Imaging of bacterial multicellular behaviour in biofilms in liquid by atmospheric scanning electron microscopy
説明
<jats:title>Abstract</jats:title><jats:p>Biofilms are complex communities of microbes that attach to biotic or abiotic surfaces causing chronic infectious diseases. Within a biofilm, microbes are embedded in a self-produced soft extracellular matrix (ECM), which protects them from the host immune system and antibiotics. The nanoscale visualisation of delicate biofilms in liquid is challenging. Here, we develop atmospheric scanning electron microscopy (ASEM) to visualise Gram-positive and -negative bacterial biofilms immersed in aqueous solution. Biofilms cultured on electron-transparent film were directly imaged from below using the inverted SEM, allowing the formation of the region near the substrate to be studied at high resolution. We visualised intercellular nanostructures and the exocytosis of membrane vesicles, and linked the latter to the trafficking of cargos, including cytoplasmic proteins and the toxins hemolysin and coagulase. A thick dendritic nanotube network was observed between microbes, suggesting multicellular communication in biofilms. A universal immuno-labelling system was developed for biofilms and tested on various examples, including <jats:italic>S. aureus</jats:italic> biofilms. In the ECM, fine DNA and protein networks were visualised and the precise distribution of protein complexes was determined (<jats:italic>e.g.</jats:italic>, straight curli, flagella, and excreted cytoplasmic molecular chaperones). Our observations provide structural insights into bacteria-substratum interactions, biofilm development and the internal microbe community.</jats:p>
収録刊行物
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- Scientific Reports
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Scientific Reports 6 (1), 25889-, 2016-05-16
Springer Science and Business Media LLC