Team:SJTU-BioX-Shanghai
From 2011.igem.org
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- | <p><img src="/wiki/images/7/7f/11SJTU_r.png" alt="right" />Developed tRNA and aminoacyl tRNA synthetase (aaRS) from the natural biological system into the Modulator. The function of this device has been fully characterized. Brand-new features of the device are also discovered. </p> | + | <p><img src="/wiki/images/7/7f/11SJTU_r.png" alt="right" /> |
- | <p><img src="/wiki/images/7/7f/11SJTU_r.png" alt="right" />Constructed 2 Modulators (including 8 biobricks) and 13 Reporter biobricks to test our controlling system. </p> | + | Developed tRNA and aminoacyl tRNA synthetase (aaRS) from the natural biological system into the <a href="#">Modulator, a controlling device for protein biosynthesis</a>. The function of this device has been fully characterized. Brand-new features of the device are also discovered. |
- | <p><img src="/wiki/images/7/7f/11SJTU_r.png" alt="right" />Modified pre-existing reporter genes luciferase and RFP and created a series of new reporter genes. </p> | + | </p> |
- | <p><img src="/wiki/images/7/7f/11SJTU_r.png" alt="right" />Built our system in silic and demonstrated the reliability of the model through our experiment results. </p> | + | |
- | <p><img src="/wiki/images/7/7f/11SJTU_r.png" alt="right" />Analyzed the structure of 18 aaRS with structural biological methods. Designed structures of 14 modified aaRS deprived of their anticodon recognition ability. </p> | + | <p><img src="/wiki/images/7/7f/11SJTU_r.png" alt="right" /> |
- | <p><img src="/wiki/images/7/7f/11SJTU_r.png" alt="right" />Designed two different models for how our device can be applied to controlling metabolic networks, which expands the regulating tools for synthetic biology. </p> | + | Constructed 2 <a href="#">Modulators</a> (including 8 biobricks) and 13 <a href="#">Reporter</a> biobricks to test our controlling system. Create parts, including our favorite parts have been sent to Registry.</p> |
- | <p><img src="/wiki/images/7/7f/11SJTU_r.png" alt="right" />Developed two brand-new ways that facilitate the study of protein structure. One for incorporating point mutation into protein. The other for producing truncated proteins to help study the important protein domains. </p> | + | |
- | <p><img src="/wiki/images/7/7f/11SJTU_r.png" alt="right" />Design our Human Practice Project | + | <p><img src="/wiki/images/7/7f/11SJTU_r.png" alt="right" /> |
- | <p><img src="/wiki/images/7/7f/11SJTU_r.png" alt="right" />Attended the 2011 China Meet Up and presented our project idea to other iGEMer and advisors. </p> | + | Modified pre-existing reporter genes <a href="#">luciferase</a> and <a href="#">RFP</a> and created a series of new reporter genes. These reporters have been excellent devices in characterizing our system. </p> |
+ | |||
+ | <p><img src="/wiki/images/7/7f/11SJTU_r.png" alt="right" /> | ||
+ | Built our system <a href="#" >in silic</a> and demonstrated <a href="#">the reliability of the model</a>through our experiment results. The data in silic and data experimental matches well.</p> | ||
+ | |||
+ | <p><img src="/wiki/images/7/7f/11SJTU_r.png" alt="right" /> | ||
+ | Analyzed the structure of 18 aaRS with <a href="#">structural biological methods</a>. Designed structures of 14 modified aaRS deprived of their anticodon recognition ability. This work can be used to expand our device aaRS Modulator. </p> | ||
+ | |||
+ | <p><img src="/wiki/images/7/7f/11SJTU_r.png" alt="right" /> | ||
+ | Designed two different <a href="#">models</a> for how our device can be applied to <a href="#">controlling metabolic networks</a>, which expands the regulating tools for synthetic biology. </p> | ||
+ | |||
+ | <p><img src="/wiki/images/7/7f/11SJTU_r.png" alt="right" /> | ||
+ | Developed two brand-new ways that <a href="#">facilitate the study of protein structure</a>. One for incorporating point mutation into protein. The other for producing truncated proteins to help study the important protein domains. </p> | ||
+ | <p><img src="/wiki/images/7/7f/11SJTU_r.png" alt="right" /> | ||
+ | Design our Human Practice Project: <a href="#">T-PostCards</a> to promote our views on synthetic biology through communications and connections. | ||
+ | </p> | ||
+ | <p><img src="/wiki/images/7/7f/11SJTU_r.png" alt="right" /> | ||
+ | Attended the <a href="#">2011 China Meet Up</a> and presented our project idea to other iGEMer and advisors. </p> | ||
+ | <p><img src="/wiki/images/7/7f/11SJTU_r.png" alt="right" /></p> | ||
+ | |||
Revision as of 02:36, 6 October 2011
SJTU-BioX-Shanghai iGEM team is designing a set of Codon-Switches that regulate target protein biosynthesis (translation).
In our Rare-Codon Switch, the translation of the protein can be finely turned up/down with the control of the number of rare codons (Reporter) and the different strength of tRNA induction (Modulator).
Besides, our device can be made into switches that can be turned on/off without background noise in two ways. One is to use stop codon as the controlling element, the Stop-Codon Switch. The other is to use any codon but the original start codon to initiate translation, the Initial-Codon Switch.
Our design has expanded the regulating tools for synthetic biology, introduced a brand-new way to incorporate point mutation into protein and study the important domains of a protein. See more about project applications, click here.
Developed tRNA and aminoacyl tRNA synthetase (aaRS) from the natural biological system into the Modulator, a controlling device for protein biosynthesis. The function of this device has been fully characterized. Brand-new features of the device are also discovered.
Constructed 2 Modulators (including 8 biobricks) and 13 Reporter biobricks to test our controlling system. Create parts, including our favorite parts have been sent to Registry.
Modified pre-existing reporter genes luciferase and RFP and created a series of new reporter genes. These reporters have been excellent devices in characterizing our system.
Built our system in silic and demonstrated the reliability of the modelthrough our experiment results. The data in silic and data experimental matches well.
Analyzed the structure of 18 aaRS with structural biological methods. Designed structures of 14 modified aaRS deprived of their anticodon recognition ability. This work can be used to expand our device aaRS Modulator.
Designed two different models for how our device can be applied to controlling metabolic networks, which expands the regulating tools for synthetic biology.
Developed two brand-new ways that facilitate the study of protein structure. One for incorporating point mutation into protein. The other for producing truncated proteins to help study the important protein domains.
Design our Human Practice Project: T-PostCards to promote our views on synthetic biology through communications and connections.
Attended the 2011 China Meet Up and presented our project idea to other iGEMer and advisors.