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University of North Carolina at Chapel Hill | Chapel Hill, North Carolina | United States | 24 days ago
Rosenthal’s laboratory. The lab investigates the role of heterogeneous gene expression in bacterial pathogenesis. It uses genetics, molecular biology, and systems biology approaches to understand the presence
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For in Asia. To find out more about RMIT Vietnam and our current vacancies, please visit our website: https://www.rmit.edu.vn/careers About the project This research project explores plant-based and
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the molecular mechanisms of ATP-dependent AAA proteolytic machines, both soluble and membrane-spanning, and their accessory factors in bacterial and mitochondrial systems. We study how these complexes assemble
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. Preliminary analyses of bacterial metabolites released into the culture medium have revealed metabolic signatures specific to the virulent strain and/or culture conditions, enabling a preliminary list of
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not limited to bacterial sepsis, viral infections, and cancer. Candidate will perform in vitro and in vivo experiments and contribute to the laboratory research program. The candidate will organize
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, in vitro mammalian cell culture, and aerobic and anaerobic bacterial culture. They will also help with animal experiments (mice) and manage the mouse colony, along with recruitment of patients
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bacterial cellulose and evaluation of promising structures providing permanent colouration • develope low-emission processes for bacterial cellulose growth, including the adjustment of reaction parameters
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Postdoctoral Position and Postdoctoral Fellowship (2yrs) in Intracellular Host-Pathogen Interactions
We invite applications for two fully funded, two-year postdoctoral projects in Intracellular Host-Pathogen Interactions with a focus on the obligate intracellular bacterial pathogen Chlamydia
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of developments in production of samples for structural biology using mammalian and bacterial expression systems and cell-based in vivo models of mechanotransduction. You will join a very lively and motivated
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cutting-edge technologies—including bacterial genomics, metabolomics, anaerobic microbiology, bacterial genetics, gnotobiotic animal models, and patient cohort studies—to uncover the mechanisms by which gut