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Team:Northwestern/Project/Description
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<div align="center"><html><table class="image"> | <div align="center"><html><table class="image"> | ||
| - | <caption align="bottom"></html>'''Figure 1:''' The three components of the sensing system in ''E. coli'': (a)the autoinducer, (b)the receptor R-protein, and(c) the reporter construct.<html></caption> | + | <caption align="bottom"></html>'''Figure 1:''' The three components of the sensing system in ''E. coli'': (a) the autoinducer, (b) the receptor R-protein, and (c) the reporter construct.<html></caption> |
<tr><td><img src="https://static.igem.org/mediawiki/2011/1/13/General_idea.jpg" style="opacity:1;filter:alpha(opacity=100);" width="700px" height="140px" alt="fig1"/ border="0"></td></tr> | <tr><td><img src="https://static.igem.org/mediawiki/2011/1/13/General_idea.jpg" style="opacity:1;filter:alpha(opacity=100);" width="700px" height="140px" alt="fig1"/ border="0"></td></tr> | ||
</table></html></div> | </table></html></div> | ||
| - | + | When combined, the three components of the system facilitate the detection of P. aeruginosa as depicted in Figure 2. The autoinducer concentration directly influences the level of reporter expression. However, since autoinducers are generally prodoced at low basal levels by P. aeruginosa, this may complicate the detection of these molecules by our biosensors. Therefore, to enhance the sensitivity of our biosensors to the autoinducers, we chose to express the R-proteins from strong, constitutive promoters. To combine R-protein synthesis and the reporter into a single construct, the inducible promoter and reporter sequences are upstream of the constitutive promoter and R-protein gene to minimize the effects of transcriptional readthrough. | |
| - | + | ||
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| - | When combined, the three components of the system facilitate the detection of | + | |
<div align="center"><html><table class="image"> | <div align="center"><html><table class="image"> | ||
| - | <caption align="bottom"></html>'''Figure 2:''' The ''P. aeruginosa'' detecting | + | <caption align="bottom"></html>'''Figure 2:''' The ''P. aeruginosa'' detecting biosensor system design.<html></caption> |
<tr><td><img src="https://static.igem.org/mediawiki/2011/3/37/Construct_design.jpg" style="opacity:1;filter:alpha(opacity=100);" width="600px" height="400px" alt="fig1"/ border="0"></td></tr> | <tr><td><img src="https://static.igem.org/mediawiki/2011/3/37/Construct_design.jpg" style="opacity:1;filter:alpha(opacity=100);" width="600px" height="400px" alt="fig1"/ border="0"></td></tr> | ||
</table></html></div> | </table></html></div> | ||
Revision as of 22:59, 28 September 2011
PROJECT
RESULTS
CONSIDERATIONS
ABOUT US
NOTEBOOK
ATTRIBUTIONS
There are three vital components to our system: the autoinducer, the receptor protein, and the reporter construct. The autoinducer will be supplied by P. aeruginosa. The receptor proteins need to be produced by the E. coli. Finally, the reporter sequence has to be regulated by the inducible promoters (autoinducer/R-protein specific). The three components are depicted below in Figure 1.
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When combined, the three components of the system facilitate the detection of P. aeruginosa as depicted in Figure 2. The autoinducer concentration directly influences the level of reporter expression. However, since autoinducers are generally prodoced at low basal levels by P. aeruginosa, this may complicate the detection of these molecules by our biosensors. Therefore, to enhance the sensitivity of our biosensors to the autoinducers, we chose to express the R-proteins from strong, constitutive promoters. To combine R-protein synthesis and the reporter into a single construct, the inducible promoter and reporter sequences are upstream of the constitutive promoter and R-protein gene to minimize the effects of transcriptional readthrough.
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