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in vitro functional assays to characterize the effects of metabolic modifications on osteoclast differentiation and functions, particularly their immune function. - To actively collaborate with all
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will be taken into account To have at least 1 publication as main author (either accepted or published) as a result of their doctoral work in an international Must comply with the following MSCA mobility
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measurement platform capable of quantifying more than one hundred cytokines in biofluids, providing a cost-effective, robust and scalable alternative to current cytokine assays with clear translational
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matter gravity simulators, enabling the identification of exotic properties of relativistic materials. Use of various theoretical methods to study the effects of field theory properties in curved spacetime
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models to guide safer and more effective, individualized steroid use. As such, the candidate will be responsible for data harmonization, multi-omics integration as well as the development of machine
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origins. The candidate will be expected to conduct in vivo experiments in mice, from tumor implantation to ex vivo tumor analysis (IHC, WB), to study the biological effect of modified peptides on cell
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theoretical models and numerical tools (master equations, quantum trajectory simulations) to investigate coupling regimes, dynamical phase transitions, and the effects of collective dissipation on coherence and
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research work, which may include data collection and analysis, writing original manuscripts, or a combination of these different elements. The contract is expected to result in scientific communications and
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project at the interface between fundamental and clinical neuroscience. The ability to work independently while interacting effectively with clinicians, engineers and doctoral students in a
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involved in the effects of SEZ6 in heroin intake. This project combines behavioral (heroin self-administration in rats), molecular (SEZ6 modulation via AAV and shRNA), and morphological (dendritic spine