Team:UNC Chapel Hill/19 June 2009
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+ | [[Team:UNC_Chapel_Hill/Notebook|Back]] | ||
*Met and talked about potential projects in detail | *Met and talked about potential projects in detail | ||
- | *Scott showed pictures of his results: | + | *Scott showed pictures of his results, transfecting the RFP part into bacteria: |
[[Image:UNC-chapel-hill-190609.png]] | [[Image:UNC-chapel-hill-190609.png]] | ||
+ | *Went over two projects: | ||
+ | # Genetic Trigger Switch using Recombinases - The biological system will be in one state (say producing Red Fluorescent Proteins). A trigger will occur to induce the production of a recombinase, which will excise a sequence to put the system into another state (say producing Green Fluorescent Proteins). See attached for the presentation. | ||
+ | # Characterization system of iGem parts - Create a system to characterize various different iGem components using Fluorescent Proteins. For example, come up with a part with a blank spot for a promoter. This part would allow many different promoters to be compared. Could do similar tests on Ribosomal binding sites and Terminators. Would entail creating a detailed mathematical modeling system. Would also be immensely practical and useful for iGem. | ||
+ | |||
+ | *Will be voting on them by Monday. |
Latest revision as of 21:07, 22 June 2009
- Met and talked about potential projects in detail
- Scott showed pictures of his results, transfecting the RFP part into bacteria:
- Went over two projects:
- Genetic Trigger Switch using Recombinases - The biological system will be in one state (say producing Red Fluorescent Proteins). A trigger will occur to induce the production of a recombinase, which will excise a sequence to put the system into another state (say producing Green Fluorescent Proteins). See attached for the presentation.
- Characterization system of iGem parts - Create a system to characterize various different iGem components using Fluorescent Proteins. For example, come up with a part with a blank spot for a promoter. This part would allow many different promoters to be compared. Could do similar tests on Ribosomal binding sites and Terminators. Would entail creating a detailed mathematical modeling system. Would also be immensely practical and useful for iGem.
- Will be voting on them by Monday.