Featured Publications
Chapter One Maximizing Power in Phylogenetics and Phylogenomics: A Perspective Illuminated by Fungal Big Data
Dornburg A, Townsend JP, Wang Z. Chapter One Maximizing Power in Phylogenetics and Phylogenomics: A Perspective Illuminated by Fungal Big Data. Advances In Genetics 2017, 100: 1-47. PMID: 29153398, DOI: 10.1016/bs.adgen.2017.09.007.ChaptersConceptsTree of lifeFungal evolutionary biologyGenomic-scale dataHundreds of lociGenome-scale analysisFungal phylogenomicsFungal treeSpecies delimitationPhenotypic diversificationFirst genomeEvolutionary biologyPhylogenetic treePhylogenetic inferencePhylogenetic analysisEntire genomeTree inferenceReview of considerationsEvolutionary problemsPhylogenomicsGenomeTreesLociCentral roleExperimental designBiodiversity
2016
Future Perspectives and Challenges of Fungal Systematics in the Age of Big Data
Wang Z, Nilsson R, James T, Dai Y, Townsend J. Future Perspectives and Challenges of Fungal Systematics in the Age of Big Data. Fungal Biology 2016, 25-46. DOI: 10.1007/978-3-319-29137-6_3.ChaptersFungal systematicsMolecular phylogenyEnvironmental DNA surveysHigh-throughput sequencingSequence-based classificationFungal treeFungal evolutionPhylogenetic informativenessFungal genomesIntegrative taxonomyDNA surveysFungal researchEvolutionary biologyPhylogenetic inferenceComparative biologyTaxonomic ranksEcological charactersFungal classificationInformative experimental designGenetic markersMycological researchPhylogenySanger sequencingSystematicsBiology
2014
The impact of incorporating molecular evolutionary model into predictions of phylogenetic signal and noise
Su Z, Wang Z, López-Giráldez F, Townsend J. The impact of incorporating molecular evolutionary model into predictions of phylogenetic signal and noise. Frontiers In Ecology And Evolution 2014, 2: 11. DOI: 10.3389/fevo.2014.00011.Peer-Reviewed Original ResearchPhylogenetic inferencePhylogenetic signalRate of evolutionMolecular evolutionary modelsAccurate phylogenetic inferenceFour-taxon treesYeast genus CandidaMolecular evolutionConsensus treeNucleotide substitutionsPrediction of signalsDistribution of signalsEvolutionary modelsModel choiceGenus CandidaUnrealistic modelsCorrect modelInferenceTreesRPB1PhylogenyCladePhylogeneticsRPB2Markov model
2006
Phylogeny and a new species of Sparassis (Polyporales, Basidiomycota): evidence from mitochondrial atp6, nuclear rDNA and rpb2 genes
Dai Y, Wang Z, Binder M, Hibbett D. Phylogeny and a new species of Sparassis (Polyporales, Basidiomycota): evidence from mitochondrial atp6, nuclear rDNA and rpb2 genes. Mycologia 2006, 98: 584-592. DOI: 10.1080/15572536.2006.11832661.Peer-Reviewed Original ResearchNuclear gene phylogeniesGene phylogenyNuclear genesNew speciesS. brevipesMitochondrial genes atp6Mitochondrial atp6Nuclear treesBoreal coniferous forestsGenes atp6ATP6 geneHost shiftsRPB2 geneEastern North AmericaWestern North AmericaNuclear rDNALSU rDNAPhylogenetic inferenceMolecular dataPhylogenyNorth AmericaClamp connectionsGenesMorphological differencesGeographic distribution