Team:WHU-China/Project

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#modeling
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#design
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<img style="position:absolute;top:50px;width:400px;height:320px;left:20px;" src="/wiki/images/a/a4/Whu-project3.jpg"/>
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<img style="position:absolute;top:50px;width:400px;left:20px;" src="/wiki/images/a/a4/Whu-project3.jpg"/>
<div id="introsub" style="position:absolute;top:70px;width:520px;right:40px;font-size:15px;">
<div id="introsub" style="position:absolute;top:70px;width:520px;right:40px;font-size:15px;">
<p>
<p>
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&nbsp;&nbsp;&nbsp;&nbsp;Stepping into the IGEM world for the first time, we studied a huge amount of previous projects and found that light sensing bacteria kept arousing general interest but remain an unsettled issue. Despite the great efforts made by previous teams, little progress was made in this field. Therefore we decide to make some attempts. We focus on constructing colorful E.coli.
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&nbsp;&nbsp;&nbsp;&nbsp;Being born, growing, aging and embracing death, the life process that every creature must go through is just like a movie. However, as one of the simplest life forms, E.coli's life story is too evanescent and monotonous. How can we utilize E.coli to show more complicated processes, such as the growing and withering of a tree? </br>
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<br/>&nbsp;&nbsp;&nbsp;&nbsp;Firstly, we came up with the idea of “colorful E.film” based on previous research of bio-imaging. The greatest advantage of our “E.film” against traditional chemical film is the extremely small size of pixels. And we hope to create a colorful film instead of a black-and-white one by constructing three E.coli strains which can produce and secrete three primary colors respectively in the presence of different lights.......
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&nbsp;&nbsp;&nbsp;&nbsp; Numerous problems stand in the way to this goal. So we just take two steps towards this direction. Firstly, we only focus on one pixel of this picture. As time goes by, the color of this point changes periodically. This effect is achieved by a strain of E.coli working as an oscillator which can yield different kinds of pigment periodically with the help of a signal transformation system....
      
      
</p>
</p>
</div>
</div>
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<a href="https://2011.igem.org/Team:WHU-China/Project/Overview"><img style="position:absolute;top:380px;right:100px;width:90px;height:30px" src="/wiki/images/1/14/Whu-More.png "></a>
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<a href="https://2011.igem.org/Team:WHU-China/Project/Overview"><img style="position:absolute;top:380px;right:100px;width:80px;height:30px" src="/wiki/images/1/14/Whu-More.png "></a>
</div>
</div>
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<div id="design">
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<img src="/wiki/images/1/16/Whu-Design.png"/>
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<img style="position:absolute;top:50px;width:400px;left:20px;" src="/wiki/images/c/cd/Oscillator5.png"/>
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<div id="introsub" style="position:absolute;top:70px;width:520px;right:40px;font-size:15px;">
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<p>
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&nbsp;&nbsp;&nbsp;&nbsp;This summer we designed two projects: color film and oscillator. One is about time and another is about space.  The oscillator is to construct one strain colorful E.coli changing color periodically. The color film project is to construct three strains of E.coli which can form a colorful image. Here is the detailed design of these two projects.     
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</p>
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</div>
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<a href="https://2011.igem.org/Team:WHU-China/Project/Design"><img style="position:absolute;top:380px;right:100px;width:80px;height:30px" src="/wiki/images/1/14/Whu-More.png "></a>
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</div>
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<div id="modeling">
<div id="modeling">
<img src="/wiki/images/0/0d/Whu-Modeling.png"/>
<img src="/wiki/images/0/0d/Whu-Modeling.png"/>
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<a href="https://2011.igem.org/Team:WHU-China/Project/Modeling"><img style="position:absolute;top:380px;right:100px;width:90px;height:30px" src="/wiki/images/1/14/Whu-More.png "></a>
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<a href="https://2011.igem.org/Team:WHU-China/Project/Modeling"><img style="position:absolute;top:380px;right:100px;width:80px;height:30px" src="/wiki/images/1/14/Whu-More.png "></a>
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<img style="position:absolute;top:50px;width:400px;height:320px;left:20px;" src="https://static.igem.org/mediawiki/2011/c/cc/Whu-m5.png"/>
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<img style="position:absolute;top:50px;width:420px;left:20px;" src="https://static.igem.org/mediawiki/2011/e/e3/Model-2.png"/>
<div id="introsub" style="position:absolute;top:70px;width:520px;right:40px;font-size:15px;">
<div id="introsub" style="position:absolute;top:70px;width:520px;right:40px;font-size:15px;">
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<p>As the changes of cycle time with the change of the parameters in the image , we can get the conclusion that:</br>
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<p>
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&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;1.<img src="/wiki/images/0/04/Image029.png"/>have little influence on the range.</br>
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&nbsp;&nbsp;&nbsp;&nbsp;In the part of waving time , there is a two nodes system , using the method of the mathematic theory of the ODE function and the random analysis. We get our model.</br>
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&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;2.<img src="/wiki/images/8/82/Image030.png"/>do not have much influence on the cycle time.</br>
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&nbsp;&nbsp;&nbsp;&nbsp;To stimulate ,taking the fluctuations arising from the molecules into account, we need to resort to stochastic simulations. We use here the Gillespie algorithm to simulate a stochastic version of the model.Suppose the system size Ω=1000,then we can get the result of simulation...
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&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;3.<img src="/wiki/images/1/11/Image031.png"/>have inversely proportional relationship with the cycle time , it have a huge influence on the cycle &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;time , but little impact on the range (Can be used to adjust the cycle to maintain constant amplitude)</br>
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&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;4.When<img src="/wiki/images/9/94/Image032.png"/>,<img src="/wiki/images/2/21/Image033.png"/> have little influence on the range.
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</p>
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</br>
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This conclusion we get before can be used to guide the design of biological systems, in order to achieve the adjustment period, amplitude can adjust the size of some parameters.</p>
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</div>
</div>
</div>
</div>
<div id="results">
<div id="results">
<img src="/wiki/images/3/3e/Whu-Results.png"/>
<img src="/wiki/images/3/3e/Whu-Results.png"/>
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<a href="https://2011.igem.org/Team:WHU-China/Project/Results"><img style="position:absolute;top:380px;right:100px;width:90px;height:30px" src="/wiki/images/1/14/Whu-More.png "></a>
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<img style="position:absolute;top:50px;width:400px;left:20px;" src="https://static.igem.org/mediawiki/2011/9/9a/Shuangban.png"/>
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<a href="https://2011.igem.org/Team:WHU-China/Project/Results"><img style="position:absolute;top:350px;right:100px;width:80px;height:30px" src="/wiki/images/1/14/Whu-More.png "></a>
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<div id="introsub" style="position:absolute;top:70px;width:520px;right:40px;font-size:15px;">
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<p>&nbsp;&nbsp;&nbsp;Blue light induced bacteria with part BBa_K560000, blue light sensing and reporting system. E.coli cultures from the same clone were grown in the dark under the blue light. Control were under the dark. Bacteria under blue light expressed little RFP and the bacterial colony did not turn red. Control bacterial colony turned red  obviously..... </p>
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</div>
</div>
</div>

Latest revision as of 03:10, 29 October 2011

    Being born, growing, aging and embracing death, the life process that every creature must go through is just like a movie. However, as one of the simplest life forms, E.coli's life story is too evanescent and monotonous. How can we utilize E.coli to show more complicated processes, such as the growing and withering of a tree?
     Numerous problems stand in the way to this goal. So we just take two steps towards this direction. Firstly, we only focus on one pixel of this picture. As time goes by, the color of this point changes periodically. This effect is achieved by a strain of E.coli working as an oscillator which can yield different kinds of pigment periodically with the help of a signal transformation system....

    This summer we designed two projects: color film and oscillator. One is about time and another is about space. The oscillator is to construct one strain colorful E.coli changing color periodically. The color film project is to construct three strains of E.coli which can form a colorful image. Here is the detailed design of these two projects.

    In the part of waving time , there is a two nodes system , using the method of the mathematic theory of the ODE function and the random analysis. We get our model.
    To stimulate ,taking the fluctuations arising from the molecules into account, we need to resort to stochastic simulations. We use here the Gillespie algorithm to simulate a stochastic version of the model.Suppose the system size Ω=1000,then we can get the result of simulation...

   Blue light induced bacteria with part BBa_K560000, blue light sensing and reporting system. E.coli cultures from the same clone were grown in the dark under the blue light. Control were under the dark. Bacteria under blue light expressed little RFP and the bacterial colony did not turn red. Control bacterial colony turned red obviously.....

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