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formulation approaches in complex media. Thanks to this interdisciplinary expertise, CBMN is a highly attractive and recognized research hub, both regionally and nationally. More information: https://www.cbmn.u
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-Cyclin B complex. This project examines how the cell cycle mechanism has adapted to regulate meiotic divisions in the specific context of female animal meiosis. It focuses on the role of Cyclin B3
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the development and activity of human beige adipose tissue. We will use a human beige adipose tissue organoid model recently developed by the team from cells derived from the vascular stromal fraction of human
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environment featuring a wide range of research activities, including QM/MM simulations, ionic liquid simulations, and excited-state characterization. The aim of this PhD thesis is the atomistic modeling
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funded by the French National Research Agency (ANR) and involves five partners: the BSC – UMR7242 laboratory, the IGBMC (UMR7104) and TBI (INSA Toulouse) for molecular modeling, as well as the LSMIS
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, transportation, and energy. Our work generally focuses on behavior modeling, instrumentation, and the study of the durability of the structures or products in question. A significant part of our research focuses
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innovative porous solid nanoparticles capable of capturing and degrading model toxic agents of the NRBC type. The properties of these materials ensure (i) shaping efficiency (deposition on the fibre), (ii
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to modern genomic datasets that may involve hundreds of populations. He/she will also develop probabilistic GO models inspired from the Redundancy Analysis approach and extend it by introducing Neural
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and optimize specific functions. The ICMCB carries out fundamental research on model materials and/or materials with potential applications. The ICMCB is a UMR with an average of 280 agents (permanent
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adapt their behaviors when detecting chemotropic molecules. These cues are key to adjust a variety of complex cell behaviors ranging from axon pathfinding, neuronal migration and angiogenesis during