| Description | The Erysipelotrichaceae bacterium is a gram-positive, rod-shaped microorganism that thrives in mesophilic temperatures, categorizing it as a chemoheterotroph, and can be found in all body sites across various species, requiring an obligate anaerobic environment to survive. As a gram-positive bacterium, its cell wall is composed of a thick peptidoglycan layer, providing it with a robust structure. The rod-shaped morphology allows for efficient movement and colonization in its habitat. Mesophilic temperatures, ranging from 20-45°C, are ideal for the growth and metabolism of this bacterium. As a chemoheterotroph, it relies on organic compounds for energy and carbon sources, breaking down complex molecules to sustain its metabolic processes. The presence of Erysipelotrichaceae bacterium in all body sites, including the gut, skin, and mucous membranes, highlights its adaptability and ability to coexist with various hosts. The obligate anaerobic nature of this bacterium means it cannot survive in the presence of oxygen, instead, it flourishes in environments with low oxygen levels. This adaptation enables it to thrive in environments such as the human gut, where oxygen is limited. The Erysipelotrichaceae bacterium plays a crucial role in the breakdown of complex polysaccharides and production of short-chain fatty acids, contributing to the host's overall health. Research has shown that this bacterium is also involved in the regulation of the immune system and the maintenance of the epithelial barrier, showcasing its significance in the human microbiome. Its presence has been linked to various diseases, including inflammatory bowel disease, highlighting the need for further research into its role in human health. |
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