307 structures-"https:"-"https:"-"https:"-"https:"-"https:"-"https:"-"CEA-Saclay" positions at Nature Careers
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, biochemistry, and cell culture skills to perform research that translates novel insights regarding kinase structure and regulation in vitro into functional effects in cells. Additionally, the candidate will
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. Depending on the expertise of the applicant, we will evaluate individual structures for the integration in the IDM. Your tasks Statistical analysis of clinical data Development of analysis pipelines
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Research Associate to investigate how biomolecular phase transitions guide higher-order genome structure and influence disease. We combine biochemistry, genomics, cellular engineering, and advanced
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of Physiological Chemistry and Pathobiochemistry. Research in the institute is focused on the structure and function of the extracellular matrix and integrin receptors, and how cell-matrix interactions affect
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molecular mechanisms of autophagy initiation and membrane dynamics by combining in vitro reconstitution, structure-function studies, biochemistry and cell biological approaches. We are seeking a highly
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aggregation assays is a plus Well-structured and autonomous working style, good organisational and communication skills Team player Early-stage researcher: a researcher without a PhD who has graduated in
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, or other characteristics protected by law. Pay Transparency Statement The hiring range is based on market pay structures, with individual salaries determined by factors such as business needs, market
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Transparency Statement The hiring range is based on market pay structures, with individual salaries determined by factors such as business needs, market conditions, internal equity, and based on the candidate’s
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, or other characteristics protected by law. Pay Transparency Statement The hiring range is based on market pay structures, with individual salaries determined by factors such as business needs, market
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that currently lack effective treatments, such as Parkinsons Disease. By combining machine learning with quantum chemistry and structure based approaches, the project will accelerate the translation