Team:WHU-China/templates/standardpage introduction
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<div class="mac" style="height:auto;width:67%;float:right;margin-right:7%;*width:98%;*border: 3px solid green;"> | <div class="mac" style="height:auto;width:67%;float:right;margin-right:7%;*width:98%;*border: 3px solid green;"> | ||
- | <h1 style="font-size:20px;"><b> | + | <h1 style="font-size:20px;"><b>Blueprint of our project</b></h1></br> |
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- | + | If people want to drive a system to work for them, even if the system is a simple one, simply keep pushing the system toward the goal may not be the best shoot. For example, if a professor is too pushing, his students may, on the contrary, unable to perform their best; if a farmer adding too much fertilizer, the land may be damaged in the long run, etc.</br></br> | |
- | + | Biological systems are extremely complex, and the components in the system are intensely interconnected. So in order to exploit the maximum potentiality of a biological system, we'll have to keep the protein or metabolic product production in a desired range. Not too high, as it may hurt the cell or inhibit its growth; either not too low, as it will be economically inefficient. </br></br> | |
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- | + | So how can we reach a desired range of expression? We need to properly combine the transcription and translation initiation elements, just as an recent published Nature article suggested[1]. But that paper just used the throughly studied E.coli expression elements in E.coli. What if we are doing engineering in a non-model organism that we just have data about a handful of expression elements, can we create the elements we need? </br></br> | |
- | + | Our project proposed a way to employ a limited set of promoters to reach any desired expression level, or even switch between several expression level. </br></br> | |
- | + | <div style="width:100%;text-align:center;"> | |
- | <img>https://static.igem.org/mediawiki/2013/6/ | + | <img src="https://static.igem.org/mediawiki/2013/9/95/WHUIntro1.png" /></br></br> |
- | + | </div> | |
- | + | <center><em>Fig.1 Tandem promoter</em></br></center> | |
- | <img src="https://static.igem.org/mediawiki/2013/ | + | First, we combined the known promoter into tandem promoter system. We've done experiments and modeling to show how can we use a 0.1 promoter and a 0.3 promoter to reach expression level from 0.1 to the maximum. Please check experiment here and modeling here. </br></br> |
- | + | <div style="width:100%;text-align:center;"> | |
- | </br> | + | <img src="https://static.igem.org/mediawiki/2013/6/6f/WHUIntro2.png" /></br> |
- | </ | + | </div> |
+ | <center><em>Fig.2 Cas9 regulated multistage promoter</em></br></center> | ||
+ | <div style="width:100%;text-align:center;"> | ||
+ | <img src="https://static.igem.org/mediawiki/2013/4/4e/WHUSliderR.png" /></br> | ||
+ | </div> | ||
+ | <center><em>Fig 3. An analog to slide rheostat</em></br></center> | ||
+ | Then, we made the tandem promoter a “slide rheostat” by using d/aCas9 to regulate it. This enable the tandem promoter to switch between several designable expression level, and become a multistage promoter. This is different from the normal regulated promoter that usually has only two stage: on and off (Fig.4). To see our experiment about this multistage promoter, please <a href="https://2013.igem.org/Team:WHU-China/modules#tandem_promoter">click here</a>. It's also important to ensure the orthogonality of this multistage promoter. So the off-target tendency of Cas9 is modeled and analyzed by combining the data of six paper about Cas9 off-target. For the modeling result, please <a href="https://2013.igem.org/Team:WHU-China/modelingintro">click here</a>. </br></br> | ||
+ | <div style="width:100%;text-align:center;"> | ||
+ | <img src="https://static.igem.org/mediawiki/2013/a/a8/WHUSwitches.png" /></br> | ||
+ | </div> | ||
+ | <center><em>Fig 4. Bi-stage promoter and multistage promoter</em></br></center> | ||
+ | </br></br> | ||
+ | <h1><b>Reference</b></h1> | ||
+ | <em>[1]Mutalik, Vivek K., et al. "Precise and reliable gene expression via standard transcription and translation initiation elements." Nature methods 10.4 (2013): 354-360.</em> | ||
</div> | </div> | ||
</html> | </html> |
Latest revision as of 13:19, 27 October 2013