| Description | Mycobacteroides chelonae is a gram-negative, rod-shaped bacterium that thrives in mesophilic temperatures, is classified as a heterotroph, and is an obligate aerobe, requiring oxygen for its metabolic processes. This microbe typically colonizes various body sites, including the skin, respiratory system, and gastrointestinal tract of humans and animals. As a gram-negative bacterium, Mycobacteroides chelonae possesses a thinner peptidoglycan layer compared to gram-positive bacteria, which contributes to its unique structural characteristics and its ability to evade certain immune responses. The rod shape of this microbe favors its motility and adaptation in diverse environments, enhancing its survival in a range of niches. Being mesophilic means it optimally grows at moderate temperatures, around 30 to 37 degrees Celsius, making it well-suited for life in human hosts. As a heterotroph, Mycobacteroides chelonae relies on organic compounds for nourishment, breaking down various substances within its environment to obtain energy. Its status as an obligate aerobe indicates that it requires atmospheric oxygen to carry out aerobic respiration, impacting its habitat preferences, where oxygen availability is essential. In clinical contexts, Mycobacteroides chelonae is recognized for its association with skin and soft tissue infections, particularly in immunocompromised individuals or those with underlying health conditions. The bacterium is notable for its intrinsic resistance to multiple antibiotics, complicating treatment options. It has garnered attention in medical research for its potential role in opportunistic infections, and ongoing investigations aim to understand its pathogenic mechanisms and environmental resilience. This microbe represents an important aspect of the human microbiome, illustrating the complex interactions between commensal organisms and the host. |
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