2023
DOI: 10.1093/gbe/evac185
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Mycoparasites, Gut Dwellers, and Saprotrophs: Phylogenomic Reconstructions and Comparative Analyses of Kickxellomycotina Fungi

Abstract: Improved sequencing technologies have profoundly altered global views of fungal diversity and evolution. High throughput sequencing methods are critical for studying fungi due to the cryptic, symbiotic nature of many species, particularly those that are difficult to culture. However, the low coverage genome sequencing (LCGS) approach to phylogenomic inference has not been widely applied to fungi. Here we analyzed 171 Kickxellomycotina fungi using LCGS methods to obtain hundreds of marker genes for robust phylo… Show more

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Cited by 8 publications
(21 citation statements)
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References 141 publications
(209 reference statements)
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“…We previously developed Autometa, an automated binning pipeline that is able to effectively recover genomes from highly convoluted environmental and non-model host-associated microbial communities (3). This tool has seen widespread use in environments ranging from marine, freshwater and terrestrial samples, including corals (4), red algae (5), kinetoplastids (6), deep sea geothermal vents (7)(8)(9), sponges (10)(11)(12), coastal sediments (13), stromatolites (14), seaweeds (15), shipworms (16), plateau lakes (17,18), hot springs (19,20), contaminated rivers (21), beetles (22)(23)(24)(25), Kickxellomycotina fungi (26), Ensifera insects (27), fermented agave (28,29), a marsh orchid rhizobiome (30), domesticated cattle (31,32), mice (33) and human gut (34), periodontal (35) as well as urinary tract (36) microbiomes. As a consequence of Autometa's widespread use, both non-technical and technical researchers alike have communicated their frustrations regarding the ease of installation as well as the efficiency and robustness throughout the various stages of the Autometa workflow.…”
Section: Introductionmentioning
confidence: 99%
“…We previously developed Autometa, an automated binning pipeline that is able to effectively recover genomes from highly convoluted environmental and non-model host-associated microbial communities (3). This tool has seen widespread use in environments ranging from marine, freshwater and terrestrial samples, including corals (4), red algae (5), kinetoplastids (6), deep sea geothermal vents (7)(8)(9), sponges (10)(11)(12), coastal sediments (13), stromatolites (14), seaweeds (15), shipworms (16), plateau lakes (17,18), hot springs (19,20), contaminated rivers (21), beetles (22)(23)(24)(25), Kickxellomycotina fungi (26), Ensifera insects (27), fermented agave (28,29), a marsh orchid rhizobiome (30), domesticated cattle (31,32), mice (33) and human gut (34), periodontal (35) as well as urinary tract (36) microbiomes. As a consequence of Autometa's widespread use, both non-technical and technical researchers alike have communicated their frustrations regarding the ease of installation as well as the efficiency and robustness throughout the various stages of the Autometa workflow.…”
Section: Introductionmentioning
confidence: 99%
“…In many phylogenetic analyses of rDNA genes and/or a few protein-coding genes, Zygomycota was not recovered as a monophyletic group and separated into several clades (James et al 2006; White et al 2006), and, moreover, the relationships between clades were poorly resolved. During the last decade, phylogenomic approaches, which utilize hundreds to thousands of genes retrieved from genomic or transcriptomic data, were applied to zygomycete fungi and improved phylogenetic resolution (Spatafora et al 2016; Chang et al 2019; Davis et al 2019; Wang et al 2020; Chang et al 2022; Reynolds et al 2023). The results supported a classification that divided zygomycete fungi into two phyla both of which include three subphyla: Mucoromycota (Glomeromycotina, Mortierellomycotina, Mucoromycotina) sister to Dikarya, and Zoopagomycota (Entomophthoromycotina, Kickxellomycotina, Zoopagomycotina) sister to Dikarya + Mucoromycota (Spatafora et al 2016).…”
Section: Introductionmentioning
confidence: 99%
“…Some of these fungi produce nonribosomal peptides (NRP) with surface-active, antibacterial or antimalarial activities [ 9 13 ]. In contrast, the second phylum, the Zoopagomycota, is more nuanced as they include (i) obligatory pathogens of invertebrates or amoebae (Zoopagomycotina), along with (ii) parasites and commensals of insects or amphibians (Entomophthoromycotina), and (iii) mycoparasites or saprotrophic species (Kickxellomycotina) [ 2 , 6 , 14 ].…”
Section: Introductionmentioning
confidence: 99%
“…Saprotrophic kickxellomycetes are rarely isolated from nature, but preferably from rhizosphere, soil, humus, dung, and other organic material from dead plants and animals [ 2 , 15 ]. Colonies usually grow slowly which is why they are quickly covered by other saprobe ascomycetes prior to isolation [ 15 ].…”
Section: Introductionmentioning
confidence: 99%
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