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Faculty Research Specializations |
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Faculty Research Specializations Current Students'
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Edward M. Bonder |
Biology. Nonmuscle cell motility; molecular motors, developmental axis |
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Benjamin Martin Bly |
Psychology. Language; functional brain organization; fMRI |
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Gyorgy Buzsaki |
Neuroscience. Mechanisms of memory and epilepsy in the brain. |
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Ann Cali |
Biology. Parasitologist specializing in the Microsporidia -a group of spore-forming intracellular parasitic Protista, infecting human and animals. Discovery of new organisms in man, their developmental biology, ultrastructure, pathology and epidemiology. |
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Mei-Fang Cheng |
Psychology. New neurons in the functional recovery of the hypothalamus after lesion sustained in the adulthood. |
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Alan Gilchrist |
Psychology. How the human visual system computes perceived shades of black, gray or white from the pattern of relative intensities of light in the retinal image. |
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Mark Gluck |
Neuroscience. Mechanisms of learning and memory in the brain, including the development of neural-network theories, neuropsychological studies of human patients with memory disorders, and psychobiological studies of Pavlovian conditioning in normal and brain-damaged animals. |
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Jorge Golowasch |
Biology. Mechanisms of long-term homeostatic changes of neuronal molecules in response to removal of input from the central nervous system. |
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Kent Harber |
Psychology. Interracial feedback and social support; manner in which people provide and receive emotional help from others, and effects of social support on coping. |
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Huixin He |
Chemistry. Pursues research in the field of nanomaterials, including fabrication and exploration their novel properties for nanoelectronics |
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Frank Jordan |
Chemistry. Elucidation of the structure, mechanism, and folding of enzyme catalyzed reactions, specifically enzymes that utilize thiamin diphosphate (the vitamin B1 Coenzyme) and serine proteases. |
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Charalampo Kalodimos |
Chemistry. Elucidation of the molecular basis of a wide range of important biological phenomena. The ultimate goal is to understand at the atomic level the fundamental mechanisms underlying these biological processes. |
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Haesun Kim |
Biology. Cell and molecular biology of oligodendrocytes and Schwann cells. |
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Barry Komisaruk |
Psychology. Neural biofeedback to alleviate pain from spinal cord injuries. |
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Kenneth Kressel |
Psychology. Nature and dynamics of conflict among scientists and the role of third party mediators in resolving such disputes. |
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Elise L. Lev |
Nursing. Analysis of self-efficacy- enhancing intervention given to women with breast cancer. |
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Richard Mendelsohn |
Chemistry. Spectroscopic characterization of monolayer films related to pulmonary surfactant, and the development of infrared imaging technology for the study of bone disease. |
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Joan Morrell |
Neuroscience. Steroid hormone dependent reproductive behavior, particularly maternal behavior, with an emphasis on examining the systems that mediate maternal motivation. |
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Daniel E. Murnick |
Physics. Laser-based analysis of stable isotopes and Carbon 14 for biomedical studies. |
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Farzan Nadim |
Biology. How networks of neurons in the central nervous system generate rhythmic motor activity. |
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James Tepper
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Neuroscience. Neurophysiological, neuropharmacological, and neuroanatomical examination of the functional circuitry of the basal ganglia. |
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Judith Weis |
Biology. Health of festuarine organisms in response to environmental stressors, including toxic contaminants, parasites, and invasive species. |
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Laszlo Zaborszky |
Neuroscience. Basal forebrain anatomy and electrophysiology. |