Syllabus

Course Meeting Times

Lectures: 2 sessions / week, 1.5 hours / session

Course Overview

This subject is aimed toward enabling students to fuse engineering and biological approaches to address problems and opportunities in basic science and technology, emphasizing a quantitative, systems-oriented perspective. Although the topics examined across the semester are diverse, the central theme of this offering will be relevance of a biological engineering perspective to issues in cell and tissue responses to environmental stimuli, including drugs, toxins, and pathogens.

Class periods revolve around discussion of primary journal articles (with review articles provided for background information) describing important contributions from biology, physical/chemical sciences, computation, and engineering, across the hierarchy from gene expression to protein regulatory networks to cell functions to tissue pathophysiology.

Textbook

This book will serve as a useful foundation:

Buy at Amazon Lodish, Harvey, Matthew P. Scott, Paul Matsudaira, James Darnell, Lawrence Zipursky, Chris A. Kaiser, Arnold Berk, and Monty Krieger. Molecular Cell Biology. New York, NY: W.H. Freeman, 2003. ISBN: 9780716743668.

Term Project

A term project undertaken in paired teams will include written and oral presentation of an original proposal on a biological engineering issue of the students' choice, requiring combination of both engineering and biological methodologies and approaches.

Grading

The term grade will derive from the written paper and oral presentations along with participation in class-period discussions.