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Cell Biology Faculty
Giulia Baldini, Ph.D. Steven Barger, Ph.D. (Geriatrics) Web profileCell biology of Alzheimer's disease; transcriptional regulation in neurons bargerstevenw@uams.edu Teresita Bellido, Ph.D. (Medicine) Web profileSignal transduction in bone cells. Regulation of bone cell apoptosis. Osteocyte biology. Skeletal effects and mechanism of action of bisphosphonates, steroid hormones, parathyroid hormone, and mechanical forces. tmbellido@uams.edu Helen Benes, Ph.D. (Neurobiology and Developmental Sciences) Web profileInsect models (fruitflies, mosquitoes) to study molecular basis for regulated gene activity, in response to gender, nutrition, aging and oxidative stress, for insight into human reproductive development, diseases of aging, including cardiac ischemia. beneshelen@uams.edu Timothy Chambers, Ph.D. (Biochemistry and Molecular Biology) Web profileCancer chemotherapy, apoptosis, cell signaling, cell cycle regulation ChambersTimothyC@uams.edu Amanda Charlesworth, Ph.D. (Neurobiology and Developmental Sciences) Web profileMolecular mechanisms behind developmental processes. Signal transduction, mRNA translation, gene expression, cell cycle control. Areas of study include meiosis and CNS development. charlesworthamanda@uams.edu Marie Chow, Ph.D. (Microbiology and Immunology) Web profileThe research program uses RNA viruses to study host physiological processes (such as RNA interference), the cell biology of the virus replication cycle (such as virus entry and exit) and the role of virus-induced immune responses in neurodegenerative diseases (such as post-polio syndrome). chowmarie@uams.edu Parimal Chowdhury, Ph.D. (Physiology and Biophysics) Web profileMechanism of Nicotine- induced Exocrine Pancreatic injury in an Animal Model PChowdhury@uams.edu Paul D. Drew, Ph.D. (Neurobiology and Developmental Sciences) Web profileNeuroimmunology, with emphasis on multiple sclerosis. drewpauld@uams.edu
Dana Gaddy, Ph.D. (Physiology and Biophysics) Web profileOur laboratory focuses on the endocrine, cellular and molecular mechanisms that govern the maintenance of the musculoskeletal system, with particular focus on the normal and pathophysiological changes associated with age, disuse, menopause, and metastatic disease. gaddydana@uams.edu Jill James, Ph.D. (Pediatrics) Web profileJamesJill@uams.edu Michael Jennings, Ph.D. (Physiology and Biophysics) Web profileTransport and regulation of inorganic ions, especially sodium, potassium, chloride, and sulfate JenningsMichaell@uams.edu Thomas Kelly, Ph.D. (Pathology) Web profileProteases and heparanases in cancer metastasis KellyThomasJ@uams.edu Fusun Kilic, Ph.D. (Biochemistry and Molecular Biology) Web profileKilicFusun@uams.edu Vladimir Lupashin, Ph.D. (Physiology and Biophysics) Web profileMolecular mechanisms of intracellular membrane trafficking LupashinVladimirV@uams.edu Lee Ann MacMillan-Crow, Ph.D. (Pharmacology and Toxicology) Web profileOur laboratory has been investigating the role that increased mitochondrial oxidant production has on the early events leading to renal dysfunction following renal preservation and warm ischemia/reperfusion (I/R) in vivo. Previous studies have suggested that inactivation of the major antioxidant within the mitochondria, manganese superoxide dismutase (MnSOD), plays a pivotal role in inducing renal injury during I/R injury. Using both cell and rodent models we are also assessing the therapeutic potential of known and novel antioxidants to alter I/R and transplantation induced renal dysfunction. macmillancrowleea@uams.edu Angus MacNicol, Ph.D. (Neurobiology and Developmental Sciences) Web profileCell cycle control, gene expression, early vertebrate development, signal transduction macnicolangus@uams.edu Philip Mayeux, Ph.D. (Pharmacology and Toxicology) Web profileRenal epithelial cell signaling: My laboratory is studying signal transduction pathways in renal epithelial cells that result in oxidative stress (reactive oxygen and reactive nitrogen species) in response to bacterial toxins and peptide hormones. prmayeux@uams.edu Judit Megyesi, M.D. (Medicine)MegyesiJuditK@uams.edu Donald Mock, M.D., Ph.D. (Biochemistry and Molecular Biology) Web profileOur research group uses biochemistry, molecular biology, physical chemistry, and organic chemistry to answer questions concerning the pathogenesis of vitamin-related birth defects and anemia of low birth weight infants. MockDonaldM@uams.edu Kevin D. Phelan, Ph.D. (Neurobiology and Developmental Sciences) Web profileMechanisms underlying synaptic transmission between developing and adult neurons phelankevind@uams.edu
Paul L. Prather, Ph.D. (Pharmacology and Toxicology) Web profileOpioid and cannabinoid receptor signaling mechanisms; cell biology and therapeutic drug development for neurodegenerative diseases such as amyotrophic lateral sclerosis (ALS) PratherPaulL@uams.edu Peter M. Price, Ph.D. (Internal Medicine) Web profileRole of cell-cycle events in renal failure and cellular stress PMPrice@uams.edu Nancy J. Rusch, Ph.D. (Pharmacology, Interdisciplinary Toxicology) Web profileNRusch@uams.edu Rosalia C.M. Simmen, Ph.D. (Physiology and Biophysics) Web profileRegulators of gene expression in the mammary gland and uterus that are essential for proper function and development SimmenRosalia@uams.edu Joseph R. Stimers, Ph.D. (Pharmacology and Toxicology) Web profileRole of ion channels and transporters in regulating cell function in the heart, neurons, and muscle StimersJosephR@uams.edu Brian Storrie, Ph.D. (Physiology and Biophysics) Web profileResearch focuses on two aspects of the secretory pathway in mammalian cells: 1)assembly and dynamics of the Golgi apparatus using cultured HeLa cells as the model and 2)assembly and function of alpha granules in human and mouse platelets. StorrieBrian@uams.edu Alan Tackett, Ph.D. (Biochemistry and Molecular Biology) Web profileOur laboratory uses cutting-edge proteomic and biochemical tools to understand how chromatin-associated protein complexes regulate chromosome structure and thereby influence cellular mechanisms like gene transcription. AJTackett@uams.edu Wayne Wahls, Ph.D. (Biochemistry and Molecular Biology) Web profileChromosome dynamics; meiosis; homologous recombination; chromatin; combinatorial bZIP dimers and cellular growth control; stress-activated signal transduction pathways. WahlsWayneP@UAMS.edu
Patricia Wight, Ph.D. (Physiology and Biophysics) Web profileDevelopmental, cellular and molecular neurobiology; regulation of gene expression; proteomics. pwight@uams.edu
Fang Zheng, Ph.D. (Pharmacology, Interdisciplinary Toxicology) Web profileMolecular and cellular mechanisms of neurotoxicity related to neurological disorders, using a multidisciplinary approach. zhengfang@uams.edu
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