Difference between revisions of "Team:HZAU-China/HardWare/Overview"

 
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     <div class="left_topbox"><img src="https://static.igem.org/mediawiki/2015/6/6e/Team_HZAU-China_ecoli.png"/></div>
 
     <div class="left_topbox"><img src="https://static.igem.org/mediawiki/2015/6/6e/Team_HZAU-China_ecoli.png"/></div>
     <div class="middle_topbox"><h1>Mixed-Reality Cell<span>Bidirectinal coupling between real and virtual bio-oscillators</span></h1></div>
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     <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>
 
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       <div class="maincontent">
 
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       <h1></br></br>Overview</h1></br>
 
       <h1></br></br>Overview</h1></br>
       <p>A genetic oscillator was built in E.coil as the real part while an e-oscillator was simulated in a computer as the virtual part. To realize our idea, two issues should be taken into account. The two parts should have the ability to interact with each other and cells have to keep alive for the long and real-time observation. Thus, an interface device is needed to settle them. This page will demonstrate the information about the interface and it can be divided into several parts. Firstly, it’s an introduction and shows the necessity of interface device. Then, the whole design that many factors are considered to make the device more accurate and current progress of device is showed. Finally, we will present other devices using for coupling with the virtual part and lab test. Though we are not professional engineering students and not good at hardware, we keep learning relevant knowledge of hardware during the whole summer.</p>
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       <p>A genetic oscillator was built in E.coil as the real part while an e-oscillator was simulated in a computer as the virtual part. To realize our idea, two issues should be taken into account, the approach these two parts interacting with each other and the method cells keeping alive for the long and real-time observation. Thus, an interface device is needed in order to settle them. For the first one, light was chose as the medium to combine the virtual part and the real part together. And the other, cells cultivated on a microfluidic chip proved to be helpful.</p>
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      </br><p>In our project, the communication between these two parts is mutual which means that we need a two-way interface device composed of Light Receiving part and Light Controlling part. For the former one, cells were cultivated on a microfluidic chip and observed by fluorescence microscope. And for the last one, light (LED beads) can be controlled by the computer through a Single Chip Micyoco. Besides, we have made a different device to achieve the phase 2 collaborated with Model and another to complete the test of light control system with Wet Lab. Most important of all are that these two devices all turned to work successfully. </p>
 
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             No.1, Shizishan Street, Hongshan District
 
             No.1, Shizishan Street, Hongshan District
 
             </br>
 
             </br>
             430070,P.R.China
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             Wuhan, 430070, Hubei Province, P. R. China
 
             </li>
 
             </li>
 
             <li class="email_inf">Email:hzauigem@gmail.com</li>
 
             <li class="email_inf">Email:hzauigem@gmail.com</li>

Latest revision as of 17:18, 15 November 2015

Mixed-Reality CellBidirectional coupling between real and virtual bio-oscillators



Overview


A genetic oscillator was built in E.coil as the real part while an e-oscillator was simulated in a computer as the virtual part. To realize our idea, two issues should be taken into account, the approach these two parts interacting with each other and the method cells keeping alive for the long and real-time observation. Thus, an interface device is needed in order to settle them. For the first one, light was chose as the medium to combine the virtual part and the real part together. And the other, cells cultivated on a microfluidic chip proved to be helpful.


In our project, the communication between these two parts is mutual which means that we need a two-way interface device composed of Light Receiving part and Light Controlling part. For the former one, cells were cultivated on a microfluidic chip and observed by fluorescence microscope. And for the last one, light (LED beads) can be controlled by the computer through a Single Chip Micyoco. Besides, we have made a different device to achieve the phase 2 collaborated with Model and another to complete the test of light control system with Wet Lab. Most important of all are that these two devices all turned to work successfully.




   Contacts

  • No.1, Shizishan Street, Hongshan District
    Wuhan, 430070, Hubei Province, P. R. China
  • Wechat : hzauigem
  • QQ Group : 313297095
  • YouTube : hzauigem