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analysis of corrosion mechanisms. The project will take advantage of state-of-the-art instrumentation at the Institute of Materials Science and Engineering (electron microscopy, X-ray photoelectron
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mitochondria, exploring how these complexes form and achieve substrate specificity through cryo-EM and cryo-ET structural biology, biochemical assays, mass spectrometry, and cellular assays. One position
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transduction (https://sahlab.wustl.edu ). The laboratory uses electrophysiological (e.g., patch-clamp), imaging techniques, genetic mouse models (including CRISPR/cas9 technology), biochemical, and molecular
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systems. We utilize state-of-the-art technical modalities including conditional knockout mouse models, flow cytometry, ELISA, protein and DNA-based molecular biology, biochemistry, cell/tissue culture
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research program in the Department of Environmental, Earth, and Planetary Sciences, led by Dr. Douglas Wiens (https://sites.wustl.edu/wiensseismology/ ), which specializes in large deep earthquakes in
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, biochemistry and molecular virology. Representative publications and more information about our lab can be found at: https://kutluaylab.wustl.edu/ . The Kutluay lab and Washington University provides
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or distribution of material, reagents, or records belonging to their laboratory and any proposed disclosure of findings or techniques privately or in publications. Collegial conduct towards co-trainees, staff
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domains, including molecular biology, microbiology, microbiome, immunology, biochemistry, biophysics, or structural biology (crystallography and cryogenic electron microscopy). Working Conditions This
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Job Description Position Summary We are seeking outstanding candidates for a new postdoctoral research fellowship position in global health and dissemination science. This is a full-time position
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injury models, and molecular biology techniques using proximal tubule cells in vitro to investigate tubular responses to injury. Experience with these techniques is not required, but highly motivated