-
project: Type 3 Dendritic cell immunology and functionality in the skin In our previous work we have developed a number of tools to study skin dendritic cells on a single cell level. This includes single
-
independent mode of genetic reprogramming shaping cancer’s cell fate. We thus foresee that the epitranscriptome will prove to be a fundamental layer of gene regulation amenable to the clinics as a valuable tool
-
tools that were previously developed in our lab to map R-loops and associated proteins with proximity-based proteomics and high-content microscopy. If you are interested in this project, please select
-
structurally resolved modes of binding to train the next generation of artificial intelligence (AI)-based structure prediction tools. PhD Project: AI-assisted protein-protein interaction interface clustering and
-
now allow us to study physically interacting cells to define a temporal interactome. In this PhD project, developing these tools in in vitro explants, in vivo models and patient samples of type 2 immune