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biology, animal modeling, genomics and bioinformatics. Any subset of these skills are ideal as there are multiple different projects that can fit the candidates prior research experience and interest
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, to define novel biomarkers, and to identify novel therapeutical targets. We have pioneered in the integration of genetics with omic data to identify proteomic signatures and develop novel predictive models
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. Individuals who join this lab will gain skills in advanced microscopy, cutting-edge genomics techniques, genome editing, patient-derived cancer models, and transgenic mouse development in a highly collaborative
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and hamster models. The projects in the lab include assessing the role of T and B cell immunity on virus infection and transmission, evaluating innovative virus vaccines, as well as developing assays
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(passive and active devices) design and fabrication. Experience with on-chip laser development. Experience with ophthalmic OCT imaging in human and animal models. Experience with FPGA, embedded systems, and
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://postdoc.wustl.edu/prospective-postdocs-2/ . The candidate will receive training for conducting synthesis of PET imaging probes, preclinical validation in rodent models, and translation of lead probes for
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, collaborative, and growing laboratory, and will work directly with Dr. Ganesh Babulal to develop new models to examine and visualize changes in driving behavior. The postdoctoral researcher will have the
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combines human samples, mouse models, and in vitro culture system, and leverages single-cell technology, bioinformatic analysis, and mechanistic interrogations to revolutionize our understanding of gut
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milieu of host cells (T cell subsets, etc.) responsible for responding to this organism, both in acute and adaptive models of infection. Additionally, we are dissecting mechanisms of infection, including