First name,Last name,Preferred title,Overview,Position,Department,Individual
Darren,Hartl,Assistant Professor,,Assistant Professor,Aerospace Engineering,https://scholars.library.tamu.edu/vivo/display/n0000cb53
Gongbo,Liang,Assistant Professor,"Dr. Liang is a researcher in the field of computer vision and deep neural networks, dedicating himself to this area of study since 2016. He is particularly enthusiastic about leveraging modern deep neural networks to tackle complex domain-specific challenges while addressing the fundamental issues of deep neural networks. With numerous projects in medical imaging, astrophysics and astronomy, and natural language processing, Dr. Liang possesses a diverse range of expertise across various domains. He also has a keen interest in the topics of neural network adversarial attack and defense, as well as the application of neural networks in cybersecurity. Dr. Liang's contributions to the field are evident in his impressive portfolio of over 30 peer-reviewed publications and two award-winning abstracts. Furthermore, he has licensed an AI algorithm for breast cancer diagnosis to the industry, showcasing his commitment to translating his research into practical applications.",Assistant Professor,Computer Science and Engineering,https://scholars.library.tamu.edu/vivo/display/n0265d13a
Vishal,Gohil,Associate Professor,"Despite the fundamental role of the mitochondrion in cellular energy production and its involvement in numerous human diseases, we still do not know the function of nearly 20% of the known mitochondrial proteins. My laboratory applies genomic, genetic, and biochemical tools to uncover the role of these uncharacterized proteins in the mitochondrial respiratory chain (MRC) biogenesis. MRC is the main site of cellular respiration and energy production and since the core components of the MRC are evolutionarily conserved, we reason that the assembly factors required to build the MRC should also be conserved. Therefore, we utilize multiple models systems, including yeast, zebrafish, and human cell lines, to determine the role of these conserved, uncharacterized mitochondrial proteins in bioenergetics, organismal development, and human disease pathogenesis.
Another poorly understood aspect of the mitochondrial energy metabolism is the role of phospholipids in maintaining the structural and functional integrity of the MRC. Although it is well known that the MRC is localized in the inner mitochondrial membrane, how the unique lipid milieu of the mitochondrial membrane influences the assembly and activity of the MRC is not fully understood. We have constructed yeast mutants with defined mitochondrial phospholipid compositions to systematically determine each lipid's role in MRC assembly and activity. Ultimately, defining the roles of mitochondrial proteins and phospholipids will allow us to develop better diagnostic and therapeutic options for human disorders resulting from mitochondrial dysfunction.",Faculty Affiliate||Assistant Professor,Energy Institute||Biochemistry and Biophysics,https://scholars.library.tamu.edu/vivo/display/n03100e49
Limei,Tian,Assistant Professor,,Assistant Professor,Biomedical Engineering,https://scholars.library.tamu.edu/vivo/display/n05e20d80
Yuxiao,Zhou,Assistant Professor,"My research focuses on studying the multi-scale biomechanics of healthy and diseased bone, the mechanical interaction between bone and orthopaedic implants, and the mechanobiological mechanism during bone remodeling.",Assistant Professor,Mechanical Engineering,https://scholars.library.tamu.edu/vivo/display/n08656d93
Jose,Hernandez,Assistant Professor,Licensed pharmacist and a health services research investigator. Specialization in the field of drug information and administrative claims data.,Assistant Professor,Pharmaceutical Sciences,https://scholars.library.tamu.edu/vivo/display/n093c7c57
Erin,Scott,Assistant Professor,"I am most interested in developing a career path in translational research, allowing me to bridge basic science findings to practical applications in the clinic in order to enhance the care and well-being of veterinary patients. As a comparative ophthalmologist, my professional interests are broadened by the wide variety of clinically-relevant ocular conditions encountered in canine, feline, equine and exotic animal species. This includes advancements in the treatment of cataracts, diseases of the retina, and pathogenesis of glaucoma with a strong emphasis in ocular pathology. By linking the clinical features of ocular disease with their associated histopathologic changes, I can provide a unique perspective in the interpretation and understanding of ocular disease processes in veterinary patients and their relevance to comparable human disorders.",Assistant Professor,Small Animal Clinical Sciences,https://scholars.library.tamu.edu/vivo/display/n0e1819ff
Jessica,Yorzinski,Assistant Professor,"My laboratory is focused on understanding animal behavior, with an emphasis on sensory ecology, animal communication, and conservation. We adopt an interdisiplinary approach to investigating the mechanisms that shape the form and function of diverse signals.",Assistant Professor,"Rangeland, Wildlife and Fisheries Management||Wildlife and Fisheries Sciences",https://scholars.library.tamu.edu/vivo/display/n186d1d3c
Fatima,Alshbool,Assistant Professor,"Dr. Fatima Alshbool is an Assistant Professor, who joined the Rangel College of Pharmacy in February 2020. She is a pharmacist and a pharmacologist by training, having received her Pharm.D. degree (2006) from Jordan University of Science & Technology and her PhD degree (2014) from Loma Linda University. Dr. Alshbool's research program is focused on studying cardiovascular/thromboembolic disorders, such as heart attacks and stroke, particularly as they relate to platelet activation and signal transduction, including in the context of environmental health. One of her laboratory's main areas of focus has been investigating the impact of a relatively new form of tobacco smoking, namely e-cigarettes on platelet biology and associated diseases. She is also interested in defining the structural biology of platelet G-protein Coupled Receptors; amongst others. Dr. Alshbool's ultimate goal is to identify new therapeutic agents for the prevention or treatment of cardiovascular disease, and to gain insight into the negative impact of ""tobacco"" exposure on cardiovascular health.",Assistant Professor,Pharmacy Practice,https://scholars.library.tamu.edu/vivo/display/n1989ad2e
Tracy,Clement,Assistant Professor,"My laboratory uses an integrative approach to elucidate the molecular basis of cyto/nucleo morphogenesis in the spermatid, called spermiogenesis. This is among the most drastic cellular reorganizations and is critical for both male fertility and high fidelity transmission of genetic and epigenetic information to the next generation for healthy offspring. We seek to elucidate structural and regulatory processes involved in this transformation to understand the molecular underpinnings of cytoskeletal and chromatin remodeling in normal and disrupted spermiogenesis. The laboratory takes advantage of molecular and genetic tools in mouse models including transgenesis, gene knock out studies, and genomic and proteomic expression analyses, advanced imaging technologies for morphological and live tissue imaging, and protein expression and in vitro molecular biochemical approaches such as actin dynamics assays.",Assistant Professor,Veterinary Physiology and Pharmacology,https://scholars.library.tamu.edu/vivo/display/n1ee4ad1b
Rahul,Srinivasan,Associate Professor,"My research focuses on developing a mechanistic understanding of neurodegeneration, with the goal of discovering novel strategies to treat neurodegenerative disorders. In this regard, I am interested in two primary areas: (1) Understanding the role of astrocytes in neurodegeneration and (2) Elucidating molecular mechanisms underlying the known neuroprotective effects of nicotine in Parkinson's disease.
We utilize a broad range of techniques spanning the spectrum from molecules to mice. Our methods include stereotaxic injections of adeno-associated viruses (AAVs) into the mouse brain, advanced imaging techniques such as Ca2+ imaging in live brain slices using genetically encoded calcium sensors (GCaMPs), in vitro and slice electrophysiology, advanced molecular biology, including creation of transgenic mice and tissue culture.",Assistant Professor,Neuroscience and Experimental Therapeutics,https://scholars.library.tamu.edu/vivo/display/n233b562f
Junqi,Song,Assistant Professor,,Assistant Professor,Texas A&M AgriLife Research,https://scholars.library.tamu.edu/vivo/display/n24849ee5
Samuel,Mabbott,Assistant Professor,Dr. Mabbott's research focuses on the development of metallic nanoparticles for use in biomedical devices and healthcare settings. Applications include: integration into point of care devices for sensitive detection of disease relevant biomolecules such as circulating miRNA; controlling the nanoparticles light-to-heat conversion (photothermal) efficiency for destruction of diseased tissues (eg. Tumors); localized delivery of miRNA for gene therapy; increasing the therapeutic effect of drugs; biological and chemical signal amplification.,Assistant Professor,Biomedical Engineering,https://scholars.library.tamu.edu/vivo/display/n27222a3e
Eleanor,Su-Keene,Assistant Professor,,Assistant Professor,"Teaching, Learning and Culture",https://scholars.library.tamu.edu/vivo/display/n2726b39d
Anne,Newell-Fugate,Assistant Professor,"Polycystic ovary syndrome (PCOS) is the most prevalent reproductive endocrine disorder in women and results in a substantial financial burden to the American healthcare system. PCOS is characterized by an/oligoovulation, polycystic ovaries, and hyperandrogenism. PCOS patients are also at risk for the development of metabolic syndrome, type 2 diabetes, and cardiovascular disease. My laboratory focuses on the effects of obesity, hyperinsulinemia, and insulin resistance on androgen steroidogenesis and the interrelationship between androgens and insulin signaling in steroidogenic tissues and adipose tissue. An additional focus of my laboratory is the effect of novel fat sources on metabolic and reproductive function in the context of obesity. Using cell culture and rodent and porcine models, my research program examines the direct and indirect effects of obesity and resulting hyperandrogenemia on steroidogenesis and reproductive function in females. I also have a strong interest in wildlife and zoo animal endocrinology and reproductive physiology. In the past, I have conducted endocrine based research projects on the Pallas' Cat and African Wild Dog. My current research examines the effect of the introduction of novel pheromones versus novel animals on fecal steroid metabolite concentrations, behavior, and estrous cyclicity in captive, female Red River Hogs. I am also working with zoo-based collaborators to develop an eletroejaculation and artificial insemination protocol for Suidae (pig) and Tayassuidae (peccary) species and am engaged in a retrospective characterization of reproductive tract lesions in pigs and peccaries in relation to age, parity and contraceptive use.",Assistant Professor,Veterinary Physiology and Pharmacology,https://scholars.library.tamu.edu/vivo/display/n283bcbde
Camilo,Hernandez-Aviles,Assistant Professor,,Assistant Professor,Large Animal Clinical Sciences,https://scholars.library.tamu.edu/vivo/display/n29e19b06
Pushkar,Lele,Assistant Professor,"We combine sensitive biophysical techniques such as single-molecule fluorescence and force-spectroscopy with mechanistic modeling and molecular genetics to study bacterial motility, adaptability and antibiotic resistance.",Assistant Professor,Chemical Engineering,https://scholars.library.tamu.edu/vivo/display/n2a9b2ef2
Craig,Marianno,Assistant Professor,"Dr. Craig Marianno's areas of interest include nuclear counter terrorism, nuclear instrumentation development, exercise development, radiological consequence management and environmental health physics. From 2000 - 2009 Dr. Marianno worked for the Remote Sensing Laboratory (RSL) and served in many of the National Nuclear Security Administration's emergency response teams. He has been a member and team lead for the Nuclear/Radiological Advisory Team (NRAT), Capital Region Search Team (CRST), Aerial Measurements System (AMS), Consequence Management Response Team (CMRT), Federal Radiological Monitoring and Assessment Center (FRMAC) Search Response Team (SRT) and a Captain on the Radiological Assistance Program (RAP). He was responsible for generating the dose assessment and geographic data sets for every Nuclear Power plant exercise in which the DOE participates from 2004 to 2007. From 2007 to 2009 he managed the engineering group responsible for developing custom instrumentation for the detection of radiation in unique environments. He has a Bachelor's in Physics from the University of California at Davis, a Master's in Radiological Health Sciences from Colorado State and a PhD in Radiation Health Physics from Oregon State. He is a Certified Health Physicist, a member of the Health Physics Society and a member of the Society's Homeland Security Committee. He is also serve's in the society's ""Ask the Export"" for homeland security matters.",Deputy Director||Assistant Professor,Center for Nuclear Security Science & Policy Initiatives||Nuclear Engineering,https://scholars.library.tamu.edu/vivo/display/n2c0d413b
Yu Kelvin,Xie,Assistant Professor,Dr. Kelvin Xie's research focuses on understanding and designing materials at nano- and atomic-scales using
advanced microstructural characterizations (e.g. TEM and atom probe tomography).,Assistant Professor,Materials Science and Engineering,https://scholars.library.tamu.edu/vivo/display/n2de76814
Wei,Wu,Assistant Professor,"My current research focuses on investments, empirical asset pricing, information economics, and empirical corporate finance. Recent studies include the causal impact of information asymmetry on the trading behavior of corporate insiders and the information contents of insider purchases after short interest spikes.",Assistant Professor,Finance,https://scholars.library.tamu.edu/vivo/display/n30a72477
Aaron,Morton,Assistant Professor,"My research focus centers around soft tissue regeneration and applied biomaterial applications. In particular, I have focused on a novel class of biocompatible ceramics, suitable for soft tissue implantation. To complement this work, I investigate Schwann cell and blood vessel interaction during regeneration and evaluate mitochondrial morphology through high-resolution imaging. My lab primarily uses murine models and is uniquely skilled at assisting rodent muscle function.",Assistant Professor,Kinesiology and Sport Management,https://scholars.library.tamu.edu/vivo/display/n312f7efe
Quan,Zhou,Assistant Professor,,Assistant Professor,Statistics,https://scholars.library.tamu.edu/vivo/display/n321f4b1a
Jessica,Galloway-Pena,Assistant Professor,"Dr. Galloway-Pena's studies incorporate the genetic basis of pathogenesis as well as the molecular epidemiology of clinically relevant gram-positive pathogens, focusing on those with multi-drug resistance. She has more recently shifted her focus to microbiome dynamics during cancer treatment and the intense antibiotic therapy seen in the hematological malignancy setting to determine the microbiome's impact on cancer treatment outcomes, toxicities, and colonization/infection by antibiotic resistant organisms. Applications of her research include determining genetic and chemical markers for microbial diversity that can be used in the clinical setting, designing predictive risk models for antibiotic resistant infectious risk during chemotherapy, and promoting antimicrobial stewardship and microbial conscious treatment.",Assistant Professor,Veterinary Pathobiology,https://scholars.library.tamu.edu/vivo/display/n339da0fb
Matthew,Scott,Assistant Professor,,Assistant Professor,Large Animal Clinical Sciences,https://scholars.library.tamu.edu/vivo/display/n3554b163
Vijay,Joshi,Assistant Professor,"The Systems Plant Physiology program is developing crops with enhanced nutritional qualities and identifying new methods to improve environmental attributes. This program focuses on plant biology and its integrations with micro and macro environments, utilizing physiological, molecular, or metabolic traits to understand associated biological processes. Our broad goal is developing crop varieties with enhanced crop productivity, nutritional qualities and tolerance to abiotic stresses for greater adaptability. The critical areas of research we focus on are: Nitrogen use efficiency, nitrogen sensing, transport and assimilation, Molecular and genetic aspects of plant metabolism.",Assistant Professor,Uvalde Research and Extension Center,https://scholars.library.tamu.edu/vivo/display/n375e2b34
Bharathi,Hattiangady,Assistant Professor,,Assistant Professor,School of Medicine,https://scholars.library.tamu.edu/vivo/display/n37cbdcf0
Kira,Delmore,Assistant Professor,"We study the processes of adaptation and speciation using hybrid zones and variation within single species. These systems are ideal for studying evolutionary processes; they allow us to concentrate on the early stages of speciation and work in natural contexts. Our work focuses specifically on the phenotypic and genetic basis of adaptation and speciation and is aided by recent advances in several fields. For example, we are very interested in the role differences in seasonal migration play in speciation and the genetic basis of this behaviour syndrome. Advances in animal movement ecology and genomic are allowing answer questions we never thought possible. Much of our work focuses on single systems but wherever possible we expand out into larger comparative work using data from museum specimens and sequence archives.",Assistant Professor,Biology,https://scholars.library.tamu.edu/vivo/display/n3c3b0dde
Haitham,Mohammed,Assistant Professor,"Fish diseases represent one of the most challenging areas facing today's aquaculture industry. My research to date reflects my interest in using basic science in the area of aquatic animal health to provide new applied solutions and practical management actions to control fish disease. My goal is to address the evolving fish disease and diagnostic issues facing aquaculture producers and to promote sustainable aquaculture practices. Focal areas of activity include raising awareness regarding biosecurity in aquaculture, increasing capacity for disease surveillance and monitoring, and promoting good management practices in aquaculture systems, including antimicrobial use. Improper or overuse of antibiotics in aquaculture may impact other organisms and can lead to the rise of antibiotic-resistant bacteria in the local environment which could impact human health.",Assistant Professor,"Rangeland, Wildlife and Fisheries Management||Wildlife and Fisheries Sciences",https://scholars.library.tamu.edu/vivo/display/n3d5cbbbe
Chase,Straw,Assistant Professor,"My primary research interest focuses on precision turfgrass management, which involves interdisciplinary approaches aimed at understanding the spatial and temporal variability of turfgrass systems in order to develop practical strategies for reducing management inputs and improving the overall user experience. My program also conducts general turfgrass management and physiology research that addresses issues for turfgrass management professionals and industry stakeholders.",Assistant Professor,Soil and Crop Sciences,https://scholars.library.tamu.edu/vivo/display/n3d8d2d05
Beiyan,Nan,Assistant Professor,"I am interested in understanding the mechanisms of fundamental biological processes in bacteria. My lab uses soil bacterium Myxococcus xanthus as the model organism. Several aspects of M. xanthus make it an ideal model for understanding bacterial physiology. First, M. xanthus cells utilize sophisticated systems to move on solid surfaces, which involve cytoplasmic and periplasmic proteins, filamentous cytoskeletons, membrane channels, cell wall, and cell surface components. Second, cells constantly communicate with each other and with their environment. Cells usually move in coordinated groups but also as isolated ""adventurous"" individuals, which allows this bacterium to feed on soil detritus and prey on other microorganisms. Third, when the availability of nutrients or prey decrease in the environment, most cells exhibit behaviors that include aggregation into fruiting bodies and conversion of individual cells into spores.
I have been using the super resolution photo-activated localization microscopy (PALM) to track single molecule dynamics of proteins in live bacterial cells. With this technique, I have achieved 10 millisecond time resolution (100 frames per second) and 80 nm spatial resolution. These studies were initiated because the most widely used fluorescence microscopy techniques (including confocal, deconvolution, etc.) can only provide resolution to about 200 nm due to the diffraction of light, which is often insufficient for many studies because of the small size of bacterial cells (usually a few hundred nanometers in diameter).
Our research topics cover motility, development (fruiting body formation and biofilm formation), cytoskeleton, and cell wall assembly.",Assistant Professor,Biology,https://scholars.library.tamu.edu/vivo/display/n3fe4c57e
Vani,Mathur,Assistant Professor,"My work focuses on understanding the sources of disparities in pain, and the specific mechanisms by which social and cultural factors alter pain experience and pain physiology. My research targets the problem of pain disparities from two directions - investigating the different ways social factors may influence one's own pain, and also alter pain perception and empathy for others. To tackle these problems, my lab utilizes behavioral, psychophysical, and neuroimaging methodologies. I am also interested in individual differences in chronic pain and pain modulation, cross-cultural examinations of pain and empathy, and social environmental effects on health broadly defined.",Faculty Fellow||Assistant Professor||Faculty Affiliate||Training Faculty,Center for Health Systems and Design||Center for Population Health and Aging||Texas A&M Institute for Neuroscience||Psychological and Brain Sciences,https://scholars.library.tamu.edu/vivo/display/n40fc0470
Paras,Patel,Assistant Professor,,Assistant Professor,Diagnostic Sciences,https://scholars.library.tamu.edu/vivo/display/n43312a34
Jeffrey,Jones,Assistant Professor,,Assistant Professor,Biology,https://scholars.library.tamu.edu/vivo/display/n4332506c
Dzmitry,Kurouski,Assistant Professor,"My laboratory is broadly interested in elucidation of structural organization of amyloid oligomers using Tip-Enhanced Raman Spectroscopy (TERS).
The ultimate objective of our studies is to unravel structural elements on surfaces of amyloid oligomers that are responsible for their toxicity and propensity to propagate into amyloid fibrils. These findings will help to guide pharmaceutical drug screening efforts towards finding selective blockaders of amyloid fibrillation at the stage where their aggregates are minimally toxic. Finally, resolving the structure of amyloid oligomers will give an inside how to cure Alzheimer's and Parkinson's diseases and dementia.",Assistant Professor,Biochemistry and Biophysics,https://scholars.library.tamu.edu/vivo/display/n43453d43
Maria,King,Research Associate Professor,"My interdisciplinary studies focus on the development of the wetted wall cyclone aerosol collector technology to monitor potential health hazards and improve surveillance efforts by collecting aerosols released from agricultural and industrial facilities and modeling particle dispersion. Within a coal mining industry study we aim to determine the influence of particle size distribution, chemical composition and morphology of airborne respirable mine dusts and diesel particulates on lung disease. My projects involve fluid mechanics, computational flow modeling and metagenomics to study biofilms in oil fields and nuclear reactors and mitigate microbial contamination in drilling equipment, hydraulic fracturing water and cooling systems.",Assistant Professor||Faculty Affiliate||Faculty Affiliate,Biological and Agricultural Engineering||Energy Institute||Institute for Engineering Education and Innovation,https://scholars.library.tamu.edu/vivo/display/n44870816
Sonya,Wesselowski,Assistant Professor,,Assistant Professor,Small Animal Clinical Sciences,https://scholars.library.tamu.edu/vivo/display/n45e117fa
Adrianna,Szczepaniec,Assistant Professor,,Assistant Professor||Assistant Professor,Amarillo Research and Extension Center||Texas A&M AgriLife Research,https://scholars.library.tamu.edu/vivo/display/n4825e32b
Jeonghee,Kim,Assistant Professor,"Jeonghee Kim's research interests are system design for biomedical and rehabilitation systems in real-time closed-loop and embedded mobile applications, human computer interaction, and assistive technologies.",Assistant Professor,Engineering Technology and Industrial Distribution,https://scholars.library.tamu.edu/vivo/display/n4a08d21d
Erin,Giles,Assistant Professor,"I am currently building a research program that uses an integrative, translational approach to understand the mechanisms by which obesity promotes postmenopausal breast cancers. My work focuses on understanding how the obese microenvironment, when combined with the metabolic and hormonal changes associated with menopause, promote tumor development, survival, and growth. In parallel, I am investigating the role of adipose tissue inflammation in the development of metabolic disease after menopause. My hope is that the knowledge gained from studying the 'normal' adipose and breast environments during menopause will also help us understand the changes that occur to create a tumor-promoting environment in the breast of obese women during this same window of time.",Assistant Professor,Nutrition,https://scholars.library.tamu.edu/vivo/display/n4ccf1988
Shuang,Zhang,Assistant Professor,"I am an interdisciplinary geochemist, modeler, and data scientist. My research broadly uses data-driven and model-driven approaches to quantify the patterns of water and element flux involved in the global carbon and biogeochemical cycles, especially under periods of climatic perturbations. My group uses extensive data mining, data assimilation, large-scale spatial-temporal statistical analysis, and machine learning.",Assistant Professor,Oceanography,https://scholars.library.tamu.edu/vivo/display/n4df0ce51
Rebecca,Poole,Assistant Professor,,Assistant Professor,Animal Science,https://scholars.library.tamu.edu/vivo/display/n4f71b1c7
Sarah,Capik,Assistant Professor,"Dr. Capik's research interests include the characterization, transmission dynamics, diagnosis, and control of Bovine Respiratory Disease (BRD). She has investigated potential methods to mitigate stress in cattle, used behavioral monitoring to identify sick cattle, and evaluated diagnostic sampling strategies for BRD.",Assistant Professor||Assistant Professor,School of Veterinary Medicine and Biomedical Sciences||Texas A&M AgriLife Research,https://scholars.library.tamu.edu/vivo/display/n551442f5
Qing,Sun,Assistant Professor,"Dr. Sun's research focuses on synthetic biology with advancing designs and applications. Using expertise in molecular engineering, protein engineering, and microbial consortia engineering, to develop new techniques to reprogram gut microbiome, protein machinery and biomaterials. Our current application areas include health, environment and energy. Her research interests are synthetic biology with focus on protein engineering, genetic circuits design and biomaterial development for environmental and biomedical applications.",Assistant Professor,Chemical Engineering,https://scholars.library.tamu.edu/vivo/display/n5a061e0f
Christine,Merlin,Associate Professor,"Our research broadly lies in understanding how organisms respond and adapt to changing environments, with an emphasis on circadian biology. Organisms from bacteria to humans use circadian clocks to control a plethora of biochemical, physiological and behavioral rhythms. These clocks are synchronized to daily and seasonal environmental changes to allow organisms to tune specific activities at the appropriate times of day or year.
In our laboratory, we use the eastern North American migratory monarch butterfly (Danaus plexippus) as a model system to study animal clock mechanisms and the role of circadian clocks and clock genes in a fascinating biological output, the animal long-distance migration. Every fall, like clockwork, millions of monarch butterflies start migrating thousands of miles from North America to reach their overwintering sites in central Mexico. During their journey south, migrating monarchs use a time-compensated sun compass orientation mechanism to maintain a constant flight bearing. Circadian clocks located in the antennae provide the critical internal timing device for compensation of the sun movement across the sky over the course of the day. The recent sequencing of the monarch genome and the establishment of genetic tools to knockout clock genes (and others) in vivo using nuclease-mediated gene targeting approaches provides us with a unique opportunity to uncover the molecular and cellular underpinnings of the butterfly clockwork, its migratory behavior and their interplay.",Assistant Professor,Biology,https://scholars.library.tamu.edu/vivo/display/n5a23a5d7
David,Hala,Assistant Professor,,Assistant Professor,Marine Biology,https://scholars.library.tamu.edu/vivo/display/n5a79eeee
Linglin,Xie,Associate Professor,,Assistant Professor,Nutrition,https://scholars.library.tamu.edu/vivo/display/n5aa6a1af
Lixian,Zhong,Assistant Professor,"is an Assistant Professor of Rangel College of Pharmacy. Her research interest lies at the intersection of science, medicine and economics to assess clinical, economic and humanistic values of medical interventions and she conducts research on the costs and outcomes associated with pharmaceutical products.
She has conducted research using clinical trial data, real world data, large survey data and economic modeling to study cost-effectiveness of new interventions for cancer and neurological diseases. Since joining Texas A&M University as an assistant professor at the College of Pharmacy in 2015, she is conducting research in: evaluating utilization, costs and outcomes associated with medications and other health care services in patients with chronic diseases, health disparity, cost-effectiveness of new interventions, drug pricing and reimbursement.
She holds a Ph.D in Pharmacology and an M.A. in Economics from Duke University. She completed her post-doctoral fellowship training in Pharmacoeconomics and Outcomes research from University of California, San Francisco. She has conducted research in academic, international organization and industry settings.",Assistant Professor,Pharmaceutical Sciences,https://scholars.library.tamu.edu/vivo/display/n5b3c0e66
Shreya,Raghavan,Assistant Professor,"The Raghavan lab utilizes biomaterials and regenerative engineering strategies to create engineered microenvironments - these engineered niches allow the study of cancer stem cell, neural cell and immune interactions as it pertains to cancer metastasis and inflammation.",Assistant Professor,Biomedical Engineering,https://scholars.library.tamu.edu/vivo/display/n5b94a943
Qing,Tu,Assistant Professor,,Faculty Affiliate||Assistant Professor,Energy Institute||Materials Science and Engineering,https://scholars.library.tamu.edu/vivo/display/n5baa89d3
Suhas,Vyavhare,Assistant Professor and Extension Specialist,,Assistant Professor and Extension Specialist||Assistant Professor,Lubbock Research and Extension Center||Entomology,https://scholars.library.tamu.edu/vivo/display/n5d5e1228
Zhipeng,Lu,Assistant Professor,"Dr. Zhipeng Lu's interests include (1) physical environment design for older people, especially those with Alzheimer's diseases, (2) safety in healthcare setting, (3) telemedicine for behavioral health, (4) advanced technologies to measure human-environment interactions (e.g., VR, eye-tracking, EEG, fNIRS and fMRI), and (5) healthy community to promote physical activities and healthy eating. He has served as PI, Co-PI and Co-I for multiple projects supported by Robertwood Johnson Foundation, NIH and the American Institute of Architects.",Associate Director||Assistant Professor,Center for Health Systems and Design||Architecture,https://scholars.library.tamu.edu/vivo/display/n620af405
Kristin,Patrick,Assistant Professor,"Using a multi-disciplinary toolset, we probe the molecular mechanisms that macrophages use to activate an innate immune response that is rapid, robust, and regulated. We mainly study how RNA binding proteins control the ability of macrophages to respond to infection, using a variety of bacterial and viral models. By working to uncover how RNA binding proteins work and how macrophages functionalize RNA binding proteins to orchestrate a fine-tuned innate immune response, our work furthers our understanding of a variety of human diseases.",Assistant Professor,Microbial Pathogenesis and Immunology,https://scholars.library.tamu.edu/vivo/display/n6431d695
Vinicius,Gouvea,Assistant Professor,"Dr. Gouvea's research interests focus on beef cattle nutrition and health. More specifically, nutritional physiology and relationships between nutrition and animal health/immunology. Research activities include feeding programs for newly received and finishing cattle, ingredient evaluation, nutrient utilization, and metabolism, and feed additives for receiving and finishing feedlot cattle.",Assistant Professor,Animal Science,https://scholars.library.tamu.edu/vivo/display/n66740227
Ismael,Badillo Vargas,Assistant Professor,,Assistant Professor||Assistant Professor,Entomology||Weslaco Research and Extension Center,https://scholars.library.tamu.edu/vivo/display/n6cb711e2
Tammi,Johnson,Assistant Professor,,Assistant Professor,Uvalde Research and Extension Center,https://scholars.library.tamu.edu/vivo/display/n6e2302b0
Heath,Blackmon,Associate Professor,,Assistant Professor||Associate Professor,Biology||Biology,https://scholars.library.tamu.edu/vivo/display/n6e56235d
Keri,Norman,Associate Professor,"My primary area of interest is in molecular epidemiology and in particular investigating selection pressures driving bacterial pathogen populations at the interface between humans, agricultural animals, and the environment. I use molecular techniques such as next generation sequencing to investigate how bacterial populations change in response to selection pressures. One example is the unintended consequences of antimicrobial use on E. coli and Salmonella populations in cattle and swine and their environments. I am also interested in using whole genome sequencing to compare bacterial populations and improve upon current typing techniques.",Assistant Professor,Veterinary Integrative Biosciences,https://scholars.library.tamu.edu/vivo/display/n6fb4481d
Shameena,Bake,Assistant Professor,"I have developed an independent line of research to investigate effects of maternal ethanol consumption on adult health, with particular emphasis on cerebral blood flow and stroke severity in adults.",Assistant Professor,Neuroscience and Experimental Therapeutics,https://scholars.library.tamu.edu/vivo/display/n6ff53f10
Juan Carlos,Laya,Associate Professor,"My current research interests are in the broad area of carbonate sedimentology and stratigraphy. The topics I am focusing on include:
1) Carbonate reservoir characterization and modeling from modern and outcrop analogues, (interested in Caribbean islands, also Pacific and Indian Ocean islands)
2) Late Paleozoic carbonate petroleum systems and opportunities for exploration
3) Diagenesis and porosity evolution, using image analysis tools as a key for petrophysics.
4) The use of stable isotope geochemistry including clumped isotopes in understanding deposition, diagenesis and basin evolution.
5) Unconventional Carbonate reservoirs and basin analysis.",Faculty Affiliate||Associate Professor||Assistant Professor,Geology and Geophysics||Geology and Geophysics||Energy Institute,https://scholars.library.tamu.edu/vivo/display/n70ce65bb
Laura,Jurgens,Assistant Professor,"I study community and ecosystem resilience in coastal oceans and estuaries.My lab works to uncover key processes and interactions that maintain biodiversity and the function of coastal marine ecosystems in the face of multiple stressors. These include increasing climate variability, extreme events, reductions in important species like predators and habitat-formers, and species invasions. Our focus on extreme event ecology includes effects of major storms, heat waves, low-oxygen events, harmful algal blooms, and diseases. We use field and lab experiments, environmental and biodiversity monitoring, data synthesis and theory to investigate these processes in a variety of marine ecosystems, urban and remote, intertidal and subtidal, temperate and tropical. We also help build the science needed to support sustainable invertebrate fisheries. We're especially interested in helping small-scale and traditional fisheries weather the increasing uncertainty of global change.",Assistant Professor,Marine Biology,https://scholars.library.tamu.edu/vivo/display/n70f0f1e7
Sheila,Kitchen,Assistant Professor,"I am molecular ecologist that integrates field, laboratory and computational tools to address fundamental questions surrounding interspecies interactions and their persistence in a changing world.My goal is to transform these results into applied solutions for conservation.",Assistant Professor,Marine Biology,https://scholars.library.tamu.edu/vivo/display/n713c4310
Janie McClurkin,Moore,Assistant Professor,"I manage the Post-Harvest Engineering and Education research lab, focusing on post-harvest treatment technologies and engineering eduction. My research mission is to identify post-harvest treatment technologies capable of transforming lignin into value added chemicals. This research also provides new knowledge on the role of ozone and atmospheric cold plasma treatments for the reduction of spoilage organisms during post-harvest processing and storage. Research is currently being conducted with a variety of commodities including, stored grains (i.e., corn, rice), oil seeds and byproducts (i.e., cottonseed, cottonseed meal), and packaged produce (i.e., tomatoes and romaine lettuce).
I also work to develop teaching materials for those who utilize new treatment and storage technologies, so they feel more connected with the technologies thereby increasing the instances of utilization.",Member||Faculty Affiliate||Faculty Affiliate||Assistant Professor,Biological and Agricultural Engineering||Engineering Education Research Taskforce||Energy Institute||Institute for Engineering Education and Innovation,https://scholars.library.tamu.edu/vivo/display/n717a88ea
Daniel,Spalink,Assistant Professor,"Projects in my lab range from studying the dynamics of genetic diversity within species to the evolution of entire plant orders, and from regional patterns of community assembly to the global structure of phylogenetic and functional diversity. As climate changes, habitats fragment, and extinction rates rise, we use this evolutionary perspective to understand the processes through which species have evolved and assembled so that we are better equipped to protect them.",Assistant Professor,Ecology and Conservation Biology,https://scholars.library.tamu.edu/vivo/display/n72b28bdc
A. Phillip,West,Assistant Professor,"Mitochondria are complex and dynamic organelles integral to many processes including energy generation, programmed cell death, signal transduction, and immunity. Research in my laboratory centers on understanding how mitochondria regulate innate immunity and inflammatory processes to influence human health and disease.",Assistant Professor,Microbial Pathogenesis and Immunology,https://scholars.library.tamu.edu/vivo/display/n739a434b
Marie,Strader,Assistant Professor,,Assistant Professor,Biology,https://scholars.library.tamu.edu/vivo/display/n75d85f06
Kathryn,Shamberger,Assistant Professor,,Assistant Professor||Associate Professor,Oceanography||Oceanography,https://scholars.library.tamu.edu/vivo/display/n75e8b8cd
Christina,Belanger,Assistant Professor,"Identifying how organisms respond, why they respond, and to which environmental factors they are primarily responding is integral to understanding how future climate change will affect the modern biota as well as to inform efforts to sustain biodiversity and economically important fisheries.
Shelled organisms, such as molluscs and foraminifera, are abundant and well-preserved in the fossil record and in museum collections of modern specimens. These preserved assemblages allow longer-term perspectives on biotic response and climate change - millennia to millions of years - than is possible in exclusively present-day ecological studies. The fossil record also allows trends in these natural communities to be analyzed before, during, and after changes in climate without needing to wait for the events to occur in real time.",Assistant Professor,Geology and Geophysics,https://scholars.library.tamu.edu/vivo/display/n7665a171
Wanhe,Li,Assistant Professor,,Assistant Professor,Biology,https://scholars.library.tamu.edu/vivo/display/n793e9c7f
Dustin,Dubois,Assistant Professor,"My recent research interests have focused on understanding the cellular and molecular mechanisms governing the interaction between a wide array of Neuropsychopharmacological agents and their respective receptors. My past research has focused on understanding 1.) the neuroteratogenic effects of ethanol on the GABAergic inhibitory neurotransmitter system, 2.) the chronic effects of ethanol on excitatory and inhibitory neurotransmitter systems in brain areas regulating anxiety-like behaviors, and 3) the effects of anesthetic agents on learning and memory mechanisms in the hippocampal region of the brain. My lab is also interested in understanding the impact of various pharmacological and environmental agents such as ethanol, benzodiazepines, pesticides, and chemical pollutants on central nervous system development.",Assistant Professor,Neuroscience and Experimental Therapeutics,https://scholars.library.tamu.edu/vivo/display/n7a168a93
Isabella,Farhy,Assistant Professor,"The Farhy lab studies the cross talk of two major cell types in the brain, neurons and astrocytes, focusing on how they shape synapse development and activity. Correct formation of synapses is crucial for normal brain function and synapse deficits have been implicated in most brain disorders, including autism, schizophrenia, major depression and Alzheimer's disease.
To investigate these interactions, we use rodents as model system, combining in vitro pure cell cultures with in vivo transgenic and knockout mice. These are analyzed using cutting-edge omics approaches such as mass-spectrometry, bulk and single cell RNAseq, as well as histology and functional assays.
We aim to uncover the cellular pathways activated in both neurons and astrocytes following their interaction at the synapse, leading to identification of novel therapeutic targets for the treatment of synaptic dysfunctions in brain disorders.",Assistant Professor,Biology,https://scholars.library.tamu.edu/vivo/display/n7a18a20a
Vanna,Dickerson,Assistant Professor,,Assistant Professor,Small Animal Clinical Sciences,https://scholars.library.tamu.edu/vivo/display/n7a39378b
Martial,Ndeffo,Assistant Professor,"My research uses transdisciplinary modeling approaches to address public health challenges for a wide range of infectious diseases. A focus of my research has been to develop data-driven models to 1) understand and predict epidemiological risk, patterns, and burden of infectious diseases, 2) identify and evaluate optimal strategies for disease control and prevention, and 3) perform economic analyses of public health intervention measures for preventing or curtailing disease outbreaks. Such research is paramount for informing public health policy for infectious diseases prevention and control and ultimately saving lives.",Assistant Professor,Veterinary Integrative Biosciences,https://scholars.library.tamu.edu/vivo/display/n7f958dd8
Sanjay,Antony Babu,Assistant Professor,"Plants are in constant interactions with a large diversity of microorganisms, that belong to various biological kingdoms including archaea, bacteria, fungi and protista. In nature, these inter-kingdom interactions can be both cooperative and detrimental to the host-plants. My major research focus is to understand the dynamics of inter-kingdom microbiome-interactions and how it affects the crop production. We use cutting-edge culture-independent (metagenomics, metatranscriptomics and metabolomics) and culture-dependent (culturomics) methods combined with computational biology. We especially employ a systematics-based approach, so that we can identify individual organisms involved in these interactions, their biological functions, impacts on neighboring niches, and metabolic activity.
Current research projects
The research has several direct biotechnological applications, and the research in our lab focuses on the following:
1. Develop bioferlitizers/biopesticides: By disentangling the microbial functions that are essential for different growth stages of crop plants, we intend to develop ""soil probiotics"" to improve crop health. In order to achieve this, we study natural ecosystems and wild plants related to crops. The technology developed will be sustainable and environmentally friendly. Our current research focuses on developing microbial inoculum assemblages from teosinte (ancestor of modern maize) and transferring the microbiota to maize to improve pest and pathogen resistance.
2. Pathobiomes of plants: The concept of pathobiome is an emerging field in pathogen biology. In recent times, it has been noted that pathogens do not act alone in natural ecosystems, but along with a mob of other microorganisms. Deciphering the interaction between a plant pathogen and its associated microbiomes is necessary to understand pathogensis and also to design control measures. Research in my lab specifically focusses on mycosphere bacterial microbiota of pathogenic fungi. Our recent research focusses on pathobiomes associated with Fusarium wilt of cotton.
3. Indicators of microbial dysbiosis: Dysbiosis is a microbial imbalance caused by perturbation in an ecosystem or a niche. Plant microbiomes experience dysbiosis during biotic (disease) and abiotic (drought, flooding, heat etc) stress. We study dysbiosis to understand shift in microbial processes, detect stress indicators and design stress alleviation measures including developing microbial inoculum (biofertilizers).",Assistant Professor,Plant Pathology and Microbiology,https://scholars.library.tamu.edu/vivo/display/n809679df
Burak,Guneralp,Assistant Professor,"Dr. Burak Guneralp's research interests center on socio-economic and environmental aspects of contemporary urbanization, particularly in relation to urban sustainability. He uses various theoretical frameworks and methodologies, in particular, systems analysis and geospatial analysis.",Assistant Professor,Geography,https://scholars.library.tamu.edu/vivo/display/n80a1013a
Jeffrey,Brady,Assistant Professor,,Assistant Professor,Stephenville Research and Extension Center,https://scholars.library.tamu.edu/vivo/display/n8119f04c
Unity,Locke,Assistant Professor,,Assistant Professor,Veterinary Pathobiology,https://scholars.library.tamu.edu/vivo/display/n8229e82b
Shivam,Mehta,Assistant Professor,"Throughout my career, I have demonstrated a high level of proficiency in clinical teaching to dental students and residents. I have excelled in research fields of Mini-Screw Assisted Rapid Palatal Expansion (MARPE), Orthodontic Tooth Movement, 3D Imaging, and Randomized Clinical Trials with more than 69 publications and abstracts (42 publications in peer-reviewed journals, 27 published abstracts), 5 grants, and 28 scientific presentations in collaborations with world-renowned researchers. Having served as a member of the board of directors at reputable institutions and a core member of the President's race and diversity council, and currently serving as the secretary of the ADEA postdoctoral application support service advisory council and NESO planning committee has afforded me with practical administration and mentoring skills and I have mentored multiple dental students, fellows, and orthodontic residents in research development and clinical orthodontics. I am currently serving as the ADA standards committee voting member and representing the interest of United States at the International Standards Organization for influencing the role of U.S. technologies and products in the global marketplace.",Assistant Professor,Orthodontics,https://scholars.library.tamu.edu/vivo/display/n82445f5a
Deborah,Threadgill,Assistant Professor,,Research Assistant Professor||Assistant Professor,Veterinary Pathobiology||School of Medicine,https://scholars.library.tamu.edu/vivo/display/n8734a809
Jason,George,Assistant Professor,,Assistant Professor,Biomedical Engineering,https://scholars.library.tamu.edu/vivo/display/n89b90ab5
Francisco,Abello,Assistant Professor and Extension Specialist,,Assistant Professor||Assistant Professor and Extension Specialist,Vernon Research and Extension Center||Agricultural Economics,https://scholars.library.tamu.edu/vivo/display/n8af6a455
Jacquelyn,Grace,Assistant Professor,"As a behavioral ecophysiologist, I am broadly interested phenotype-environment matching at the proximate and ultimate levels, and especially, the role of hormones in mediating behavioral and physiological plasticity. The big questions of my research are:
(1) How do animals perceive potentially informative cues?
(2) What are the physiological mechanisms that mediate between these cues and phenotypic change?
(3) What are the long-term fitness consequences of these changes?
My research utilizes avian systems to answer these questions, with recent study species including house sparrows, Nazca boobies, and Caspian terns. At Texas A&M I am expanding this research to include wetland systems where habitat change and pollution may be cues that induce phenotypic change.",Assistant Professor,"Rangeland, Wildlife and Fisheries Management||Wildlife and Fisheries Sciences",https://scholars.library.tamu.edu/vivo/display/n8b4d4345
Angela,Bordin,Assistant Professor,,Assistant Professor,Large Animal Clinical Sciences,https://scholars.library.tamu.edu/vivo/display/n8c367e71
Ana,Diaz Artiles,Assistant Professor,"Dr. Ana Diaz Artiles' interests focus on human spaceflight and space system engineering, with strong emphasis on aerospace biomedical engineering, extravehicular activity, and human performance in altered gravity environments.",Assistant Professor,Aerospace Engineering,https://scholars.library.tamu.edu/vivo/display/n8c40b0a2
Mariana,Janini Gomes,Assistant Professor,,Assistant Professor,Kinesiology and Sport Management,https://scholars.library.tamu.edu/vivo/display/n8e75a22c
Robert Jose,Valeris Chacin,Assistant Professor,,Assistant Professor,Veterinary Pathobiology,https://scholars.library.tamu.edu/vivo/display/n8f1dc6b2
Hamed,Ali,Assistant Professor,"I am an Assistant Professor of Pharmaceutical Sciences at Texas A&M Rangel College of Pharmacy (RCOP). I obtained my Ph.D. at Okayama University, Japan, in 2007. Since that, I have acquired ample experience in drug discovery research.Several years of experience in designing, synthesizing, and biological screening of selective tyrosine kinase inhibitors (TKIs) and for targeting the aggressive HER2-resistant breast cancer by selective allosteric and orthosteric kinase inhibitors. Conducting a successful scholarly activity to attract substantial extramural/intramural funding support worth $3.2 Million (as a PI, CO-I, and Consultant) in the United States and the Middle East. Mentoring many undergraduate, graduate, and Pharm-D students exposing them to meritorious research opportunities. Publishing more than 60 peer-reviewed articles and serving as Ad hoc grants/journals reviewer for several national and international institutions. I have served as an ad hoc reviewer for many scientific journals, an active member of several scientific associations, and a Chair of the Admission Committee at RCOP. Moreover, I have extensive experience in teaching Medicinal Chemistry and Drug Design for more than 25 years. During my teaching capacities, I received an excellent evaluation from Pharmacy students to get the honor of ""Teacher of the Year"" in 2017 and ""Teaching Team of the Year"" from 2013 to 2017 at RCOP.",Assistant Professor,Pharmaceutical Sciences,https://scholars.library.tamu.edu/vivo/display/n92575b4f
Claudio,Casola,Assistant Professor,"Our group is interested in studying genome evolution and adaptation in plants, beetles and other organisms using both experimental and computational approaches.
Research topics in our group include gene evolution via de novo formation, gene duplication and horizontal transfer; genetic basis of drought tolerance and adaptation to aridity in conifers; evolution of the tree-killing habit in bark beetles.
We work in collaboration with scientists at TAMU, the University of Kentucky, Pisa University (Italy), the Texas A&M Forest Service, the ESSM Department Forest Science Laboratory and the USDA Forest Service Southern Research Station.",Assistant Professor,Ecology and Conservation Biology,https://scholars.library.tamu.edu/vivo/display/n94d8cb9d
Jennifer,Dulin,Assistant Professor,"My research focuses on identifying novel cellular and molecular approaches to reconstruct spinal cord neural circuits and restore neurological function after spinal cord injury. We seek to answer fundamental biological questions about how transplanted neural progenitor cells interact with, and integrate into, the injured host nervous system. Our long-term goal is to generate knowledge that will be applied toward the engineering of therapeutically effective human cell therapies.",Assistant Professor,Biology,https://scholars.library.tamu.edu/vivo/display/n97940050
Maureen,Frank,Assistant Professor and Extension Specialist,,Assistant Professor||Assistant Professor and Extension Specialist,"Uvalde Research and Extension Center||Rangeland, Wildlife and Fisheries Management||Wildlife and Fisheries Sciences",https://scholars.library.tamu.edu/vivo/display/n98bf82e0
Chandler,Benjamin,Assistant Professor,,Assistant Professor,Mechanical Engineering,https://scholars.library.tamu.edu/vivo/display/n98f9ce4f
Shogo,Sato,Assistant Professor,"Dr. Sato has a broad research background in circadian biology combined with growing knowledge in biochemistry, epigenetics, and metabolism. Especially during his second postdoctoral career in the laboratory of the late Paolo Sassone-Corsi at UCI, he has been tackling the question of how the circadian clock links to metabolic functions. Dr. Sato demonstrated the circadian control of metabolic pathways is reprogramed by aging, which is rescued by caloric restriction (Sato et al., Cell 2017). More recently, Dr. Sato investigated the time-dependent impact of exercise, revealing exercise at the early active phase (fasted phase) exerts robust metabolic responses in skeletal muscle (Sato et al., Cell Metab 2019) and illustrating the atlas of exercise metabolism unique to different exercise timing (Sato et al., Cell under revision). Lastly, Dr. Sato discovered a novel non-canonical role played by the circadian clock specific to pluripotent stem cells (Sato et al., in preparation). Taken together, his past/ongoing studies contribute to the accumulation of evidence underscoring a healthy lifestyle relied on biological clocks.
The goals of Sato lab will be to 1) achieve a fundamental understanding of the intertwined link between metabolism, epigenetics, and the circadian clock, and 2) establish translational interventions targeting the circadian clock system to promote human health by using molecular, biochemical, physiological, and bioinformatics approaches.",Assistant Professor,Biology,https://scholars.library.tamu.edu/vivo/display/n9dce7c6b
Dylan,Mccreedy,Assistant Professor,"My lab investigates the roles of early inflammation in tissue damage and wound healing following spinal cord injury. We employ genetic and pharmacological methods to study how immune receptors (e.g. L-selectin) and signaling pathways alter the accumulation and activation of early arriving immune cells, predominantly neutrophils. We are also developing new three-dimensional imaging strategies to characterize inflammation and tissue damage after spinal cord injury. Utilizing tissue clearing techniques and lightsheet microscopy, we can visualize the spatiotemporal effects of spinal cord injury in a manner previously unachievable with traditional imaging modalities. With the knowledge gained from these studies, we aim to develop novel neuroprotective strategies to reduce inflammatory damage and improve long-term recovery for the spinal cord injured patient.",Assistant Professor,Biology,https://scholars.library.tamu.edu/vivo/display/n9e06a3e6
Masako,Suzuki,Assistant Professor,,Assistant Professor,Nutrition,https://scholars.library.tamu.edu/vivo/display/n9fd0c6a8
Aref,Arzan Zarin,Assistant Professor,"We are at the beginning of an exciting new era for neuroscience, as our ability to probe neural circuits and their neuronal components is advancing rapidly due to genetic and optogenetic tools. Our research program applies these tools to address fundamental questions about how the same neural circuitry generates different motor patterns, and how such circuits develop and are maintained. We investigate these questions using the Drosophila larva, which has the following advantages:(i) The connectome of the larval motor circuit is near completion, enabling us to identify, at the single-synapse level, the pre and postsynaptic partners of each individual neuron embedded in it. This anatomical map has provided an excellent substrate to study the development, maintenance, and function of larval motor circuits as well as the cell biology of individual neurons embedded within it. (ii) The larval CNS generates multiple motor behaviors that can be studied at the single neuron/single muscle level. Moreover, using the modern optogenetic methods, it is possible to access individual neurons, monitor or alter their activity, and observe the behavioral consequences. (iii) It is also feasible to selectively inactivate or induce ectopic expression of any gene (e.g. those coding for transcription factors) in the neuron of interest, and examine its effect on intrinsic neural properties, morphology, connectivity pattern, and behavioral performance of the animal, thereby linking the gene to development and behavior.",Assistant Professor,Biology,https://scholars.library.tamu.edu/vivo/display/na0cb5dc6
Angela,Mitchell,Assistant Professor,,Assistant Professor,Biology,https://scholars.library.tamu.edu/vivo/display/na16f3eb8
Joshuah,Perkin,Assistant Professor,"Work in our lab focuses on the conservation and sustainable management of freshwater fish diversity, understanding reasons for its decline, and developing approaches for mitigating threats in Texas, the southern Great Plains, and beyond. We address questions regarding species- and community-level change across spatial and temporal scales using a variety of study approaches, including meta-analyses, field experiments, natural snapshot and trajectory experiments, landscape modeling, and molecular techniques. Our work strongly emphasizes how anthropogenic environmental manipulations, either destructive or restorative in nature, cause shifts in fish abundance, distribution, and community structure.",Assistant Professor,"Rangeland, Wildlife and Fisheries Management||Wildlife and Fisheries Sciences",https://scholars.library.tamu.edu/vivo/display/na1fa2477
Laura,Smith,Assistant Professor,"I am interested in the molecular and circuit mechanisms of complex behavior and how alterations in synaptic connectivity between neurons lead to the maladaptive features of neuropsychiatric illnesses. Impairments in synaptic pruning are observed in autism spectrum disorders and may contribute to symptoms such as sensory hypersensitivity and social overstimulation. Repeated exposure to drugs of abuse also alters synapses in brain reward regions, and addiction-related synaptic and behavioral changes, similar to learning and memory, require the synthesis, or translation, of proteins in their local vicinity. Together these findings suggest that addiction is promoted and sustained through the coercion of normal plasticity mechanisms. Thus, investigating the function of developmental proteins in the adult brain, with regard to psychiatric and substance-related disorders, may reveal novel therapeutic and preventative strategies.",Assistant Professor,Neuroscience and Experimental Therapeutics,https://scholars.library.tamu.edu/vivo/display/na60823cc
Alexandru,Hening,Assistant Professor,,Assistant Professor,Mathematics,https://scholars.library.tamu.edu/vivo/display/na9319713
Alex,Walsh,Assistant Professor,,Assistant Professor,Biomedical Engineering,https://scholars.library.tamu.edu/vivo/display/nadf9994b
Yang,Shen,Associate Professor,"My main motivation is to unravel molecular mechanisms and to modulate emergent behavior of biomolecular networks with the development and application of computational tools (including molecular modeling, network simulation, optimization, machine learning, graph theory, and systems and control theory). To that end, I aim at an iterative process that models and experiments can feed each other.",Faculty Affiliate||Associate||Assistant Professor,Energy Institute||Electrical and Computer Engineering||Aggie STEM,https://scholars.library.tamu.edu/vivo/display/naee36a69
Sung Il,Park,Assistant Professor,"My lab conducts three lines of research; wireless optogenetics, biomedicine, wireless power transmission into biological tissues, and photodynamic therapy for gastrointestinal cancers.
We are developing soft neural interface platforms and soft wireless platform electronics that can control neural interfaces and integrate data transmission, signal processing, and power management. These works involve fabrication of stretchable electronic systems and development of novel antenna systems and integrated circuit systems. In parallel, we are studying novel methods to maximize wireless power transmission into biological tissues.",Assistant Professor,Electrical and Computer Engineering,https://scholars.library.tamu.edu/vivo/display/naef793d2
Reza,Avazmohammadi,Assistant Professor,,Assistant Professor,Biomedical Engineering,https://scholars.library.tamu.edu/vivo/display/nb090186f
Jonathan,Lidbury,Assistant Professor,,Assistant Professor,Small Animal Clinical Sciences,https://scholars.library.tamu.edu/vivo/display/nb52ba3ea
Ranjeet,Dongaonkar,Assistant Professor,,Assistant Professor,Veterinary Physiology and Pharmacology,https://scholars.library.tamu.edu/vivo/display/nb8d90977
Paul,Derry,Assistant Professor,,Assistant Professor,Institute of Biosciences and Technology,https://scholars.library.tamu.edu/vivo/display/nbc3878a6
Joseph,Veldman,Associate Professor,"In the Veldman Lab at Texas A&M University, we study relationships among plant species, ecosystem functions, and human-induced environmental change. Fire - both as an ancient ecological force and as a management tool - is central to our research on the conservation and restoration of tropical and subtropical savannas and forests. Through interdisciplinary collaborations and outreach to environmental organizations, we work to improve public policies that impact fire-dependent ecosystems and human livelihoods.",Assistant Professor,Ecology and Conservation Biology,https://scholars.library.tamu.edu/vivo/display/nbc6131af
Taehyun,Roh,Assistant Professor,"Dr. Taehyun Roh has a broad background in environmental health, with specific training and expertise in toxicology and epidemiology. His current research focus is epidemiological studies of the chronic health effects of drinking water contaminants including arsenic. His earlier research topics include mechanistic toxicological studies across in vitro/in vivo experiments, and exposure and risk assessment of environmental contaminants. He is a Registered Pharmacist in Korea.",Assistant Professor,Epidemiology and Biostatistics,https://scholars.library.tamu.edu/vivo/display/nbd3b92fa
Rachel,Smith,Assistant Professor,,Assistant Professor,,https://scholars.library.tamu.edu/vivo/display/nbe30d9b5
Leslie,Cizmas,Instructional Assistant Professor,"My research focuses on the occurrence and toxicity of drinking water contaminants, health effects of complex mixtures, and chemical exposure assessment in underserved communities.",Assistant Professor,Environmental and Occupational Health,https://scholars.library.tamu.edu/vivo/display/nbfad6806
Robert,Watson,Assistant Professor,"We are interested in the interface between intracellular bacterial pathogens and the hosts they infect. In particular, we study the notorious human pathogen, Mycbacterium tuberculosis, which remains a major global health threat. M. tuberculosis has evolved a variety of specific adaptations to not only survive but also replicate within the harsh environment inside a macrophage. We want to understand the mechanisms by which M. tuberculosis is able to modulate the innate immune response to establish an infection as well as how the host detects and responds to M. tuberculosis.",Assistant Professor,Microbial Pathogenesis and Immunology,https://scholars.library.tamu.edu/vivo/display/nc0edc59a
Gabriel,Hamer,Associate Professor,"Research in the Hamer Lab broadly investigates the ecology of infectious diseases of humans, wild animals, and domestic animals, with particular attention to those transmitted by arthropod vectors (e.g. mosquitoes, ticks, kissing bugs). We have focused primarily on vector-host interactions that lead to parasite amplification and increased disease risk. We utilize multidisciplinary tools to studying these complex disease systems, including molecular biology, landscape epidemiology, eco-immunology, and ecological modeling. A goal of our research is to elucidate mechanisms of transmission across space and time that facilitate ecological management of diseases with effective intervention and preventative strategies.",Assistant Professor,Entomology,https://scholars.library.tamu.edu/vivo/display/nc1f3fc64
Ron,Eytan,Assistant Professor,"My lab studies the origin and maintenance of marine biodiversity, primarily in coral reef fishes, using genomic and computational methods. My lab has broad interests in phylogenomics and phylogeography, population genetics/genomics, and the geography and genetics of speciation in reef fishes.",Assistant Professor,Marine Biology,https://scholars.library.tamu.edu/vivo/display/nc2f8ea4a
Anjel,Helms,Assistant Professor,"My current research is focused on understanding how chemical compounds mediate interactions among plants, insect herbivores, and herbivore natural enemies. More specifically, my lab is investigating how plants and insect herbivores use chemical information from their environment to assess their risk of attack.",Assistant Professor,Entomology,https://scholars.library.tamu.edu/vivo/display/nc6106e75
Xuejun,Zhu,Assistant Professor,"Our research interest is biomolecular engineering for applications in health, agriculture, and energy. The research themes include discovery of biological molecules involved in microbe- and host-microbe interactions, elucidating the biosynthesis of bioactive molecules, and harnessing the knowledge to design bio-based systems for diagnostics and treatment. To advance our research, we use principles in microbiology, molecular biology, biochemistry, analytical chemistry, protein engineering, metabolic engineering, as well as emerging tools in chemical biology and synthetic biology.",Assistant Professor,Chemical Engineering,https://scholars.library.tamu.edu/vivo/display/nc63ee03c
Xin,Yan,Assistant Professor,"At the Yan lab, we seek to develop and apply novel mass spectrometric methodologies in disease diagnosis, reaction monitoring, and development of new synthetic methods. In particular, we are motivated by the possibility of enabling new technology for next-generation approaches to precision medicine, and sustainable synthesis.
Our research interests span a range of topics, including i) metabolomics in brain research: we couple dual imaging modality (mass spectrometry imaging and fluorescence imaging) with liquid chromatography mass spectrometry to discover biomarkers and elucidate their biological mechanism in brain aging and brain cancer research. ii) point-of-care diagnostics: we are interested in the development of ambient ionization for fast analysis of enzymatic biomarkers, as well as the design and development of the interface to mini-mass spectrometer (mini-MS) for point-of-care diagnosis. iii) microdroplet reaction: mass spectrometry is universally considered as an analytical tool, however, its new feature was discovered: its use as a unique tool in synthesis. The uniqueness represents in its capabilities of dramatical acceleration of organic reactions and the driving of reactions that cannot occur in bulk. We aim to develop microdroplet reactors for acceleration, explore new reactivity, and study fundamentals of microdroplet acceleration. iv) reaction mechanistic study: reaction mechanisms play an essential role in the study of organic chemistry. We aim to develop new online mass spectrometric reaction monitoring system to explore unknown reaction mechanism, capture short-lived intermediates, study kinetics of fast reactions, and control process of active pharmaceutical ingredient (API) synthesis. The central theme of all the topics above is about droplet chemistry.
This lab is a highly interdisciplinary research group. It provides students the opportunity to obtain hands-on experience in analytical, biological and synthetic chemistry.",Assistant Professor,Chemistry,https://scholars.library.tamu.edu/vivo/display/nc863cc6e
Jenny,Hyde,Assistant Professor,The long-term objective of my research is to identify and characterized virulence determinants that contribute to the pathogenic potential of the B. burgdorferi. Through the utilization of in vivo bioluminescence we are evaluating the kinetics of borrelial infectivity in various strains or mutant derivatives that exhibit distinct phenotypes. We are also tracking how in vivo synthesis of critical virulence determinants affects B. burgdorferi colonization and dissemination. This work will contribute to the current body of knowledge by shedding light on the pathogenic and temporal role of specific borrelial genes during the infectious process.,Assistant Professor,Microbial Pathogenesis and Immunology,https://scholars.library.tamu.edu/vivo/display/ncaa0388a
Matthias,Koch,Assistant Professor,,Assistant Professor,Biology,https://scholars.library.tamu.edu/vivo/display/ncb08e15a
Mirjam,Furth,Assistant Professor,"Numerical and experimental hydrodynamics, high-speed craft dynamics, naval architecture, wave energy harvesting, seakeeping, wave downtime analysis and aquaculture.",Faculty Affiliate||Assistant Professor,Ocean Engineering||Energy Institute,https://scholars.library.tamu.edu/vivo/display/ncb9db74b
Jonathan,Sczepanski,Assistant Professor,"Our primary research goals are to develop and apply novel tools for studying DNA damage in the context of chromatin and to explore new avenues for RNA-based therapeutics and diagnostics. By combining expertise in chemical biology, molecular biology, and molecular evolution, our lab addresses challenges associated with studying and targeting noncoding RNAs from a unique perspective. In addition, we utilize modern chemical biology techniques to develop designer chromatin systems for studying DNA damage. We are seeking motivated individuals who wish to gain experience in chemical biology, molecular biology, and in vitro evolution techniques.",Assistant Professor,Chemistry,https://scholars.library.tamu.edu/vivo/display/ncc157d6e
Angela,Arenas-Gamboa,Assistant Professor,My laboratory is interested in the development of vaccines against select agents focusing onBrucella spp. We incorporate the microencapsulation technology to increase safety and efficacy of vaccines for human and animal use. These studies are principally targeted on the understanding of the response to infection by the host and elucidating the correlates of protective immunity elicited by the encapsulated and non-encapsulated vaccines.,Assistant Professor,Veterinary Pathobiology,https://scholars.library.tamu.edu/vivo/display/ncc8f35b9
Erica,Macon,Assistant Professor,,Assistant Professor,Animal Science,https://scholars.library.tamu.edu/vivo/display/nccc2aed2
Shiqing,Xu,Assistant Professor,"Our research aims to develop innovative synthetic methodologies and therapeutic approaches, and apply them to solving pressing problems of biological and medical importance. New synthetic methodologies and strategies (e.g. non-traditional disconnections and C-H functionalization) have great impacts on the discovery of transformational medicines by enabling the rapid and efficient synthesis of novel, diverse, and complex biologically active molecules. New therapeutic approaches (e.g. targeted covalent inhibition and targeted protein degradation) provide new opportunities to address traditionally ""undruggable"" disease targets.
We anticipate that the combination of the efforts in the development of novel synthetic methodologies and therapeutic approaches will advance drug discovery in diseases of unmet need, and achieve the research goal of identifying small-molecule probes and drug candidates that specifically remove/inhibit disease-causing proteins in cells and animal models and ultimately impact human health. Representative research directions include:
1. COVID-19 drug discovery via small-molecule-induced targeted protein inhibition and degradation
2. Late-stage functionalization of drugs and peptides & its applications in drug discovery
3. Organoboron chemistry and its medical applications",Assistant Professor,Chemistry,https://scholars.library.tamu.edu/vivo/display/ncd983c6e
Isaac,Adjei,Assistant Professor,"Dr. Isaac Adjei's goals are to advance translatable strategies to understand, treat and diagnose cancer, and in the process educate the next generation of scientists. His research focuses on developing drug delivery systems that improve outcomes for advanced-stage cancer. He also studies the mechanisms of tumor immune evasion using three-dimensional tumor models, with the goal of developing novel strategies to reactivate the immune system against tumors.",Assistant Professor,Biomedical Engineering,https://scholars.library.tamu.edu/vivo/display/nce137c7b
Angela,Perri,Assistant Professor,,Assistant Professor,Anthropology,https://scholars.library.tamu.edu/vivo/display/nce32c1da
Bobak,Mortazavi,Associate Professor,"My research interests include end-to-end research on medical embedded systems and the application of data mining and machine learning algorithms necessary to make personalized, preventative medical treatments possible through advanced health analytics . My background is in embedded systems design, where I studied sensor fusion, reconfigurable architectures and systems, hardware accelerators, and gpu computing. During my Ph.D. I applied data mining and machine learning techniques to these systems to develop a personalized, exercise-level activity-recognition video game with wearable sensors. I am now primarily concerned with the ability to use supervised and unsupervised techniques to learn more about medical prediction and risk-stratification in order to better develop personalized medical systems, prediction models, comparative effectiveness techniques, and combine wearable sensors and other necessary data to make a clinical impact at the system level, provider level, and patient level.",Associate Professor||Assistant Professor,Computer Science and Engineering||Computer Science and Engineering,https://scholars.library.tamu.edu/vivo/display/nce4143cc
Mahul,Chakraborty,Assistant Professor,,Assistant Professor,Biology,https://scholars.library.tamu.edu/vivo/display/nd1041b0d
Sargurunathan,Subashchandrabose,Assistant Professor,I have a long-standing interest in elucidating the molecular and cellular effectors at the host-pathogen interface to identify therapeutic targets against infectious diseases.,Assistant Professor,Veterinary Pathobiology,https://scholars.library.tamu.edu/vivo/display/nd12152ed
Lindsay,Dawson,Assistant Professor,"Using the neonate and adult mouse digit as a model for mammalian bone and tissue regeneration, my research has primarily focused on the investigation of intrinsic repair mechanisms following amputation of regeneration-incompetent structures, and the identification of strategies to transition repair mechanisms associated with scar formation into a successful regeneration response.",Assistant Professor,Veterinary Physiology and Pharmacology,https://scholars.library.tamu.edu/vivo/display/nd3c43e75
Brian,Anderson,Assistant Professor,,Assistant Professor,Psychological and Brain Sciences,https://scholars.library.tamu.edu/vivo/display/nd469b920
Allison,Hopkins,Assistant Professor,"Dr. Hopkins is a medical and ecological anthropologist specializing in interdisciplinary research on the connections between globalization and/or social relationships and human health. Specifically, she focuses on understanding the knowledge people have about local resources, how that knowledge relates to their behavior, what factors are associated with variation in their knowledge and behavior, and ultimately how that relates to health. She researches these issues in varying contexts, with different populations, types of knowledge and factors at play. Additionally, the theoretical and methodological approaches she uses are varied and depend on the research question and the strengths of the research team. For example, Hopkins is collaborating with colleagues on a study focused on smoking relapse prevention. She is using social network theory and methods to capture the composition and changes in the social networks of recently quit smokers in the United States, how their networks relate to their ability to stay quit, and how information on smoking cessation spreads through their networks. Most recently Dr. Hopkins started a mixed-methods project guided theoretical by cognitive anthropology to examine the conditions under which different models of social change, including educational models, are effective at reducing poverty and increasing wellbeing and food sovereignty in the Yucatan.",Assistant Professor||Faculty Fellow,Center for Health Systems and Design||Anthropology,https://scholars.library.tamu.edu/vivo/display/nd78cbf7f
Rodolfo,Cardoso,Assistant Professor,Dr. Cardoso's research interests focus on understanding the impact of the prenatal and early postnatal environments on reproductive neuroendocrine function in females using sheep and cattle as animal models to benefit both the livestock industry as well as human reproductive health. The Cardoso Lab integrates whole animal physiology with cellular and molecular biology to elucidate the mechanisms by which the perinatal environment can modulate several reproductive processes in the offspring. Dr. Cardoso's teaching interests range from practical reproductive management of livestock to advanced reproductive neuroendocrinology.,Assistant Professor,Animal Science,https://scholars.library.tamu.edu/vivo/display/nd8c042ef
Karl,Kaiser,Assistant Professor,,Assistant Professor,Marine Sciences,https://scholars.library.tamu.edu/vivo/display/nd9c9c762
Aart,Verhoef,Assistant Professor,,Assistant Professor,Soil and Crop Sciences,https://scholars.library.tamu.edu/vivo/display/ndea550a0
Cedric,Geoffroy,Assistant Professor,"The main focus of the laboratory is to better understand the molecular, cellular and physiological changes occurring after neurotrauma, in particular after spinal cord injury (SCI). Indeed, SCI is the second cause of paralysis, following close behind stroke. But besides the direct locomotor impairments, SCI also leads to numerous health complications, including metabolic syndrome, respiratory and cardiovascular problems. These health complications not only threaten patients' lives, but also impact their quality of life. Therefore, one major aim in my lab is to better understand the physiopathology of the SCI and health complications occurring after chronic SCI (in mouse models of SCI). Using genetic and pharmacological approaches, we aim at finding targets that can reduce incidence of these health issues as well as reverse them in more chronic models.
The second goal of my lab is to understand how age impacts SCI. Indeed, SCI increasingly afflicts the middle-aged population, as a result of both later average incidence (from ~29 in the 1970s to ~42 since 2010) and aging of SCI-paralyzed patients (~75% of people with SCI are over 40 years old). Recently, we demonstrated that axon regeneration is impaired after injury in older animals. This decline in axon growth can be controlled by both neuronal intrinsic and extrinsic factors. By better understanding the players involved in this age-dependent growth decline, we aim at finding targets to promote axon growth after SCI and ultimately promote locomotor function recovery in the middle-aged population.",Assistant Professor,Neuroscience and Experimental Therapeutics,https://scholars.library.tamu.edu/vivo/display/ne49dfc75
Sarah,Hu,Assistant Professor,,Assistant Professor,Oceanography,https://scholars.library.tamu.edu/vivo/display/ne51cbbcb
Sanjukta,Chakraborty,Assistant Professor,"Tumor cell metastasis to the regional or draining lymph nodes (LN) is the primary indicator of tumor aggressiveness. Tumor cells lodged in nodes acquire significant vulnerabilities that enable them to evade therapy. In addition, expansion of the vasculature near the primary tumor bed activates multiple pathways that induce lymphangiogenesis and angiogenesis. The primary research focus of my laboratory is to determine how an inflammatory tumor-lymphatic microenvironment contributes to cancer metastasis and progression by reprograming molecular pathways in a) primary tumor niche and b) metastatic tumor draining LNs. We use tumor-LEC 3D spheroids, orthotopic tumor models and clinical samples to evaluate the tumor-lymphatic crosstalk in different solid tumors. In addition, we are also interested in delineating the role of the microbiota and specific tryptophan metabolites in cancer progression, tumor associated lymphangiogenesis and alterations to the metastatic node.",Assistant Professor,Medical Physiology,https://scholars.library.tamu.edu/vivo/display/ne7dd93d7
Itza,Mendoza-Sanchez,Assistant Professor,"My research background is in mathematical and experimental models for studying transport, transformation and persistence of contaminants in the environment. I have focused my research in three principal areas: organics trapped and sorbed in soils as a source zone of groundwater contamination, physical and biological factors that control bioremediation of contaminated plumes in groundwater, and water balance modeling to quantify ground water - surface water interactions. Currently, I am working with emerging contaminants, specifically evaluating the persistence of heavy-metals in mining environments and predicting antibiotics transport in soils.",Assistant Professor,Environmental and Occupational Health,https://scholars.library.tamu.edu/vivo/display/nee608e2d
Tapasree,Roy Sarkar,Assistant Professor,"The dynamic interaction of cancer cells with the tumor microenvironment (TME) is crucial to stimulate the heterogeneity of cancer cells, and to increase multidrug resistance ending in cancer cell progression and metastasis. Understanding the underlying molecular & cellular mechanisms governing these interactions can be used as a novel strategy to disrupt cancer cell-TME interaction and contribute to the development of efficient therapeutic strategies. By integrating cutting-edge cellular and molecular biology, bioinformatics, and bioengineering approaches, our lab is investigating the complexity of TME.",Assistant Professor,Biology,https://scholars.library.tamu.edu/vivo/display/nf08a1119
Courtney,Daigle,Assistant Professor,"Dr. Daigle specializes in evaluating management practices to optimize animal health, productivity, and welfare. The Daigle Lab quantifies behavior to develop and validate technologies designed to measure species specific behaviors important to health, welfare, and productivity.",Assistant Professor,Animal Science,https://scholars.library.tamu.edu/vivo/display/nf0de23c0
Joseph,Rutkowski,Assistant Professor,"Current ongoing projects are mostly focused on the Lymphatic Physiology of Metabolic Systems. Herein, we are utilizing an extensive toolkit of genetic mouse models and physiologically-relevant in vitro systems to identify how changes in lymphatic biology impact metabolite transport and whole animal metabolism. Other projects use our toolkit in identifying factors driving the pathology of lymphatic diseases such as generalized lymphatic anomalies (GLA) and lymphedema. Additional collaborative efforts employ our models in renal and pulmonary health.",Assistant Professor,Medical Physiology,https://scholars.library.tamu.edu/vivo/display/nf1902e01
Kiran,Gadhave,Assistant Professor,"Kiran Gadhave is an assistant professor of entomology at Texas A&M AgriLife Research, Amarillo and in the Texas A&M University Department of Entomology. He received a PhD in Biology (Microbial Ecology/Entomology) from the University of London in 2015, a Master's in Plant Breeding & Genetics from Cornell University in 2010, and an M.S. in Entomology from TNAU, Coimbatore in 2009. He has broad interests and a multidisciplinary research background in insect vector biology and plant virology. His current research involves studying molecular and ecological factors that shape vector-pathogen-plant interactions and harnessing their potential to innovate current pest and pathogen management strategies.",Assistant Professor,Entomology,https://scholars.library.tamu.edu/vivo/display/nf4d185db
Justin,Moscarello,Assistant Professor,,Assistant Professor,,https://scholars.library.tamu.edu/vivo/display/nf616de5c
Juliana,Rangel Posada,Associate Professor,,Assistant Professor,Entomology,https://scholars.library.tamu.edu/vivo/display/nf70ae1aa
Jessica,Leatherwood,Assistant Professor,,Assistant Professor,Animal Science,https://scholars.library.tamu.edu/vivo/display/nf7f77d6d
Thomas,Chappell,Assistant Professor,,Assistant Professor,Plant Pathology and Microbiology,https://scholars.library.tamu.edu/vivo/display/nf900c0d0
Hatice,Ceylan Koydemir,Assistant Professor,,Assistant Professor,Biomedical Engineering,https://scholars.library.tamu.edu/vivo/display/nfa4d71de
Matthew,Powell-Palm,Assistant Professor,,Assistant Professor,Mechanical Engineering,https://scholars.library.tamu.edu/vivo/display/nfb96e566
Rebecca,Fischer,Assistant Professor,,Assistant Professor,Epidemiology and Biostatistics,https://scholars.library.tamu.edu/vivo/display/nfc26791e
Yina,Liu,Assistant Professor,"I am an organic biogeochemist with particular interests in how organic compounds', both natural and anthropogenic, cycling affect biological and ecological processes and vice versa. These interconnected processes are important drivers for organic carbon and contaminant cycling at regional and global scales. My group uses untargeted and targeted analyses as well as data science to shed light on different aspects of organic biogeochemistry.",Assistant Professor,Oceanography,https://scholars.library.tamu.edu/vivo/display/nfc7a9688
Ky,Pohler,Assistant Professor,"Dr. Pohler's research interest focus on understanding the physiological and molecular mechanisms that control reproductive efficiency in cattle. More specifically his lab is interested in the mechanisms that lead to embryonic and fetal mortality in cattle and development of management strategies to overcome these losses. Embryonic mortality can be classified into early (< d 28 of gestation) or late (> d 28 of gestation) depending on the exact timing at which it occurs during gestation. Reports of high fertilization rates after a single insemination (~90%), followed by pregnancy rates of 60 to 70% on d 28 in cows indicate that early embryonic mortality may be 20 to 30% in beef cows. Documented causes of early embryonic mortality range from genetic abnormalities to uterine-embryo asynchrony to failure of maternal recognition of pregnancy and this has been an area of intense investigation. Late embryonic mortality (> d 28 of gestation) has been reported in both beef/dairy cattle and may vary from 3.2 to 42.7%. Currently, there is very little known about the causes of late embryonic mortality. However, the economic consequences of each unit of late embryonic mortality are greater than that of early mortality. Along with the increased economic consequences, late embryonic mortality is becoming more evident in both the beef and dairy industries based on the shift to early pregnancy diagnosis (~d28-35 of gestation).",Assistant Professor,Animal Science,https://scholars.library.tamu.edu/vivo/display/nfd0f4c67
Adela,Oliva Chavez,Assistant Professor,"My lab focuses on the molecular host-pathogen and vector-pathogen interactions. Vector-borne pathogens have evolved in close relationship with their vectors and hosts for thousands of years. Thus, they have acquired mechanisms to manipulate the cellular machinery of both, the vector and the mammalian host. I am interested in how vector-borne pathogens influence host and vector cellular responses, such as immune responses, cellular trafficking, and vesicle secretion.
We are also interested in how tick-borne pathogens sense environmental changes when moving between the vector and the mammalian host. Members of the Anaplasmataceae change their protein profile during their development within the mammalian host when compared to the vector. We want to use these bacteria as a model to understand what clues intracellular bacteria use to detect changes in environment. This knowledge could lead to development of interventions to disrupt the life cycle of tick-borne pathogens, and prevent disease in humans and animals.",Assistant Professor,Entomology,https://scholars.library.tamu.edu/vivo/display/nfead5f34