Tianjin

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<tr><td colspan="2"  style="background-color:#cccccc;padding:12px;"><font size="7" ><b>Project</b></font></td></tr><br><br>
<tr><td colspan="2"  style="background-color:#cccccc;padding:12px;"><font size="7" ><b>Project</b></font></td></tr><br><br>
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<tr><td colspan="2" style="padding:12px;">[[Tianjin/DIODE|<font size="5" color="#ff0000">THE DIODE</font>]]<font size="2" color="#0000ff"><More Details></font></td></tr>
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<tr><td colspan="2" style="padding:12px;">[[Tianjin/DIODE|<font size="5" color="#ff0000">Bio-Diode</font>]]<font size="2" color="#0000ff"><More Details></font></td></tr>
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In this project, we try to construct a biological device to imitate the function of the diode, one of the most significant parts in the electric integrate circuit. The flow of molecular signal AHL is considered as the current of electric circuit, the generator, amplifiers, blocks and detector cells are constructed with the parts provided by MIT and then are equipped in series in order to achieve the cellular and molecular biological diode. Our device is a combination of technologies from the field of [[Tianjin/DIODE/Model|computer science]], [[Tianjin/DIODE/Experiment|molecular biology]] and [[Tianjin/DIODE/Experiment2|chemical engineering]] which is a breakthrough for the application of mature techniques of chemical engineering to the field of synthetic biology.</div></td></tr>
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In this project, we try to construct a biological device to imitate the function of the diode, one of the most significant parts in the electric integrate circuit. The flow of molecular signal AHL is considered as the current of electric circuit. The generator, amplifiers, blocks and detector cells are constructed with the parts provided by MIT and then are equipped in series in order to establish the cellular and molecular biological diode. Our device, which is a combination of technologies from the field of [[Tianjin/DIODE/Model|computer science]], [[Tianjin/DIODE/Experiment|molecular biology]] and [[Tianjin/DIODE/Experiment2|chemical engineering]], is a breakthrough for the application of mature techniques of chemical engineering to the field of synthetic biology.</div></td></tr>
<tr><td align="center">[[Image:Diodedh.gif|left]]</td><td align="center">[[Image:main1.jpg|right|350px]]</td></tr>
<tr><td align="center">[[Image:Diodedh.gif|left]]</td><td align="center">[[Image:main1.jpg|right|350px]]</td></tr>
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[[Tianjin/FLIP-FLOP|<font size="5" color="#ff0000">Genetical RS Flip-Flop</font>]]<font size="2" color="#0000ff"><More Details></font></td>
[[Tianjin/FLIP-FLOP|<font size="5" color="#ff0000">Genetical RS Flip-Flop</font>]]<font size="2" color="#0000ff"><More Details></font></td>
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Based on the “Latch and Enable Control”conception of "Flip-flop" and synthetic biology, we designed the Genetical RS FLIP-FLOP whose output signal(Green Fluorescence) is regulated by additional input signal( the addition of IPTG). The GFP is only ignited when the input signal switch to another condition. Thus, the immediate response to emergency (input change) enables our design to detect signal variation in a short time, which is beneficial for the control of biology systems.</div></td></tr>
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Combining the “Latch and Enable Control" conception of "Flip-flop" and synthetic biology, we designed the Genetical RS FLIP-FLOP whose output signal (Green Fluorescence) is regulated by additional input signal (the addition of IPTG). The GFP is only ignited when the input signal switches from 0 to 1 or from 1 to 0. Thus, the immediate response to emergency (input changes) enables our design to detect signal variation in a short time, which is beneficial to the control of biological systems.</div></td></tr>
<tr><td>[[Image:Flip-Flop.gif|left]]</td><td>        [[Image:main2.jpg|right|400px]]</td></tr>
<tr><td>[[Image:Flip-Flop.gif|left]]</td><td>        [[Image:main2.jpg|right|400px]]</td></tr>
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<td>[[Image:team picture.jpg|left|400px]]</td></tr>
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<td><font size="4" color="#3366FF">[[Tianjin/Yingjin Yuan|<font size="4" color="#3366FF">          Professor:Yingjin Yuan</font>]]
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<td><font size="4" color="#3366FF">Professor Yingjin Yuan</font></td>
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</td><td>[[Tianjin/Kai Song|<font size="4" color="#3366FF">Kai Song</font>]]</td>
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<td><font size="4" color="#3366FF">Dr. Kai Song</font></td>
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<td>[[Tianjin/Jingsheng Cheng|<font size="4" color="#3366FF">Jingsheng Cheng</font>]]</td>
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<td><font size="4" color="#3366FF">Dr. Jingsheng Cheng</font></td>
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Latest revision as of 06:47, 27 October 2007

Top2.jpgIgem.gif
Welcome to Tianjin University.jpg
With the passion for winning, innovative ideas and team work spirit, students from Tianjin University Team are actively participating in this competition. Sound financial and technological strength is what we rely on to do a good job in this competition.


Project
Bio-Diode<More Details>
In this project, we try to construct a biological device to imitate the function of the diode, one of the most significant parts in the electric integrate circuit. The flow of molecular signal AHL is considered as the current of electric circuit. The generator, amplifiers, blocks and detector cells are constructed with the parts provided by MIT and then are equipped in series in order to establish the cellular and molecular biological diode. Our device, which is a combination of technologies from the field of computer science, molecular biology and chemical engineering, is a breakthrough for the application of mature techniques of chemical engineering to the field of synthetic biology.
Diodedh.gif
Main1.jpg
Genetical RS Flip-Flop<More Details>
Combining the “Latch and Enable Control" conception of "Flip-flop" and synthetic biology, we designed the Genetical RS FLIP-FLOP whose output signal (Green Fluorescence) is regulated by additional input signal (the addition of IPTG). The GFP is only ignited when the input signal switches from 0 to 1 or from 1 to 0. Thus, the immediate response to emergency (input changes) enables our design to detect signal variation in a short time, which is beneficial to the control of biological systems.
Flip-Flop.gif
Main2.jpg
Members


Undergraduates
Chuang Liu; Manli Zhu; Nan Hou; Ruiyang Zou;
Tao Cong; Xiaoqian Li; Yingxiu Cao
Graduates
Bo Hu; Lei Shi; Xing Wang
Team picture.jpg



TJUPHOTO003.jpg


Advisors
Deanyuan.jpg Kaisong.jpg Cheng.jpg
Professor Yingjin Yuan Dr. Kai Song Dr. Jingsheng Cheng
Photos
Synthetic Biology China iGEM China Workshop iGEM Asia&Pacific Workshop TianJin University go to TWT