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in 1.Understanding prostate cancer progression using our novel human epithelial cell transformation system. 2.Investigating the pathogenesis of prostate and other epithelial cancers using primary human
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circuits that regulate motivational and emotional states. The lab uses many state-of-the-art techniques, including deep-brain calcium imaging (2-photon in vivo microscopy) with single-cell resolution and
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organoids, CRISPR-Cas9 gene editing, single-cell RNA/ATAC-seq, and spatial transcriptomics. A PhD, MD, MD/PhD, or equivalent degree in biomedical sciences-related fields and a track record of publications in
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conduct applied research and development in the area of microphysiological systems, tissue engineering, and stem cell biology. The majority of the candidate’s focus will be on developing and using stem
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-throughput genomic screening approaches, primary cell culture systems, and animal models of influenza disease. For more information visit https://mgm.duke.edu/faculty-and-research/primary-faculty/nicholas