Sort by
Refine Your Search
-
Listed
-
Employer
- University of Basel
- ETH Zürich
- Empa
- Ecole Polytechnique Federale de Lausanne
- Paul Scherrer Institut Villigen
- Universität Bern
- Zürcher Hochschule für Angewandte Wissenschaft ZHAW
- EPFL
- ETH Zurich
- Prof. Dr. Ricarda Toerner
- University of Applied Sciences Northwestern Switzerland
- University of Bern
- University of Zurich
- 3 more »
- « less
-
Field
-
, and this process is tightly regulated by a network of chaperone proteins. At the heart of this network is Hsp90, a molecular chaperone essential for the folding and maturation of at least 20% of all
-
plumes from point sources using the MicroHH atmospheric model. Analysis of plume dynamics and NOx chemistry in the high-resolution simulations. Develop and refine data-driven methods for emission
-
importance, the precise molecular mechanisms by which Hsp90 recognizes, processes, and releases its client proteins remain elusive due to the complex and dynamic nature of these processes. This doctoral
-
the MicroHH atmospheric model. Analysis of plume dynamics and NOx chemistry in the high-resolution simulations. Develop and refine data-driven methods for emission quantification. Apply your methods to real
-
to function, and this process is tightly regulated by a network of chaperone proteins. At the heart of this network is Hsp90, a molecular chaperone essential for the folding and maturation of at least 20% of
-
life sciences institutes. With 33 groups and 500 employees, we are a dynamic and international research community that has spawned many fundamental discoveries in biology and medicine as well as several
-
life sciences institutes. With 33 groups and 500 employees, we are a dynamic and international research community that has spawned many fundamental discoveries in biology and medicine as well as several
-
Biology group seeks a motivated PhD student with a strong interest in understanding the drivers of cancer spread. We focus on characterising the dynamic behaviour of tumour cells within distinct metastatic
-
Skills: Microfluidics: Strong theoretical and practical understanding of fluid dynamics, fluidic circuit design, and numerical simulation (e.g., COMSOL Multiphysics or ANSYS) and experience in designing
-
the dynamic in vivo environment of bone healing, leading to significant in vitro-in vivo discrepancies (IVIVD). Project background Osteosynthesis systems are designed to stabilize fractured bones in