| Description | Corynebacterium diphtheriae is a mesophilic bacterium, preferring temperatures between 25-37°C, and is classified as a heterotroph, relying on external organic sources for energy and carbon. As a chemoheterotroph, it produces energy through the process of cellular respiration, utilizing the energy from glucose and other organic compounds. The bacterium is gram-positive, meaning it retains the stain due to its thick peptidoglycan layer, and its shape is unique, with a characteristic "coryneform" morphology, featuring branching, beaded cells. C. diphtheriae is a ubiquitous microbe, found in various body sites across all possible species, including the human throat, skin, and mucous membranes. This bacterium is an obligate aerobe, requiring the presence of oxygen to grow and thrive. It is also a pathogen, capable of causing severe infections, particularly diphtheria, a potentially life-threatening disease characterized by the formation of a thick, grayish membrane on the surface of the tonsils and mucous membranes. In addition to its clinical significance, C. diphtheriae has also been recognized for its unique biochemical properties. The bacterium produces several enzymes, including diphtheria toxin, a powerful protein that can cause widespread damage to tissues and disrupt cellular function. This toxin is responsible for the severe symptoms associated with diphtheria, making it a crucial target for vaccine development. Throughout history, C. diphtheriae has played a significant role in shaping human health and medicine. The development of vaccines and antibiotics against this microbe has been instrumental in reducing the global burden of diphtheria, and ongoing research continues to refine our understanding of its biology and pathogenesis. |
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