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and disease. You apply advanced systems biology approaches, including network modelling and pathway-based analyses, to understand how dietary and environmental exposures affect molecular processes. You
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-on-a-chip and neuromesodermal organoid models. Characterize the neurophysiological aberrations induced by DMPK repeat expansions by morphological and molecular characterization of the NMJ and
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Circuits Project description: Neuronal synapses are remarkably heterogeneous and dynamic structures that vary widely in molecular composition, nanostructure, and signaling strength. This rich variety
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-specific developmental timing and synchronization shape the formation of the human thalamocortical system. The project combines endogenous prenatal tissue, advanced human stem cell models, organoid and
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these degradation pathways. Join our team! Decoding Light-Induced Degradation through Molecular Networking and Data Science Many organic compounds change under the influence of (UV) light. This is beneficial in water
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to the development and characterization of advanced human stem cell-derived models, including organoids and Forebrain Chimeroids, as well as the analysis of endogenous prenatal human tissue. In parallel, you will
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carried out at the section Molecular and Cellular Neurobiology (MCN) . Recent studies have shown that in addition to neurons, glial cells play a major role in synaptic function. So far, it is unclear what
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and data platform for battery recycling, digital product passports and applying circular strategies in chemistry. You will work in the Slootweg Group at the Van ’t Hoff Institute for Molecular Sciences
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detailed insights in their regeneration processes are limited. In this project, you will use tomato as a main model species, supplemented with work in Arabidopsis thaliana. You will use molecular techniques
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innovations in healthcare. Here, you become part of an international, collaborative, and forward-thinking academic community. 2 PhD Positions in Next-Generation In Vitro Models of Musculoskeletal Tissues