Sort by
Refine Your Search
-
Listed
-
Employer
-
Field
-
. Polymer-stabilized lipid nanodiscs are a recently developed system for extracting membrane proteins from cell membranes and stabilizing them in solution, in the presence of the native lipids
-
plan (e.g., microfluidic channel optimization, polarization-dependent scattering studies, spectral imaging implementation, or algorithm development). Planning experimental campaigns, simulations, and
-
., microfluidic channel optimization, polarization-dependent scattering studies, spectral imaging implementation, or algorithm development). Planning experimental campaigns, simulations, and modeling efforts
-
optimization and functional characterization of small molecules Integrating biophysical, computational, and cell‑based data Independent experimental design, data analysis, and interpretation Active participation
-
NNF-funded Casein Mission consortium, aiming to produce food-grade caseins in microbial cell factories. The biggest challenge in producing caseins in microbes is to ensure that the caseins are decorated
-
post-doc position for you! About us The Department of Space, Earth and Environment brings together expertise in space, geoscience, energy and sustainability. Through curiosity-driven research, education
-
microbial cell factories. The biggest challenge in producing caseins in microbes is to ensure that the caseins are decorated with the correct post-translational modifications (PTMs), such as phosphorylations
-
of polymer-lipid interactions. Polymer-stabilized lipid nanodiscs are a recently developed system for extracting membrane proteins from cell membranes and stabilizing them in solution, in the presence
-
transport system. Our research portfolio is unique and covers all modes of transport and contributes to environmentally friendly process technology and sustainable energy supply. Through collaboration with
-
. There is growing interest in microsystems that can replicate the local physiology of tumors, providing a platform to identify and optimize therapeutic candidates. Our group specializes in developing