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antimicrobials. We are investigating microbial stress responses that help bacteria and fungi to adapt to and overcome cell envelope stress and examine whether these defense systems could be exploited as accessory
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to and overcome cell envelope stress and examine whether these defense systems could be exploited as accessory antimicrobial targets. The focus lies on membrane-associated proteins such as transmembrane
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interdisciplinary approaches. Today, in addition to general bacteriology, we work with applications of various nanomaterials in biomedicine and biotechnology, metabolic engineering of microbial cell factories and
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of battery materials, and the fabrication of the coin cell and pouch cell. You are expected to be somewhat accustomed to teaching, and to demonstrate good potential within research and education. The following
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bacteriology, we work with applications of various nanomaterials in biomedicine and biotechnology, metabolic engineering of microbial cell factories and experimental evolution. Our work is focused on societal
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. Motivating examples include the spatio-temporal dynamics of sweat droplets, interacting cellular or tissue shapes, and geometric structures arising in vegetation such as tree canopies. The work combines