Developing skill in communicating scientific principles and writing compelling research proposals is essential for successful graduate training in the biological sciences. This seminar and workshop course will focus on how to create effective grant and research proposals in preparation for thesis research. Students will be actively involved by presenting their research progress and plans, and critiquing each other's written proposals.

Periodic seminar offerings to provide intensive study of the scientific literature in focused areas of Biology.

The evolutionary history of a population can be studied by examining patterns of genetic variation among individuals. Using information about genetic variation, we can infer historical evolutionary events like migration and adaptation. In this lab course, you will learn to utilize genomic data to conduct evolutionary inference. We will learn fundamentals of population genetics, bioinformatic skills, and research methods applied to real short-read sequencing data.

Microbes rule. This course will teach microbial genomics using the cutting edge next-generation DNA sequencing technology and its applications to study microbes around us. Topics covered include microbial genomics, DNA sequencing and sequence analysis.

This course will provide an in-depth exploration of the field of regenerative biology, focusing on the molecular and cellular mechanisms underlying tissue regeneration and repair in animals. We will explore the cellular basis of different types of regeneration and search for shared molecular mechanisms. With an eye towards the future, we¿ll also explore the implications for advancing regenerative medicine.

Independent wet-lab or dry-lab research for Biology majors (and other specific majors), under the supervision of a University of Virginia faculty member who does not have primary affiliation with the Biology Department, with emphasis on experimental design, data acquisition, and data interpretation. See Biology Department website for application instructions. Instructor permission required; prior completion of BIOL 3000, BIOL 3010, or BIOL 3020 strongly recommended. 

The goal of this course is to provide an original, unknown outcome research experience in developmental biology. After training in basic methods and descriptions of selected research problems, students form teams and investigate a problem of their choosing. Team members work together in the lab, but each writes an independent research proposal, a notebook, and a final project report on which they are graded. Recommended prerequisites: BIOL 3000 and 3010.

This course addresses the impact of the human genome project on understanding human genetic disease, focusing on the invaluable role for animal models of diseases in augmenting evaluation of genomic information to develop strategies for precision medicine. Animal models are an invaluable asset in reaching this goal because they allow experimental manipulations that go far beyond what is possible in human patients.

Independent research/independent study under the guidance of a primary mentor within the College of Arts and Sciences. Research/study forms the basis for the DMP thesis to be submitted at the end of the fourth year. This course must be taken in the first semester of the fourth year and should encompass the majority of the research for the thesis. Prerequisite: First-semester fourth-year DMP in Human Biology.

Independent research/independent study under the guidance of a primary mentor within the College of Arts and Sciences. Prerequisite: DMP in Human Biology.