-
-dimensional cell cultures are important to enable realistic cell environments for disease modeling and to analyze cell interactions. This position will address the question of how one can develop minimally
-
detection, diagnosis, and intervention for Autism Spectrum Disorders (ASD) and other conditions impacting social development. Supported by multiple funding bodies (e.g., DFG, BMBF, Rett Syndrome Foundation
-
The landscape of mRNA 5′ cap modifications is more diverse and dynamic than previously appreciated. This project aims to develop and apply a novel chemo-enzymatic method to label and extend the 5′ cap, enabling
-
to develop an autonomous platform for organoid culturing and analysis to address key challenges in organoid-based experiments. This interdisciplinary project will leverage robotic systems for high-throughput
-
data to uncover novel biological insights. In this unique position, you will play a key role in developing innovative workflows for spatial omics data integration. Working closely with wet lab scientists
-
. Central to its objectives is the development of methods for culturing tailor-made organoids, assembloids and co-organoids for inter-organ communication towards AI-supported large-scale / high-throughput
-
. Central to its objectives is the development of methods for culturing tailor-made organoids, assembloids and co-organoids for inter-organ communication towards AI-supported large-scale / high-throughput
-
, DNA and RNA sequencing, proteomics, single-cell, and spatial transcriptomics data. Develop and implement a scalable multi-omics analysis blueprint, combining existing tools with the development
-
. Desired start is 01 July 2025. With this position the Geographical Institute enables a young researcher to explore, develop and concentrate on an own, individually chosen project on the wide field