Team:SYSU-China/project

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      <p><img src="https://static.igem.org/mediawiki/2012/c/cf/SYSU-overview.jpg" width="516" height="516"></p>
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        <p>   <iframe width="420" height="315"
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         <p align="left" class="style1">We have turned engineering a gene into engineering a pathway, and we have made lots of approaches to maintain stability of the whole system. In terms of cells, it is difficult to satisfy what we need if only by engineering a cell, because we require a mixture of different kinds of cells to do more complex tasks. However, it is still very difficult for us to build such a mixed system, and the priority is how to balance a suitable rate of different cell quorum. An appropriate proportion is important to the correct results and max efficiency. </p>
         <p align="left" class="style1">We have turned engineering a gene into engineering a pathway, and we have made lots of approaches to maintain stability of the whole system. In terms of cells, it is difficult to satisfy what we need if only by engineering a cell, because we require a mixture of different kinds of cells to do more complex tasks. However, it is still very difficult for us to build such a mixed system, and the priority is how to balance a suitable rate of different cell quorum. An appropriate proportion is important to the correct results and max efficiency. </p>
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        <p align="center" class="style1"><img src="https://static.igem.org/mediawiki/2012/c/cf/SYSU-overview.jpg"  width="516" height="516"></p>
         <p align="left" class="style1">To accomplish this function, we found several proteins which can inhibit E.coli replication initiation, and we also built a “quorum density inducible— bistable switch” to gain a new balance.</p>         
         <p align="left" class="style1">To accomplish this function, we found several proteins which can inhibit E.coli replication initiation, and we also built a “quorum density inducible— bistable switch” to gain a new balance.</p>         
         <p align="left" class="style1">This system is not only useful for acquiring suitable proportion of a mixed culture quorum, but also has a great <a href="https://2012.igem.org/Team:SYSU-China/project/theoreticalvalue" class="style3">theoretical significance</a> and <a href="https://2012.igem.org/Team:SYSU-China/project/manufactureapplications">application value</a> as we proved below.</p></td>
         <p align="left" class="style1">This system is not only useful for acquiring suitable proportion of a mixed culture quorum, but also has a great <a href="https://2012.igem.org/Team:SYSU-China/project/theoreticalvalue" class="style3">theoretical significance</a> and <a href="https://2012.igem.org/Team:SYSU-China/project/manufactureapplications">application value</a> as we proved below.</p></td>

Latest revision as of 03:11, 27 September 2012

 

Background

 

M1:Cycle Control

 

M2:Quorum Transform

 

M3: Super Geneguard

 

Theoretical Significance

 

Industrial Applications

  Notebook  

 

 

We have turned engineering a gene into engineering a pathway, and we have made lots of approaches to maintain stability of the whole system. In terms of cells, it is difficult to satisfy what we need if only by engineering a cell, because we require a mixture of different kinds of cells to do more complex tasks. However, it is still very difficult for us to build such a mixed system, and the priority is how to balance a suitable rate of different cell quorum. An appropriate proportion is important to the correct results and max efficiency.

To accomplish this function, we found several proteins which can inhibit E.coli replication initiation, and we also built a “quorum density inducible— bistable switch” to gain a new balance.

This system is not only useful for acquiring suitable proportion of a mixed culture quorum, but also has a great theoretical significance and application value as we proved below.

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