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initiative investigating how human-specific features of brain development shape early behavior and neural circuit function in autism spectrum disorders (ASD). This position is a joint effort between the
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more than 6000 employees from 100 different countries, we are helping to build tomorrow's world every day. Through top scientific research, we push back boundaries and set a course for the future – a future
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adults, significantly impacting quality of life, and remain challenging to treat. Our research group has pioneered innovative methods to study voiding behavior in mice and developed live imaging techniques
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live-cell imaging, we can now explore hormone regulation at unprecedented single-cell resolution. Using these tools, we have observed dynamic fluctuations in brassinosteroid signalling throughout
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for Microbiology and VIB.AI, creating a unique interdisciplinary environment for this research project. About the project This position offers the opportunity to lead a cutting-edge project at the intersection
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, Natural Sciences or related disciplines be very motivated and enthusiastic to learn and expand both computational and experimental skill set have an analytical mindset be able to summarize data extracted
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-brain axis, and identify immune-mediated drivers of brain dysfunction. Position The Computational Neurobiology group (Dr. Valeriya Malysheva), Gut-Immune-Brain Axis Lab (Dr. Seppe De Schepper
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Programming experience in Python Excellent communication skills and fluency in English Collaborative personality with attention for detail Experience in imaging or spatial omics data analysis Background in
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information about the open positions. Doing a PhD at VIB & VIB.AI VIB & VIB.AI offers a unique PhD experience with access to state-of-the-art facilities, expertise, and training. PhD students will have the
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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