| Description | Enterobacter asburiae is a Gram-negative, rod-shaped bacterium that thrives optimally at mesophilic temperatures, classifying it as a mesophilic heterotroph. As part of the Enterobacter genus, this microbe can be found in various environments including soil, water, and within the gastrointestinal tracts of humans and animals, indicating its versatility across different ecological niches. E. asburiae is a facultative anaerobe, which allows it to adapt to both aerobic and anaerobic conditions, utilizing oxygen for respiration when available but also capable of fermentation in low-oxygen environments. The Gram-negative characteristic of Enterobacter asburiae implies that it possesses a thin peptidoglycan layer and an outer membrane containing lipopolysaccharides, which contributes to its virulence and resistance to certain antibiotics. Its rod shape facilitates motility, which is important for colonization and establishing infections in various host tissues. The mesophilic temperature preference indicates that it is adapted to moderate thermal conditions, typically thriving between 20°C and 45°C, making it well-suited for human-associated environments. As a heterotroph, E. asburiae relies on organic compounds for its nutritional needs, often utilizing sugars and amino acids. Its facultative anaerobic metabolism allows it to thrive in diverse environments, from oxygen-rich habitats to nutrient-rich anaerobic conditions, such as those found in the intestines of mammals. In clinical contexts, E. asburiae has been associated with opportunistic infections, particularly in immunocompromised individuals, where it may lead to urinary tract infections or wound infections. Its ability to adapt quickly to a variety of environments and conditions makes it a significant organism in both environmental and clinical microbiology studies, highlighting its role in the dynamics of microbial communities and potential human health implications. |
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