Luo, Zhen-Hao


Publications
3

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 Ts Segetimicrobium Geohabitans Sysuimicrobium tengchongense Fervidifonticultor quartus Fervidifonticultor secundus Humicultor Kaftiobacterium Segetimicrobiaceae Geohabitans tengchongensis Ts Sysuimicrobiia Sysuimicrobiota Sysuimicrobiales Sysuimicrobiaceae Kaftiobacterium secundum Ts Kaftiobacteriaceae Thermofontivivens Thermofontiviventaceae Thermofontivivens primus Ts Tepidifontimicrobium thermophilum Ts Tepidifontimicrobium Caldifonticola Sysuimicrobium calidum Ts Fervidifonticultor tertius Fervidifonticultor Humicultoraceae Calidihabitans tengchongensis Ts Calidihabitans Caldifonticola tengchongensis Ts Humicultor tengchongensis Ts Fervidifonticultor primus Ts
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

Genomic Insights of “Candidatus Nitrosocaldaceae” Based on Nine New Metagenome-Assembled Genomes, Including “Candidatus Nitrosothermus” Gen Nov. and Two New Species of “Candidatus Nitrosocaldus”

Citation
Luo et al. (2021). Frontiers in Microbiology 11
Names
Ca. Nitrosocaldaceae “Nitrosocaldales” Ca. Nitrosocaldus Ca. Nitrosothermus
Abstract
“Candidatus Nitrosocaldaceae” are globally distributed in neutral or slightly alkaline hot springs and geothermally heated soils. Despite their essential role in the nitrogen cycle in high-temperature ecosystems, they remain poorly understood because they have never been isolated in pure culture, and very few genomes are available. In the present study, a metagenomics approach was employed to obtain “Ca. Nitrosocaldaceae” metagenomic-assembled genomes (MAGs) from hot spring samples collected fro

Diversity and Genomic Characterization of a Novel Parvarchaeota Family in Acid Mine Drainage Sediments

Citation
Luo et al. (2020). Frontiers in Microbiology 11
Names
“Acidifodinimicrobiaceae” “Acidifodinimicrobium”
Abstract
Recent genome-resolved metagenomic analyses of microbial communities from diverse environments have led to the discovery of many novel lineages that significantly expand the phylogenetic breadth of Archaea. Here, we report the genomic characterization of a new archaeal family based on five metagenome-assembled genomes retrieved from acid mine drainage sediments. Phylogenomic analyses placed these uncultivated archaea at the root of the candidate phylum Parvarchaeota, which expand this lesser-kno