| Description | Aggregatibacter aphrophilus is a gram-negative, rod-shaped bacterium classified as a facultative anaerobe and a chemoheterotroph, showing optimal growth at human body temperature (37°C). This microbe is commonly found in various locations in the human body, including the oropharynx, respiratory tract, and dental plaque, highlighting its association with both healthy and diseased states. As a gram-negative organism, Aggregatibacter aphrophilus has a thin peptidoglycan layer surrounded by an outer membrane containing lipopolysaccharides, contributing to its pathogenic potential and role in the human microbiota. Its rod-like shape enables it to colonize surfaces effectively, forming biofilms that can be detrimental in certain infections. The classification as a facultative anaerobe allows A. aphrophilus to thrive in both oxygen-rich and oxygen-poor environments, making it versatile in various host tissues. As a chemoheterotroph, it derives energy from organic compounds, which it metabolizes to support its growth and functions. This metabolic flexibility is particularly advantageous in the dynamic environments of the human body, where nutrient availability can fluctuate. Aggregatibacter aphrophilus is known for its involvement in several clinical conditions, including periodontitis, endocarditis, and respiratory infections. Its role in periodontal disease underscores its capacity to interact with other oral pathogens and contribute to biofilm formation on dental surfaces. Additionally, this microbe has been found to exhibit symbiotic relationships with other bacteria, enhancing its influence within polymicrobial communities. Its ability to adapt to various ecological niches in the human body underscores its significance in both health and disease. Researchers continue to study A. aphrophilus to uncover its complexities and implications in microbiome research and infectious disease. |
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