First name,Last name,Preferred title,Overview,Position,Department,Individual
Michael,Golding,Associate Professor,,Associate Professor,Veterinary Physiology and Pharmacology,https://scholars.library.tamu.edu/vivo/display/n19ac3c74
Jian,Feng,Professor and Assistant Dean,,Assistant Dean for Research and Professor,Biomedical Sciences,https://scholars.library.tamu.edu/vivo/display/n2b3403fd
Xu,Peng,Associate Professor,"Our long-term goal is to explore and define novel genetic mechanisms that are involved in cardiovascular disease which can ultimately translate into potential strategies for its treatment. To achieve this goal, we will use a comprehensive approach including mouse genetics and molecular and cellular biology methods to explore the mechanisms involved in the regulation of cardiovascular development and disease.",Associate Professor,Medical Physiology,https://scholars.library.tamu.edu/vivo/display/n78b50f7c
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
Rosemary,Walzem,Professor,"Dr. Walzem's core research focus within the laboratory is directed towards understanding how the structure of triglyceride-rich lipoproteins influences their ability to carry out specific nutrient delivery tasks. Her studies include identification of mechanisms and regulatory processes that control the assembly of trigylceride-rich lipoproteins in issues, structural studies of lipoproteins themselves and physiological studies to determine substrate properties and metabolic fates of different types of lipoproteins. Diet can significantly alter lipoprotein physiology through multiple mechanisms, and studies of diet effects provides a significant sub-theme to the research program. A variety of species are used to address specific questions, however, avian and human lipoprotein metabolism as it relates to egg production and atherogenesis, respectively, are emphasized.",Professor,Poultry Science,https://scholars.library.tamu.edu/vivo/display/n85cd191f
David,Threadgill,Professor,"Our laboratory uses the mouse as an experimental genetic model to investigate factors that contribute to inter-individual differences in health and disease. Ourcurrent research activities include the identification and functional characterization of alleles contributing to cancer susceptibility, the function of theErbbgenefamily in development and disease, and the role of genetic variation in response to environmental stimuli. To support these investigations, we also aredeveloping new genetic tools to support mammalian systems genetic approaches to phenotypes with complex genetic and environmental etiologies.",Director||Professor||Professor||Professor,Cell Biology and Genetics||Institute of Genome Sciences and Society||Biochemistry and Biophysics||Nutrition,https://scholars.library.tamu.edu/vivo/display/n8ee0b54f
Masako,Suzuki,Assistant Professor,,Assistant Professor,Nutrition,https://scholars.library.tamu.edu/vivo/display/n9fd0c6a8
Laura,Smith,Assistant Professor,"I am interested in the molecular and circuit mechanisms of complex behavior and how alterations in synaptic connectivity between neurons lead to the maladaptive features of neuropsychiatric illnesses. Impairments in synaptic pruning are observed in autism spectrum disorders and may contribute to symptoms such as sensory hypersensitivity and social overstimulation. Repeated exposure to drugs of abuse also alters synapses in brain reward regions, and addiction-related synaptic and behavioral changes, similar to learning and memory, require the synthesis, or translation, of proteins in their local vicinity. Together these findings suggest that addiction is promoted and sustained through the coercion of normal plasticity mechanisms. Thus, investigating the function of developmental proteins in the adult brain, with regard to psychiatric and substance-related disorders, may reveal novel therapeutic and preventative strategies.",Assistant Professor,Neuroscience and Experimental Therapeutics,https://scholars.library.tamu.edu/vivo/display/na60823cc
Cedric,Geoffroy,Assistant Professor,"The main focus of the laboratory is to better understand the molecular, cellular and physiological changes occurring after neurotrauma, in particular after spinal cord injury (SCI). Indeed, SCI is the second cause of paralysis, following close behind stroke. But besides the direct locomotor impairments, SCI also leads to numerous health complications, including metabolic syndrome, respiratory and cardiovascular problems. These health complications not only threaten patients' lives, but also impact their quality of life. Therefore, one major aim in my lab is to better understand the physiopathology of the SCI and health complications occurring after chronic SCI (in mouse models of SCI). Using genetic and pharmacological approaches, we aim at finding targets that can reduce incidence of these health issues as well as reverse them in more chronic models.
The second goal of my lab is to understand how age impacts SCI. Indeed, SCI increasingly afflicts the middle-aged population, as a result of both later average incidence (from ~29 in the 1970s to ~42 since 2010) and aging of SCI-paralyzed patients (~75% of people with SCI are over 40 years old). Recently, we demonstrated that axon regeneration is impaired after injury in older animals. This decline in axon growth can be controlled by both neuronal intrinsic and extrinsic factors. By better understanding the players involved in this age-dependent growth decline, we aim at finding targets to promote axon growth after SCI and ultimately promote locomotor function recovery in the middle-aged population.",Assistant Professor,Neuroscience and Experimental Therapeutics,https://scholars.library.tamu.edu/vivo/display/ne49dfc75
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