Molecular response to temperature stress in thermoacidophilic archaea
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MSCA-2020-EPeeters02
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Beschrijving van het project
Temperature is a crucial physical parameter for all living organisms. The ability to respond adequately to a temperature rise or drop underlies the survival and fitness of a species. Although it is well understood how bacteria and eukaryotes sense and respond to temperature changes, this is enigmatic for archaea. Nevertheless, many archaeal species thrive in high-temperature habitats that are typified by large temperature gradients, imposing constant heat- and cold-shock stress stimuli on the cells. In this project, you will aim to characterize translational regulation in response to heat- and cold-shock stress in the thermoacidophilic archaeon Sulfolobus acidocaldarius living in volcanic hot springs and growing optimally at 75°C. Initially, a system- level approach will be adopted to map all gene regulatory events in response to temperature stress. This is followed by an integrated in silico, in vitro and in vivo approach using bioinformatics, structural probing assays and genetic experiments to search for and characterize RNA thermometers, structured RNA elements that regulate translation by undergoing temperature-dependent conformational changes. This project will not only unravel how temperature sensing and response regulation is performed in Sulfolobus, it will also contribute to a better understanding of archaeal translation initiation and of how riboregulation evolved during early evolution.
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Research Group of Microbiology
The Research Group of Microbiology led by Prof. Eveline Peeters and Prof. Joske Ruytinx performs research in the fields of molecular microbiology, focusing on a variety of microorganisms -bacteria, archaea and fungi- with a special interest for extremophiles and plant-microbe interactions (mycorrhiza). Fundamental research questions are related to molecular mechanisms of genetic adaptation and the use of these insights for a transition to a more sustainable biobased industry.
We offer a dynamic and well-equipped research environment for state-of-the-art research in molecular microbiology and are interested in supporting the preparation of a competitive application for a MSCA postdoctoral fellowship in case a synergy can be created between the research profile and ambitions of the candidate and the research mission statement of the host research group. The abstracts presented on this website are only exemplary, please do not hesitate to contact us with your own ideas.
Website of the Research Group: https://micr.research.vub.be