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plant-derived bioactive compounds. The project integrates analytical chemistry, natural products isolation, and cell-based bioassays to identify and characterize compounds that inhibit breast cancer cell
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of combat related orthopaedic trauma. In particular, contemporary cell / molecular biology in vitro approaches as well as clinically relevant small and large animal models of orthopaedic trauma are utilized
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of scientists and researchers in an effort to research transcription factor-based sensors for waterborne toxins of interest. High-throughput cell-based and cell-free screening approaches, along with
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assays may include ex vivo, in vitro, and in situ techniques, such as histology tissue processing, nucleic acid isolations, flow cytometry antibody staining, qPCR, ELISA, bulk RNA sequencing, single-cell