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fixed-term basis at the Chair of Animal Physiology and Molecular Biomedicine, Department of Animal Physiology at the Faculty of Biology and Chemistry with the opportunity for own academic qualification
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mechanics (QM / MM) molecular dynamics simulations using a Quantum Centric Supercomputing (QSC) approach [1,2] for the QM problem. This will be integrated within the in-house MiMiC framework [3] and applied
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conditions chemical analysis of plant secondary metabolites using HPLC-MS and GC-MS protein isolation and characterization using LC-MS plant physiological measurements molecular biological investigations (e.g
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conditions chemical analysis of plant secondary metabolites using HPLC-MS and GC-MS protein isolation and characterization using LC-MS plant physiological measurements molecular biological investigations (e.g
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of microbiome research data from the project with data from literature (e.g., molecular pathways) using the knowledge graph Re-analysis of already published data Identification of microbial effectors from
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these materials into high-performance fibers and functional materials. By manipulating molecular interactions through chemical and physical methods, we tailor the structural and mechanical properties of bio-based
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Your Job: Develop AI pipelines that translate -omic signatures into dynamic model parameters Implement reinforcement-learning agents that optimise model performance Collaborate closely with
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and the Leibniz association Training and scientific development opportunities in an international environment and an excellent working atmosphere in a very dynamic and professional team Extensive state
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Signalling explores the molecular dialogue between plants and microbes, with a focus on early root signalling events that enable symbiotic partnerships. Join a dynamic, interdisciplinary team where molecular
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Building. You will join the Research Unit for Molecular Pharmacology, led by Prof. Timo Müller. The group's research is dedicated to the development of innovative pharmacotherapies aimed at safely and