Independent reading or research course. A full course. Does not normally count toward the major.

Fall and spring semesters. The Department.

How to handle overenrollment: null

Students who enroll in this course will likely encounter and be expected to engage in the following intellectual skills, modes of learning, and assessment: Varies by course but includes independent research, independent writing, reading and evaluating primary literature, data analysis, and quantitative reasoning.

The origin and maintenance of sexual reproduction stands as one of the great mysteries of evolutionary biology. This seminar will explore the nature of sex and sexual reproduction across organisms, consider hypotheses for its origin and maintenance, and study its diverse consequences in populations.

Independent reading or research course. A full course. Does not normally count toward the major.

Fall and spring semesters. The Department.

How to handle overenrollment: null

Students who enroll in this course will likely encounter and be expected to engage in the following intellectual skills, modes of learning, and assessment: Varies by course but includes independent research, independent writing, reading and evaluating primary literature, data analysis, and quantitative reasoning.

(Offered as BIOL 301 and NEUR 301) An analysis of the molecules and molecular mechanisms underlying nervous system function, development, and disease. We will explore the proteins that contribute to the unique structure and function of neurons, including an in-depth analysis of synaptic communication and the molecular processes that modify synapses. We will also study the molecular mechanisms that control brain and synapse development as well as neuronal death and degeneration.

(Offered as BIOL 301 and NEUR 301) An analysis of the molecules and molecular mechanisms underlying nervous system function, development, and disease. We will explore the proteins that contribute to the unique structure and function of neurons, including an in-depth analysis of synaptic communication and the molecular processes that modify synapses. We will also study the molecular mechanisms that control brain and synapse development as well as neuronal death and degeneration.

(Offered as BIOL 301 and NEUR 301) An analysis of the molecules and molecular mechanisms underlying nervous system function, development, and disease. We will explore the proteins that contribute to the unique structure and function of neurons, including an in-depth analysis of synaptic communication and the molecular processes that modify synapses. We will also study the molecular mechanisms that control brain and synapse development as well as neuronal death and degeneration.

Independent reading or research course. Full course. Does not normally count toward the major.

Fall and spring semesters. The Department.

How to handle overenrollment: null

Students who enroll in this course will likely encounter and be expected to engage in the following intellectual skills, modes of learning, and assessment: Varies by course but includes independent research, independent writing, reading and evaluating primary literature, data analysis, and quantitative reasoning.

Shaped by millions of years of selection, animals have evolved myriad abilities to respond to their environment, their potential predators and prey, and members of their own species. This course examines animal behavior from both a mechanistic and a functional perspective. Drawing upon examples from a diverse range of taxa, and using articles from the primary scientific literature, we will discuss topics such as behavioral endocrinology, sexual selection and mating systems, animal communication, and kinship and cooperation.

Shaped by millions of years of selection, animals have evolved myriad abilities to respond to their environment, their potential predators and prey, and members of their own species. This course examines animal behavior from both a mechanistic and a functional perspective. Drawing upon examples from a diverse range of taxa, and using articles from the primary scientific literature, we will discuss topics such as behavioral endocrinology, sexual selection and mating systems, animal communication, and kinship and cooperation.

Shaped by millions of years of selection, animals have evolved myriad abilities to respond to their environment, their potential predators and prey, and members of their own species. This course examines animal behavior from both a mechanistic and a functional perspective. Drawing upon examples from a diverse range of taxa, and using articles from the primary scientific literature, we will discuss topics such as behavioral endocrinology, sexual selection and mating systems, animal communication, and kinship and cooperation.