA TAGCGATTAG AGATTTTCAG 
    GTGGGAGATT TGGTACTCAT CATCCTAGAT GAACGCCACG ACAATTATGT ATTATTTACT 
    GTTAGTCCTA CTTTATATTT TTTGCACTCA GAATCTCTGC CTGCCCTGGA TCTCAAACCA 
    GGTGAGGGTG CTTCAGGTGC ATCTAGAAGA CCCTGGGTAC TTGGAAAAGT AATGGAAAAG 
    GAATACTGTC AAGCCAAAAA GGCACAAAAC AGATTTAAAG TTCCTTTGGG GACAAAGTTT 
    TACAGAGTGA AAGCTGTGTC ATGGAATAAG AAAGTATAA

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

    Rb1cc1 ( XM_010605536.2 ) cDNA ORF clone, Fukomys damarensis(Damara mole-rat) -> XP_010603838.1 Fukomys damarensis RB1 inducible coiled-coil 1 (Rb1cc1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OFu79771
    Clone ID Related Accession (Same CDS sequence) XM_010605536.2
    Accession Version XM_010605536.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4770bp)
    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 2016-11-23
    Organism Fukomys damarensis(Damara mole-rat)
    Product RB1-inducible coiled-coil protein 1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_011046444.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Nov 24, 2016 this sequence version replaced XM_010605536.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Fukomys damarensis Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGAAGTTAT ATGTATTTCT GGTTAACACT GGAACTACTC TAACATTTGA CACTGAACTT 
    ACAGTGCAAA CTGTGGCTGA CCTTAAACAT GCCATTCAAA GCAAATACAA GATTGCTATT 
    CAGCATCAGG TGCTGGTGGT CAACGGAGGA GAATGCATGG CTGCAGATCG AAGAGTGTGC 
    ACCTATAGCG CTGGGACGGA CACAAACCCA ATTTTTCTTT TTAACAAAGA AATGATCTTA 
    TGTGATCGTG CACCTGCTAT TCCTAAAACT ACATTTTCAA CAGAAAACGA CATGGAAATA 
    AAAGTTGAAG AATCTCTTAT GATGCCTGCA GTTTTTCACA CTGTTGCTTC AAGGACACAA 
    CTTGCTGTGG AAATGTATGA AGTTGCCAAG AAACTTTGTT CTTTTTGTGA AGGTCTTGTC 
    CATGATGAAC ATCTTCAACA CCAAGGCTGG GCTGCAATTA TGGCCAATCT GGAGGACTGT 
    TCAAATTCAT ACCAAAAGCT ACTTTTCAAG TTTGAAAGTA TTTATTCAAA TTATCTGCAA 
    TCCATAGAAG ACATCAAGTT AAAACTTACT CATTTAGGAA CTGCGGTTTC AGTAATGGCC 
    AAGATTCCAT TGTTGGAGTG CCTAACCAGA CATAGTTACA GGGAATGTTT GGAAAGACTG 
    GATTCTTTAA GTGAACATGA AGGCTCTGAA AAGGCTGAGA TGAAACAATC CACTGAACTG 
    GTGCTCTCTC CTGATATGCC TAGAACAACT AATACATCCT TGTTAACCTC ATTTCACAAG 
    TCAGTGGAAC ATGTAGCCCC AGATACAGAT GCTGAGAGTG GCAAAGAAAT TAGAGAATCT 
    GGTCAAAGTA CTGTACAGCA AGATGAAACT TCAGTAGATG CTAAAGACAG TGAACTGCCT 
    TTTTTTAATG TTTCTTTGTT AGACTGGATA AATGTTCAAG ATAGACCTAA TGATGTGGAA 
    TCTTTGGTCA GAAAGTGCTT TGATTCTATG AGCAGGCTTG ATCCAAAGAT TATCAGACCA 
    TTTATAGTAG AATGCCATCA AACTATTGCC AAACTTGATA ATCAGAATAT GAAAGCCATT 
    AAAGGGCTTG AAGATCGTCT ATATGCCCTG GACCAGATGA TTGCCAGCTG TGGCCGGCTG 
    GTGAACGAAC AGAAAGAGCT CGCTCAGGGA TTTTTAGCTA ATCAGATGAG AGCTGAGAAT 
    TTGAAGGATG CATCTGTATT ACCTGATTTG TGCCTGAGTC ATGCAAACCA GTTGATGATT 
    ATGTTGCAAA ACCATAGAAA ATTATTGGAT ATTAAACAAA AGTGTACCAC TGCCAAACAA 
    GAACTAGCAA ATAATCTACA TGTCAGATTG AAGTGGTGTT GCTTTGTGAT GCTTCATGCT 
    GATCAAGATG GAGAAAAATT GCAAGCTTTG CTCCGCCTTG TGATAGAGCT GTTAGAAAGA 
    GTCAAAATTG TTGAAGCCCT TAGTACTGTT CCTCAGATGT ATTGCTTAGC TGTTGTTGAG 
    GTTGTAAGGA GAAAAATGTT CATTAAACAC TACAGGGAGT GGGCTGGTGC TTTAGTCAAA 
    GATGGAAAGC GATTGTATGA AGCTGAAAAG TCTAAAAGGG AATCCTTTGG GAAAGTATTT 
    AGGAAGTCCT TTTTAAGAAA TCGCCTATTT AGAGGACTGG ACTCCTGGCC ACCTTCCTTT 
    TGTACTCAGA AGCCTCGAAA GTTTGACTGT GAACTTCCGG ATATTTCATT AAAAGATTTA 
    CAGTTTCTGC AATCATTTTG TCCTTCTGAA GTTCAGCCAT TTCTCAGGGT TCCTTTACTT 
    TGTGACTTTG AACCTCTACA CCAGCATGTA CTTGCCCTAC ATAACTTGGT AAAAGCAGCA 
    CAAAGTTTGG ATGAAATGTC ACAGACCATT ACAGATCTCC TGAATGAACA AAAGGCATCT 
    GTGAGTCAAG CATCCCCTCA GTCGGCTTCT TCCCCACGGA CAGAAAGTGC AGCAGGAATT 
    ACAACTACTA CCTCACCGAG AACTCCCCCT CCACTCACTG TTCAGGGTCC CTTGTGTCCT 
    GCAGTTTGTC CCTTAGAAGA ATTATCTCCA GATAGCATTG ATGCACATAC ATTTGATTTT 
    GAAACTATAC CCCATCCAAA CATTGAACAA ACTATTCACC AAGTTTCTTT AGACTTAGAT 
    TCATTAGCAG AAAGTCCTGA GTCAGATTTT ATGTCTGCTG TGAATGAGTT TGTGATAGAA 
    GAAAACTTAT CATCTCCTAA TCCTATAAGT GATCCCCAGA GTCCAGAAAT GATGGTGGAA 
    TCACTCTATT CATCGGTTAT CAATGCGATA GATAGTAGAC GTATGCAAGA TACAAATATA 
    TGTGGTAAAG AGGATTTTGG AGATCGTGCT TCTCTGAATG TCCAGTTGGA AAAATGTAGA 
    GTTGTTGCCC AAGATTTTCA TTTTAGTATA CAAACCATTA AGGAAGATCT TTGCCATTTC 
    AAAACATTTG TACAAAAAGA ACAGTGTGAC TTCTCAAATT CTTTAAAATG TACAGCAATA 
    GAAATAAGAA ATATTATTGA AAAAGTAAAA TGTTCCCTGG AAATAACACT AAAAGAAAAG 
    CATCAAAAAG AACTACAGTC TTTGAAAACT GAATATGAAG GTAAAGTCAA TGCATTAATT 
    AAGGAGAGTG AAGAAAATGA AAACAAAATT AAAAAATTGG AAGGAGACTT GGTATATCTT 
    GAGGAAGTTT TACAAAATAA AGATAGTGAA TTTGCTTTGG TTAAACATGA AAAAGAAGCT 
    GTCATCTGCC TGCAGAATGA AAAGGATCAG AAATTGTTGG AAATGGAAAA TATAATGCAC 
    ACTCAAAATT GTGAAATAAA CGAATTGAAA CAGTCAAGAG AAGTTGTGTT AGAAGATTTA 
    AAAAAGCTCC ATGTTGAAAA TGATGAGAAA ATTGAGTTAT TGAGGGCAGA ACTTCAGTGC 
    TTAGAGCAAA GCCACCTAAA AGAATTAGAA GACACATTGC ACGTCAGGCA CACACAGGAG 
    TTTGACAAAG TTATGACAGA CCACAAAATT TCTTTGGAGA AATTAAAACA GGAAAATCAA 
    CAAAGAATTG ATCAACTACA AGACTCTCAT GCCATAGCTA TCCATGAAAA AGAACAGCAG 
    CTGCAGGAAT TAAAACTCAA GGTTTCTGAT TTGTCAGACA TGAGATGTAA GTTGGAGGTT 
    GAGCTTGCAC TGAAGGAAGC AGAAACTGAT GAAATAAAAA TGTTGCTGGA AGAAAGCAGA 
    ATGCAGCAGA AAGAAACATT AGAATGTCTT CTTGAAAAAG AAACAGAAAA CTTGAGAACA 
    GAGATAAGTC AGTTAAACCA GAAGATTCAC AATAATAATG AAAATTATCA GGTGGGCTTA 
    GCAGAGCTAA GAACTTTAAT GACAATTGAA AAGGATCAAT GCATTTCAGA GTTAATTAGT 
    AGACACGAAG AAGAATCTGG CATACTTAAA GCTGAATTAG ATAAAGTAAC ATCTTTGCAT 
    CACCAAGCAT TTGAAATAGA AAAAAACCTA AAAGAACAAG TACTTGAACT GCAGAATAAA 
    TTGGATTCAG AATTGTGTGT TCTTGAAAAA CAAAAAGATG AAAAAATCAC CCAACAAGAA 
    GAGAAATATG AAGTCATTAT ACAGAACCTT GAGAAAGACC AAGAGAGATT GGTTATGAGC 
    CATGAACAAG AGAGAGAACA GTTAATTCAG AAGCTTAATT GTGAAAAAGA TGAAGCTATT 
    CAGACTGCCC TAAAAGAATT TAAATTGGAG AGAGAAGTTG TTGAGAAAGA GTTATTAGAA 
    AAAATTAAAC ATCTTGAAAA TCAAATAGCA AAAAGTCCTG TCATTGAATC TACCAGAGAA 
    GATTCTTCAA GCTTAGTTGC TGAGCTTCAA GAAAAGCTTC AGGAAGAAAA AGCTAAGTTT 
    CTGGAACAAC TTGAAGAGCA AGAGAAGAGA AAAAATGAAG AAATGCAAAA TGTTCGAACA 
    TCTTTGATTG CTGAACAACA GACCAATTTT AATACTGTTT TAACAAGAGA GAAAATGAGA 
    AAAGAAAACA TAATAAATGA TCTTAGTGAT AAGTTGAAGA GTACAATGCA ACAACAAGAG 
    CGGGATAAAG ACTTGATAGA ATCACTTTCT GAAGATAGAG CTCGTTTGCT TGAGGAAAAG 
    AAAAAGCTTG AAGAGGAAGT CAGTAAGTTG CGTAGCAGCA CTTTTGTTCC TTCACCATAT 
    GTAGCTGCAG CCCCAGAACT TTATGGAGCA TGTGCACCTG GATCCCCAGG TGAAGCAGAT 
    CGATCAACCT TGGAGACAGC AGATGAAGGA AGAGTGGATT CAGCAATGGA GACAAGCATG 
    ATGTCTGTCC AGGAAAATGT CCATATGCTT TCTGAAGAAA AACAGAGGAT AATGCTCTTA 
    GAAAGAACAT TGCAGTTGAA AGAGGAAGAA AATAAGCGGT TAAATCAACG ACTGATGTCT 
    CAGAGCATGT CTTCTGTATC TTCAAGGCAT TCTGAAAAGA TAGCGATTAG AGATTTTCAG 
    GTGGGAGATT TGGTACTCAT CATCCTAGAT GAACGCCACG ACAATTATGT ATTATTTACT 
    GTTAGTCCTA CTTTATATTT TTTGCACTCA GAATCTCTGC CTGCCCTGGA TCTCAAACCA 
    GCTTCAGGTG CATCTAGAAG ACCCTGGGTA CTTGGAAAAG TAATGGAAAA GGAATACTGT 
    CAAGCCAAAA AGGCACAAAA CAGATTTAAA GTTCCTTTGG GGACAAAGTT TTACAGAGTG 
    AAAGCTGTGT CATGGAATAA GAAAGTATAA

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

    RefSeq XP_010603838.1
    CDS236..5005
    Translation

    Target ORF information:

    RefSeq Version XM_010605536.2
    Organism Fukomys damarensis(Damara mole-rat)
    Definition Fukomys damarensis RB1 inducible coiled-coil 1 (Rb1cc1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_010605536.2

    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
    4441
    4501
    4561
    4621
    4681
    4741
    ATGAAGTTAT ATGTATTTCT GGTTAACACT GGAACTACTC TAACATTTGA CACTGAACTT 
    ACAGTGCAAA CTGTGGCTGA CCTTAAACAT GCCATTCAAA GCAAATACAA GATTGCTATT 
    CAGCATCAGG TGCTGGTGGT CAACGGAGGA GAATGCATGG CTGCAGATCG AAGAGTGTGC 
    ACCTATAGCG CTGGGACGGA CACAAACCCA ATTTTTCTTT TTAACAAAGA AATGATCTTA 
    TGTGATCGTG CACCTGCTAT TCCTAAAACT ACATTTTCAA CAGAAAACGA CATGGAAATA 
    AAAGTTGAAG AATCTCTTAT GATGCCTGCA GTTTTTCACA CTGTTGCTTC AAGGACACAA 
    CTTGCTGTGG AAATGTATGA AGTTGCCAAG AAACTTTGTT CTTTTTGTGA AGGTCTTGTC 
    CATGATGAAC ATCTTCAACA CCAAGGCTGG GCTGCAATTA TGGCCAATCT GGAGGACTGT 
    TCAAATTCAT ACCAAAAGCT ACTTTTCAAG TTTGAAAGTA TTTATTCAAA TTATCTGCAA 
    TCCATAGAAG ACATCAAGTT AAAACTTACT CATTTAGGAA CTGCGGTTTC AGTAATGGCC 
    AAGATTCCAT TGTTGGAGTG CCTAACCAGA CATAGTTACA GGGAATGTTT GGAAAGACTG 
    GATTCTTTAA GTGAACATGA AGGCTCTGAA AAGGCTGAGA TGAAACAATC CACTGAACTG 
    GTGCTCTCTC CTGATATGCC TAGAACAACT AATACATCCT TGTTAACCTC ATTTCACAAG 
    TCAGTGGAAC ATGTAGCCCC AGATACAGAT GCTGAGAGTG GCAAAGAAAT TAGAGAATCT 
    GGTCAAAGTA CTGTACAGCA AGATGAAACT TCAGTAGATG CTAAAGACAG TGAACTGCCT 
    TTTTTTAATG TTTCTTTGTT AGACTGGATA AATGTTCAAG ATAGACCTAA TGATGTGGAA 
    TCTTTGGTCA GAAAGTGCTT TGATTCTATG AGCAGGCTTG ATCCAAAGAT TATCAGACCA 
    TTTATAGTAG AATGCCATCA AACTATTGCC AAACTTGATA ATCAGAATAT GAAAGCCATT 
    AAAGGGCTTG AAGATCGTCT ATATGCCCTG GACCAGATGA TTGCCAGCTG TGGCCGGCTG 
    GTGAACGAAC AGAAAGAGCT CGCTCAGGGA TTTTTAGCTA ATCAGATGAG AGCTGAGAAT 
    TTGAAGGATG CATCTGTATT ACCTGATTTG TGCCTGAGTC ATGCAAACCA GTTGATGATT 
    ATGTTGCAAA ACCATAGAAA ATTATTGGAT ATTAAACAAA AGTGTACCAC TGCCAAACAA 
    GAACTAGCAA ATAATCTACA TGTCAGATTG AAGTGGTGTT GCTTTGTGAT GCTTCATGCT 
    GATCAAGATG GAGAAAAATT GCAAGCTTTG CTCCGCCTTG TGATAGAGCT GTTAGAAAGA 
    GTCAAAATTG TTGAAGCCCT TAGTACTGTT CCTCAGATGT ATTGCTTAGC TGTTGTTGAG 
    GTTGTAAGGA GAAAAATGTT CATTAAACAC TACAGGGAGT GGGCTGGTGC TTTAGTCAAA 
    GATGGAAAGC GATTGTATGA AGCTGAAAAG TCTAAAAGGG AATCCTTTGG GAAAGTATTT 
    AGGAAGTCCT TTTTAAGAAA TCGCCTATTT AGAGGACTGG ACTCCTGGCC ACCTTCCTTT 
    TGTACTCAGA AGCCTCGAAA GTTTGACTGT GAACTTCCGG ATATTTCATT AAAAGATTTA 
    CAGTTTCTGC AATCATTTTG TCCTTCTGAA GTTCAGCCAT TTCTCAGGGT TCCTTTACTT 
    TGTGACTTTG AACCTCTACA CCAGCATGTA CTTGCCCTAC ATAACTTGGT AAAAGCAGCA 
    CAAAGTTTGG ATGAAATGTC ACAGACCATT ACAGATCTCC TGAATGAACA AAAGGCATCT 
    GTGAGTCAAG CATCCCCTCA GTCGGCTTCT TCCCCACGGA CAGAAAGTGC AGCAGGAATT 
    ACAACTACTA CCTCACCGAG AACTCCCCCT CCACTCACTG TTCAGGGTCC CTTGTGTCCT 
    GCAGTTTGTC CCTTAGAAGA ATTATCTCCA GATAGCATTG ATGCACATAC ATTTGATTTT 
    GAAACTATAC CCCATCCAAA CATTGAACAA ACTATTCACC AAGTTTCTTT AGACTTAGAT 
    TCATTAGCAG AAAGTCCTGA GTCAGATTTT ATGTCTGCTG TGAATGAGTT TGTGATAGAA 
    GAAAACTTAT CATCTCCTAA TCCTATAAGT GATCCCCAGA GTCCAGAAAT GATGGTGGAA 
    TCACTCTATT CATCGGTTAT CAATGCGATA GATAGTAGAC GTATGCAAGA TACAAATATA 
    TGTGGTAAAG AGGATTTTGG AGATCGTGCT TCTCTGAATG TCCAGTTGGA AAAATGTAGA 
    GTTGTTGCCC AAGATTTTCA TTTTAGTATA CAAACCATTA AGGAAGATCT TTGCCATTTC 
    AAAACATTTG TACAAAAAGA ACAGTGTGAC TTCTCAAATT CTTTAAAATG TACAGCAATA 
    GAAATAAGAA ATATTATTGA AAAAGTAAAA TGTTCCCTGG AAATAACACT AAAAGAAAAG 
    CATCAAAAAG AACTACAGTC TTTGAAAACT GAATATGAAG GTAAAGTCAA TGCATTAATT 
    AAGGAGAGTG AAGAAAATGA AAACAAAATT AAAAAATTGG AAGGAGACTT GGTATATCTT 
    GAGGAAGTTT TACAAAATAA AGATAGTGAA TTTGCTTTGG TTAAACATGA AAAAGAAGCT 
    GTCATCTGCC TGCAGAATGA AAAGGATCAG AAATTGTTGG AAATGGAAAA TATAATGCAC 
    ACTCAAAATT GTGAAATAAA CGAATTGAAA CAGTCAAGAG AAGTTGTGTT AGAAGATTTA 
    AAAAAGCTCC ATGTTGAAAA TGATGAGAAA ATTGAGTTAT TGAGGGCAGA ACTTCAGTGC 
    TTAGAGCAAA GCCACCTAAA AGAATTAGAA GACACATTGC ACGTCAGGCA CACACAGGAG 
    TTTGACAAAG TTATGACAGA CCACAAAATT TCTTTGGAGA AATTAAAACA GGAAAATCAA 
    CAAAGAATTG ATCAACTACA AGACTCTCAT GCCATAGCTA TCCATGAAAA AGAACAGCAG 
    CTGCAGGAAT TAAAACTCAA GGTTTCTGAT TTGTCAGACA TGAGATGTAA GTTGGAGGTT 
    GAGCTTGCAC TGAAGGAAGC AGAAACTGAT GAAATAAAAA TGTTGCTGGA AGAAAGCAGA 
    ATGCAGCAGA AAGAAACATT AGAATGTCTT CTTGAAAAAG AAACAGAAAA CTTGAGAACA 
    GAGATAAGTC AGTTAAACCA GAAGATTCAC AATAATAATG AAAATTATCA GGTGGGCTTA 
    GCAGAGCTAA GAACTTTAAT GACAATTGAA AAGGATCAAT GCATTTCAGA GTTAATTAGT 
    AGACACGAAG AAGAATCTGG CATACTTAAA GCTGAATTAG ATAAAGTAAC ATCTTTGCAT 
    CACCAAGCAT TTGAAATAGA AAAAAACCTA AAAGAACAAG TACTTGAACT GCAGAATAAA 
    TTGGATTCAG AATTGTGTGT TCTTGAAAAA CAAAAAGATG AAAAAATCAC CCAACAAGAA 
    GAGAAATATG AAGTCATTAT ACAGAACCTT GAGAAAGACC AAGAGAGATT GGTTATGAGC 
    CATGAACAAG AGAGAGAACA GTTAATTCAG AAGCTTAATT GTGAAAAAGA TGAAGCTATT 
    CAGACTGCCC TAAAAGAATT TAAATTGGAG AGAGAAGTTG TTGAGAAAGA GTTATTAGAA 
    AAAATTAAAC ATCTTGAAAA TCAAATAGCA AAAAGTCCTG TCATTGAATC TACCAGAGAA 
    GATTCTTCAA GCTTAGTTGC TGAGCTTCAA GAAAAGCTTC AGGAAGAAAA AGCTAAGTTT 
    CTGGAACAAC TTGAAGAGCA AGAGAAGAGA AAAAATGAAG AAATGCAAAA TGTTCGAACA 
    TCTTTGATTG CTGAACAACA GACCAATTTT AATACTGTTT TAACAAGAGA GAAAATGAGA 
    AAAGAAAACA TAATAAATGA TCTTAGTGAT AAGTTGAAGA GTACAATGCA ACAACAAGAG 
    CGGGATAAAG ACTTGATAGA ATCACTTTCT GAAGATAGAG CTCGTTTGCT TGAGGAAAAG 
    AAAAAGCTTG AAGAGGAAGT CAGTAAGTTG CGTAGCAGCA CTTTTGTTCC TTCACCATAT 
    GTAGCTGCAG CCCCAGAACT TTATGGAGCA TGTGCACCTG GATCCCCAGG TGAAGCAGAT 
    CGATCAACCT TGGAGACAGC AGATGAAGGA AGAGTGGATT CAGCAATGGA GACAAGCATG 
    ATGTCTGTCC AGGAAAATGT CCATATGCTT TCTGAAGAAA AACAGAGGAT AATGCTCTTA 
    GAAAGAACAT TGCAGTTGAA AGAGGAAGAA AATAAGCGGT TAAATCAACG ACTGATGTCT 
    CAGAGCATGT CTTCTGTATC TTCAAGGCAT TCTGAAAAGA TAGCGATTAG AGATTTTCAG 
    GTGGGAGATT TGGTACTCAT CATCCTAGAT GAACGCCACG ACAATTATGT ATTATTTACT 
    GTTAGTCCTA CTTTATATTT TTTGCACTCA GAATCTCTGC CTGCCCTGGA TCTCAAACCA 
    GCTTCAGGTG CATCTAGAAG ACCCTGGGTA CTTGGAAAAG TAATGGAAAA GGAATACTGT 
    CAAGCCAAAA AGGCACAAAA CAGATTTAAA GTTCCTTTGG GGACAAAGTT TTACAGAGTG 
    AAAGCTGTGT CATGGAATAA GAAAGTATAA

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

    Rb1cc1 ( XM_010605537.2 ) cDNA ORF clone, Fukomys damarensis(Damara mole-rat) -> XP_010603839.1 Fukomys damarensis RB1 inducible coiled-coil 1 (Rb1cc1), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OFu79772
    Clone ID Related Accession (Same CDS sequence) XM_010605537.2
    Accession Version XM_010605537.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4758bp)
    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 2016-11-23
    Organism Fukomys damarensis(Damara mole-rat)
    Product RB1-inducible coiled-coil protein 1 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_011046444.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Nov 24, 2016 this sequence version replaced XM_010605537.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Fukomys damarensis Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGAAGTTAT ATGTATTTCT GGTTAACACT GGAACTACTC TAACATTTGA CACTGAACTT 
    ACAGTGCAAA CTGTGGCTGA CCTTAAACAT GCCATTCAAA GCAAATACAA GATTGCTATT 
    CAGCATCAGG TGCTGGTGGT CAACGGAGGA GAATGCATGG CTGCAGATCG AAGAGTGTGC 
    ACCTATAGCG CTGGGACGGA CACAAACCCA ATTTTTCTTT TTAACAAAGA AATGATCTTA 
    TGTGATCGTG CACCTGCTAT TCCTAAAACT ACATTTTCAA CAGAAAACGA CATGGAAATA 
    AAAGTTGAAG AATCTCTTAT GATGCCTGCA GTTTTTCACA CTGTTGCTTC AAGGACACAA 
    CTTGCTGTGG AAATGTATGA AGTTGCCAAG AAACTTTGTT CTTTTTGTGA AGGTCTTGTC 
    CATGATGAAC ATCTTCAACA CCAAGGCTGG GCTGCAATTA TGGCCAATCT GGAGGACTGT 
    TCAAATTCAT ACCAAAAGCT ACTTTTCAAG TTTGAAAGTA TTTATTCAAA TTATCTGCAA 
    TCCATAGAAG ACATCAAGTT AAAACTTACT CATTTAGGAA CTGCGGTTTC AGTAATGGCC 
    AAGATTCCAT TGTTGGAGTG CCTAACCAGA CATAGTTACA GGGAATGTTT GGAAAGACTG 
    GATTCTTTAA GTGAACATGA AGGCTCTGAA AAGGCTGAGA TGAAACAATC CACTGAACTG 
    GTGCTCTCTC CTGATATGCC TAGAACAACT AATACATCCT TGTTAACCTC ATTTCACAAG 
    TCAGTGGAAC ATGTAGCCCC AGATACAGAT GCTGAGAGTG GCAAAGAAAT TAGAGAATCT 
    GGTCAAAGTA CTGTACAGCA AGATGAAACT TCAGTAGATG CTAAAGACAG TGAACTGCCT 
    TTTTTTAATG TTTCTTTGTT AGACTGGATA AATGTTCAAG ATAGACCTAA TGATGTGGAA 
    TCTTTGGTCA GAAAGTGCTT TGATTCTATG AGCAGGCTTG ATCCAAAGAT TATCAGACCA 
    TTTATAGTAG AATGCCATCA AACTATTGCC AAACTTGATA ATCAGAATAT GAAAGCCATT 
    AAAGGGCTTG AAGATCGTCT ATATGCCCTG GACCAGATGA TTGCCAGCTG TGGCCGGCTG 
    GTGAACGAAC AGAAAGAGCT CGCTCAGGGA TTTTTAGCTA ATCAGATGAG AGCTGAGAAT 
    TTGAAGGATG CATCTGTATT ACCTGATTTG TGCCTGAGTC ATGCAAACCA GTTGATGATT 
    ATGTTGCAAA ACCATAGAAA ATTATTGGAT ATTAAACAAA AGTGTACCAC TGCCAAACAA 
    GAACTAGCAA ATAATCTACA TGTCAGATTG AAGTGGTGTT GCTTTGTGAT GCTTCATGCT 
    GATCAAGATG GAGAAAAATT GCAAGCTTTG CTCCGCCTTG TGATAGAGCT GTTAGAAAGA 
    GTCAAAATTG TTGAAGCCCT TAGTACTGTT CCTCAGATGT ATTGCTTAGC TGTTGTTGAG 
    GTTGTAAGGA GAAAAATGTT CATTAAACAC TACAGGGAGT GGGCTGGTGC TTTAGTCAAA 
    GATGGAAAGC GATTGTATGA AGCTGAAAAG TCTAAAAGGG AATCCTTTGG GAAAGTATTT 
    AGGAAGTCCT TTTTAAGAAA TCGCCTATTT AGAGGACTGG ACTCCTGGCC ACCTTCCTTT 
    TGTACTCAGA AGCCTCGAAA GTTTGACTGT GAACTTCCGG ATATTTCATT AAAAGATTTA 
    CAGTTTCTGC AATCATTTTG TCCTTCTGAA GTTCAGCCAT TTCTCAGGGT TCCTTTACTT 
    TGTGACTTTG AACCTCTACA CCAGCATGTA CTTGCCCTAC ATAACTTGGT AAAAGCAGCA 
    CAAAGTTTGG ATGAAATGTC ACAGACCATT ACAGATCTCC TGAATGAACA AAAGGCATCT 
    GTGAGTCAAG CATCCCCTCA GTCGGCTTCT TCCCCACGGA CAGAAAGTGC AGCAGGAATT 
    ACAACTACTA CCTCACCGAG AACTCCCCCT CCACTCACTG TTCAGGGTCC CTTGTGTCCT 
    GCAGTTTGTC CCTTAGAAGA ATTATCTCCA GATAGCATTG ATGCACATAC ATTTGATTTT 
    GAAACTATAC CCCATCCAAA CATTGAACAA ACTATTCACC AAGTTTCTTT AGACTTAGAT 
    TCATTAGCAG AAAGTCCTGA GTCAGATTTT ATGTCTGCTG TGAATGAGTT TGTGATAGAA 
    GAAAACTTAT CATCTCCTAA TCCTATAAGT GATCCCCAGA GTCCAGAAAT GATGGTGGAA 
    TCACTCTATT CATCGGTTAT CAATGCGATA GATAGTAGAC GTATGCAAGA TACAAATATA 
    TGTGGTAAAG AGGATTTTGG AGATCGTGCT TCTCTGAATG TCCAGTTGGA AAAATGTAGA 
    GTTGTTGCCC AAGATTTTCA TTTTAGTATA CAAACCATTA AGGAAGATCT TTGCCATTTC 
    AAAACATTTG TACAAAAAGA ACAGTGTGAC TTCTCAAATT CTTTAAAATG TACAGCAATA 
    GAAATAAGAA ATATTATTGA AAAAGTAAAA TGTTCCCTGG AAATAACACT AAAAGAAAAG 
    CATCAAAAAG AACTACAGTC TTTGAAAACT GAATATGAAG GTAAAGTCAA TGCATTAATT 
    AAGGAGAGTG AAGAAAATGA AAACAAAATT AAAAAATTGG AAGGAGACTT GGTATATCTT 
    GAGGAAGTTT TACAAAATAA AGATAGTGAA TTTGCTTTGG TTAAACATGA AAAAGAAGCT 
    GTCATCTGCC TGCAGAATGA AAAGGATCAG AAATTGTTGG AAATGGAAAA TATAATGCAC 
    ACTCAAAATT GTGAAATAAA CGAATTGAAA CAGTCAAGAG AAGTTGTGTT AGAAGATTTA 
    AAAAAGCTCC ATGTTGAAAA TGATGAGAAA ATTGAGTTAT TGAGGGCAGA ACTTCAGTGC 
    TTAGAGCAAA GCCACCTAAA AGAATTAGAA GACACATTGC ACGTCAGGCA CACACAGGAG 
    TTTGACAAAG TTATGACAGA CCACAAAATT TCTTTGGAGA AATTAAAACA GGAAAATCAA 
    CAAAGAATTG ATCAACTACA AGACTCTCAT GCCATAGCTA TCCATGAAAA AGAACAGCAG 
    CTGCAGGAAT TAAAACTCAA GGTTTCTGAT TTGTCAGACA TGAGATGTAA GTTGGAGGTT 
    GAGCTTGCAC TGAAGGAAGC AGAAACTGAT GAAATAAAAA TGTTGCTGGA AGAAAGCAGA 
    ATGCAGCAGA AAGAAACATT AGAATGTCTT CTTGAAAAAG AAACAGAAAA CTTGAGAACA 
    GAGATAAGTC AGTTAAACCA GAAGATTCAC AATAATAATG AAAATTATCA GGTGGGCTTA 
    GCAGAGCTAA GAACTTTAAT GACAATTGAA AAGGATCAAT GCATTTCAGA GTTAATTAGT 
    AGACACGAAG AAGAATCTGG CATACTTAAA GCTGAATTAG ATAAAGTAAC ATCTTTGCAT 
    CACCAAGCAT TTGAAATAGA AAAAAACCTA AAAGAACAAG TACTTGAACT GCAGAATAAA 
    TTGGATTCAG AATTGTGTGT TCTTGAAAAA CAAAAAGATG AAAAAATCAC CCAACAAGAA 
    GAGAAATATG AAGTCATTAT ACAGAACCTT GAGAAAGACC AAGAGAGATT GGTTATGAGC 
    CATGAACAAG AGAGAGAACA GTTAATTCAG AAGCTTAATT GTGAAAAAGA TGAAGCTATT 
    CAGACTGCCC TAAAAGAATT TAAATTGGAG AGAGAAGTTG TTGAGAAAGA GTTATTAGAA 
    AAAATTAAAC ATCTTGAAAA TCAAATAGCA AAAAGAGAAG ATTCTTCAAG CTTAGTTGCT 
    GAGCTTCAAG AAAAGCTTCA GGAAGAAAAA GCTAAGTTTC TGGAACAACT TGAAGAGCAA 
    GAGAAGAGAA AAAATGAAGA AATGCAAAAT GTTCGAACAT CTTTGATTGC TGAACAACAG 
    ACCAATTTTA ATACTGTTTT AACAAGAGAG AAAATGAGAA AAGAAAACAT AATAAATGAT 
    CTTAGTGATA AGTTGAAGAG TACAATGCAA CAACAAGAGC GGGATAAAGA CTTGATAGAA 
    TCACTTTCTG AAGATAGAGC TCGTTTGCTT GAGGAAAAGA AAAAGCTTGA AGAGGAAGTC 
    AGTAAGTTGC GTAGCAGCAC TTTTGTTCCT TCACCATATG TAGCTGCAGC CCCAGAACTT 
    TATGGAGCAT GTGCACCTGG ATCCCCAGGT GAAGCAGATC GATCAACCTT GGAGACAGCA 
    GATGAAGGAA GAGTGGATTC AGCAATGGAG ACAAGCATGA TGTCTGTCCA GGAAAATGTC 
    CATATGCTTT CTGAAGAAAA ACAGAGGATA ATGCTCTTAG AAAGAACATT GCAGTTGAAA 
    GAGGAAGAAA ATAAGCGGTT AAATCAACGA CTGATGTCTC AGAGCATGTC TTCTGTATCT 
    TCAAGGCATT CTGAAAAGAT AGCGATTAGA GATTTTCAGG TGGGAGATTT GGTACTCATC 
    ATCCTAGATG AACGCCACGA CAATTATGTA TTATTTACTG TTAGTCCTAC TTTATATTTT 
    TTGCACTCAG AATCTCTGCC TGCCCTGGAT CTCAAACCAG GTGAGGGTGC TTCAGGTGCA 
    TCTAGAAGAC CCTGGGTACT TGGAAAAGTA ATGGAAAAGG AATACTGTCA AGCCAAAAAG 
    GCACAAAACA GATTTAAAGT TCCTTTGGGG ACAAAGTTTT ACAGAGTGAA AGCTGTGTCA 
    TGGAATAAGA AAGTATAA

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

    RefSeq XP_010603839.1
    CDS236..4993
    Translation

    Target ORF information:

    RefSeq Version XM_010605537.2
    Organism Fukomys damarensis(Damara mole-rat)
    Definition Fukomys damarensis RB1 inducible coiled-coil 1 (Rb1cc1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_010605537.2

    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
    4441
    4501
    4561
    4621
    4681
    4741
    ATGAAGTTAT ATGTATTTCT GGTTAACACT GGAACTACTC TAACATTTGA CACTGAACTT 
    ACAGTGCAAA CTGTGGCTGA CCTTAAACAT GCCATTCAAA GCAAATACAA GATTGCTATT 
    CAGCATCAGG TGCTGGTGGT CAACGGAGGA GAATGCATGG CTGCAGATCG AAGAGTGTGC 
    ACCTATAGCG CTGGGACGGA CACAAACCCA ATTTTTCTTT TTAACAAAGA AATGATCTTA 
    TGTGATCGTG CACCTGCTAT TCCTAAAACT ACATTTTCAA CAGAAAACGA CATGGAAATA 
    AAAGTTGAAG AATCTCTTAT GATGCCTGCA GTTTTTCACA CTGTTGCTTC AAGGACACAA 
    CTTGCTGTGG AAATGTATGA AGTTGCCAAG AAACTTTGTT CTTTTTGTGA AGGTCTTGTC 
    CATGATGAAC ATCTTCAACA CCAAGGCTGG GCTGCAATTA TGGCCAATCT GGAGGACTGT 
    TCAAATTCAT ACCAAAAGCT ACTTTTCAAG TTTGAAAGTA TTTATTCAAA TTATCTGCAA 
    TCCATAGAAG ACATCAAGTT AAAACTTACT CATTTAGGAA CTGCGGTTTC AGTAATGGCC 
    AAGATTCCAT TGTTGGAGTG CCTAACCAGA CATAGTTACA GGGAATGTTT GGAAAGACTG 
    GATTCTTTAA GTGAACATGA AGGCTCTGAA AAGGCTGAGA TGAAACAATC CACTGAACTG 
    GTGCTCTCTC CTGATATGCC TAGAACAACT AATACATCCT TGTTAACCTC ATTTCACAAG 
    TCAGTGGAAC ATGTAGCCCC AGATACAGAT GCTGAGAGTG GCAAAGAAAT TAGAGAATCT 
    GGTCAAAGTA CTGTACAGCA AGATGAAACT TCAGTAGATG CTAAAGACAG TGAACTGCCT 
    TTTTTTAATG TTTCTTTGTT AGACTGGATA AATGTTCAAG ATAGACCTAA TGATGTGGAA 
    TCTTTGGTCA GAAAGTGCTT TGATTCTATG AGCAGGCTTG ATCCAAAGAT TATCAGACCA 
    TTTATAGTAG AATGCCATCA AACTATTGCC AAACTTGATA ATCAGAATAT GAAAGCCATT 
    AAAGGGCTTG AAGATCGTCT ATATGCCCTG GACCAGATGA TTGCCAGCTG TGGCCGGCTG 
    GTGAACGAAC AGAAAGAGCT CGCTCAGGGA TTTTTAGCTA ATCAGATGAG AGCTGAGAAT 
    TTGAAGGATG CATCTGTATT ACCTGATTTG TGCCTGAGTC ATGCAAACCA GTTGATGATT 
    ATGTTGCAAA ACCATAGAAA ATTATTGGAT ATTAAACAAA AGTGTACCAC TGCCAAACAA 
    GAACTAGCAA ATAATCTACA TGTCAGATTG AAGTGGTGTT GCTTTGTGAT GCTTCATGCT 
    GATCAAGATG GAGAAAAATT GCAAGCTTTG CTCCGCCTTG TGATAGAGCT GTTAGAAAGA 
    GTCAAAATTG TTGAAGCCCT TAGTACTGTT CCTCAGATGT ATTGCTTAGC TGTTGTTGAG 
    GTTGTAAGGA GAAAAATGTT CATTAAACAC TACAGGGAGT GGGCTGGTGC TTTAGTCAAA 
    GATGGAAAGC GATTGTATGA AGCTGAAAAG TCTAAAAGGG AATCCTTTGG GAAAGTATTT 
    AGGAAGTCCT TTTTAAGAAA TCGCCTATTT AGAGGACTGG ACTCCTGGCC ACCTTCCTTT 
    TGTACTCAGA AGCCTCGAAA GTTTGACTGT GAACTTCCGG ATATTTCATT AAAAGATTTA 
    CAGTTTCTGC AATCATTTTG TCCTTCTGAA GTTCAGCCAT TTCTCAGGGT TCCTTTACTT 
    TGTGACTTTG AACCTCTACA CCAGCATGTA CTTGCCCTAC ATAACTTGGT AAAAGCAGCA 
    CAAAGTTTGG ATGAAATGTC ACAGACCATT ACAGATCTCC TGAATGAACA AAAGGCATCT 
    GTGAGTCAAG CATCCCCTCA GTCGGCTTCT TCCCCACGGA CAGAAAGTGC AGCAGGAATT 
    ACAACTACTA CCTCACCGAG AACTCCCCCT CCACTCACTG TTCAGGGTCC CTTGTGTCCT 
    GCAGTTTGTC CCTTAGAAGA ATTATCTCCA GATAGCATTG ATGCACATAC ATTTGATTTT 
    GAAACTATAC CCCATCCAAA CATTGAACAA ACTATTCACC AAGTTTCTTT AGACTTAGAT 
    TCATTAGCAG AAAGTCCTGA GTCAGATTTT ATGTCTGCTG TGAATGAGTT TGTGATAGAA 
    GAAAACTTAT CATCTCCTAA TCCTATAAGT GATCCCCAGA GTCCAGAAAT GATGGTGGAA 
    TCACTCTATT CATCGGTTAT CAATGCGATA GATAGTAGAC GTATGCAAGA TACAAATATA 
    TGTGGTAAAG AGGATTTTGG AGATCGTGCT TCTCTGAATG TCCAGTTGGA AAAATGTAGA 
    GTTGTTGCCC AAGATTTTCA TTTTAGTATA CAAACCATTA AGGAAGATCT TTGCCATTTC 
    AAAACATTTG TACAAAAAGA ACAGTGTGAC TTCTCAAATT CTTTAAAATG TACAGCAATA 
    GAAATAAGAA ATATTATTGA AAAAGTAAAA TGTTCCCTGG AAATAACACT AAAAGAAAAG 
    CATCAAAAAG AACTACAGTC TTTGAAAACT GAATATGAAG GTAAAGTCAA TGCATTAATT 
    AAGGAGAGTG AAGAAAATGA AAACAAAATT AAAAAATTGG AAGGAGACTT GGTATATCTT 
    GAGGAAGTTT TACAAAATAA AGATAGTGAA TTTGCTTTGG TTAAACATGA AAAAGAAGCT 
    GTCATCTGCC TGCAGAATGA AAAGGATCAG AAATTGTTGG AAATGGAAAA TATAATGCAC 
    ACTCAAAATT GTGAAATAAA CGAATTGAAA CAGTCAAGAG AAGTTGTGTT AGAAGATTTA 
    AAAAAGCTCC ATGTTGAAAA TGATGAGAAA ATTGAGTTAT TGAGGGCAGA ACTTCAGTGC 
    TTAGAGCAAA GCCACCTAAA AGAATTAGAA GACACATTGC ACGTCAGGCA CACACAGGAG 
    TTTGACAAAG TTATGACAGA CCACAAAATT TCTTTGGAGA AATTAAAACA GGAAAATCAA 
    CAAAGAATTG ATCAACTACA AGACTCTCAT GCCATAGCTA TCCATGAAAA AGAACAGCAG 
    CTGCAGGAAT TAAAACTCAA GGTTTCTGAT TTGTCAGACA TGAGATGTAA GTTGGAGGTT 
    GAGCTTGCAC TGAAGGAAGC AGAAACTGAT GAAATAAAAA TGTTGCTGGA AGAAAGCAGA 
    ATGCAGCAGA AAGAAACATT AGAATGTCTT CTTGAAAAAG AAACAGAAAA CTTGAGAACA 
    GAGATAAGTC AGTTAAACCA GAAGATTCAC AATAATAATG AAAATTATCA GGTGGGCTTA 
    GCAGAGCTAA GAACTTTAAT GACAATTGAA AAGGATCAAT GCATTTCAGA GTTAATTAGT 
    AGACACGAAG AAGAATCTGG CATACTTAAA GCTGAATTAG ATAAAGTAAC ATCTTTGCAT 
    CACCAAGCAT TTGAAATAGA AAAAAACCTA AAAGAACAAG TACTTGAACT GCAGAATAAA 
    TTGGATTCAG AATTGTGTGT TCTTGAAAAA CAAAAAGATG AAAAAATCAC CCAACAAGAA 
    GAGAAATATG AAGTCATTAT ACAGAACCTT GAGAAAGACC AAGAGAGATT GGTTATGAGC 
    CATGAACAAG AGAGAGAACA GTTAATTCAG AAGCTTAATT GTGAAAAAGA TGAAGCTATT 
    CAGACTGCCC TAAAAGAATT TAAATTGGAG AGAGAAGTTG TTGAGAAAGA GTTATTAGAA 
    AAAATTAAAC ATCTTGAAAA TCAAATAGCA AAAAGAGAAG ATTCTTCAAG CTTAGTTGCT 
    GAGCTTCAAG AAAAGCTTCA GGAAGAAAAA GCTAAGTTTC TGGAACAACT TGAAGAGCAA 
    GAGAAGAGAA AAAATGAAGA AATGCAAAAT GTTCGAACAT CTTTGATTGC TGAACAACAG 
    ACCAATTTTA ATACTGTTTT AACAAGAGAG AAAATGAGAA AAGAAAACAT AATAAATGAT 
    CTTAGTGATA AGTTGAAGAG TACAATGCAA CAACAAGAGC GGGATAAAGA CTTGATAGAA 
    TCACTTTCTG AAGATAGAGC TCGTTTGCTT GAGGAAAAGA AAAAGCTTGA AGAGGAAGTC 
    AGTAAGTTGC GTAGCAGCAC TTTTGTTCCT TCACCATATG TAGCTGCAGC CCCAGAACTT 
    TATGGAGCAT GTGCACCTGG ATCCCCAGGT GAAGCAGATC GATCAACCTT GGAGACAGCA 
    GATGAAGGAA GAGTGGATTC AGCAATGGAG ACAAGCATGA TGTCTGTCCA GGAAAATGTC 
    CATATGCTTT CTGAAGAAAA ACAGAGGATA ATGCTCTTAG AAAGAACATT GCAGTTGAAA 
    GAGGAAGAAA ATAAGCGGTT AAATCAACGA CTGATGTCTC AGAGCATGTC TTCTGTATCT 
    TCAAGGCATT CTGAAAAGAT AGCGATTAGA GATTTTCAGG TGGGAGATTT GGTACTCATC 
    ATCCTAGATG AACGCCACGA CAATTATGTA TTATTTACTG TTAGTCCTAC TTTATATTTT 
    TTGCACTCAG AATCTCTGCC TGCCCTGGAT CTCAAACCAG GTGAGGGTGC TTCAGGTGCA 
    TCTAGAAGAC CCTGGGTACT TGGAAAAGTA ATGGAAAAGG AATACTGTCA AGCCAAAAAG 
    GCACAAAACA GATTTAAAGT TCCTTTGGGG ACAAAGTTTT ACAGAGTGAA AGCTGTGTCA 
    TGGAATAAGA AAGTATAA

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

見積依頼

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電話

03-6811-6572

FAX

03-6811-6573
050-3174-7589(受注専用)

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