Methylomirabilis oxyfera
- Dataset
- English Wikipedia - Species Pages
- Rank
- SPECIES
Classification
- phylum
- NC10
- class
- Methylomirabilacaea
- order
- Methylomirabilales
- genus
- Methylomirabilis
- species
- Methylomirabilis oxyfera
Abstract
Candidatus "Methylomirabilis oxyfera" is a candidate species of Gram-negative bacteria belonging to the NC10 phylum, characterized for its capacity to couple anaerobic methane oxidation with nitrite reduction in anoxic environments. To acquire oxygen for methane oxidation, M. oxyfera utilizes an intra-aerobic pathway through the reduction of nitrite (NO2) to dinitrogen (N2) and oxygen.
Enrichment
Enriched Ca. "M. oxyfera" cells have been identified as primarily having a unique polygonal cell shape through the use of electron microscopy techniques. Unlike methanotrophic Pseudomonadota, Ca. "M. oxyfera" cells lack intracytoplasmic membranes when grown under laboratory conditions. The optimum growth ranges for Ca. "M. oxyfera" is between pH 7-8 and 25-30 °C. Ca. "M. oxyfera"cell envelopes are Gram-negative and are generally 0.25–0.5 μm in diameter and 0.8–1.1 μm in length.
Environmental significance
Ca. "M. oxyfera" has been identified in several environments including rice paddy soil in China, multiple river and lake sediments, and wastewater sludge in The Netherlands. Ca. "M. oxyfera" is predicted to inhabit environments with high concentrations of nitrogen and methane, near boundaries that separate oxic and anoxic zones. It is suggested that Ca. "M. oxyfera" and similar organisms contribute to the global carbon and nitrogen cycles. These organisms may also play a role in reducing the nutrient loads within freshwater ecosystems that have been contaminated with fertilizers.
Methane oxidation
Ca. "M. oxyfera" has the capacity to disproportionate nitric oxide into oxygen and nitrogen gas. This intermediate oxygen is then used in the oxidation of methane into carbon dioxide.
Overall reactions Nitrogen oxide dismutation:
Methane oxidation:
Overall reactions Nitrogen oxide dismutation:
Methane oxidation:
Name
- Homonyms
- Methylomirabilis oxyfera
- Common names
- 10.1016/j.scitotenv.2020.139588 in language.