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solutions for integrating multiple biological modalities and to establish a link between the phenotype observed under the microscope and various molecular measurements of the cell. The methods will be
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molecular imaging research program. This platform will support translational studies mainly in oncology, through quantitative multimodal imaging (PET-CT, SPECT-CT, optical imaging, autoradiography
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through molecular modeling, to the synthesis of new organic molecules (heterocyclic compounds, sugar derivatives, and nucleoside analogues), to extraction from natural sources (plants) using advanced
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quantitative and machine learning approaches ● Developing predictive models linking nuclear features to future cell fate ● Interacting with collaborators in imaging, computational biology, and developmental
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? Not funded by a EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description Molecular motors are key elements in the transport of molecules within cells
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therapeutic strategies. - DNA-protéines complexes modeling - Molecular dynamics simulations of biomolecules - Enhanced sampling techniques (Steered MD, Gaussian Accelerated MD) - HPC resources use - Scientific
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of reactions between the metal-bearing hydrothermal fluid and organic carbon. The task will implement an innovative methodology integrating in-situ spectroscopy and physicochemical modeling. Through
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. Major advances have been made in diverse application areas: adsorbents, graphene biocarbons, co-crystals, cooperative multifunctional catalysts, bio-based catalysts, and bioaerogels. Molecular modeling
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retinal degeneration in the context of ciliopathies, with a particular focus on Alström syndrome, using both in vivo models (particularly murine models) and in vitro systems (fibroblasts, iPSCs, retinal
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, the postdoctoral researcher will be responsible for contributing to the development of advanced methodologies for predicting crystal structures (CSP) based solely on their chemical composition and atomistic modeling