Team:Virginia Commonwealth/Internal/Experimentation
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==Experimental (wetlab) planning== | ==Experimental (wetlab) planning== | ||
[[Image:Biological engineering work flow.png|center|450px|Biological engineering work flow]] | [[Image:Biological engineering work flow.png|center|450px|Biological engineering work flow]] | ||
+ | The figure above depicts the work flow involved with biological engineering projects. The '''design''' and '''synthesis''' phases are dependent on product specifications, components to build with and tools to put them together - these phases are ''synthetic'' biology-driven. The ''systems'' biology-driven steps are the '''analysis''' and '''model''' steps, which take advantage of high-throughput omics measurement technologies, bioinformatic approaches to organizing the generated data and computational biology methods to simulate biological systems. The '''design''' and '''model''' stages are largely carried out computationally whereas the '''synthesis''' and '''analysis''' steps require the use of the laboratory (i.e., wetlab). | ||
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+ | ==Synthesis== | ||
[[Image:Genetic engineering work flow.png|left|450px|Genetic engineering work flow]] | [[Image:Genetic engineering work flow.png|left|450px|Genetic engineering work flow]] |
Revision as of 22:00, 11 June 2009
Experimental (wetlab) planning
The figure above depicts the work flow involved with biological engineering projects. The design and synthesis phases are dependent on product specifications, components to build with and tools to put them together - these phases are synthetic biology-driven. The systems biology-driven steps are the analysis and model steps, which take advantage of high-throughput omics measurement technologies, bioinformatic approaches to organizing the generated data and computational biology methods to simulate biological systems. The design and model stages are largely carried out computationally whereas the synthesis and analysis steps require the use of the laboratory (i.e., wetlab).