Team:USTC CHINA/new2.htm

From 2013.igem.org

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             <div class="camera_caption fadeFromBottom"> <em>What's your opinion?</em>            </div>
             <div class="camera_caption fadeFromBottom"> <em>What's your opinion?</em>            </div>
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             <div class="camera_caption fadeFromBottom"> <em>Come to see this ! ~</em>            </div>
             <div class="camera_caption fadeFromBottom"> <em>Come to see this ! ~</em>            </div>
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         <h1>Description</h1>
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         <h1>Overview</h1>
      
      
         <p>Synthetic biology has been working on transforming target organisms, which usually means integrating new genes with an available network to achieve a high expression level of certain compounds. Nevertheless, the new-integrated genes are always not the original parts of the target metabolic network, so it is hard to predict how the new genes will affect the network. </p>
         <p>Synthetic biology has been working on transforming target organisms, which usually means integrating new genes with an available network to achieve a high expression level of certain compounds. Nevertheless, the new-integrated genes are always not the original parts of the target metabolic network, so it is hard to predict how the new genes will affect the network. </p>
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         <p>Our application aims to simulate genetic networks. The application analyzes the stability of genetic networks after introduction of exogenous genes. Meanwhile, given the original network and specific purposes, the application traces the regulative process back and gives possible regulative patterns.</p>
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             <h3>description 2</h3>
             <h3>description 2</h3>
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             <p>Our application aims to simulate genetic networks. The application analyzes the stability of genetic networks after introduction of exogenous genes. Meanwhile, given the original network and specific purposes, the application traces the regulative process back and gives possible regulative patterns.</p>
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             <p>Synthetic biology has been working on transforming target organisms, which usually means integrating new genes with an available network to achieve a high expression level of certain compounds. Nevertheless, the new-integrated genes are always not the original parts of the target metabolic network, so it is hard to predict how the new genes will affect the network.</p>
             <a href="">read more</a>
             <a href="">read more</a>
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             <div class="description_l"><img src="https://static.igem.org/mediawiki/2012/2/28/USTC-Software-images-4.png"/></div>
             <div class="description_l"><img src="https://static.igem.org/mediawiki/2012/2/28/USTC-Software-images-4.png"/></div>
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             <h3>Map</h3>
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             <h3>Benefit</h3>
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             <p>Map is a simple and easy software to visualize your experimental data. Click to import the data and you will get exactly what you want.</p>
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             <p>Synthetic biology has been working on transforming target organisms, which usually means integrating new genes with an available network to achieve a high expression level of certain compounds. Nevertheless, the new-integrated genes are always not the original parts of the target metabolic network, so it is hard to predict how the new genes will affect the network.</p>
             <a href="">read more</a>
             <a href="">read more</a>
             </div>  
             </div>  
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             <div id="ash_container"><h3>Console</h3>
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             <div id="ash_container"><h3>Introduce</h3>
                     <div align="center"><a href=""><img src="https://static.igem.org/mediawiki/2012/0/0d/USTC-Software-images-2.png" width="250" height="100" title="Console" border="0"></a></div>
                     <div align="center"><a href=""><img src="https://static.igem.org/mediawiki/2012/0/0d/USTC-Software-images-2.png" width="250" height="100" title="Console" border="0"></a></div>
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                   <p>Console is where you manage heavy computing and complex tasks. With different buttons controlling each parameter, you can optimize the behaviors of the software. We applied evolution algorithm and machine learning techniques in the network inferences to provide the best simulation of your data.</p>
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                   <p>Synthetic biology has been working on transforming target organisms, which usually means integrating new genes with an available network to achieve a high expression level of certain compounds. Nevertheless, the new-integrated genes are always not the original parts of the target metabolic network, so it is hard to predict how the new genes will affect the network.</p>
                               <div><span><a href=" ">Read More</a></span></div>
                               <div><span><a href=" ">Read More</a></span></div>
                  </div>
                  </div>

Revision as of 15:09, 28 August 2013

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Description 1

Synthetic biology has been working on transforming target organisms, which usually means integrating new genes with an available network to achieve a high expression level of certain compounds. Nevertheless, the new-integrated genes are always not the original parts of the target metabolic network, so it is hard to predict how the new genes will affect the network.

read more

description 2

Synthetic biology has been working on transforming target organisms, which usually means integrating new genes with an available network to achieve a high expression level of certain compounds. Nevertheless, the new-integrated genes are always not the original parts of the target metabolic network, so it is hard to predict how the new genes will affect the network.

read more

Benefit

Synthetic biology has been working on transforming target organisms, which usually means integrating new genes with an available network to achieve a high expression level of certain compounds. Nevertheless, the new-integrated genes are always not the original parts of the target metabolic network, so it is hard to predict how the new genes will affect the network.

read more

Introduce

Synthetic biology has been working on transforming target organisms, which usually means integrating new genes with an available network to achieve a high expression level of certain compounds. Nevertheless, the new-integrated genes are always not the original parts of the target metabolic network, so it is hard to predict how the new genes will affect the network.

Sand Box

SandBox displays the Genetic Regulatory Networks in a clean and interactive way, with clear connection and 3-D interaction, you will get better understanding of how genes and proteins regulating each other.

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