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at variable temperature and pressure to identify and characterize the structure and dynamics of rare functional states of the human chaperone HSP90. The position is funded by the French Atomic Energy and
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. However, medical doctors still analyze the collected physiological data in a univariate approach as historically developed. Currently, in the research community, the human body is considered as a dynamic
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simultaneously. Among these nanoparticles are iron oxide magnetic nanoflowers whose structure-property-function relationship is investigated in PHENIX lab showing exciting functions in heat generation (magnetic
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established itself as a reference center for ultra-high field magnetic resonance imaging of the human and animal brain. NeuroSpin hosts sophisticated instruments, some of which are unique in the world
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of the human and animal brain. NeuroSpin hosts sophisticated instruments, some of which are unique in the world, including an 17.2 Tesla preclinical MRI and an 11.7 Tesla MRI for humans. A new
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systems, which mimic human brain functionality, utilize components such as memristors to emulate synapses. These systems represent a promising avenue to reduce the energy footprint of AI technologies
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construction of "consensus" receptors that summarize all the properties of human olfactory receptors, allowing us to publish the first structure of an olfactory receptor this year. The project will focus
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that associate with the development of MASH in animal models and human cohorts. The fellow’s task is to determine how factors like hyperglycemia, insulin resistance, and altered lipid metabolism impact the hepatic
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enable us to understand the relationship between the composition (presence of solvent, pH, salinity) and structure of nano-objects. More generally, this new approach will enable us to study dynamically
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differentiation into bronchial epithelium, Partner D2 (Gladys Massiera) is biophysicists experts in mucus rheology, cilia beating and microfluidics, and Partner D3 (Delphine Muriaux) is virologist expert in human