<p><i>Delftia acidovorans</i>, a Gram-negative bacterium commonly found in diverse environments, can occasionally cause infections in immunocompromised individuals. Despite its environmental prevalence and clinical relevance, there is a notable lack of studies on the cellular ultrastructure of <i>D. acidovorans</i>. Characterizing this aspect is essential for understanding the bacterium aggregation behavior, which significantly influences biofilm formation, environmental adaptability, and potential pathogenicity in clinical contexts. This study employs cryo-electron tomography to investigate the cellular ultrastructure of <i>Delftia acidovorans</i>. Our observations of <i>D. acidovorans</i> revealed a supercoiling pattern in flagellar filaments and diverse outer membrane projections. Our major finding was the observation of cytoplasmic membrane invaginations resembling mesosomes seen in Gram-positive bacteria, offering new insights into the cellular architecture and potential functions of these structures in Gram-negative bacteria. Together, these ultrastructural insights reveal adaptations potentially linked to environmental persistence and interspecies aggregation.</p>

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Ultrastructure Analysis by Cryo-Electron Tomography Revealed Mesosomes in the Gram-negative Delftia acidovorans

  • Ana C. Afonso,
  • Jack Botting,
  • Manuel Simões,
  • Lúcia Simões,
  • Jun Liu,
  • Maria José Saavedra

摘要

Delftia acidovorans, a Gram-negative bacterium commonly found in diverse environments, can occasionally cause infections in immunocompromised individuals. Despite its environmental prevalence and clinical relevance, there is a notable lack of studies on the cellular ultrastructure of D. acidovorans. Characterizing this aspect is essential for understanding the bacterium aggregation behavior, which significantly influences biofilm formation, environmental adaptability, and potential pathogenicity in clinical contexts. This study employs cryo-electron tomography to investigate the cellular ultrastructure of Delftia acidovorans. Our observations of D. acidovorans revealed a supercoiling pattern in flagellar filaments and diverse outer membrane projections. Our major finding was the observation of cytoplasmic membrane invaginations resembling mesosomes seen in Gram-positive bacteria, offering new insights into the cellular architecture and potential functions of these structures in Gram-negative bacteria. Together, these ultrastructural insights reveal adaptations potentially linked to environmental persistence and interspecies aggregation.