Comparative genomics of freshwater Fe-oxidizing bacteria: implications for physiology, ecology, and systematics
Results
Nitrosococcus watsonii sp. nov., a new species of marine obligate ammonia‐oxidizing bacteria that is not omnipresent in the world's oceans: calls to validate the names ‘Nitrosococcus halophilus’ and ‘Nitrosomonas mobilis’
Host population diversity as a driver of viral infection cycle in wild populations of green sulfur bacteria with long standing virus-host interactions
Genomic properties of Marine Group A bacteria indicate a role in the marine sulfur cycle
Pumping iron: A multi-omics analysis of two extremophilic algae reveals iron economy management
Major role of nitrite-oxidizing bacteria in dark ocean carbon fixation
H2-saturation of high affinity H2-oxidizing bacteria alters the ecological niche of soil microorganisms unevenly among taxonomic groups
Mixotrophic Iron-Oxidizing Thiomonas Isolates from an Acid Mine Drainage-Affected Creek.
The Impact of Genome Analyses on Our Understanding of Ammonia-Oxidizing Bacteria*
Community ecology across bacteria, archaea and microbial eukaryotes in the sediment and seawater of coastal Puerto Nuevo, Baja California
Partial genome sequence of Thioalkalivibrio thiocyanodenitrificans ARhD 1T, a chemolithoautotrophic haloalkaliphilic sulfur-oxidizing bacterium capable of complete denitrification
Sulfur metabolites that facilitate oceanic phytoplankton–bacteria carbon flux
