| Description | Methyloversatilis universalis is a gram-negative, rod-shaped bacterium that falls into the category of mesophiles, thriving optimally at moderate temperatures. This microbe is classified as an autotroph, utilizing single-carbon compounds as its primary carbon source, specifically methanol, for growth and energy. Furthermore, it is characterized as an obligate aerobe, requiring oxygen for its metabolic processes. The gram-negative nature of Methyloversatilis universalis indicates that it possesses a thin peptidoglycan layer and an outer membrane containing lipopolysaccharides, which contribute to its structural integrity and play a role in its interactions with the environment. Its rod-shaped morphology allows for efficient nutrient absorption and mobility within its habitat. As a mesophile, this bacterium thrives at temperatures associated with human activity and natural ecosystems, typically between 20°C and 45°C. This temperature preference enables it to colonize a range of environments, including soil and water, where it can utilize methanol and other one-carbon compounds. Being an autotroph and obligate aerobe, Methyloversatilis universalis is particularly important in biogeochemical cycles, contributing to carbon cycling by mediating the oxidation of methanol. Its ability to utilize methanol as a carbon source makes it a crucial player in environments characterized by the presence of methylated compounds, such as wastewater treatment facilities, where it helps in the breakdown of pollutants. Moreover, Methyloversatilis universalis has potential applications in biotechnology and environmental remediation, as it can be harnessed for bioconversion processes that involve methanol, paving the way for sustainable practices in waste management and energy production. This microbe exemplifies the intricate balance of microbial life and its profound impact on ecological and industrial systems. |
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