OuYang, Yu-Ting

Publications
2

Insights into chemoautotrophic traits of a prevalent bacterial phylum CSP1-3, herein Sysuimicrobiota

Citation: Liu et al. (2024). National Science Review
Names: “Sysuimicrobium” “Segetimicrobium genomatis” “Segetimicrobium” “Geohabitans” “Sysuimicrobium tengchongense” “Fervidifonticultor quartus” “Fervidifonticultor secundus” “Humicultor” “Kaftiobacterium” “Segetimicrobiaceae” “Geohabitans tengchongensis” “Sysuimicrobiia” “Sysuimicrobiota” “Sysuimicrobiales” “Sysuimicrobiaceae” “Kaftiobacterium secundum” “Kaftiobacteriaceae” “Thermofontivivens” “Thermofontiviventaceae” “Thermofontivivens primus” “Tepidifontimicrobium thermophilum” “Tepidifontimicrobium” “Caldifonticola” “Sysuimicrobium calidum” “Fervidifonticultor tertius” “Fervidifonticultor” “Humicultoraceae” “Calidihabitans tengchongensis” “Calidihabitans” “Caldifonticola tengchongensis” “Humicultor tengchongensis” “Fervidifonticultor primus”
Abstract: Abstract Candidate bacterial phylum CSP1-3 has not been cultivated and is poorly understood. Here, we analyzed 112 CSP1-3 metagenome-assembled genomes (MAGs) and showed they are likely facultative anaerobes, with three of five families encoding autotrophy through the reductive glycine pathway (RGP), Wood–Ljungdahl pathway (WLP), or Calvin-Benson-Bassham (CBB), with hydrogen or sulfide as electron donors. Chemoautotrophic enrichments from hot spring sediments and fluorescence in si

Cultivation of novel Atribacterota from oil well provides new insight into their diversity, ecology, and evolution in anoxic, carbon-rich environments

Citation: Jiao et al. (2024). Microbiome 12 (1)
Names: “Oleincola secundus” “Atribacter hydrocarboniphilus” “Profundicultor thermophilus” “Sordicultor fermentans” “Stramentimicrobium fermentans” “Infernicultor aquiphilus” “Sediminicultor sextus” “Sediminicultor quintus” “Sediminicultor quartus” “Sediminicultor tertius” “Sediminicultor secundus” “Sediminicultor” “Immundihabitans aquiphilus” “Phoenicimicrobiales” “Atribacter allofermentans” “Atribacter alterifermentans” “Atribacter fermentans” “Caldatribacterium thermophilum” “Nitricultor siberiensis” “Nitricultor lacus” “Caldatribacterium caloriphilum” “Profundicultor aquiphilus” “Profundicultor” “Sordicultor aquaticus” “Sordicultor” “Nitricultor” “Phoenicimicrobiia” “Stramentimicrobiaceae” “Stramentimicrobium” “Oleincola” “Phoenicimicrobiaceae” “Phoenicimicrobium” “Phoenicimicrobium oleiphilum” “Immundihabitans” “Infernicultor”
Abstract: Abstract Background The Atribacterota are widely distributed in the subsurface biosphere. Recently, the first Atribacterota isolate was described and the number of Atribacterota genome sequences retrieved from environmental samples has increased significantly; however, their diversity, physiology, ecology, and evolution remain poorly understood. Results We report the isolation of the second member of Atribacterota, Th