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Altshuler, Douglas |
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The study of how animals fly. |
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Craig V. Byus |
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Molecular mechanisms involved in the regulation of cell growth and proliferation, particularly as this process relates to cancer. |
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Carson, Monica |
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The role of microglia in the healthy and diseased central nervous system. |
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Curras, Margarita C. |
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Glutamate receptors in the mammalian central nervous system: expression, function, and plasticity. |
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Currie, Scott |
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Synaptic and cellular mechanisms of sensory motor processing in the spinal cord. |
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Defea, Kathryn |
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How different G-protein coupled receptors can utilize protein scaffolding complexes to direct the sub cellular localization, and thus the downstream effects, of MAPK activation. |
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Eastmond, David A. |
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Mechanisms involved in the toxicology and carcinogenesis of environmental chemicals; use of molecular cytogenic techniques to detect chromosomal alterations in human populations exposed to chemicals. |
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Ethell, Douglas W. |
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How brain cells die in disorders such as Alzheimer's disease, stroke, diabetic neuropathy, and Multiple Sclerosis. |
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Ethell, Iryna |
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Molecular and cellular mechanisms of synapse development and plasticity. |
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Garland, Ted
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Exercise physiology and metabolism from comparative, evolutionary, and genetic perspectives. |
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Grosovsky, Andrew J. |
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Molecular genetics of human cell response to environmental mutagens and carcinogens; molecular mechanisms of genetic variability. |
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Henry, Helen L. |
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Molecular regulation of vitamin D steroid metabolism, cytochrome P-450, and hormone signal transduction systems. |
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Huffman, Kelly |
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My research is focused on the development and evolution of the mammalian neocortex. In my laboratory, I investigate the mechanisms involved in the development of the neocortex, specifically the establishment of discrete neocortical areas and the ‘wiring’ of the brain. |
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Johnson, David A. |
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The development and the use of quantitative fluorescence spectroscopic methods to understand at a molecular level how drugs and proteins work. |
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Larive, Cindy |
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Research interests are mainly in the area of bioanalytical chemistry with a focus on understanding ligand-protein interactions, tissue-targeted metabonomics and the development and application of hyphenated NMR experiments. |
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Le Roch, Karine |
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Understanding cell cycle and life cycle progression of the malaria parasite, Plasmodium falciparum, throughout ubiquitin regulations.
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Liu, Xuan |
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Mechanisms of eukaryotic transcription regulation, molecular basis of cell growth and cancer. |
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Lo, David
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Study of the basic developmental biology of mucosal immune tissue, CD4
T cell homeostatic regulation, and the role of relB in the regulation
of NF-kappaB activity and cellular differentiation. |
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Lytle, Christian Y. |
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Gastrointestinal fluid and electrolyte transport in health and disease. |
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Maduro, Morris |
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How different cells acquire different fates during development. |
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Martinez, Ernest |
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Characterization of the factors and molecular mechanisms involved in the regulation of gene transcription by RNA polymerase II. |
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Martins-Green, Manuela |
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Molecular and cellular mechanisms of growth regulation in tumor development and wound healing. |
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Parpura, Vladimir |
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Glial-neuron signaling. |
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Pirrung, Michael |
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The long-term goal of his research is to establish paradigms for the development of small molecule ligands for growth factor receptors and in so doing to develop orally active insulin mimetic drugs, based on the lead compound demethylasterriquinone B1 (DAQ B1). |
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Quinton, Paul |
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Abnormalities of fluid transport expressed in the genetic disease, cystic fibrosis. |
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Rodgers, Victor G. J. |
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Biomedical Engineering: Mathematical analysis of the transport phenomena and reaction kinetics of biological systems. |
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Saltzman, Wendy |
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Neuroendocrine causes and consequences of social behavior. |
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Schiller, Neal L. |
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Analysis of the microbial physiology, genetics, immunobiology and pathogenesis of several bacterial agents. |
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Shyy, John |
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To elucidate the molecular mechanisms by which fluid shear stress and mechanical stretch activate gene expression in cells in the cardiovascular system. |
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Stanley, B. Glenn |
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Brain mechanisms regulating eating behavior. |
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Straus, Daniel S. |
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Molecular mechanisms for regulation of mammalian gene expression. |
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Walker, Ameae |
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Growth factor activities of the hormone prolactin. |
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Zanello, Laura |
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Steroid-regulated exocytosis in osteoblasts: Signaling pathways in bone formation. |
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