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In taxonomy, Ahrensia is a genus of the Hyphomicrobiales. Ahrensia is named after the German microbiologist R. Ahrens. The cells are rod-shaped and motile. They are strictly aerobic.
In taxonomy, Antarctobacter is a genus of the Rhodobacteraceae.
In taxonomy, Rhodothalassium is a genus of the Rhodobacteraceae. Up to now there is only one species of this genus known.
Roseivivax is a genus of bacteria in the family Rhodobacteraceae.
In taxonomy, "Marinosulfonomonas" is a genus.
In taxonomy, Octadecabacter is a genus of the Rhodobacteraceae.
In taxonomy, Jannaschia is a genus of the Rhodobacteraceae.
In taxonomy, Marinovum is a genus of the Rhodobacteraceae. Up to now there is only one species of this genus known.
In taxonomy, Methylarcula is a genus of the Rhodobacteraceae.
In taxonomy, Oceanicola is a genus of the Rhodobacteraceae.
In taxonomy, Phaeobacter is a genus of the Rhodobacteraceae.
In taxonomy, Rhodovulum is a genus of the Rhodobacteraceae.
In taxonomy, Roseibium is a genus of the Hyphomicrobiales.
In taxonomy, Roseinatronobacter is a genus of the Rhodobacteraceae.
Roseovarius is a genus of bacteria in the family Roseobacteraceae.
In taxonomy, Salipiger is a genus of the Rhodobacteraceae.
In taxonomy, Stappia is a genus of the Hyphomicrobiales. Some members of the genus oxidize carbon monoxide (CO) aerobically. Stappia indica is a diatom associated bacterium which is known to inhibit the growth of diatoms such as Thalassiosira pseudonana.
In taxonomy, Thioclava is a genus of the Rhodobacteraceae.
In taxonomy, Thalassobius is a genus of the Rhodobacteraceae.
Methanobacterium is a genus of the Methanobacteriaceae family of Archaea. Despite the name, this genus belongs not to the bacterial domain but the archaeal domain. Methanobacterium are nonmotile and live without oxygen as anaerobic bacterium. They do not create endospores when nutrients are limited. Some members of this genus can use formate to reduce methane; others live exclusively through the reduction of carbon dioxide with hydrogen. They are ubiquitous in some hot, low-oxygen environments, such as anaerobic digestors, their waste water, and hot springs.
References
- ↑ See the NCBI webpage on Pseudorhodobacter. Data extracted from the "NCBI taxonomy resources". National Center for Biotechnology Information . Retrieved 2007-03-19.