First name,Last name,Preferred title,Overview,Position,Department,Individual
Patricia,Pietrantonio,Professor and Texas AgriLife Research Fellow,"We work with important pests that are critical to Texas and the world focusing on public and animal health and on pests of cotton. We are interested in elucidating the functions of arthropod neuropeptides that signal through G protein-coupled receptors. Many of these neuropeptides are pleiotropic and many of their multiple functions are still unknown. We utilize loss-of-function experiments through RNAi, peptidomimetics, the discovery of antagonists through target-based high-throughput screening of small molecules on recombinant receptors expressed in mammalian cells, immunohistochemistry, and develop physiological in vitro and in vivo assays towards advancing arthropod endocrinology. The laboratory has pioneered the discovery of the first neuropeptide receptor in the Acari and the first insect prostaglandin receptor. The molecular and cell culture laboratories are BL2 and the Insect toxicology laboratory is BL1. We use state-of-the-art technologies and the lab is well equipped to do almost everything in-house.",Professor,Entomology,https://scholars.library.tamu.edu/vivo/display/n0555af9d
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
Kevin,Myles,Professor,,Associate Professor,Entomology,https://scholars.library.tamu.edu/vivo/display/n5d73717b
Craig,Coates,Instructional Associate Professor,,Instructional Associate Professor,Entomology,https://scholars.library.tamu.edu/vivo/display/n6f8163e8
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
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
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
Zachary,Adelman,Professor,,Associate Professor,Entomology,https://scholars.library.tamu.edu/vivo/display/ndc81a8e5
Hojun,Song,Associate Professor,"The Song Lab focuses on the study of an insect order Orthoptera (grasshoppers, crickets, and katydids) and other insects and aims at understanding behavioral, ecological, physiological, morphological and molecular evolution in a phylogenetic framework.",Associate Professor,Entomology,https://scholars.library.tamu.edu/vivo/display/nf14bbe4a
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
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