Abstract
AbstractThe anaerobic gut fungi (AGF) represent a coherent phylogenetic clade within the Mycota. Twenty genera have been described so far. Currently, the phylogenetic and evolutionary relationships between AGF genera remain poorly understood. Here, we utilized 53 transcriptomic datasets from 14 genera to resolve AGF inter-genus relationships using phylogenomics, and to provide a quantitative estimate (amino acid identity) for intermediate rank assignments. We identify four distinct supra-genus clades, encompassing genera producing polyflagellated zoospores, bulbous rhizoids, the broadly circumscribed genus Piromyces, and the Anaeromyces and affiliated genera. We also identify the genus Khoyollomyces as the earliest evolving AGF genus. Concordance between phylogenomic outputs and RPB1 and D/D2 LSU, but not RPB2, MCM7, or ITS1, phylogenies was observed. We combine phylogenomic analysis, and AAI outputs with informative phenotypic traits to propose accommodating 13/20 AGF genera into four families: Caecomycetaceae fam. nov. (encompassing genera Caecomyces and Cyllamyces), Piromycetaceae fam. nov. (encompassing the genus Piromyces), emend the description of fam. Neocallimastigaceae to only encompass genera Neocallimastix, Orpinomyces, Pecramyces, Feramyces, Ghazallomyces, and Aestipascuomyces, as well as the family Anaeromycetaceae to include the genera Oontomyces, Liebetanzomyces, and Capellomyces in addition to Anaeromyces. We refrain from proposing families for the deeply branching genus Khoyollomyces, and for genera with uncertain position (Buwchfawromyces, Joblinomyces, Tahromyces, Agriosomyces, Aklioshbomyces, and Paucimyces) pending availability of additional isolates and sequence data. Our results establish an evolutionary- grounded Linnaean taxonomic framework for the AGF, provide quantitative estimates for rank assignments, and demonstrate the utility of RPB1 as additional informative marker in Neocallimastigomycota taxonomy.
Publisher
Cold Spring Harbor Laboratory