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Team:Michigan/Project
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==Surface Display== | ==Surface Display== | ||
| - | + | The goal of the SD team is to identify, construct, and test various surface display systems to support the team's ultimate aim of displaying a Zn-Finger protein on the surface of E. coli. Specifically, we have chosen to focus on systems utilizing OmpA, INP, and AIDA-1, allowing for the use of both established and unestablished BioBrick parts. Currently we are trying to build plasmids to test display by combining promoters, RBS’s, carrier’s, and test display proteins (e.g. GFP). Combining these parts we will be able to build biobricks and test our display systems so that we are ready to attempt surface display for a zinc finger. | |
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==DNA-Binding Proteins== | ==DNA-Binding Proteins== | ||
Revision as of 18:29, 21 June 2011
Cell Patterning
This year’s project explores developing a cell patterning platform based on oligonucleotide-directed cell binding to substrate surfaces. Our approach entails engineering cells to selectively bind to certain nucleotide sequences (via surface display of DNA binding proteins, such as zinc fingers), allowing for guided assembly of defined cell patterns on surfaces patterned with oligonucleotides.
Surface Display
The goal of the SD team is to identify, construct, and test various surface display systems to support the team's ultimate aim of displaying a Zn-Finger protein on the surface of E. coli. Specifically, we have chosen to focus on systems utilizing OmpA, INP, and AIDA-1, allowing for the use of both established and unestablished BioBrick parts. Currently we are trying to build plasmids to test display by combining promoters, RBS’s, carrier’s, and test display proteins (e.g. GFP). Combining these parts we will be able to build biobricks and test our display systems so that we are ready to attempt surface display for a zinc finger.
DNA-Binding Proteins
Microarrays
Results
