MICR 107 Spring MCB Core Course Modules

The final term of a year-long graduate-level course in biochemistry, cell and molecular biology, a continuation of BIOC 101 and BIOL 103. These special-topics mini-courses provide more in-depth information about specific areas in biochemistry, cell and molecular biology.  Each first-year MCB student must enroll in three sequential modules.  Module topics offered each year will vary.  Students should contact Janet Cheney for current list of spring-term modules and descriptions.

This course provides an introduction to key concepts in quantitative and systems biology, with an emphasis on the modeling of genetic networks and evolutionary processes. We will describe our current understanding on how the vast network of biochemical interactions in a cell works together to perform cellular functions. The aim of the mathematical models studied in this class is not to precisely reproduce experimental data, but rather to allow intuitive understanding of general principles.

We will start by studying the organization of gene networks, and how transcription regulation is used to implement simple recurring network motifs. We will show how these network motifs can be used to build different synthetic circuits. We will then study the evolution of optimized network designs. We will see how cells tune their gene expression levels in response to new selective pressures; we will analyze how beneficial mutations are fixed in a cell population; and we will determine the possible paths of adaptation of an organism towards a new optimum when colonizing new environments.