ORF » Species Summary » Aspergillus oryzae RIB40 » AOR_1_1954154 cDNA ORF clone

AOR_1_1954154 cDNA ORF clone, Aspergillus oryzae RIB40

The following AOR_1_1954154 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the AOR_1_1954154 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
OAg04039 XM_001820142.2
Latest version!		 Aspergillus oryzae RIB40 L-aminoadipate-semialdehyde dehydrogenase large subunit, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OAg49477 XM_001820142.3
Latest version!		 Aspergillus oryzae RIB40 unnamed protein product (AO090003001097), partial mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00

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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)
    AOR_1_1954154 ( XM_001820142.2 ) cDNA ORF clone, Aspergillus oryzae RIB40 -> XP_001820194.2 Aspergillus oryzae RIB40 L-aminoadipate-semialdehyde dehydrogenase large subunit, mRNA.
    Price & Availability↑
    CloneID OAg04039
    Clone ID Related Accession (Same CDS sequence) XM_001820142.2
    Accession Version XM_001820142.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4329bp)
    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 1298995200000
    Organism Aspergillus oryzae RIB40
    Product L-aminoadipate-semialdehyde dehydrogenase large subunit
    Comment PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. This record is derived from an annotated genomic sequence (NW_001884664). On Jan 7, 2011 this sequence version replaced XM_001820142.1. Derived by automatic computational analysis using gene prediction method: Multi-Genome Gnomon. 

    1
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    121
    181
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    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
    ATGACTGGCT GCGAAATCGG CACTTTTTCT CTTAAGGGCA TTGTCACTGC AATCATGGGT 
    GTTGAAACAG CCTCCCTACA GGATCGCCTT GAGCGATGGG CTCAAAGGTT ACAAAACTTG 
    ACTGTTAGTC CTCTGACTCG GGATTATCCT GATACCCAGA ACCAGGAGCT TCCCAAGAGA 
    GCCATTGAGG CATTCGAAAC CTTCAAGCTC TCGGAAGACA CGGAGGGAAA ACTACAGAAG 
    CTTTCGGGCT CATCCTCTGG TTTTACCATT TTTTTGACAG CTTTTGTCGT ACTTGTTGCT 
    CGTCTTACCG GCGATGAGGA CATTGCTATC GGTACCACTT CGGCCGAAGA CGGCCGTCCA 
    TTCGTCCTGA GGGTCCCAAT TGACGCCTCG GAGACTTTCC TTCAATTATA CGCCAAGGTT 
    CAGAAGGCAT TTGACCAAGG GTCCTCCGAC ATTGTTCCTT TGGGCAGTTT ACGATCCTAC 
    ATCCAGCAGA AGTCCCAATC GGAACGATCC CCGATTCTTT TCCGCTTCGC AGCCTACGAT 
    GCACCAGCCG CGTCTCAGGA ATACCCTGCC AACACATTTG AGACCACGGA CCTGGTCGTC 
    AATGTTGCGC CTGCAGCAGG AGGGTCAACA TCTCAAGCGG AACTGGGCGC ATACTACAAC 
    CAAAGACTCT TCTCAAGCGC TAGGATCTCC ACGATATTGA AGCAGCTGGG CAAGATCGTT 
    GAAAATGCGA CCAGCAACCC AGAAGAGGCA ATTGGCCGCC TTGACTTCAT GACCGATGAT 
    CAGCGGGCAC TTCTGCCAGA CCCGACAGCT GACCTGCATT GGTCCAAGTT CCGGGGTGCA 
    ATTCATGATA TCTTTGCCGA GAACGCTGAG AAACACCCAG AAAAGCTGTG TGTGGTCGAA 
    ACCAAGTCCG ATCGTTCTCC CCACCGCGAA TTCACATACA AGCAGATCAA CGAGGCCTCC 
    AACATCCTGG CACATCACTT GGTCCAATCA GGTATTGAGA GAGGAGAAGT CGTCATGGTG 
    TACGCTTACC GTGGTGTCGA TCTTGTGGTG GCGGTTATGG GTATCCTTAA AGCTGGGGCA 
    ACTTTCTCCG TCATCGACCC TGCGTATCCA CCAGAGAGAC AGTGCATCTA CCTTGACGTC 
    GCTCGCCCTC GGGCGCTCAT AAATATTGAG AAGGCCACCA AGGATGCTGG TGAGCTTTCC 
    GAAAAAGTCC GCTCCTTCAT TAACGAAAAC CTCGAGCTTC GCACAGAAGT TCCCGCGCTC 
    GCACTTCACG ATGACGGTTC GCTCCTTGGA GGATCGATCA ATGGCCAAGA TGTTTTAGCC 
    AACCAGGTGC CTTTGGGATC TAAGCCTGTC GGTGTTGTGG TTGGTCCAGA CTCGATCCCT 
    ACTTTGTCCT TCACCTCTGG ATCGGAGGGA AGGCCCAAGG GTGTGAGAGG ACGTCATTTC 
    TCCTTGGCAT ACTATTTCGA CTGGATGTCC GAAACGTTCA AGCTGACTCC TAATGACCGT 
    TTCACGATGC TCAGCGGTAT TGCCCATGAC CCTATTCAAA GAGACATCTT CACTCCTCTT 
    TTCCTGGGAG CACAGTTGTT GGTCCCGGCA CGTGAAGACA TCCAGAATGA GCGACTTGCG 
    GAGTGGATGC GGGAATACGG TGCGAGTGTT ACCCATCTTA CACCCGCCAT GGGTCAGATT 
    CTGGTCGGTG GTGCTTCCGC ACAGTTCCCA GCTCTTCACC ACGCTTTCTT CGTCGGTGAT 
    ATCTTGATCA AAAGAGATTG CCGATCTCTG CAAGGACTGG CCCCGAATGT CAATATTGTG 
    AACATGTATG GTACAACCGA GACCCAGCGT GCGGTTAGTT ATTATGAAAT TCCTAGCTAC 
    TCCAGCAACG AAGGGTTCCT GGACACTATG AAGGATGTCA TTCCAGCCGG TCGGGGAATG 
    GTTGATGTGC AGATGCTGGT TGTCAACCGG TTTGACCCAA GCCGTATTTG TGCTATCGGA 
    GAAGTGGGCG AAATCTATGT TCGCGCTGCT GGTTTGGCAG AAGGCTATTT GGGCTCCCCC 
    GAGCTGAACG AGAAGAAGTT CCTTAAGAAC TGGTTTGTTG ATCCTCAATT CTGGGTTCAG 
    AAGGATCAAG CCCAATCGCA AAGTGCCAAC GAGCCCTGGA GGCAATTCTA TGTTGGACCA 
    AGAGACCGCC TGTACCGCAG TGGAGACCTT GGTAGATACA CACCTTCCGG TGACGTTGAA 
    TGTTCCGGTC GCGCGGATGA CCAAGTGAAG ATTCGTGGTT TCCGTATCGA GCTTGGTGAG 
    ATCGATACGC ATCTTTCACG CCACCCGTTG GTTAGAGAGA ATGTCACTTT GGTGAGGCGA 
    GACAAATTCG AGGAGCCAAC TCTGGTCAGT TACTTTGTGC CAGATATGAG CAAGTGGGCT 
    TCGTGGTTGC AAGAAAGAGG CCTTGAAGAC GACACTTCCG CTGAAGGAAT GGTCGGTATG 
    CTTGTACGAT TCAGACCCCT TCGTGATGAT GCTCGAGAGC TTCTGCGTAG TAAGCTCCCG 
    ACATACGCTG TGCCAACAGT GTTCATCCCG CTCAAGCGAA TGCCTCTTAA CCCTAACGGA 
    AAGATCGATA AACCTGCATT GCCGTTCCCA GATACTGCGG AGCTCAGTGC GGCTGCACCG 
    CAGCGCAAGT CGTCTGTCCT GGAGGCCCTG TCCGAGACAG AGCAAGCTTT GGCTCAGATT 
    TGGGCACAGC GCATTCCAAA TGTGACCTCT TCCATGATTG GCCCTGACGA TTCATTCTTT 
    GACCTTGGAG GACACAGTAT TCTGGCACAG CAGATGTTCT TCGATCTTCG GCGCAAGTGG 
    CGTGGCGTTG ACATTAGTAT GAACGCAATC TTCCGCAGTC CTACCCTTAG AGGGTTCGCT 
    GCCGAGATCG ACCGCTTGTT GAACTTTGAA TCATTCGCCG CCAGTGACAA TAAGGCAGCT 
    GCCGAAGTTC CAGATACCTC CAGTGCACCT GATGACGAGT ACTCAAAGGA CGCTCGGAAG 
    CTAGTAGACG TTCTGCCCAA GGCATTCCCC GAGAGGACAG AGCCTATTCT TTCTGGAGAA 
    CCAACCATCT TCCTTACGGG CGGTACTGGA TTCCTGGGCG CGCATATTCT TCGCGACCTC 
    CTTACCCGTA AGACTCCCGC AGCAAAGGTT GTGGCTTTGG TTCGAGGAAA GTCTGAGGAG 
    CAAGCACTGG AGCGGATCCG GTCTACCTGC CGAGCATACG GCTTCTGGGA TGCAGCGTGG 
    ACCAACCGGC TTCAGTGTGT CTGCGGTAAC CTAGGAGACC CTCAATTCGG CCTCTCTCAA 
    GCGCTGTGGG ATGACCTGAC GAATCGTGTC GATGCGGTGA TCCACAACGG CGCCCTTGTT 
    CACTGGGTGT ATCCTTATTC CACTCTCAAG CCTGCCAACG TTATGGGTAC TATCGACGCC 
    CTGAAACTTT GCGCCAGTGG AAAGCCTAAG CAGTTCTCCT TTGTCAGCTC TACTAGCGTG 
    CTTGACAGCG ATCATTATGT CGAGGAGTCT GAACGTATTG TTGCAGCCGG AGGTGCCGGG 
    ATCAGCGAGG AGGATGATCT GGAGGGCAGC AGCGTAGGCC TTGGAACCGG TTACGGTCAA 
    AGCAAATGGG CAGGAGAGTA CCTTGTCCGA GAGGCGGGTA AGAGAGGATT AAAGGGAACC 
    ATTATCCGTC CTGGATACGT GCTCGGTGAC TCTCAGACCG GAACTACGAA CACCGATGAC 
    TTCCTTATCC GTATGATCAA GGGATGTATT CAGCTGTCTG CCCGCCCTAA CATCAACAAC 
    ACGGTCAATA TGGTCCCTGT CGATCACGTT GCCCGCGTTG TCATCGCAGG TGCTTTCCAG 
    CCTCCATGCA CGCCCATTGG TGTCGCACAG GTGACTGGAC ACCCACGTCT TCGTTTCAAC 
    CAATTTCTGG GAGCACTGCA GCTGTATGGC TACAACGTGC CCCAGGTTGA CTATGTCCCG 
    TGGGCACAGT CGCTTGAGCA ATATGTCAAC GACGGACAGC ACGACGACCC AGAGTCCCAG 
    CATGCACTTA TGCCCCTCTA TCACTTTGTA ACCGCTGATC TCCCATCCAA CACCAAGGCC 
    CCTGAACTAG ACGATGTCCA TGCCGCTGCT GCCCTTCGCG CAGATGCCGC CTGGTCCGGC 
    GTCGATGCCT CCGCTGGGGC CGGCGTGACC GAAGAGTTGG TCGGTCTGTA CGCGGCCTAC 
    CTGACCACGA TCGGGTTCTT GCCTGCGCCG CCTGCGTCCT CGACAGCTCG GCCGTTACCC 
    ACGATCCGGC TCAGCGACGA CCAGAAGCAG GCCTTGGCCA ATGTTGGTGG CCGTGGAGGC 
    AGCTCATGA

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

    RefSeq XP_001820194.2
    CDS1..4329
    Translation

    Target ORF information:

    RefSeq Version XM_001820142.2
    Organism Aspergillus oryzae RIB40
    Definition Aspergillus oryzae RIB40 L-aminoadipate-semialdehyde dehydrogenase large subunit, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_001820142.2

    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
    ATGACTGGCT GCGAAATCGG CACTTTTTCT CTTAAGGGCA TTGTCACTGC AATCATGGGT 
    GTTGAAACAG CCTCCCTACA GGATCGCCTT GAGCGATGGG CTCAAAGGTT ACAAAACTTG 
    ACTGTTAGTC CTCTGACTCG GGATTATCCT GATACCCAGA ACCAGGAGCT TCCCAAGAGA 
    GCCATTGAGG CATTCGAAAC CTTCAAGCTC TCGGAAGACA CGGAGGGAAA ACTACAGAAG 
    CTTTCGGGCT CATCCTCTGG TTTTACCATT TTTTTGACAG CTTTTGTCGT ACTTGTTGCT 
    CGTCTTACCG GCGATGAGGA CATTGCTATC GGTACCACTT CGGCCGAAGA CGGCCGTCCA 
    TTCGTCCTGA GGGTCCCAAT TGACGCCTCG GAGACTTTCC TTCAATTATA CGCCAAGGTT 
    CAGAAGGCAT TTGACCAAGG GTCCTCCGAC ATTGTTCCTT TGGGCAGTTT ACGATCCTAC 
    ATCCAGCAGA AGTCCCAATC GGAACGATCC CCGATTCTTT TCCGCTTCGC AGCCTACGAT 
    GCACCAGCCG CGTCTCAGGA ATACCCTGCC AACACATTTG AGACCACGGA CCTGGTCGTC 
    AATGTTGCGC CTGCAGCAGG AGGGTCAACA TCTCAAGCGG AACTGGGCGC ATACTACAAC 
    CAAAGACTCT TCTCAAGCGC TAGGATCTCC ACGATATTGA AGCAGCTGGG CAAGATCGTT 
    GAAAATGCGA CCAGCAACCC AGAAGAGGCA ATTGGCCGCC TTGACTTCAT GACCGATGAT 
    CAGCGGGCAC TTCTGCCAGA CCCGACAGCT GACCTGCATT GGTCCAAGTT CCGGGGTGCA 
    ATTCATGATA TCTTTGCCGA GAACGCTGAG AAACACCCAG AAAAGCTGTG TGTGGTCGAA 
    ACCAAGTCCG ATCGTTCTCC CCACCGCGAA TTCACATACA AGCAGATCAA CGAGGCCTCC 
    AACATCCTGG CACATCACTT GGTCCAATCA GGTATTGAGA GAGGAGAAGT CGTCATGGTG 
    TACGCTTACC GTGGTGTCGA TCTTGTGGTG GCGGTTATGG GTATCCTTAA AGCTGGGGCA 
    ACTTTCTCCG TCATCGACCC TGCGTATCCA CCAGAGAGAC AGTGCATCTA CCTTGACGTC 
    GCTCGCCCTC GGGCGCTCAT AAATATTGAG AAGGCCACCA AGGATGCTGG TGAGCTTTCC 
    GAAAAAGTCC GCTCCTTCAT TAACGAAAAC CTCGAGCTTC GCACAGAAGT TCCCGCGCTC 
    GCACTTCACG ATGACGGTTC GCTCCTTGGA GGATCGATCA ATGGCCAAGA TGTTTTAGCC 
    AACCAGGTGC CTTTGGGATC TAAGCCTGTC GGTGTTGTGG TTGGTCCAGA CTCGATCCCT 
    ACTTTGTCCT TCACCTCTGG ATCGGAGGGA AGGCCCAAGG GTGTGAGAGG ACGTCATTTC 
    TCCTTGGCAT ACTATTTCGA CTGGATGTCC GAAACGTTCA AGCTGACTCC TAATGACCGT 
    TTCACGATGC TCAGCGGTAT TGCCCATGAC CCTATTCAAA GAGACATCTT CACTCCTCTT 
    TTCCTGGGAG CACAGTTGTT GGTCCCGGCA CGTGAAGACA TCCAGAATGA GCGACTTGCG 
    GAGTGGATGC GGGAATACGG TGCGAGTGTT ACCCATCTTA CACCCGCCAT GGGTCAGATT 
    CTGGTCGGTG GTGCTTCCGC ACAGTTCCCA GCTCTTCACC ACGCTTTCTT CGTCGGTGAT 
    ATCTTGATCA AAAGAGATTG CCGATCTCTG CAAGGACTGG CCCCGAATGT CAATATTGTG 
    AACATGTATG GTACAACCGA GACCCAGCGT GCGGTTAGTT ATTATGAAAT TCCTAGCTAC 
    TCCAGCAACG AAGGGTTCCT GGACACTATG AAGGATGTCA TTCCAGCCGG TCGGGGAATG 
    GTTGATGTGC AGATGCTGGT TGTCAACCGG TTTGACCCAA GCCGTATTTG TGCTATCGGA 
    GAAGTGGGCG AAATCTATGT TCGCGCTGCT GGTTTGGCAG AAGGCTATTT GGGCTCCCCC 
    GAGCTGAACG AGAAGAAGTT CCTTAAGAAC TGGTTTGTTG ATCCTCAATT CTGGGTTCAG 
    AAGGATCAAG CCCAATCGCA AAGTGCCAAC GAGCCCTGGA GGCAATTCTA TGTTGGACCA 
    AGAGACCGCC TGTACCGCAG TGGAGACCTT GGTAGATACA CACCTTCCGG TGACGTTGAA 
    TGTTCCGGTC GCGCGGATGA CCAAGTGAAG ATTCGTGGTT TCCGTATCGA GCTTGGTGAG 
    ATCGATACGC ATCTTTCACG CCACCCGTTG GTTAGAGAGA ATGTCACTTT GGTGAGGCGA 
    GACAAATTCG AGGAGCCAAC TCTGGTCAGT TACTTTGTGC CAGATATGAG CAAGTGGGCT 
    TCGTGGTTGC AAGAAAGAGG CCTTGAAGAC GACACTTCCG CTGAAGGAAT GGTCGGTATG 
    CTTGTACGAT TCAGACCCCT TCGTGATGAT GCTCGAGAGC TTCTGCGTAG TAAGCTCCCG 
    ACATACGCTG TGCCAACAGT GTTCATCCCG CTCAAGCGAA TGCCTCTTAA CCCTAACGGA 
    AAGATCGATA AACCTGCATT GCCGTTCCCA GATACTGCGG AGCTCAGTGC GGCTGCACCG 
    CAGCGCAAGT CGTCTGTCCT GGAGGCCCTG TCCGAGACAG AGCAAGCTTT GGCTCAGATT 
    TGGGCACAGC GCATTCCAAA TGTGACCTCT TCCATGATTG GCCCTGACGA TTCATTCTTT 
    GACCTTGGAG GACACAGTAT TCTGGCACAG CAGATGTTCT TCGATCTTCG GCGCAAGTGG 
    CGTGGCGTTG ACATTAGTAT GAACGCAATC TTCCGCAGTC CTACCCTTAG AGGGTTCGCT 
    GCCGAGATCG ACCGCTTGTT GAACTTTGAA TCATTCGCCG CCAGTGACAA TAAGGCAGCT 
    GCCGAAGTTC CAGATACCTC CAGTGCACCT GATGACGAGT ACTCAAAGGA CGCTCGGAAG 
    CTAGTAGACG TTCTGCCCAA GGCATTCCCC GAGAGGACAG AGCCTATTCT TTCTGGAGAA 
    CCAACCATCT TCCTTACGGG CGGTACTGGA TTCCTGGGCG CGCATATTCT TCGCGACCTC 
    CTTACCCGTA AGACTCCCGC AGCAAAGGTT GTGGCTTTGG TTCGAGGAAA GTCTGAGGAG 
    CAAGCACTGG AGCGGATCCG GTCTACCTGC CGAGCATACG GCTTCTGGGA TGCAGCGTGG 
    ACCAACCGGC TTCAGTGTGT CTGCGGTAAC CTAGGAGACC CTCAATTCGG CCTCTCTCAA 
    GCGCTGTGGG ATGACCTGAC GAATCGTGTC GATGCGGTGA TCCACAACGG CGCCCTTGTT 
    CACTGGGTGT ATCCTTATTC CACTCTCAAG CCTGCCAACG TTATGGGTAC TATCGACGCC 
    CTGAAACTTT GCGCCAGTGG AAAGCCTAAG CAGTTCTCCT TTGTCAGCTC TACTAGCGTG 
    CTTGACAGCG ATCATTATGT CGAGGAGTCT GAACGTATTG TTGCAGCCGG AGGTGCCGGG 
    ATCAGCGAGG AGGATGATCT GGAGGGCAGC AGCGTAGGCC TTGGAACCGG TTACGGTCAA 
    AGCAAATGGG CAGGAGAGTA CCTTGTCCGA GAGGCGGGTA AGAGAGGATT AAAGGGAACC 
    ATTATCCGTC CTGGATACGT GCTCGGTGAC TCTCAGACCG GAACTACGAA CACCGATGAC 
    TTCCTTATCC GTATGATCAA GGGATGTATT CAGCTGTCTG CCCGCCCTAA CATCAACAAC 
    ACGGTCAATA TGGTCCCTGT CGATCACGTT GCCCGCGTTG TCATCGCAGG TGCTTTCCAG 
    CCTCCATGCA CGCCCATTGG TGTCGCACAG GTGACTGGAC ACCCACGTCT TCGTTTCAAC 
    CAATTTCTGG GAGCACTGCA GCTGTATGGC TACAACGTGC CCCAGGTTGA CTATGTCCCG 
    TGGGCACAGT CGCTTGAGCA ATATGTCAAC GACGGACAGC ACGACGACCC AGAGTCCCAG 
    CATGCACTTA TGCCCCTCTA TCACTTTGTA ACCGCTGATC TCCCATCCAA CACCAAGGCC 
    CCTGAACTAG ACGATGTCCA TGCCGCTGCT GCCCTTCGCG CAGATGCCGC CTGGTCCGGC 
    GTCGATGCCT CCGCTGGGGC CGGCGTGACC GAAGAGTTGG TCGGTCTGTA CGCGGCCTAC 
    CTGACCACGA TCGGGTTCTT GCCTGCGCCG CCTGCGTCCT CGACAGCTCG GCCGTTACCC 
    ACGATCCGGC TCAGCGACGA CCAGAAGCAG GCCTTGGCCA ATGTTGGTGG CCGTGGAGGC 
    AGCTCATGA

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

    AOR_1_1954154 ( XM_001820142.3 ) cDNA ORF clone, Aspergillus oryzae RIB40 -> XP_001820194.3 Aspergillus oryzae RIB40 unnamed protein product (AO090003001097), partial mRNA.
    Price & Availability↑
    CloneID OAg49477
    Clone ID Related Accession (Same CDS sequence) XM_001820142.3
    Accession Version XM_001820142.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4275bp)
    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 1522684800000
    Organism Aspergillus oryzae RIB40
    Product
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. This record is derived from an annotated genomic sequence (NC_036436). On Dec 8, 2017 this sequence version replaced XM_001820142.2. 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
    ATGGGTGTTG AAACAGCCTC CCTACAGGAT CGCCTTGAGC GATGGGCTCA AAGGTTACAA 
    AACTTGACTG TTAGTCCTCT GACTCGGGAT TATCCTGATA CCCAGAACCA GGAGCTTCCC 
    AAGAGAGCCA TTGAGGCATT CGAAACCTTC AAGCTCTCGG AAGACACGGA GGGAAAACTA 
    CAGAAGCTTT CGGGCTCATC CTCTGGTTTT ACCATTTTTT TGACAGCTTT TGTCGTACTT 
    GTTGCTCGTC TTACCGGCGA TGAGGACATT GCTATCGGTA CCACTTCGGC CGAAGACGGC 
    CGTCCATTCG TCCTGAGGGT CCCAATTGAC GCCTCGGAGA CTTTCCTTCA ATTATACGCC 
    AAGGTTCAGA AGGCATTTGA CCAAGGGTCC TCCGACATTG TTCCTTTGGG CAGTTTACGA 
    TCCTACATCC AGCAGAAGTC CCAATCGGAA CGATCCCCGA TTCTTTTCCG CTTCGCAGCC 
    TACGATGCAC CAGCCGCGTC TCAGGAATAC CCTGCCAACA CATTTGAGAC CACGGACCTG 
    GTCGTCAATG TTGCGCCTGC AGCAGGAGGG TCAACATCTC AAGCGGAACT GGGCGCATAC 
    TACAACCAAA GACTCTTCTC AAGCGCTAGG ATCTCCACGA TATTGAAGCA GCTGGGCAAG 
    ATCGTTGAAA ATGCGACCAG CAACCCAGAA GAGGCAATTG GCCGCCTTGA CTTCATGACC 
    GATGATCAGC GGGCACTTCT GCCAGACCCG ACAGCTGACC TGCATTGGTC CAAGTTCCGG 
    GGTGCAATTC ATGATATCTT TGCCGAGAAC GCTGAGAAAC ACCCAGAAAA GCTGTGTGTG 
    GTCGAAACCA AGTCCGATCG TTCTCCCCAC CGCGAATTCA CATACAAGCA GATCAACGAG 
    GCCTCCAACA TCCTGGCACA TCACTTGGTC CAATCAGGTA TTGAGAGAGG AGAAGTCGTC 
    ATGGTGTACG CTTACCGTGG TGTCGATCTT GTGGTGGCGG TTATGGGTAT CCTTAAAGCT 
    GGGGCAACTT TCTCCGTCAT CGACCCTGCG TATCCACCAG AGAGACAGTG CATCTACCTT 
    GACGTCGCTC GCCCTCGGGC GCTCATAAAT ATTGAGAAGG CCACCAAGGA TGCTGGTGAG 
    CTTTCCGAAA AAGTCCGCTC CTTCATTAAC GAAAACCTCG AGCTTCGCAC AGAAGTTCCC 
    GCGCTCGCAC TTCACGATGA CGGTTCGCTC CTTGGAGGAT CGATCAATGG CCAAGATGTT 
    TTAGCCAACC AGGTGCCTTT GGGATCTAAG CCTGTCGGTG TTGTGGTTGG TCCAGACTCG 
    ATCCCTACTT TGTCCTTCAC CTCTGGATCG GAGGGAAGGC CCAAGGGTGT GAGAGGACGT 
    CATTTCTCCT TGGCATACTA TTTCGACTGG ATGTCCGAAA CGTTCAAGCT GACTCCTAAT 
    GACCGTTTCA CGATGCTCAG CGGTATTGCC CATGACCCTA TTCAAAGAGA CATCTTCACT 
    CCTCTTTTCC TGGGAGCACA GTTGTTGGTC CCGGCACGTG AAGACATCCA GAATGAGCGA 
    CTTGCGGAGT GGATGCGGGA ATACGGTGCG AGTGTTACCC ATCTTACACC CGCCATGGGT 
    CAGATTCTGG TCGGTGGTGC TTCCGCACAG TTCCCAGCTC TTCACCACGC TTTCTTCGTC 
    GGTGATATCT TGATCAAAAG AGATTGCCGA TCTCTGCAAG GACTGGCCCC GAATGTCAAT 
    ATTGTGAACA TGTATGGTAC AACCGAGACC CAGCGTGCGG TTAGTTATTA TGAAATTCCT 
    AGCTACTCCA GCAACGAAGG GTTCCTGGAC ACTATGAAGG ATGTCATTCC AGCCGGTCGG 
    GGAATGGTTG ATGTGCAGAT GCTGGTTGTC AACCGGTTTG ACCCAAGCCG TATTTGTGCT 
    ATCGGAGAAG TGGGCGAAAT CTATGTTCGC GCTGCTGGTT TGGCAGAAGG CTATTTGGGC 
    TCCCCCGAGC TGAACGAGAA GAAGTTCCTT AAGAACTGGT TTGTTGATCC TCAATTCTGG 
    GTTCAGAAGG ATCAAGCCCA ATCGCAAAGT GCCAACGAGC CCTGGAGGCA ATTCTATGTT 
    GGACCAAGAG ACCGCCTGTA CCGCAGTGGA GACCTTGGTA GATACACACC TTCCGGTGAC 
    GTTGAATGTT CCGGTCGCGC GGATGACCAA GTGAAGATTC GTGGTTTCCG TATCGAGCTT 
    GGTGAGATCG ATACGCATCT TTCACGCCAC CCGTTGGTTA GAGAGAATGT CACTTTGGTG 
    AGGCGAGACA AATTCGAGGA GCCAACTCTG GTCAGTTACT TTGTGCCAGA TATGAGCAAG 
    TGGGCTTCGT GGTTGCAAGA AAGAGGCCTT GAAGACGACA CTTCCGCTGA AGGAATGGTC 
    GGTATGCTTG TACGATTCAG ACCCCTTCGT GATGATGCTC GAGAGCTTCT GCGTAGTAAG 
    CTCCCGACAT ACGCTGTGCC AACAGTGTTC ATCCCGCTCA AGCGAATGCC TCTTAACCCT 
    AACGGAAAGA TCGATAAACC TGCATTGCCG TTCCCAGATA CTGCGGAGCT CAGTGCGGCT 
    GCACCGCAGC GCAAGTCGTC TGTCCTGGAG GCCCTGTCCG AGACAGAGCA AGCTTTGGCT 
    CAGATTTGGG CACAGCGCAT TCCAAATGTG ACCTCTTCCA TGATTGGCCC TGACGATTCA 
    TTCTTTGACC TTGGAGGACA CAGTATTCTG GCACAGCAGA TGTTCTTCGA TCTTCGGCGC 
    AAGTGGCGTG GCGTTGACAT TAGTATGAAC GCAATCTTCC GCAGTCCTAC CCTTAGAGGG 
    TTCGCTGCCG AGATCGACCG CTTGTTGAAC TTTGAATCAT TCGCCGCCAG TGACAATAAG 
    GCAGCTGCCG AAGTTCCAGA TACCTCCAGT GCACCTGATG ACGAGTACTC AAAGGACGCT 
    CGGAAGCTAG TAGACGTTCT GCCCAAGGCA TTCCCCGAGA GGACAGAGCC TATTCTTTCT 
    GGAGAACCAA CCATCTTCCT TACGGGCGGT ACTGGATTCC TGGGCGCGCA TATTCTTCGC 
    GACCTCCTTA CCCGTAAGAC TCCCGCAGCA AAGGTTGTGG CTTTGGTTCG AGGAAAGTCT 
    GAGGAGCAAG CACTGGAGCG GATCCGGTCT ACCTGCCGAG CATACGGCTT CTGGGATGCA 
    GCGTGGACCA ACCGGCTTCA GTGTGTCTGC GGTAACCTAG GAGACCCTCA ATTCGGCCTC 
    TCTCAAGCGC TGTGGGATGA CCTGACGAAT CGTGTCGATG CGGTGATCCA CAACGGCGCC 
    CTTGTTCACT GGGTGTATCC TTATTCCACT CTCAAGCCTG CCAACGTTAT GGGTACTATC 
    GACGCCCTGA AACTTTGCGC CAGTGGAAAG CCTAAGCAGT TCTCCTTTGT CAGCTCTACT 
    AGCGTGCTTG ACAGCGATCA TTATGTCGAG GAGTCTGAAC GTATTGTTGC AGCCGGAGGT 
    GCCGGGATCA GCGAGGAGGA TGATCTGGAG GGCAGCAGCG TAGGCCTTGG AACCGGTTAC 
    GGTCAAAGCA AATGGGCAGG AGAGTACCTT GTCCGAGAGG CGGGTAAGAG AGGATTAAAG 
    GGAACCATTA TCCGTCCTGG ATACGTGCTC GGTGACTCTC AGACCGGAAC TACGAACACC 
    GATGACTTCC TTATCCGTAT GATCAAGGGA TGTATTCAGC TGTCTGCCCG CCCTAACATC 
    AACAACACGG TCAATATGGT CCCTGTCGAT CACGTTGCCC GCGTTGTCAT CGCAGGTGCT 
    TTCCAGCCTC CATGCACGCC CATTGGTGTC GCACAGGTGA CTGGACACCC ACGTCTTCGT 
    TTCAACCAAT TTCTGGGAGC ACTGCAGCTG TATGGCTACA ACGTGCCCCA GGTTGACTAT 
    GTCCCGTGGG CACAGTCGCT TGAGCAATAT GTCAACGACG GACAGCACGA CGACCCAGAG 
    TCCCAGCATG CACTTATGCC CCTCTATCAC TTTGTAACCG CTGATCTCCC ATCCAACACC 
    AAGGCCCCTG AACTAGACGA TGTCCATGCC GCTGCTGCCC TTCGCGCAGA TGCCGCCTGG 
    TCCGGCGTCG ATGCCTCCGC TGGGGCCGGC GTGACCGAAG AGTTGGTCGG TCTGTACGCG 
    GCCTACCTGA CCACGATCGG GTTCTTGCCT GCGCCGCCTG CGTCCTCGAC AGCTCGGCCG 
    TTACCCACGA TCCGGCTCAG CGACGACCAG AAGCAGGCCT TGGCCAATGT TGGTGGCCGT 
    GGAGGCAGCT CATGA

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

    RefSeq XP_001820194.3
    CDS1..4275
    Translation

    Target ORF information:

    RefSeq Version XM_001820142.3
    Organism Aspergillus oryzae RIB40
    Definition Aspergillus oryzae RIB40 unnamed protein product (AO090003001097), partial mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_001820142.3

    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
    ATGGGTGTTG AAACAGCCTC CCTACAGGAT CGCCTTGAGC GATGGGCTCA AAGGTTACAA 
    AACTTGACTG TTAGTCCTCT GACTCGGGAT TATCCTGATA CCCAGAACCA GGAGCTTCCC 
    AAGAGAGCCA TTGAGGCATT CGAAACCTTC AAGCTCTCGG AAGACACGGA GGGAAAACTA 
    CAGAAGCTTT CGGGCTCATC CTCTGGTTTT ACCATTTTTT TGACAGCTTT TGTCGTACTT 
    GTTGCTCGTC TTACCGGCGA TGAGGACATT GCTATCGGTA CCACTTCGGC CGAAGACGGC 
    CGTCCATTCG TCCTGAGGGT CCCAATTGAC GCCTCGGAGA CTTTCCTTCA ATTATACGCC 
    AAGGTTCAGA AGGCATTTGA CCAAGGGTCC TCCGACATTG TTCCTTTGGG CAGTTTACGA 
    TCCTACATCC AGCAGAAGTC CCAATCGGAA CGATCCCCGA TTCTTTTCCG CTTCGCAGCC 
    TACGATGCAC CAGCCGCGTC TCAGGAATAC CCTGCCAACA CATTTGAGAC CACGGACCTG 
    GTCGTCAATG TTGCGCCTGC AGCAGGAGGG TCAACATCTC AAGCGGAACT GGGCGCATAC 
    TACAACCAAA GACTCTTCTC AAGCGCTAGG ATCTCCACGA TATTGAAGCA GCTGGGCAAG 
    ATCGTTGAAA ATGCGACCAG CAACCCAGAA GAGGCAATTG GCCGCCTTGA CTTCATGACC 
    GATGATCAGC GGGCACTTCT GCCAGACCCG ACAGCTGACC TGCATTGGTC CAAGTTCCGG 
    GGTGCAATTC ATGATATCTT TGCCGAGAAC GCTGAGAAAC ACCCAGAAAA GCTGTGTGTG 
    GTCGAAACCA AGTCCGATCG TTCTCCCCAC CGCGAATTCA CATACAAGCA GATCAACGAG 
    GCCTCCAACA TCCTGGCACA TCACTTGGTC CAATCAGGTA TTGAGAGAGG AGAAGTCGTC 
    ATGGTGTACG CTTACCGTGG TGTCGATCTT GTGGTGGCGG TTATGGGTAT CCTTAAAGCT 
    GGGGCAACTT TCTCCGTCAT CGACCCTGCG TATCCACCAG AGAGACAGTG CATCTACCTT 
    GACGTCGCTC GCCCTCGGGC GCTCATAAAT ATTGAGAAGG CCACCAAGGA TGCTGGTGAG 
    CTTTCCGAAA AAGTCCGCTC CTTCATTAAC GAAAACCTCG AGCTTCGCAC AGAAGTTCCC 
    GCGCTCGCAC TTCACGATGA CGGTTCGCTC CTTGGAGGAT CGATCAATGG CCAAGATGTT 
    TTAGCCAACC AGGTGCCTTT GGGATCTAAG CCTGTCGGTG TTGTGGTTGG TCCAGACTCG 
    ATCCCTACTT TGTCCTTCAC CTCTGGATCG GAGGGAAGGC CCAAGGGTGT GAGAGGACGT 
    CATTTCTCCT TGGCATACTA TTTCGACTGG ATGTCCGAAA CGTTCAAGCT GACTCCTAAT 
    GACCGTTTCA CGATGCTCAG CGGTATTGCC CATGACCCTA TTCAAAGAGA CATCTTCACT 
    CCTCTTTTCC TGGGAGCACA GTTGTTGGTC CCGGCACGTG AAGACATCCA GAATGAGCGA 
    CTTGCGGAGT GGATGCGGGA ATACGGTGCG AGTGTTACCC ATCTTACACC CGCCATGGGT 
    CAGATTCTGG TCGGTGGTGC TTCCGCACAG TTCCCAGCTC TTCACCACGC TTTCTTCGTC 
    GGTGATATCT TGATCAAAAG AGATTGCCGA TCTCTGCAAG GACTGGCCCC GAATGTCAAT 
    ATTGTGAACA TGTATGGTAC AACCGAGACC CAGCGTGCGG TTAGTTATTA TGAAATTCCT 
    AGCTACTCCA GCAACGAAGG GTTCCTGGAC ACTATGAAGG ATGTCATTCC AGCCGGTCGG 
    GGAATGGTTG ATGTGCAGAT GCTGGTTGTC AACCGGTTTG ACCCAAGCCG TATTTGTGCT 
    ATCGGAGAAG TGGGCGAAAT CTATGTTCGC GCTGCTGGTT TGGCAGAAGG CTATTTGGGC 
    TCCCCCGAGC TGAACGAGAA GAAGTTCCTT AAGAACTGGT TTGTTGATCC TCAATTCTGG 
    GTTCAGAAGG ATCAAGCCCA ATCGCAAAGT GCCAACGAGC CCTGGAGGCA ATTCTATGTT 
    GGACCAAGAG ACCGCCTGTA CCGCAGTGGA GACCTTGGTA GATACACACC TTCCGGTGAC 
    GTTGAATGTT CCGGTCGCGC GGATGACCAA GTGAAGATTC GTGGTTTCCG TATCGAGCTT 
    GGTGAGATCG ATACGCATCT TTCACGCCAC CCGTTGGTTA GAGAGAATGT CACTTTGGTG 
    AGGCGAGACA AATTCGAGGA GCCAACTCTG GTCAGTTACT TTGTGCCAGA TATGAGCAAG 
    TGGGCTTCGT GGTTGCAAGA AAGAGGCCTT GAAGACGACA CTTCCGCTGA AGGAATGGTC 
    GGTATGCTTG TACGATTCAG ACCCCTTCGT GATGATGCTC GAGAGCTTCT GCGTAGTAAG 
    CTCCCGACAT ACGCTGTGCC AACAGTGTTC ATCCCGCTCA AGCGAATGCC TCTTAACCCT 
    AACGGAAAGA TCGATAAACC TGCATTGCCG TTCCCAGATA CTGCGGAGCT CAGTGCGGCT 
    GCACCGCAGC GCAAGTCGTC TGTCCTGGAG GCCCTGTCCG AGACAGAGCA AGCTTTGGCT 
    CAGATTTGGG CACAGCGCAT TCCAAATGTG ACCTCTTCCA TGATTGGCCC TGACGATTCA 
    TTCTTTGACC TTGGAGGACA CAGTATTCTG GCACAGCAGA TGTTCTTCGA TCTTCGGCGC 
    AAGTGGCGTG GCGTTGACAT TAGTATGAAC GCAATCTTCC GCAGTCCTAC CCTTAGAGGG 
    TTCGCTGCCG AGATCGACCG CTTGTTGAAC TTTGAATCAT TCGCCGCCAG TGACAATAAG 
    GCAGCTGCCG AAGTTCCAGA TACCTCCAGT GCACCTGATG ACGAGTACTC AAAGGACGCT 
    CGGAAGCTAG TAGACGTTCT GCCCAAGGCA TTCCCCGAGA GGACAGAGCC TATTCTTTCT 
    GGAGAACCAA CCATCTTCCT TACGGGCGGT ACTGGATTCC TGGGCGCGCA TATTCTTCGC 
    GACCTCCTTA CCCGTAAGAC TCCCGCAGCA AAGGTTGTGG CTTTGGTTCG AGGAAAGTCT 
    GAGGAGCAAG CACTGGAGCG GATCCGGTCT ACCTGCCGAG CATACGGCTT CTGGGATGCA 
    GCGTGGACCA ACCGGCTTCA GTGTGTCTGC GGTAACCTAG GAGACCCTCA ATTCGGCCTC 
    TCTCAAGCGC TGTGGGATGA CCTGACGAAT CGTGTCGATG CGGTGATCCA CAACGGCGCC 
    CTTGTTCACT GGGTGTATCC TTATTCCACT CTCAAGCCTG CCAACGTTAT GGGTACTATC 
    GACGCCCTGA AACTTTGCGC CAGTGGAAAG CCTAAGCAGT TCTCCTTTGT CAGCTCTACT 
    AGCGTGCTTG ACAGCGATCA TTATGTCGAG GAGTCTGAAC GTATTGTTGC AGCCGGAGGT 
    GCCGGGATCA GCGAGGAGGA TGATCTGGAG GGCAGCAGCG TAGGCCTTGG AACCGGTTAC 
    GGTCAAAGCA AATGGGCAGG AGAGTACCTT GTCCGAGAGG CGGGTAAGAG AGGATTAAAG 
    GGAACCATTA TCCGTCCTGG ATACGTGCTC GGTGACTCTC AGACCGGAAC TACGAACACC 
    GATGACTTCC TTATCCGTAT GATCAAGGGA TGTATTCAGC TGTCTGCCCG CCCTAACATC 
    AACAACACGG TCAATATGGT CCCTGTCGAT CACGTTGCCC GCGTTGTCAT CGCAGGTGCT 
    TTCCAGCCTC CATGCACGCC CATTGGTGTC GCACAGGTGA CTGGACACCC ACGTCTTCGT 
    TTCAACCAAT TTCTGGGAGC ACTGCAGCTG TATGGCTACA ACGTGCCCCA GGTTGACTAT 
    GTCCCGTGGG CACAGTCGCT TGAGCAATAT GTCAACGACG GACAGCACGA CGACCCAGAG 
    TCCCAGCATG CACTTATGCC CCTCTATCAC TTTGTAACCG CTGATCTCCC ATCCAACACC 
    AAGGCCCCTG AACTAGACGA TGTCCATGCC GCTGCTGCCC TTCGCGCAGA TGCCGCCTGG 
    TCCGGCGTCG ATGCCTCCGC TGGGGCCGGC GTGACCGAAG AGTTGGTCGG TCTGTACGCG 
    GCCTACCTGA CCACGATCGG GTTCTTGCCT GCGCCGCCTG CGTCCTCGAC AGCTCGGCCG 
    TTACCCACGA TCCGGCTCAG CGACGACCAG AAGCAGGCCT TGGCCAATGT TGGTGGCCGT 
    GGAGGCAGCT CATGA

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

  • PubMed

    Genome sequencing and analysis of Aspergillus oryzae.
    Nature438(7071)1157-61(2005 Dec)
    Machida M,Asai K,Sano M,Tanaka T,Kumagai T,Terai G,Kusumoto K,Arima T,Akita O,Kashiwagi Y,Abe K,Gomi K,Horiuchi H,Kitamoto K,Kobayashi T,Takeuchi M,Denning DW,Galagan JE,Nierman WC,Yu J,Archer DB,Bennett JW,Bhatnagar D,Cleveland TE,Fedorova ND,Gotoh O,Horikawa H,Hosoyama A,Ichinomiya M,Igarashi R,Iwashita K,Juvvadi PR,Kato M,Kato Y,Kin T,Kokubun A,Maeda H,Maeyama N,Maruyama J,Nagasaki H,Nakajima T,Oda K,Okada K,Paulsen I,Sakamoto K,Sawano T,Takahashi M,Takase K,Terabayashi Y,Wortman JR,Yamada O,Yamagata Y,Anazawa H,Hata Y,Koide Y,Komori T,Koyama Y,Minetoki T,Suharnan S,Tanaka A,Isono K,Kuhara S,Ogasawara N,Kikuchi H


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