Modern biology is entering a new era. The genomes of multiple organisms have been completely sequenced and numerous genomic scale projects are ongoing. These projects are generating vast databases of potential gene products, RNA and protein expression profiles, phenotypes linked to genotypes, and structural information. This information provides the foundation for unprecedented biological insight, which has great potential to impact on biomedical research. However, it will be critical that new scientists be trained to take advantage of this biological information. Three essential attributes will characterize excellent scientists of the 21st century: 1) A fundamental knowledge of the complex biochemical, molecular and cellular processes that together control physiological homeostasis under normal and diseased states. 2) The ability to understand and utilize information from multiple disciplines to develop new biological insights. 3) The ability to effectively communicate research objectives and scientific findings in both oral and written form, to other scientists, to educators, to legislators, and lay citizens. In order to train individuals with these necessary skills, eight years ago we developed an interdepartmental Ph.D. training program that emphasizes an interdisciplinary approach to scientific research focused on the areas of biochemistry, molecular and cellular biology. This grant is the first renewal of the training grant that partially supports the students within the program. The depth and breadth of research expertise represented by this group of researchers, and their commitment to graduate education is the underlying foundation for the proposed interdisciplinary training.
Park, Chad K; Sanchez, Jonathan L; Barahona, Claudia et al. (2018) The run-on oligomer filament enzyme mechanism of SgrAI: Part 1. Assembly kinetics of the run-on oligomer filament. J Biol Chem 293:14585-14598 |
Trujillo, Joshua T; Seetharam, Arun S; Hufford, Matthew B et al. (2018) Evidence for a Unique DNA-Dependent RNA Polymerase in Cereal Crops. Mol Biol Evol 35:2454-2462 |
Racolta, Adriana; Nodine, Michael D; Davies, Kelli et al. (2018) A Common Pathway of Root Growth Control and Response to CLE Peptides Through Two Receptor Kinases in Arabidopsis. Genetics 208:687-704 |
Park, Chad K; Sanchez, Jonathan L; Barahona, Claudia et al. (2018) The run-on oligomer filament enzyme mechanism of SgrAI: Part 2. Kinetic modeling of the full DNA cleavage pathway. J Biol Chem 293:14599-14615 |
Manzo, Ernesto; O'Conner, Abigail G; Barrows, Jordan M et al. (2018) Medium-Chain Fatty Acids, Beta-Hydroxybutyric Acid and Genetic Modulation of the Carnitine Shuttle Are Protective in a Drosophila Model of ALS Based on TDP-43. Front Mol Neurosci 11:182 |
McLamarrah, Tiffany A; Buster, Daniel W; Galletta, Brian J et al. (2018) An ordered pattern of Ana2 phosphorylation by Plk4 is required for centriole assembly. J Cell Biol 217:1217-1231 |
Sullivan, Arron; Wallace, Ryan L; Wellington, Rachel et al. (2018) Multi-layered regulation of TORC1-body formation in budding yeast. Mol Biol Cell :mbcE18050297 |
Hamby, Alex E; Vig, Dhruv K; Safonova, Sasha et al. (2018) Swimming bacteria power microspin cycles. Sci Adv 4:eaau0125 |
Vig, Dhruv K; Hamby, Alex E; Wolgemuth, Charles W (2017) Cellular Contraction Can Drive Rapid Epithelial Flows. Biophys J 113:1613-1622 |
Howard-Varona, Cristina; Roux, Simon; Dore, Hugo et al. (2017) Regulation of infection efficiency in a globally abundant marine Bacteriodetes virus. ISME J 11:284-295 |
Showing the most recent 10 out of 58 publications