| Genomic insights into versatile lifestyle of three new bacterial candidate phyla |
Zhang et al. (2022). Science China Life Sciences 65 (8)
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“Canglongiota”
“Heilongiota”
“Qinglongiota”
|
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| Non-syntrophic methanogenic hydrocarbon degradation by an archaeal species |
Zhou et al. (2022). Nature 601 (7892)
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Methanoliparum thermophilum Ts
|
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| 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”
|
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| Metagenomic insights into the metabolism and evolution of a new Thermoplasmata order (
Candidatus
Gimiplasmatales) |
Hu et al. (2020). Environmental Microbiology 23 (7)
|
“Gimiplasmataceae”
“Gimiplasmatales”
|
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