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-world impact in natural sciences and engineering-related disciplines. Our program intends to support research that is driven by the fellow and enables them to pursue their own creative ideas in
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Medical School. The research team focuses on the application of cutting-edge technologies in tissue engineering, microfluidics, and bioengineering to develop advanced in vitro models for studying urogenital
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, and animal models preferred. The lab leverages genetically engineered mouse models, patient-derived xenografts, human and mouse tumor and primary cell lines as well as induced pluripotent stem cells as
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gain new insights into biological concepts and disease targets. We will combine advanced cellular and molecular techniques in immunology and neurobiology with genetic-engineering tools, quantitative
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molecular biology and immunology techniques along with multi-omics approaches, including sc-RNA-seq, bulk RNAseq, epigenomics, metabolomics, proteomics, CRISPR screens and genetically engineered mouse models
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assays for functional screens to dissect GPCR signaling Using fluorescence and FRET/BRET-based reporters of GPCR signaling and ligand binding Engineering mammalian cell lines and molecular cloning Cell and
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of the newly created Center for Inflammation Science and Systems Medicine (CISSM) at The Herbert Wertheim UF Scripps Institute for Biomedical Innovation & Technology. Our dynamic team is dedicated
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positions based on performance and funding. Qualifications: A Ph.D. (or equivalent) in electrical engineering, biomedical engineering, computer science, medical physics, or a related field is required
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, Physics, Engineering, or a related field • Prior experience in modeling viral infections, bacterial infections, and/or immune response dynamics • Experience with parameter estimation techniques and data
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cancer and their survival, development of improved technology to identity extracellular platelet phosphatase in the tumor microenvironment and large-scale analysis and validation of platelet phosphatase in