CORDIS Project
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This project aims to explore the dynamics and organization of bacterial cytoplasm and mitochondrial matrix using advanced microscopy techniques. It seeks to understand how these cellular components respond to environmental changes and their implications for cell survival.
Bacteria cells appear to be less complex than our own cells -- yet they are better able to survive harsh conditions.
Typically ~1 micron in size, they lack motor proteins; thus, they rely on fluctuations for intracellular transport.
Bacteria in the environment often face starvation and exist in a non-proliferating quiescent state, which promotes antibiotic resistance and virulence.
Entering quiescence, the bacterial cytoplasm displays signatures of the colloidal glass transition, with increasing…
ECOLE POLYTECHNIQUE FEDERALE DE LAUSANNE
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