| Addendum: Comparative Genomic Analysis of the Class Epsilonproteobacteria and Proposed Reclassification to Epsilonbacteraeota (phyl. nov.) |
Waite et al. (2018). Frontiers in Microbiology 9
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Campylobacterota
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| Insights into the phylogeny and coding potential of microbial dark matter |
Rinke et al. (2013). Nature 499 (7459)
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“Paceibacteria”
“Paceibacterales”
“Paceibacteraceae”
“Paceibacter normanii”
“Paceibacter”
“Gracilibacteria”
Patescibacteriota
“Calescibacteriota”
“Fervidibacterota”
“Hydrogenedentota”
“Iainarchaeota”
“Hydrogenedens terephthalicus”
“Neomarinimicrobiota”
“Parvarchaeota”
“Microgenomatus auricola”
Omnitrophus fodinae Ts
Omnitrophus
“Latescibacter”
“Latescibacter anaerobius”
Cloacimonadota
“Latescibacterota”
“Aenigmatarchaeum subterraneum”
“Aerophobus profundus”
“Altimarinus pacificus”
“Aminicenans sakinawicola”
“Aminicenans”
“Calescibacterium nevadense”
“Nanohaloarchaeota”
“Acetithermota”
“Aenigmatarchaeota”
“Aerophobota”
“Altimarinota”
“Aminicenantota”
Omnitrophota
Fervidibacter
Fervidibacter sacchari Ts
Fervidibacteria
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| Growth and mechanism of filamentous-sulfur formation by Candidatus Arcobacter sulfidicus in opposing oxygen-sulfide gradients |
Sievert et al. (2007). Environmental Microbiology 9 (1)
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Ca. Arcobacter sulfidicus
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