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scholars specializing in dynamical systems modeling of neuronal networks for work on a BRAIN Initiative-funded R01 in collaboration with Gordon Smith at the University of Minnesota and Audrey Sederberg
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-cell and omics approaches, our methods allow for in-depth exploration of intracellular signaling networks and physical interaction networks in health and diseases. Using these methods, we aim
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-foundation-launches-collaboration-on-ecological-neuroscience/ ). Collaborative Network You will engage with a global team of scientists, including but not limited to: • Jan Zimmermann (University of Minnesota
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to the role of transcription factor mediated networks to direct the fate of stem and iPS cells to a mesodermal fate (i.e. cardiac, endothelial, skeletal muscle); and conducting research in the areas
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experiments independently from start to finish, trouble shoots, and optimizes methods. Analyzes, interprets, and presents complex experimental results. Performs statistical analyses. Understands models
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complex decision-making, and specifically in governing the balance between flexible and rigid decision styles. Tools to be employed (and on which we can train you) include: •Novel high density probes
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study macromolecules and macromolecular complexes involved in membrane transport, homeostasis, and biogenesis, with a particular focus on pinpointing lipid/protein interactions in context of membrane
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collection and in communicating with individuals and groups in a computer networked environment. About the Department The Department of Dermatology is committed to providing excellent patient care, conducting
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rust resistance gene network of wheat. Note: These are not positions to which permanent residency can be granted for international appointees. Job Duties: Bioinformatic analysis of plant and pathogen
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the Crane Lab are access to state-of-the-art research facilities and equipment, and networking with established collaborators across UMN colleges and departments (including Dr. Branden Moriarity, Dr. Beau