ORF » Species Summary » Saccharomyces cerevisiae S288C » YRF1-5 cDNA ORF clone

YRF1-5 cDNA ORF clone, Saccharomyces cerevisiae S288C

  • Gene

  • Clones

  • gRNAs

The following YRF1-5 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the YRF1-5 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
OSi00776 NM_001182355.3
Latest version!		 Saccharomyces cerevisiae S288C Y' element ATP-dependent helicase protein 1 copy 5 (YRF1-5), partial mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $1021.30
$1459.00

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    YRF1-5 ( NM_001182355.3 ) cDNA ORF clone, Saccharomyces cerevisiae S288C -> NP_013572.3 Saccharomyces cerevisiae S288C Y' element ATP-dependent helicase protein 1 copy 5 (YRF1-5), partial mRNA.
    Price & Availability↑
    CloneID OSi00776
    Clone ID Related Accession (Same CDS sequence) NM_001182355.3
    Accession Version NM_001182355.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5391bp)
    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 2019-10-31
    Organism Saccharomyces cerevisiae S288C
    Product Y' element ATP-dependent helicase protein 1 copy 5
    Comment Comment: REVIEWED REFSEQ: This record has been curated by SGD. This record is derived from an annotated genomic sequence (NC_001144). On Jul 30, 2012 this sequence version replaced NM_001182355.2. ##Genome-Annotation-Data-START## Annotation Provider :: SGD Annotation Status :: Full Annotation Annotation Version :: R64-2-1 URL :: http://www.yeastgenome.org/ ##Genome-Annotation-Data-END## COMPLETENESS: incomplete on both ends. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    ATGAAAGTTT CCGATAGGCG TAAGTTTGAA AAAGCAAACT TTGACGAGTT TGAGTCGGCT 
    CTAAATAACA AAAACGACTT GGTACATTGT CCCTCAATAA CTTTATTTGA ATCGATCCCC 
    ACGGAAGTGC GGTCATTCTA CGAAGACGAA AAGTCTGGCC TAATCAAAGT GGTAAAATTC 
    AGAACTGGTG CAATGGATAG GAAAAGGTCT TTTGAAAAAA TTGTCATTTC CGTCATGGTC 
    GGGAAAAATG TACAAAAGTT CCTGACATTT GTTGAAGACG AACCAGATTT CCAGGGCGGA 
    CCAATCCCTT CAAAGTATCT TATTCCCAAG AAAATCAACT TGATGGTCTA CACGTTGTTT 
    CAAGTGCATA CTTTGAAATT CAATAGAAAG GATTACGATA CCCTTTCTCT TTTTTACCTC 
    AACAGAGGAT ACTATAATGA GTTGAGTTTC CGTGTCCTGG AACGTTGTCA CGAAATAGCG 
    AGTGCCAGGC CGAACGACAG CTCTACGATG CGTACTTTCA CTGACTTTGT TTCTGGCGCA 
    CCTATTGTAA GGAGTCTTCA GAAAAGCACC ATAAGGAAAT ATGGGTACAA TTTGGCACCC 
    TACATGTTCT TGTTACTACA CGTAGATGAG CTATCGATTT TTTCTGCATA CCAAGCAAGT 
    TTACCTGGCG AAAAGAAAGT CGACACAGAG CGGCTGAAGC GTGATCTATG CCCACGTAAA 
    CCCATTGAGA TAAAGTACTT TTCACAGATA TGTAACGATA TGATGAACAA AAAAGACCGA 
    TTGGGTGATA TTTTGCATAT TATCTTGCGA GCATGTGCGC TCAATTTCGG GGCGGGTCCC 
    CGTGGTGGCG CTGGTGACGA AGAGGATCGA TCTATTACGA ATGAAGAACC CATTATTCCC 
    TCTGTGGACG AGCATGGCTT GAAAGTATGT AAGTTGCGTA GTCCTAACAC TCCACGAAGA 
    CTCAGAAAAA CACTAGATGC CGTGAAAGCT TTATTGGTGT CGTCTTGTGC TTGTACTGCA 
    AGGGATTTAG ATATATTTGA TGACACCAAC GGCGTTGCAA TGTGGAAATG GATCAAAATT 
    CTGTACCACG AAGTAGCGCA GGAAACCACG CTGAAGGACT CTTATAGAAT AACTTTGGTA 
    CCTTCTTCTG ATGGTATATC AGTATGTGGA AAACTTTTTA ATCGCGAGTA TGTCCGCGGC 
    TTTTACTTTG CATGCAAGGC TCAGTTCGAT AACCTTTGGG GAGAGTTGAA CAACTGCTTT 
    TATATGCCTA CAGTGGTTGA TATTGCCAGC CTCATTTTGC GTAATCGAGA AGTTTTGTTC 
    AGAGAGCCAA AGCGAGGAAT TGACGAGTAT CTGGAAAACG ATTCTTTTCT TCAAATGATA 
    CCTGTTAAAT ATCGTGAAAT TGTGCTGCCC AAGTTGAGAA GAGATACTAA CAAAATGACC 
    GCGGCTCTTA AAAATAAAGT CACTGTTGCA ATTGACGAGC TTACGGTGCC ACTTATGTGG 
    ATGGTCCATT TTGCCGTAGG ATACCCTTAC CGTTATCCAG AGCTTCAGCT ACTCGCTTTT 
    GCCGGTCCTC AGCGCAACGT ATACGTCGAT GATACAACAA GACGCATCCA ACTGTACACT 
    GATTACAACA AGAACGGTTC ATCGGAGCCT CGACTTAAGA CGCTTGACGG ACTCACTTCA 
    GATTACGTGT TTTATTTTGT CACTGTGCTA AGGCAAATGC AAATATGTGC GCTTGGTAAC 
    AGTTATGACG CTTTTAATCA TGATCCTTGG ATGGATGTGG TGGGATTTGA GGATCCAGAT 
    CAAGTAACAA ATCGAGACAT TTCGAGGATA GTTTTGTATT CCTACATGTT TCTGAATACC 
    GCGAAGGGCT GTCTGGTTGA ATACGCAACT TTTCGGCAGT ACATGAGGGA ACTTCCGAAG 
    AATGCACCTC AGAAGCTGAA TTTTCGGGAG ATGCGTCAGG GGTTGATTGC CCTAGGACGG 
    CACTGCGTAG GTAGCAGATT TGAAACAGAT TTGTACGAGT CGGCGACGAG TGAACTCATG 
    GCCAATCATT CCGTTCAAAC AGGGCGAAAT ATTTACGGTG TGGATTCCTT TTCGTTAACT 
    AGTGTCAGTG GGACGACCGC CACTTTATTG CAGGAACGAG CTTCCGAGCG CTGGATTCAA 
    TGGTTAGGCC TTGAAAGCGA CTACCATTGT TCATTCTCTA GTACTCGGAA TGCGGAAGAC 
    GTAGTGGCAG GTGAGGCGGC GAGTTCAGAT CATGATCAAA AAATTTCAAG AGTAACGCGA 
    AAAAGGCCCC GAGAGCCCAA GAGTACAAAC GATATCCTCG TCGCAGGCCA GAAACTCTTT 
    GGCAGCTCCT TTGAATTCAG GGACTTGCAT CAGTTGCGCT TATGTCATGA AATATACATG 
    GCAGACACAC CCTCTGTGGC AGTACAGGCC CCACCGGGCT ATGGTAAGAC GGAGTTATTT 
    CATCTCCCCT TGATAGCACT GGCGTCTAAG GGCGACGTGA AATATGTGTC GTTTCTGTTT 
    GTACCGTACA CAGTGTTGCT TGCTAATTGC ATGATCAGGT TGAGCCGATG CGGTTGCTTG 
    AATGTGGCCC CTGTAAGAAA CTTTATTGAA GAAGGTTGCG ATGGCGTTAC TGATTTATAC 
    GTGGGGATCT ACGATGATCT TGCTAGCACT AATTTCACAG ACAGGATAGC TGCGTGGGAG 
    AATATTGTTG AGTGCACCTT TAGGACCAAC AACGTAAAAT TGGGTTACCT CATTGTAGAT 
    GAGTTTCACA ACTTTGAAAC GGAGGTCTAC CGGCAGTCGC AATTTGGGGG CATAACTAAC 
    CTTGATTTTG ACGCTTTTGA GAAAGCAATC TTTTTGAGCG GCACAGCACC TGAGGCTGTA 
    GCTGATGCTG CGTTGCAGCG TATTGGGCTT ACGGGACTGG CCAAGAAGTC GATGGACATC 
    AACGAGCTCA AACGGTCGGA AGATCTCAGC AGAGGTCTAT CCAGCTATCC AACACGGATG 
    TTTAATCTAA TCAAGGAGAA ATCCGAGGTG CCTTTAGGGC ATGTTCATAA AATTTGGAAG 
    AAAGTGGAAT CACAGCCCGA AGAAGCACTG AAGCTTCTTT TAGCCCTCTT TGAAATTGAA 
    CCAGAGTCGA AGGCCATTGT AGTTGCAAGC ACAACCAACG AAGTGGAAGA ATTGGCCTGC 
    TCTTGGAGAA AGTATTTTAG GGTGGTATGG ATACACGGGA AGCTGGGTGC TGCAGAAAAG 
    GTGTCTCGCA CAAAGGAGTT TGTCACTGAC GGTAGCATGC GAGTTCTCAT CGGAACGAAA 
    TTAGTGACTG AAGGAATTGA CATTAAGCAA TTGATGATGG TGATCATGCT TGATAATAGA 
    CTTAATATTA TTGAGCTCAT TCAAGGCGTA GGGAGACTAA GAGATGGGGG CCTCTGTTAT 
    CTATTATCTA GAAAAAACAG TTGGGCGGCA AGGAATCGTA AGGGTGAATT ACCACCGATT 
    AAGGAAGGCT GTATAACCGA ACAGGTACGC GAGTTCTATG GACTTGAATC AAAGAAAGGA 
    AAAAAGGGCC AGCATGTTGG ATGCTGTGGC TCCAGGACAG ACCTGTCTGC TGACACAGTG 
    GAACTGATAG AAAGAATGGA CAGATTGGCT GAAAAACAGG CGACAGCTTC CATGTCGATC 
    ATTGCGTTAC CGTCTAGCTT CCAGGAGAGC AATAGCAGTG ACAGGTGCAG AAAGTATTGC 
    AGCAGTGATG AGGACAGCGA CACGTGCATT CATGGTAGTG CTAATGCCAG TACCAATGCG 
    ACTACCAACT CCAGCACTAA TGCTACTACC ACTGCCAGCA CCAACGTCAG GACTAGTGCT 
    ACTACCACTG CCAGCATCAA CGTCAGGACT AGTGCGATTA CCACTGAAAG TACCAACTCC 
    AGCACTAATG CTACTACCAC TGCCAGCACC AACGTCAGGA CTAGTGCTAC TACCACTGCC 
    AGCATCAACG TCAGGACTAG TGCGACTACC ACTGAAAGTA CCAACTCCAA CACTAGTGCT 
    ACTACCACCG AAAGTACCGA CTCCAACACT AGTGCTACTA CCACCGAAAG TACCGACTCC 
    AACACTAGTG CTACTACCAC TGCTAGCACC AACTCCAGCA CTAATGCCAC TACCACTGCT 
    AGCACCAACT CCAGCACTAA TGCCACTACC ACTGAAAGTA CCAACGCTAG TGCCAAGGAG 
    GACGCCAATA AAGATGGCAA TGCTGAGGAT AATAGATTCC ATCCAGTCAC CGACATTAAC 
    AAAGAGTCGT ATAAGCGGAA AGGGAGTCAA ATGGTTTTGC TAGAGAGAAA GAAACTGAAA 
    GCACAATTTC CCAATACTTC CGAGAATATG AATGTCTTAC AGTTTCTTGG ATTTCGGTCT 
    GACGAAATTA AACATCTTTT CCTCTATGGT ATTGACGTAT ACTTCTGCCC AGAGGGAGTA 
    TTCACACAAT ACGGATTATG CAAGGGCTGT CAAAAGATGT TCGAGCTCTG TGTCTGTTGG 
    GCTGGCCAGA AAGTATCGTA TCGGAGGATG GCTTGGGAAG CACTAGCTGT GGAGAGAATG 
    CTGCGAAATG ACGAGGAATA CAAAGAATAC TTGGAAGACA TCGAGCCATA TCATGGGGAC 
    CCTGTAGGAT ATTTGAAATA TTTTAGCGTA AAAAGGGGAG AGATCTACTC TCAGATACAG 
    AGAAATTATG CTTGGTACCT GGCCATTACT AGAAGAAGAG AAACAATTAG TGTATTGGAT 
    TCGACAAGAG GCAAGCAAGG GAGCCAAGTT TTCCGCATGT CTGGAAGGCA GATCAAAGAG 
    TTGTATTATA AAGTATGGAG CAACTTGCGT GAATCGAAGA CAGAGGTGCT GCAGTACTTT 
    TTGAACTGGG ACGAGAAAAA GTGCCGGGAA GAATGGGAGG CAAAAGACGA TACGGTCTTT 
    GTGGAAGCGC TCGAGAAAGT TGGAGTTTTT CAGCGTTTGC GTTCCATGAC GAGCGCTGGA 
    CTGCAGGGTC CGCAGTACGT CAAGCTGCAG TTTAGCAGGC ATCATCGACA GTTGAGGAGC 
    AGATATGAAT TAAGTCTAGG AATGCACTTG CGAGATCAGC TTGCGCTGGG AGTTACCCCA 
    TCTAAAGTGC CGCATTGGAC GGCATTCCTG TCGATGCTGA TAGGGCTGTT CTACAATAAA 
    ACATTTCGGC AGAAACTGGA ATATCTTTTG GAGCAGATTT CGGAGGTGTG GTTGTTACCA 
    CATTGGCTTG ATTTGGCAAA CGTTGAAGTT CTCGCTGCAG ATAACACGAG GGTACCGCTG 
    TACATGCTGA TGGTAGCGGT TCACAAAGAG CTGGATAGCG ATGATGTTCC AGACGGTAGA 
    TTTGATATAA TATTACTATG TAGAGATTCG AGCAGAGAAG TTGGAGAGTG A

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

    RefSeq NP_013572.3
    CDS1..5391
    Translation

    Target ORF information:

    RefSeq Version NM_001182355.3
    Organism Saccharomyces cerevisiae S288C
    Definition Saccharomyces cerevisiae S288C Y' element ATP-dependent helicase protein 1 copy 5 (YRF1-5), partial mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001182355.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    ATGAAAGTTT CCGATAGGCG TAAGTTTGAA AAAGCAAACT TTGACGAGTT TGAGTCGGCT 
    CTAAATAACA AAAACGACTT GGTACATTGT CCCTCAATAA CTTTATTTGA ATCGATCCCC 
    ACGGAAGTGC GGTCATTCTA CGAAGACGAA AAGTCTGGCC TAATCAAAGT GGTAAAATTC 
    AGAACTGGTG CAATGGATAG GAAAAGGTCT TTTGAAAAAA TTGTCATTTC CGTCATGGTC 
    GGGAAAAATG TACAAAAGTT CCTGACATTT GTTGAAGACG AACCAGATTT CCAGGGCGGA 
    CCAATCCCTT CAAAGTATCT TATTCCCAAG AAAATCAACT TGATGGTCTA CACGTTGTTT 
    CAAGTGCATA CTTTGAAATT CAATAGAAAG GATTACGATA CCCTTTCTCT TTTTTACCTC 
    AACAGAGGAT ACTATAATGA GTTGAGTTTC CGTGTCCTGG AACGTTGTCA CGAAATAGCG 
    AGTGCCAGGC CGAACGACAG CTCTACGATG CGTACTTTCA CTGACTTTGT TTCTGGCGCA 
    CCTATTGTAA GGAGTCTTCA GAAAAGCACC ATAAGGAAAT ATGGGTACAA TTTGGCACCC 
    TACATGTTCT TGTTACTACA CGTAGATGAG CTATCGATTT TTTCTGCATA CCAAGCAAGT 
    TTACCTGGCG AAAAGAAAGT CGACACAGAG CGGCTGAAGC GTGATCTATG CCCACGTAAA 
    CCCATTGAGA TAAAGTACTT TTCACAGATA TGTAACGATA TGATGAACAA AAAAGACCGA 
    TTGGGTGATA TTTTGCATAT TATCTTGCGA GCATGTGCGC TCAATTTCGG GGCGGGTCCC 
    CGTGGTGGCG CTGGTGACGA AGAGGATCGA TCTATTACGA ATGAAGAACC CATTATTCCC 
    TCTGTGGACG AGCATGGCTT GAAAGTATGT AAGTTGCGTA GTCCTAACAC TCCACGAAGA 
    CTCAGAAAAA CACTAGATGC CGTGAAAGCT TTATTGGTGT CGTCTTGTGC TTGTACTGCA 
    AGGGATTTAG ATATATTTGA TGACACCAAC GGCGTTGCAA TGTGGAAATG GATCAAAATT 
    CTGTACCACG AAGTAGCGCA GGAAACCACG CTGAAGGACT CTTATAGAAT AACTTTGGTA 
    CCTTCTTCTG ATGGTATATC AGTATGTGGA AAACTTTTTA ATCGCGAGTA TGTCCGCGGC 
    TTTTACTTTG CATGCAAGGC TCAGTTCGAT AACCTTTGGG GAGAGTTGAA CAACTGCTTT 
    TATATGCCTA CAGTGGTTGA TATTGCCAGC CTCATTTTGC GTAATCGAGA AGTTTTGTTC 
    AGAGAGCCAA AGCGAGGAAT TGACGAGTAT CTGGAAAACG ATTCTTTTCT TCAAATGATA 
    CCTGTTAAAT ATCGTGAAAT TGTGCTGCCC AAGTTGAGAA GAGATACTAA CAAAATGACC 
    GCGGCTCTTA AAAATAAAGT CACTGTTGCA ATTGACGAGC TTACGGTGCC ACTTATGTGG 
    ATGGTCCATT TTGCCGTAGG ATACCCTTAC CGTTATCCAG AGCTTCAGCT ACTCGCTTTT 
    GCCGGTCCTC AGCGCAACGT ATACGTCGAT GATACAACAA GACGCATCCA ACTGTACACT 
    GATTACAACA AGAACGGTTC ATCGGAGCCT CGACTTAAGA CGCTTGACGG ACTCACTTCA 
    GATTACGTGT TTTATTTTGT CACTGTGCTA AGGCAAATGC AAATATGTGC GCTTGGTAAC 
    AGTTATGACG CTTTTAATCA TGATCCTTGG ATGGATGTGG TGGGATTTGA GGATCCAGAT 
    CAAGTAACAA ATCGAGACAT TTCGAGGATA GTTTTGTATT CCTACATGTT TCTGAATACC 
    GCGAAGGGCT GTCTGGTTGA ATACGCAACT TTTCGGCAGT ACATGAGGGA ACTTCCGAAG 
    AATGCACCTC AGAAGCTGAA TTTTCGGGAG ATGCGTCAGG GGTTGATTGC CCTAGGACGG 
    CACTGCGTAG GTAGCAGATT TGAAACAGAT TTGTACGAGT CGGCGACGAG TGAACTCATG 
    GCCAATCATT CCGTTCAAAC AGGGCGAAAT ATTTACGGTG TGGATTCCTT TTCGTTAACT 
    AGTGTCAGTG GGACGACCGC CACTTTATTG CAGGAACGAG CTTCCGAGCG CTGGATTCAA 
    TGGTTAGGCC TTGAAAGCGA CTACCATTGT TCATTCTCTA GTACTCGGAA TGCGGAAGAC 
    GTAGTGGCAG GTGAGGCGGC GAGTTCAGAT CATGATCAAA AAATTTCAAG AGTAACGCGA 
    AAAAGGCCCC GAGAGCCCAA GAGTACAAAC GATATCCTCG TCGCAGGCCA GAAACTCTTT 
    GGCAGCTCCT TTGAATTCAG GGACTTGCAT CAGTTGCGCT TATGTCATGA AATATACATG 
    GCAGACACAC CCTCTGTGGC AGTACAGGCC CCACCGGGCT ATGGTAAGAC GGAGTTATTT 
    CATCTCCCCT TGATAGCACT GGCGTCTAAG GGCGACGTGA AATATGTGTC GTTTCTGTTT 
    GTACCGTACA CAGTGTTGCT TGCTAATTGC ATGATCAGGT TGAGCCGATG CGGTTGCTTG 
    AATGTGGCCC CTGTAAGAAA CTTTATTGAA GAAGGTTGCG ATGGCGTTAC TGATTTATAC 
    GTGGGGATCT ACGATGATCT TGCTAGCACT AATTTCACAG ACAGGATAGC TGCGTGGGAG 
    AATATTGTTG AGTGCACCTT TAGGACCAAC AACGTAAAAT TGGGTTACCT CATTGTAGAT 
    GAGTTTCACA ACTTTGAAAC GGAGGTCTAC CGGCAGTCGC AATTTGGGGG CATAACTAAC 
    CTTGATTTTG ACGCTTTTGA GAAAGCAATC TTTTTGAGCG GCACAGCACC TGAGGCTGTA 
    GCTGATGCTG CGTTGCAGCG TATTGGGCTT ACGGGACTGG CCAAGAAGTC GATGGACATC 
    AACGAGCTCA AACGGTCGGA AGATCTCAGC AGAGGTCTAT CCAGCTATCC AACACGGATG 
    TTTAATCTAA TCAAGGAGAA ATCCGAGGTG CCTTTAGGGC ATGTTCATAA AATTTGGAAG 
    AAAGTGGAAT CACAGCCCGA AGAAGCACTG AAGCTTCTTT TAGCCCTCTT TGAAATTGAA 
    CCAGAGTCGA AGGCCATTGT AGTTGCAAGC ACAACCAACG AAGTGGAAGA ATTGGCCTGC 
    TCTTGGAGAA AGTATTTTAG GGTGGTATGG ATACACGGGA AGCTGGGTGC TGCAGAAAAG 
    GTGTCTCGCA CAAAGGAGTT TGTCACTGAC GGTAGCATGC GAGTTCTCAT CGGAACGAAA 
    TTAGTGACTG AAGGAATTGA CATTAAGCAA TTGATGATGG TGATCATGCT TGATAATAGA 
    CTTAATATTA TTGAGCTCAT TCAAGGCGTA GGGAGACTAA GAGATGGGGG CCTCTGTTAT 
    CTATTATCTA GAAAAAACAG TTGGGCGGCA AGGAATCGTA AGGGTGAATT ACCACCGATT 
    AAGGAAGGCT GTATAACCGA ACAGGTACGC GAGTTCTATG GACTTGAATC AAAGAAAGGA 
    AAAAAGGGCC AGCATGTTGG ATGCTGTGGC TCCAGGACAG ACCTGTCTGC TGACACAGTG 
    GAACTGATAG AAAGAATGGA CAGATTGGCT GAAAAACAGG CGACAGCTTC CATGTCGATC 
    ATTGCGTTAC CGTCTAGCTT CCAGGAGAGC AATAGCAGTG ACAGGTGCAG AAAGTATTGC 
    AGCAGTGATG AGGACAGCGA CACGTGCATT CATGGTAGTG CTAATGCCAG TACCAATGCG 
    ACTACCAACT CCAGCACTAA TGCTACTACC ACTGCCAGCA CCAACGTCAG GACTAGTGCT 
    ACTACCACTG CCAGCATCAA CGTCAGGACT AGTGCGATTA CCACTGAAAG TACCAACTCC 
    AGCACTAATG CTACTACCAC TGCCAGCACC AACGTCAGGA CTAGTGCTAC TACCACTGCC 
    AGCATCAACG TCAGGACTAG TGCGACTACC ACTGAAAGTA CCAACTCCAA CACTAGTGCT 
    ACTACCACCG AAAGTACCGA CTCCAACACT AGTGCTACTA CCACCGAAAG TACCGACTCC 
    AACACTAGTG CTACTACCAC TGCTAGCACC AACTCCAGCA CTAATGCCAC TACCACTGCT 
    AGCACCAACT CCAGCACTAA TGCCACTACC ACTGAAAGTA CCAACGCTAG TGCCAAGGAG 
    GACGCCAATA AAGATGGCAA TGCTGAGGAT AATAGATTCC ATCCAGTCAC CGACATTAAC 
    AAAGAGTCGT ATAAGCGGAA AGGGAGTCAA ATGGTTTTGC TAGAGAGAAA GAAACTGAAA 
    GCACAATTTC CCAATACTTC CGAGAATATG AATGTCTTAC AGTTTCTTGG ATTTCGGTCT 
    GACGAAATTA AACATCTTTT CCTCTATGGT ATTGACGTAT ACTTCTGCCC AGAGGGAGTA 
    TTCACACAAT ACGGATTATG CAAGGGCTGT CAAAAGATGT TCGAGCTCTG TGTCTGTTGG 
    GCTGGCCAGA AAGTATCGTA TCGGAGGATG GCTTGGGAAG CACTAGCTGT GGAGAGAATG 
    CTGCGAAATG ACGAGGAATA CAAAGAATAC TTGGAAGACA TCGAGCCATA TCATGGGGAC 
    CCTGTAGGAT ATTTGAAATA TTTTAGCGTA AAAAGGGGAG AGATCTACTC TCAGATACAG 
    AGAAATTATG CTTGGTACCT GGCCATTACT AGAAGAAGAG AAACAATTAG TGTATTGGAT 
    TCGACAAGAG GCAAGCAAGG GAGCCAAGTT TTCCGCATGT CTGGAAGGCA GATCAAAGAG 
    TTGTATTATA AAGTATGGAG CAACTTGCGT GAATCGAAGA CAGAGGTGCT GCAGTACTTT 
    TTGAACTGGG ACGAGAAAAA GTGCCGGGAA GAATGGGAGG CAAAAGACGA TACGGTCTTT 
    GTGGAAGCGC TCGAGAAAGT TGGAGTTTTT CAGCGTTTGC GTTCCATGAC GAGCGCTGGA 
    CTGCAGGGTC CGCAGTACGT CAAGCTGCAG TTTAGCAGGC ATCATCGACA GTTGAGGAGC 
    AGATATGAAT TAAGTCTAGG AATGCACTTG CGAGATCAGC TTGCGCTGGG AGTTACCCCA 
    TCTAAAGTGC CGCATTGGAC GGCATTCCTG TCGATGCTGA TAGGGCTGTT CTACAATAAA 
    ACATTTCGGC AGAAACTGGA ATATCTTTTG GAGCAGATTT CGGAGGTGTG GTTGTTACCA 
    CATTGGCTTG ATTTGGCAAA CGTTGAAGTT CTCGCTGCAG ATAACACGAG GGTACCGCTG 
    TACATGCTGA TGGTAGCGGT TCACAAAGAG CTGGATAGCG ATGATGTTCC AGACGGTAGA 
    TTTGATATAA TATTACTATG TAGAGATTCG AGCAGAGAAG TTGGAGAGTG A

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

  • PubMed

    The nucleotide sequence of Saccharomyces cerevisiae chromosome XII.
    Nature387(6632 Suppl)87-90(1997 May)
    Johnston M,Hillier L,Riles L,Albermann K,Andr? B,Ansorge W,Benes V,Br?ckner M,Delius H,Dubois E,D?sterh?ft A,Entian KD,Floeth M,Goffeau A,Hebling U,Heumann K,Heuss-Neitzel D,Hilbert H,Hilger F,Kleine K,K?tter P,Louis EJ,Messenguy F,Mewes HW,Hoheisel JD


    Life with 6000 genes.
    Science (New York, N.Y.)274(5287)546, 563-7(1996 Oct)
    Goffeau A,Barrell BG,Bussey H,Davis RW,Dujon B,Feldmann H,Galibert F,Hoheisel JD,Jacq C,Johnston M,Louis EJ,Mewes HW,Murakami Y,Philippsen P,Tettelin H,Oliver SG


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