Hyperosmotic stress response and regulation of cell wall integrity in Saccharomyces cerevisiae share common functional aspects.
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The MAP kinase HwHog1 from the halophilic black yeast Hortaea werneckii: coping with stresses in solar salternsCell wall assembly in Saccharomyces cerevisiaeModifying Yeast Tolerance to Inhibitory Conditions of Ethanol Production ProcessesIn Saccharomyces cerevisiae, the inositol polyphosphate kinase activity of Kcs1p is required for resistance to salt stress, cell wall integrity, and vacuolar morphogenesis.The yeast penta-EF protein Pef1p is involved in cation-dependent budding and cell polarization.The RIM101 pathway contributes to yeast cell wall assembly and its function becomes essential in the absence of mitogen-activated protein kinase Slt2p.Hyperosmotic-induced protein kinase N 1 activation in a vesicular compartment is dependent upon Rac1 and 3-phosphoinositide-dependent kinase 1Osmotic stress signaling and osmoadaptation in yeasts.Cellular processes and pathways that protect Saccharomyces cerevisiae cells against the plasma membrane-perturbing compound chitosanAgrobacterium tumefaciens-Mediated Transformation of Pseudocercospora fijiensis to Determine the Role of PfHog1 in Osmotic Stress Regulation and Virulence Modulation.Loss of function of KRE5 suppresses temperature sensitivity of mutants lacking mitochondrial anionic lipidsSpecialization of the HOG pathway and its impact on differentiation and virulence of Cryptococcus neoformansThe Golgi Ca2+-ATPase KlPmr1p function is required for oxidative stress response by controlling the expression of the heat-shock element HSP60 in Kluyveromyces lactis.Thermotolerant Yeast Strains Adapted by Laboratory Evolution Show Trade-Off at Ancestral Temperatures and Preadaptation to Other Stresses.The Dynamical Systems Properties of the HOG Signaling Cascade.Identification of a novel gene family involved in osmotic stress response in Caenorhabditis elegans.Yeast responses to stresses associated with industrial brewery handling.The Mitogen-Activated Protein Kinase Kinase VdPbs2 of Verticillium dahliae Regulates Microsclerotia Formation, Stress Response, and Plant Infection.Analysis of beta-1,3-glucan assembly in Saccharomyces cerevisiae using a synthetic interaction network and altered sensitivity to caspofungin.The Salmonella Typhimurium effector SteC inhibits Cdc42-mediated signaling through binding to the exchange factor Cdc24 in Saccharomyces cerevisiae.The Cek1 and Hog1 mitogen-activated protein kinases play complementary roles in cell wall biogenesis and chlamydospore formation in the fungal pathogen Candida albicans.Hog1 mitogen-activated protein kinase plays conserved and distinct roles in the osmotolerant yeast Torulaspora delbrueckii.Adaptation of Saccharomyces cerevisiae to saline stress through laboratory evolution.The sequential activation of the yeast HOG and SLT2 pathways is required for cell survival to cell wall stress.Mating-induced shedding of cell walls, removal of walls from vegetative cells, and osmotic stress induce presumed cell wall genes in Chlamydomonas.Cell integrity signaling activation in response to hyperosmotic shock in yeast.The bacterial lipopeptide iturins induce Verticillium dahliae cell death by affecting fungal signalling pathways and mediate plant defence responses involved in pathogen-associated molecular pattern-triggered immunity.Complete glycosylphosphatidylinositol anchors are required in Candida albicans for full morphogenesis, virulence and resistance to macrophages.Yeast Gup1(2) Proteins Are Homologues of the Hedgehog Morphogens Acyltransferases HHAT(L): Facts and Implications.Silencing of the Mitogen-Activated Protein Kinases (MAPK) Fus3 and Slt2 in Pseudocercospora fijiensis Reduces Growth and Virulence on Host Plants.HOG-MAPK signaling regulates the adaptive responses of Aspergillus fumigatus to thermal stress and other related stress.Survival in the Presence of Antifungals
P2860
Q21203698-80F01097-5362-472F-8B9B-FADE9CB24464Q24549234-ECCE87CA-BA7A-48AF-BA6B-182B717C3939Q26776008-777812A1-9318-4670-BDD8-EBB336D5C3F5Q27930910-BB435831-4FD1-4082-BF07-425DEA7B9A99Q27933669-B88D4564-C497-4D1C-B64E-AABAA58FB934Q27939160-0BF92765-89B7-41A3-A25E-17ED8E979EB5Q28588648-F8FB1CF1-C161-4DEA-BC87-3318005E2A79Q29617597-358661D8-87D9-4A68-B777-963738C4945BQ33270640-82493BCF-F2B7-4B4E-AFD8-93E77FC35EAFQ33689721-0FC37501-3316-4C54-AA0E-0E0A1D82584FQ33763830-413C3623-2408-489D-A657-E06DFF55C995Q33768483-841096DF-8C3D-4DA6-A879-2A486EE370FBQ34049722-658F76AC-C9C3-44A6-8068-E881C69D5405Q34486305-8738497C-27D9-449D-A81D-D3590AECF4F9Q34999282-38ED3365-A9FC-4311-A4A7-6F2E1D0CCFFBQ35175979-1E0AD032-1B5A-4420-B549-6BE13BAFF8F5Q36889090-522FD6CB-B5ED-4B2F-9490-0849DBE26477Q37284718-6750455A-2A78-4949-B119-4265E522F297Q38340694-18F584F8-C27A-4B2D-BC6A-AC1B571A0774Q41198238-D3359667-6A55-4F1F-BF42-963D2F28F97CQ41869795-50AF0333-E104-4C01-9969-4387F66E5E9BQ41903584-3CA2AE81-DA96-472A-B416-E61C487FFBF3Q42484816-8A90A1DB-CCBD-4D2D-99C9-AB33A8FBA526Q43069140-DEBE7FE3-FFF5-4928-8618-3EF3A0E1B256Q46720558-7311A9FF-4308-4995-850E-095317B48A65Q46769022-4B655499-062C-41B7-B6A9-0A1EEF2A90B2Q46878743-F7D596F0-36D6-496D-8DBE-35C4025D2A88Q52546012-A84508AD-7B60-4679-A08E-B07B9DD31231Q52813151-E2343FD3-1077-4F9B-9A6C-8E7C88864264Q54118842-556C4856-0C24-40F7-85D8-CE8580C49465Q54505769-94FEBB0E-CB1B-4EE6-9EC4-783842E16A6DQ57372747-F1099EE6-2717-4EC1-9CA3-83C582E9C8F5
P2860
Hyperosmotic stress response and regulation of cell wall integrity in Saccharomyces cerevisiae share common functional aspects.
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2001 nî lūn-bûn
@nan
2001 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2001 թվականի օգոստոսին հրատարակված գիտական հոդված
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2001年の論文
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2001年論文
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2001年論文
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2001年論文
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2001年論文
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2001年論文
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2001年论文
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Hyperosmotic stress response a ...... are common functional aspects.
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Hyperosmotic stress response a ...... are common functional aspects.
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Hyperosmotic stress response a ...... are common functional aspects.
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P2093
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Hyperosmotic stress response a ...... are common functional aspects.
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P2093
P2860
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10.1046/J.1365-2958.2001.02549.X
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2001-08-01T00:00:00Z