Difference between revisions of "Team:NJAU China"

 
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<li><img src="https://static.igem.org/mediawiki/2015/9/9d/NJAU_2015_navigemlogo_home0.png"/></li>
<li><a href="#">HOME</a></li>
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<li><a href="https://2015.igem.org/Team:NJAU_China">HOME</a></li>
<li><a href="#s1">TEAM</a>
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    <div class="sub1"><img src="https://static.igem.org/mediawiki/2015/2/25/NJAU_2015_subblock1_home3.png" alt="pics"></div>
 
    <div class="sub1"><img src="https://static.igem.org/mediawiki/2015/2/25/NJAU_2015_subblock1_home3.png" alt="pics"></div>
<div class="main1"><h3>introduction</h3><span class="f1"> The conversion of transient information into long-lasting responses is a common aspect of many biological processes and is crucial for the design of sophisticated synthetic circuits. Whereas, the most cellular memories are limited to protein levels currently, which are transient, instantaneous and unapparent. To overcome these shortcuts, this year we design a system to achieve the storage of information by a transient stimulation but use a long-lasting response. Because of the similarity with the process of memory, we call it “the horcrux”. </span></div>
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<div class="main1"><h3>Introduction</h3><span class="f1"> <p>The conversion of transient information into long-lasting responses is a common aspect of many biological processes and is crucial for the design of sophisticated synthetic circuits. Whereas, the most cellular memories are limited to protein levels currently, which are transient, instantaneous and unapparent. To overcome these shortcuts, this year we design a system to achieve the storage of information by a transient stimulation but use a long-lasting response. Because of the similarity with the process of memory, we call it “the horcrux”.</p> </span></div>
 
<div class="sub2"><img src="https://static.igem.org/mediawiki/2015/5/54/NJAU_China2015_subblock2.png" alt="pics"></div>
 
<div class="sub2"><img src="https://static.igem.org/mediawiki/2015/5/54/NJAU_China2015_subblock2.png" alt="pics"></div>
 
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    <div class="main2"><h3>our goals</h3><span class="f2">This year we want to design a system which can respond to external stimuli and then maintain a lasting signal. To make it come true, we need to design a sophisticated gene circuits. We try to use two different strains of E.coli to be our “Recorder” and “Saver”. We aim to finish the plasmid construction and functional verification, then use GFP as a report gene to get some data so we can build a mathematical model for our system and predict the effect.
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    <div class="main2"><h3>Our Goals</h3><p><span class="f2">We try to use two different strains of E.coli to be our “Recorder” and “Saver”. We aim to finish the plasmid construction and functional verification, then use GFP as a report gene to get some data so we can build a mathematical model for our system and predict the effect.<br />In order to enable our biological system to be able to handle data processing with computer information, our students want to design a device for our bacterial system to validate system functionality and measure and collect data. Furthermore, we want it to be widely applicable to the biological research.</p>
<br />In order to enable our biological system to be able to handle data processing with computer information, our students want to design a device for our bacterial system to validate system functionality and measure and collect data. Furthermore, we want it to be widely applicable to the biological research.
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<div class="main3"></div>
 
<div class="main3"></div>
<div class="main4"><h3>accomplishment</h3><span class="f1">
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<div class="main4"><h3>Accomplishment</h3><span class="f1">
<b>-biological experiment</b><br />
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<p><b>-Biological Experiment</b><br />
 
We tried our best to construct the plasmid, made the functional verification, got some data and established the mathematical model.<br />
 
We tried our best to construct the plasmid, made the functional verification, got some data and established the mathematical model.<br />
<b>-device assembly</b><br />
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<b>&nbsp;&nbsp;-Device Assembly</b><br />
 
We have designed a set of simple starting and measuring devices for our biological system, and it will be used in our prototype design.<br />
 
We have designed a set of simple starting and measuring devices for our biological system, and it will be used in our prototype design.<br />
<b>-human practice</b><br />
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<b>&nbsp;&nbsp;-Human Practice</b><br />
We conducted a wide range of “virtual interviews” for our subject areas. We have also exchanged our ideas and carried out some cooperation with some teams.<br />
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We conducted a wide range of “virtual interviews” for our subject areas. We have also exchanged our ideas and carried out some cooperation with some teams.</p><br />
 
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    <div class="sub3"><img src="https://static.igem.org/mediawiki/2015/7/75/NJAU_2015_subblock3_home5.png" alt="pics"></div>
 
    <div class="sub3"><img src="https://static.igem.org/mediawiki/2015/7/75/NJAU_2015_subblock3_home5.png" alt="pics"></div>
<div class="main5"><span class="f2">introduce introduce introduce introduce introduce introduce introduce introduce introduce introduce introduce introduce introduce introduce introduce introduce introduce introduce introduce introduce introduce introduce introduce introduce introduce introduce introduce introduce introduce introduce introduce introduce introduce</span></div>
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<div class="main5"><h3>Future Plan</h3><span class="f2"><p>
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Try to optimize the system, reduce the complexity of the system.Finish the hardware device,test the reliability of the device and use it to collect data. Try to promote our device in a wider range of application.Improving the system data, especially the core data of traI, establish the mathematical model of the main system.Try to built a prototype of the system in the laboratory.
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</p></span></div>
 
<div class="sub4"><img src="https://static.igem.org/mediawiki/2015/b/b5/NJAU_2015_subblock4_home6.png" alt="pics"></div>
 
<div class="sub4"><img src="https://static.igem.org/mediawiki/2015/b/b5/NJAU_2015_subblock4_home6.png" alt="pics"></div>
 
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</ul>NJAU
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Latest revision as of 10:09, 18 September 2015

Home

  • pics

    Introduction

    The conversion of transient information into long-lasting responses is a common aspect of many biological processes and is crucial for the design of sophisticated synthetic circuits. Whereas, the most cellular memories are limited to protein levels currently, which are transient, instantaneous and unapparent. To overcome these shortcuts, this year we design a system to achieve the storage of information by a transient stimulation but use a long-lasting response. Because of the similarity with the process of memory, we call it “the horcrux”.

    pics

  • Our Goals

    We try to use two different strains of E.coli to be our “Recorder” and “Saver”. We aim to finish the plasmid construction and functional verification, then use GFP as a report gene to get some data so we can build a mathematical model for our system and predict the effect.
    In order to enable our biological system to be able to handle data processing with computer information, our students want to design a device for our bacterial system to validate system functionality and measure and collect data. Furthermore, we want it to be widely applicable to the biological research.

    Accomplishment

    -Biological Experiment
    We tried our best to construct the plasmid, made the functional verification, got some data and established the mathematical model.
      -Device Assembly
    We have designed a set of simple starting and measuring devices for our biological system, and it will be used in our prototype design.
      -Human Practice
    We conducted a wide range of “virtual interviews” for our subject areas. We have also exchanged our ideas and carried out some cooperation with some teams.


  • pics

    Future Plan

    Try to optimize the system, reduce the complexity of the system.Finish the hardware device,test the reliability of the device and use it to collect data. Try to promote our device in a wider range of application.Improving the system data, especially the core data of traI, establish the mathematical model of the main system.Try to built a prototype of the system in the laboratory.

    pics