Difference between revisions of "Team:HZAU-China/Attributions"

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            <h2>1.overview</h2>
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            <h2 class="head" >Attributions</h2>
              <br/><br/>
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            <p>Integrative Design of circuit: Pan Chu, Kangjian Hua</p>
              <h3>&nbsp;1.1 what's AR</h3>
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              <br/>
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              <p>
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                  With the unprecedented rapid development in computer technology and the significant promotion in
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                computing capacity, it is undeniable truth that computer and computer products such as smartphone
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                  has played a great role in our lives. People spend their spare time using twitter and facebook, analyze
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                data through computer applications, they can’t live without high-tech computer products. Contrary to the
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                reality world that we actually exist in, computer creates a virtual world. Though computer itself is tangible,
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                what emerges on the screen is an intangible product of a series of logical combination from electronic circuit.
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                Our iGEM team in 2015 proposed the concept of “Mixed Reality Cell”, constructed by the interaction between the
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                genetic oscillator and the e-oscillator, eventually leads to coupling and synchronization. However, existing in
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                a world based on reality rather than mixed reality, computers are utilized as a tool to enhance one’s perception
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                on reality and meet substantial requirements. This is a reality-oriented mixed-reality, which can also be called
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                augmented reality (AR).
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            </p>
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              <br/><br/><br/><br/><br/>
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            <h3>
 
                &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp; &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;
 
                1.2 BioPafiar!</h3>
 
  
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            <h3 id="A1">Wet Lab</h3>
            <p>
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              The growth of bacteria complies with certain laws, among which the easiest would be the law of reproduction-diffusion,
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                under whose control the shape of colony would appears to be round. If a total regulation on bacterial growth is added,
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                for example the enhancement on its motility, the size of colony will be larger; if a local regulation is imposed on
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                bacteria growth, the round shape of the colony will disappear; if the regulation is time-dependent, the regulation will
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                make adjustment according to the certain circumstance of the bacterial colony at specific time. Therefore, the shape of
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              the bacterial lawn will match our intended design. In contrary to the isolated state in nature, the cells and computer
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              together forms a system, which is composed of both reality and virtual world, and reality occupied most part of the
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                augmented reality system. In the system, the pattern formation of the bacteria population will be established as required.
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                So we design this project to propose a concept that biochemistry reaction in different kinds of biological stimulation can
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                be mimicked by placing cells in AR system, such as synthesis of enzymes, signal transduction, and bio-pattern formation.
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              In addition, in the near future, this AR system can be applied in medical field or in our daily lives. For example, biological
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              material 3D printing, and in vitro induction of tissue or organ.
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              Welcome to our project: BioPafiar!
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            </p>
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            <h4>Optogenetics</h4>
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            <p>Clone and construction of light-switchable circuit: Boyao Zhang, Jun Li</p>
 +
            <p>Data detection on TCS: Boyao Zhang, Jun Li</p>
  
            <br/>
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            <h4>Motility</h4>
             <h2>2.Background</h2>
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             <p>Clone and construction of motility-relative circuit: Zewen Ding, Wen Wang, Wenqi Huang, Wentao Yu</p>
          </div>
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            <p>Figure collection of motility: Zewen Ding, Wenqi Huang, Wen Wang</p>
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            <p>Design of trial and measurement: Wenqi Huang, Zewen Ding, Wen Wang</p>
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            <p>Photograph gathering: Wenqi Huang, Zhujun Xia, Qiqi Xiong, Zewen Ding, Wen Wang</p>
 +
 
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            <h4>Riboswitch</h4>
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            <p>Clone and construction of riboswitch circuit: Pan Chu, Boyao Zhang, Luyao Zhang, Anqi Zhou, Wenqi Huang</p>
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            <p>Quantitative data collection: Pan Chu, Anqi Zhou, Luyao Zhang</p>
 +
 
 +
            <h4>Gene knockout</h4>
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            <p>Gene knockout: Boyao Zhang</p>
 +
 
 +
 
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            <h3>Dry lab</h3>
 +
 
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            <h4>models</h4>
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            <p>Modeling on motility dynamics: Kangjian Hua</p>
 +
            <p>Modeling on motility cellular model: Bochen Cheng</p>
 +
            <p>Modeling on genetic circuits: Bochen Cheng</p>
 +
 
 +
            <h4>Software</h4>
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            <p>Software design: Kangjian Hua, Bochen Cheng</p>
 +
            <p>Design on video: Kangjian Hua</p>
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            <p>Wiki creating: Jing Xiao, Weitong Zhang, Boyao Zhang, Xinran Zhao</p>
 +
 
 +
            <h4 id="A4">Hardware</h4>
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            <p>Design: Zhihao Li, Yang Bai</p>
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            <p>Manufacture and welding of PCB: Zhihao Li</p>
 +
            <p>Download of SCM: Zhihao Li</p>
 +
            <p>Construction of light-switchable device: Zhihao Li, Jun Li, Kangjian Hua</p>
 +
            <p>Programming: Yang Bai</p>
 +
 
 +
 
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            <h3 id="A5">Human Practice</h3>
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            <p>Collaboration and communication with other teams: Xinran Zhao, Haimeng Li</p>
 +
            <p>Handbook manufacture: all iGEM members</p>
 +
 
 +
 
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            <h3  id="A6">Art Designer</h3>
 +
            <p>Art Designer:Kening Chen, Tengteng Wang, Ruoqing Chen</p>
 +
 
 +
 
 +
            <h3>Acknowledgement:</h3>
 +
            <p>We would like to thank State Key Laboratory of Agricultural Microbiology, College of Life Science
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                and Technology, Huazhong Agricultural University, for providing material related to riboswitch.
 +
                Thanks to Professor Youming Zhang and Ph.D Ruijuan Li in his lab for offering great instruction
 +
                on gene knockout technology. Thanks for the help of College of Life Science and Technology and
 +
                College of Information in Huazhong Agricultural University. We really appreciate your support.
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            </p>
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Revision as of 13:43, 14 October 2016

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Attributions

Integrative Design of circuit: Pan Chu, Kangjian Hua

Wet Lab

Optogenetics

Clone and construction of light-switchable circuit: Boyao Zhang, Jun Li

Data detection on TCS: Boyao Zhang, Jun Li

Motility

Clone and construction of motility-relative circuit: Zewen Ding, Wen Wang, Wenqi Huang, Wentao Yu

Figure collection of motility: Zewen Ding, Wenqi Huang, Wen Wang

Design of trial and measurement: Wenqi Huang, Zewen Ding, Wen Wang

Photograph gathering: Wenqi Huang, Zhujun Xia, Qiqi Xiong, Zewen Ding, Wen Wang

Riboswitch

Clone and construction of riboswitch circuit: Pan Chu, Boyao Zhang, Luyao Zhang, Anqi Zhou, Wenqi Huang

Quantitative data collection: Pan Chu, Anqi Zhou, Luyao Zhang

Gene knockout

Gene knockout: Boyao Zhang

Dry lab

models

Modeling on motility dynamics: Kangjian Hua

Modeling on motility cellular model: Bochen Cheng

Modeling on genetic circuits: Bochen Cheng

Software

Software design: Kangjian Hua, Bochen Cheng

Design on video: Kangjian Hua

Wiki creating: Jing Xiao, Weitong Zhang, Boyao Zhang, Xinran Zhao

Hardware

Design: Zhihao Li, Yang Bai

Manufacture and welding of PCB: Zhihao Li

Download of SCM: Zhihao Li

Construction of light-switchable device: Zhihao Li, Jun Li, Kangjian Hua

Programming: Yang Bai

Human Practice

Collaboration and communication with other teams: Xinran Zhao, Haimeng Li

Handbook manufacture: all iGEM members

Art Designer

Art Designer:Kening Chen, Tengteng Wang, Ruoqing Chen

Acknowledgement:

We would like to thank State Key Laboratory of Agricultural Microbiology, College of Life Science and Technology, Huazhong Agricultural University, for providing material related to riboswitch. Thanks to Professor Youming Zhang and Ph.D Ruijuan Li in his lab for offering great instruction on gene knockout technology. Thanks for the help of College of Life Science and Technology and College of Information in Huazhong Agricultural University. We really appreciate your support.