First name,Last name,Preferred title,Overview,Position,Department,Individual
Deborah,Bell-Pedersen,Professor,"Research in the Bell-Pedersen lab focuses on determining how the circadian clock functions in organisms to regulate daily rhythms in gene expression, behavior, and physiology. The molecular clock in higher eukaryotes involves a master clock in the brain regulating clocks in peripheral tissues, posing significant obstacles for understanding circadian output mechanisms. Thus, a major strength of our work is using a single-celled model eukaryote, Neurospora crassa, to elucidate the underlying mechanisms of rhythmic gene expression and protein synthesis. Clock dysfunction in humans is associated with a wide range of diseases, including cardiovascular disease, cancer, metabolic disorders, mental illness, sleep disorders, and aging. In addition, daily changes in metabolism and cell division rates influence the efficacy and toxicity of many pharmaceuticals, including cancer drugs. Therefore, knowing how clocks work to control rhythmic gene expression, and what they regulate, is critical for the development of therapeutics. Research to understand clock-controlled rhythmic gene expression has focused primarily on transcriptional mechanisms, and little was known about posttranscriptional control. We discovered that the clock regulates highly conserved translation initiation and elongation factors, tRNA synthetase levels, and ribosome heterogeneity. This regulation determines what mRNAs are rhythmically translated and the accuracy of the translation process (translation fidelity). We are capitalizing on these exciting discoveries to determine how the clock regulates translation fidelity. These studies will provide the foundation for understanding the impact of daily rhythms in translation fidelity on protein diversity beyond what is encoded for in the genome.",Professor and Associate Department Head,Biology,https://scholars.library.tamu.edu/vivo/display/n2a2bfb97
Joseph,Bernardo,Research Associate Professor,"I am an Integrative Evolutionary Ecologist, meaning that my research addresses a range of fundamental questions in Ecology and Evolutionary Biology from a multi-disciplinary, integrative perspective and using a diverse array of tools including field experiments, phylogenetically-rooted comparative statistical analyses, quantitative estimates of physiological performance, experimental analyses of reproductive behavior, and molecular genetics. I often work at the nexus of typically disparate fields of study, for example combining genetic, phylogenetic, physiological and macroecological perspectives in a single analysis of distribution and dispersal (Bernardo et al. 2007). Because multiple causality is inherent in understanding ecological and evolutionary problems, my research emphasizes a strong inference approach that therefore relies on both large datasets and multivariate statistical models to evaluate competing hypotheses. Most of my active work involves vertebrates and insects and other major invertebrate groups.
General areas of interest include: o determinants of range size and position o biodiversity conservation in the face of climate change o detection, and ecological and conservation implications of cryptic speciation and diversity o vertebrate ecology and life history o biology of amphibians and reptiles, especially salamanders and lizards o speciation and evolution of reproductive isolation o evolutionary ecology of body size including its role in species packing and community assembly o clinal variation in life history and physiological traits o comparative animal physiology and physiological ecology especially as they relate to life history variation and range occupation (macrophysiology) o life history evolution o evolution and implications of maternal effects, especially propagule size o experimental ecology",Research Associate Professor,Biology,https://scholars.library.tamu.edu/vivo/display/n5787076f
Heath,Blackmon,Associate Professor,,Assistant Professor||Associate Professor,Biology||Biology,https://scholars.library.tamu.edu/vivo/display/n6e56235d
Michael,Benedik,Regents Professor,My laboratory studies basic biological problems using molecular genetic methods with simple microbial systems. Additionally we are developing novel microbial approaches for biotechnological applications.,Regents Professor,Biology,https://scholars.library.tamu.edu/vivo/display/nac9856e5
Christopher,Butler,Instructional Associate Professor,,Instructional Associate Professor,Biology,https://scholars.library.tamu.edu/vivo/display/ne77a0d06