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, governed by complex neural circuits. As the bladder fills, sensory signals originating from its wall inform the central nervous system about bladder fullness. Disruption of these signaling pathways can
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cell cycle machinery. This project will combine live-cell imaging, phosphoproteomics, and metabolite profiling to unravel the complexity of phytohormonal regulation at the cellular level. Profile
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, first on whether these indeed drive these aberrant states, and second on whether these indeed drive the growth pattern. You will be embedded both within an experimental and computational team, providing a
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. Extracting this information is still a challenge though, given its intrinsic multidimensional nature (time, perturbation, tissue position, cell state, statistical power). With modern probabilistic modelling
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The Gut-Immune-Brain Axis Lab (Prof. Seppe De Schepper, VIB-UAntwerp) and the Brain and Systems Immunology Lab (Prof. Kiavash Movahedi, VUB) have a vacancy for a full-time (100%) co-joint doctoral
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-specific synaptic developmental timing to early cortical circuit function and plasticity in ASD” This PhD project focuses on understanding how altered synaptic development—particularly due to SYNGAP1
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attract talented international scientist from across the world. A doctoral scholarship for a period of two years. Following a positive evaluation, the scholarship can be renewed for another two-year period
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Are you curious, committed, and ready to shape the future of AI in biology? VIB.AI is looking for PhD candidates to start in autumn/winter 2025/26! We are especially interested in recruiting PhD
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1/9/2025 or 1/10/2025) to prepare for grant application and defense (FWO) and to explore alternative funding opportunities, participation in an exciting and rapidly evolving research area of
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but not required Computational background is a plus Key personal characteristics Motivated & enthused team player who enjoys working in a fun, diverse multicultural team We offer A full-time PhD