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the BONCAT technique for the population-based and individual study of viruses and bacteria, as well as analysis and interpretation of data obtained through confocal microscopy and other fluorescence-based
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host cells critical for sensing bacteria and regulating the host response during homeostasis and disease, including infectious disease. Our long-term goal is to understand the molecular mechanisms
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scientific foundation for investigating viable ancient bacteria recovered from archaeological ceramics to determine the evolutionary trajectories and adaptation mechanisms of the isolated bacteria under
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. Ewelina Małecka is seeking a highly motivated, creative, and independent Postdoctoral Researcher to join our team. You will join the project entitled “Dynamics of RNA degrading complexes in bacteria
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Foundation through its Program for the South Atlantic and Antarctica (PROASA). The research aims to produce and identify rare carotenoids from extremophilic bacteria isolated in Antarctica, using agro
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to develop new cell therapies. We will focus in particular on interactions between tumor cells and non-pathogenic bacteria in order to design a new cancer treatment. In this context, the recruited researcher
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at PhD level, ideally as applied to lactic acid bacteria, is required. Experience of handling data from metagenomics with shotgun sequence data, ideally in combination with RNAseq data and metabolomics, is
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sequencing analysis Clone DNA and propagate in bacteria Culture and transfect mammalian cells Perform Northern and Western blot analyses Perform fluorescence microscopy and luciferase assays, including data
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, particularly their interactions with pathogens (viruses, bacteria, nematodes, parasitoids) and host plants. - main mission: We are urgently seeking a highly motivated and independent Postdoctoral Researcher
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previously described chemosensory system. In another study published in Nature Communications (https://rdcu.be/eI3eG), we discovered that biofilm bacteria can even move towards antibiotics—compounds