Sort by
Refine Your Search
-
on the infection strategies of archaeal viruses and study the molecular mechanisms underlying essential steps of the viral infection cycle, such as attachment, entry and release of the host cell. Since
-
particles have many unique shapes not encountered for bacterial and eukaryotic viruses. We focus on the infection strategies of archaeal viruses and study the molecular mechanisms underlying essential steps
-
We are looking for a talented and enthusiastic candidate for a fully funded 4-year PhD position. The PhD candidate for this project will be working at the RNA Structural Ensemble Dynamics group led
-
investigating the theoretical foundation of their properties. The research in the Roos lab ranges from molecular to systems size levels. In particular, we study the structure and dynamics of supramolecular
-
of their properties. The research in the Roos lab ranges from molecular to systems size levels. In particular, we study the structure and dynamics of supramolecular assemblies of both natural as synthetic origin
-
, with an emphasis on molecular switches and motors, dynamic molecular systems, responsive materials, photopharmacology and biohybrid systems. The group also develops novel stereoselective synthesis
-
://romeijn.web.rug.nl/paper/2023_romeijn_-_VICI_project_description.pdf ), where you can find a detailed list of planned PhD and postdoc positions. Candidates can freely choose their research topic within the domain
-
the activities. The University of Groningen has an international reputation as a dynamic and innovative center of higher education offering high-quality teaching and research. Balanced study and career paths in a
-
modelling of materials and machine learning. Experience in atomistic modelling (molecular dynamics, density functional theory) and machine learning is important, as well as a strong interest in pursuing
-
laboratories and Institute are well equipped in methods for nanomedicine preparation and characterization, cell culture and methods in molecular and cell biology to characterize, and quantify nanomedicine