Jean-Jacques MeisterA Swiss citizen, Jean-Jacques Meister was born in 1950. He received a diploma in electrical engineering, then a diploma in physics from the Swiss Federal Institute of Technology in Lausanne (EPFL). He joined the Institute of Biomedical Engineering at the Swiss Federal Institute of Technology in Zurich and obtained a PhD in1983. From 1984 to 1990, he worked in different areas of biophysics and biomedical engineering. His main contributions concern novel noninvasive methods for the prevention and diagnosis of cardiovascular diseases: mechanical properties of the arterial wall, arterial hemodynamics, and Doppler ultrasonography. In 1990, he was recruited as a full professor of experimental physics at the Swiss Federal Institute of Technology in Lausanne. He was director of the laboratory of biomedical engineering until 2001, then director of the laboratory of cell biophysics. His fields of research are cellular biophysics: cytoskeleton dynamics, motility & adhesion of cells and calcium dynamics in smooth muscle cells. He spent a sabbatical leave in 2000 at the famous Marine Biological Laboratory, Woods Hole, Massachusetts -USA to improve his skills in molecular and cellular biology. His teaching activities include courses in general physics, Newtonian mechanics, biomedical engineering and biophysics presented to undergraduate and graduate EPFL students in physics and engineering. He is author or co-author of more than 230 scientific papers & book chapters and 8 international patents.
Bruno Emanuel Ferreira De Sousa CorreiaThroughout my PhD and postdoctoral studies I was trained in world-renowned laboratories and institutions in the United States of America (University of Washington and The Scripps Research Institute). Very early in my scientific career I found out my fascination about protein structure and function. My PhD studies evolved in the direction of immunogen design and vaccine engineering which sparked my interest in the many needs and opportunities in vaccinology and translational research. My efforts resulted in an enlightening piece of work where for the first time, computationally designed immunogens elicited potent neutralizing antibodies. During my postdoctoral studies I joined a chemical biology laboratory at the Scripps Research Institute. In this stage I developed novel chemoproteomics methods for the identification of protein-small molecule interaction sites in complex proteomes. In March 2015, I joined the École Polytechnique Fédérale de Lausanne (EPFL) – Switzerland as a tenure track assistant professor. The focus of my research group is to develop computational tools for protein design with particular emphasis in applying these strategies to immunoengineering (e.g. vaccine and cancer immunotherapy). The activities in my laboratory focus on computational design methods development and experimental characterization of the designed proteins. Our laboratory has been awarded with 2 prestigious research grants from the European Research Council. Lastly, I have been awarded the prize for best teacher of Life sciences in 2019.
