Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Field
-
work with microbes, in vitro cell cultures, and human biofluids such as serum. We have a strong focus on mass spectrometry-based proteomics, which we routinely integrate with genomics data and phenotypic
-
in the host cellular defense against the obligate intracellular bacterial pathogen Chlamydia trachomatis. The employment is full-time for two years with access on 1 May, 2026 or by agreement. Last day
-
The Project Investigating how viruses use the different cellular machineries and processes of their hosts during replication, assembly and spread offers a unique opportunity to obtain mechanistic insights
-
on conduction system diseases. To identify these pathways, the postdoc will analyze and integrate data from mouse models for different diseases, human tissue, human iPSC-derived pacemaker-like cells and cutting
-
at the Department of Energy Sciences. At the division, we conduct research and education on the energy generation, conversion, and utilization in different electro- and thermo-mechanical systems where the study of
-
imaging data as well as new paradigms for characterizing mouse social and vocal behaviors. The role of the Postdoctoral fellow She/he will analyze genetic data from different groups of individuals with
-
of human diseases (e.g., Zhang et al., Nature Microbiology, 2025; Li et al., Nature Metabolism, 2024; Ni et al., Cell Metabolism, 2023; Leung et al., Science Translational Medicine, 2022; Seelbinder et al
-
us and contribute to science that makes a difference! As a Postdoc in the Taschner-Mandl Group, you will lead innovative research projects investigating the molecular mechanisms of neuroblastoma
-
the role of autologous fat and muscle cells in breast reconstruction with autologous tissue transfer. The position involves working in parallel with several different cell types, which requires the ability
-
transcriptional and epigenetic mechanisms regulate cellular identity during development and how their dysregulation contributes to disease. We focus on how chromatin organization, transcriptional elongation, and