First name,Last name,Preferred title,Overview,Position,Department,Individual
Aniruddha,Datta,Professor,"My research focuses on adaptive control, parametric robust control, and genomic signal processing and control.",Professor||Faculty Affiliate,Energy Institute||Electrical and Computer Engineering,https://scholars.library.tamu.edu/vivo/display/n01f8748c
Byung-Jun,Yoon,Professor,"Dr. Yoon's main theoretical interests include objective-based uncertainty quantification, optimal experimental design (OED), machine learning, and signal processing. Application areas of interest include bioinformatics, computational network biology, and AI-driven drug/materials discovery.",Professor,Electrical and Computer Engineering,https://scholars.library.tamu.edu/vivo/display/n08866781
Rajesh,Miranda,Professor,"My research is focused on fetal brain development, stem cells, microRNAs, and teratology. Our laboratory is interested in understanding the biological steps that transform uncommitted stem cells into neurons or a glial cells, and identifying key microRNAs that control the transformation of stem cells into neurons. We are also currently investigating what role teratogen-sensitive microRNAs play in fetal brain growth, and the spatial patterning of the emerging forebrain.",Professor,Neuroscience and Experimental Therapeutics,https://scholars.library.tamu.edu/vivo/display/n0b271ea8
Kayla,Bayless,Associate Professor,"My laboratory conducts research in two areas of molecular and cellular medicine: the mechanism through which primary human endothelial cells invade into 3D matrices, and communication between invading endothelial cells and their surrounding 3D collagen matrix.",Associate Professor,Cell Biology and Genetics,https://scholars.library.tamu.edu/vivo/display/n1dd3799c
Tracy,Clement,Assistant Professor,"My laboratory uses an integrative approach to elucidate the molecular basis of cyto/nucleo morphogenesis in the spermatid, called spermiogenesis. This is among the most drastic cellular reorganizations and is critical for both male fertility and high fidelity transmission of genetic and epigenetic information to the next generation for healthy offspring. We seek to elucidate structural and regulatory processes involved in this transformation to understand the molecular underpinnings of cytoskeletal and chromatin remodeling in normal and disrupted spermiogenesis. The laboratory takes advantage of molecular and genetic tools in mouse models including transgenesis, gene knock out studies, and genomic and proteomic expression analyses, advanced imaging technologies for morphological and live tissue imaging, and protein expression and in vitro molecular biochemical approaches such as actin dynamics assays.",Assistant Professor,Veterinary Physiology and Pharmacology,https://scholars.library.tamu.edu/vivo/display/n1ee4ad1b
Christen,Boudreau,Clinical Assistant Professor,,Clinical Assistant Professor,Small Animal Clinical Sciences,https://scholars.library.tamu.edu/vivo/display/n264cd9da
Susie,Dai,Associate Professor,"My research group is interested in evaluating environmental hazard substances, their interactions with the environment and species, and biological systems that can degrade and detoxify the pollutants. We have established broad analytical platforms to survey a wide spectrum of natural or man-made toxic chemicals such as mycotoxins, microcystins, agricultural, and industrial chemicals.
We integrate electrocatalysis/photoelectrocatalytic processes and material engineering with biological systems for 1) chemical degradation and 2) energy storage. Meanwhile, our laboratory has built a modern analytical tool suite, which includes mass spectrometry-based platforms for monitoring and surveillance, hydrogen-deuterium exchange mass spectrometry for protein structure dynamics analysis, and gel free mass spectrometry-based proteomics analysis. We develop qualitative and quantitative methods for molecular characterizations, protein analysis and proteomics when working in different environmental systems.",Associate Professor,Plant Pathology and Microbiology,https://scholars.library.tamu.edu/vivo/display/n27690618
Xiaoning,Qian,Associate Professor,"Xiaoning Qian's research interests include machine learning and Bayesian experimental design as well as their applications in computational network biology, genomic signal processing, and biomedical signal and image analysis. He is affiliated with the Center for Bioinformatics and Genomic Systems Engineering and the Center for Translational Environmental Health Research at Texas A&M.",Associate Professor,Electrical and Computer Engineering,https://scholars.library.tamu.edu/vivo/display/n2c8e24e9
Bradley,Weeks,Professor Emeritus,"Retired Professor, Veterinary Pathobiology Department. Collaborator as ACVP board-certified anatomic pathologist in research projects that include implanted medical devices inflammatory and neoplastic gastrointestinal diseases, and cardiovascular diseases.",Professor Emeritus,School of Veterinary Medicine and Biomedical Sciences,https://scholars.library.tamu.edu/vivo/display/n3d42a32c
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
Sakhila,Banu,Professor,"My long-term goals are two-fold: 1) to understand the molecular mechanism of prenatal CrVI exposure on placental and fetal development, ovarian and uterine function, and pregnancy outcome, and; 2) to understand the protective effects of various natural and synthetic antioxidants (such as edaravone, glutathione, vitamin C and resveratrol) against the deleterious effects of heavy-metals, CrVI in particular. Current research in my lab is focused on the study of reproductive and developmental toxicity of CrVI. Drinking water contamination with CrVI in the United States is a growing problem due to increased usage of CrVI and improper disposal of Cr waste into the environment. Significant contamination with CrVI has been found in the drinking water sources of all the states in the U.S. Effects of Cr on reproductive health in women and development in children have received less attention. Epidemiological data document that women exposed to Cr in environmental or occupational settings suffer from infertility, gynecological problems, congenital malformation of fetuses, neonatal mortality, and premature abortions with increased levels of Cr in their blood, urine and placenta. Cr can bind directly to DNA and nuclear proteins, cause DNA strand breaks and mutations, alter the balance between reactive oxygen species (ROS) and antioxidants, and activate several cell signaling pathways. Therefore, my current research objective is to determine molecular pathways and identify target genes/proteins by which Cr alters prenatal development and organogenesis of female reproductive system in the offspring.",Professor,Veterinary Integrative Biosciences,https://scholars.library.tamu.edu/vivo/display/n4783d1f1
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
Soon-Mi,Lim,Lecturer,,Associate Graduate Advisor||Instructional Assistant Professor,Chemistry||Chemistry,https://scholars.library.tamu.edu/vivo/display/n53c3c8a0
Jianxun,Song,Professor,T cell biology
T cell-based immunotherapy
Cell metabolism,Professor,Microbial Pathogenesis and Immunology,https://scholars.library.tamu.edu/vivo/display/n5b9879a8
Wenshe,Liu,Bovay Chair and Professor in Chemistry,"Our research interest is to design methods for the genetic incorporation of noncanonical amino acids into proteins in living cells and apply these methods in three major directions: deciphering functions of protein posttranslational modifications, small molecule sensing, and expanding chemical diversities of phage display libraries. To study protein posttranslational modifications, we have constructed methods for the site-specific installation of lysine acetylation and methylation in proteins and will apply them to study functional roles of these two modifications on p53, a tumor suppressor protein. We have also developed a strategy to site-specifically install two noncanonical amino acids into one protein in E. coli and are applying this approach to construct biosensors for small organic molecules and metal ions. Phage display is an efficient method to identify peptides for therapeutic interventions. However, a phage display peptide library has limited structure motifs and functional groups because only 20 natural amino acids can be used to generate a library. We plan to expand the chemical diversity of a phage display library by incorporating multiple noncanonical amino acids and chemically modifying them to extend functional diversities. Screening this unnatural phage display library against therapeutic targets such as c-Abl tyrosine kinase is expected to identify highly potent inhibitors.",Professor,Chemistry,https://scholars.library.tamu.edu/vivo/display/n5d9506ea
Ivan,Ivanov,Clinical Professor,,Clinical Professor,Veterinary Physiology and Pharmacology,https://scholars.library.tamu.edu/vivo/display/n6fa588a3
Robert,Burghardt,Professor,"Research in the laboratory is focused on investigating mechanisms by which a variety of biological response modifiers ranging from mechanical signals, hormones and growth factors to environmental chemicals alter cellular signaling pathways and cellular homeostasis.","Professor||Director, Image Analysis Laboratory",School of Veterinary Medicine and Biomedical Sciences||Veterinary Integrative Biosciences,https://scholars.library.tamu.edu/vivo/display/n70a3d026
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
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
Ulisses,Braga Neto,Professor,"My research interests focus on statistical signal processing and control, and pattern recognition and machine learning, with applications in bioinformatics, materials informatics, and epidemiological models.",Professor,Electrical and Computer Engineering,https://scholars.library.tamu.edu/vivo/display/n7cac0956
Stephen,Talcott,Professor and Associate Department Head,"Dr. Talcott's research is focused on phytochemicals in fruits and vegetables, antioxidant stability and assessment, postharvest retention, beverage processing and value-added products. Intake of compounds such as phenolic acids, flavonoids, anthocyanins, procyanidins, carotenoids, tocopherols and ascorbic acid are suggested to have an inverse association with the risk of certain cancers and diseases. These compounds are investigated as antioxidants, enzyme inhibitors, and bioactive agents and changes in their concentration and activity are investigated following postharvest handling and processing. Current investigations include phytochemical identification, quantification and stability in tropical and subtropical fruits and vegetables including acai, mango, guava, passion fruit, grapes. As well as peanuts, strawberries, bell peppers and food-grade botanicals.",Professor and Associate Department Head,Nutrition,https://scholars.library.tamu.edu/vivo/display/n8247cf18
Jonathan,Levine,Professor and Head,,Professor and Head,Small Animal Clinical Sciences,https://scholars.library.tamu.edu/vivo/display/n8ae2a0a7
Clifford,Stephan,Certification Officer and Associate Professor,"The Stephan Lab is focused on drug discovery research. Dr. Stephan directs both the Combinatorial Drug Discovery Program (CDDP) core and the Microphysiological Lead Optimization and Toxicity Screening (MLOTS) facilities. The CDDP is a high throughput screening and automated microscopy core focused on discovering new therapeutics from library screening and drug repurposing alone or in multi-drug combinations. MLOTS is a low to medium throughput core focused on lead optimization for new chemical entities with the capability of testing compounds in complex in vitro models (e.g., spheroids, organoids) and de-risking drug leads by evaluating their potential cardiovascular or CNS toxicities via micro electrode array or hepatotoxcity in a microfluidic liver model.",Research Associate Professor,Institute of Biosciences and Technology,https://scholars.library.tamu.edu/vivo/display/n8c431f98
Nancy,Turner,Research Professor,"Dr. Turner's research program focuses on determining the impact of dietary constituents on regulatory processes that may protect against carcinogenesis and inflammation in the colon. Her lab is evaluating the effects of fiber sources and the specific phytochemicals contained within them on aspects of cellular proliferation or apoptosis, and microbial/epithelial cell interactions. The goal is to determine how these normal processes are being perturbed by chemical carcinogens, radiation or pro-inflammatory compounds, and how diet may mitigate the damage caused by them. Work conducted in the laboratory is currently funded by the United Sorghum Checkoff Board, the California Dried Plum Board, and the National Space Biomedical Research Institute.",Research Professor,Nutrition,https://scholars.library.tamu.edu/vivo/display/n8f7d7c90
Robin,Young,Professor,"The Fuchs-Young laboratory studies the basic mechanisms of breast carcinogenesis, including the interaction (cross-talk) between the estrogen receptor alpha (ERa), IGF-1 and p53 signaling cascades. Our research utilizes a variety of unique in vivo and in vitro models, including transgenic and humanized mice. An underlying theme of our research is the discovery of bio-physiological determinants of disparities in breast cancer incidence and outcome. Another project focuses on the interdependent regulation of ER and p53, and the role of racially disproportionate p53 polymorphisms in mediating breast cancer development and progression. A new project in the laboratory project is focused on investigating the impact of exposure to metabolic syndrome during different stages of development on metabolic function and mammary cancer risk. This line of research was initiated, in part, due to the obesity epidemic in the US, and the increasing prevalence of obesity in younger children. Initial results show that manipulation of gestational, lactational and post-weaning diet can have very significant effects on susceptibility to mammary carcinogenesis.",Professor||Professor,Cell Biology and Genetics||Institute of Biosciences and Technology,https://scholars.library.tamu.edu/vivo/display/n948adb5d
Andreea,Trache,Associate Professor,"The research in my laboratory focuses on the study of cellular responses to mechano-chemical stresses from a biophysical perspective. Biophysics research represents an applied field of science at the interface of physics, biology, engineering, and medicine. Our lab uses live vascular cells as a model system because endothelial and smooth muscle cells reside 'in vivo' in a mechanically active environment that is continuously changing. Using real-time imaging of live cells is the only way to directly monitor cellular responses to mechano-chemical stimulation. Moreover, single-cell imaging experiments allow discrete measurements of transient microscopic events that may be masked by a macroscopic average behavior, and will aid in understanding such behavior.",Associate Professor,Medical Physiology,https://scholars.library.tamu.edu/vivo/display/n955af1bf
Fei,Liu,Associate Professor,"Our laboratory conducts research in:
1. The characterization and application of standardized mesenchymal stem cells (MSCs) derived from iPS cells and their extracellular vesicles (EVs). Current application focuses on treating diseases caused by over-activation of immune system, such as Sjogren's syndrome, an autoimmune disease causing dry eyes and dry mouth, and cytokine storm caused by infections.
2. Roles of tissue-resident macrophages in the development, homeostasis, and regeneration of salivary glands damaged by radiation therapy for cancer.",Associate Professor,Cell Biology and Genetics,https://scholars.library.tamu.edu/vivo/display/n9732f08e
Reid,Powell,Research Assistant Professor,,Research Assistant Professor,Institute of Biosciences and Technology,https://scholars.library.tamu.edu/vivo/display/n978b1f06
Bhimanagouda,Patil,"Leonard Pike Inagural University Professor and Interim Head, Food Science and Technology","Dr. Bhimu Patil is internationally recognized for his expertise and research on 'foods for health' and his related educational programs. His systems-wide farm-to-table approaches include examining pre- and postharvest effects on bioactive compounds, isolating and characterizing these compounds from different fruits and vegetables, and understanding their roles in human health. Moreover, he has a strong working relationship with produce industry stakeholders. Dr. Patil has a distinguished record of achievements in education, including leading the development of three unique courses linking agriculture, human health, and sustainability. Texas A&M University has been a leader in this area, due in part to Dr. Patil's seminal contributions in these first-of-their-kind multidisciplinary courses. Dr. Patil's contributions to education are no less distinguished. He developed and taught three unique, innovative multi-state and multi-disciplinary courses, ""Phytochemicals in Fruits and Vegetables to Improve Human Health"", ""Science of Foods for Health"" and ""The Nexus of Food & Nutritional Security, Hunger, and Sustainability"".",Professor||Professor,Nutrition||Horticultural Sciences,https://scholars.library.tamu.edu/vivo/display/n9a0e203e
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
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
Warren,Zimmer,Scott Exter Professor,"Our research interests are directed towards understanding the complex mechanisms which regulate the expression of specific gene sequences in development. We have focused our studies upon the factors that influence the smooth muscle component of the developing gastrointestinal (G.I.) tract. It has been shown that smooth muscle cells are predominantly derived from mesodermal precursor cells, however the factors regulating the selection of the smooth muscle myogenic pathway is not well defined.",Scott Exter Professor,Medical Physiology,https://scholars.library.tamu.edu/vivo/display/nb6da0749
Margarita,Martinez-Moczygemba,Research Associate Professor,"The research focus of the Moczygemba laboratory is to develop interventional strategies that block allergic inflammation through our increased understanding of cytokine signaling and eosinophil biology. The eosinophil and its major activator, IL-5, play an important role in the pathogenesis of allergies and asthma. Thus, one of our goals is to understand regulatory mechanisms that control the intensity and duration of IL-5-mediated eosinophilic signaling. To this end, we employ various cellular, immunological, and biochemical techniques to help us identify novel targets capable of modulating inflammatory signals triggered by eosinophils.","Advisor to the Dean for Internal Affairs||Director, Flow Cytometry and Cell Sorting Core Facility",Institute of Biosciences and Technology||School of Engineering Medicine,https://scholars.library.tamu.edu/vivo/display/nb8971d17
Raquel,Sitcheran,Associate Professor,"The goal of our research is to understand the molecular mechanisms that control NF-kappaB regulatory networks in the central nervous system (CNS). NF-kappaB is a ubiquitously expressed, evolutionarily conserved transcription factor that responds to a variety of signals and regulates fundamental processes, including cell growth and proliferation, inflammation, invasion and angiogenesis. Indeed, aberrant NF-kappaB activity or expression is associated with many cancers, as it can promote tumorigenesis, tumor progression and resistance to therapy. Our focus is on glioblastoma, a common and highly lethal CNS tumor that is very resistant to current treatment strategies.",Associate Professor,The Texas A&M University System,https://scholars.library.tamu.edu/vivo/display/nb97a02a1
Roula,Mouneimne,Research Professor,"For the past 24 years my research focused on: 1- The development of methods in the fluorescence microscopy field that achieve data acquisition and analysis in real time, quantitative analysis, and mathematical modeling of cellular signaling. 2- The development of novel technological tools to decipher molecular and physiological events in cells and immunological tissues under normal toxin exposure and disease conditions.",Research Professor,Veterinary Integrative Biosciences,https://scholars.library.tamu.edu/vivo/display/nbb6c8c2a
Brian,Porter,Clinical Professor,Comparative neuropathology; canine gliomas and canine spinal trauma as models for the human conditions; wildlife disease and environmental conservation,Clinical Professor,Veterinary Pathobiology,https://scholars.library.tamu.edu/vivo/display/nc00264c7
Fen,Wang,Professor,"The laboratory focuses on understanding the molecular basis of cell signaling, and how aberrant cell signaling leads to birth defects and causes cancers. Using in vitro cell culture systems and in vivo mouse models, we study how the fibroblast growth factor (FGF) activates its receptor (FF) tyrosine kinase, and how the activated FF transmits the signals to downstream targets and regulates proliferation, differentiation, homeostasis, and function of the cells, as well as in organogenesis and development, including prostate and cardiovascular system development. The laboratory also employs molecular biology, cell biology, and mouse genetic technologies to study how aberrant FGF signals promote tumor initiation, progression, and metastasis. In addition, how environmental factors contribute to tumorigenesis and congenital birth defects by modulating FGF signal intensity and specificity is also under the scope of our research interests.",Professor,Institute of Biosciences and Technology,https://scholars.library.tamu.edu/vivo/display/nd5ef47ba
Yun,Huang,Associate Professor,"Dr. Huang is currently an Assistant Professor at the Center for Epigenetics and Disease Prevention, Institute of Biosciences & Technology, Texas A&M University. Her long-term goal is to elucidate the molecular basis of epigenetic changes in the human genome and to develop novel therapies by targeting aberrant DNA methylation and demethylation associated with human diseases, including cancer, immunoinflammatory and cardiovascular diseases.
Dr. Huang's laboratory is focused on elucidating the physiological and pathophysiological functions of TET2 protein and its 5-methylcytosine oxidation products (5hmC, 5fC and 5caC) in cancer and development (Nature Genet 2014; Trends in Genetics 2014).",Associate Professor,Institute of Biosciences and Technology,https://scholars.library.tamu.edu/vivo/display/nd7ed0926
Susanne,Talcott,Professor,"Dr. Susanne Talcott's research revolves around botanical compounds (polyphenols, terpenoids and alkaloids) and the impact of their metabolites on inflammation, cognitive function, and intestinal health. She primarily focuses on conducting human clinical studies to understand the pharmacokinetics and pharmacodynamics of these compounds.
Recently, the impact of bioactive metabolites produced by the gut microbiota on intestinal and cognitive health through the gut-brain axis has been of great interest.
Dr. Susanne Talcott is working on federally funded projects (USDA, NIH) and collaborates with the dietary supplement and functional food industry on health-related product claims that are supported by unbiased scientific evidence and comply with FDA- and FTC-regulations.",Professor||Professor,Food Science and Technology||Nutrition,https://scholars.library.tamu.edu/vivo/display/ne4324c37
Joe,Arosh,Professor,,Professor,Veterinary Integrative Biosciences,https://scholars.library.tamu.edu/vivo/display/ne8898820
Roger,Smith,Professor,Application of flow cytometry to study of animal disease and clinical veterinary medicine; core flow cytometry laboratory.,Professor,Veterinary Pathobiology,https://scholars.library.tamu.edu/vivo/display/nefd6ee54
Joerg,Steiner,Professor,"My veterinary career has mainly focused on two aspects, patient care and clinically-relevant research. As a veterinary clinician and clinical teacher I am exposed to a wide variety of canine and feline patients with complex medical conditions. These patients serve as a constant source of new clinical problems that beckon to be studied further. Sometimes these studies are merely clinical, relating to characterization of an uncommon condition, diagnosis of a difficult-to-diagnose condition, or a novel therapeutic approach to a well-described condition. In other instances studies that are spurred by clinical cases are more basic-science based, utilizing state-of-the-art technologies to further evaluate the etiology or pathogenesis of a disease. In some instances, studies may provide comparative aspects related to experimental animals, such as rodents or primates, or even to human patients with similar conditions. I believe that my role as a mentor can be unique in that I can help graduate students bridge the gap between science and clinical aspects and between veterinary and human medical interests - giving us further opportunities to advance the concept of one-health.","Professor||Director, Gastrointestinal Laboratory",School of Veterinary Medicine and Biomedical Sciences||Small Animal Clinical Sciences,https://scholars.library.tamu.edu/vivo/display/nf4de66a0
Edward,Dougherty,Distinguished Professor,My research focuses on genomic signal processing and image analysis.,Distinguished Professor,Electrical and Computer Engineering,https://scholars.library.tamu.edu/vivo/display/nf4ef0ac5
Darwin,Prockop,Professor,,Professor,Cell Biology and Genetics,https://scholars.library.tamu.edu/vivo/display/nfcfd0990