Interested in earning a degree in Bioinformatics?
Our goal is to prepare highly selected students for productive research careers in genetics. Because of the central role played by genetics in all biological processes and the vastly expanding applications of genetics to virtually every aspect of modern society we believe that it is as important for our students to develop a broad perspective as it is for them to become experts in a specific area. A broad perspective is indispensable for the formulation of long-term career goals as well as for productive collaborations that have become such an integral part of modern research. While developing a broad base through appropriate courses, first-year students participate in eight-week research rotations in faculty laboratories of their choice. These rotations provide the basis for selecting the area of genetics in which the student will become an expert. Seminar courses occurring each semester focus on current topics in genetics and molecular biology and are presented by investigators within and outside of Emory. We also believe that strong presentation and communication skills are critical to becoming a top-notch scientist. As such, GMB students present periodic progress reports on their own research to the assembled Program. In summary, the GMB graduate program strives to educate and train tomorrow's top geneticists today.
The Student Experience
To provide the basis for advanced research, introductory courses covering both prokaryotic and eukaryotic systems are taken in the first year. First-year students obtain practical research training by participating in eight-week rotations in the investigators' laboratories of their choice. These rotations provide the basis for selecting dissertation topics and mentors. After completing the first year, students tailor their curriculum from a large list of specialized courses in genetics and molecular biology, as well as other areas of current biological sciences. All courses emphasize critical thinking, constructive literature evaluation, and presentation skills. Seminar courses occurring each semester focus on current topics in genetics and molecular biology and are presented by investigators within and outside of Emory. Students also present their findings in research-in-progress meetings, which are attended by their peers and the faculty. Student invited speakers, small group teaching experiences, and training in the ethical conduct of research round out the overall list of activities that occur as students conduct research and prepare their dissertation.
Research Opportunities For BioinformaticsResearch interests of the faculty vary in topic, approach and model organism. This interdepartmental graduate program derives its faculty from eight different departments including those from the departments of Biology, Biochemistry, Cell Biology, Human Genetics, Microbiology & Immunology, Pathology & Laboratory Medicine, Pharmacology, and the Winship Cancer Institute. More on Research Opportunities...
Training OpportunitiesThe graduate program in Genetics and Molecular Biology (GMB) at Emory University offers an exciting broad based training in the fields of genetics and molecular biology and their related disciplines of biochemistry, bioinformatics, cell biology, developmental biology and statistics. Research interests of the faculty vary in topic, approach and model organism. This interdepartmental graduate program derives its faculty from ten different departments including those from the departments of Human Genetics, Biology, Biochemistry, Cell Biology, Microbiology & Immunology, Pathology & Laboratory Medicine, Pharmacology, and the Winship Cancer Institute. A wide range of research opportunities in bacterial, viral, human and eukaryotic model system genetics enable students to specialize in their area of interest while obtaining an essential foundation in genetics. Areas of emphasis listed below are supported by state-of-the-art research facilities.
Research programs of the faculty fall into six major areas:
- Regulation of Gene Expression
- Development and Differentiation
- Cancer Genetics and Biology
- Human and Medical Genetics
- Bioinformatics and Comparative Genomics
- Genome Structure, Replication, Recombination And Repair