2017
Light sensing by opsins and fungal ecology: NOP‐1 modulates entry into sexual reproduction in response to environmental cues
Wang Z, Wang J, Li N, Li J, Trail F, Dunlap JC, Townsend JP. Light sensing by opsins and fungal ecology: NOP‐1 modulates entry into sexual reproduction in response to environmental cues. Molecular Ecology 2017, 27: 216-232. PMID: 29134709, PMCID: PMC5797489, DOI: 10.1111/mec.14425.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SequenceConserved SequenceEcological and Environmental PhenomenaFungal ProteinsGene Expression Regulation, FungalGene Knockout TechniquesGene Regulatory NetworksGenes, FungalLightModels, BiologicalMultienzyme ComplexesNADH, NADPH OxidoreductasesNeurospora crassaOpsinsOxidation-ReductionOxidative StressPhenotypePhylogenyProtein Structure, SecondaryReproductionUp-RegulationConceptsNOP-1Opsin-like proteinFungal ecologyPlant-associated fungiRapid environmental changeOxidative stress responseKey amino acidsFungal genomesComparative transcriptomicsSexual reproductionOrganismal functionNeurospora crassaEnvironmental cuesGenetic basisSensory rhodopsinStress responseNAD/NADPTransmembrane movementRetinal binding siteGenesAmino acidsFungiEnvironmental changesSexual developmentOpsin
2014
Gene Expression Differences among Three Neurospora Species Reveal Genes Required for Sexual Reproduction in Neurospora crassa
Lehr NA, Wang Z, Li N, Hewitt DA, López-Giráldez F, Trail F, Townsend JP. Gene Expression Differences among Three Neurospora Species Reveal Genes Required for Sexual Reproduction in Neurospora crassa. PLOS ONE 2014, 9: e110398. PMID: 25329823, PMCID: PMC4203796, DOI: 10.1371/journal.pone.0110398.Peer-Reviewed Original ResearchConceptsNeurospora crassaSexual reproductionN. crassaGenetic basisThree-dimensional fruiting bodiesSexual spore productionN. crassa geneBody developmentDiverse life historiesGenome-wide transcriptomicsSexual developmentStudy of meiosisGene expression differencesList of genesGene expression levelsMeiotic machineryMeiosis genesOrthologous genesSporulation genesNeurospora speciesGlomerella graminicolaEvolutionary timeAnimal taxaPerithecium formationLife history
2013
Global Gene Expression and Focused Knockout Analysis Reveals Genes Associated with Fungal Fruiting Body Development in Neurospora crassa
Wang Z, Lopez-Giraldez F, Lehr N, Farré M, Common R, Trail F, Townsend JP. Global Gene Expression and Focused Knockout Analysis Reveals Genes Associated with Fungal Fruiting Body Development in Neurospora crassa. MSphere 2013, 13: 154-169. PMID: 24243796, PMCID: PMC3910948, DOI: 10.1128/ec.00248-13.Peer-Reviewed Original ResearchConceptsPerithecial developmentNeurospora crassaGene expressionSexual developmentBody developmentFruiting-body developmentMost upregulated genesReverse genetics approachGlobal gene expressionSimilar expression patternsSame developmental stageMulticellular organismsSexual crossingMat AUnclassified proteinsDevelopmental traitsN. crassaKnockout analysisTranscriptomic landscapeType genesUpregulated genesGenetic basisDiverse functionsExpression patternsStage specificity
2008
Sleuthing the difference a nucleotide can make
Townsend JP. Sleuthing the difference a nucleotide can make. Molecular Ecology 2008, 17: 2793-2795. PMID: 18565029, DOI: 10.1111/j.1365-294x.2008.03824.x.Peer-Reviewed Original ResearchConceptsGene expression polymorphismsExpression polymorphismsGenetic variationGene expressionGenome-wide gene expressionPotential evolutionary impactCis-regulatory regionsAmino acid sensorsDifferential gene expressionSingle nucleotide insertionEcological genomicsEvolutionary impactNatural populationsDifferential fitnessYeast SaccharomycesTranscription factorsGenetic basisNatural isolatesHomonucleotide repeatsNatural variationNucleotide insertionEnvironment interactionPolymorphismAcid sensorsSSY1