BIOL 271
Spring 2024
| Section:
01
|
| Crosslisting:
CIS 271 |
This course is similar to BIOL270, but only meets in the second half of the semester with BIOL270 and is designed for students with a solid background in programming in Python. Systems--collections of entities that interact to form an interconnected whole--are present at every scale of organization in the life sciences. Biologists can take advantage of computational and mathematical tools to understand how these systems function and predict how they might change over time. This approach is critical in applications ranging from epidemic modeling to evolutionary theory. In this course, students will learn how simple rules and interactions can lead to complex behavior using examples from three main areas: regulatory networks, population genetics, and ecology. |
|
| Credit: .5 |
Gen Ed Area Dept:
NSM BIOL |
| Course Format: Lecture / Discussion | Grading Mode: Graded |
| Level: UGRD |
Prerequisites: BIOL181 OR BIOL181Z AND BIOL182 OR BIOL182Z |
|
Fulfills a Requirement for: (INFO-MN) |
|
Past Enrollment Probability: Not Available |
| SECTION 01 - 4th Quarter |
Major Readings: Wesleyan RJ Julia Bookstore
"An Introduction to Systems Biology: Design Principles of Biological Circuits, 2nd edition" , Uri Alon, ISBN: 9781439837177
|
Examinations and Assignments:
Homework and coding mini-projects |
Additional Requirements and/or Comments:
|
| Instructor(s): Arevalo,Phil Times: .M.W.F. 08:50AM-09:40AM; Location: SCIE139; |
| Total Enrollment Limit: 5 | | SR major: 2 | JR major: 2 | | |
| Seats Available: 5 | GRAD: X | SR non-major: 0 | JR non-major: 0 | SO: 1 | FR: X |
| Drop/Add Enrollment Requests | | | | | |
| Total Submitted Requests: 0 | 1st Ranked: 0 | 2nd Ranked: 0 | 3rd Ranked: 0 | 4th Ranked: 0 | Unranked: 0 |
|