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, genomics and single-cell molecular analyses, and computational modelling to uncover the principles guiding human embryogenesis. For more information about the laboratory please visit https
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meetings to present and discuss the research outcomes. The HYDROUS project aims to advance green hydrogen production through electrocatalysis by developing novel molecular models to elucidate the fundamental
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of normal and pathological physiology. It consists of a number of scientific and service departments and shared equipment for the research (http://www.fgu.cas.cz/en/ ). The Laboratory of Molecular Physiology
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of the catalytic mechanism of oxygen reduction by cytochromes bd, with the E. Coli cytochrom bd-I protein as a first example. This work will require the use of a large panel of molecular modeling tools, from
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structurally and functionally characterizing macromolecular complexes allowing the initiation of translation initiation of translated model messenger RNAs in Neurodegenerative Disease patients. The approaches
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temporal scales from seconds to hours and beyond. The aim of this PhD project is to build a multi-scale model linking molecular renewal to functional properties of synapses to study the relationship between
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for relevant separations such as CO₂/N₂ or CO₂/H₂. The thermodynamic study may be complemented by adsorption microcalorimetry measurements. Molecular modeling will be used to interpret experimental results
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and to characterize interactions with fire regimes. Ultimately, these results will also contribute to a combined paleo-modeling approach at the core of the RETROPEST project (https://anr.fr/Projet-ANR
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. Molecular Mechanisms Driving and Regulating the AAA+ ATPase VCP/p97, an Important Therapeutic Target for Treating Cancer, Neurological and Infectious Diseases. Biomolecules 2023; 13: 737. https://doi.org