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the effects of microplastics (MPs) on early development and thyroid physiology in a model aquatic vertebrate, the amphibian Xenopus laevis. The main missions will be: To conduct and analyze exposure experiments
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, using microcosm approaches involving natural cloud water and the use of methods such as stable isotope enrichment. The person recruited will join the BioAdapt team at the LMGE (Laboratoire Microorganismes
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outlined below, contributing to the design and execution of experiments aimed at identifying the behavioural and physiological mechanisms that facilitate nematode adaptation to arsenic-rich environments
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"Physiology of Neural Networks" team and will be in charge of a research project aimed at understanding the mechanisms of integration of cerebellar information in pyramidal cells and interneurons of the motor
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during development, in compositions and dosages pertinent to environmental contamination, results in neuro- and cardio-vascular defects. The person recruited will use zebrafish as a model for studying
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regulation during heat stress. The candidate will use AI structure prediction tools to examine HSF and DNA/nucleosome interactions, express and purify recombinant HSFs and structurally characterize HSF-DNA
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destruction and promising for future medical applications, enriching knowledge about hydro-chemical-mechanical couplings in WJ appears to be crucial for medical innovation. Where to apply Website https