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Pubmed for Handhelds

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Journal Abstract Search

321 related items for PubMed ID: 26740541

  • 21.
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  • 22. Origin of (-)-geosmin on grapes: on the complementary action of two fungi, botrytis cinerea and penicillium expansum.
    La Guerche S, Chamont S, Blancard D, Dubourdieu D, Darriet P.
    Antonie Van Leeuwenhoek; 2005 Aug; 88(2):131-9. PubMed ID: 16096689
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  • 23. Botrytis polyphyllae: A New Botrytis Species Causing Gray Mold on Paris polyphylla.
    Zhong S, Zhang J, Zhang GZ.
    Plant Dis; 2019 Jul; 103(7):1721-1727. PubMed ID: 31094656
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  • 25. Botrytis pseudocinerea Is a Significant Pathogen of Several Crop Plants but Susceptible to Displacement by Fungicide-Resistant B. cinerea Strains.
    Plesken C, Weber RW, Rupp S, Leroch M, Hahn M.
    Appl Environ Microbiol; 2015 Oct; 81(20):7048-56. PubMed ID: 26231644
    [Abstract] [Full Text] [Related]

  • 26. Post-harvest control of gray mold in table grapes using volatile sulfur compounds from Allium sativum.
    Gándara-Ledezma A, Corrales-Maldonado C, Rivera-Domínguez M, Martínez-Téllez MÁ, Vargas-Arispuro I.
    J Sci Food Agric; 2015 Feb; 95(3):497-503. PubMed ID: 24862582
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  • 27.
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  • 28. Fungicide resistance in Botrytis cinerea and identification of Botrytis species associated with blueberry in Michigan.
    Abbey JA, Alzohairy SA, Neugebauer KA, Hatlen RJ, Miles TD.
    Front Microbiol; 2024 Feb; 15():1425392. PubMed ID: 39104578
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  • 29.
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  • 30. Fulvic acid-induced disease resistance to Botrytis cinerea in table grapes may be mediated by regulating phenylpropanoid metabolism.
    Xu D, Deng Y, Xi P, Yu G, Wang Q, Zeng Q, Jiang Z, Gao L.
    Food Chem; 2019 Jul 15; 286():226-233. PubMed ID: 30827600
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  • 31.
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  • 32. Acetic acid treatments to keep postharvest quality of "Regina" and "Taloppo" table grapes.
    Venditti T, D'Hallewin G, Dore A, Molinu MG, Fiori P, Angiolino C, Agabbio M.
    Commun Agric Appl Biol Sci; 2008 Jul 15; 73(2):265-71. PubMed ID: 19226763
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  • 33.
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  • 34. Effects of ozone treatment on Botrytis cinerea and Sclerotinia sclerotiorum in relation to horticultural product quality.
    Sharpe D, Fan L, McRae K, Walker B, MacKay R, Doucette C.
    J Food Sci; 2009 Aug 15; 74(6):M250-7. PubMed ID: 19723209
    [Abstract] [Full Text] [Related]

  • 35. Role of sterol 3-ketoreductase sensitivity in susceptibility to the fungicide fenhexamid in Botrytis cinerea and other phytopathogenic fungi.
    Debieu D, Bach J, Montesinos E, Fillinger S, Leroux P.
    Pest Manag Sci; 2013 May 15; 69(5):642-51. PubMed ID: 23139232
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  • 38. Genome-wide identification and expression analysis reveal the potential function of ethylene responsive factor gene family in response to Botrytis cinerea infection and ovule development in grapes (Vitis vinifera L.).
    Zhu Y, Li Y, Zhang S, Zhang X, Yao J, Luo Q, Sun F, Wang X.
    Plant Biol (Stuttg); 2019 Jul 15; 21(4):571-584. PubMed ID: 30468551
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  • 39.
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