-
100%, Zurich, fixed-term The Cell and Tissue Mechanobiology team is recruiting a full-time (100%) doctoral candidate, to work on the role of the extracellular matrix (ECM) in signal transduction
-
candidate for research projects in the fields of personalized medicine and bioelectronics. The D-BSSE is the first truly interdisciplinary research unit of ETH Zurich where theory, experimental biology and
-
background Investigating gene function using direct in vivo screening is revolutionising the way we study brain biology . We have previously developed AAV-based molecular methods for direct in vivo CRISPR
-
background Investigating gene function using direct in vivo screening is revolutionising the way we study brain biology . We have previously developed AAV-based molecular methods for direct in vivo CRISPR
-
disease. Salmonella Typhimurium is a common cause of diarrhea resulting in much morbidity world-wide. As we are lacking vaccines and therapies, we need further research to identify targets for intervention
-
100%, Zurich, fixed-term The Laboratory of Toxicology, led by Professor Shana Sturla, is part of the ETH Department of Health Science & Technology and the Institute for Food, Nutrition and Health
-
single-cell level using nanopore sensors. The approach is the first of its type that can potentially address important biology questions at single-cell level and with a much higher temporal and spatial
-
, chemistry, biology, physics, or in a related field Your workplace Your workplace We offer ETH Zurich is a family-friendly employer with excellent working conditions. You can look forward to an exciting
-
spectrum of engineering and testing equipment are available in the group. Your profile The successful candidateshould have a background in biology or biomedical engineering. Prior exposure to working with
-
method (FDM), finite element method (FEM), or similar is desirable experience with cluster computing is welcome, but not required. You should be interested in biophysics, developmental biology, and