In this course we will explore genetic analysis as a means of probing the mysteries of the molecular world. Scientists often turn to the study of genes and mutations when trying to decipher the molecular mechanisms that underlie such diverse processes as the making of an embryo, the response of cells to their environment, or the defect in a heritable disease. All of the reading in the course will be from the primary literature, where students will engage with data from genetic experiments that shed light on the workings of a signal transduction pathway.

In this course we will explore genetic analysis as a means of probing the mysteries of the molecular world. Scientists often turn to the study of genes and mutations when trying to decipher the molecular mechanisms that underlie such diverse processes as the making of an embryo, the response of cells to their environment, or the defect in a heritable disease. All of the reading in the course will be from the primary literature, where students will engage with data from genetic experiments that shed light on the workings of a signal transduction pathway.

(Offered as BIOL 214 and NEUR 214) An introduction to the structure and function of the nervous system, this course explores the basic functions of neurons and synapses as well as neural mechanisms of sensation at molecular, cellular, circuit and system levels. Basic topics in neurobiology and neurophysiology will be covered with emphasis on neuroscience history and understanding how neuroscientists approach the study of the nervous system. Three class hours per week.

Requisite: BIOL 191. Limited to 45 students. Spring semester. Professor Roche.

(Offered as BIOL 214 and NEUR 214) An introduction to the structure and function of the nervous system, this course explores the basic functions of neurons and synapses as well as neural mechanisms of sensation at molecular, cellular, circuit and system levels. Basic topics in neurobiology and neurophysiology will be covered with emphasis on neuroscience history and understanding how neuroscientists approach the study of the nervous system. Three class hours per week.

Requisite: BIOL 191. Limited to 45 students. Spring semester. Professor Roche.

Lab

How to handle overenrollment: Priority by seniority

Lab

How to handle overenrollment: Priority by seniority

Lab

How to handle overenrollment: Priority by seniority

Lab

How to handle overenrollment: Priority by seniority

Lab

How to handle overenrollment: Priority by seniority

An introduction to the molecular and cellular processes common to life with an emphasis on control of energy and information flow. Central themes include metabolism, macromolecular function, and the genetic basis of cellular function. We examine how membranes work to establish the internal composition of cells; how the structure of proteins including enzymes affects protein function; how energy is captured, stored and utilized by cells; and how cells communicate, move and divide.