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May 2025 Apply now Join our multidisciplinary team to explore the dynamic world of protein lipidation in (neuro)inflammation. We are offering two PhD positions focused on uncovering the regulation and
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thesis on a topic relevant to this project. Proven experience in molecular dynamics simulations of proteins or protein-ligand complexes is an advantage.You possess:- A successfully completed MSc degree in
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Join our multidisciplinary team to explore the dynamic world of protein lipidation in (neuro)inflammation. We are offering two PhD positions focused on uncovering the regulation and biological roles
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that are still largely controlled with insecticides. Alternative, more sustainable methods to combat these pest are desperately needed. Plants harbour diverse and dynamic microbial communities in and around their
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understood. Especially for soluble ligands that are not expressed on cells, it is unknown what receptor: ligand dynamics lead to optimal receptor activation. In this project, funded by the ZonMW Open
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modelling of materials and machine learning. Experience in atomistic modelling (molecular dynamics, density functional theory) and machine learning is important, as well as a strong interest in pursuing
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, your application should include (PDF format): A letter of motivation (max. 1 page) A detailed curriculum vitae. Please include an overview of your experience with molecular dynamics, density-functional
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, transport, motion and catalysis, the goal is to exploit the full potential of synthetic chemistry to create new structures and functions. A major part of the research is directed towards dynamic molecular
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the gap between advanced machine learning and clinical application. Your tasks are: - Exploring molecular dynamics and proteomics methods to enhance variant interpretation, which may also include a role for
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offers an exciting opportunity to investigate the genetic and molecular mechanisms of endocrine cancers using cutting-edge zebrafish models. These cancers are highly heterogeneous, poorly understood, and