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currently exploring a range of exciting topics at the intersection between computational neuroscience and probabilistic machine learning, in particular, to derive mechanistic insights from neural data. We
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. At our Center, researchers study the cellular mechanisms of health and disease in the central nervous system. The De Wit lab (Laboratory of Synapse Biology) at the VIB-KU Leuven Center for Brain & Disease
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diseases. The researcher will integrate macrophage functional profiling with spatial and molecular approaches to uncover disease-relevant mechanisms. The candidate should be highly motivated to lead the
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Postdoctoral position to study species-specific mechanisms of gene regulation in human neurons. The Vanderhaeghen Lab (https://pvdhlab.org ) and the Aerts Lab (www.aertslab.org ) at VIB KULeuven
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FWO-UGent funded bioinformatics postdocs: Unveiling the significance of gene loss in plant evolution
, and Fagales. Research Focus While the two positions will work closely together and share many responsibilities, they have slightly different initial focus areas: Position 1: Computational Genomics and
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Project description The Computational Neurobiology lab studies causal mechanisms underlying normal and aberrant cellular decision-making in the human brain in health and neurodegenerative diseases
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centers of an immune response (Vella et al. Cancer Cell 2023). However, the underlying mechanisms of TLS formation, immune activity, and dependence on the vascular system remain largely unknown. Can you use
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regulation, including mechanisms that depend on intrinsic disorder and dynamics-mediated allostery. One of the topics in the lab focusses on SOG1, a central regulator in DNA damage response. SOG1 is the plant
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single-cell and spatial multi-omics datasets. The primary focus of this role is to delve deeper into the molecular mechanisms driving intra-tumor heterogeneity, plasticity, and therapy resistance