330 development "https:" "https:" "https:" "European Commission" Postdoctoral positions at Nature Careers
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Company description The Roeffaers Lab at KU Leuven develops cutting-edge microscopy techniques to address key challenges in environmental science, catalysis, and biomedical research. Our team
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to elucidate the genetic, molecular, and cellular mechanisms governing the formation and function of the testis, production and function of sperm, fertilisation, as well as early embryonic development
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. What we work on: CRISPR screening at scale: We co-developed the Perturb-seq approach for conducting single-cell CRISPR screens. We’ve since scaled this technology to target every gene in the genome and
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on an undervalued receptor family: plexins. These receptors are involved in neuronal development, but also in shaping the cardiovascular, muskolskeletal systems and kidney. Further, plexins regulate immune responses
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these therapeutics to the right organ with the right dose. Our research performance involves developing novel and innovative drug delivery technologies that can carry proteins, RNAs, or gene editors to the target
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families. Specifically, we offer: Access to state-of-the-art facilities and computing infrastructure; Strong support for research career development, including mentoring and international networking
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research, the FSTM seeks to generate and disseminate knowledge and train new generations of responsible citizens in order to better understand, explain and advance society and environment we live in. Your
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Neuroscience: The Endometriosis Brain pilot study). The DiPP project will develop and employ an innovative, large-scale, patient-guided approach where women themselves shape the research from start to finish
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problems in human health, CIMR has adopted a cutting-edge, multidisciplinary approach, bringing together scientists, doctors, entrepreneurs, and investors throughout the scoping and development
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You will establish and develop functional screening pipelines to identify novel repressive chromatin factors, using genome-wide integrated transcriptional reporters as a quantitative readout of