Team:SJTU-BioX-Shanghai

From 2013.igem.org

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<p><strong><img src="/wiki/images/7/73/12SJTU_r.png"><font face="Cambria, serif " size="4"><font face="Wingdings " size="4"></font><font face="Cambria, serif " size="4"> The breakthrough we made:</font></strong> an easy-to-use BLACK BOX, a versatile platform for in vivo optimization of metabolic pathways</p>
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<p><strong><img src="/wiki/images/7/73/12SJTU_r.png"><font face="Cambria, serif " size="4"><font face="Wingdings " size="4"></font><font face="Cambria, serif " size="4"> The BREAKTHROUGH we made:</font></strong> an easy-to-use BLACK BOX, a versatile platform for in vivo optimization of metabolic pathways</p>
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<p><strong><font face="Wingdings " size="4"><img src="/wiki/images/7/73/12SJTU_r.png"></font><font face="Cambria, serif " size="4"> The system we built:</font></strong> Assure the effectiveness of the novel system CRISPRi , integration between CRISPRi system and several sensors.</p>
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<p><strong><font face="Wingdings " size="4"><img src="/wiki/images/7/73/12SJTU_r.png"></font><font face="Cambria, serif " size="4"> The System we built:</font></strong> An wonderful Integration of Computer, Microcontroller Unit, Light Sources and their corresponding Sensors, and CRISPRi, a versatile gene interrogation tool. From digital to optical and finally to biological! </p>
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<p><strong><font face="Wingdings " size="4"><img src="/wiki/images/7/73/12SJTU_r.png"></font><font face="Cambria, serif " size="4"> The device we created :</font></strong> An electronic device constructed to measure the parameters of LED.</p>
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<p><strong><font face="Wingdings " size="4"><img src="/wiki/images/7/73/12SJTU_r.png"></font><font face="Cambria, serif " size="4"> The Teams we Helped:</font></strong> Shared our parts with Zhejiang University and the Chinese University of Hong Kong. Helped with the modeling of NTU-Taida and NTU Taiwan in the 2013 conference. Helped students from Shandong University to construct their own team. </p>
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<p><strong><font face="Wingdings " size="4"><img src="/wiki/images/7/73/12SJTU_r.png"></font><font face="Cambria, serif " size="4"> Helping other teams:</font></strong> Sending parts to Zhejiang University and the Chinese University of Hong Kong, helping improving the modeling of the projects of NTU-Taida and NTU Taiwan in the 2013 conference, help students from Shandong University to construct their own team. </p>
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<p><strong><font face="Wingdings " size="4"><img src="/wiki/images/7/73/12SJTU_r.png"></font><font face="Cambria, serif " size="4"> The Parts we submitted:</font></strong> CRISPRi and Light Sensors. Besides, we shared in our DIY section how to "manufacture" our luminous device, and we open-sourced our User Interface software. </p>
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<p><strong><font face="Wingdings " size="4"><img src="/wiki/images/7/73/12SJTU_r.png"></font><font face="Cambria, serif " size="4"> The experiment we did:</font></strong> Having a great summer filled with experiments, and planning to have fun at the Asian Jamboree!.</p>
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<p><strong><font face="Wingdings " size="4"><img src="/wiki/images/7/73/12SJTU_r.png"></font><font face="Cambria, serif " size="4"> Parts we submitted:</font></strong> We make components of popular CRISPRi into parts and improve several parts by inserting them into constitutive expression operon.</p>
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<p><strong><font face="Wingdings " size="4"><img src="/wiki/images/7/73/12SJTU_r.png"></font><font face="Cambria, serif " size="4"> Human practise:</font></strong>  Involvement in an official academic elite cultivation plan supported by national education ministry. Cooperation with corporation to try applying our project into industry. A survey associated with subject cross and a detailed relevant analysis of this survey.</p>
<p><strong><font face="Wingdings " size="4"><img src="/wiki/images/7/73/12SJTU_r.png"></font><font face="Cambria, serif " size="4"> Human practise:</font></strong>  Involvement in an official academic elite cultivation plan supported by national education ministry. Cooperation with corporation to try applying our project into industry. A survey associated with subject cross and a detailed relevant analysis of this survey.</p>
                                 <p><strong><font face="Wingdings " size="4"><img src="/wiki/images/7/73/12SJTU_r.png"></font><font face="Cambria, serif " size="4"> Help Correct a Mistake in a Published Paper:</font></strong> We help an author realize there is a unit mistake in the published paper on JMB when we design our experiment measurement.</p>
                                 <p><strong><font face="Wingdings " size="4"><img src="/wiki/images/7/73/12SJTU_r.png"></font><font face="Cambria, serif " size="4"> Help Correct a Mistake in a Published Paper:</font></strong> We help an author realize there is a unit mistake in the published paper on JMB when we design our experiment measurement.</p>

Revision as of 14:00, 18 October 2013


How to regulate an entire metabolic pathway in vivo, delicately, accurately and conveniently, simultaneously controlling the expression of several genes? And how to optimize metabolic fluxes so as to maximize desired products? For decades, these questions remain haunting to “bioengineers”(especially synthetic biologists) who would like to have certain metabolites produced in live cells. The difficulty is again raised up when target genes endogenously reside on the genome, or have been implemented into the genome.


So this year, our team, SJTU-BioX-Shanghai, is dedicated to solve the problem. By integrating CRISPRi, the newly developed expression interference tool, with three light sensors (namely red light sensor, green light sensor and blue light sensor), we provide an easy-to-use BLACK BOX, a versatile platform on which researchers are able to quantitatively adjust the expression of any three enzymes in whatever pathway – to change the target, simply change the small guide RNA (sgRNA)!


In addition, with the luminous device and accompanying software, one could simply enter metabolomics data (catalytic rates of related enzymes) into our User Interface. The software will automatically conduct flux balance analysis (FBA), giving out suggestions for optimal expression value of different enzymes. Then, the expression value would be converted into intensity of lights that are finally to be exerted on cell cultures. It is -- just convenient! :)

The Luminous System produces red, green and blue lights of adjustable intensity into cell cultures.



Light Sensors transform optical signals into biological/chemical signals.


CRISPRi receives biological/chemical signals from Light Sensors and responds by exerting proper interrogation on multiple gene targets

Achievements

The BREAKTHROUGH we made: an easy-to-use BLACK BOX, a versatile platform for in vivo optimization of metabolic pathways

The System we built: An wonderful Integration of Computer, Microcontroller Unit, Light Sources and their corresponding Sensors, and CRISPRi, a versatile gene interrogation tool. From digital to optical and finally to biological!

The Teams we Helped: Shared our parts with Zhejiang University and the Chinese University of Hong Kong. Helped with the modeling of NTU-Taida and NTU Taiwan in the 2013 conference. Helped students from Shandong University to construct their own team.

The Parts we submitted: CRISPRi and Light Sensors. Besides, we shared in our DIY section how to "manufacture" our luminous device, and we open-sourced our User Interface software.

Human practise: Involvement in an official academic elite cultivation plan supported by national education ministry. Cooperation with corporation to try applying our project into industry. A survey associated with subject cross and a detailed relevant analysis of this survey.

Help Correct a Mistake in a Published Paper: We help an author realize there is a unit mistake in the published paper on JMB when we design our experiment measurement.

Sponsors


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