| Description | Tannerella forsythia is a gram-negative, rod-shaped bacterium that thrives in anaerobic environments, making it an obligate anaerobe. This microorganism is classified as a chemoheterotroph, deriving energy from organic compounds while also relying on other organisms for carbon. T. forsythia is predominantly found in the human oral cavity, particularly within subgingival plaque, but it can also inhabit other body sites such as the gastrointestinal tract and respiratory tract. As a gram-negative bacterium, T. forsythia possesses a thin peptidoglycan layer surrounded by an outer membrane, which includes lipopolysaccharides. This structural characteristic contributes to its pathogenicity, as it can evade the host's immune system and persist in anaerobic conditions common in periodontal pockets. The rod-shaped morphology aids in its motility and ability to colonize dental surfaces, contributing to its role in oral biofilm formation. T. forsythia prefers warm temperatures typical of the human body, which enhances its growth and virulence. Its classification as a chemoheterotroph indicates that it utilizes organic compounds, primarily derived from the host's tissues and other bacteria, as fuel for its metabolic processes. This metabolic strategy enables T. forsythia to thrive in the nutrient-rich environment of the oral cavity. This microorganism has garnered significant attention in periodontal research due to its association with periodontitis, a serious gum disease characterized by inflammation and destruction of the supporting structures of teeth. Studies have shown that T. forsythia often coexists with other periodontal pathogens, contributing to the complexity of oral microbiota and the pathogenesis of periodontal diseases. Its ability to produce virulence factors, such as proteolytic enzymes, further complicates treatment strategies for oral infections. |
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