In this course, new transfer students will get to know the scientists and research going on in the Biology Department. We'll read scientific papers and participate in weekly departmental seminars. …
New course in the subject of biology.
Tutorial or seminar course that allows intensive study of the literature in a particular area of biology under the guidance of a Biology faculty member.
Independent wet-lab or dry-lab research, under the supervision of a University of Virginia faculty member who does not have primary affiliation with the Biology Department, with emphasis on learning basic …
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 learning basic experimental approaches …
This course introduces students to scientific-based discovery of how molecular dysfunction leads to disease. It also exposes them to the most current tools used in biomedical research to find novel …
The human body maintains stable energy levels, hydration, and temperature despite the challenges of ever-changing external environment, a process known as homeostasis. This course explores biological models and mechanisms of …
In this course, we'll dive into our current understanding of the evolution and ecology of parasitic interactions through primary literature, modeling, and experimental design. Throughout, we will focus on generating …
The course will deep dive into what stem cells are, what they do, where and how they function, and how we can use stem cells in the clinic to repair …
Animals are incredibly diverse, but they all evolved from the same single-celled ancestor that lived hundreds of millions of years ago. This course takes a cell-biological approach to explore key …
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 …
One of the most important characteristics of life is the ability to reproduce. In order to produce new life, multicellular organisms evolved specialized cells whose only purpose is reproduction ¿ …
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 …
This course begins with discussion of pharmacological principles and normal function of the nervous and endocrine system. As we continue, we will describe how exogenous substances derived from plants (like …
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 …
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 …
This course introduces students to foundational and modern neuroscience research techniques through laboratory investigations. Neuroscience is explored at the molecular, systems, and behavioral level. Topics covered include neuroanatomy, electrophysiology, biopotentials, …
Introduces students to experimental approaches, including mammalian cell culture, gel electrophoresis, western blotting and immunofluorescence microscopy, that are used to study both normal and pathological processes at the level of …
This course for advanced undergrads focuses on Alzheimer's disease research. The first 3 weeks are didactic. The remainder of the course emphasizes a "journal club¿ format where teams of students …
Introduction to experimental methods in neural development research using zebrafish as a model system. Lectures focus on vertebrate nervous system development and teratogens. Labs build skills in brightfield and fluorescence …