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Journal Abstract Search

166 related items for PubMed ID: 19526562

  • 1. A proteomic study of pectin-degrading enzymes secreted by Botrytis cinerea grown in liquid culture.
    Shah P, Gutierrez-Sanchez G, Orlando R, Bergmann C.
    Proteomics; 2009 Jun; 9(11):3126-35. PubMed ID: 19526562
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  • 4. Exploring pathogenic mechanisms of Botrytis cinerea secretome under different ambient pH based on comparative proteomic analysis.
    Li B, Wang W, Zong Y, Qin G, Tian S.
    J Proteome Res; 2012 Aug 03; 11(8):4249-60. PubMed ID: 22746291
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  • 6. Botrytis cinerea infection accelerates ripening and cell wall disassembly to promote disease in tomato fruit.
    Silva CJ, Adaskaveg JA, Mesquida-Pesci SD, Ortega-Salazar IB, Pattathil S, Zhang L, Hahn MG, van Kan JAL, Cantu D, Powell ALT, Blanco-Ulate B.
    Plant Physiol; 2023 Jan 02; 191(1):575-590. PubMed ID: 36053186
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  • 7. Comparative quantitative proteomics of osmotic signal transduction mutants in Botrytis cinerea explain mutant phenotypes and highlight interaction with cAMP and Ca2+ signalling pathways.
    Kilani J, Davanture M, Simon A, Zivy M, Fillinger S.
    J Proteomics; 2020 Feb 10; 212():103580. PubMed ID: 31733416
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  • 9. Proteomic study of the membrane components of signalling cascades of Botrytis cinerea controlled by phosphorylation.
    Escobar-Niño A, Liñeiro E, Amil F, Carrasco R, Chiva C, Fuentes C, Blanco-Ulate B, Cantoral Fernández JM, Sabidó E, Fernández-Acero FJ.
    Sci Rep; 2019 Jul 08; 9(1):9860. PubMed ID: 31285484
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  • 10. Genome-wide analysis of pectate-induced gene expression in Botrytis cinerea: identification and functional analysis of putative d-galacturonate transporters.
    Zhang L, Hua C, Stassen JHM, Chatterjee S, Cornelissen M, van Kan JAL.
    Fungal Genet Biol; 2014 Nov 08; 72():182-191. PubMed ID: 24140151
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  • 14. Purification and characterization of two isozymes of polygalacturonase from Botrytis cinerea. Effect of calcium ions on polygalacturonase activity.
    Cabanne C, Donèche B.
    Microbiol Res; 2002 Nov 08; 157(3):183-9. PubMed ID: 12398287
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  • 17. Defects in the Ferroxidase That Participates in the Reductive Iron Assimilation System Results in Hypervirulence in Botrytis Cinerea.
    Vasquez-Montaño E, Hoppe G, Vega A, Olivares-Yañez C, Canessa P.
    mBio; 2020 Aug 04; 11(4):. PubMed ID: 32753496
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  • 18. The D-galacturonic acid catabolic pathway in Botrytis cinerea.
    Zhang L, Thiewes H, van Kan JA.
    Fungal Genet Biol; 2011 Oct 04; 48(10):990-7. PubMed ID: 21683149
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  • 19. Expression of exo-polygalacturonases in Botrytis cinerea.
    Rha E, Park HJ, Kim MO, Chung YR, Lee CW, Kim JW.
    FEMS Microbiol Lett; 2001 Jul 10; 201(1):105-9. PubMed ID: 11445175
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  • 20. Depression of Fungal Polygalacturonase Activity in Solanum lycopersicum Contributes to Antagonistic Yeast-Mediated Fruit Immunity to Botrytis.
    Lu L, Ji L, Ma Q, Yang M, Li S, Tang Q, Qiao L, Li F, Guo Q, Wang C.
    J Agric Food Chem; 2019 Mar 27; 67(12):3293-3304. PubMed ID: 30785743
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