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243 related items for PubMed ID: 17158737

  • 21. A novel functional assay for fungal histidine kinases group III reveals the role of HAMP domains for fungicide sensitivity.
    Buschart A, Gremmer K, El-Mowafy M, van den Heuvel J, Mueller PP, Bilitewski U.
    J Biotechnol; 2012 Jan; 157(1):268-77. PubMed ID: 21963586
    [Abstract] [Full Text] [Related]

  • 22. The yeast histidine protein kinase, Sln1p, mediates phosphotransfer to two response regulators, Ssk1p and Skn7p.
    Li S, Ault A, Malone CL, Raitt D, Dean S, Johnston LH, Deschenes RJ, Fassler JS.
    EMBO J; 1998 Dec 01; 17(23):6952-62. PubMed ID: 9843501
    [Abstract] [Full Text] [Related]

  • 23. Osmoregulation and fungicide resistance: the Neurospora crassa os-2 gene encodes a HOG1 mitogen-activated protein kinase homologue.
    Zhang Y, Lamm R, Pillonel C, Lam S, Xu JR.
    Appl Environ Microbiol; 2002 Feb 01; 68(2):532-8. PubMed ID: 11823187
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  • 24. Cloning and characterization of the histidine kinase gene Dic1 from Cochliobolus heterostrophus that confers dicarboximide resistance and osmotic adaptation.
    Yoshimi A, Tsuda M, Tanaka C.
    Mol Genet Genomics; 2004 Mar 01; 271(2):228-36. PubMed ID: 14752661
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  • 25. Fungicide resistance toward fludioxonil conferred by overexpression of the phosphatase gene MoPTP2 in Magnaporthe oryzae.
    Bohnert S, Heck L, Gruber C, Neumann H, Distler U, Tenzer S, Yemelin A, Thines E, Jacob S.
    Mol Microbiol; 2019 Mar 01; 111(3):662-677. PubMed ID: 30537256
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  • 26. Binding Mode and Molecular Mechanism of the Two-Component Histidine Kinase Bos1 of Botrytis cinerea to Fludioxonil and Iprodione.
    Yin X, Li P, Wang Z, Wang J, Fang A, Tian B, Yang Y, Yu Y, Bi C.
    Phytopathology; 2024 Apr 01; 114(4):770-779. PubMed ID: 38598410
    [Abstract] [Full Text] [Related]

  • 27. Characterization of iprodione resistance in Botrytis cinerea from strawberry and blackberry.
    Grabke A, Fernández-Ortuño D, Amiri A, Li X, Peres NA, Smith P, Schnabel G.
    Phytopathology; 2014 Apr 01; 104(4):396-402. PubMed ID: 24156554
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  • 28. Functional and structural comparison of pyrrolnitrin- and iprodione-induced modifications in the class III histidine-kinase Bos1 of Botrytis cinerea.
    Fillinger S, Ajouz S, Nicot PC, Leroux P, Bardin M.
    PLoS One; 2012 Apr 01; 7(8):e42520. PubMed ID: 22912706
    [Abstract] [Full Text] [Related]

  • 29. Dissecting the role of histidine kinase and HOG1 mitogen-activated protein kinase signalling in stress tolerance and pathogenicity of Parastagonospora nodorum on wheat.
    John E, Lopez-Ruiz F, Rybak K, Mousley CJ, Oliver RP, Tan KC.
    Microbiology (Reading); 2016 Jun 01; 162(6):1023-1036. PubMed ID: 26978567
    [Abstract] [Full Text] [Related]

  • 30. Putative homologs of SSK22 MAPKK kinase and PBS2 MAPK kinase of Saccharomyces cerevisiae encoded by os-4 and os-5 genes for osmotic sensitivity and fungicide resistance in Neurospora crassa.
    Fujimura M, Ochiai N, Oshima M, Motoyama T, Ichiishi A, Usami R, Horikoshi K, Yamaguchi I.
    Biosci Biotechnol Biochem; 2003 Jan 01; 67(1):186-91. PubMed ID: 12619694
    [Abstract] [Full Text] [Related]

  • 31. Roles of putative His-to-Asp signaling modules HPT-1 and RRG-2, on viability and sensitivity to osmotic and oxidative stresses in Neurospora crassa.
    Banno S, Noguchi R, Yamashita K, Fukumori F, Kimura M, Yamaguchi I, Fujimura M.
    Curr Genet; 2007 Mar 01; 51(3):197-208. PubMed ID: 17211673
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  • 32. The HOG1-like MAP kinase Sak1 of Botrytis cinerea is negatively regulated by the upstream histidine kinase Bos1 and is not involved in dicarboximide- and phenylpyrrole-resistance.
    Liu W, Leroux P, Fillinger S.
    Fungal Genet Biol; 2008 Jul 01; 45(7):1062-74. PubMed ID: 18495505
    [Abstract] [Full Text] [Related]

  • 33. A two-component histidine kinase Shk1 controls stress response, sclerotial formation and fungicide resistance in Sclerotinia sclerotiorum.
    Duan Y, Ge C, Liu S, Wang J, Zhou M.
    Mol Plant Pathol; 2013 Sep 01; 14(7):708-18. PubMed ID: 23724858
    [Abstract] [Full Text] [Related]

  • 34. Fungal fludioxonil sensitivity is diminished by a constitutively active form of the group III histidine kinase.
    Furukawa K, Randhawa A, Kaur H, Mondal AK, Hohmann S.
    FEBS Lett; 2012 Jul 30; 586(16):2417-22. PubMed ID: 22687241
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  • 35. Specialized and shared functions of the histidine kinase- and HOG1 MAP kinase-mediated signaling pathways in Alternaria alternata, a filamentous fungal pathogen of citrus.
    Lin CH, Chung KR.
    Fungal Genet Biol; 2010 Oct 30; 47(10):818-27. PubMed ID: 20601043
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  • 36. Distinct and combined roles of the MAP kinases of Cochliobolus heterostrophus in virulence and stress responses.
    Igbaria A, Lev S, Rose MS, Lee BN, Hadar R, Degani O, Horwitz BA.
    Mol Plant Microbe Interact; 2008 Jun 30; 21(6):769-80. PubMed ID: 18473669
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  • 37. A Putative MAPK Kinase Kinase Gene Ssos4 is Involved in Mycelial Growth, Virulence, Osmotic Adaptation, and Sensitivity to Fludioxonil and is Essential for SsHog1 Phosphorylation in Sclerotinia sclerotiorum.
    Li T, Xiu Q, Wang J, Duan Y, Zhou M.
    Phytopathology; 2021 Mar 30; 111(3):521-530. PubMed ID: 33044134
    [Abstract] [Full Text] [Related]

  • 38. A pleiotropic drug resistance transporter is involved in reduced sensitivity to multiple fungicide classes in Sclerotinia homoeocarpa (F.T. Bennett).
    Sang H, Hulvey J, Popko JT, Lopes J, Swaminathan A, Chang T, Jung G.
    Mol Plant Pathol; 2015 Apr 30; 16(3):251-61. PubMed ID: 25040464
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  • 39. The ABC transporter BcatrB from Botrytis cinerea is a determinant of the activity of the phenylpyrrole fungicide fludioxonil.
    Vermeulen T, Schoonbeek H, De Waard MA.
    Pest Manag Sci; 2001 May 30; 57(5):393-402. PubMed ID: 11374155
    [Abstract] [Full Text] [Related]

  • 40. Roles for SKN7 response regulator in stress resistance, conidiation and virulence in the citrus pathogen Alternaria alternata.
    Chen LH, Lin CH, Chung KR.
    Fungal Genet Biol; 2012 Oct 30; 49(10):802-13. PubMed ID: 22902811
    [Abstract] [Full Text] [Related]


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