First name,Last name,Preferred title,Overview,Position,Department,Individual
Patricia,Pietrantonio,Professor and Texas AgriLife Research Fellow,"We work with important pests that are critical to Texas and the world focusing on public and animal health and on pests of cotton. We are interested in elucidating the functions of arthropod neuropeptides that signal through G protein-coupled receptors. Many of these neuropeptides are pleiotropic and many of their multiple functions are still unknown. We utilize loss-of-function experiments through RNAi, peptidomimetics, the discovery of antagonists through target-based high-throughput screening of small molecules on recombinant receptors expressed in mammalian cells, immunohistochemistry, and develop physiological in vitro and in vivo assays towards advancing arthropod endocrinology. The laboratory has pioneered the discovery of the first neuropeptide receptor in the Acari and the first insect prostaglandin receptor. The molecular and cell culture laboratories are BL2 and the Insect toxicology laboratory is BL1. We use state-of-the-art technologies and the lab is well equipped to do almost everything in-house.",Professor,Entomology,https://scholars.library.tamu.edu/vivo/display/n0555af9d
Guoyao,Wu,Distinguished Professor,"Dr. Wu teaches graduate courses in protein metabolism and nutritional biochemistry. He conducts research in protein and amino acid metabolism at molecular, cellular, and whole body levels . The animal models used in his research include cattle, chicks, pigs, rats, sheep, fish, and shrimp. He has also conducted research on amino acid nutrition in humans.",Faculty Fellow||University Faculty Fellow||Distinguished Professor||Senior Faculty Fellow||Distinguished Professor,Veterinary Integrative Biosciences||Animal Science||Texas A&M AgriLife Research||Texas A&M AgriLife Research||Nutrition,https://scholars.library.tamu.edu/vivo/display/n169f9a74
Robert,Chapkin,Distinguished Professor,"Research in the Chapkin lab focuses on dietary/microbial modulators related to the prevention of cancer and chronic inflammatory diseases.
Our central goal is to (1) understand cancer chemoprevention at a fundamental level, and (2) to test pharmaceutical agents in combination with dietary/microbial (countermeasures to the Western diet) to more effectively improve gut health and reduce systemic chronic inflammation. Since diet influences gut microbiota composition and metabolite production, to unravel the interrelationships among gut health and the structure of the gut microbial ecosystem, we are in the process of evaluating (using transgenic mouse, Drosophila models and humans) how the gut microbiome modulates intestinal cells, innate immune cells and tumors. As part of this endeavor, we are modeling at the molecular level the dynamic relationship between diet and gut microbe-derived metabolites which modulate chronic inflammation and the hierarchical cellular organization of the intestine, e.g., stem cell niche.",Distinguished Professor||Professor,Biochemistry and Biophysics||Nutrition,https://scholars.library.tamu.edu/vivo/display/n3fbb59f8
Kenneth,Ramos,Professor and Executive Director,,Professor of Medicine||Professor and Executive Director||Executive Committee||Associate Vice President for Research||Assistant Vice Chancellor for Health Services,The Texas A&M University System||Institute of Biosciences and Technology||Global Institute for Hispanic Health||School of Medicine||Health Science Center,https://scholars.library.tamu.edu/vivo/display/n47de353a
Cynthia,Meininger,Professor,"My research focuses primarily on the vascular complications of diabetes. Using animal models of human diabetes, we have demonstrated that an inability of endothelial cells to produce nitric oxide may be partly responsible for these vascular complications. We are developing a gene/drug therapy approach for treating cardiovascular disease associated with diabetes. Targeted nanoparticles will deliver either the gene for GTPCH or BH4 itself into endothelial cells oxidatively damaged by diabetes to correct endothelial GTPCH deficiency, increase tetrahydrobiopterin levels, restore nitric oxide production and reverse the vascular dysfunction seen in diabetes. Our endothelium-targeting nanoparticle approach will not only reverse the damage caused by disease but will increase antioxidant levels to protect the endothelial cells from future damage and/or dysfunction.",Professor,Medical Physiology,https://scholars.library.tamu.edu/vivo/display/n531a623d
Frances,Ligler,Professor,,Professor,Biomedical Engineering,https://scholars.library.tamu.edu/vivo/display/n74321a1f
Roderick,Dashwood,University Distinguished Professor,"Research integrates multiomic, genetic, epigenetic and immune approaches for precision oncology. Epigenetic readers, writers and erasers that reversibly regulate immune players in the antigen presentation pathway are of current mechanistic interest. Molecular and cell-based assays are combined with preclinical models coupled to polypectomy. Clinical specimens and organoids from patients undergoing colectomy provide for human translation. Supported by the NCI, NINDS/NIA, and the John S. Dunn Foundation.",John S. Dunn Chair in Disease Prevention||Distinguished Professor||Director,Institute of Biosciences and Technology||Center for Epigenetics and Disease Prevention||School of Medicine,https://scholars.library.tamu.edu/vivo/display/n7a63dbe7
Fuller,Bazer,Distinguished Professor,"Dr. Bazer's research in reproductive biology focuses on uterine biology and pregnancy, particularly pregnancy recognition signaling from the conceptus to the maternal uterus by interferon tau and estrogen from ruminant and pig conceptuses, respectively. The roles of uterine secretions as transport proteins, regulatory molecules, growth factors and enzymes and endocrine regulation of their secretion is another major research interest. The endocrinology of pregnancy, especially the roles of lactogenic and growth hormones in fetal-placental development and uterine functions are being studied. The mechanism(s) of action and potential therapeutic value of conceptus interferons and uterine-derived hematopoietic growth factors are areas of research with both pigs and sheep as models for human disease.",Distinguished Professor,Animal Science,https://scholars.library.tamu.edu/vivo/display/n7ad91d50
Patrick,Stover,Vice Chancellor and Dean,,Professor||Vice Chancellor and Dean,College of Agriculture and Life Sciences||Nutrition,https://scholars.library.tamu.edu/vivo/display/na2e4838e
Steven,Riechman,Associate Professor,My research interests include human muscle and cognitive performance and fatigue. Specifically nutritional and exercise interaction on sustained cognitive and physical performance in challenging environments.,Associate Professor||Associate Professor,Kinesiology and Sport Management||Nutrition,https://scholars.library.tamu.edu/vivo/display/nad2da75c
Stephen,Safe,Distinguished Professor,The aryl hydrocarbon receptor (AhR) is a nuclear helix-loop-helix transcription factor which forms a ligand-induced nuclear heterodimer with the AhR nuclear translocator (Arnt) protein. Research in this laboratory is focused on the molecular mechanism of crosstalk between the AhR and estrogen receptor (ER) signaling pathways in which the AhR inhibits estrogen-induced gene expression. The antiestrogenic activities of some AhR agonists are also being developed as drugs for clinical treatment of breast and endometrial cancers in women. Research on estrogen-dependent gene expression in various cancer cell lines is focused on analysis of several gene promoters to determine the mechanisms of ERa and ERb action. This includes several genes that are activated through interactions of the ER with Sp1 protein and other DNA-bound transcription factors.,Distinguished Professor||Distinguished Professor||Syd Kyle Chair,School of Veterinary Medicine and Biomedical Sciences||Biochemistry and Biophysics||Veterinary Physiology and Pharmacology,https://scholars.library.tamu.edu/vivo/display/nb20fdbd9
James,Fluckey,Professor,"My research focuses on mechanisms associated with protein turnover and glucoregulatory function in muscle and how these mechanisms may be altered by exercise, aging, obesity, diabetes or periods of microgravity. More currently, we are interested in small molecules arising from contracting skeletal muscle that impact other cells/tissues in the body, including cancer.",Professor,Kinesiology and Sport Management,https://scholars.library.tamu.edu/vivo/display/nc58f05ea
Darwin,Prockop,Professor,,Professor,Cell Biology and Genetics,https://scholars.library.tamu.edu/vivo/display/nfcfd0990
Magnus,Hook,Professor,"The primary interest of our laboratory is to try to understand the structural function of the extracellular matrix. Of particular interest is the study of the molecular mechanisms of microbial adhesion to host tissue. This process, which is believed to represent a critical initial step in the development of infections, involves specific cell-surface proteins that recognize and bind with a high affinity to components in the host tissue. Our goal is to decipher these events at a molecular level and, based on structural analysis of the interacting components, design new strategies to prevent and treat infections.",Regents & Distinguished Professor and Director,Center for Infectious and Inflammatory Diseases,https://scholars.library.tamu.edu/vivo/display/nfd8d37d6