Team:PennState/diauxie/progress
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- | <p>These graphs show the normalized fluoresence strength for PN, P1, and P3 xylose promoters induced with xylose, glucose, and a mixture. The W3110 cells have <em>xylE</em> and <em>xylG</em> knocked out while DH5α still contain the natural xylose transport and metabolim. This data shows that there is little effect on the fluorescence intensity using strains with xylE and xylG sequences deleted. Our next step is to transform these promoters into <em>E. coli</em> cells with deleted xylose metabolism and transporters. </p> | + | <p>These graphs show the normalized fluoresence strength for PN, P1, and P3 xylose promoters induced with xylose, glucose, and a mixture. The W3110 cells have <em>xylE</em> and <em>xylG</em> knocked out while DH5α still contain the natural xylose transport and metabolim. This data shows that there is little effect on the fluorescence intensity using strains with <em>xylE</em> and <em>xylG</em> sequences deleted. Our next step is to transform these promoters into <em>E. coli</em> cells with deleted xylose metabolism and transporters. </p> |
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Revision as of 01:17, 30 October 2008
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Diauxie EliminationNHR Biosensors
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Progress & Results
Each test construct (promoter + GFP) was cloned into the pSB1A2 plasmid and transformed into several E. coli strains: DH5α, W3110 ∆xylB-G, and W3110 ∆xylB-R. Preliminary induction studies were run to find the optimal induction time and to analyze the linear range for OD versus fluorescence. Test Construct
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