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. 

Independent wet-lab or dry-lab research for Biology majors, under the supervision of a University of Virginia faculty member in the Department of Biology, with emphasis on experimental design, data acquisition, and data interpretation. Instructor permission required; prior completion of any one of BIOL 3000, BIOL 3010, or BIOL 3020 strongly recommended.

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

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.

The evolutionary history of a population can be studied by examining patterns of genetic variation among individuals from a species. In this lab course, you will learn how to utilize genomic data to make evolutionary inferences. Together, we will learn fundamentals of population genetics, how to conduct bioinformatic research on high-performance computers, how to take raw sequence data and turn it into biological insight, and how to present the results of your research.

This intensive, graduate-level course is designed to provide a foundational understanding of the principles underlying the development, genetics, and molecular-cellular biology of the nervous system. Over the span of the semester, students will engage with three core areas of neuroscience: Genetics in Neuroscience, Neurodevelopment, Molecular and Cellular Biology (MCB) of Neurons.

A weekly conference in which students present reports covering various aspects of Integrative Biology. May be repeated for credit.

Integrative Biology seeks to understand how genetic, cellular, and developmental processes give rise to organismal phenotypes and how changes in these processes over time contribute to the evolution of form and function. In this course, graduate students will learn principles of genetics, cell, developmental, and organismal biology and apply this knowledge towards answering fundamental questions in biology.

A weekly conference arranged around a current topic. May be repeated for credit. Prerequisite: Instructor permission.

This course introduces grad students to a breadth and depth of concepts and theories in modern ecology and evolutionary biology. The couse is co-taught by two BIOL faculty each fall, with different faculty rotating into the course in alternate years, providing expertise in molecular population genetics, genomics, phylogenetics, integrative biology, speciation, microevolution, life-history evolution, and mating systems.