0000000000856532

AUTHOR

Larissa Heck

showing 2 related works from this author

Fungicide resistance towards fludioxonil conferred by overexpression of the phosphatase gene Mo PTP 2 in Magnaporthe oryzae

2018

The fungicide fludioxonil causes hyperactivation of the Hog1p MAPK within the high-osmolarity glycerol signaling pathway essential for osmoregulation in pathogenic fungi. The molecular regulation of MoHog1p phosphorylation is not completely understood in pathogenic fungi. Thus, we identified and characterized the putative MoHog1p-interacting phosphatase gene MoPTP2 in the filamentous rice pathogen Magnaporthe oryzae. We found overexpression of MoPTP2 conferred fludioxonil resistance in M. oryzae, whereas the 'loss of function' mutant ΔMoptp2 was more susceptible toward the fungicide. Additionally, quantitative phosphoproteome profiling of MoHog1p phosphorylation revealed lower phosphorylati…

0301 basic medicineProteomeMutantPhosphataseGene ExpressionDioxolesBiologyFludioxonilMicrobiologyMicrobiologyFungal Proteins03 medical and health sciencesDrug Resistance FungalGene expressionPyrrolesPhosphorylationMolecular BiologyGenePlant DiseasesOryzaPhosphoproteinsFungicides IndustrialFungicideMagnaporthe030104 developmental biologyPhosphorylationMitogen-Activated Protein KinasesProtein Tyrosine PhosphatasesSignal transductionProtein Processing Post-TranslationalGene DeletionMolecular Microbiology
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Identification of factors involved in dimorphism and pathogenicity of Zymoseptoria tritici

2017

A forward genetics approach was applied in order to investigate the molecular basis of morphological transition in the wheat pathogenic fungus Zymoseptoria tritici. Z. tritici is a dimorphic plant pathogen displaying environmentally regulated morphogenetic transition between yeast-like and hyphal growth. Considering the infection mode of Z. tritici, the switching to hyphal growth is essential for pathogenicity allowing the fungus the host invasion through natural openings like stomata. We exploited a previously developed Agrobacterium tumefaciens-mediated transformation (ATMT) to generate a mutant library by insertional mutagenesis including more than 10,000 random mutants. To identify gene…

0301 basic medicineHyphal growthMutantlcsh:MedicinePlant SciencePathogenesisPathology and Laboratory MedicineDatabase and Informatics MethodsMedicine and Health Scienceslcsh:ScienceGeneticsMultidisciplinaryVirulenceOrganic CompoundsPlant Fungal PathogensFungal geneticsGenomicsGenomic DatabasesMutant StrainsChemistryPhysical SciencesResearch ArticleGene predictionGenes Fungal030106 microbiologyPlant PathogensMycologyBiologyResearch and Analysis MethodsFungal ProteinsInsertional mutagenesis03 medical and health sciencesAscomycotaGeneticsFungal GeneticsGene PredictionGeneOrganic Chemistrylcsh:ROrganismsFungiChemical CompoundsBiology and Life SciencesComputational BiologyPlant PathologyGenome AnalysisForward geneticsReverse geneticsBiological DatabasesPurinesMutationlcsh:QPLOS ONE
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