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
Yuxiang,Sun,Professor,"Dr. Sun is an expert on ""hunger hormone"" ghrelin. She generated the first set of ghrelin and ghrelin receptor knockout mice, and discovered novel roles of ghrelin signaling in diabetes, thermogenesis, and inflammation. Her laboratory uses state-of-the-art tools to study ghrelin system in energy sensing, metabolism and immunity, and aging. Her work suggests that ghrelin signal might be a promising drug target for obesity, diabetes, inflammation, and Alzheimer's disease.",Professor,Nutrition,https://scholars.library.tamu.edu/vivo/display/n0228c22e
Anja,Schulze,Professor,"My research on marine invertebrates spans evolution, ecology, development and physiology. My lab is interested in how invertebrate animals have diversified over time and space. Which morphological and physiological characteristics have led to the evolutionary success of a species? Which environmental factors drive its geographic distribution? To address these questions, we focus on marine annelids, a ubiquitous and diverse taxon with at least 15,000 described species and a wide range of habitats and lifestyles.",Professor,Texas A&M University at Galveston,https://scholars.library.tamu.edu/vivo/display/n042bccf8
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
Hongwei,Zhao,Professor,,Professor,Epidemiology and Biostatistics,https://scholars.library.tamu.edu/vivo/display/n0698bd50
Seth,Murray,Professor,"Dr. Murray's research interests focus on improving the productivity, sustainability (economic and environmental) and quality of agricultural production through scientific research and development; mostly in maize (corn). The approaches used to conduct this research include 1) high-throughput field phenotyping (UAVs/drones, ground vehicles, NIRS), 2) molecular quantitative genetic discovery (including QTL mapping, GWAS), 3) statistical modeling and novel analysis methods (including big data and metanalysis), 4) development of new breeding and genetics approaches (including use of computer simulations), and ultimately 5) applied maize (corn) field breeding (classical and molecular). Primary traits of interest for discovering genetic variation and improving in maize for are yield, southern adaptation, stress (aflatoxin resistance, drought tolerance), plant height, composition (colored grain, high grain antioxidants, low phosphorus), and perennialism. Graduate student training is deeply embedded in all of my research.",Eugene Butler Endowed Chair||Professor,College of Agriculture and Life Sciences||Soil and Crop Sciences,https://scholars.library.tamu.edu/vivo/display/n06b68456
Dorothy,Shippen,Professor,"We are taking biochemical, molecular genetic and cytological approaches to study the structure, function and maintenance of telomeres. Telomeres are higher order nucleoprotein complexes that cap the ends of eukaryotic chromosomes and play essential roles in conferring genome stability and cell proliferation capacity. The protective cap of the telomere is comprised of specific telomere binding proteins that regulate the length of telomeric DNA tract and allow the cell distinguish the chromosome terminus from a double-strand break. Telomeric DNA is synthesized by the action of telomerase, an unusual reverse transcriptase that replenishes telomeric DNA lost as a consequence of replication by conventional DNA polymerases. We have developed the genetically tractable flowering plant Arabidopsis thaliana as a model system for studying telomeres in higher eukaryotes. With its sequenced genome, abundant genetic and transgenic tools, and extraordinarily high tolerance to genome instability, Arabidopsis has proven to be an excellent model for investigating fundamental processes in telomere biology. Current studies focus on defining the function and molecular evolution of telomere capping proteins and components of the telomerase ribonucleoprotein complex.",Professor,Biochemistry and Biophysics,https://scholars.library.tamu.edu/vivo/display/n07e86cac
William,Murphy,Professor,"Mammalian comparative genomics, phylogeny, biogeography, and molecular evolution, with a specific emphasis on feline evolutionary genomics, including: gene mapping, sex chromosome genetics, speciation and mechanisms of male hybrid sterility.",Professor,Veterinary Integrative Biosciences,https://scholars.library.tamu.edu/vivo/display/n08093092
Hubert,Amrein,Professor,"My broad research interests are concerned with the sensory perception of the external chemical world. The central questions investigated in our laboratory are concerned with how animals detect and discriminate among the thousands of different chemical signals that ""flood"" the olfactory and taste organs. Our laboratory uses Drosophila as a model to study these problems because the Drosophilachemosensory systems are structurally and functionally very similar to those of mammals, yet they are smaller and somewhat less complex, which makes them excellent models to investigate the molecular and neural basis of olfaction and taste.",Senior Associate Dean of Research||Professor||Professor,Cell Biology and Genetics||School of Medicine||Nutrition,https://scholars.library.tamu.edu/vivo/display/n0839ec95
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
John,Jifon,Professor,"Dr. Jifon's research is focused on environmental stress physiology of plants -- the physiological, biochemical and molecular mechanisms and traits that confer tolerance to environmental stresses (especially to drought, radiation/temperature extremes, and nutrient imbalance). A key theme in his research is to use integrated measurements obtained at leaf, whole-plant, and stand levels to study factors that regulate photosynthetic efficiency, water/nutrient use efficiency, assimilate partitioning, yield and quality. The aim is to use the information gained in these studies to develop practical strategies to optimize productivity and quality by improving plant tolerance to environmental stresses.",Professor||Professor,Texas A&M AgriLife Research||Horticultural Sciences,https://scholars.library.tamu.edu/vivo/display/n0aa3912d
Lee,Tarpley,Professor,"The objectives of my research are: (1) discover knowledge of plant physiological processes pivotal to how a crop plant operates in producing the product of yield; (2) develop near-term technologies to minimize the effects of specific environmental factors on crop productivity; (3) develop near-term strategies to directly improve crop productivity/profitability; and (4) develop strategies for measuring novel characteristics that can be used to assist crop genetic improvement.
As a plant physiologist working with crops, I have dual, interdependent, obligations - one towards discovering and applying knowledge of how the crop plant and plant populations function and interact with the environment for the agronomic and genetic improvement of crop production at all scales - global to regional, the other towards 'troubleshooting' and improving specific production systems in the region (rice is the major crop where I am located) as part of an interdisciplinary team. Through discovery and application of knowledge of the physiology of crop plants, my research positively impacts the economics and sustainability of crop production, both locally and globally.",Professor||Professor,Soil and Crop Sciences||Beaumont Research and Extension Center,https://scholars.library.tamu.edu/vivo/display/n0ac818b0
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
Lawrence,Wolinsky,Dean,,Dean||Professor||Faculty Fellow,Periodontics||School of Dentistry||Center for Health Systems and Design,https://scholars.library.tamu.edu/vivo/display/n0d0247f9
Bruce,Riley,Professor,"My lab studies inner ear development in zebrafish. A prominent feature of our research is to investigate how cell-cell signaling and downstream gene-interactions control development. One project in the lab focuses on how cell signaling regulates ectodermal patterning during gastrulation to establish the otic placode, the precursor of the inner ear. Our recent work shows that localized Fgf signaling is especially critical for inducing formation of the otic placode, and members of the Pax2/5/8 family of transcription factors are important mediators of Fgf signaling. During later stages of inner ear development, we are exploring how sensory hair cells and neurons are regulated. Our studies address how these cells initially form, how they are genetically maintained, and how they become specialized for hearing vs. balance. We are also investigating how zebrafish can replace dead and damaged hair cells, an ability that mammals have lost. The inability to regenerate hair cells explains why humans show progressive irreversible hearing loss as we age. It is hoped that activating or augmenting human homologs of genes shown to operate in zebrafish might help restore hearing and balance in humans.",Professor,Biology,https://scholars.library.tamu.edu/vivo/display/n0dbb8253
Charles,Love,Professor,,Professor,Large Animal Clinical Sciences,https://scholars.library.tamu.edu/vivo/display/n0fc9f72c
Richard,Woodward,Professor,Dr. Woodward's research is in the general area of environmental and resource economics. Recent research projects have focused on the use of transferable permits to address water quality and fisheries problems and problems of choice under uncertainty.,Professor||Faculty Affiliate,Energy Institute||Agricultural Economics,https://scholars.library.tamu.edu/vivo/display/n115a5961
Jorge,Cruz-Reyes,Professor,"We combine approaches in molecular genetics, structural biology, biochemistry, proteomics, and bioinformatics to study the amazing RNA biology of trypanosome parasites. One research line is on an RNA editing process by uridine insertion and deletion that creates amino acid coding triplets in most mRNAs. Yet a single error in the U-changes yields a frame-shift. Trypanosomes split from other eukaryotic lineages over a hundred million years ago, yet this editing has analogies with RNAi, CRISPR/Cas9, mRNA splicing and other systems directed by small non-coding RNAs (ncRNAs).",Professor||Professor,Texas A&M AgriLife Research||Biochemistry and Biophysics,https://scholars.library.tamu.edu/vivo/display/n147e77ee
Friedhelm,Schroeder,Professor,Intracellular lipid transfer proteins; lipid metabolism; multiphoton imaging of intracellular lipid transport and targeting in living cells and tissues of gene targeted animals.,Professor,Veterinary Physiology and Pharmacology,https://scholars.library.tamu.edu/vivo/display/n157063e2
Anthony,Knap,Professor and Director,"Dr. Knap's primary research focuses include oceanography, organic geochemistry, environmental science, atmosphere/ocean interactions, oil pollution and dispersant use, and effects of contaminants on the marine environment. Global climate change is another area of interest, particularly climate instability, business/science interactions, renewable energy, marine derived bio-fuels, ocean genomics, ocean acidification. He was Founder and Principal Investigator of the NSF-funded Bermuda Atlantic Time-series Study (BATS) off Bermuda. He was also the Principal Investigator for 30 years of Hydrostation S, founded in 1954 and the longest continuous time-series in the Ocean, also funded by NSF. He most recently was appointed to the Gulf Research Board of the US National Academy of Sciences.","Professor||Faculty Affiliate||Director, Geochemical and Environmental Research Group||Faculty Fellow",Center for Health Systems and Design||Oceanography||Energy Institute||College of Geosciences,https://scholars.library.tamu.edu/vivo/display/n15ee86bc
Elizabeth,Pierson,Professor,"Dr. Pierson's areas of research include plant-microbe interactions, biological control, and sustainable agriculture. She also conducts research related to zebra chip disease of potato, microbe-insect interactions, and terrestrial plant ecology. She teaches the undergraduate course Garden Science and the graduate course Plant-associated Microorganisms, which is available to students in three different graduate programs. Dr. Pierson is active in graduate education, currently serving as a member of the Horticultural Sciences Graduate Program Committee and the MEPS admissions committee and as the advisor for the Horticulture Graduate Council. She also serves as a chair or member of graduate research committees and provides undergraduate laboratory research experience.",Professor||Adjunct Professor,Plant Pathology and Microbiology||Horticultural Sciences,https://scholars.library.tamu.edu/vivo/display/n1757e534
Benjamin,Neuman,Professor,,Professor,Biology,https://scholars.library.tamu.edu/vivo/display/n193ea580
Donald,Brightsmith,Associate Professor,"My research focuses on the conservation, ecology, health, and welfare of parrots and their relatives in both the wild and captivity.",Professor||Associate Professor,Veterinary Pathobiology||Veterinary Pathobiology,https://scholars.library.tamu.edu/vivo/display/n19a331cf
Stratos,Pistikopoulos,Professor,"The objective of my research programme is to develop fundamental theory and optimization based methodologies and computational tools that enable process engineers to analyze, design and evaluate process manufacturing systems which are economically attractive, energy efficient and environmentally benign, while at the same time exhibit good performance characteristics like flexibility, controllability, robustness, reliability and safety.",Director||Professor,Energy Institute||Chemical Engineering,https://scholars.library.tamu.edu/vivo/display/n1aaac28f
Charles,Long,Professor,"My laboratory is currently working on a number of projects involving genetic engineering in cattle, goats, sheep and horses. We use CRISPR/Cas gene editing to specifically alter the coding sequence of genes in sheep to produced biomedical models of human disease, specifically hypophosphatasia. My lab is actively working on projects to produce gene edited cattle that are resistant to respiratory disease. We have also successfully used gene editing to correct the glycogen branching enzyme deficiency mutation in horses. We are also interested in altering the carcass characteristics of beef cattle by genetic engineering genes specifically related to meat tenderness in Bos indicus cattle. Other projects in the lab involve the use of mesenchymal stem cell-based therapies for treatment of equine disease and in particular methods for using these cells to over express proteins that can modulate the inflammatory response. We also have interest in using livestock as bioreactors to produce biotherapeutics and vaccine antigens in their milk. I have extensive experience in using genetic engineering in combination with assisted reproductive technologies (including somatic cell nuclear transfer) to produce live animals.",Professor,Veterinary Physiology and Pharmacology,https://scholars.library.tamu.edu/vivo/display/n1dc326d5
Amir,Ibrahim,Professor,,Professor,Soil and Crop Sciences,https://scholars.library.tamu.edu/vivo/display/n2089199d
Gregory,Johnson,Professor,,Professor,Veterinary Integrative Biosciences,https://scholars.library.tamu.edu/vivo/display/n22b3a445
John,Valasek,Professor,,Professor,Aerospace Engineering,https://scholars.library.tamu.edu/vivo/display/n276f6c8f
Satish,Bukkapatnam,Professor,"Dr. Bukkapatnam's research addresses the harnessing of high-resolution nonlinear dynamic information, particularly from wireless MEMS sensors, to improve the monitoring and prognostics of real-world systems, including ultraprecision and nanomanufacturing processes and machines, and cardiorespiratory processes. His research has led to 185 peer-reviewed publications (115 published/ accepted in journals and 70 in conference proceedings), 1 granted and five pending patents, and has been the basis for 17 Ph.D. dissertations. His research has received support from federal agencies including National Science Foundation, Department of Energy, and Department of Defense, and the private sector including General Motors, Ford, National Instruments, and the Central Rural Electric Cooperative.",Faculty Affiliate||Professor,Energy Institute||Industrial and Systems Engineering,https://scholars.library.tamu.edu/vivo/display/n277d780c
Christopher,Marshall,Professor,"My research focuses on the functional, ecological, & evolutionary aspects of how vertebrates detect, acquire, ingest and digest food. My program is integrative and comparative in nature. This work falls within the conceptual framework of ecological morphology & physiology and is conducted at the functional organismal level (morphology and physiology), behavioral, and ecological levels. The central concept of this field is that morphology and physiology influences an organism's ecology through constraints of behavioral performance, which is the capacity of an animal to exploit its natural resources, and explore its environment. Although investigations of morphology, physiology, and behavior stand on their own, ultimately the integration of these studies can explain how organisms interact with their environment, the evolution of functional complexes, and the pressure selections involved in driving adaptations.",Professor||Professor,"Rangeland, Wildlife and Fisheries Management||Wildlife and Fisheries Sciences||Marine Biology",https://scholars.library.tamu.edu/vivo/display/n27bd8535
David,Russell,Professor,"My research focuses on proteomics, lipidomics, biophysical chemistry and application and development of mass spectrometry, such as ""label-free"" nano-particle based biosensors and novel peptide/protein isolation and purification strategies. We are also investigating the structure(s) of model peptides in an effort to better describe folding/unfolding and structure of membrane and intrinsically disordered (IDP) proteins. Peptides take on very different 2?, 3? and 4? structure, which determine or influence bio-activity. In the presence of lipid vesicles peptides can exist as solution-phase species, ""absorbed"" on lipid bilayers or ""inserted"" (as a monomer or multimer) in lipid bilayers. By what mechanism do peptides interact with lipid membranes to affect these structural changes, how do peptide-lipid interactions promote self-assembly to form intermediates that eventually yield aggregates, i.e., amyloid fibrils, or how does metal ion coordination affect the structure of metalloproteins? Mass spectrometry-based experiments, hydrogen/deuterium (H/D) exchange, chemical 'foot-printing' and gas-phase (ion-molecule and ion-ion reaction chemistry) and solution-phase chemical modifications, have expanded our abilities to address such questions, and new instrumental approaches, esp. ion mobility spectrometry (IMS) combined with enhanced molecular dynamics simulations (MDS), have become standard tools for structural-mass spectrometry studies. Over the past several years we have either acquired or developed novel, next-generation IM-MS instruments that are redefining cutting-edge structural-mass spectrometry research as well as cutting-edge computational tools essential to carry out these studies. Our new laboratories in the Interdisciplinary Life Sciences Building (ILSB) provides exciting opportunities for collaborative, interdisciplinary research with chemical-biologists, biochemists and other chemists.",Professor,Chemistry,https://scholars.library.tamu.edu/vivo/display/n280e03e6
Mariappan,Muthuchamy,Professor,"The main goal of our laboratory is to understand the molecular mechanisms of cardiac muscle dynamics in normal and diseased states. Particularly, our interests focus on the relationships between thin filament activation and crossbridge kinetics, and how the mechanotransduction signaling transmits to myofilament activation. We use multiple techniques, molecular, cellular, biochemistry, structural and biophysical, to obtain information on the fundamental regulatory mechanisms of cardiac muscle contraction.
Our lab group is also investigating the role of lymphatics in different tissue beds, including mesentery, skeletal muscle, and brain using various animal models.",Professor,Medical Physiology,https://scholars.library.tamu.edu/vivo/display/n2877399b
David,Carlson,Professor Emeritus,,Professor,Anthropology,https://scholars.library.tamu.edu/vivo/display/n299840b9
Joseph,Sorg,Professor,"My lab is focused on the mechanisms of spore germination and bile acid resistance in Clostridium difficile. C. difficile is a Gram-positive, spore forming, anaerobe that causes infections in people who have undergone antibiotic regimens. Previously, we had shown that certain bile acids promote C. difficile spore germination while others inhibit germination. Bile acids are small molecules made by the liver that help the absorption of fat and cholesterol in the GI tract while also serving as a protective barrier against invading pathogens. Because C. difficile spores use the ratios of bile acids as cues for germination, the actively growing bacteria must have adapted means to avoid their toxic properties. We are currently focused on identifying these factors and the mechanisms by which C. difficile spores germinate.",Professor,Biology,https://scholars.library.tamu.edu/vivo/display/n2b4d6c14
Herman,Scholthof,Professor,,Professor,Plant Pathology and Microbiology,https://scholars.library.tamu.edu/vivo/display/n2c6ec1cb
Dana,Gaddy,Professor,"My laboratory has been engaged in multiple areas of NIH-funded musculoskeletal research since 1996. We were the first to identify the non-steroidal gonadal inhibin hormones in regulating the hypothalamic-pituitary-gonadal-skeletal axis in mice, and the role of changes in inhibins that signal the onset of menopause (reproductive aging) to the onset of increasing bone turnover. We also demonstrated the anabolic effect of continual Inhibin exposure in normal mice and in bone repair. Our cellular focus on Inhibins and the related factor, Activin A revealed that Activin A suppresses local bone resorption through suppression of osteoclast formation, motility and survival. Our ongoing work is in the area of specific inhibin/betaglycan receptor interactions that mediate the effects on bone cells. We are also greatly interested in improving the low bone mass that we were the first to identify in both humans with Down Syndrome (DS) and in mouse models of DS as a low bone turnover disease. Our current NIH-funded research is working to identify the mechanisms of reduced fracture healing and compromised bone regeneration in Down Syndrome. We have demonstrated the efficacy of both PTH and SclAb in DS, and are now actively testing nutriceuticals to increase bone mass in mouse models of Down Syndrome. The limitations of using mouse models to study bone disease led us to our most recent and exciting endeavors in collaboration with TAMU experts in reproduction and embryo transfer technologies to develop a large platform model of bone disease, using sheep. We have generated the first large animal model of hypophosphatasia (HPP) via high efficiency gene editing of a knock-in point mutation in the ALPL gene, whose musculoskeletal and dental phenotypes are consistent with human HPP. We are now using this model to determine the etiology of mineralization deficiencies, muscle weakness and premature tooth loss by analysis of longitudinal biopsies and analysis of muscle, bone and dental specimens using CT, microCT, mechanical testing, immunohistochemistry, histomorphometry and ex vivo bone marrow cultures.",Professor||Adjunct Professor,Veterinary Integrative Biosciences||Veterinary Physiology and Pharmacology,https://scholars.library.tamu.edu/vivo/display/n2dc10a1a
Luis,Cisneros-Zevallos,Professor,The mission of our research program at the Plant Bioactives & Bioprocessing Research Laboratory is to generate information that can benefit the agriculture and processing industry by adding value to crops through bioactive compound discovery and the design of appropriate methods to enhance their content in plants as well as extend their post-harvest shelf-life.,Professor,Horticultural Sciences,https://scholars.library.tamu.edu/vivo/display/n2e6bb4c1
Suresh,Pillai,Professor,"Dr. Pillai's research focuses on bacterial cell-to-cell signaling, the molecular ecology of pathogens in natural and man-made ecosystems and the use of novel technologies to concentrate, detect, and decontaminate pathogens. His research on molecular microbial ecology and cell-cell signaling is targeted at understanding the complex and hitherto poorly understood relationship between microbial communities and human behavior. His research is aimed at understanding the role that the GI tract-associated microbiome has on human behavior.",Professor,Poultry Science,https://scholars.library.tamu.edu/vivo/display/n3009b050
Jianbang,Gan,Professor,"Dr. Gan's current research centers on the economics of bioenergy and natural and human disturbances including climate change, wildfire, pest infestation, and invasion of alien species as related to forest resource management/conservation. He is also keen in issues related to forest product trade, forestry governance, and socially or economically disadvantaged forestland owners. In addition, he has research experience in bioenergy and sustainable forest management in Africa, Asia, and Latin America.",Faculty Affiliate||Professor||Professor,Ecology and Conservation Biology||Energy Institute||Agricultural Economics,https://scholars.library.tamu.edu/vivo/display/n31458b27
Edward,Vargo,Professor,"We use molecular genetic tools, primarily microsatellite markers and mtDNA sequence data, to conduct basic and applied studies of termites and other insect pests of human structures. Our work on termites encompasses the breeding structure of colonies, colony and population genetic structure, invasion biology, foraging areas, colony densities and population dynamics. Research on other structural pests, mainly ants, cockroaches and bedbugs, focuses on population genetic structure, invasion biology, and dispersal.",Professor,Entomology,https://scholars.library.tamu.edu/vivo/display/n3165cf9e
Pingwei,Li,Professor,"The research in my lab focuses on elucidating the structural basis of innate immune responses towards microbial nucleic acids. The cGAS/STING pathway plays a central role in innate immunity toward bacterial and viral DNA. cGAS is activated by dsDNA and catalyzes the synthesis of a cyclic dinucleotide cGAMP, which binds to the adaptor STING that mediates the recruitment and activation of protein kinase TBK1 and transcription factor IRF-3. Activated IRF-3 translocates to the nucleus and induces the expression of type I interferons (IFN), an important family of antiviral cytokine. To elucidate the mechanism of cGAS activation, we determined the structures of cGAS in isolation and in complex with DNA. The cGAS/DNA complex structure reveals that cGAS interacts with DNA through two binding sites. Enzyme assays and IFN-? reporter assays of cGAS mutants demonstrate that interactions at both DNA binding sites are essential for cGAS activation. To investigate how cGAMP activates STING, we determined the structures of STING in isolation and in complex with cGAMP. These structures reveal that STING forms a V-shaped dimer and binds cGAMP at the dimer interface. We have also determined the structures of TBK1 in complex with two inhibitors, which show that TBK1 exhibits an I?B kinase fold with distinct domain arrangement. To elucidate the mechanism of IRF-3 recruitment by STING, we determined the structure of a phosphorylated STING peptide bound to IRF-3. To understand how phosphorylation activates IRF-3, we solved the structure of an IRF-3 phosphomimetic mutant bound to CBP, which reveals how phosphorylation induces the dimerization and activation of IRF-3.",Professor,Biochemistry and Biophysics,https://scholars.library.tamu.edu/vivo/display/n31ebad17
Brent,Auvermann,AgriLife Center Director,"Emission rate, ambient concentrations, fate, and transport of antimicrobial resistance elements associated with fugitive dust from livestock facilities; use of unmanned aerial vehicles for agricultural remote sensing.",Professor||Center Director,Biological and Agricultural Engineering||Amarillo Research and Extension Center,https://scholars.library.tamu.edu/vivo/display/n32b32697
Ping,He,Professor,"Our laboratory is interested in elucidating novel plant immune signaling pathways as well as studying the myriad actions of pathogen virulence factors that intercept host immune responses. In order to provide a complete view of host-microbe interactions, we are using cellular, functional genomic, genetic, biochemical and bioinformatic approaches. In addition, plant immunity is inextricably linked with plant development and environmental stresses. We are also interested in understanding the signaling crosstalk that orchestrates plant responses to different extrinsic and intrinsic signals. Ultimately, knowledge gained from studying model plants, such as Arabidopsis, will be applied to improve crop plants for resistance against different biotic and abiotic stresses.",Professor,Biochemistry and Biophysics,https://scholars.library.tamu.edu/vivo/display/n330081c7
Andy,Herring,Professor,"Dr. Herring has teaching and research responsibilities within the department. He teaches undergraduate and graduate level classes in beef cattle production and management (ANSC 406 and 605). His research interests focus on areas to increase production efficiency for cow-calf producers through coordination of breeding systems, environmental resources and marketing strategies. He has researched genetic and environmental influences on milk production in beef cows, breed differences for feedlot and carcass characteristics, and genetic influences on beef cow reproduction and productivity, cattle temperament and immune responses. He also remains active in state and national beef cattle industry groups.",Professor,Animal Science,https://scholars.library.tamu.edu/vivo/display/n33a6bd5e
Amanda,Stronza,Professor,"Dr. Amanda Stronza is an environmental anthropologist and professional photographer with 30 years of research and conservation work in the Amazon, southern Africa, and other parts of the tropics. She is a Professor in the Departments of Ecology and Conservation Biology, and Rangeland, Wildlife, and Fisheries Management, and she co-directs the Applied Biodiversity Science Program at Texas A&M University. She co-founded Ecoexist, a non-profit organization in Botswana, aimed at fostering coexistence between people and elephants. Her long-term work in the Amazon has focused on community-based conservation, understanding and documenting local incentives for stewarding wildlife and forests.",Professor,Ecology and Conservation Biology,https://scholars.library.tamu.edu/vivo/display/n34650fb3
Jim,Ji,Professor,"Technological advances in magnetic resonance imaging (MRI) and magnetic resonance spectroscopic imaging (MRSI) provide unprecedented opportunities for revealing the anatomical, pathological, and functional information of biological systems and improving our understanding of the biological processes. During the last two decades, MR hardware and sequence design have been significantly improved, which make MRI and MRSI faster and finer than they have ever been. However, dynamic imaging of 3D objects, a beating heart or a working brain, for examples, is still a big challenge.
The research in our group is to develop 3-D, real-time imaging capability to visualize biological events as they are happening, and advanced analysis techniques to extract the desired information from biological images automatically, accurately and consistently.",Professor||Professor,Electrical and Computer Engineering (Qatar)||Electrical and Computer Engineering,https://scholars.library.tamu.edu/vivo/display/n35d3773d
William,Rogers,Professor,,Professor,Ecology and Conservation Biology,https://scholars.library.tamu.edu/vivo/display/n35d640a4
Antonietta,Quigg,Associate Vice President,"The lab's research is focused on phytoplankton as model organisms to address questions related to water, climate and energy. We use quantitative experimental approaches to elucidate the importance of biotic and abiotic factors influencing phytoplankton dynamics (community composition, physiology, ecology) in field and laboratory-settings. It is collaborative, multidisciplinary and international (see publications list). However, does not follow the 20th century paradigm of striving to be the best in a narrowly defined field. Rather, our research paradigm is to continuously generate new ideas and new collaborations and alliances, which is needed to do well in the 21st century. In this way, the research we perform in the lab is capacity building for a new generation, with whom I have a strong commitment.
One of the greatest challenges facing the world today is ensuring an adequate supply and quality of water to meet rapidly increasing human needs whilst securing the continued health of our waterways. The goal of much of the lab's research is to understand and predict interactions between water systems, climate change, land use and ecosystem function and services in estuaries and coasts. We are working predominately in the Gulf of Mexico, Galveston Bay and other Texas bayous to address these concerns, but also have studies with colleagues in other regions of the world. A parallel goal is addressing emerging issues for the 21st century, including but not limited to, the fate and transport of engineered nanoparticles, oil pollutants and other man-made materials in the environment. Phytoplankton are directly and indirectly impacted by these pollutants, such that there is an increased potential for bioaccumulation and biomagnification to higher trophic levels. The potential phytoplankton protective and detoxifying mechanisms are also of interest.",Associate Vice President for Research and Graduate Studies||Professor||Professor,Texas A&M University at Galveston||Oceanography||Marine Biology,https://scholars.library.tamu.edu/vivo/display/n3641a7b1
Sara,Lawhon,Professor,"My research group studies zoonotic bacterial pathogens and focuses primarily on salmonellosis and staphylococcal infections with emphasis on molecular host-pathogen interactions and antimicrobial resistance. We are particularly interested in how bacteria sense environmental signals, communicate with each other (quorum sensing), cause disease, and resist antimicrobial therapy. These fundamental processes are common to the organisms in which we work. We use basic, applied, and clinical science approaches in our studies. Salmonella, Staphylococcus, and Campylobacter infect a broad range of animal host species as well as humans thus making our work relevant to both human and animal health. In addition to this work, we conduct clinical research projects to support the mission of our veterinary teaching hospital and we provide support to other researchers who need microbiology expertise or access resources for their work. Our work has been funded by the FDA, CDC, and several foundations focused on diseases in veterinary species.",Professor,Veterinary Pathobiology,https://scholars.library.tamu.edu/vivo/display/n370f31f1
Luis,Tedeschi,Professor,"Dr. Tedeschi conducts research on energy and nutrient requirements of grazing and feedlot animals, growth biology and bioenergetics, chemical composition and kinetics of fermentation of feeds, modeling and simulation of decision support systems, and evaluation of models (http://nutritionmodels.tamu.edu). He has collaborated with several researchers overseas to develop models for small ruminants (sheep and goats). He utilizes System Dynamics concepts applied to nutrition.",Associate Professor||Professor,Animal Science||Nutrition,https://scholars.library.tamu.edu/vivo/display/n387904d6
Arun,Srinivasa,Professor,"My research focuses on plasticity of metals and polymers; thermomechanics of dissipative processes, dislocation dynamics, Cosserat continua, design and dynamics of compliant mechanisms.",Professor||Faculty Affiliate,Mechanical Engineering||Institute for Engineering Education and Innovation,https://scholars.library.tamu.edu/vivo/display/n3b0f1d01
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
Thomas,Mcdonald,Professor,"My research focuses on environmental chemistry, petroleum geochemistry, and general organic chemistry.",Professor,Environmental and Occupational Health,https://scholars.library.tamu.edu/vivo/display/n407d0459
Qinglei,Li,Professor,"My long-term research goal is to identify the cellular and molecular basis of pregnancy failure and uterine dysfunction, thereby contributing to a framework for developing novel diagnostic and therapeutic strategies to improve reproductive potential. To benefit human and animal health, research in my lab focuses on defining the mechanism underlying uterine development and the pathogenesis of gynecologic cancers. My laboratory has created mouse models that harbor genetic modifications of critical transforming growth factor ? (TGF?) signaling components using conditional loss-of-function and gain-of-function approaches in the uterus. These models have yielded new insights into the fundamental roles of TGF? signaling in reproductive tract development and function. We have also developed pre-clinical mouse models for ovarian granulosa cell tumor and endometrial cancer. These disease models may be harnessed to uncover new opportunities for cancer treatment.",Professor||Professor,The Texas A&M University System||Veterinary Integrative Biosciences,https://scholars.library.tamu.edu/vivo/display/n408645cd
Micky,Eubanks,Professor,,Professor,Entomology,https://scholars.library.tamu.edu/vivo/display/n40f09614
Charles,Criscione,Professor,"I examine fundamental ecological and evolutionary questions in parasite systems and consider my research to be at the interface of ecology, evolution, and genetics. Parasitology provides a rich subject area for studies of ecology and evolutionary biology. Numerous topics such as ecosystem dynamics, mating systems, or coevolution can be addressed because parasites are extremely diverse. By diversity, I include not only the myriad of taxa that have independently evolved a parasitic lifestyle, but also the diversity in life cycles, modes of reproduction, host species, and ecosystems utilized by parasites. This diversity also allows for comparative studies to address theories or unifying principles that span ecosystems or taxonomic groups. Furthermore, there are many practical applications such as studying the evolution of drug resistance, or using parasite community structure to assess ""ecosystem health"". My research interests address both basic and applied questions, and span three overlapping subject areas: 1) Evolution: Population Genetics, Mating Systems, and Molecular Epidemiology, 2) Ecology: Biodiversity, Conservation, and Natural History, and 3) Genetics and Ecological Genomics.",Professor,Biology,https://scholars.library.tamu.edu/vivo/display/n41a8b584
Van,Wilson,Professor,"My area of specialization is the molecular biology of papovaviruses, with a primary focus on how viral proteins modify the host cell environment. Recently, we determined that the viral replication proteins, E1 and E2, are post-translationally modified by addition of 1 or more SUMO moieties. Sumoylation is a widespread modification whose biological functions are only recently becoming understood. Studies are in progress to 1) determine the role of sumoylation in the viral life cycle, 2) evaluate the effect of sumoylation on the structure and activity of the E1 helicase, 3) understand the mechanism by which sumoylation influences E2 stability and transcriptional activity, and 4) determine how sumoylation is modulated by the viral E6 oncoprotein. In addition to the role of sumoylation in the viral life cycle, we are also exploring how sumoylation participates in normal keratinocyte differentiation. We have developed a keratinocyte cell line inducibly expressing a tagged SUMO moiety to facilitate proteomics studies of sumoylation changes and regulation during controlled differentiation.",Professor,Microbial Pathogenesis and Immunology,https://scholars.library.tamu.edu/vivo/display/n4837bbf9
Mary,Wicksten,Professor,"I am studying the Thoridae, a family of small-sized marine shrimp that are remarkably diverse in the cold waters of the North Pacific. Evidence suggests that these shrimp may be losing range due to global warming. They may be replaced by members of a different family, the Palaemonidae, a group of more aggressive predatory shrimp. But to study such a replacement, one must identify the shrimp. The last major study was in 1906. All previous work has been morphological. Evidence from my own work and that of Greg Jensen, University of Washington, suggests that not only have species been confused (one species is actually two, three species actually are only one) but the generic designation may depend on temperature-dependent features. With a small start-up grant from the Arctic Biodiversity Study, I am collaborating with Luis Hurtado,, Department of Wildlife and Fisheries Science, to obtain some molecular data on genetic affinities within the Thoridae and potentially allied shrimp taxa. These data may at least indicate which of the supposed genera are distinct or even if the Thoridae is indeed a natural group. Examination of the 150 or more presumed species will begin following an assessment of the genera.",Professor,Biology,https://scholars.library.tamu.edu/vivo/display/n48bee4d6
Jackie,Rudd,Professor,"I am the project leader of the hard winter wheat breeding program for the High Plains and Rolling Plains of Texas. Responsibilities include management of the cultivar development project, graduate student training, and conducting research relevant to wheat genetic improvement. My current research interests are breeding for water use efficiency, introgression of forage and grain yield traits from synthetic hexaploid wheat, high throughput phenotyping for biomass production, marker assisted breeding for biotic and abiotic stress resistance, and enhanced bread-making quality.","Professor||Project Leader, Wheat Breeding Program",Soil and Crop Sciences||Amarillo Research and Extension Center,https://scholars.library.tamu.edu/vivo/display/n48d095ec
Thomas,Kent,Professor,"Neurologist and clinician scientist with a basic, translational and clinical research program, focused mostly on stroke and other brain injuries. The laboratory utilizes a variety of cell free, tissue culture and in-vivo techniques to design and characterize a series of carbon nanomaterials that possess the ability to act as catalytic antioxidants as well as support key mitochondrial functions. This NIH-supported research is in collaboration with synthetic nano-chemists at Rice University (Tour Lab) and biochemists at University of Texas Health Science Center Houston (Tsai Lab). The group is testing a variety of engineered modifications of these versatile, non-toxic materials to address specific cell injury and death mechanisms including ferroptosis and interruption in electron transport and oxidative phosphorylation.
A major interest of ours is the role of diabetes in worsening outcome from stroke, a condition that affects minority and rural Texans disproportionally. With a range of research from molecular interactions to whole animal and clinical studies, the work in this lab is deeply translational, leveraging the group's clinical training and experience to insure that conclusions have direct relevance to the disease state, with the ultimate goal of facilitating the identification of new therapies for these major contributors to disability and mortality.",Professor,Institute of Biosciences and Technology,https://scholars.library.tamu.edu/vivo/display/n4acd1da6
Yinan,Wei,Professor,"We are interested in studying the interaction between microbes and host systems, in the context of antibiotic resistance, infection, and the innate immune response.",Professor,Pharmacy Practice,https://scholars.library.tamu.edu/vivo/display/n4bb89912
Tanmay,Lele,Professor,"Dr. Tanmay Lele's research is in the area of mechanobiology with a focus on cancer mechanobiology. His lab is interested in the molecular mechanisms by which cell generated mechanical forces and associated signaling pathways enable cell and tissue functions, and how these relationships become altered in cancer. Current research projects in the laboratory include quantitative measurements of nuclear forces, the effect of mechanical stresses on nuclear functions and gene expression, cellular adaptation to mechanical properties of the extracellular matrix, and the mechanics of cancer tissue development.
Lele is a scholar in cancer research at the Cancer Prevention and Research Institute of Texas.",Professor,Biomedical Engineering,https://scholars.library.tamu.edu/vivo/display/n4c5b9ade
Luis,Garcia,Professor,"I am interested in understanding how behavioral states are regulated at the molecular and genetic level. My lab addresses this complex question in the well-studied nematode Caenorhabditis elegans. Several physical aspects of this worm make it convenient for integrating whole organism system biology studies with genetic/molecular analysis of neurobiology and behavior. C. elegans is an anatomically simple organism; it is 1mm in size, and it contains ~ 1000 somatic cells, a third of which are neurons. The worm is also transparent, and thus every cell can be visualized by light microscopy. Behavioral mutants can be efficiently generated through standard chemical mutagenesis. In addition, gene functions involved in motivational and behavioral regulation can be determined by transgenic techniques.
My lab investigates the interplay between feeding and sex-specific mating behavior to understand how chemo/mechano-sensory and motor outputs are controlled under various physiological conditions. We study male mating by using genetics to de-construct this behavior into its fundamental sensory-motor components. We then use a combination of transgenics, pharmacology, classical genetics and laser microsurgery to understand how individual motor sub-behaviors are coordinated to produce gross behaviors during periods when the animal is food deprived, and when it is food satiated.",Professor,Biology,https://scholars.library.tamu.edu/vivo/display/n4cd2f794
Zhenyu,Li,Professor,My research focuses on the mechanism of platelet activation and arterial thrombotic diseases such as heart attack and stroke. We are also interested in the crosstalk between thrombosis and inflammation in sepsis.,Professor,Pharmaceutical Sciences,https://scholars.library.tamu.edu/vivo/display/n4e244e5e
Laszlo,Kish,Professor,Unsolved problems of random noise; Unconditionally secure communications over the wire; KLJN key exchanger; Noise-based logic and computation; Fluctuation-enhanced sensing; SEPTIC bacterium detection method; 1/f noise; Noise in high-Tc superconductors; Conductance noise at percolation; Noise spectrum in self-organized criticality; Stochastic resonance; Nanomaterials and structures; Lognormal distribution; Neuronal firing dynamics; Originality in scientific research; Physical informatics; Energy dissipation in computing and communications; Non-validity of the Landauer theorem; Information versus thermal entropy; etc.,Faculty Affiliate||Professor,Energy Institute||Electrical and Computer Engineering,https://scholars.library.tamu.edu/vivo/display/n4e482d22
Michael,Bishop,Professor,,Professor,Geography,https://scholars.library.tamu.edu/vivo/display/n4e9aa186
Jorge,Da Silva,Professor,"Using cutting-edge technologies in molecular biology and plant genetics, my Sugarcane Breeding program at Texas A&M AgriLife Research has developed energy cane cultivars with high biomass yield, in partnership with Chevron Technologies Venture and BP Biofuels, that can be grown in a wider region of Texas and the United States, specifically designed for use in the production of bio-fuels. This program has also optimized efficient capabilities for scaling up production of feedstock planting stock. In addition, applying Next-Generation DNA sequencing techniques my program has identified and isolated genes controlling stress resistance, such as cold, which could prevent losses to the $3.8 billion US sugar industry and is developing DNA markers to tag important genes controlling cell wall composition and disease resistance.",Professor||Professor,Soil and Crop Sciences||Weslaco Research and Extension Center,https://scholars.library.tamu.edu/vivo/display/n54ad9a43
Mark,Burow,Professor,"Goals of the program are, in collaboration with peanut breeding programs in College Station and Stephenville to
(1) release new cultivars for Texas growers, incorporating:
high yield
improved edible seed quality -early maturity, high oleic oil
resistance to water deficit, heat, and salt stress
resistance to disease and pests, especially leafspot, nematodes, and Sclerotinia blight
(2) Participate in the International Peanut Genome Initiative, and use genomics technology in cultivar
development
(3) Participate in international collaborations with scientists, especially in Ghana and Burkina Faso
through a Peanut and Mycotoxin Innovation Lab/ USAID project",Professor||Professor,Soil and Crop Sciences||Lubbock Research and Extension Center,https://scholars.library.tamu.edu/vivo/display/n57d1bc41
Peregrine,Barboza,Professor,"The principal focus of our research is the consequences of life history and environmental change on nutrition. Our current projects are focused on ungulates (e.g., reindeer, caribou, moose, muskoxen, white-tailed deer) but we also study waterfowl (e.g. ducks and geese) as well as non-game species (e.g. porcupines and bats) in both wild and captive populations. We attempt to provide information that will expand policy options for managing wildlife populations and their habitats.",Professor,"Rangeland, Wildlife and Fisheries Management||Wildlife and Fisheries Sciences",https://scholars.library.tamu.edu/vivo/display/n57f7ebef
Jean-Philippe,Pellois,Professor,"Our goal is to determine how proteins function in space and time in the context of complex cellular networks. We focus on chemistry-driven approaches to manipulate protein structure beyond what is feasible with standard genetics. In particular, we use semi-synthetic light-activatable proteins as biophysical probes to investigate protein mechanisms inside living cells. Areas of interest include the important but poorly understood process of protein S-acylation, signal transduction, and protein trafficking.",Professor,Biochemistry and Biophysics,https://scholars.library.tamu.edu/vivo/display/n5815f42d
Sergio,Capareda,Professor,"Fluidized bed pyrolysis and gasification of biomass; biofuels and biopower production including biomass characterization; waste management, environmental air quality research, PM, GHG and RVOC emissions measurements; engine dynamometer testing; process design and development.",Professor||Faculty Affiliate,Biological and Agricultural Engineering||Energy Institute,https://scholars.library.tamu.edu/vivo/display/n5974e0e3
Joanna,Lahey,Professor,Dr. Joanna N. Lahey received her PhD in economics at the Massachusetts Institute of Technology. Dr. Lahey is an expert on age discrimination and the relationship between age and labor market outcomes. Her work also covers the effects of fertility control access. She is a faculty research fellow at the National Bureau of Economic Research (NBER) and affiliated with J-PAL..,Professor,Bush School of Government and Public Service,https://scholars.library.tamu.edu/vivo/display/n5b32afe1
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
Michael,Smotherman,Professor,"Evolution and Neurobiology of Communication
Communication is an essential part of sociality, and an animal's vocal communications provide a window into their cognitive capabilities, motivations, and behavioral ecology. Communication is also a important model of sensorimotor neurobiology because vocalizations are the motor output of a sophisticated suite of brain pathways that integrate across multiple sensory modalities and time scales. Vocal communication systems are highly diverse because they have been shaped by intense natural and sexual selection. Studying the evolution of communication networks in the brain provides important insight into how environment and ecology molded the social brain.
Our lab studies bats because of their biosonar capabilities and their unusually broad repertoire of communication calls and songs.
Echolocation provides an exciting model system for exploring how multiple brain pathways interact to control behavior on a millisecond time scale. Our neural studies investigate the neurocircuits that guide delicate changes in sonar pulse acoustics. Our behavioral studies of bats echolocating in groups has shed light on how they coordinate their sonar systems to minimize interference with one another. This research has direct relevance to man-made sonar and wireless communications systems.
Singing by bats offers exiting new opportunities to young investigators to explore how mammals and birds converged upon a similar behavior via different neural mechanisms. Identifying and characterizing the functional neurocircuitry of the bat's song production network is a major component of our research.",Professor,Biology,https://scholars.library.tamu.edu/vivo/display/n5bebea24
Kirk,Winemiller,Professor,"The Winemiller Aquatic Ecology Lab investigates fish ecology and evolution, community ecology, and ecosystem ecology in aquatic habitats. Our research is strongly field oriented, with studies conducted at sites throughout Texas, Latin America, Africa, and, more recently, Southeast Asia. Our field research is conducted mostly in fluvial ecosystems (streams, rivers, estuaries) and adopts descriptive, comparative and experimental approaches. The research is strongly oriented towards advancement of both basic scientific understanding as well as options for better conservation of biodiversity and the ecosystems that support it.",Professor,"Rangeland, Wildlife and Fisheries Management||Wildlife and Fisheries Sciences",https://scholars.library.tamu.edu/vivo/display/n5d80ec88
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
Gladys,Ko,Professor,,Professor,Veterinary Integrative Biosciences,https://scholars.library.tamu.edu/vivo/display/n5e930c1f
Stephen,Maren,University Distinguished Professor,"My research focuses on the neural mechanisms underlying emotional learning and memory in animals and the relevance of these mechanisms to clinical disorders of fear and anxiety, including post-traumatic stress disorder (PTSD).",Professor,Psychological and Brain Sciences,https://scholars.library.tamu.edu/vivo/display/n606b4fd1
Mark,Lawley,Professor and Head,"Mark Lawley is TEES Research Professor, and he holds appointments in the Departments Biomedical Engineering and Epidemiology and Biostatistics at Texas A&M University. He serves as Deputy Director of the Center for Remote Health Technologies and Systems, which focuses on developing breakthrough health care devices, technologies, and systems for disease prevention, diagnosis, and management in the global health setting.",Deputy Director||Professor||Department Head and Professor||Professor||Faculty Affiliate||Research Professor,Texas A&M Engineering Experiment Station (TEES)||Epidemiology and Biostatistics||Center for Remote Health Technologies and Systems||Biomedical Engineering||Industrial and Systems Engineering||Institute for Engineering Education and Innovation,https://scholars.library.tamu.edu/vivo/display/n60eae9fb
Oliver,Frauenfeld,Professor,Surface-Atmosphere Interactions
High-Latitude Climate
Atmospheric Circulation
Climate Change,Professor,Geography,https://scholars.library.tamu.edu/vivo/display/n625f85fd
David,Earnest,Professor,"Research in my laboratory employs multidisciplinary approaches to study the cellular and molecular neurobiology of cell-autonomous circadian clocks and the signal transduction pathway responsible for circadian photoentrainment. The aims of current projects are to study: 1) the role of microRNAs (miRNAs) and other signaling molecules in the local temporal coordination of cell- and tissue-specific circadian clocks; 2) mutual interactions between the circadian clock mechanism, inflammatory signaling and metabolism; and 3) the mechanisms linking circadian rhythm disruption with metabolic disorders such as obesity and diabetes, and with pathological changes in neuroprotective responses to stroke.",Professor,Neuroscience and Experimental Therapeutics,https://scholars.library.tamu.edu/vivo/display/n640c528f
Michael,Kolomiets,Professor,The focus of research interests of my laboratory is to investigate genes and metabolites of lipid-based biochemical and signal transduction pathways and the role they play in plant development and survival in response to pathogens.,Professor,Plant Pathology and Microbiology,https://scholars.library.tamu.edu/vivo/display/n64753966
Tiffany,Radcliff,Professor,,Professor||Associate Dean for Research,Health Policy and Management||School of Public Health,https://scholars.library.tamu.edu/vivo/display/n657927d1
Helene,Andrews-Polymenis,Professor,"Salmonella is a leading cause of food borne illness, causing an estimated 1.4 million cases per year in the United States. Serovar Typhimurium is responsible for about 26% of these cases (CDC, 1998). The vast majority of Salmonella infections in mammals and birds are the result of infection with S. enterica subspecies I serovars, yet very few genetic factors that are necessary for intestinal persistence in these reservoirs have been described. Intestinal persistence is critical for shedding and transmission of serovar Typhimurium in mammals and birds, yet this phenomenon and interaction of the organism with the host immune system during persistent infection is poorly understood. The long-term goal of our work is to understand the genetic basis of persistence and host range restriction of Salmonella enterica serovar Typhimurium in its mammalian hosts.",Professor,Microbial Pathogenesis and Immunology,https://scholars.library.tamu.edu/vivo/display/n663cc5f1
Prasad,Enjeti,TI Jack Kilby Chair Professor,"My research focuses on advance power electronic converters for utility interface of solar-pv/wind/fuel-cell/battery-energy storage power systems, design of high temperature power conversion systems with wide band-gap semiconductor devices, new converter topologies for single/three phase solid state transformers (SSTs) with medium frequency isolation, medium voltage power converters for mega-watt scale solar-pv/wind/fuel-cell energy systems, adjustable speed drives with medium frequency transformer isolation, development of smart solar pv-systems for curved surfaces / BIPVs, power quality enhancement for interconnected renewables, Power Quality Issues: Design & development of Active Power Filters; Dynamic voltage restorer's (DVRs) and new & improved ride-through technologies employing Flywheel and Supercapacitors, and advancing switching power supply designs for portable power systems and modular fuel-cell systems.",Professor||TI Jack Kilby Chair Professor||Faculty Affiliate,Energy Institute||Electrical and Computer Engineering||Electrical and Computer Engineering,https://scholars.library.tamu.edu/vivo/display/n66ebcf36
William,Grant,Professor,,Professor,"Rangeland, Wildlife and Fisheries Management||Wildlife and Fisheries Sciences",https://scholars.library.tamu.edu/vivo/display/n6d094941
Guan,Zhu,Professor,"Our laboratory conducts translational research with an ultimate goal to discover new anti-parasitic therapeutics by targeting metabolic enzymes and other molecules critical or essential to the parasite infection, survival and development, such as those involved in the lipid and energy metabolisms and interacting with host cells in Cryptosporidium and other protozoan parasites. Other research areas include functional genomics and molecular evolution of apicomplexan parasites, and parasitic diseases important to the conservation of wild animals.",Professor,Veterinary Pathobiology,https://scholars.library.tamu.edu/vivo/display/n6d62f33b
Weihsueh,Chiu,Professor,,Professor,Veterinary Physiology and Pharmacology,https://scholars.library.tamu.edu/vivo/display/n6e29f354
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
Keyan,Zhu Salzman,Professor,"Over millions of years of co-evolution with insects, plants have developed various defense machineries that can be activated in response to insect herbivory. Insects, in turn, have developed a variety of strategies to evade these plant defense mechanisms. An improved understanding of this complex plant defense and insect counter-defense relationship will facilitate development of better strategies to improve host plant defense. Currently, we are using Arabidopsis to study plant defense signal transduction pathways against insect pests. Meanwhile, since effectiveness of plant defense is also determined by the insect response, my laboratory is also investigating how insects adapt to the challenge of plant defense molecules, as well as to human imposed management strategies, and is working to identify new insect vulnerable systems.",Professor,Entomology,https://scholars.library.tamu.edu/vivo/display/n716ece47
Micah,Green,Professor,,Professor||Faculty Affiliate,Energy Institute||Chemical Engineering,https://scholars.library.tamu.edu/vivo/display/n7276eb81
Anne,Shiu,Professor,"I have research interests in algebraic, geometric, and combinatorial approaches to mathematical biology; biochemical
dynamical systems; neural coding; algebraic statistics; and genomics.",Professor,The Texas A&M University System,https://scholars.library.tamu.edu/vivo/display/n733b25e3
Frances,Ligler,Professor,,Professor,Biomedical Engineering,https://scholars.library.tamu.edu/vivo/display/n74321a1f
Michael,Thomson,Professor,"My research expertise is in plant molecular breeding with an emphasis on rice genetics and genomics, international agriculture, and developing CRISPR-based gene editing approaches for efficient gene validation and trait development. My primary objective is to apply new genetics discoveries to rice improvement to help Texas producers and rice farmers around the world produce higher yields of superior quality rice in an environmentally sustainable manner. I am also leading the AgriLife Research Crop Genome Editing Lab to optimize high-throughput gene editing across a number of diverse crop species.",Professor,Soil and Crop Sciences,https://scholars.library.tamu.edu/vivo/display/n74c30954
Mike,Morrison,Professor,,Professor,"Rangeland, Wildlife and Fisheries Management||Wildlife and Fisheries Sciences",https://scholars.library.tamu.edu/vivo/display/n7568c6ec
Kung-Hui (Bella),Chu,Professor,"Our research interests are in enhancing our understanding of microbial-mediated processes in natural and engineered systems, and in application and development of biotechnology to address various environmental challenges in water, soils, and energy. The Chu lab applies molecular biology, isotopic techniques, chemical analysis, and phage biology to study environmental and biological systems, with focuses on (i) microbial ecology, fate and transport, biodegradation of environmental pollutants such as emerging contaminants and persistent organic pollutants, (ii) production of biofuels and bioproducts from renewable resources, and (iii) detection, tracking, and quantification of microorganisms that play roles in water quality, bioremediation, carbon sequestration and nitrogen cycle in the environment. Other research areas include development and application of novel sorbents and catalysts (bio and non-bio) for removing and/or monitoring emerging environmental pollutants.",Faculty Affiliate||Professor,Civil Engineering||Energy Institute,https://scholars.library.tamu.edu/vivo/display/n7a373eec
Carlos,Gonzalez,Professor,Research in my laboratory encompasses a range of studies that address the genetics of virulence and pathogenicity. The model systems used in our studies are members of the Burkholderia Cepacia Complex (BCC) composed of nine species. The BCC are recognized as significant pathogens in cystic fibrosis patients. We are currently studying secretion systems responsible for export of a cytotoxic protein(s) in both B. cepacia (plant pathogen) and B. cenocepacia (human pathogen) to determine common mechanisms for pathogenicity. In addition we are conducting genomic analysis of BCC bacteriophage.,Professor,Plant Pathology and Microbiology,https://scholars.library.tamu.edu/vivo/display/n7a3b6b1f
Huiyan,Sang,Professor,"Spatial and spatio-temporal statistics, Bayesian statistics, Computational statistics, Machine learning, Extreme values, Environmental Statistics, High-dimensional data analysis, Uncertainty quantification of computer models.",Professor,Statistics,https://scholars.library.tamu.edu/vivo/display/n7a6f5571
Gerard,Cote,Professor,,Professor,Biomedical Engineering,https://scholars.library.tamu.edu/vivo/display/n7bbfddf5
Robert,Nevels,Professor,"My research interests include electromagnetics, nanophotonics, electromagnetic scattering, and antennas.",Professor,Electrical and Computer Engineering,https://scholars.library.tamu.edu/vivo/display/n7c0bf755
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
Gregory,Colwell,Professor,"My research focuses on adolescent smoking cessation, school health education, youth smoking prevention, and adolescent mental health and substance abuse.",Professor,Health Promotion and Community Health Sciences,https://scholars.library.tamu.edu/vivo/display/n7cd01a7d
Arul,Jayaraman,Professor,,Professor,Chemical Engineering,https://scholars.library.tamu.edu/vivo/display/n7deb8230
Lewis,Ntaimo,Professor,"Dr. Ntaimo's research interests are in stochastic programming, systems modeling and engineering processes, and discrete event modeling and simulation. Applications of interest include wildfire planning, healthcare, wind energy, and homeland security.",Professor||Faculty Affiliate,Industrial and Systems Engineering||Institute for Engineering Education and Innovation,https://scholars.library.tamu.edu/vivo/display/n7ead4771
J Timothy,Lightfoot,Professor,"My research focuses on on the genetics of daily physical activity and exercise endurance, as well as the physiological response to high-G exposure and hemorrhage, and the genetics of physical activity. My lab also has a unique interest in the physiological responses of athletes in a variety of non-traditional venues such as auto racing and in musicians.",Professor,Kinesiology and Sport Management,https://scholars.library.tamu.edu/vivo/display/n7ec5bc99
Raul,Medina,Professor,Dr. Medina's research centers around the role that ecological factors play in the population genetics of arthropods. He is particularly interested in the incorporation of evolutionary ecology considerations into pest control practices. His laboratory is currently assessing how species interactions at macroscopic (host-parasite interactions) and microscopic (arthropod microbiomes) levels interact with genetic variation of agricultural pests and arthropod vectors of human disease. His research team is exploring if the same principles governing insect herbivores' adaptation to their hosts translate into arthropod parasites of animals. He is also interested in understanding the factors that make some biotechnology innovations in agriculture controversial in the public sphere.,Professor,Entomology,https://scholars.library.tamu.edu/vivo/display/n807b8d90
Arum,Han,Professor,"His research interests are in solving grand challenge problems in the broad areas of health and energy through the use of micro/nano systems technologies. His work in these areas has focused on the development of in vivo like in vitro systems through microfluidic lab-on-a-chip technologies (e.g., organ-on-a-chip & microphysiological systems, developmental neurobiology models of the central nervous system, blood-brain-barrier-on-a-chip, gastrointestinal tract-on-a-chip, high throughput live cell arrays), development of high throughput single-cell physio-chemical analysis platforms, and development of microbial systems as biorefineries for bioelectricity and biofuel production while simultaneously utilizing wastewater.
He has co-authored more than 80 peer-reviewed publications and has received funding from the Bill and Melinda Gates Foundation, National Institutes of Health (NIH), National Science Foundation (NSF), Defense Threat Reduction Agency (DTRA), United States Department of Agriculture (USDA), U.S. Army Corp of Engineers, Qatar National Research Foundation (QNRF), and several other international sponsors and private companies. He currently serves as the editorial board member of the journal PLoS ONE and as an associate editor for the journal Biomedical Microdevices.",Professor||Faculty Affiliate,Energy Institute||Electrical and Computer Engineering,https://scholars.library.tamu.edu/vivo/display/n8289e950
Francis,Rouquette,Professor,"Primary aspects of this plant-animal interface research program includes simultaneous quantifying of forage persistence and sustainability with animal responses to stocking strategies and grazing intensities. Component research areas include forage germplasm evaluations for team-released varieties; assessment of soil nutrient status under long-term nutrient cycling with fertilizer-stocking regimens; cow-calf and stocker performance on bermudagrass, small grains, ryegrass, and clover; and lifetime animal performance attributes from birth-to-pasture-to-feedlot-carcass with database archival on BeefSys.",Professor||Professor,Soil and Crop Sciences||Overton Research and Extension Center,https://scholars.library.tamu.edu/vivo/display/n82f8d1bd
Patricia,Klein,Professor,"Dr. Klein's research focuses on developing the genomic tools and resources in crops to enable map base cloning of economically important genes, and to understand the underlying mechanisms that plants use to withstand biotic and abiotic stress. Dr. Klein conducts genetic studies on several plant species including sorghum, rose, and pecan. In 2012, Dr. Klein was awarded the College of Agriculture and Life Sciences Dean's Outstanding Achievement Award for excellence as a member of the Sorghum Bioenergy Breeding and Genomics Interdisciplinary Research Team.",Executive Associate Dean||Professor,College of Agriculture and Life Sciences||Horticultural Sciences,https://scholars.library.tamu.edu/vivo/display/n83864ec9
Xinping,Hu,Professor,"I am the Endowed Chair for Ecosystem Science and Modeling at Harte Institute for Gulf of Mexico Studies and a Professor in the Department of Physical & Environmental Sciences at Texas A&M University-Corpus Christi.
Our research focuses on understanding the dynamics of estuarine and ocean acidification and the controlling factors, in an effort to understand its impact on marine organisms. We employ a multitude of techniques, including in situ and shipboard observations, as well as statistical and numerical modeling to unravel the linkages between the changes in the water and the factors that are behind. Our research aims to provide most up-to-date information to stakeholders that include coastal communities, fishing and aquaculture industries, and state and federal agencies for management purposes.","Professor||Associate Professor, Physical and Environmental Sciences||TEES Researcher at TAMU-Corpus Christi","Texas A&M University - Corpus Christi - (Corpus Christi, Texas, United States)||Texas A&M University - Corpus Christi - (Corpus Christi, Texas, United States)||TEES Regional Divisions",https://scholars.library.tamu.edu/vivo/display/n83cd1943
Harvey,Scott,Professor,"Dr. H. Morgan Scott is a graduate veterinarian holding a PhD in epidemiology and post-doctoral training in public health. In addition to private veterinary practice, he has worked in both government (food safety surveillance) and academic settings. He is currently professor of epidemiology in the Department of Veterinary Pathobiology at Texas A&M University. He was recruited to Texas A&M University in 2014 as part of the Texas A&M University System Chancellor's Research Initiative and the University President's Initiative on One Health and Infectious Diseases. He relocated from Kansas State University, where he previously held the E.J. Frick Professorship in Veterinary Medicine. Much of his research emphasis has been on studying factors impacting antimicrobial resistance among commensal and pathogenic enteric bacteria in food animal production systems, with a program spanning the realm from the molecular to the sociological. In particular, he is interested in applying both epidemiological and ecological approaches to quantify the emergence, propagation, dissemination, and persistence of resistant enteric bacterial strains in integrated populations of animals, their food products, and humans. Using this knowledge, he hopes to identify opportunities to prevent and intervene against resistance among enteric pathogens in animal agriculture; preferably, by developing readily adoptable and cost-effective management practices suited to modern animal and food production systems.",Professor,Veterinary Pathobiology,https://scholars.library.tamu.edu/vivo/display/n8499539d
Allison,Rice-Ficht,Senior Associate Vice President for Research,"Studies in the our lab are currently focused on the use of unique biomaterials for controlled release of live and subunit vaccines. Our focus is currently directed to the production of vaccines against human Brucellosisand Q fever, but will be applied to the storage and delivery of other vaccines. A study of specific immune mechanisms and potentiation through controlled releases is underway. Another focus is the study of alpha crystalline structure and function. These unique proteins protect against thermal insult and modulate folding and activity of other proteins",Professor||Senior Associate Vice President for Research,Cell Biology and Genetics||Division of Research,https://scholars.library.tamu.edu/vivo/display/n84a56c5b
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
Daniel,Ebbole,Professor,"Development and pathogenesis share the common features of responding to environmental conditions to execute a program of gene expression resulting in new cell types.
An important question in plant pathogenesis is to understanding the functions of pathogen effectors and their host target(s). Fungal effectors play roles in suppressing host defense mechanisms, however, other biotrophic functions, such as manipulating host physiology to promote nutrient acquisition and cell-to-cell movement are possible. Therefore, identification of the full set of fungal proteins secreted during host invasion is a major effort in plant pathology research. Candidate effectors are generally identified by virtue of i) their expression in planta ii) assessing their activity on the host using purified proteins or by manipulating expression iii) detecting the rapid evolution of effector genes due to selective pressure from the host. My lab is using a combination of these approaches to identify and characterize a gene family of putative effectors from Magnaporthe oryzae, the rice blast fungus and define interactions with monocot hosts.",Professor,Plant Pathology and Microbiology,https://scholars.library.tamu.edu/vivo/display/n86da3f1b
John,Edens,Professor,"My research centers on psychology and the legal system; psychopathic personality, related disorders, and antisocial behavior; psychological assessment and testing",Professor,,https://scholars.library.tamu.edu/vivo/display/n89499925
Hongbin,Zhang,Professor,"My research is focused on genomics and systems biology in crop plants, particularly development of genomic and systems biological knowledge and new or advanced technologies for enhanced crop research and breeding. These include re-establishing of the molecular basis and mechanisms of genetics and biology; cloning and characterization of genes and quantitative trait loci (QTLs) controlling traits of agronomic importance; deciphering of the molecular mechanisms of biological phenomena or traits of importance such as quantitative genetics, epigenetics, crop yield, crop quality, heterosis and plant polyploidization; and development of molecular toolkits and associated pipelines for next-generation enhanced crop breeding such as gene-based breeding and crop production such as molecular precision agriculture.",Professor,Soil and Crop Sciences,https://scholars.library.tamu.edu/vivo/display/n8ad1df35
Qingwu,Xue,Professor,"Develop a competitive and extramurally funded research program in the area of crop water use, water use efficiency, and abiotic and biotic stress resistance in major field crops in the Texas High Plains. The overall goal of my research program is to provide selection tools for breeders and geneticists and management tools for agronomists and producers, through better understanding the physiological mechanisms of crop performance under stress conditions. The major research focuses include understanding physiological and molecular mechanisms of drought tolerance, identifying plant traits conferring to stress tolerance, understanding the interactions of abiotic and biotic stresses, evaluating and developing field phenotyping tools, and developing management strategies under stress conditions. Advise graduate student research.",Professor||Professor||Adjunct Professor,"Soil and Crop Sciences||Texas A&M AgriLife Research||West Texas A&M University - (Canyon, Texas, United States)",https://scholars.library.tamu.edu/vivo/display/n8c76b901
Michael,Polymenis,Professor,"The promise for the treatment of proliferative disorders, with incalculable potential benefits to human health, has driven basic research into the genetic control of cell division for decades. However, what determines when cells initiate their division remains mysterious. It is as if we are staring at a beautiful engine, with little knowledge about what turns it on. How cells are set off to a new round of cell division, remains as one of the most fundamental, unanswered questions. It is virtually unknown which cellular pathways affect initiation of division, which factors operate within each pathway, the extent of interactions between pathways, and how each pathway is molecularly linked to the machinery of cell division. Our studies aim to answer these questions using baker's yeast. This model organism has a machinery of cell division that is very similar to that of human cells, and it is suited for genetic and biochemical studies.",Professor,Biochemistry and Biophysics,https://scholars.library.tamu.edu/vivo/display/n8c9420b2
James,Cai,Professor,"Dr. Cai's research lies at the interface of single-cell biology, computational statistics, and data science. Current research focuses on using machine learning, network science and quantum computing to better understand the diverse behaviors of cells. Dr. Cai's group develops novel algorithms and analytical frameworks to study single-cell omics data from various types of cells, and the genetic basis of phenotypic variability to identify genetic variants that modulate complex phenotypic traits and susceptibility of genetic disorders.",Professor||Professor||Faculty,Veterinary Integrative Biosciences||Center for Statistical Bioinformatics||Electrical and Computer Engineering,https://scholars.library.tamu.edu/vivo/display/n8d287cea
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
Simon,Foucart,Professor,I have research interests in compressive sensing; Approximation Theory (especially Spline Functions and Minimal Projections);
computational mathematics; bioinformatics; and data science.,Professor,Mathematics,https://scholars.library.tamu.edu/vivo/display/n900a07cb
James,Sacchettini,Professor,"My lab uses X-ray crystallography to better understand the relationship between proteins and ligands. Tiny differences in the structure of a molecule can radically change the interaction between a protein and ligand and we are only begining to understand how many factors play a role in this interaction. By manipulating the individual components of a compound it is possible to create a chemical that binds to the protein better than the natural substrate, and prevent the natural reaction from occurring. This is the basis for rational drug design. Our efforts have lead us to collaborations with other labs and scientists in many disciplines as our approach to directed compound design has applications not only in basic research but also in pesticide development, health research and clinical research.",Professor,Biochemistry and Biophysics,https://scholars.library.tamu.edu/vivo/display/n90385563
Marielle,Engelen,Professor,"My research focuses on the metabolic alterations underlying involuntary weight loss and muscle wasting in chronic inflammatory diseases, involving the use of stable isotope methodologies, and the effects of dietary modulation and exercise intervention to restore metabolism and physical performance in these patients.",Professor||Professor,Kinesiology and Sport Management||Center for Translational Research in Aging and Longevity,https://scholars.library.tamu.edu/vivo/display/n90a05e0d
Ken,Muneoka,Professor,My lab is focused on understanding epimorphic and tissue regeneration in mammals.,Professor,Veterinary Physiology and Pharmacology,https://scholars.library.tamu.edu/vivo/display/n9156816d
Tryon,Wickersham,Professor,,Professor,Animal Science,https://scholars.library.tamu.edu/vivo/display/n91a83cd7
Hisashi,Koiwa,Professor,,Professor,Horticultural Sciences,https://scholars.library.tamu.edu/vivo/display/n931bc4cc
Julio,Bernal,Professor,"My research program focuses on contributing to the theory and practice of biological control of arthropod pests in managed ecosystems. Specifically, research has focused on ecology and behavior of natural enemies and pests via field and laboratory studies.",Professor,Entomology,https://scholars.library.tamu.edu/vivo/display/n939f7165
Xudong,Zhang,Professor,"My research centers on modeling, analysis, and simulation of the human musculoskeletal system and its multi-scale structures and components during functional, particularly dynamic activities. The overarching goal is to advance the musculoskeletal biomechanical science bases and applications in healthcare and human-machine systems engineering.",Professor||Professor,Mechanical Engineering||Industrial and Systems Engineering,https://scholars.library.tamu.edu/vivo/display/n93a0024f
Nova,Silvy,Regents Professor,,Professor,"Rangeland, Wildlife and Fisheries Management||Wildlife and Fisheries Sciences",https://scholars.library.tamu.edu/vivo/display/n9474c27a
Timothy,Phillips,Professor,food safety; molecular toxicology; elucidation of fundamental chemical mechanisms of toxic action/interaction of food-borne carcinogens; mutagens; and developmental toxicants; and development of methods to detect and detoxify foodborne and environmental toxins.,Professor,Veterinary Integrative Biosciences,https://scholars.library.tamu.edu/vivo/display/n94eef946
Brian,Shaw,Professor,,Professor,Plant Pathology and Microbiology,https://scholars.library.tamu.edu/vivo/display/n94f2923f
Xinyue,Ye,Professor,"Dr. Xinyue Ye is Harold Adams Endowed Professor on Interdisciplinary Built Environment Science Research and Stellar Faculty Provost Target Hire for Urban Computing at Texas A&M University. With the career experience in urban planning, economic geography, geographic information system, and computational science, his research focuses on geospatial artificial intelligence, big data, smart cities, and urban computing. Dr. Ye models the space-time perspective of socioeconomic inequality and human dynamics for applications in various domains, such as economic development, disaster response, transportation and land use, public health and urban crime.
Prof. Ye is Editor-in-Chief of the Journal of Computational Urban Science (indexed in EI and Web of Science), published by Springer. He also serves as the co-editor of Journal of Planning Education and Research. He is Vice President of Spatial Decision Support Consortium. He directs the focus of smart cities and transportation in the PhD program of Urban and Regional Science at Texas A&M University. He established Urban Data Science Lab as a platform to fly the imaginations of urban solution. He leads Design and Analytics Lab for Urban Artificial Intelligence (AI), funded through the Texas A&M Institute of Data Science. This lab develops digital twins and virtual/augmented reality (VR/AR) for multi-scaled simulations and scenarios for dynamically analyzing real-time built environments and testing scenarios for sustainable growth and climate action. This involves 55 faculty members across nine colleges at TAMU, including the Galveston campus, Texas A&M Engineering Experiment Station, AgriLife Research, and Texas A&M Transportation Institute. In addition, he leads the development of urban data science course series, among the seven selected across campus. As the interim director of Center for Housing & Urban Development, Dr. Ye promotes the vision of ""urban informatics+"" to integrate human-centered urban and regional science research across disciplines. As the Director of the Center for Geospatial Sciences, Applications and Technology (GeoSAT) established by the Texas A&M Board of Regents, Dr. Ye aims to facilitate the convergence of computing and geospatial science.",Professor||Faculty Affiliate||Professor||Faculty Affiliate||Professor||Faculty Affiliate||Faculty Affiliate||Director||Professor||Faculty Fellow (Strategic Initiatives and Partnerships),"Division of Research||Center for Geospatial Science, Applications & Technology||Institute for Science, Technology, and Public Policy||Landscape Architecture and Urban Planning||Energy Institute||Multidisciplinary Engineering||Hazard Reduction and Recovery Center||Geography||Computer Science and Engineering||Texas A&M Institute of Data Science",https://scholars.library.tamu.edu/vivo/display/n96eca29a
Terje,Raudsepp,Professor,"Comparative genomics and molecular cytogenetics of animals, birds and other vertebrates organization, function and evolution of sex chromosomes; equine genomics - genomics of genetic diseases and disorders of sexual development and reproduction; alpaca and camelid genomics.",Professor,Veterinary Integrative Biosciences,https://scholars.library.tamu.edu/vivo/display/n970d3a82
Nicholas,Jeffery,Professor,,Professor,Small Animal Clinical Sciences,https://scholars.library.tamu.edu/vivo/display/n989eab0c
Nancy,Ing,Professor,"Dr. Ing's research interests focus on understanding how hormones regulate gene expression in animal tissues. Current research projects investigate the earliest days of pregnancy in the sheep uterus and the regulation of estrogen receptor gene expression, as well as stress hormone effects on gene expression in the stallion testes. Most recently, we have been studying the RNAs in sperm from stallions and honey bees in order to find a pattern consistent with high fertility.",Professor,Animal Science,https://scholars.library.tamu.edu/vivo/display/n98a4a111
Anna,Armitage,Professor,"Dr. Anna Armitage is a broadly trained community ecologist with over 20 years of experience working in coastal wetlands. Her research utilizes multivariate, interdisciplinary field studies to study trophic interactions and anthropogenic impacts in coastal wetland habitats, including marshes, mangroves, and seagrasses. Her current research projects include studies about the effects of nutrient enrichment on ecological interactions and processes in the mangrove-marsh ecotone and other coastal wetland habitats. She has extensive experience conducting large-scale field surveys and managing and analyzing complex datasets. She has published over 60 peer-reviewed papers and has supervised numerous graduate and undergraduate students and postdoctoral research scholars.",Professor||Professor,Ecology and Conservation Biology||Marine Biology,https://scholars.library.tamu.edu/vivo/display/n99566a91
James,Grau,Professor,,Professor,,https://scholars.library.tamu.edu/vivo/display/n99939828
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
Keerti,Rathore,Professor,"My current research interests are in the genetic improvement of important dicot (cotton and tomato) and monocot (rice and sorghum) crops. Protocols for efficient delivery of genes, optimal expression of transgenes, and rapid recovery of transgenic cotton, rice, and sorghum plants have been established in my laboratory. These procedures are being used to conduct both basic and applied research pertaining to crop improvement. Projects include regeneration from cell & tissue cultures, use of new reporter and selectable marker genes to understand and improve the transformation process, promoter analysis, enhancement of disease resistance in plants, conferring draught tolerance to crop plants, conferring insect resistance to crop plants, improving nutritional quality of seeds, and production of recombinant antibodies and vaccines in plants.",Professor,Soil and Crop Sciences,https://scholars.library.tamu.edu/vivo/display/n9b4a2655
John,Stallone,Professor,"Research in my lab focuses on male-female differences in normal cardiovascular function, and in the development of various diseases, including hypertension, coronary artery disease, and stroke, and the roles of the sex hormones in these male-female differences in cardiovascular disease. A major topic of study in my lab is the so-called ""estrogen paradox"" which reveals protective effects of this female sex hormone in younger women and animals, but deleterious effects in older females.",Professor,Veterinary Physiology and Pharmacology,https://scholars.library.tamu.edu/vivo/display/n9dab7ff2
Jun,Kameoka,Professor,"My research focuses on Biosensor, chemical sensor, microfluidics.",Faculty Affiliate||Professor,Energy Institute||Electrical and Computer Engineering,https://scholars.library.tamu.edu/vivo/display/na22e6ad9
Chaodong,Wu,Professor and Presidential Impact Fellow,"The long-term goal of Dr. Wu's research program is to elucidate the mechanisms underlying the pathogenesis of obesity and overnutrition-associated metabolic diseases including insulin resistance, diabetes, and fatty liver disease so that novel dietary and/or pharmacological approaches can be developed for preventing and/or treating metabolic diseases. Using molecular, cellular, and integrative approaches, the Wu lab is focused on investigating the interaction between metabolism and inflammation.",Professor||Professor,Texas A&M AgriLife Research||Nutrition,https://scholars.library.tamu.edu/vivo/display/na24a9d43
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
Daniel,Mcadams,Professor,"I have research interests in design theory and methodology with specific focus on functional modeling; innovation in concept synthesis including computational methods; bio-inspired design methods; design for disability, and technology evolution as applied to product and system design.",Professor,Mechanical Engineering,https://scholars.library.tamu.edu/vivo/display/na3b0e649
Audrey,Cook,Professor,,Professor,School of Veterinary Medicine and Biomedical Sciences,https://scholars.library.tamu.edu/vivo/display/na4e01789
Krishna,Narayanan,Professor,"I teach and conduct research in the areas of information theory, coding theory, data science, signal processing and machine learning. I am particularly interested in applications to 6G wireless communications and emerging paradigms in data storage.",Associate Director for Educational Initiatives||Professor,Electrical and Computer Engineering||Texas A&M Institute of Data Science,https://scholars.library.tamu.edu/vivo/display/na5215b26
David,Byrne,Professor,,Professor,Horticultural Sciences,https://scholars.library.tamu.edu/vivo/display/na77739a4
Xiaohui,Xu,Professor,"Dr. Xu is an environmental epidemiologist whose research focuses on studying the health impacts of global or emerging environmental exposures such as air pollution, climate change, and hydraulic fracture. He is interested in conducting community-engaged research to understand the impacts of physical, chemical, and biological environmental factors on public health and aims to promote a healthy and safe environment through interventions and education.",Professor,Epidemiology and Biostatistics,https://scholars.library.tamu.edu/vivo/display/na9c51203
Aaron,Tarone,Professor,"The Tarone laboratory is interested in factors that lead to local adaptations of fly development times and body sizes. These traits are influenced by numerous genetic and environmental factors. They are also ecologically important life history traits for any organism and are frequently found to be under differential selection across populations of numerous fly species. Accordingly, there are many applied and theoretical reasons for dissecting the causes of variation in these phenotypes in flies that influence human activities.",Professor,Entomology,https://scholars.library.tamu.edu/vivo/display/nae6767b7
Jeffrey,Liew,Professor,"Jeffrey Liew is a Professor in the Department of Educational Psychology in the School of Education and Human Development at Texas A&M University. He is a developmental and learning scientist, and has been nationally and internationally recognized for his expertise on social-emotional development and emotional self-regulation processes in early childhood to early adulthood. A major strand of Liew's research focuses on individuals' resilience, thriving, and flourishing, including the risk and protective or promotive factors that are linked to developmental and academic or learning outcomes. Liew has been invited for keynote presentations internationally. He has also been invited for his expertise and served as a grant reviewer or as panel member for the National Institute of Health (NIH), the National Science Foundation (NSF), the Ministry of Education of Singapore, and the University Grants Committee of Hong Kong. Dr. Liew was elected as an American Psychological Association (APA) Fellow for outstanding contributions and national impact in the field of psychology, and he has authored more than 100 scholarly publications with much of his work funded by state, federal, or foundation grants, including the NIH and the NSF. Liew has served in multiple leadership positions, including the Associate Dean for Research in his School and Interim Head for his Department. He is the incoming Editor-in-Chief of Early Education and Development and Co-Editor of the Section on Social Emotional Learning in the Routledge Encyclopedia of Education.",Professor,Educational Psychology,https://scholars.library.tamu.edu/vivo/display/nafb9f9ab
Brandon,Schmeichel,Professor,"I have broad interests in social and personality psychology, particularly the human capacity for self-control. My research examines willpower, choice, memory, motivation, emotion, and emotion regulation.",Professor,,https://scholars.library.tamu.edu/vivo/display/nb08afaf3
Siegfried,Musser,Professor,"The primary focus of my laboratory is to decipher how proteins partition into different sub-compartments of the cell. Cellular membranes serve to compartmentalize biochemical reactions to specific microenvironments. Proteins cross these membranes via a diverse array of protein translocation systems, or translocons. My laboratory has investigated the detailed molecular function of three different protein transport machineries, the human nuclear pore complex (NPC) and the bacterial Sec and Tat general secretion machineries. We are a biophysics lab and our primary tools for deciphering molecular mechanisms and dynamics are super-resolution imaging and single molecule particle tracking approaches. Our aim is to develop detailed, molecular-scale, mechanistic models of protein transport processes. We recently demonstrated 3D imaging of cargo transport through nuclear pores on the millisecond timescale with 5-15 nm precision in all three dimensions. This will be a major tool going forward for multiple projects.
In 2018, we began a new project on membrane-less organelles, which are micrometer-scale cellular structures known as biomolecular condensates (BMCs) that contain high concentrations of intrinsically disordered proteins and RNA. These BMCs are generally agreed to arise from liquid-liquid phase separation (LLPS), which is the spontaneous partitioning into dense and dilute phases due to favorable interactions between the separating molecules. The high density of aggregation prone proteins in BMCs is thought to lead to the cellular inclusions found in patients with multiple neurological diseases including amyotrophic lateral sclerosis (ALS), frontotemporal dementia (FTD) and Parkinson's and Alzheimer's diseases. We are using super-resolution and single molecule methods to probe the structural and dynamic heterogeneity of condensates formed from the fused in sarcoma (FUS) protein to identify the conditions that lead to solidification of liquid condensates (phase maturation).",Professor,Cell Biology and Genetics,https://scholars.library.tamu.edu/vivo/display/nb824aefa
Rhonda,Miller,Professor,,Professor,Animal Science,https://scholars.library.tamu.edu/vivo/display/nb97c5e3d
Marco,Palma,Professor,"Dr. Marco A Palma is Professor in the Department of Agricultural Economics at Texas A&M University. His areas of interest are consumer economics, food choices, experimental and behavioral economics and neuroeconomics. Dr Palma is the director of the Human Behavior Laboratory (http://hbl.tamu.edu), a transdisciplinary facility that integrates state of the art technology to measure biometric and neurophysiological responses of human decision making. The HBL aims to facilitate the integration of neurophysiological responses to traditional methods of studying human behavior in the social sciences. Specifically, it provides access to state of the art equipment to simultaneously collect psychophysiological data, including eye tracking, facial expression analysis to assess human emotions, neural signals (electroencephalography), galvanic skin response (GSR) heart and respiration rates through integrated stimulus presentation platforms.",Professor,Agricultural Economics,https://scholars.library.tamu.edu/vivo/display/nba337537
Ashok,Shetty,Professor and Associate Director,"Dr. Ashok K. Shetty's laboratory is interested in developing clinically applicable strategies efficacious for enhancing brain function after injury, disease, or aging. The central areas of investigation are focused on:
o Mechanisms by which intranasally administered stem cell-derived extracellular vesicles (EVs) promote neuroprotection, neuroregeneration, neural plasticity, and alleviate neuroinflammation. The sources of EVs include human bone marrow mesenchymal stem cells (hMSCs), and human induced pluripotent stem cell-derived neural stem cells (hiPSC-NSCs), astrocytes, and microglia. The model systems include traumatic brain injury (TBI), closed head injury (CHI), Aging, Alzheimer's disease (AD) and temporal lobe epilepsy (TLE).
o Mechanisms by which transplanted human neural stem cells or human GABA-ergic precursor cells derived from hiPSCs promote brain repair, and alleviate spontaneous seizures, and cognitive and mood impairments in prototypes of SE, TLE, and TBI.
o Elucidating mechanisms of brain dysfunction and chronic neuroinflammation in prototypes of Gulf War Illness. Developing therapeutic strategies to alleviate neuroinflammation, systemic inflammation, and cognitive and mood impairments in models of GWI.
o Developing clinically feasible strategies for improving brain function in aging and AD models via stimulation of endogenous neural stem cells using drugs and biologics.
Dr. Shetty has received continuous extramural research funding as PI for >25 years from sources such as the NIH, DOD, Dept of Veterans Affairs (VA), and industry. These include seven R01 grant awards and an R21 grant award from the NIH; seven CDMRP grant awards from the DOD; five Merit Grant awards and two Research Career Scientist Awards from the VA; and two industry grants. He has also served as Co-I of 8 other DOD grants. Grants from the NIH, DOD, and industry fund Dr. Shetty's current research. Dr. Shetty has authored 181 peer-reviewed publications (147 as senior/first author) and edited a book on Neural Stem Cells in Health and Disease. His work has appeared in many prestigious and high-impact journals. Dr. Shetty has received >17,000 citations for his publications with an h-index of 64. Dr. Shetty has the distinction of serving on two NIH Study Sections and one VA study section as a Chartered Member. Besides, he has served as a member of many other study section panels of the NIH, DOD, VA, and Maryland State Stem Cell Research Fund. Dr. Shetty is Co-Editor-in-Chief of the journal, Aging & Disease and Associate Editor of 6 Neuroscience journals. He is also a Member of the Editorial Board of many prestigious journals, including The Journal of Extracellular Vesicles, Aging Cell, and Stem Cells. Dr. Shetty is a Fellow of the American Society for Neural Transplantation and Repair. Dr. Shetty received the Senior Research Excellence Award in 2021 from the TAMU College of Medicine and is among the ""World's Top 2% Scientists"" across all scientific fields.","Associate Director, Institute for Regenerative Medicine||Professor",Cell Biology and Genetics||Cell Biology and Genetics,https://scholars.library.tamu.edu/vivo/display/nba613a86
Yu (Yvette),Zhang,Professor,"Dr. Zhang's research interests include Behavioral Economics, Applied Econometrics, Experimental Economics, Food Safety and Policy, Environmental Economics, Nutrition and Health, Development Economics, International Economics, and Neuroeconomics.",Faculty Affiliate||Professor,Energy Institute||Agricultural Economics,https://scholars.library.tamu.edu/vivo/display/nbada46b6
Christabel Jane,Welsh,Professor,Mechanisms of disease pathogenesis of neurotropic viruses. Immunological therapies for multiple sclerosis and epilepsy. Neuroimmunological changes in the injured CNS,Professor,Veterinary Integrative Biosciences,https://scholars.library.tamu.edu/vivo/display/nbb081247
Heather,Wilkinson,Professor,"We apply evolutionary and ecological genetics approaches and questions to a variety of microbial systems. At the most basic level our overarching goal in my program is to elucidate the genetic basis for adaptation and/or how the patterns of associated phenotypes are distributed in nature or across environmental conditions. My strategy in research is not only to directly test hypotheses central to a specific project, but also, to concomitantly build tools and resources necessary to expand and/or redirect the scope of the project as needed due to opportunity, curiosity or both. Such tools include items like databases, well-characterized libraries of biological materials, and experimental skill-sets among personnel.",Associate Dean of Faculties||Professor,Plant Pathology and Microbiology||Office of the Dean of Faculties,https://scholars.library.tamu.edu/vivo/display/nbc585f10
Richard,Kreider,Professor,"Director of the Exercise and Sport Nutrition Lab.
We study the role of exercise and nutrition on health, performance, disease and rehabilitation.","Faculty Fellow||Professor and Head||Director||DIrector, Human Clinical Core||Professor",Center for Health Systems and Design||Kinesiology and Sport Management||School of Education and Human Development||The Exercise and Sport Nutrition Laboratory||Nutrition,https://scholars.library.tamu.edu/vivo/display/nbc81b4e0
Nicolaas,Deutz,Professor,"My research background and expertise focus on nutrition, metabolism, and physiology studies involving the use of stable isotope methodologies, both in humans and animals. I also have extensive experience with isotopic calculations, validation and data interpretation.",Professor,Primary Care and Rural Medicine,https://scholars.library.tamu.edu/vivo/display/nbd596655
Sorin,Popescu,Professor,"Dr. Sorin Popescu's academic interests focus on the application of remote sensing, in particular, and spatial sciences, in general, in natural resources assessment, monitoring, and management. His research interests include remote sensing applications in natural resources and forest sciences, assessment of forest fuels, forest volume and biomass, land use and land cover change, forest carbon sources and sinks, and global environmental change. He has developed various algorithms and software tools for multisensor data fusion and for processing LIDAR data for estimating forest biophysical parameters, such as stand density, tree height, crown diameter, volume, and biomass.",Professor,Ecology and Conservation Biology,https://scholars.library.tamu.edu/vivo/display/nbdf8b134
Clint,Magill,Professor,"The use of molecular probes is allowing us to gain new insights into fungal plant pathogens and to host responses to potential pathogens. We are currently developing real-time PCR primers for two downy mildews that are considered to be a threat to maize production if introduced into the US. We are also developing PCR-based tags genes for resistance to headsmut, anthracnose, downy mildew and grain mold in sorghum. These molecular tags will be useful for breeding cultivars with more durable resistance and for cloning specific resistance genes. We have also used PCR to clone segments of the cotton and sorghum equivalents of genes that function in known host defense pathways. These clones are being used to compare the rate and timing of induction of each gene in resistant and susceptible lines following inoculation with a pathogen. Genome wide association studies are being used to identify genes associated with disease response (susceptible or resistant) to several pathogens in sorghum.",Professor,Plant Pathology and Microbiology,https://scholars.library.tamu.edu/vivo/display/nc127cd28
Catherine,Eckel,Professor,"Catherine Eckel is Sara and John Lindsey Professor in the Liberal Arts and University Distinguished Professor in the Department of Economics at Texas A&M University, where she directs the Behavioral Economics and Policy Program. She has held faculty positions at the University of British Columbia, Virginia Tech, and the University of Texas at Dallas, where she was founder and director of the Center for Behavioral and Experimental Economic Science. She received her Ph.D. in Economics from the University of Virginia in 1983.
As an experimental economist, she has made important contributions on topics that are both policy-relevant and of interest to the academic community. Examples include studies of: financial decision making; financial markets; altruism and charitable fundraising; preferences and behavior in poor, urban settings; the coordination of counter-terrorism policy; gender differences in preferences and behavior, including risk-taking and cooperation; and discrimination by race and gender in games of trust; racial/ethnic identity and undergraduate academic success. She is or has been a PI or Co-PI on twenty-four grants from the National Science Foundation totaling over $4.4 million. Her research has been funded by private foundations including the Russell Sage Foundation, the Aspen Foundation, and the John D. and Catherine T. MacArthur Foundation.
Dr. Eckel is Past President of the Economic Science Association (the professional organization of experimental economists), and was President of the Southern Economic Association (the largest regional association in Economics). She served for two years as an NSF program director for the economics program and currently serves on the Advisory Committee of NSF's Directorate for Social Behavioral and Economic Sciences. She was co-editor of the Journal of Economic Behavior and Organization (2005-2012), and has served as associate editor or on the editorial boards of twelve journals.
Eckel is an award-winning teacher, and enjoys engaging undergraduate students in original research projects. She has advised 15 PhD dissertations, and her students hold faculty positions in the US and around the world. In January 2013, Dr. Eckel was awarded the prestigious Carolyn Shaw Bell Award, given annually by the American Economic Association Committee on the Status of Women in the Economics Profession, for her work developing and participating in mentoring programs for women assistant professors.",Professor,Economics,https://scholars.library.tamu.edu/vivo/display/nc1aeb0f6
Vernon,Tesh,Professor,,Professor,Microbial Pathogenesis and Immunology,https://scholars.library.tamu.edu/vivo/display/nc2165f28
Susan,Bloomfield,Professor,"My research interests focus on the integrative physiology of bone, with specific reference to adaptations to disuse, microgravity, and caloric deficiency.",Professor,Kinesiology and Sport Management,https://scholars.library.tamu.edu/vivo/display/nc2a60db1
Peter,Dotray,Professor,"Determine effective, profitable, and sustainable weed management systems in cotton and crops grown in rotation with cotton on the Texas Southern High Plains. Best management practices are critical for effective and sustainable crop production in light of the development of herbicide resistant weeds. Rotational crops including corn, sorghum, peanut, and sesame help to break up crop/weed associations and allow the use of a diversity of mechanical, cultural, biological, and chemical practices. Weed biology and ecology is essential to better understand weeds in these production systems.",Professor||Professor,Soil and Crop Sciences||Lubbock Research and Extension Center,https://scholars.library.tamu.edu/vivo/display/nc40acf7a
Kevin,Burgess,Professor,"We use novel strategies Exploring Key Orientations (EKO) that feature datamining to compare simulated preferred conformers of chemotypes we design with key features at protein-protein interfaces. Many chemotype candidates can be screened against one PPI, or one chemotype can be screened against all the PPI interfaces in the PDB. Virtual hit chemotypes are prepared in my lab, then tested against protein-protein interactions of biomedicinal interest using an array of biophysical and cellular assays.
We also design small molecules to target cell surface receptors that are selectively overexpressed in cancer cells. Much or our work has been focused on the TrkC receptor that is particularly important to metastatic breast cancer and melanoma. Going forwards we are interested in expanding the targets to include cell surface receptors that are overexpressed when cancer cells undergo aberrant epithelial to mesenchymal transitions (EMT) to produce circulating tumor cells and cancer stem cells. Much of this work involves design and synthesis of the small molecules for this targeting.",Professor,Chemistry,https://scholars.library.tamu.edu/vivo/display/nc4a5cad4
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
Gary,Voelker,Professor,"I am an ornithologist/evolutionary biologist, and my lab focuses primarily on developing molecular phylogenies of avian lineages (and now a few mammals), and using these phylogenies to address questions posed by relationships within those lineages. To date, this research has focused on genera that are distributed on two or more continents (Anthus (pipits), Motacilla (wagtails), Cinclus (dippers) and Turdus (thrushes)). In addition to resolving species relationships and revising taxonomy, work in my lab has has dealt with reconstructing historical biogeography and examining the relative roles that dispersal and vicariance (e.g., mountain uplift) may have played in the development of modern day species distributions and assemblages.",Professor,"Rangeland, Wildlife and Fisheries Management||Wildlife and Fisheries Sciences",https://scholars.library.tamu.edu/vivo/display/nc63d7bcc
Samuel,Brody,Professor,,Professor,Marine Sciences,https://scholars.library.tamu.edu/vivo/display/nc69be4e7
Venkatesh (Venky),Shankar,Professor,"My areas of specialization include digital business, artificial intelligence, marketing strategy, innovation, retailing, international marketing, and pricing.",Professor,Marketing,https://scholars.library.tamu.edu/vivo/display/nc6a09f5e
William,Rooney,Professor,"The long-range goal of my sorghum improvement program is to enhance the productivity and profitability of grain, forage and bioenergy sorghum production systems. The sorghum breeding program is used as a mechanism to develop and release sorghum germplasm to meet this goal. In addition to the release of improved sorghum genotypes, research in the program emphasizes the genetic and molecular genetic inheritance of disease resistance, grain quality and agronomic productivity and adaptability. The research provides opportunities for graduate student training in fundamental and applied aspects of plant improvement. Specific research interests include the development of sorghum germplasm for bioenergy (both sweet and biomass), grain and forage Instruct SCSC 642 annually each fall semester.",Professor,Soil and Crop Sciences,https://scholars.library.tamu.edu/vivo/display/nc74bd61f
John,Hettema,Professor,"I am Professor in the Department of Psychiatry at Texas A&M Health Sciences Center and affiliate faculty member at the Virginia Institute for Psychiatric and Behavioral Genetics (VIPBG) at Virginia Commonwealth University (VCU). As a clinician-scientist, I have participate in patient care, clinical teaching, and research activities. Before coming to TAMU in 2019, I directed the VCU Anxiety Disorders Specialty Clinic for 19 years, providing residency training and patient care via the assessment and treatment of all the major anxiety and related disorders. My research efforts focus on the epidemiology, genetics, and biology of the anxiety and related internalizing disorders. I have extensive experience applying advanced statistical genetic methodology to these questions via analyses conducted in twin, family, and population-based samples. My recent projects include conducting meta-analyses of genomewide association data on anxiety spectrum disorders (ANGST GWAS project, R01MH087646 and PGC-ANX project, R01MH113665), examining the effects of novel candidate genes derived from GWAS on internalizing psychopathology (R01MH039096), and collecting and analyzing endophenotypic measures underlying the development of internalizing disorders in a juvenile twin sample (R01MH098055). My research has been funded by NIH and private foundation grants. I am founding co-chair of the PGC-ANX Working Group which provides active collaborations with anxiety and depression researchers around the world.",Professor,Psychiatry and Behavioral Sciences,https://scholars.library.tamu.edu/vivo/display/ncd3506c7
Gregory,Sword,Professor,"I've been very fortunate to have studied many things in many places with many people. Much of my research to date has focused on the biology and ecology of grasshoppers, locusts and Mormon crickets. More recently, I've been given the chance to expand my research program to problems in cotton entomology. It's a pretty unique opportunity, and I am happy to say that the lab is up and running on multiple fronts. Although the emphasis has shifted to cotton research, locust biology and anything else that strikes an interest continues to be fair game in the lab.",Professor,Entomology,https://scholars.library.tamu.edu/vivo/display/ncf7fa344
Vytas,Bankaitis,Professor,"My laboratory is interested in the regulatory interfaces between novel lipid-mediated signal transduction pathways and important cellular functions. The focus of our work is the phosphatidylinositol/ phosphatidylcholine transfer proteins (PITPs), a ubiquitous but enigmatic class of proteins. Ongoing projects in the laboratory derive from a multidisciplinary approach that encompasses biochemical characterization of novel members of the metazoan PITP family, and the application of genetic, molecular and biophysical approaches to detailed structural and functional analyses of PITPs.",E.L. Wehner-Welch Foundation Chair||Professor||Professor,Cell Biology and Genetics||Biochemistry and Biophysics||Chemistry,https://scholars.library.tamu.edu/vivo/display/ncff8dc21
Shuyu,Liu,Professor,"Genetic and genomic studies of important traits of wheat in the US Great Plains. Traits include drought and heat tolerance, resistance to diseases (leaf, stem and stripe rust, wheat streak mosaic virus), and arthropods (greenbug, Russian wheat aphid, hessian fly, and wheat curl mite) as well as good end-use quality. Both traditional and molecular breeding techniques are used to develop germplasm lines with one or more target traits. Genomic techniques include gene/QTL mapping, molecular marker identification, validation and utilization, high throughput KASP SNP screening, and gene cloning. Gene functional analysis will be used to understand and improve those target traits.
1. Genetic mapping and genomics studies of QTL for yield, yield components under dry and irrigated conditions, and other traits in adapted cultivars; Study drought tolerance through transcriptomics of water stressed wheat plants.
2. Developing germplasm lines with multiple favorable alleles with drought tolerance, insect and wheat streak mosaic virus resistances using high throughput and diagnostic KASP SNP.
3. Cloning of greenbug resistance gene, identification of candidate genes through molecular techniques.",Professor,Soil and Crop Sciences,https://scholars.library.tamu.edu/vivo/display/nd1249c47
Mark,Holtzapple,Professor,"Our group is dedicated to the research and development of the sustainable and renewable technologies which, when implemented on a commercial scale, will impact future fuel, chemical, food, and water production.",Faculty Affiliate||Professor,Energy Institute||Chemical Engineering,https://scholars.library.tamu.edu/vivo/display/nd303ef41
Urs,Kreuter,Professor,"Dr. Kreuter directs a research program focusing on the Human Dimensions of Rangeland Ecosystem Management. His research is driven by his multidisciplinary interests in ecological economics, rural sociology and environmental psychology and aims to develop theory regarding integrated ecosystem management. Research projects that he directs are conducted at individual property, community and ecosystem scales. Some issues that Dr. Kreuter's research program have addressed include the effects of shifting social values and human demographics on rangeland management; the effectiveness of incentive programs aimed at improving rangeland health, wildlife habitat and water quality on private lands; the effects of landowner perceptions regarding property rights on ecosystem management; and factors influencing the use of fire as a rangeland management tool. Dr Kreuter's research aims to inform policy aimed at creating positive incentives for the sustainable use and management of terrestrial ecosystems under a broad range of land tenure systems.",Professor,Ecology and Conservation Biology,https://scholars.library.tamu.edu/vivo/display/nd413cbcd
Steven,Wright,Professor,"My research focuses on magnetic resonance imaging, particularly instrumentation and methodology. I also have research interests in antenna theory - numerical methods, and phased arrays electromagnetics.",Professor,Electrical and Computer Engineering,https://scholars.library.tamu.edu/vivo/display/nd4e8f968
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
Terry,Gentry,Professor,"My research focuses on the development and use of molecular technologies to enhance the detection and remediation of environmental contamination. This includes the detection and identification of microbial pathogens from animal, human, and natural sources and also the characterization of microbial populations and communities contributing to applied remediation processes such as the bioremediation of organic and metal contaminants.",Professor,Soil and Crop Sciences,https://scholars.library.tamu.edu/vivo/display/nd695d1d9
Dominique,Lord,Professor,,Professor,Civil Engineering,https://scholars.library.tamu.edu/vivo/display/nd700dc1b
Megha,Parajulee,"Professor, Faculty Fellow, and Regents Fellow",,Professor||Professor,Lubbock Research and Extension Center||Entomology,https://scholars.library.tamu.edu/vivo/display/nd76fa3c8
Katrin,Hinrichs,Professor,,Professor,Veterinary Physiology and Pharmacology,https://scholars.library.tamu.edu/vivo/display/nd851437e
Xin-Gen,Zhou,Professor,"Research interests are in the epidemiology and management of rice and bioenergy crop diseases. Research activities center on rice sheath blight, bacterial panicle blight, narrow brown leaf spot, blast, the seedling disease complex and other diseases important in Texas and other southern states. Studies are conducted to better understand disease incidence and severity in response to changes in population genetics of pathogens, rice varieties, environmental conditions, cultural practices, and fungicide use. Current research projects include evaluating and identifying disease resistance, exploiting beneficial microorganisms and cover crops for biocontrol of diseases, and evaluating the impacts of fungicides on disease epidemics and grain yield and quality for main and ratoon (second) crops. The ultimate goal of my basic and applied research program is to develop effective disease management tools and to provide economically and environmentally sound disease management recommendations for rice production.",Professor||Professor||Associate Professor||Associate Professor,Beaumont Research and Extension Center||Beaumont Research and Extension Center||Plant Pathology and Microbiology||Plant Pathology and Microbiology,https://scholars.library.tamu.edu/vivo/display/nd9fb6a30
Sarah,Hamer,Professor,,Professor,Veterinary Integrative Biosciences,https://scholars.library.tamu.edu/vivo/display/ndc2c4e3e
Valen,Johnson,Professor,,Professor,Statistics,https://scholars.library.tamu.edu/vivo/display/ndd7ffe32
John,Buchanan,Professor,,Professor||Faculty Fellow,Center for Health Systems and Design||Kinesiology and Sport Management,https://scholars.library.tamu.edu/vivo/display/ne059b760
Brett,Mitchell,Professor,Our research focuses on understanding the mechanisms by which immune system activation causes organ dysfunction and various forms of hypertension.,Professor,Medical Physiology,https://scholars.library.tamu.edu/vivo/display/ne0d93385
Dickson,Varner,Professor,"Dr. Dickson Varner is a Diplomate of the American College of Theriogenologists. His special interests include equine theriogenology, fertility probes for stallions, in-vitro preservation of equine spermatozoa, capacitation of equine spermatozoa, assisted reproductive techniques, and subfertility in stallions.",Professor,Large Animal Clinical Sciences,https://scholars.library.tamu.edu/vivo/display/ne3339085
Robert,Balog,Professor,"Dr. Balog is the Director of the Renewable Energy and Advanced Power Electronics Research laboratory and co-Director of the National Science Foundation Industry/University Collaborative Research Center of Next Generation Photovoltaics. The mission of his research group is to investigate the fundamental engineering and scientific basis of electrical energy conversion. While the core discipline is electrical engineering and the subject domain is power electronics, research into renewable energy systems require a much broader and holistic base of knowledge. As such, in addition to power electronic topologies and controls, we are focused on balance-of-systems issues. Ultimately, our goal is to move photovoltaic energy (aka solar energy) out of the alternative energy category and into the mainstream portfolio of energy resources in a way that is technologically and economically sustainable. Our vision is to be an internationally recognized center of excellence for research.",Faculty Affiliate||Professor||Professor||Associate Professor||Associate Professor||Professor,Texas A&M University at Qatar||Electrical and Computer Engineering (Qatar)||Energy Institute||Multidisciplinary Engineering||Electrical and Computer Engineering||Electrical and Computer Engineering,https://scholars.library.tamu.edu/vivo/display/ne3785e94
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
X. Ben,Wu,Professor,"The current research of Dr. Wu's lab is focused on the spatial ecology and pyric herbivory in savanna landscapes and associated education program focused on educator development and educational innovations. Other recent projects include landscape biogeochemistry of savanna systems, ecology of terracette landscapes, and authentic scientific inquiries in introductory ecology courses and their effects on student learning.",Professor,Ecology and Conservation Biology,https://scholars.library.tamu.edu/vivo/display/ne4645fcf
Cecilia,Tamborindeguy,Professor,"Our laboratory studies transmission of plant pathogens by insects. Research is aimed at understanding ecological and molecular aspects of plant-insect-pathogen interactions. We use Zebra Chip (ZC),an emergent disease affecting solanaceous plants, as model system. The causative agent, ""Candidatus Liberibacter solanacearum"", is an alpha-proteobacterium vectored y the potato/tomato psyllid Bactericera cockerelli. We currently use genetic and biochemical approaches to investigate different aspects of pathogen transmission and the biology of the vector insect.",Professor,Entomology,https://scholars.library.tamu.edu/vivo/display/ne6e645ee
Victor,Ugaz,Professor,"I am the world's smallest plumber--my research involves manipulating fluid flow in tiny channels the size of a human hair. Harnessing microfluidic phenomena makes it possible to build pocket-sized systems that can perform sophisticated chemical and biochemical tests outside the confines of a conventional lab. But achieving precise control over the flow of liquids at these small size scales is extremely challenging. Therefore, we are working to understand fundamental transport phenomena in microfluidic systems, and how they can be exploited to enable innovative applications including:
Fast and inexpensive diagnosis of infection and disease.
Sensitive screening for early detection of cancer.
Biodegradable sponges for easy cleanup of oil spills.
Spontaneous organization of chemical building blocks to form long-chain molecules--a key unanswered question in the origin of life.",Professor,Chemical Engineering,https://scholars.library.tamu.edu/vivo/display/ne76e71aa
Michael,McShane,Professor and Department Head,,Professor,Biomedical Engineering,https://scholars.library.tamu.edu/vivo/display/ne7c17cfc
Joe,Arosh,Professor,,Professor,Veterinary Integrative Biosciences,https://scholars.library.tamu.edu/vivo/display/ne8898820
Leif,Andersson,Professor,,Professor,Veterinary Integrative Biosciences,https://scholars.library.tamu.edu/vivo/display/ne8ae2a28
Jeffrey,Cirillo,Professor,"Our laboratory is interested in the pathogenesis of bacterial lung infections particularly tuberculosis and Legionnaires' disease. We are examining the virulence mechanisms of bacteria using cellular, molecular and genetic techniques. Our primary research goal is to obtain a better understanding of the roles of the pathogen and host in disease. These studies should contribute to our understanding of host-pathogen interactions at the molecular and cellular level that can be used for prevention, treatment and diagnosis. We hope that through a better understanding of the mechanisms by which these organisms cause disease we can prevent some, if not all, of these infections in the future.",Professor||Director,Microbial Pathogenesis and Immunology||Center for Airborne Pathogen Research and Tuberculosis Imaging,https://scholars.library.tamu.edu/vivo/display/ne8bc1122
Wayne,Versaw,Professor,"Compartmentalization of metabolic pathways and other cellular functions is a hallmark of eukaryotic cells. This feature is extreme in plants due to the presence of organelles not found in most other eukaryotes - plastids. Plastids are a diverse group of interrelated organelles that perform a wide range of metabolic functions including photosynthesis, nitrogen and sulfur assimilation and the synthesis of amino acids, starch and fatty acids. These functions are coordinated with metabolic processes in the cytosol through dynamic exchange of metabolites and ions across the plastid inner envelope membrane.
My lab is studying phosphate (Pi) transport processes that link the metabolic pathways in the plastid and cytosol. The concentrations of Pi in the cytosol and plastid stroma influence photosynthesis and the partitioning and storage of fixed carbon. Transporters involved in the movement of Pi across the plastid inner membrane include members of the pPT, PHT2 and PHT4 families. We are using genetics, cell biology, biochemistry and molecular physiology to investigate the function and physiological roles of these transporters. Recent findings suggest that some members of the PHT4 family are targeted to chloroplasts, whereas others function in heterotrophic plastids and one resides in the Golgi apparatus.
Other projects in the lab include the genetic and biochemical characterization of Pi transport processes in the filamentous fungus Neurospora crassa. Mutants with altered phosphate uptake properties have been isolated, and these have led to the identification of Pi transporter genes, as well as genes with putative regulatory functions.",Professor,Biology,https://scholars.library.tamu.edu/vivo/display/nea6b0d01
Ryland,Young,Professor,"Most bacterial viruses (phages) cause lysis of their host cell to release the progeny virions. Large phages elaborate an enzyme (""endolysin"") to degrade the cell wall and also a small membrane protein (""holin""). The holin accumulates in the membrane and then, at a precisely scheduled time, suddenly forms a hole to allow release of endolysin through the cytoplasmic membrane to gain access to the wall. We use molecular genetics and biochemistry to study how this small protein is able to act as a molecular ""clock"" and punch holes in membranes. Small phages make single proteins which cause host lysis in a different way. This strategy is to target the host cell wall synthesis machinery; that is, the virus makes a ""protein antibiotic"" that causes lysis in the same way as antibiotics like penicillin by inhibiting an enzyme in the multi-step pathway of murein biosynthesis. Thus, when the infected cell tries to divide, it blows up, or lyses, because it can't make the new cell wall between the daughter cells. Remarkably, each of three different, small phages blocks a different step in the pathway. These small lysis proteins are models for a completely new class of antibacterial antibiotics. Also, the E. coli SlyD protein is required for this mode of lysis in one case. SlyD is a member of an ubiquitous family of proteins related to human ""immunophilins,"" the targets of immune-suppression drugs. We study SlyD to learn about the role of this class of proteins in biology.",Professor,Biochemistry and Biophysics,https://scholars.library.tamu.edu/vivo/display/nea775348
Thomas,Welsh,Professor,"Areas of research for Dr. Welsh include developing endocrine-based biotechnologies to selectively and precisely regulate growth and reproduction in livestock; in vitro and in vivo methodologies used to identify mechanisms whereby specific hormones regulate the biosynthesis of pituitary, adrenal, gonadal and hypothalamic hormones; and correlative in vivo and in vitro studies conducted using bovine, equine, porcine and ovine animal models.",Professor||Professor,Animal Science||Texas A&M AgriLife Research,https://scholars.library.tamu.edu/vivo/display/neae2cac6
Gang,Han,Professor,"My research efforts have been in Statistics, Computer Science, and their applications to Biomedical Research and Bioinformatics. I have been working on the design and analysis of complex computer models since 2004. I developed statistical approaches for modeling the output from complex computer codes having quantitative and qualitative inputs, as well as the calibration and tuning for computer models. My recent research includes modeling cancer survivorship data, modeling epidemiological data, and applying statistical learning tools to the early detection of ovarian cancer.",Professor,Epidemiology and Biostatistics,https://scholars.library.tamu.edu/vivo/display/neb4e64eb
James,Derr,Professor,"Dr. Derr has directed worldwide research projects in wildlife and livestock conservation genetics for over 25 years. This body of work has produced more than 75 scientific publications reporting original research on many different species. For example, Dr. Derr has authored articles on bison, dolphins, domestic and wild cats, elk, pronghorn antelope, sheep, quail, white-tailed and mule deer, whales, domestic livestock and multiple fish species. All of this conservation genetics research has been funded through international, federal, state, NGO and private funding sources including the DSC and DSC Foundation. In addition, Dr. Derr is an impactful educator through his teaching efforts in undergraduate genetic courses to students interested in medicine (human and veterinary) and he has mentored over 100 graduate students in the fields of conservation / population genetics and animal health. One of Dr. Derr's most popular courses is ""Wildlife Conservation Medicine"". This course is designed for first- and second-year veterinary students to travel to South Africa and Botswana to learn how to chemically immobilize, treat and transport everything from African plains game to dangerous game. His efforts with these young veterinarians ensure they graduate with specialized knowledge and skills to handle health care and conservation issues with the tremendous number of exotic wildlife species here in the State of Texas on private ranches and preserves.",Professor,Veterinary Pathobiology,https://scholars.library.tamu.edu/vivo/display/nebe46b3d
Thomas,Iliffe,Professor,"For the past 40 years, Iliffe has conducted studies of biodiversity, ecology, evolution, and conservation of animals inhabiting saltwater caves. In addition to his extensive cave investigations in Bermuda, he has led biospeleological research expeditions to the Bahamas, Belize, Mexico, Jamaica, Dominican Republic, Canary Islands, Iceland, Mallorca, Romania, former Czechoslovakia, Gal?pagos, Hawaii, and numerous locations in the Indo-Pacific. This research has resulted in the discovery of more than 300 new species of marine animals, mostly crustaceans, inhabiting caves in the Atlantic, Caribbean, and Indo-Pacific. Iliffe's research has been funded by grants from the National Science Foundation, National Oceanic and Atmospheric Administration, and the National Geographic Society, among others. He has published 250 papers, including 30 invited book chapters. TV documentaries featuring his cave diving research expeditions can be seen on the National Geographic Channel, BBC, PBS, History Channel, Discovery Channel, and others.",Professor,Marine Biology,https://scholars.library.tamu.edu/vivo/display/ned849b62
Stephen,Smith,Professor,"Dr. Smith teaches meat science, nutrition and physiological nutrition courses. He also conducts research on the growth and development of adipose tissue, particularly in the bovine species. He has investigated the limitation of cattle to marble and has used his background in molecular biology to investigate lipid metabolism in the bovine muscle.",Professor||Professor,Animal Science||Nutrition,https://scholars.library.tamu.edu/vivo/display/nee8e5966
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
John,Thomasson,Professor,Biomass production; Biomass conversion to liquid fuels/chemicals/electricity; Biomass-based supply chain,Professor,Biological and Agricultural Engineering,https://scholars.library.tamu.edu/vivo/display/nefe3a984
David,Riley,Professor,"Dr. Riley teaches these 3 graduate courses: Quantitative Genetics, Genetic Prediction, and Advanced Quantitative Genetics. Research efforts include the association of genes, gene combinations, and other molecular variants with beef cattle production traits, especially those traits related to reproduction and efficiency. Research interests include the incorporation of genomic information in traditional animal breeding strategies and prediction of breeding values using such information. Other research efforts include the assessment and quantification of the epigenetic variation in livestock traits, and the expression of heterosis by crossbred animals for important traits.",Professor,Animal Science,https://scholars.library.tamu.edu/vivo/display/nf0ce11af
Jan,Suchodolski,Professor,"Our research is focused on gastrointestinal function testing, gastrointestinal pathogens, and intestinal microbial ecology with an emphasis on probiotics and prebiotics and how intestinal pathogens lead to disturbances in the intestinal microbiome of companion animals.",Associate Director of GI Lab||Professor,Small Animal Clinical Sciences||Small Animal Clinical Sciences,https://scholars.library.tamu.edu/vivo/display/nf0f36949
John,Mullet,Professor,"Functional genomics, bioinformatics, and DNA chip technology are fundamentally changing research on biological systems. Knowledge of complete genome sequences and high resolution genome technology provide an extraordinary opportunity to understand complex biological processes and to relate detailed understanding of protein structure and biochemical mechanism to the function of whole organisms and biological systems in nature.
Our research team is helping to build genome maps and DNA diagnostic microarrays/chips for analysis of global gene expression and biodiversity. This new technology is being used to explore the molecular basis of several fundamental plant responses: (1) light responsive genetic systems that help protect plants from damage by high intensity UV/blue light; (2) genetic systems that allow plants to adapt to the environment; (3) genes and signal transduction pathways that help protect plants from insects and disease; and (4) genes that regulate plant development (flowering time, fertility restoration, chloroplast development/number).",Professor,Biochemistry and Biophysics,https://scholars.library.tamu.edu/vivo/display/nf1c81fcb
Kate,Creevy,Professor,"Dr. Creevy is a board-certified small animal veterinary internist, with a primary research interest in longevity, healthspan, morbidity and mortality within and among dog breeds as well as secondary research interests in infectious disease, and pedagogical theory in science education. In 2007, she established a productive collaboration with Dr. Daniel Promislow, combining her expertise in veterinary research and clinical practice with his expertise in genetics, aging and statistical analysis. Initially, their work was focused on the analysis of existing veterinary medical datasets. With the addition of Dr. Matt Kaeberlein, in 2014, the trio founded the Dog Aging Project and began to create a community of dog owners interested in becoming involved in this citizen-science project. The Dog Aging Project's current longitudinal study ambitious undertaking is the largest prospective study of companion dogs ever performed, enrolling 10,000 dogs across the nation who will be followed for ten years.",Professor,Small Animal Clinical Sciences,https://scholars.library.tamu.edu/vivo/display/nf40f2eea
Tamika,Gilreath,Professor,,Associate Director||Professor||Associate Dean for Faculty Affairs,Center for Health Equity and Evaluation Research||School of Public Health||School of Public Health,https://scholars.library.tamu.edu/vivo/display/nf486de0f
Spencer,Behmer,Professor,,Professor,Entomology,https://scholars.library.tamu.edu/vivo/display/nf4d10236
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
Louise,Abbott,Professor,,Professor,Veterinary Integrative Biosciences,https://scholars.library.tamu.edu/vivo/display/nf56a7148
Jiang,Chang,Professor,"Heart failure (impaired ventricular pump function) is an eventual outcome for diverse cardiovascular disorders and the leading cause of combined morbidity and mortality in the United States and other developed industrial nations. The focus of my lab is to understand the molecular and cellular mechanisms that initiate and mediate the pathogenesis of maladaptive cardiac remodeling, such as cardiac hypertrophy and fibrosis as result of various pathological scenarios such as myocardial infarction, hypertension, obesity, diabetes, aging and post-traumatic stress disorder. The overall approach consists of generation and analysis of clinically-relevant genetic mouse models including a tool mouse enabling tracking endogenous cardiac exosomes, and conduct mechanistic studies using cutting-edge technology. The ultimate goal of our efforts is to provide clinical translation for the prevention and treatment of pathological cardiac remodeling from our mechanistic studies.",Professor,Center for Genomic and Precision Medicine,https://scholars.library.tamu.edu/vivo/display/nf80a9dad
Uel,Mcmahan,Professor,"McMahan and his research group provide one of the cornerstones for Texas A&M's new Interdisciplinary Life Sciences Building and its related teaching and research efforts. His work focuses on how the nervous system's synapses form in the embryo and function in the adult in various animal species. It relies on high-resolution imaging, chemical characterization and experimental manipulation of specific macromolecules and organelles, which altogether provide insights unobtainable via any other approach. The findings bear directly on the problems of understanding the molecular basis of human brain diseases and restoring brain function after trauma.",Professor,Biology,https://scholars.library.tamu.edu/vivo/display/nfc3672e7
J,Johnston,Professor,"I estimate genome size for sequencing projects for a very wide range of vertebrates, invertebrates and plants..
I work on genome size evolution, & genomics.
My other areas of research include cytological, ecological and population genetics of arthropods.",Professor,Entomology,https://scholars.library.tamu.edu/vivo/display/nfc3f68fb
Darwin,Prockop,Professor,,Professor,Cell Biology and Genetics,https://scholars.library.tamu.edu/vivo/display/nfcfd0990
David,Stelly,Professor,"My scientific research, graduate and post-graduate programs employs multi-disciplinary approaches to conduct and study use of naturally occurring germplasm for crop improvement. Elements of the research include wild-species germplasm introgression, chromosome substitution, reproductive and ploidy manipulations, conventional cytogenetics and fluorescence in situ hybridization, genetic analysis, DNA marker and assay (SNP) development, marker assisted selection, reproductive cytology and genetics, and various types of genome mapping, sequencing, and their integration for genome sequencing and assembly. Most of my research aims to enhance the germplasm, knowledge, science and technologies for genetic improvement Upland cotton, e.g., economic yield and sustainability; some, however, is devoted to sorghum and peanut, especially wide hybridization and germplasm utilization.",Professor||Chair,Soil and Crop Sciences||Molecular and Environmental Plant Sciences,https://scholars.library.tamu.edu/vivo/display/nfec36db0
Vijay,Singh,Distinguished Professor,"Surface-water Hydrology, Groundwater Hydrology, Hydraulics, Irrigation Engineering, Environmental Quality and Water Resources. Principal research topics have encompassed: 1. Watershed modeling, 2. Erosion and Sediment Transport in Upland Watersheds, 3. Streamflow Forecasting, 4. Dam Break Analysis, 5. Entropy-Based Modeling, 6. Network Design, 7. Groundwater Modeling, and 8. Hydrologic Impacts of Climate Change.",Professor,Biological and Agricultural Engineering,https://scholars.library.tamu.edu/vivo/display/nffd83e14