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The Laboratories for Gut-Immune-Brain Axis Research (GIBA, Prof. Seppe De Schepper) and the Microglia and Inflammation in Neurological Disorders lab (MIND, Prof. Renzo Mancuso) at the VIB–Center for Molecular Neurology are recruiting a postdoctoral researcher to establish next-generation...
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to decipher the regulatory code controlling gene expression in plants through the engineering and large-scale validation of synthetic promoters. Within the ERC-funded multiCODE project, we aim
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biologist to decipher the genomic regulatory code controlling gene expression in plants. Within the ERC-funded multiCODE project, we aim to unravel how plants control gene expression across different tissues
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a crucial role in storing and releasing urine, controlled by complex neural pathways. As the bladder fills, sensory signals arise in its wall and inform the central nervous system about bladder
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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 are seeking creative postdoctoral scientists to study the human-specific mechanisms of gene...
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practices Follow up on audit findings and support compliance Report and help mitigate security incidents Requirements Experience with Linux command line (Debian, AlmaLinux) Interest in automation, scripting
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, Biomedical Sciences, Bioengineering, or related fields. Enthusiasm for fundamental science and attention to detail. Motivation to work with an international team of PhD students, postdocs and technicians
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our hybrid cloud storage offerings and data delivery. Ensure the security, compliance, and scalability of the IT infrastructure. Design custom infrastructure solutions for our scientists. Automate
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, that combines diffusion and transformer models, there are clear indications that the analysis of this data can be automated. This will open new avenues in data interpretation and building predictive models
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resolution in which in vivo pathways of macrophage activation and the cross-talk with the cells representing their niche can be unravelled. This will allow to decode the causal circuits controlling TAM and CAF