DUR1,2 cDNA ORF clone, Saccharomyces cerevisiae S288C

The following DUR1,2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the DUR1,2 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
OSi01907 NM_001178556.1
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Saccharomyces cerevisiae S288C bifunctional urea carboxylase/allophanate hydrolase (DUR1,2), partial mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $1021.30
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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)
    CloneID OSi01907
    Clone ID Related Accession (Same CDS sequence) NM_001178556.1
    Accession Version NM_001178556.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5508bp)
    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 bifunctional urea carboxylase/allophanate hydrolase
    Comment Comment: REVIEWED REFSEQ: This record has been curated by SGD. This record is derived from an annotated genomic sequence (NC_001134). ##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
    5401
    5461
    ATGACAGTTA GTTCCGATAC AACTGCTGAA ATATCGTTAG GTTGGTCAAT CCAAGACTGG 
    ATTGATTTCC ACAAGTCATC AAGCTCCCAG GCTTCACTAA GGCTTCTTGA ATCACTACTA
    GACTCTCAAA ATGTTGCGCC AGTCGATAAT GCGTGGATAT CGCTAATTTC AAAGGAAAAT
    TTACTGCACC AATTCCAAAT TTTAAAGAGC AGAGAAAATA AAGAAACTCT ACCTCTCTAC
    GGTGTCCCTA TTGCTGTTAA GGACAACATC GACGTTAGAG GTCTACCCAC CACCGCTGCA
    TGTCCATCCT TTGCATATGA GCCTTCCAAA GACTCTAAAG TAGTAGAACT ACTAAGAAAT
    GCAGGTGCGA TAATCGTGGG TAAGACAAAC TTGGACCAAT TTGCCACAGG ATTAGTCGGC
    ACACGGTCTC CATATGGGAA AACACCTTGC GCTTTTAGCA AAGAGCATGT ATCTGGTGGT
    TCCTCCGCTG GGTCAGCATC GGTGGTCGCC AGAGGTATCG TACCAATTGC ATTGGGTACT
    GATACAGCAG GTTCTGGTAG AGTCCCAGCC GCCTTGAACA ACCTGATTGG CCTAAAGCCA
    ACAAAGGGCG TCTTTTCCTG TCAAGGTGTA GTTCCCGCTT GTAAATCTTT AGACTGCGTC
    TCCATCTTTG CATTAAACCT AAGTGATGCT GAACGCTGCT TCCGCATCAT GTGCCAGCCA
    GATCCTGATA ATGATGAATA TTCTAGACCC TATGTTTCCA ACCCTTTGAA AAAATTTTCA
    AGCAATGTAA CGATTGCTAT TCCTAAAAAT ATCCCATGGT ATGGTGAAAC CAAGAATCCT
    GTACTGTTTT CCAATGCTGT CGAAAATCTA TCAAGAACGG GCGCTAACGT CATAGAAATT
    GATTTTGAGC CTCTTTTAGA GTTAGCTCGC TGTTTATACG AAGGTACTTG GGTGGCCGAG
    CGTTATCAAG CTATTCAATC GTTTTTGGAC AGTAAACCAC CAAAGGAATC TTTGGACCCT
    ACTGTTATTT CAATTATAGA AGGGGCCAAG AAATACAGTG CAGTAGACTG CTTCAGTTTT
    GAATACAAAA GACAAGGCAT CTTGCAAAAA GTGAGACGAC TTCTCGAATC AGTCGATGTA
    TTGTGTGTGC CCACATGTCC TTTAAATCCT ACTATGCAAC AAGTTGCGGA TGAACCAGTC
    CTAGTCAATT CAAGACAAGG CACATGGACT AATTTTGTCA ACTTGGCAGA TTTGGCAGCC
    CTTGCTGTTC CCGCAGGGTT CCGAGACGAT GGTTTGCCAA ATGGTATTAC TTTAATCGGT
    AAAAAATTCA CAGATTACGC ACTATTAGAG TTGGCTAACC GCTATTTCCA AAATATATTC
    CCCAACGGTT CCAGAACATA CGGTACTTTT ACCTCTTCTT CAGTAAAGCC AGCAAACGAT
    CAATTAGTGG GACCAGACTA TGACCCATCT ACGTCCATAA AATTGGCTGT TGTCGGTGCA
    CATCTTAAGG GTCTGCCTCT ACATTGGCAA TTGGAAAAGG TCAATGCAAC ATATTTATGT
    ACAACAAAAA CATCAAAAGC TTACCAGCTT TTTGCTTTGC CCAAAAATGG ACCAGTTTTA
    AAACCTGGTT TGAGAAGAGT TCAAGATAGC AATGGCTCTC AAATCGAATT AGAAGTGTAC
    AGTGTTCCAA AAGAACTGTT CGGTGCTTTT ATTTCCATGG TTCCTGAACC ATTAGGAATA
    GGTTCAGTGG AGTTAGAATC TGGTGAATGG ATCAAATCCT TTATTTGTGA AGAATCTGGT
    TACAAAGCCA AAGGTACAGT TGATATCACA AAGTATGGTG GATTTAGAGC ATATTTTGAA
    ATGTTGAAGA AAAAAGAGTC CCAAAAGAAG AAGTTATTTG ATACCGTGTT AATTGCCAAT
    AGAGGTGAAA TTGCCGTTCG TATTATCAAG ACATTAAAAA AATTGGGTAT TAGATCAGTT
    GCAGTTTATT CCGACCCTGA TAAATATTCT CAACACGTTA CTGATGCAGA TGTTTCTGTA
    CCCCTTCATG GCACAACCGC AGCCCAAACT TATTTAGACA TGAATAAGAT CATAGATGCC
    GCTAAGCAAA CTAATGCACA GGCCATTATT CCTGGTTATG GTTTCTTGTC GGAAAATGCG
    GATTTTTCTG ATGCGTGCAC CAGTGCTGGC ATTACCTTTG TTGGTCCTTC GGGAGATATT
    ATCAGAGGTT TAGGGTTAAA ACATTCTGCT AGACAGATTG CACAGAAGGC TGGCGTTCCT
    CTAGTGCCAG GCTCTTTGCT TATCACATCA GTTGAAGAGG CTAAGAAAGT CGCAGCGGAA
    TTGGAATACC CAGTTATGGT GAAGTCAACT GCTGGTGGCG GTGGTATTGG TTTGCAGAAA
    GTCGATTCTG AAGAGGACAT CGAGCATATT TTTGAGACTG TGAAACATCA AGGTGAAACA
    TTTTTCGGTG ACGCTGGTGT ATTTCTGGAA CGGTTTATCG AAAATGCCAG GCATGTTGAA
    GTCCAACTTA TGGGAGATGG TTTTGGTAAG GCCATTGCTT TGGGCGAACG TGATTGTTCT
    TTACAGCGTC GTAACCAAAA AGTTATCGAA GAAACTCCTG CACCAAATTT GCCAGAAAAG
    ACGAGGTTGG CGTTAAGAAA GGCAGCTGAA AGTTTGGGAT CTTTATTGAA TTACAAGTGT
    GCTGGTACGG TTGAATTTAT TTACGATGAG AAAAAGGACG AGTTTTACTT TTTAGAAGTT
    AATACAAGAT TACAAGTTGA ACATCCAATA ACAGAAATGG TTACAGGGTT AGACTTGGTC
    GAGTGGATGA TCAGGATTGC CGCTAATGAT GCACCTGATT TTGATTCTAC AAAGGTAGAA
    GTCAATGGGG TTTCAATGGA GGCACGTTTA TATGCTGAAA ATCCATTGAA AAATTTCAGA
    CCTTCTCCAG GTTTACTTGT CGATGTGAAA TTTCCTGATT GGGCAAGAGT GGATACTTGG
    GTTAAGAAAG GTACTAATAT TTCTCCCGAA TATGATCCAA CATTGGCCAA AATTATCGTT
    CATGGGAAAG ACCGTGATGA TGCAATTTCC AAGTTAAATC AAGCGTTAGA AGAAACAAAA
    GTTTACGGAT GTATTACTAA CATTGACTAC CTGAAGTCTA TCATTACCAG TGATTTCTTT
    GCTAAAGCAA AAGTTTCTAC AAACATTTTG AACTCTTATC AATATGAGCC TACCGCCATC
    GAAATTACTT TGCCCGGTGC ACACACTAGT ATTCAGGATT ACCCCGGTAG AGTTGGGTAC
    TGGAGAATTG GTGTTCCGCC CTCTGGTCCA ATGGACGCAT ATTCGTTTAG ATTGGCGAAC
    AGAATTGTTG GTAATGACTA CAGGACTCCT GCCATTGAAG TAACGTTGAC TGGTCCATCC
    ATCGTTTTCC ATTGTGAAAC TGTCATTGCC ATTACTGGTG GTACCGCTCT ATGTACATTA
    GACGGCCAAG AAATTCCCCA ACACAAACCG GTCGAAGTTA AGAGGGGATC TACTTTATCC
    ATTGGCAAGT TGACAAGCGG CTGTAGAGCA TACTTAGGTA TCAGGGGTGG CATTGATGTG
    CCTAAATACT TGGGCTCTTA TTCTACTTTC ACTCTAGGAA ATGTCGGTGG ATACAATGGA
    AGGGTGCTAA AACTTGGAGA CGTACTATTC TTACCAAGCA ATGAAGAAAA TAAATCAGTT
    GAGTGCCTTC CACAGAATAT TCCTCAATCA TTAATTCCTC AAATTTCCGA AACTAAGGAA
    TGGAGAATTG GTGTAACATG TGGTCCCCAT GGGTCTCCAG ATTTTTTTAA ACCTGAGTCC
    ATCGAAGAAT TTTTCAGTGA GAAGTGGAAG GTTCATTACA ACTCCAATAG ATTTGGTGTC
    CGTTTGATTG GACCTAAACC TAAGTGGGCA AGAAGTAATG GTGGTGAAGG TGGTATGCAT
    CCTTCAAACA CTCACGATTA CGTTTATTCT CTGGGTGCAA TTAATTTCAC GGGTGATGAG
    CCAGTTATTA TTACTTGCGA TGGTCCTTCC TTAGGTGGTT TTGTGTGTCA AGCTGTTGTC
    CCAGAAGCAG AACTGTGGAA GGTTGGACAG GTTAAACCCG GTGATTCCAT TCAGTTTGTG
    CCACTTTCTT ACGAAAGCTC GAGATCCTTA AAGGAATCTC AGGATGTTGC AATTAAATCA
    TTGGATGGTA CTAAGTTAAG GCGCTTAGAC TCTGTTTCAA TTTTACCATC ATTCGAAACG
    CCTATTCTTG CACAAATGGA AAAAGTGAAT GAGCTTTCAC CAAAGGTTGT ATACAGACAA
    GCAGGTGATC GTTATGTTTT GGTGGAATAC GGTGATAATG AAATGAATTT TAATATTTCC
    TATAGAATTG AATGCCTGAT CTCCCTTGTG AAAAAGAATA AGACTATTGG TATTGTTGAA
    ATGTCCCAAG GTGTTAGATC TGTATTGATA GAATTTGATG GTTACAAAGT CACTCAAAAA
    GAATTGCTTA AAGTATTGGT GGCATATGAA ACAGAAATCC AGTTTGATGA AAATTGGAAG
    ATAACTTCTA ATATAATAAG ATTACCGATG GCTTTCGAAG ACTCGAAGAC TTTGGCATGT
    GTTCAAAGGT ATCAAGAAAC AATTCGTTCG TCTGCTCCAT GGTTGCCAAA TAACGTTGAT
    TTCATTGCCA ATGTAAATGG AATTTCAAGG AATGAAGTTT ATGATATGTT GTATTCTGCC
    AGATTTATGG TTTTAGGTTT AGGTGATGTC TTCCTAGGGT CGCCTTGTGC TGTTCCATTA
    GATCCTCGTC ACAGATTTTT GGGAAGCAAG TACAACCCAA GTAGAACATA TACAGAAAGA
    GGTGCAGTCG GTATTGGCGG TATGTATATG TGCATATATG CTGCTAACAG TCCTGGTGGG
    TACCAATTAG TGGGTAGAAC AATACCAATT TGGGACAAAC TATGTCTGGC CGCATCTTCT
    GAGGTTCCGT GGTTGATGAA CCCATTTGAC CAAGTCGAAT TTTACCCAGT TTCTGAAGAA
    GATTTGGATA AAATGACTGA AGATTGTGAT AATGGTGTTT ATAAAGTCAA TATCGAAAAG
    AGTGTTTTTG ATCATCAAGA ATACTTGAGA TGGATCAACG CAAACAAAGA TTCCATCACA
    GCATTCCAGG AGGGCCAGCT TGGTGAAAGA GCAGAGGAAT TTGCCAAATT GATTCAAAAT
    GCAAACTCTG AACTAAAAGA AAGTGTCACA GTCAAACCTG ACGAGGAAGA AGACTTCCCA
    GAAGGTGCAG AAATTGTATA TTCTGAGTAT TCTGGGCGTT TTTGGAAATC CATAGCATCT
    GTTGGAGATG TTATTGAAGC AGGTCAAGGG CTACTAATTA TTGAAGCCAT GAAAGCGGAA
    ATGATTATAT CCGCTCCTAA ATCGGGTAAG ATTATCAAGA TTTGCCATGG CAATGGTGAT
    ATGGTTGATT CTGGTGACAT AGTGGCCGTC ATAGAGACAT TGGCATGA

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

    RefSeq NP_009767.1
    CDS1..5508
    Translation

    Target ORF information:

    RefSeq Version NM_001178556.1
    Organism Saccharomyces cerevisiae S288C
    Definition Saccharomyces cerevisiae S288C bifunctional urea carboxylase/allophanate hydrolase (DUR1,2), partial mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001178556.1

    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
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    ATGACAGTTA GTTCCGATAC AACTGCTGAA ATATCGTTAG GTTGGTCAAT CCAAGACTGG 
    ATTGATTTCC ACAAGTCATC AAGCTCCCAG GCTTCACTAA GGCTTCTTGA ATCACTACTA
    GACTCTCAAA ATGTTGCGCC AGTCGATAAT GCGTGGATAT CGCTAATTTC AAAGGAAAAT
    TTACTGCACC AATTCCAAAT TTTAAAGAGC AGAGAAAATA AAGAAACTCT ACCTCTCTAC
    GGTGTCCCTA TTGCTGTTAA GGACAACATC GACGTTAGAG GTCTACCCAC CACCGCTGCA
    TGTCCATCCT TTGCATATGA GCCTTCCAAA GACTCTAAAG TAGTAGAACT ACTAAGAAAT
    GCAGGTGCGA TAATCGTGGG TAAGACAAAC TTGGACCAAT TTGCCACAGG ATTAGTCGGC
    ACACGGTCTC CATATGGGAA AACACCTTGC GCTTTTAGCA AAGAGCATGT ATCTGGTGGT
    TCCTCCGCTG GGTCAGCATC GGTGGTCGCC AGAGGTATCG TACCAATTGC ATTGGGTACT
    GATACAGCAG GTTCTGGTAG AGTCCCAGCC GCCTTGAACA ACCTGATTGG CCTAAAGCCA
    ACAAAGGGCG TCTTTTCCTG TCAAGGTGTA GTTCCCGCTT GTAAATCTTT AGACTGCGTC
    TCCATCTTTG CATTAAACCT AAGTGATGCT GAACGCTGCT TCCGCATCAT GTGCCAGCCA
    GATCCTGATA ATGATGAATA TTCTAGACCC TATGTTTCCA ACCCTTTGAA AAAATTTTCA
    AGCAATGTAA CGATTGCTAT TCCTAAAAAT ATCCCATGGT ATGGTGAAAC CAAGAATCCT
    GTACTGTTTT CCAATGCTGT CGAAAATCTA TCAAGAACGG GCGCTAACGT CATAGAAATT
    GATTTTGAGC CTCTTTTAGA GTTAGCTCGC TGTTTATACG AAGGTACTTG GGTGGCCGAG
    CGTTATCAAG CTATTCAATC GTTTTTGGAC AGTAAACCAC CAAAGGAATC TTTGGACCCT
    ACTGTTATTT CAATTATAGA AGGGGCCAAG AAATACAGTG CAGTAGACTG CTTCAGTTTT
    GAATACAAAA GACAAGGCAT CTTGCAAAAA GTGAGACGAC TTCTCGAATC AGTCGATGTA
    TTGTGTGTGC CCACATGTCC TTTAAATCCT ACTATGCAAC AAGTTGCGGA TGAACCAGTC
    CTAGTCAATT CAAGACAAGG CACATGGACT AATTTTGTCA ACTTGGCAGA TTTGGCAGCC
    CTTGCTGTTC CCGCAGGGTT CCGAGACGAT GGTTTGCCAA ATGGTATTAC TTTAATCGGT
    AAAAAATTCA CAGATTACGC ACTATTAGAG TTGGCTAACC GCTATTTCCA AAATATATTC
    CCCAACGGTT CCAGAACATA CGGTACTTTT ACCTCTTCTT CAGTAAAGCC AGCAAACGAT
    CAATTAGTGG GACCAGACTA TGACCCATCT ACGTCCATAA AATTGGCTGT TGTCGGTGCA
    CATCTTAAGG GTCTGCCTCT ACATTGGCAA TTGGAAAAGG TCAATGCAAC ATATTTATGT
    ACAACAAAAA CATCAAAAGC TTACCAGCTT TTTGCTTTGC CCAAAAATGG ACCAGTTTTA
    AAACCTGGTT TGAGAAGAGT TCAAGATAGC AATGGCTCTC AAATCGAATT AGAAGTGTAC
    AGTGTTCCAA AAGAACTGTT CGGTGCTTTT ATTTCCATGG TTCCTGAACC ATTAGGAATA
    GGTTCAGTGG AGTTAGAATC TGGTGAATGG ATCAAATCCT TTATTTGTGA AGAATCTGGT
    TACAAAGCCA AAGGTACAGT TGATATCACA AAGTATGGTG GATTTAGAGC ATATTTTGAA
    ATGTTGAAGA AAAAAGAGTC CCAAAAGAAG AAGTTATTTG ATACCGTGTT AATTGCCAAT
    AGAGGTGAAA TTGCCGTTCG TATTATCAAG ACATTAAAAA AATTGGGTAT TAGATCAGTT
    GCAGTTTATT CCGACCCTGA TAAATATTCT CAACACGTTA CTGATGCAGA TGTTTCTGTA
    CCCCTTCATG GCACAACCGC AGCCCAAACT TATTTAGACA TGAATAAGAT CATAGATGCC
    GCTAAGCAAA CTAATGCACA GGCCATTATT CCTGGTTATG GTTTCTTGTC GGAAAATGCG
    GATTTTTCTG ATGCGTGCAC CAGTGCTGGC ATTACCTTTG TTGGTCCTTC GGGAGATATT
    ATCAGAGGTT TAGGGTTAAA ACATTCTGCT AGACAGATTG CACAGAAGGC TGGCGTTCCT
    CTAGTGCCAG GCTCTTTGCT TATCACATCA GTTGAAGAGG CTAAGAAAGT CGCAGCGGAA
    TTGGAATACC CAGTTATGGT GAAGTCAACT GCTGGTGGCG GTGGTATTGG TTTGCAGAAA
    GTCGATTCTG AAGAGGACAT CGAGCATATT TTTGAGACTG TGAAACATCA AGGTGAAACA
    TTTTTCGGTG ACGCTGGTGT ATTTCTGGAA CGGTTTATCG AAAATGCCAG GCATGTTGAA
    GTCCAACTTA TGGGAGATGG TTTTGGTAAG GCCATTGCTT TGGGCGAACG TGATTGTTCT
    TTACAGCGTC GTAACCAAAA AGTTATCGAA GAAACTCCTG CACCAAATTT GCCAGAAAAG
    ACGAGGTTGG CGTTAAGAAA GGCAGCTGAA AGTTTGGGAT CTTTATTGAA TTACAAGTGT
    GCTGGTACGG TTGAATTTAT TTACGATGAG AAAAAGGACG AGTTTTACTT TTTAGAAGTT
    AATACAAGAT TACAAGTTGA ACATCCAATA ACAGAAATGG TTACAGGGTT AGACTTGGTC
    GAGTGGATGA TCAGGATTGC CGCTAATGAT GCACCTGATT TTGATTCTAC AAAGGTAGAA
    GTCAATGGGG TTTCAATGGA GGCACGTTTA TATGCTGAAA ATCCATTGAA AAATTTCAGA
    CCTTCTCCAG GTTTACTTGT CGATGTGAAA TTTCCTGATT GGGCAAGAGT GGATACTTGG
    GTTAAGAAAG GTACTAATAT TTCTCCCGAA TATGATCCAA CATTGGCCAA AATTATCGTT
    CATGGGAAAG ACCGTGATGA TGCAATTTCC AAGTTAAATC AAGCGTTAGA AGAAACAAAA
    GTTTACGGAT GTATTACTAA CATTGACTAC CTGAAGTCTA TCATTACCAG TGATTTCTTT
    GCTAAAGCAA AAGTTTCTAC AAACATTTTG AACTCTTATC AATATGAGCC TACCGCCATC
    GAAATTACTT TGCCCGGTGC ACACACTAGT ATTCAGGATT ACCCCGGTAG AGTTGGGTAC
    TGGAGAATTG GTGTTCCGCC CTCTGGTCCA ATGGACGCAT ATTCGTTTAG ATTGGCGAAC
    AGAATTGTTG GTAATGACTA CAGGACTCCT GCCATTGAAG TAACGTTGAC TGGTCCATCC
    ATCGTTTTCC ATTGTGAAAC TGTCATTGCC ATTACTGGTG GTACCGCTCT ATGTACATTA
    GACGGCCAAG AAATTCCCCA ACACAAACCG GTCGAAGTTA AGAGGGGATC TACTTTATCC
    ATTGGCAAGT TGACAAGCGG CTGTAGAGCA TACTTAGGTA TCAGGGGTGG CATTGATGTG
    CCTAAATACT TGGGCTCTTA TTCTACTTTC ACTCTAGGAA ATGTCGGTGG ATACAATGGA
    AGGGTGCTAA AACTTGGAGA CGTACTATTC TTACCAAGCA ATGAAGAAAA TAAATCAGTT
    GAGTGCCTTC CACAGAATAT TCCTCAATCA TTAATTCCTC AAATTTCCGA AACTAAGGAA
    TGGAGAATTG GTGTAACATG TGGTCCCCAT GGGTCTCCAG ATTTTTTTAA ACCTGAGTCC
    ATCGAAGAAT TTTTCAGTGA GAAGTGGAAG GTTCATTACA ACTCCAATAG ATTTGGTGTC
    CGTTTGATTG GACCTAAACC TAAGTGGGCA AGAAGTAATG GTGGTGAAGG TGGTATGCAT
    CCTTCAAACA CTCACGATTA CGTTTATTCT CTGGGTGCAA TTAATTTCAC GGGTGATGAG
    CCAGTTATTA TTACTTGCGA TGGTCCTTCC TTAGGTGGTT TTGTGTGTCA AGCTGTTGTC
    CCAGAAGCAG AACTGTGGAA GGTTGGACAG GTTAAACCCG GTGATTCCAT TCAGTTTGTG
    CCACTTTCTT ACGAAAGCTC GAGATCCTTA AAGGAATCTC AGGATGTTGC AATTAAATCA
    TTGGATGGTA CTAAGTTAAG GCGCTTAGAC TCTGTTTCAA TTTTACCATC ATTCGAAACG
    CCTATTCTTG CACAAATGGA AAAAGTGAAT GAGCTTTCAC CAAAGGTTGT ATACAGACAA
    GCAGGTGATC GTTATGTTTT GGTGGAATAC GGTGATAATG AAATGAATTT TAATATTTCC
    TATAGAATTG AATGCCTGAT CTCCCTTGTG AAAAAGAATA AGACTATTGG TATTGTTGAA
    ATGTCCCAAG GTGTTAGATC TGTATTGATA GAATTTGATG GTTACAAAGT CACTCAAAAA
    GAATTGCTTA AAGTATTGGT GGCATATGAA ACAGAAATCC AGTTTGATGA AAATTGGAAG
    ATAACTTCTA ATATAATAAG ATTACCGATG GCTTTCGAAG ACTCGAAGAC TTTGGCATGT
    GTTCAAAGGT ATCAAGAAAC AATTCGTTCG TCTGCTCCAT GGTTGCCAAA TAACGTTGAT
    TTCATTGCCA ATGTAAATGG AATTTCAAGG AATGAAGTTT ATGATATGTT GTATTCTGCC
    AGATTTATGG TTTTAGGTTT AGGTGATGTC TTCCTAGGGT CGCCTTGTGC TGTTCCATTA
    GATCCTCGTC ACAGATTTTT GGGAAGCAAG TACAACCCAA GTAGAACATA TACAGAAAGA
    GGTGCAGTCG GTATTGGCGG TATGTATATG TGCATATATG CTGCTAACAG TCCTGGTGGG
    TACCAATTAG TGGGTAGAAC AATACCAATT TGGGACAAAC TATGTCTGGC CGCATCTTCT
    GAGGTTCCGT GGTTGATGAA CCCATTTGAC CAAGTCGAAT TTTACCCAGT TTCTGAAGAA
    GATTTGGATA AAATGACTGA AGATTGTGAT AATGGTGTTT ATAAAGTCAA TATCGAAAAG
    AGTGTTTTTG ATCATCAAGA ATACTTGAGA TGGATCAACG CAAACAAAGA TTCCATCACA
    GCATTCCAGG AGGGCCAGCT TGGTGAAAGA GCAGAGGAAT TTGCCAAATT GATTCAAAAT
    GCAAACTCTG AACTAAAAGA AAGTGTCACA GTCAAACCTG ACGAGGAAGA AGACTTCCCA
    GAAGGTGCAG AAATTGTATA TTCTGAGTAT TCTGGGCGTT TTTGGAAATC CATAGCATCT
    GTTGGAGATG TTATTGAAGC AGGTCAAGGG CTACTAATTA TTGAAGCCAT GAAAGCGGAA
    ATGATTATAT CCGCTCCTAA ATCGGGTAAG ATTATCAAGA TTTGCCATGG CAATGGTGAT
    ATGGTTGATT CTGGTGACAT AGTGGCCGTC ATAGAGACAT TGGCATGA

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

  • PubMed

    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


    Complete DNA sequence of yeast chromosome II.
    The EMBO journal13(24)5795-809(1994 Dec)
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