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years. Core competencies: ● Solid experience with molecular dynamics (MD) simulations and classical force fields (e.g., LAMMPS, GROMACS). ● Familiarity with polymer and ionic systems, surface interactions
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plasmodesmata (Bordeaux, Bayer) and in protein/membrane interaction by molecular dynamic simulation (Taly, Paris). To gain mechanistic insights into MCTP action and ER tubularization at PD, the post-doc will use
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at the interface between two teams with expertise in plant cell biology and plasmodesmata (Bordeaux, Bayer) and in protein/membrane interaction by molecular dynamic simulation (Taly, Paris). To gain mechanistic
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(obtained within 6 months prior to recruitment) in biochemistry, molecular biology, or a related discipline. -Demonstrated experience in cloning and recombinant protein production and purification
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Programme? Not funded by a EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description The EPAD project – Electron-Positron Attosecond Dynamics in Exotic Systems
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contribute to various aspects of the project, such as: - developing new theoretical approaches to model electrode/electrolyte interfaces - performing molecular simulations, such as molecular dynamics
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molecular dynamics simulations with LAMMPS, and data curation. Scientific context: Our current understanding of polymer viscoelasticity is founded on single-chain models [2]. Such models draw on the fact
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fabricaed by molecular beam epitaxy - the design and clean-room fabrication of surface acoustic wave devices - the characterization of the structural and magnetic properties of the thin films (by XRD, VSM
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to track and quantify the fate of rhizodeposited carbon. o Among the processes that contribute to rhizodeposition, a significant quantity of low molecular weight organic acids is injected
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The research will be conducted at the Molecular Microbiology and Structural Biochemistry Unit (MMSB) at the Lyon Gerland Biosciences Campus. MMSB is a multidisciplinary joint research unit (UMR) managed by