8.591J | Fall 2014 | Graduate, Undergraduate
Systems Biology
Course Description
This course provides an introduction to cellular and population-level systems biology with an emphasis on synthetic biology, modeling of genetic networks, cell-cell interactions, and evolutionary dynamics. Cellular systems include genetic switches and oscillators, network motifs, genetic network evolution, and cellular …
This course provides an introduction to cellular and population-level systems biology with an emphasis on synthetic biology, modeling of genetic networks, cell-cell interactions, and evolutionary dynamics. Cellular systems include genetic switches and oscillators, network motifs, genetic network evolution, and cellular decision-making. Population-level systems include models of pattern formation, cell-cell communication, and evolutionary systems biology.
Learning Resource Types
assignment Problem Sets
grading Exams
theaters Lecture Videos
co_present Instructor Insights
A neutrophil, shown as a large irregularly-shaped blue-gray cell, wrapping around pink oval-shaped Klebsiella pneumoniae bacteria.
A neutrophil (a type of white blood cell, shown in blue-gray) interacting with Klebsiella pneumoniae bacteria (shown in pink). This is one example of the types of functions that Systems Biology seeks to understand and describe. Watch Lecture 1 to see a video of a neutrophil chasing and engulfing a bacterium. (Image by NIAID, CC-BY.)