Difference between revisions of "Team:HZAU-China/WetLab/Design"
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− | <div class="middle_topbox"><h1>Mixed-Reality Cell<span> | + | <div class="middle_topbox"><h1>Mixed-Reality Cell<span>Bidirectional coupling between real and virtual bio-oscillators</span></h1></div> |
<div class="right_topbox"><img src="https://static.igem.org/mediawiki/2015/1/12/Team_HZAU-China_brain.png"></div> | <div class="right_topbox"><img src="https://static.igem.org/mediawiki/2015/1/12/Team_HZAU-China_brain.png"></div> | ||
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<h1></br></br>Design</h1></br> | <h1></br></br>Design</h1></br> | ||
− | <h3> | + | <h3>The quorum sensing oscillator</h3> |
<p>The genetic oscillator based on quorum sensing. The luxI protein generates AHL , it’s a signal molecule. In the presence of luxR ,the complex can activate the promoter .When promoter activated ,the LuxI and AiiA express and accumulate. Because the AiiA protein can degrade the AHL and repress the promoter indirect, the expression of LuxI and AiiA are depressed, Thus forming an oscillation by the negative feedback circuit. (Danino T, et al. 2010)</p> | <p>The genetic oscillator based on quorum sensing. The luxI protein generates AHL , it’s a signal molecule. In the presence of luxR ,the complex can activate the promoter .When promoter activated ,the LuxI and AiiA express and accumulate. Because the AiiA protein can degrade the AHL and repress the promoter indirect, the expression of LuxI and AiiA are depressed, Thus forming an oscillation by the negative feedback circuit. (Danino T, et al. 2010)</p> | ||
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− | <img src="https://static.igem.org/mediawiki/2015/b/bf/Team_HZAU-China_Fig_W1.png" width=" | + | <img src="https://static.igem.org/mediawiki/2015/b/bf/Team_HZAU-China_Fig_W1.png" width="670px" height="400px"> |
− | <p class="zhushi">Fig 1.The quorum sensing oscillator</p> | + | <p class="zhushi">Fig 1. The quorum sensing oscillator</p> |
</br> | </br> | ||
<p>The key point of this oscillator is that the promotor LuxpR is induced by quorum sensing molecular AHL, so the state of cells can be synchronous by communicating with each other, being convenient for us to observe and regulate the oscillator in the population level.</p> | <p>The key point of this oscillator is that the promotor LuxpR is induced by quorum sensing molecular AHL, so the state of cells can be synchronous by communicating with each other, being convenient for us to observe and regulate the oscillator in the population level.</p> | ||
− | <h3> | + | <h3>The dual feedback oscillator</h3> |
<p>The genetic oscillator is based on a negative feedback loop and a positive feedback loop. The hybrid promoter (Plac/ara-1) is composed of an activation operator site and a repression operator site .It is activated by the AraC protein in the presence of arabinose and repressed by LacI protein in the absence of IPTG. The araC, lacI, and GFP genes are under the control of three identical copies of the hybrid promoter thus formed three co-regulated transcriptional modules. </p> | <p>The genetic oscillator is based on a negative feedback loop and a positive feedback loop. The hybrid promoter (Plac/ara-1) is composed of an activation operator site and a repression operator site .It is activated by the AraC protein in the presence of arabinose and repressed by LacI protein in the absence of IPTG. The araC, lacI, and GFP genes are under the control of three identical copies of the hybrid promoter thus formed three co-regulated transcriptional modules. </p> | ||
</br> | </br> | ||
− | <img src="https://static.igem.org/mediawiki/2015/c/c1/Team_HZAU-China_Fig_W2.png" width=" | + | <img src="https://static.igem.org/mediawiki/2015/c/c1/Team_HZAU-China_Fig_W2.png" width="650px" height="380px"> |
<p class="zhushi">Fig 2. The dual feedback oscillator</p> | <p class="zhushi">Fig 2. The dual feedback oscillator</p> | ||
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<img src="https://static.igem.org/mediawiki/2015/9/91/Team_HZAU-China_Fig_W3.png" width="600px" height="350px"/> | <img src="https://static.igem.org/mediawiki/2015/9/91/Team_HZAU-China_Fig_W3.png" width="600px" height="350px"/> | ||
− | <p class="zhushi">Fig 3 | + | <p class="zhushi">Fig 3. The light control system</p></br> |
<div class="juzhong"> | <div class="juzhong"> | ||
− | <img src="https://static.igem.org/mediawiki/2015/f/f2/Team_HZAU-China_Fig_W4-1.png" width=" | + | <img src="https://static.igem.org/mediawiki/2015/f/f2/Team_HZAU-China_Fig_W4-1.png" width="460px" height="100px"> |
− | <img src="https://static.igem.org/mediawiki/2015/a/a7/Team_HZAU-China_Fig_W4-2.png" width=" | + | <img src="https://static.igem.org/mediawiki/2015/a/a7/Team_HZAU-China_Fig_W4-2.png" width="300px" height="100px"> |
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− | <p class="zhushi">Fig 4 | + | <p class="zhushi">Fig 4. The genetic circuit of light control system</p></br> |
<p>If the downstream genes is lacI or Arac , luxI or AiiA ,like this ,we can regulate the oscillator by the red light.</p> | <p>If the downstream genes is lacI or Arac , luxI or AiiA ,like this ,we can regulate the oscillator by the red light.</p> | ||
<p>For the quorum sensing oscillator:</p></br> | <p>For the quorum sensing oscillator:</p></br> | ||
− | <img src="https://static.igem.org/mediawiki/2015/3/3a/Team_HZAU-China_Fig_W5.png" width=" | + | <img src="https://static.igem.org/mediawiki/2015/3/3a/Team_HZAU-China_Fig_W5.png" width="400px" height="110px"> |
− | <p class="zhushi">Fig 5</p></br> | + | <p class="zhushi">Fig 5.</p></br> |
<p>For the dual feedback oscillator:</p></br> | <p>For the dual feedback oscillator:</p></br> | ||
− | <p><img src="https://static.igem.org/mediawiki/2015/5/55/Team_HZAU-China_Fig_W6.png" width=" | + | <p><img src="https://static.igem.org/mediawiki/2015/5/55/Team_HZAU-China_Fig_W6.png" width="400px" height="120px"></p> |
− | <p class="zhushi">Fig 6</p> | + | <p class="zhushi">Fig 6.</p> |
</br> | </br> | ||
− | <p>Reference:</p> | + | <p><strong>Reference:</strong></p> |
<p>1. Danino T, Mondragón-Palomino O, Tsimring L, et al. A synchronized quorum of genetic clocks. [J]. Nature, 2010, 463(7279):326-330.</p> | <p>1. Danino T, Mondragón-Palomino O, Tsimring L, et al. A synchronized quorum of genetic clocks. [J]. Nature, 2010, 463(7279):326-330.</p> | ||
<p>2. Hasty J. A fast, robust and tunable synthetic gene oscillator. [J]. Nature, 2008, 456(7221):516-519.</p> | <p>2. Hasty J. A fast, robust and tunable synthetic gene oscillator. [J]. Nature, 2008, 456(7221):516-519.</p> | ||
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− | <h1> | + | <h1> Contact Information</h1> |
− | + | <div class="contacts_left"> | |
− | + | <ul> | |
− | + | <li class="address_inf"> | |
− | + | No.1, Shizishan Street, Hongshan District, | |
− | + | </br> | |
− | + | Wuhan, 430070, Hubei Province, P. R. China | |
− | + | </li> | |
− | + | <li class="email_inf">Email: hzauigem@gmail.com</li> | |
− | + | </ul> | |
− | + | </div> | |
− | + | <div class="contacts_right"> | |
− | + | <ul> | |
− | + | <li class="twitter-inf">Twitter : hzau_igem</li> | |
− | + | <li class="wechat-inf">Wechat : hzauigem</li> | |
− | + | <li class="qq-inf">QQ Group : 313297095</li> | |
− | + | <li class="yt-inf">YouTube : hzauigem</li> | |
− | + | </ul> | |
− | + | </div> | |
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Latest revision as of 18:37, 15 November 2015
Mixed-Reality CellBidirectional coupling between real and virtual bio-oscillators
Design
The quorum sensing oscillator
The genetic oscillator based on quorum sensing. The luxI protein generates AHL , it’s a signal molecule. In the presence of luxR ,the complex can activate the promoter .When promoter activated ,the LuxI and AiiA express and accumulate. Because the AiiA protein can degrade the AHL and repress the promoter indirect, the expression of LuxI and AiiA are depressed, Thus forming an oscillation by the negative feedback circuit. (Danino T, et al. 2010)
Fig 1. The quorum sensing oscillator
The key point of this oscillator is that the promotor LuxpR is induced by quorum sensing molecular AHL, so the state of cells can be synchronous by communicating with each other, being convenient for us to observe and regulate the oscillator in the population level.
The dual feedback oscillator
The genetic oscillator is based on a negative feedback loop and a positive feedback loop. The hybrid promoter (Plac/ara-1) is composed of an activation operator site and a repression operator site .It is activated by the AraC protein in the presence of arabinose and repressed by LacI protein in the absence of IPTG. The araC, lacI, and GFP genes are under the control of three identical copies of the hybrid promoter thus formed three co-regulated transcriptional modules.
Fig 2. The dual feedback oscillator
The addition arabinose and IPTG will activate the promoter and result in transcription of each component of the circuit , and increased production of AraC in the presence of arabinose results in a positsive feedback loop that increase promoter activity. However the concurrent increase in production of LacI results in a linked negative feedback loop decreases promoter activity. So the concentration of the GFP would change with the variation of promoter activity.(Hasty, Jeff. 2008.)
The key point of this oscillator is that the hybrid promotor can be effected by chemical revulsive IPTG/Arabinose, so we can make the oscillator more tunable and robust by adding the chemical revulsive.
Regulation to the oscillator--the light control system
In this system , the three genes can generate a lightsensitive complex, which can phosphorylate ompR protein in dark, and the phosphorylated ompR protein will active the ompC promoter and the downstream gene can express. But in the presence of red light, the kinase activity is inhibited, resulting in repressing the promoter and inhibiting the expression of related genes.(Anselm, Levskaya, et al. 2005.)
Fig 3. The light control system
Fig 4. The genetic circuit of light control system
If the downstream genes is lacI or Arac , luxI or AiiA ,like this ,we can regulate the oscillator by the red light.
For the quorum sensing oscillator:
Fig 5.
For the dual feedback oscillator:
Fig 6.
Reference:
1. Danino T, Mondragón-Palomino O, Tsimring L, et al. A synchronized quorum of genetic clocks. [J]. Nature, 2010, 463(7279):326-330.
2. Hasty J. A fast, robust and tunable synthetic gene oscillator. [J]. Nature, 2008, 456(7221):516-519.
3. Anselm L, Chevalier A A, Tabor J J, et al. Synthetic biology: Engineering Escherichia coli to see light [J]. Nature, 2005, 438(7067):441-442.
© 2015 Huazhong Agricultural University iGEM Team. All rights reserved.
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