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elucidation of membrane protein complexes and integrates fundamental cell biology and structural biology by cryo- electron microscopy. The lab has a strong track record in investigating scramblases and their
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remains unclear. This project will explore how food allergy during early life alters the gut microbiota, reprograms immune cells, and promotes their trafficking to the brain, ultimately triggering
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neurodevelopmental conditions, by bridging disciplines, from artificial intelligence, microelectronics, neuroengineering and nanoscience, to single-cell, imaging and molecular analysis, functional genomics and cell
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data. We have developed in vivo single-cell CRISPR technologies to screen for dozens of molecular factors in vivo during developmental and disease. These technologies are a game-changer in the speed
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genetics, cell biology, genomics, and bio-computing to unravel plant biological processes and to further translate this knowledge into value for society. Please visit us at www.psb.ugent.be for more
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mimicked with in vivo models of metastasis, which provides unique opportunities to mechanistically dissect what drives the different cell states. You will link clinically relevant phenotypes to putative
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Health Sciences, UAntwerp; and Department of Neurology, UZA) are hiring a full-time PhD to map how peripheral and circulating immune cells reflect early Parkinson’s disease (PD) biology. The project
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controls to perform expression and splicing transcriptome-wide association studies (TWAS). Combined, these studies will 1) identify key dysregulated pathways in AD and FTD subgroups within specific cell
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remains unclear. This project explores how food allergy during early life alters the gut microbiota, reprograms immune cells, and promotes their trafficking to the brain, ultimately triggering
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macrophages and infiltrating immune cells along the periphery–immune–brain axis. About us The research team of Prof. Seppe De Schepper investigates how peripheral immune signals influence brain health and