Sort by
Refine Your Search
-
Description Human brain aging is one of the main risk factors for the development of neurodegenerative disorders, therefore, understanding the molecular mechanisms behind healthy brain aging is extremely
-
for transcriptional profiling of single microorganisms at ultra-high-throughput. We will apply it to investigate the biological mechanisms that drive infection, pathogenesis, and antibiotic resistance. This project
-
collaborate closely with researchers across neuroscience, psychology, biomedical engineering, and clinical disciplines and will be involved in human lab experiments. Specific aims will be shaped jointly with
-
vitro models for mechanical loading of muscle cells, particularly using the FlexCell system. Omics techniques, including sample preparation for proteomics as well as data analysis and interpretation
-
actively influence cancer development by signaling to tumor cells and promoting tumor growth. A central mechanism involves neuron-to-glioma synapses, which transmit neuronal activity to glioblastoma cells
-
clinical data in relation to relevant outcomes after COVID-19 infection to identify predictors of specific PCC subphenotypes and potential pathophysiological mechanisms. Since the project is translational
-
foreign qualification equivalent to a doctorate in computer science, mathematics, or engineering physics. Requirements: Comprehensive knowledge and practical skills in the field of data science, especially