Cheng, Lei


Publications
9

CitationNamesAbstract
Cultivation of novel Atribacterota from oil well provides new insight into their diversity, ecology, and evolution in anoxic, carbon-rich environments Jiao et al. (2024). Microbiome 12 (1) “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”
Oleispirillum naphthae gen. nov., sp. nov., a bacterium isolated from oil sludge, and proposal of Oleispirillaceae fam. nov Peng et al. (2024). International Journal of Systematic and Evolutionary Microbiology 74 (3) Oleispirillaceae
Description of a moderately acidotolerant and aerotolerant anaerobic bacterium Acidilutibacter cellobiosedens gen. nov., sp. nov. within the family Acidilutibacteraceae fam. nov., and proposal of Sporanaerobacteraceae fam. nov. and Tepidimicrobiaceae fam. nov Fan et al. (2023). Systematic and Applied Microbiology 46 (1) Sporanaerobacteraceae Tepidimicrobium
Non-syntrophic methanogenic hydrocarbon degradation by an archaeal species Zhou et al. (2022). Nature 601 (7892) Methanoliparum thermophilum Ts
Expanded diversity of Asgard archaea and their relationships with eukaryotes Liu et al. (2021). Nature 593 (7860) “Uabimicrobiales” “Borrarchaeales” “Borrarchaeia” “Wukongarchaeum yapense” “Wukongarchaeum” Ca. Hodarchaeum mangrovi “Hodarchaeum” Ca. Kariarchaeum pelagius “Kariarchaeum” Ca. Borrarchaeum yapensis Ca. Borrarchaeum “Borrarchaeaceae” “Wukongarchaeaceae” Ca. Wukongarchaeales “Wukongarchaeia” “Wukongarchaeota” “Hodarchaeaceae” “Hodarchaeales” “Hodarchaeia” “Hodarchaeota” “Kariarchaeaceae” “Kariarchaeales” “Kariarchaeia” Ca. Kariarchaeota “Baldrarchaeum” Ca. Baldrarchaeum yapensis “Baldrarchaeaceae” “Baldrarchaeales” “Baldrarchaeia” Ca. Baldrarchaeota “Hermodarchaeum” Ca. Hermodarchaeum yapensis “Hermodarchaeaceae” “Hermodarchaeales” “Hermodarchaeia” “Hermodarchaeota”
Zhaonella formicivorans gen. nov., sp. nov., an anaerobic formate-utilizing bacterium isolated from Shengli oilfield, and proposal of four novel families and Moorellales ord. nov. in the phylum Firmicutes Lv et al. (2020). International Journal of Systematic and Evolutionary Microbiology 70 (5) Moorellales Calderihabitantaceae Desulfitibacteraceae Moorellaceae
Gudongella oleilytica gen. nov., sp. nov., an aerotorelant bacterium isolated from Shengli oilfield and validation of family Tissierellaceae Wu et al. (2020). International Journal of Systematic and Evolutionary Microbiology 70 (2) Tepidimicrobium
Petroclostridium xylanilyticum gen. nov., sp. nov., a xylan-degrading bacterium isolated from an oilfield, and reclassification of clostridial cluster III members into four novel genera in a new Hungateiclostridiaceae fam. nov Zhang et al. (2018). International Journal of Systematic and Evolutionary Microbiology 68 (10) Hungateiclostridiaceae Acetivibrio
Metagenomic Characterization of Candidatus Smithella cisternae Strain M82_1, a Syntrophic Alkane-Degrading Bacteria, Enriched from the Shengli Oil Field Qin et al. (2017). Microbes and Environments. Microbes and environments 32 (3) Ca. Smithella cisternae