ORF » Species Summary » Phaeodactylum tricornutum CCAP 1055/1 » NRPS cDNA ORF clone

NRPS cDNA ORF clone, Phaeodactylum tricornutum CCAP 1055/1

The following NRPS gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the NRPS 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
OPb07398 XM_002181168.1
Latest version!		 Phaeodactylum tricornutum CCAP 1055/1 non ribosomal peptide synthase (NRPS), 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)
    NRPS ( XM_002181168.1 ) cDNA ORF clone, Phaeodactylum tricornutum CCAP 1055/1 -> XP_002181204.1 Phaeodactylum tricornutum CCAP 1055/1 non ribosomal peptide synthase (NRPS), partial mRNA.
    Price & Availability↑
    CloneID OPb07398
    Clone ID Related Accession (Same CDS sequence) XM_002181168.1
    Accession Version XM_002181168.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4104bp)
    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 1497456000000
    Organism Phaeodactylum tricornutum CCAP 1055/1
    Product non ribosomal peptide synthase
    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_011680). COMPLETENESS: incomplete on the 3' 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
    ATGACTCAGG ACGAGCCGAA GTGCATTCAT GTTTCGTTTC ACGATCAAGC GGCTCAGACT 
    CCTGACGCCG TCTGTCTCAT CGAAGAAGAT CTGACATTCA CTTACGCCGA GGTCCAACGT 
    CGCGTGATTC TACTGGCAAA GGAACTCCGC GACAATGGTT CCTGTACGAA CGCTGTTGTT 
    GCCATTTTCA TGGAACCTTG TGCGGACTAT ATCATCTCCA TGTTGGCTGT GCTGACGGCG 
    GGGGCGGCGT ACGTGCCGTT GGAACTCGCT TATCCAATCA CCATGTTGCA GCGTGTGCTG 
    CACGATGCTA CACCTGTGGT GGTGGTGACT AAACAGGAAC AACGAGCACT GCTGCCCGTG 
    ACAAACACGG CCTTGGCGGT TCTTTGTCTC GACGATAACG AACATCACGA GCTGCAGGAA 
    ACTGCCGGAC AGCCAGAATC ACAGGCAGAA CTATTGCAGA CGTATCAGTC CTTTCCTCCA 
    GTTTCGCTGG ACGATCTCGC CTTCATTGTG TACTCCAGTG GTACTACGGG TCAACCCAAA 
    GGTATTGCAA ATCCGCACCG AGCTCCGGCC CTTTCGTACC GTTGGCGGTT TGACGAATTC 
    GTCGACCCTG GTCCAGGCAG TATTGTAGCG TGCAACGTTT TCTTTGTTTG GGAAGCCCTG 
    CGAGCCGTCA TGCGAGGCGG AGCTGTGGTC CCCGTTCCCG CTTCAATCGT CTTTGATGGC 
    GAAGCCTTAT CTGTCTTTCT GCATCAACAC AGCGTTACGG AAATGCTATT TACACCTTCC 
    CTTTTGGAAA ACTTTTTCAA TACCATGTCG GAAGCCGATT TGCGAGCGCG ATTGGTTGCC 
    TTGAAGACAA TTTTCCTTAA TGGGGAAGTC GTCACCCTGA ATTTGCGCGA ACGTTGTTTC 
    CGTTTACTAC CCTCCGTTCG CTTCATCAAT CTGTATTCGA TTAGTGAGTG TCACGAAGTG 
    GGTGCTGTCG ATTTGCGCGA AATAGATCTG AATCTTTCCA CCAAGTATTG TCCGATTGGT 
    GCCCCATGTA CCTATTCACC TGCATACATT CTAGACGATG AAGGAAGACA CGCTGTTGCA 
    CCTGGTGATG CGGGCGAACT CTACATTGGC GGAGACATGT TGGCAGTGGG TTATTTGAAT 
    CTACCTGAAC TAACGGCCAC CCGATTCGTG CCGGATCCTT TTCGACCTGA TGAAGGGTGC 
    ATGTACCGGA CAGGAGATCG TGCGCGAATG TTGGAAAACG GACAGCTAGA AATTCTTGGT 
    CGCTGTGATT TTATGGTGAA AATTCGTGGA TATTCTATCG TGCTAGGCGC CGTGGAAGCG 
    GCACTGGTCG AAACCGTCTC TTTGTCGTCG TGTGTGGTTG TCGCCGACGG AGAAGAGGGC 
    GAAGATAAAC ACCTGGTGGC CTATCTGGTG CGCGCACCCC ATGAGGATGT TGAAACACGC 
    CTCAGCCACT GGTCCATTGA TACTCGTACC GGTGCTTGCC CAGAAATTCG CCGCGCAGTC 
    GACGGCGCCT TGCCACATTA CATGGTTCCT AGTGTTTTTG TAGAAGTTGA AACATTGCCA 
    GTCAGTGCGG TCGGAGCAAA ACTTGATCGC AAGGCATTAC AGGCACAATC GGCCGATCGC 
    AGGGCCATGC TCCGGTCCTT GCAATTGTCA GCCGAAACCC ACACAACCCC GTTACATACG 
    GCTACTAGTC ATCAGCCAGC ACGCTGGAAG CGCGTGGCGA AACATTTACG GGTACCGCAT 
    GGGTCGAGTC GAGAAGATGT GGAAGATGTC ATGCTCATTT TATGGGAAGT TGTTCTTGAT 
    CGCGAGCCAG GCATGTTGGA CAGTAATTCC GACTTTCACG AGCACGGAGG CCATTCGCTT 
    AGTGCTGCAC GACTCGTCTC TTTGATGAAT AAAACCTTCT CTTGCCGACT ACTCGCAGTA 
    CAGCTGATGC AAGGAATGTC CATAGGCACA GCAACAGATG CTGTAGTGGC ATCTTGGTTG 
    GAAGACCCGA TCTCCAATGG TGGGGAATCC GGAAGCAATC GTGTACATCA AATGAATGGA 
    AGCGGCGGGA CGATTCCGAA CGGCGCGTTG AGGACAGCAG ATGAAGATCA GATTATCCAA 
    CAAGTACGTG GAGCTGCGGT CTTGCCGGAA GATATTATAC CAAAGTCTCA GGGATTTCCG 
    ACTCGTGGTC TCGGCGAGAG CAAAGAAGTA TTTTTGACTG GATCCACAGG CTTTCTCGGA 
    GCTCACGTGC TGGCTGAGCT CCTACTCAAA TATCCGTCCG CGACAGTGGT ATGTCTGGCT 
    CGCTCCAAAG ATCCTAAAGT TGTTCAGATT AATCTGGAAC GCTACAAGCT GTGGCAACCA 
    GAATTTTCTA CTCGAATTAA AGCCGTCAGC GGAGATTTGT CGCTTGCGAA GCTTGGCTTG 
    GATCTAAGCA GCTGGAAGCA AATAACACAG GCTGCTGATG CTGTCGTCCA TTGCGGAGCT 
    GCTGTGTCAC TAACATCTCC GTATGCAATG CTTGAAGCTG TGAATGTGTA CGGCACACTG 
    AATATTATTC GTCTTGCTTG TGAATGCAAA GCCGGCACAC CTCTTATCTA TGTCTCGTCC 
    AACGGAATTT TCCCGTGTGA CAAGGGCAAA GATGAAATTT TTCTTGAAAA TGATGATGTT 
    GGGTGCCTGC CGGATCGACT TGGAGCCATG AACGGTTATG GGCTTAGCAA ATGGGTTGCA 
    GAGCAGCTTG TTGTCGCTGC GCACAAGCGA GGGCTCCCCA CAATGACAAT TCGTTTTGGC 
    AATCTAGGAT GGCAATCAAC TTCTGGGATT GGTAACTCTT TGGATTTTCA GAGTATAATT 
    CTAAATGGCG CTCGGCGAAT GGTGGTCCGG CCTCGTGTAA AAGGGTGGAA ATTCGAAATC 
    ACGCCAATCG ATTTTGCCGC AGCAGCGCTC GTCGGTCTTG CAGACACTGC TATACACCTA 
    AAAGCCGGGT CTATCTTTAA TTGTGTCCAG TCAGAACTTG TCGATGCAGA CCGTGTCTTT 
    GGTTGGGTGT CCGAGAGCGA TACCCTTTCT CTCTTGGCGC TTGACTTCGA AGACTGGCAA 
    CAGCGGGTAG ACGAGGCGAG CAACGACGAC CTGTCGCTAT CCACATTGCA GGCCTTTGCC 
    ATGGGGCTCC CAGGTGGAGC CTCGTACTTA TCCGAATGTG CACATCTAGA TTGCAGCAAG 
    TTCGATGCAG CCGTAGCCTC GCTTCATCCC CCGTTACGGC GTCTTGGTCC TTCGGAACTT 
    TCGGAGTATT TCAAAATCTT CCTTAGCGCC AACCCGATTA TATCGTCTGT GGCGGCCGAC 
    AGCGTCATAA AGCCGTCTGC GGTCGATCCC TCTGTTTCAA CTGAACATCA AGGTCCTCTG 
    GCTGGTCAAG TTGCCGTCGT TACAGGCGCC TCGTCCGGAA TTGGTCGAGC AATCGTCCTG 
    TCACTGGTCC AAGCCGGATG TAATGTTGCT ATGGCTGCTC GTAGATTATC TGAGCTCGAA 
    AAGACTCAAA AGGAAGTAGC TGAAGCGTGC AGCGGCTCTC CGGTTAAGAT GATGTGCGTA 
    CGTACGGACG TTACGAAGCG CGACGAAGTG GCTCATTTAG TACAGGTTGT AGAAGTTTCT 
    CTGGGGCCAA TTGATATCAT GGTAAACTGC GCCGGGGTCA TGTACTTCAC TTTGATGAAA 
    AATGTAGTCT GGGATCAGTG GGAAGCGCAA GTGGATGTCA ACTGTAAGGG AACGATGTAC 
    GGAATCGGAT CTGTACTTCC CAGAATGCTC GATCGAGGAA AAGGGCACAT CGTGAACATT 
    ACAAGTGATG CCGGCCGCAA GGCGTTTCCT GGGTTGGCGG TGTACTCTGG TTCAAAGTTT 
    TTTGTCGAAG GGGTGAGCCA GGCACTTCGC GCGGAGACTG CCTCTACAGG GCTCCGAGTG 
    ACCTGTATTC AGCCTGGTAA CGTGGAGACT CCTTTGCTCT CGAAATCAAC CGATCCCGAT 
    GGGCTCGCAG AATATGGGAC ACCAACTGGC GCGAAGGTTC TCGAGCCGGC AGATATAGGC 
    AGGGCTGTCG TATACGCCGT GTCCCAGCCT GAGTGGTGTG CAGTAAACGA GATTCTCGTC 
    GAACCTCGAG ACGAGCCCGC CTAA

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

    RefSeq XP_002181204.1
    CDS106..4209
    Translation

    Target ORF information:

    RefSeq Version XM_002181168.1
    Organism Phaeodactylum tricornutum CCAP 1055/1
    Definition Phaeodactylum tricornutum CCAP 1055/1 non ribosomal peptide synthase (NRPS), partial mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_002181168.1

    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
    ATGACTCAGG ACGAGCCGAA GTGCATTCAT GTTTCGTTTC ACGATCAAGC GGCTCAGACT 
    CCTGACGCCG TCTGTCTCAT CGAAGAAGAT CTGACATTCA CTTACGCCGA GGTCCAACGT 
    CGCGTGATTC TACTGGCAAA GGAACTCCGC GACAATGGTT CCTGTACGAA CGCTGTTGTT 
    GCCATTTTCA TGGAACCTTG TGCGGACTAT ATCATCTCCA TGTTGGCTGT GCTGACGGCG 
    GGGGCGGCGT ACGTGCCGTT GGAACTCGCT TATCCAATCA CCATGTTGCA GCGTGTGCTG 
    CACGATGCTA CACCTGTGGT GGTGGTGACT AAACAGGAAC AACGAGCACT GCTGCCCGTG 
    ACAAACACGG CCTTGGCGGT TCTTTGTCTC GACGATAACG AACATCACGA GCTGCAGGAA 
    ACTGCCGGAC AGCCAGAATC ACAGGCAGAA CTATTGCAGA CGTATCAGTC CTTTCCTCCA 
    GTTTCGCTGG ACGATCTCGC CTTCATTGTG TACTCCAGTG GTACTACGGG TCAACCCAAA 
    GGTATTGCAA ATCCGCACCG AGCTCCGGCC CTTTCGTACC GTTGGCGGTT TGACGAATTC 
    GTCGACCCTG GTCCAGGCAG TATTGTAGCG TGCAACGTTT TCTTTGTTTG GGAAGCCCTG 
    CGAGCCGTCA TGCGAGGCGG AGCTGTGGTC CCCGTTCCCG CTTCAATCGT CTTTGATGGC 
    GAAGCCTTAT CTGTCTTTCT GCATCAACAC AGCGTTACGG AAATGCTATT TACACCTTCC 
    CTTTTGGAAA ACTTTTTCAA TACCATGTCG GAAGCCGATT TGCGAGCGCG ATTGGTTGCC 
    TTGAAGACAA TTTTCCTTAA TGGGGAAGTC GTCACCCTGA ATTTGCGCGA ACGTTGTTTC 
    CGTTTACTAC CCTCCGTTCG CTTCATCAAT CTGTATTCGA TTAGTGAGTG TCACGAAGTG 
    GGTGCTGTCG ATTTGCGCGA AATAGATCTG AATCTTTCCA CCAAGTATTG TCCGATTGGT 
    GCCCCATGTA CCTATTCACC TGCATACATT CTAGACGATG AAGGAAGACA CGCTGTTGCA 
    CCTGGTGATG CGGGCGAACT CTACATTGGC GGAGACATGT TGGCAGTGGG TTATTTGAAT 
    CTACCTGAAC TAACGGCCAC CCGATTCGTG CCGGATCCTT TTCGACCTGA TGAAGGGTGC 
    ATGTACCGGA CAGGAGATCG TGCGCGAATG TTGGAAAACG GACAGCTAGA AATTCTTGGT 
    CGCTGTGATT TTATGGTGAA AATTCGTGGA TATTCTATCG TGCTAGGCGC CGTGGAAGCG 
    GCACTGGTCG AAACCGTCTC TTTGTCGTCG TGTGTGGTTG TCGCCGACGG AGAAGAGGGC 
    GAAGATAAAC ACCTGGTGGC CTATCTGGTG CGCGCACCCC ATGAGGATGT TGAAACACGC 
    CTCAGCCACT GGTCCATTGA TACTCGTACC GGTGCTTGCC CAGAAATTCG CCGCGCAGTC 
    GACGGCGCCT TGCCACATTA CATGGTTCCT AGTGTTTTTG TAGAAGTTGA AACATTGCCA 
    GTCAGTGCGG TCGGAGCAAA ACTTGATCGC AAGGCATTAC AGGCACAATC GGCCGATCGC 
    AGGGCCATGC TCCGGTCCTT GCAATTGTCA GCCGAAACCC ACACAACCCC GTTACATACG 
    GCTACTAGTC ATCAGCCAGC ACGCTGGAAG CGCGTGGCGA AACATTTACG GGTACCGCAT 
    GGGTCGAGTC GAGAAGATGT GGAAGATGTC ATGCTCATTT TATGGGAAGT TGTTCTTGAT 
    CGCGAGCCAG GCATGTTGGA CAGTAATTCC GACTTTCACG AGCACGGAGG CCATTCGCTT 
    AGTGCTGCAC GACTCGTCTC TTTGATGAAT AAAACCTTCT CTTGCCGACT ACTCGCAGTA 
    CAGCTGATGC AAGGAATGTC CATAGGCACA GCAACAGATG CTGTAGTGGC ATCTTGGTTG 
    GAAGACCCGA TCTCCAATGG TGGGGAATCC GGAAGCAATC GTGTACATCA AATGAATGGA 
    AGCGGCGGGA CGATTCCGAA CGGCGCGTTG AGGACAGCAG ATGAAGATCA GATTATCCAA 
    CAAGTACGTG GAGCTGCGGT CTTGCCGGAA GATATTATAC CAAAGTCTCA GGGATTTCCG 
    ACTCGTGGTC TCGGCGAGAG CAAAGAAGTA TTTTTGACTG GATCCACAGG CTTTCTCGGA 
    GCTCACGTGC TGGCTGAGCT CCTACTCAAA TATCCGTCCG CGACAGTGGT ATGTCTGGCT 
    CGCTCCAAAG ATCCTAAAGT TGTTCAGATT AATCTGGAAC GCTACAAGCT GTGGCAACCA 
    GAATTTTCTA CTCGAATTAA AGCCGTCAGC GGAGATTTGT CGCTTGCGAA GCTTGGCTTG 
    GATCTAAGCA GCTGGAAGCA AATAACACAG GCTGCTGATG CTGTCGTCCA TTGCGGAGCT 
    GCTGTGTCAC TAACATCTCC GTATGCAATG CTTGAAGCTG TGAATGTGTA CGGCACACTG 
    AATATTATTC GTCTTGCTTG TGAATGCAAA GCCGGCACAC CTCTTATCTA TGTCTCGTCC 
    AACGGAATTT TCCCGTGTGA CAAGGGCAAA GATGAAATTT TTCTTGAAAA TGATGATGTT 
    GGGTGCCTGC CGGATCGACT TGGAGCCATG AACGGTTATG GGCTTAGCAA ATGGGTTGCA 
    GAGCAGCTTG TTGTCGCTGC GCACAAGCGA GGGCTCCCCA CAATGACAAT TCGTTTTGGC 
    AATCTAGGAT GGCAATCAAC TTCTGGGATT GGTAACTCTT TGGATTTTCA GAGTATAATT 
    CTAAATGGCG CTCGGCGAAT GGTGGTCCGG CCTCGTGTAA AAGGGTGGAA ATTCGAAATC 
    ACGCCAATCG ATTTTGCCGC AGCAGCGCTC GTCGGTCTTG CAGACACTGC TATACACCTA 
    AAAGCCGGGT CTATCTTTAA TTGTGTCCAG TCAGAACTTG TCGATGCAGA CCGTGTCTTT 
    GGTTGGGTGT CCGAGAGCGA TACCCTTTCT CTCTTGGCGC TTGACTTCGA AGACTGGCAA 
    CAGCGGGTAG ACGAGGCGAG CAACGACGAC CTGTCGCTAT CCACATTGCA GGCCTTTGCC 
    ATGGGGCTCC CAGGTGGAGC CTCGTACTTA TCCGAATGTG CACATCTAGA TTGCAGCAAG 
    TTCGATGCAG CCGTAGCCTC GCTTCATCCC CCGTTACGGC GTCTTGGTCC TTCGGAACTT 
    TCGGAGTATT TCAAAATCTT CCTTAGCGCC AACCCGATTA TATCGTCTGT GGCGGCCGAC 
    AGCGTCATAA AGCCGTCTGC GGTCGATCCC TCTGTTTCAA CTGAACATCA AGGTCCTCTG 
    GCTGGTCAAG TTGCCGTCGT TACAGGCGCC TCGTCCGGAA TTGGTCGAGC AATCGTCCTG 
    TCACTGGTCC AAGCCGGATG TAATGTTGCT ATGGCTGCTC GTAGATTATC TGAGCTCGAA 
    AAGACTCAAA AGGAAGTAGC TGAAGCGTGC AGCGGCTCTC CGGTTAAGAT GATGTGCGTA 
    CGTACGGACG TTACGAAGCG CGACGAAGTG GCTCATTTAG TACAGGTTGT AGAAGTTTCT 
    CTGGGGCCAA TTGATATCAT GGTAAACTGC GCCGGGGTCA TGTACTTCAC TTTGATGAAA 
    AATGTAGTCT GGGATCAGTG GGAAGCGCAA GTGGATGTCA ACTGTAAGGG AACGATGTAC 
    GGAATCGGAT CTGTACTTCC CAGAATGCTC GATCGAGGAA AAGGGCACAT CGTGAACATT 
    ACAAGTGATG CCGGCCGCAA GGCGTTTCCT GGGTTGGCGG TGTACTCTGG TTCAAAGTTT 
    TTTGTCGAAG GGGTGAGCCA GGCACTTCGC GCGGAGACTG CCTCTACAGG GCTCCGAGTG 
    ACCTGTATTC AGCCTGGTAA CGTGGAGACT CCTTTGCTCT CGAAATCAAC CGATCCCGAT 
    GGGCTCGCAG AATATGGGAC ACCAACTGGC GCGAAGGTTC TCGAGCCGGC AGATATAGGC 
    AGGGCTGTCG TATACGCCGT GTCCCAGCCT GAGTGGTGTG CAGTAAACGA GATTCTCGTC 
    GAACCTCGAG ACGAGCCCGC CTAA

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

  • PubMed

    The Phaeodactylum genome reveals the evolutionary history of diatom genomes.
    Nature456(7219)239-44(2008 Nov)
    Bowler C,Allen AE,Badger JH,Grimwood J,Jabbari K,Kuo A,Maheswari U,Martens C,Maumus F,Otillar RP,Rayko E,Salamov A,Vandepoele K,Beszteri B,Gruber A,Heijde M,Katinka M,Mock T,Valentin K,Verret F,Berges JA,Brownlee C,Cadoret JP,Chiovitti A,Choi CJ,Coesel S,De Martino A,Detter JC,Durkin C,Falciatore A,Fournet J,Haruta M,Huysman MJ,Jenkins BD,Jiroutova K,Jorgensen RE,Joubert Y,Kaplan A,Kröger N,Kroth PG,La Roche J,Lindquist E,Lommer M,Martin-Jézéquel V,Lopez PJ,Lucas S,Mangogna M,McGinnis K,Medlin LK,Montsant A,Oudot-Le Secq MP,Napoli C,Obornik M,Parker MS,Petit JL,Porcel BM,Poulsen N,Robison M,Rychlewski L,Rynearson TA,Schmutz J,Shapiro H,Siaut M,Stanley M,Sussman MR,Taylor AR,Vardi A,von Dassow P,Vyverman W,Willis A,Wyrwicz LS,Rokhsar DS,Weissenbach J,Armbrust EV,Green BR,Van de Peer Y,Grigoriev IV


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