J. W. Taylor scite author profile

Phylogenetic and population genetic methods that compare nucleic acid variation are being used to identify species and populations of pathogenic fungi and determine how they reproduce in nature. These studies show that asexual or sexual reproductive morphology does not necessarily correlate with clonal or recombining reproductive behavior, and that fungi with all types of reproductive morphologies and behaviors can be accommodated by a phylogenetic species concept. Although approximately one fifth of described fungi have been thought to be asexual and clonal, recent studies have shown that they are also recombining. Whether a particular pathogen reproduces clonally or by recombination depends on factors relating to its biology and its distribution in space and time. Knowing the identity of species and populations and their reproductive modes, while taking a broad view of pathogen behavior in space and time, should enhance the ability of pathologists to control pathogens and even predict their behavior.

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Molecular and Phenotypic Description of Coccidioides posadasii sp. nov., Previously Recognized as the Non-California Population of Coccidioides immitis

Fisher

Koenig²,

et al. 2002

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Abstract:Coccidioides posadasii sp. nov., formerly known as non-California (non-CA) Coccidioides immitis, is described. Phylogenetic analyses using single nucleotide polymorphisms, genes, and microsatellites show that C. posadasii represents a divergent, genetically recombining monophyletic clade. Coccidioides posadasii can be distinguished from C. immitis by numerous DNA polymorphisms, and we show how either of two microsatellite loci may be used as diagnostic markers for this species. Growth experiments show that C. posadasii has significantly slower growth rates on high-salt media when compared with C. immitis, suggesting that other phenotypic characters may exist.

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Phylogenetic Analysis of Two Ribosomal DNA Regions Indicates Multiple Independent Losses of a Sexual Talaromyces State among Asexual Penicillium Species in Subgenus Biverticillium

1993

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Metatranscriptomic analysis of ectomycorrhizal roots reveals genes associated with Piloderma–Pinus symbiosis: improved methodologies for assessing gene expression in situ

Liao

Chen

Bruns

et al. 2014

Environmental Microbiology

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Ectomycorrhizal (EM) fungi form symbiotic associations with plant roots that regulate nutrient exchange between forest plants and soil. Environmental metagenomics approaches that employ next-generation sequencing show great promise for studying EM symbioses; however, metatranscriptomic studies have been constrained by the inherent difficulties associated with isolation and sequencing of RNA from mycorrhizae. Here we apply an optimized method for combined DNA/RNA extraction using field-collected EM fungal-pine root clusters, together with protocols for taxonomic identification of expressed ribosomal RNA, and inference of EM function based on plant and fungal metatranscriptomics. We used transcribed portions of ribosomal RNA genes to identify several transcriptionally dominant fungal taxa associated with loblolly pine including Amphinema, Russula and Piloderma spp. One taxon, Piloderma croceum, has a publically available genome that allowed us to identify patterns of gene content and transcript abundance. Over 1500 abundantly expressed Piloderma genes were detected from mycorrhizal roots, including genes for protein metabolism, cell signalling, electron transport, terpene synthesis and other extracellular activities. In contrast, Piloderma gene encoding an ammonia transporter showed highest transcript abundance in soil samples. Our methodology highlights the potential of metatranscriptomics to identify genes associated with symbiosis and ecosystem function using field-collected samples.

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J. W. Taylor

THEEVOLUTION OFASEXUALFUNGI: Reproduction, Speciation and Classification

Molecular and Phenotypic Description of Coccidioides posadasii sp. nov., Previously Recognized as the Non-California Population of Coccidioides immitis

Phylogenetic Analysis of Two Ribosomal DNA Regions Indicates Multiple Independent Losses of a Sexual Talaromyces State among Asexual Penicillium Species in Subgenus Biverticillium

Metatranscriptomic analysis of ectomycorrhizal roots reveals genes associated with Piloderma–Pinus symbiosis: improved methodologies for assessing gene expression in situ

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