This course introduces students to fondational and modern neuroscience research techniques through laboratory investigations. Neuroscience is explored at the molecular, systems, and behavioral level. Topics covered include neuroanatomy, electrophysiology, biopotentials, development, histology, and microscopy. An emphasis is placed on structure-function relationships, experimental design, and application of techniques in research.

Students in Neuroscience major are expected to participate in active research, supervised by a faculty research mentor. The course grade is based on 10 hours/week lab work toward achieving term goals that are determined individually at the beginning of the term. Students are expected to submit a Term Plan one month after the first day of classes and a Progress Report two weeks before the last day of classes.

Current developments in the interdisciplinary field of neurosciences will be examined, from molecular neurobiology through cognitive neuroscience. Instruction will be based on readings of original literature, presentation of original and new data from Neuroscience faculty and attendance of seminar talks as part of the Neuroscience Graduate Seminar series. Prerequisite: Major in Neuroscience.

Current developments in the interdisciplinary field of neuroscience will be examined, from molecular neurobiology through cognitive neuroscience. Instruction will be based on readings of original literature, presentation of original and new data from Neuroscience faculty and attendance of seminar talks as part of the Neuroscience Graduate Seminar series. Required for the Neuroscience Distinguished Major Program (DMP). Prerequisite: Neuroscience BA, subplan DMP.

This course provides opportunities for first and second year students who have not yet declared a major to engage in supervised research activities.

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, development, histology, and microscopy. An emphasis is placed on structure-function relationships, experimental design, and application of techniques in research.

This course explores the cellular and molecular mechanisms underlying a variety of neurological disorders, such as Traumatic Brain Injury, Alzheimer's Disease, and more. Research and treatment of these disorders is addressed in historical and current contexts. This course uses primary-literature discussions to develop skills in reading, analyzing, and interpreting scientific data, with additional emphasis on practical scientific writing and oral communication skills.

The diverse functions of the nervous system depend on precise wiring of connections between neurons. This course covers cellular and molecular processes of how neuronal connections are established during development. Diseases which result from failing to establish the circuitry will also be discussed. This course will introduce research methods and technology, and encourage students to develop logical rationale of contemporary research.

This course provides the opportunity to offer a new topic in the subject area of neuroscience.

An original experimental project is undertaken in which each student is responsible for the design and operation of the experiment under the direction of a Neuroscience Graduate Program faculty member. Prerequisite: Major in Neuroscience.