ORF » Species Summary » Coprinopsis cinerea okayama7#130 » CC1G_13761 cDNA ORF clone

CC1G_13761 cDNA ORF clone, Coprinopsis cinerea okayama7#130(Coprinus cinereus okayama7#130)

The following CC1G_13761 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CC1G_13761 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
OCj02517 XM_002912183.1
Latest version!		 Coprinopsis cinerea okayama7#130 hypothetical protein (CC1G_13761), partial mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00

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** 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)
    CC1G_13761 ( XM_002912183.1 ) cDNA ORF clone, Coprinopsis cinerea okayama7#130(Coprinus cinereus okayama7#130) -> XP_002912229.1 Coprinopsis cinerea okayama7#130 hypothetical protein (CC1G_13761), partial mRNA.
    Price & Availability↑
    CloneID OCj02517
    Clone ID Related Accession (Same CDS sequence) XM_002912183.1
    Accession Version XM_002912183.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4116bp)
    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 1503763200000
    Organism Coprinopsis cinerea okayama7#130(Coprinus cinereus okayama7#130)
    Product hypothetical protein
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. This record is derived from an annotated genomic sequence (NW_003307544). 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
    ATGAACATCT CCCAGTCTTC CTCCTCAAAT CTTGCCCAGG TCGCCCGTGC TGCGATCAAC 
    CGTTTCTTCC ACCCAAACAG CCACCCCAAA ATGTCCCACC AGCCGCTGCC ACCGACGACG 
    ACAGCGACGA CGACAACGGG GCCTGCCTCT GCTTCACCCG TCAGCCCAAC CTACTCAGAC 
    ACCGGCTCAG GCTTCTCAGC TCCCTCACCG TCCCCCTTCT CATCTTCCTC CACATCCACA 
    TCAGCAACTT CCTTTCAGAG CTCAGGCCAC ACCGATTTCA CCGATTTCAC CCAACAATCC 
    AACTCCTTGT ACGACTTTGC ATCCTCAGAA CAAGATCCAA CAATCACAGA CGTTGTCGAC 
    AGTGGCCTAG CGTGTCTCTA TAACCCCAAC GCGAACGACG TCCTGCCGGG CGGTCCTAGC 
    TCCGACTACT CGGCTTTTGC CTCTGCTCAC CCACCCGGCA ATCCGGGGGC AGTGGTCTAC 
    ACATCGGCTG GTGAACTCGA CCTCAATGCA ACCTATGGCA ACATCATGGC TACCGACTAT 
    TCAAGCCCCA CAGCTCCCAA CGACTGTAAC AGTTTCATCA CTTGGTCGCC CAAGAACAAC 
    ACCCAGAATA TAACTGATAG CAACAACTCT TATCAAAGAC TCCAGCAGCA ACAACAAAGC 
    CAACATATCG CCGACGCCAC CTCTACCTCC ACCAGTAACA CCGCCTCTCG TGCACCAGCT 
    TCCAACTCTA CAACCGTCCG CCAATCCTCT CCCTCCGCCC CGACATCCAA CTCTAACGGT 
    CTTTATCCTT CGTCCAATCC TAACGCCTCG AGCGGCCCAG CCAAGCCTGG CATGCTTGGC 
    CAACTATACA TTCCTTCGTC CCAACCCAGC TCTTCGGCCG CACCCGTTCA TTCACCAATC 
    CCGAGTCGAT ACGCTGGGTC CGAGGCAGTC GTCTCTGGCG GCCAGCCCAA CCCATCATAT 
    TCGCACTCCC AGTCCATGAT GGCGCCACAA TCCCAATACC AGCACAATCA CCATCAGCGG 
    CATTCGAGCA GCGGCAGCAC AGGAAGCAAC GGCGGACATC CTCTCTTATT TGACGTGGAC 
    GTTGACGAGT GGCATCCAAA GCCCGGTGCG CAGTCCCACT CACAGCATAA CCAGCAACAT 
    ATGCGCTACT CGTCAGCGGG CTCTGCATCG GTGTCACCTC CCCAAATGTT CCACCAGCCT 
    TCGATGTCGT ACGGCCGCCC TCAACAATCC CATCCCCCTT CCCATCCCCA CGCCCAGTCG 
    CTCCATCTGA ATCTCAACCT TAATGCTCAC CCGACGGGGT CTCCGGCATC TTCCCTTTCA 
    TCGCTATCGC CCGGACAAAT GTCTTTGCCT TTGACACCAG GTCATGAGTT TGGTCACGGG 
    CTTGGTGCAG ACTATGGAAT GGTCATTAAC GGTTCTGGAA ATGGGCTTGG ATTGGCGATG 
    AGTGGTCCCC CACCCACTCC CATGTCCTCA ACGGCCTCCT TATCTCCCGT GATTCCTGGT 
    CCTTCCTCGT ACCCAGTCAC TTCTGGGCGT GGTGCAGGGG TGAACAACTC TCAGGCGCTG 
    CTCGCTCAGC GACGGGCGAG TATGGGTATT GCCCAGCCTT CGACCTCTCC CAATGCCGGT 
    TCATTGTCCC CTCGGCAGCA TCACCATCCT TATGCACAAG GTTACCAGCA AAGAGGTACT 
    CACGGAAGAT CCCCCCTCCA TCCTAATCAA ATCCAACAAG CTCGAAGGTC GCCACTCCAT 
    CAAGAGTTCT TCGACGATGG CGCATCTGGT ATTGGGAAGG CAGGTTCCAT GAACCCTGGG 
    AACATTCCGG AGGACGACGC GTACGCAGGC CAGTATGAGA AGATGTATCG GGAGAGGCAA 
    AGAAGGGAGT CGAAGCGACA GGACCGGGGC CGGGACGGCC CTCAGCCATC TGTGTCACTC 
    GATCAGCGAA GACATTCGGC ACCACTCGTG GATGTTCAGT TCCCTGCTCG TTCCCAGCCA 
    CAACCACAAG GTGGATATTC TCCACCGGTC CTCCTTAGCG AGATGGGGAG GCGACCTAGC 
    GCGCCAGCTG TACATCAAGT CCATCACAAC CAGCAGCAAA GATATGCCAA TCCGAATAAT 
    GGCGGCTATG CTCCGGGCGT GTCGACTTCT CCATCATCAG TGTCGTCTTC GAGATCTGTT 
    CCCCTCGCAC CTTCCCTCTC CGCTTCCTCG TCCACTTCTT CGACTTCCTC GCGCTCTCCC 
    GTCGCGCATA TCCCCAGCCA GTCGCTTCCC TCGCAACATT CGACCTTGGC GGCCGCTGCC 
    GCCGCTCACC ATGGAAGCAC TCGCTTGTTG AGCGATATGG TCAACTCTGG TTCGATGACT 
    TGTATTCCTG GATCGGTGTA TGACGAAGAG GGAATCAACG TGGTCTCCGA GGGCGCGGAT 
    ATGTCTTCCA TCATGCAGCT CGACATCGAC GAGAAGGTTG CGCAACAACA CCAACCCACA 
    TTCGATATGG ACATGGGAGG GATGGAGTCA TTGATGGATG TCGAAAGTGC TGTGCATGGA 
    CACGGTATGG CAGGCGATAT GGGTGTCGGG ATTGACATGG ACATGGACAT CTTGCGGATG 
    AACATGGAGA TGTCGATGAC GAACTCTGGG CTCCAATCTT CCGGACCGAC AAACACTTCT 
    TCGACTTCAG CGTCCAACAT CTACATCCCG CCTATGCCCG TGACAGTGGA CATGAACGAT 
    CTGACTGACG CTCACAACAA TGCTGCCAAC CAAGGTATCT CCCCTCGCAT GATGATGCTC 
    GATGACGCTG GCAAGACAGG CGACTCGGTC GATCAGCCAC AGGACATGTA CGACTTTGAA 
    TCGGCTTTGG ACGCTGCGCC TTCTCCGACC CTCGTTGGCG TTTCCGGTAT CGGCGTCGTG 
    CAGGATTGGC AGAAGGCGGG TGGCGAGTAC GACAGTGCCG ACTCTTCCGA GTCGGAGTCC 
    GATGGTGAGG GCACGGGGTT ATTGTCAGAT ATTGAGGGCG GCGAGGGCAA GGGGGTTGTT 
    GGGAGGAATG GTGGAGAGGG AGACGGGGGT GCTGTAAAGG GTAGGGATGG TAGACAACGT 
    CGTGGAAAGA CTGGTACAGC ATTGGCTGTG GACGGTCTCA CGGGTGGGGC GGGCGCTGGA 
    AGGAAGGTGG GCGCTGGTGG GAAGCCGACG ATGAAGCAGC GAGCCTCCAA CAGGACCATT 
    ACCTCACGCT CCACCAGGAG CAAGGCTAGC ACGCAAACGC TCACTCAACG CAACGTCGAC 
    GGTCAGGCTG GAGATGGATT GGCGGATGAG GGTGAGGAGG TTGGTGGGGA GGGGGATGAG 
    GATCTGCTTT CGAGCAGTGA TGAGAGCTTT GATTATGATG ACGAAAAGGA TGGCGAGTTT 
    GTGCCCCGGT CCAGGTCCAA AGGTGCTGGA GGTTCAAGGT CAGCCTCCCG CAGGGCCACT 
    TCCAACAACG CCGCCGCCTC TGGTAACTCA GCCTCCGCTC CTGCTGGTGG TCGTCGCTCC 
    GCTGGTTCTC GAGGCCTTCG CTCCAGGGGT AGTGCTAATG GCAGATACAA CCCGTACTCT 
    GTCTATGCTG CGACCGCTGC TGCGGCTGCT TCCCAACCTA GCGGCGAATC TGGCTCCTCT 
    ACCACCCCGC CTGGCACCGG TCTCCGGACC CTGAACGTCC CTGGATTCGA GGGAAGCACT 
    GATGGGTCTG TCTCCCCTTC GGTTGGTGGT GATCTCGAGC TTGGTCCAGA TGGAAAGACG 
    CGCAAGGTCC GACCTGCTGC GAGTCTTCCT GTCCCTGTCC CTGTTCCCAA CCTCACCAAG 
    AAGAGCCGTG GTCGACGAGT GCCTACTGTC AGCAGCTTGG AGGAGTTGAG GAAGGCTGGG 
    AGCGCTCAGG GCACCGCTAC TTCAGGTCGC AAGGGTCGTG GTGGAGCAGG TGCAAAGGGT 
    GCGCGGATGT ATCTTTGTGA CGTGGAGGGC TGTGGCAAGT GCTTCGCTCG TGGTGAGCAT 
    CTGAAGAGAC ACGTCAGAAG CATTCATACC AATGAGAAAC CCCATACATG CCCTTACCCT 
    GGGTGTGGCA AGGACTTTAG CCGGCACGAC AACCTTGGCC AGCATATGCG GGTGCACAAA 
    GACTATGTGC CTCCGCCGAA CCCTGCCAAA GCCTGA

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

    RefSeq XP_002912229.1
    CDS1..4116
    Translation

    Target ORF information:

    RefSeq Version XM_002912183.1
    Organism Coprinopsis cinerea okayama7#130(Coprinus cinereus okayama7#130)
    Definition Coprinopsis cinerea okayama7#130 hypothetical protein (CC1G_13761), partial mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_002912183.1

    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
    ATGAACATCT CCCAGTCTTC CTCCTCAAAT CTTGCCCAGG TCGCCCGTGC TGCGATCAAC 
    CGTTTCTTCC ACCCAAACAG CCACCCCAAA ATGTCCCACC AGCCGCTGCC ACCGACGACG 
    ACAGCGACGA CGACAACGGG GCCTGCCTCT GCTTCACCCG TCAGCCCAAC CTACTCAGAC 
    ACCGGCTCAG GCTTCTCAGC TCCCTCACCG TCCCCCTTCT CATCTTCCTC CACATCCACA 
    TCAGCAACTT CCTTTCAGAG CTCAGGCCAC ACCGATTTCA CCGATTTCAC CCAACAATCC 
    AACTCCTTGT ACGACTTTGC ATCCTCAGAA CAAGATCCAA CAATCACAGA CGTTGTCGAC 
    AGTGGCCTAG CGTGTCTCTA TAACCCCAAC GCGAACGACG TCCTGCCGGG CGGTCCTAGC 
    TCCGACTACT CGGCTTTTGC CTCTGCTCAC CCACCCGGCA ATCCGGGGGC AGTGGTCTAC 
    ACATCGGCTG GTGAACTCGA CCTCAATGCA ACCTATGGCA ACATCATGGC TACCGACTAT 
    TCAAGCCCCA CAGCTCCCAA CGACTGTAAC AGTTTCATCA CTTGGTCGCC CAAGAACAAC 
    ACCCAGAATA TAACTGATAG CAACAACTCT TATCAAAGAC TCCAGCAGCA ACAACAAAGC 
    CAACATATCG CCGACGCCAC CTCTACCTCC ACCAGTAACA CCGCCTCTCG TGCACCAGCT 
    TCCAACTCTA CAACCGTCCG CCAATCCTCT CCCTCCGCCC CGACATCCAA CTCTAACGGT 
    CTTTATCCTT CGTCCAATCC TAACGCCTCG AGCGGCCCAG CCAAGCCTGG CATGCTTGGC 
    CAACTATACA TTCCTTCGTC CCAACCCAGC TCTTCGGCCG CACCCGTTCA TTCACCAATC 
    CCGAGTCGAT ACGCTGGGTC CGAGGCAGTC GTCTCTGGCG GCCAGCCCAA CCCATCATAT 
    TCGCACTCCC AGTCCATGAT GGCGCCACAA TCCCAATACC AGCACAATCA CCATCAGCGG 
    CATTCGAGCA GCGGCAGCAC AGGAAGCAAC GGCGGACATC CTCTCTTATT TGACGTGGAC 
    GTTGACGAGT GGCATCCAAA GCCCGGTGCG CAGTCCCACT CACAGCATAA CCAGCAACAT 
    ATGCGCTACT CGTCAGCGGG CTCTGCATCG GTGTCACCTC CCCAAATGTT CCACCAGCCT 
    TCGATGTCGT ACGGCCGCCC TCAACAATCC CATCCCCCTT CCCATCCCCA CGCCCAGTCG 
    CTCCATCTGA ATCTCAACCT TAATGCTCAC CCGACGGGGT CTCCGGCATC TTCCCTTTCA 
    TCGCTATCGC CCGGACAAAT GTCTTTGCCT TTGACACCAG GTCATGAGTT TGGTCACGGG 
    CTTGGTGCAG ACTATGGAAT GGTCATTAAC GGTTCTGGAA ATGGGCTTGG ATTGGCGATG 
    AGTGGTCCCC CACCCACTCC CATGTCCTCA ACGGCCTCCT TATCTCCCGT GATTCCTGGT 
    CCTTCCTCGT ACCCAGTCAC TTCTGGGCGT GGTGCAGGGG TGAACAACTC TCAGGCGCTG 
    CTCGCTCAGC GACGGGCGAG TATGGGTATT GCCCAGCCTT CGACCTCTCC CAATGCCGGT 
    TCATTGTCCC CTCGGCAGCA TCACCATCCT TATGCACAAG GTTACCAGCA AAGAGGTACT 
    CACGGAAGAT CCCCCCTCCA TCCTAATCAA ATCCAACAAG CTCGAAGGTC GCCACTCCAT 
    CAAGAGTTCT TCGACGATGG CGCATCTGGT ATTGGGAAGG CAGGTTCCAT GAACCCTGGG 
    AACATTCCGG AGGACGACGC GTACGCAGGC CAGTATGAGA AGATGTATCG GGAGAGGCAA 
    AGAAGGGAGT CGAAGCGACA GGACCGGGGC CGGGACGGCC CTCAGCCATC TGTGTCACTC 
    GATCAGCGAA GACATTCGGC ACCACTCGTG GATGTTCAGT TCCCTGCTCG TTCCCAGCCA 
    CAACCACAAG GTGGATATTC TCCACCGGTC CTCCTTAGCG AGATGGGGAG GCGACCTAGC 
    GCGCCAGCTG TACATCAAGT CCATCACAAC CAGCAGCAAA GATATGCCAA TCCGAATAAT 
    GGCGGCTATG CTCCGGGCGT GTCGACTTCT CCATCATCAG TGTCGTCTTC GAGATCTGTT 
    CCCCTCGCAC CTTCCCTCTC CGCTTCCTCG TCCACTTCTT CGACTTCCTC GCGCTCTCCC 
    GTCGCGCATA TCCCCAGCCA GTCGCTTCCC TCGCAACATT CGACCTTGGC GGCCGCTGCC 
    GCCGCTCACC ATGGAAGCAC TCGCTTGTTG AGCGATATGG TCAACTCTGG TTCGATGACT 
    TGTATTCCTG GATCGGTGTA TGACGAAGAG GGAATCAACG TGGTCTCCGA GGGCGCGGAT 
    ATGTCTTCCA TCATGCAGCT CGACATCGAC GAGAAGGTTG CGCAACAACA CCAACCCACA 
    TTCGATATGG ACATGGGAGG GATGGAGTCA TTGATGGATG TCGAAAGTGC TGTGCATGGA 
    CACGGTATGG CAGGCGATAT GGGTGTCGGG ATTGACATGG ACATGGACAT CTTGCGGATG 
    AACATGGAGA TGTCGATGAC GAACTCTGGG CTCCAATCTT CCGGACCGAC AAACACTTCT 
    TCGACTTCAG CGTCCAACAT CTACATCCCG CCTATGCCCG TGACAGTGGA CATGAACGAT 
    CTGACTGACG CTCACAACAA TGCTGCCAAC CAAGGTATCT CCCCTCGCAT GATGATGCTC 
    GATGACGCTG GCAAGACAGG CGACTCGGTC GATCAGCCAC AGGACATGTA CGACTTTGAA 
    TCGGCTTTGG ACGCTGCGCC TTCTCCGACC CTCGTTGGCG TTTCCGGTAT CGGCGTCGTG 
    CAGGATTGGC AGAAGGCGGG TGGCGAGTAC GACAGTGCCG ACTCTTCCGA GTCGGAGTCC 
    GATGGTGAGG GCACGGGGTT ATTGTCAGAT ATTGAGGGCG GCGAGGGCAA GGGGGTTGTT 
    GGGAGGAATG GTGGAGAGGG AGACGGGGGT GCTGTAAAGG GTAGGGATGG TAGACAACGT 
    CGTGGAAAGA CTGGTACAGC ATTGGCTGTG GACGGTCTCA CGGGTGGGGC GGGCGCTGGA 
    AGGAAGGTGG GCGCTGGTGG GAAGCCGACG ATGAAGCAGC GAGCCTCCAA CAGGACCATT 
    ACCTCACGCT CCACCAGGAG CAAGGCTAGC ACGCAAACGC TCACTCAACG CAACGTCGAC 
    GGTCAGGCTG GAGATGGATT GGCGGATGAG GGTGAGGAGG TTGGTGGGGA GGGGGATGAG 
    GATCTGCTTT CGAGCAGTGA TGAGAGCTTT GATTATGATG ACGAAAAGGA TGGCGAGTTT 
    GTGCCCCGGT CCAGGTCCAA AGGTGCTGGA GGTTCAAGGT CAGCCTCCCG CAGGGCCACT 
    TCCAACAACG CCGCCGCCTC TGGTAACTCA GCCTCCGCTC CTGCTGGTGG TCGTCGCTCC 
    GCTGGTTCTC GAGGCCTTCG CTCCAGGGGT AGTGCTAATG GCAGATACAA CCCGTACTCT 
    GTCTATGCTG CGACCGCTGC TGCGGCTGCT TCCCAACCTA GCGGCGAATC TGGCTCCTCT 
    ACCACCCCGC CTGGCACCGG TCTCCGGACC CTGAACGTCC CTGGATTCGA GGGAAGCACT 
    GATGGGTCTG TCTCCCCTTC GGTTGGTGGT GATCTCGAGC TTGGTCCAGA TGGAAAGACG 
    CGCAAGGTCC GACCTGCTGC GAGTCTTCCT GTCCCTGTCC CTGTTCCCAA CCTCACCAAG 
    AAGAGCCGTG GTCGACGAGT GCCTACTGTC AGCAGCTTGG AGGAGTTGAG GAAGGCTGGG 
    AGCGCTCAGG GCACCGCTAC TTCAGGTCGC AAGGGTCGTG GTGGAGCAGG TGCAAAGGGT 
    GCGCGGATGT ATCTTTGTGA CGTGGAGGGC TGTGGCAAGT GCTTCGCTCG TGGTGAGCAT 
    CTGAAGAGAC ACGTCAGAAG CATTCATACC AATGAGAAAC CCCATACATG CCCTTACCCT 
    GGGTGTGGCA AGGACTTTAG CCGGCACGAC AACCTTGGCC AGCATATGCG GGTGCACAAA 
    GACTATGTGC CTCCGCCGAA CCCTGCCAAA GCCTGA

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

  • PubMed

    Insights into evolution of multicellular fungi from the assembled chromosomes of the mushroom Coprinopsis cinerea (Coprinus cinereus).
    Proceedings of the National Academy of Sciences of the United States of America107(26)11889-94(2010 Jun)
    Stajich JE,Wilke SK,Ahrén D,Au CH,Birren BW,Borodovsky M,Burns C,Canbäck B,Casselton LA,Cheng CK,Deng J,Dietrich FS,Fargo DC,Farman ML,Gathman AC,Goldberg J,Guigó R,Hoegger PJ,Hooker JB,Huggins A,James TY,Kamada T,Kilaru S,Kodira C,Kües U,Kupfer D,Kwan HS,Lomsadze A,Li W,Lilly WW,Ma LJ,Mackey AJ,Manning G,Martin F,Muraguchi H,Natvig DO,Palmerini H,Ramesh MA,Rehmeyer CJ,Roe BA,Shenoy N,Stanke M,Ter-Hovhannisyan V,Tunlid A,Velagapudi R,Vision TJ,Zeng Q,Zolan ME,Pukkila PJ


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