[R] In this course students will focus closely on major debates that have animated the field of Black Studies, addressing a wide range of issues from the slave trade to the present. Each week will focus on specific questions such as: What came first, racism or slavery? Is African art primitive? Did Europe under develop Africa? Is there Caribbean History or just history in the Caribbean? Should Black Studies exist? Is there a black American culture? Is Affirmative Action necessary? Was the Civil Rights Movement a product of government action or grass-roots pressure?

[R] This interdisciplinary introduction to Black Studies combines the teaching of foundational texts in the field with instruction in reading and writing. The first half of the course employs How to Read a Book by Mortimer Adler and Charles Van Doren as a guide to the careful reading of books focusing on the slave trade and its effects in Africa, the Caribbean, and the United States. Important readings in this part of the course include Black Odyssey by Nathan Huggins, Racism: A Short History by George Frederickson, and The Black Jacobins by C. L. R. James.

Honors students take three courses of thesis research, usually, but not always, with the double course load in the spring. The work consists of seminar programs, individual research projects, and preparation of a thesis on the research project.

Open to seniors. Spring semester. The Department.

How to handle overenrollment: null

Honors students take three courses of thesis research, usually, but not always, with the double course load in the spring (499D). The work consists of seminar programs, individual research projects, and preparation of a thesis on the research project.

Open to seniors. Spring semester. The Department.

How to handle overenrollment: null

Most biodiversity on our planet can be found in tropical latitudes. Tropical rainforests, for example, which account for less than 10% of the Earth’s surface, may contain 50-75% of all plant and animal species. In this course we will examine some of the myriad biotic interactions that occur in the tropics using an ecological, evolutionary, and behavioral approach. The course is divided into two main components: a two-week interterm field course and an advanced seminar.

(Offered as BIOL 450 and NEUR 450) Concentrating on reading and interpreting primary research, this course will focus on classic and soon-to-be classic neurophysiology papers. We will discuss the seminal experiments performed in the 1950s that led to our understanding of action potentials; experiments in the 1960s and 1970s that unlocked how synapses function; and more recent research that combines electrophysiology with optical methods and genetic techniques to investigate the role of many of the molecular components predicted by the work from the earlier decades.

(Offered as BIOL 371 and BCBP 371) A study of the molecular mechanisms underlying the transmission and expression of genes. DNA replication and recombination, RNA synthesis and processing, and protein synthesis and modification will be examined. Both prokaryotic and eukaryotic systems will be analyzed, with an emphasis upon the regulation of gene expression. Application of modern molecular methods to biomedical and agricultural problems will also be considered. The laboratory component will focus upon recombinant DNA methodology.

(Offered as BIOL 371 and BCBP 371) A study of the molecular mechanisms underlying the transmission and expression of genes. DNA replication and recombination, RNA synthesis and processing, and protein synthesis and modification will be examined. Both prokaryotic and eukaryotic systems will be analyzed, with an emphasis upon the regulation of gene expression. Application of modern molecular methods to biomedical and agricultural problems will also be considered. The laboratory component will focus upon recombinant DNA methodology.

Evolution is a powerful and central theme that unifies the life sciences. In this course, emphasis is placed on microevolutionary mechanisms of change, and their connection to large-scale macroevolutionary patterns and diversity. Through lectures and readings from the primary literature, we will study genetic drift and gene flow, natural selection and adaptation, molecular evolution, speciation, the evolution of sex and sexual selection, life history evolution, and inference and interpretation of evolutionary relationships. Three hours of lecture and one hour of discussion each week.

How does the cell—life’s basic unit—die or resist dying? How can one know the secrets of the final stage? We will explore the molecular biology, genetics, and biochemistry of this fascinating process, with a focus on methods for discovery. Topics will include distinct forms of cell death, from apoptosis and beyond, and their consequences (e.g., immunity, cancer, and neurodegeneration).