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, and production data in real farm environments. Work with economists and advisors to structure cost–benefit analyses of enrichment strategies. Structure and analyse large behavioural and physiological
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Laue-Langevin (ILL), France, the International Institute of Molecular Mechanisms and Machines, (IMOL), Poland, and the Leicester Institute of Structural and Chemical Biology, United Kingdom. Your work
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and across species. - Implementing ATAC‑STARR‑seq to validate enhancer activity; mapping enhancer–promoter links via loop/TAD structures. - Perform comparative analyses versus Populus tremula; apply
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, quality of life, and costs. Specifically, you will work on structuring and implementing analyses using data from registry-based studies and cohort studies, as well as reporting the results, for example in
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Institute of Molecular Mechanisms and Machines, (IMOL), Poland, and the Leicester Institute of Structural and Chemical Biology, United Kingdom. Your work may include clinical and biomedical projects. It may
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postdoc with a strong background in mathematics/control combined with ability to collaborate with cancer researchers and immunotherapy specialists. The second project, Structure, Dynamics and Control
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barrier; it is a sensory interface with the world. Yet many of the structures that allow vertebrates to detect mechanical stimuli remain poorly understood, especially outside mammalian models. Our recent
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designing and conducting an observational animal‑health study, with structured health checks performed together with veterinarians to link rumen‑fill dynamics to feed intake and early signs of disease. Based
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. Motivating examples include the spatio-temporal dynamics of sweat droplets, interacting cellular or tissue shapes, and geometric structures arising in vegetation such as tree canopies. The work combines
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any of: molecular simulation methods (integrators, force fields, enhanced sampling), structural biology, biophysics, or chemistry. Teaching experience is meritorious but not required * The date shown in