Sort by
Refine Your Search
-
Listed
-
Category
-
Employer
-
Field
-
processes and overexpressed in multiple cancer cells and tumours. Therefore, understanding the structure and dynamics of the RNA unwinding process and the role of DHX9’s auxiliary domains in this process is
-
for a highly motivated and dynamic fellow wishing to complete his/her doctoral training in an internationally renowned research team and institute. The candidate must appreciate teamwork, have good
-
wide range of scientific skills, with each supervisor covering a specific area of expertise (DFT and Thermodynamics, Kinetics, Molecular Dynamics and ML potentials). The candiadte will contribute to a
-
biochemistry. We are seeking a motivated and dynamic PhD candidate with a solid background in molecular and cell biology, and a strong interest in developmental biology. The candidate should be well organized
-
one species. Secondly, they will explore the evolution of this molecular complex (or single nuclease) across nematode species to understand its origin. In parallel, they will analyse the dynamics
-
and Physical chemistry (ED182) of the Université de Strasbourg. He or she will work in the BIODYN team (“Biophysics and Dynamics of Organic Nanostructures”: a research team led by J. Léonard and S
-
interdisciplinary, and together we contribute to science and society. Your role You will join the recently established Chemical and Molecular Neurobiology group led by Associate Prof. Ivana Nikić-Spiegel at the LCSB
-
, molecular and cell biology, or related fields. Strong interest in interdisciplinary research at the interface of computation, biophysics, and cell biology. Prior experience in at least one of the following
-
). Both teams have the expertise and know-how necessary to carry out the project. State-of-the-art equipment for biochemistry, molecular biology, and microscopy, as well as animal facilities, are available
-
, located within the Institute of Molecular and Cellular Biology (IBMC), studies the mechanisms of virus replication and assembly using advanced RNA biology techniques. Dr. Smyth's team focuses