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lab is dedicated to understanding the mechanical operating principles of the actin cytoskeleton in cellular membrane bending and trafficking. We utilize a blend of biophysical modeling, genome-editing
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of Engineering with many fascinating projects that focus on applying advanced nonlinear theoretical, computational and experimental techniques to solve practical real-world problems in engineering and biomedicine
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of highly specialized mass spectrometry assays to support immuno-oncology and cancer biology research initiatives, collaborating closely with a multidisciplinary team of computational biologists
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remotely-sensed data into models and decision support frameworks. Explore visualization and communication mechanisms that enhance utility of information for a diverse stakeholder group including producers
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studies.) Applicants are also welcome to propose other connections between their research program and atrocity prevention under this broad conception. Applicants must have their terminal degree conferred by
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for the mechanism of maintaining robust and functional CD8 T cell response during latent toxoplasmosis. MITM conducts innovative, fundamental, basic and translational research for HIV/AIDS and neglected tropical
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conjunction with the Basic Science and Engineering (BASE) Initiative of the Children's Heart Center at Stanford University and the Department of Genetics to work on understanding mechanisms of pulmonary
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pathological mechanisms of myasthenia gravis using innovative rodent models and cutting-edge technologies, and developing antigen-specific immunosuppressive therapies for the disease. The research is highly
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work on include: Design and synthesize novel inorganic electrode/electrolyte materials, and search into the fundamental reaction mechanisms and kinetics involved. Investigate thermodynamics-electrode
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University of North Carolina at Chapel Hill | Chapel Hill, North Carolina | United States | 1 day ago
of auditory information processing, and 2) Gene Therapy approaches to treat neurological disorders. Regarding our auditory focus, we seek to understand how the molecular machinery in auditory brainstem synapses