The purpose of this broadly based multidisciplinary Training Program is to prepare graduate students for biomedical research careers in college and university basic science departments, Schools of Medicine and Public Health, and government public health research centers in the new emerging field of the population biology of infectious diseases. A major goal is to provide students with experience in both academic research departments and with clinical and public health applications of the population biology of emerging infectious diseases. The areas of expertise represented by the 25 training faculty include the mathematical modeling of infectious disease emergence and spread, the population dynamics and evolutionary genetics of antimicrobial resistance, the evolutionary biology and dynamics of the immune system, evolutionary origins of infectious disease agents, and the population biology of immunization and control of infectious disease. Training faculty are drawn from the Emory College, the School of Medicine, the School of Public Health, The Vaccine Research Center, and the Centers for Disease Control and Prevention. The most important component of training is laboratory and/or field research, first as a series of three laboratory and/or field rotations among the training faculty, then in the dissertation laboratory or field site. The training is complemented by core courses in population biology, evolutionary biology, ecology, molecular evolution, and statistics and mathematical modeling. Advanced courses are offered in epidemiological modeling, biostatistics, bioinformatics, population genetics, molecular epidemiology, and specialized seminars. Emphasis throughout is placed on oral presentation skills; students make formal seminar presentations of their own work or review of the literature throughout their training in regularly scheduled seminars and journal clubs. The Program is designed to support six students for each of five years. Primary emphasis will be placed on supporting students during the first two years of their training as they acquire the knowledge and expertise to choose an appropriate dissertation project and committee.
Levine, Rebecca S; Hedeen, David L; Hedeen, Meghan W et al. (2017) Avian species diversity and transmission of West Nile virus in Atlanta, Georgia. Parasit Vectors 10:62 |
Levine, Rebecca S; Mead, Daniel G; Hamer, Gabriel L et al. (2016) Supersuppression: Reservoir Competency and Timing of Mosquito Host Shifts Combine to Reduce Spillover of West Nile Virus. Am J Trop Med Hyg 95:1174-1184 |
Guagliardo, Sarah Anne; Morrison, Amy C; Luis Barboza, Jose et al. (2015) Evidence for Aedes aegypti (Diptera: Culicidae) Oviposition on Boats in the Peruvian Amazon. J Med Entomol 52:726-9 |
Bozick, Brooke A; Real, Leslie A (2015) The Role of Human Transportation Networks in Mediating the Genetic Structure of Seasonal Influenza in the United States. PLoS Pathog 11:e1004898 |
Guagliardo, Sarah Anne; Morrison, Amy C; Barboza, Jose Luis et al. (2015) River boats contribute to the regional spread of the dengue vector Aedes aegypti in the Peruvian Amazon. PLoS Negl Trop Dis 9:e0003648 |
Bozick, Brooke A; Real, Leslie A (2015) INTEGRATING PARASITES AND PATHOGENS INTO THE STUDY OF GEOGRAPHIC RANGE LIMITS. Q Rev Biol 90:361-80 |
Williams-Newkirk, Amanda J; Burroughs, Mark; Changayil, Shankar S et al. (2015) The mitochondrial genome of the lone star tick (Amblyomma americanum). Ticks Tick Borne Dis 6:793-801 |
McKee, Eileen M; Walker, Edward D; Anderson, Tavis K et al. (2015) WEST NILE VIRUS ANTIBODY DECAY RATE IN FREE-RANGING BIRDS. J Wildl Dis 51:601-8 |
Guagliardo, Sarah Anne; Barboza, José Luis; Morrison, Amy C et al. (2014) Patterns of geographic expansion of Aedes aegypti in the Peruvian Amazon. PLoS Negl Trop Dis 8:e3033 |
Pierce, Amanda A; Zalucki, Myron P; Bangura, Marie et al. (2014) Serial founder effects and genetic differentiation during worldwide range expansion of monarch butterflies. Proc Biol Sci 281: |
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