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biology. Working Conditions This position works in a laboratory environment with potential exposure to biological and chemical hazards. The individual must be physically able to wear protective equipment
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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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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
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experience in cell/vascular biology and small animal disease models. Preferred Qualifications Previous experience in flow cytometry, CyTOF, RNA-seq, and/or small animal disease models (preference in models
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therapy. The candidate will have the opportunity to engage in research across a broad range of fields including stem cell biology, immunology, cancer biology, and cell and gene therapy according
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emphasis on the roles of viral and cellular RNA/DNA-binding proteins. To study these processes, we employ cutting-edge next-generation sequencing-based methodologies, tools of conventional molecular biology
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defined mission that accommodates diverse faculty interests and expertise. At present, OHS enjoys faculty expertise in areas including anatomy, biochemistry, molecular biology, microbiology, biostatistics
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-time Postdoctoral fellow(s) in Translational Medicine. The group seeks a highly motivated and independent Postdoctoral Fellow candidate(s) with a strong background in multi-omics molecular biology, and
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expected to work on mouse models with a group of highly motivated young scientists to employ interdisciplinary approaches, such as retinal cell biology, functional genomics, imaging, and biochemistry
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discovery of Orsay virus, the first and to date only virus that naturally infects C. elegans (Felix et al, PLoS Biology 2011). By forward and reverse genetic screening, we have identified multiple genes