grant

Regulation of infectious spore formation in the fungal pathogen Coccidioides posadasii

Organization UNIVERSITY OF CALIFORNIA BERKELEYLocation BERKELEY, UNITED STATESPosted 15 Jul 2025Deadline 30 Jun 2027
NIHUS FederalResearch GrantFY2025AdoptedAllelesAllelomorphsBehaviorBiologyBody TissuesC posadasiiC. posadasiiCandidate Disease GeneCandidate GeneCoccidioidesCoccidioides posadasiiCoccidioidomycosisContracting OpportunitiesContractsDNA SequenceData SourcesDesert rheumatismDesiccationDessicationDevelopmentDiagnosisDiseaseDisorderDrynessEnvironmentFruitFungal SporesGWA studyGWASGene Expression MonitoringGene Expression Pattern AnalysisGene Expression ProfilingGenesGenetic ScreeningGenomeGenomic approachGenomicsGoalsHouse DustHumanHydrogen OxideIncidenceIndividualInfectionInhalationInhalingLife CycleLife Cycle StagesLiteratureMapsMeasuresModelingModern ManMolecularPatientsPhenotypePhylogenetic AnalysisPhylogeneticsPneumoniaPositionPositioning AttributePredicting RiskPreventionProductionPublic HealthPublic Health ApplicationsPublic Health Applications ResearchRNA SeqRNA sequencingRNAseqRefractoryRegulationReproduction sporesResearchRiskRoleSan Joaquin Valley feverSoilSporesSurvey InstrumentSurveysSymptomsTherapeutic FungicidesTissuesTranscript Expression AnalysesTranscript Expression AnalysisValley FeverWaterWingWorkanalyze gene expressionanti-fungalanti-fungal agentsanti-fungal drugarid areasarid landarid regionasexualcommunicable disease transmissiondesert feverdesigndesigningdevelopmentaldietary fruitdisease riskdisease transmissiondisorder riskforecasting riskfungal pathogenfungi pathogenfungusgene expression analysisgene expression assaygene functiongenome wide associationgenome wide association scangenome wide association studygenomewide association scangenomewide association studygenomic effortgenomic strategyhome dusthousehold dusthuman diseaseimprovedinfancyinfantileinfectious disease transmissioninsightinterestlife coursenovelpathogenic funguspredict riskpredict riskspredicted riskpredicted riskspredicting riskspredictive riskpredicts riskpublic health interventionresidential dustresponserisk predictionrisk predictionssocial roletooltraittranscriptional profilingtranscriptome sequencingtranscriptomic sequencingtranscriptomicswhole genome association analysiswhole genome association study
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Full Description

SUMMARY
The human fungal pathogen Coccidioides causes Valley Fever, a treatment-refractory and sometimes deadly
disease prevalent in arid regions of the western hemisphere. Patients contract the disease by inhaling fungal
spores from soil. Understanding Coccidioides behavior in the environment is thus key to public health measures
for Valley Fever prediction and prevention. We propose a first-ever molecular study of the environmental life
cycle of Coccidioides toward this end. Our preliminary work has shown that Coccidioides preferentially makes
infectious spores in dry conditions. We now want to know how. We apply experimental- and computational-
genomic approaches to dissect desiccation response in Coccidioides outside the host. The rich data sources we
generate will pinpoint candidate genes underlying spore formation and will also position us to discover other
environmentally-triggered phenotypes in Coccidioides. Our work will open a new wing of the research literature
focused on the molecular basis of Coccidioides disease transmission from the environment.

Grant Number: 1R21AI193607-01
NIH Institute/Center: NIH
Principal Investigator: Rachel Brem

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Regulation of infectious spore formation in the fungal pathogen Coccidioides posadasii — UNIVERSITY OF CALIFORNIA BERKEL | Dev Procure