Shu, Wen-Sheng


Publications
10

CitationNamesAbstract
Insights into chemoautotrophic traits of a prevalent bacterial phylum CSP1-3, herein Sysuimicrobiota Liu et al. (2024). National Science Review “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”
Metagenomic Discovery of “ Candidatus Parvarchaeales”-Related Lineages Sheds Light on Adaptation and Diversification from Neutral-Thermal to Acidic-Mesothermal Environments Rao et al. (2023). mSystems 8 (2) “Jingweiarchaeaceae” “Rehaiarchaeum fermentans” “Parvarchaeales” “Haiyanarchaeum thermophilum” “Jingweiarchaeum tengchongense” “Parvarchaeum tengchongense” “Haiyanarchaeum” “Jingweiarchaeum” “Haiyanarchaeaceae” “Jingweiarchaeales” “Rehaiarchaeum”
Panguiarchaeum symbiosum, a potential hyperthermophilic symbiont in the TACK superphylum Qu et al. (2023). Cell Reports 42 (3) Panguiarchaeum Panguiarchaeaceae Panguiarchaeales Panguiarchaeum symbiosum Ts
Metagenomic discovery ofCandidatusParvarchaeales related lineages sheds light on the adaptation and diversification from neutral-thermal to acidic-mesothermal environments Rao et al. (2022). “Haiyanarchaeum” “Jingweiarchaeales” “Jingweiarchaeum” “Parvarchaeales” “Rehaiarchaeum” “Jingweiarchaeum tengchongense” “Haiyanarchaeum thermophilum” “Rehaiarchaeum fermentans” “Parvarchaeum tengchongense” “Haiyanarchaeaceae” “Jingweiarchaeaceae”
Deciphering Symbiotic Interactions of “ Candidatus Aenigmarchaeota” with Inferred Horizontal Gene Transfers and Co-occurrence Networks Li et al. (2021). mSystems 6 (4) Ca. Aenigmarchaeota
Comparative Genomics Reveals Thermal Adaptation and a High Metabolic Diversity in “ Candidatus Bathyarchaeia” Qi et al. (2021). mSystems 6 (4) Bathyarchaeia
Genomic Insights of “Candidatus Nitrosocaldaceae” Based on Nine New Metagenome-Assembled Genomes, Including “Candidatus Nitrosothermus” Gen Nov. and Two New Species of “Candidatus Nitrosocaldus” Luo et al. (2021). Frontiers in Microbiology 11 Ca. Nitrosocaldaceae “Nitrosocaldales” Ca. Nitrosocaldus Ca. Nitrosothermus
Deciphering symbiotic interactions of ‘Candidatus Aenigmarchaeota’ with inferred horizontal gene transfers and co-occurrence networks Li et al. (2020). Ca. Aenigmarchaeota
Insights into the ecological roles and evolution of methyl-coenzyme M reductase-containing hot spring Archaea Hua et al. (2019). Nature Communications 10 (1) Ca. Methanoproducendum senex
Insights into ecological role of a new deltaproteobacterial order Candidatus Acidulodesulfobacterales by metagenomics and metatranscriptomics Tan et al. (2019). The ISME Journal 13 (8) Ca. Acidulodesulfobacterales