CHE.496/2008/Schedule
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(Difference between revisions)
| Line 23: | Line 23: | ||
* Feb 21 - Dr. Craig Venter's minimal genome work | * Feb 21 - Dr. Craig Venter's minimal genome work | ||
* Feb 26 - Dr. George Church's minimal cell work | * Feb 26 - Dr. George Church's minimal cell work | ||
| - | * Feb 28 - Dr. Michael Elowitz' | + | * Feb 28 - Dr. Michael Elowitz's genetic circuit engineering work </font> |
* Mar 04 - ''Spring break'' | * Mar 04 - ''Spring break'' | ||
* Mar 06 - ''Spring break'' <font color=green> | * Mar 06 - ''Spring break'' <font color=green> | ||
| Line 36: | Line 36: | ||
* Mar 27 - Systems biology and the 'omic sciences | * Mar 27 - Systems biology and the 'omic sciences | ||
| - | * Apr 01 - | + | * Apr 01 - Computational biology |
| - | * Apr 03 | + | * Apr 03 - Metabolic flux analysis |
| - | + | * Apr 08 - Genome-scale metabolic models | |
| - | * Apr | + | * Apr 10 - Modeling genetic regulatory networks |
* Apr 15 - Modeling genetic regulatory networks | * Apr 15 - Modeling genetic regulatory networks | ||
* Apr 17 - Systems biotechnology </font> | * Apr 17 - Systems biotechnology </font> | ||
Revision as of 14:31, 8 November 2007
This site is under development and this course is just a proposal at this point in time.
Module 1 - Fundamentals of synthetic biology
- Jan 17 - Synthetic biology overview
- Jan 22 - Foundational technologies
- Jan 24 - Engineering principles
- Jan 29 - Biobricks and genetic programming
- Jan 31 - Bioinformatics and systems biology
- Feb 05 - Practical applications
- Feb 07 - Societal implications
- Feb 12 - Oral presentations of individual literature research
- Feb 14 - Oral presentations of individual literature research
Module 2 - Engineered biological systems
- Feb 19 - Synthetic genes, biological machines, and minimal genomes
- Feb 21 - Dr. Craig Venter's minimal genome work
- Feb 26 - Dr. George Church's minimal cell work
- Feb 28 - Dr. Michael Elowitz's genetic circuit engineering work
- Mar 04 - Spring break
- Mar 06 - Spring break
- Mar 11 - Dr. Jim Collins' genetic circuit engineering work
- Mar 13 - Dr. Chris Voigt's genetic circuit engineering work
- Mar 18 - Dr. Jay Keasling's pathway engineering work
- Mar 20 - Oral presentations of individual part design
- Mar 25 - Oral presentations of individual part design
Module 3 - Modeling biological systems
- Mar 27 - Systems biology and the 'omic sciences
- Apr 01 - Computational biology
- Apr 03 - Metabolic flux analysis
- Apr 08 - Genome-scale metabolic models
- Apr 10 - Modeling genetic regulatory networks
- Apr 15 - Modeling genetic regulatory networks
- Apr 17 - Systems biotechnology
- Apr 22 - Oral presentations of group system design
- Apr 24 - Oral presentations of group system design
- Apr 29 - Review of course
