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applying bioinformatics tools capable of predicting protein aggregation and co-aggregation, followed by large-scale scanning of microbial proteomes against the human proteome. The objective
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of studying and quantifying the effect of microbial interactions on the phenotype and fitness of Saccharomyces in a controlled environment. More specifically, the researcher will be responsible for quantifying
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: Génome et Environnement, UMR6023 CNRS UCA, Clermont-ferrand, France), a microbiology/microbial ecology laboratory, and will work closely with partner LaMP (Laboratoire de Météorologie Physique, UMR6016
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microbial genomes suggests a connection between them and has led to the hypothesis that metals may co-select for ARGs. This hypothesis is difficult to confirm because current ecosystems are contaminated with
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from cells, and their structures will be determined by cryo-electron microscopy (cryo-EM) in Dr. Innis's team. The candidate will conduct research within G. Boël's team in the unit “Microbial Gene
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Biotechnology (IM2B) at AMU. BIP conducts research in the field of microbial bioenergetics, from the molecular to the cellular level. The researcher's work will be part of a collaborative project locally led by