| Description | Muribaculum gordoncarteri is a nonsporulating, cellulolytic microbe recognized for its role as a chemoheterotroph, deriving energy from organic compounds in various environments. This bacterium has been observed in multiple habitats, highlighting its adaptability and ecological significance. Its optimal growth temperature is found to be around 5.33 °C, which suggests that it may thrive in cooler environments, possibly including anaerobic niches within soil or sediment layers where organic matter decomposition occurs. Though specific details regarding its Gram stain, shape, and cell arrangement remain unknown, Muribaculum gordoncarteri contributes to the microbial diversity that facilitates the breakdown of cellulose. This process is essential in nutrient cycling, particularly in ecosystems rich in plant material. By degrading cellulose, Muribaculum gordoncarteri not only helps recycle carbon but also supports the growth of other microorganisms and contributes to soil health. An intriguing ecological insight regarding Muribaculum gordoncarteri is its potential role in the gut microbiota of various mammals, including rodents. This association may influence host digestion and metabolism, shedding light on the intricate relationships between gut microbes and their hosts. The presence of such cellulolytic bacteria is crucial for optimizing energy extraction from plant-based diets, which can profoundly impact host health and fitness. |
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