VCU/Courses/Synthetic Biology Fundamentals/Schedule: Difference between revisions
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==Module 4 - Synthetic Biological Systems== | ==Module 4 - Synthetic Biological Systems== | ||
This module explores various areas of synthetic biology from parts-level synthesis to whole-genome engineering with an emphasis on integrating molecular biology, systems biology and genetic engineering. | This module explores various areas of synthetic biology from parts-level synthesis to whole-genome engineering with an emphasis on integrating molecular biology, systems biology and genetic engineering. | ||
* '''Mar 19 - [[VCU/Courses/Synthetic Biology Fundamentals/]] | * '''Mar 19 - [[VCU/Courses/Synthetic Biology Fundamentals/Case Study 1| Case Study 1]] | ||
* '''Mar 26 - [[VCU/Courses/Synthetic Biology Fundamentals/]] | * '''Mar 26 - [[VCU/Courses/Synthetic Biology Fundamentals/Case Study 2| Case Study 2]] | ||
* '''Apr 02 - [[VCU/Courses/Synthetic Biology Fundamentals/]] | * '''Apr 02 - [[VCU/Courses/Synthetic Biology Fundamentals/Case Study 3| Case Study 3]] | ||
==Module 5 - Biological Systems Design== | ==Module 5 - Biological Systems Design== | ||
This module introduces the conceptual approach of engineering biological systems with an emphasis on basic design, synthesis, analysis and characterization. | This module introduces the conceptual approach of engineering biological systems with an emphasis on basic design, synthesis, analysis and characterization. | ||
Revision as of 14:24, 15 December 2008
Module 1 - Elementary Synthetic Biology
This module introduces the history and development of synthetic biology including core principles and concepts, enabling technologies and current research topics.
- Jan 15 - Genetic Programming
- Jan 22 - Foundational Technologies
- Jan 29 - Engineering Principles
Module 2 - Synthetic Systems Biology
This module investigates the field of systems biology, which provides a theoretical framework for designing and constructing biological systems - the practice of synthetic biology.
- Feb 05 - Biological Networks
- Feb 12 - Genetic Circuit Engineering
- Feb 19 - Gene Expression Control
Module 3 - Computational Synthetic Biology
This module introduces useful computational tools and an approach to mathematically model biological systems, which is helpful in system design and predicting behavior.
- Feb 26 - Bioinformatics Tools
- Mar 05 - Computer-Aided Design
- Mar 12 - Spring Break
Module 4 - Synthetic Biological Systems
This module explores various areas of synthetic biology from parts-level synthesis to whole-genome engineering with an emphasis on integrating molecular biology, systems biology and genetic engineering.
- Mar 19 - Case Study 1
- Mar 26 - Case Study 2
- Apr 02 - Case Study 3
Module 5 - Biological Systems Design
This module introduces the conceptual approach of engineering biological systems with an emphasis on basic design, synthesis, analysis and characterization.
- Apr 09 - System Architecture
- Apr 16 - Evolutionary Engineering
- Apr 23 - Part Characterization
