Team:ZJU-China/project.htm

From 2012.igem.org

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<h3>Backround</h3>
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<p>Camille J. Delebecque and his colleagues have designed and assembled RNA structures and used them as scaffolds for the spatial organization of bacterial metabolism (Camille J. Delebecque et al. 2011). Scaffold D0 consists of PP7 and MS2 aptamer domains that bind PP7 and MS2 fusion proteins. As told above, our project is based on the existing scaffold D0. In order to make sure that we can do further work on it, we planned to repeat the work about scaffold D0. </p>
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<p>&nbsp</p>
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<h3>Design</h3>
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<p>&nbsp</p>
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<img src="https://static.igem.org/mediawiki/2012/d/dc/ZJU_PROJECT_S0_Scaffold_d.jpg" width="600px" />
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<p>&nbsp</p>
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<p>Fig.1  How RNA scaffold works. FA and FB represent two halves of EGFP. FA and MS2 are connected with a linker of 30bp. FB and PP7 did the same. The purple scaffold is scaffold D0. MS2 and PP7 can specifically bind to two stem-loops on scaffold, thus  FA and FB get closer and fluoresce under excitation.</p>
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<p>&nbsp</p>
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<h3>Method</h3>
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<p>&nbsp</p>
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<p>Two plasmids (pCJDFA and pCJDFB) respectively comprising the gene of half split EGFP (fragment A and fragment B) and MS2 or PP7 protein were constructed by overlap extension <p>PCR. (See the Overlap PCR protocal)</p>
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<p>&nbsp</p>
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<h5>1. pCJDFA</h5>
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<p>T7 Promoter</p>
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<p>RBS</p>
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<p>FA</p>
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<p>MS2</p>
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<p>Terminators</p>
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<img src="https://static.igem.org/mediawiki/2012/a/a6/ZJU_PROJECT_S0_PCJDFA.png" width="600px" />
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<p>&nbsp</p>
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<h5>2. pCJDFB</h5>
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<p>T7 Promoter</p>
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<p>RBS</p>
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<p>FB</p>
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<p>PP7</p>
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<p>Terminators</p>
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<img src="https://static.igem.org/mediawiki/2012/8/82/ZJU_PROJECT_S0_PCJDFB.png" width="600px" />
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<p>&nbsp</p>
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<h5>3. pCJDD0</h5>
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<p>T7 Promoter</p>
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<p>RBS</p>
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<p>Scaffold D0</p>
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<p>Terminators</p>
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<img src="https://static.igem.org/mediawiki/2012/f/f4/ZJU_PROJECT_S0_PCJDD0.png" width="600px" />
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<p>&nbsp</p>
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<p>They were transformed with the pCJDD0 (plasmid with scaffold D0) into BL21-star-(DE3). </p>
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<h3>Results</h3>
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<p>&nbsp</p>
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<p>Contrasted to the fluorescence intensity (FI) of the E.coli which only express FA-MS2 and FB-PP7 fusion proteins, the fluorescence intensity of the E.coli with scaffold D0 was obviously increased. Thus, it was possible for us to carry out our development and reformation of RNA scaffold.</p>
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<img src="https://static.igem.org/mediawiki/2012/5/53/ZJU_PROJECT_S0_Confocal.jpg" width="600px" />
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<p>&nbsp</p>
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<p>Fig.2 FI of Split GFPs without or with RNA scaffold. A.  BL21*(DE3) transformed with pCJDFA and pCJDFB.  B. BL21*(DE3) transformed with pCJDFA, pCJDFB and pCJDD0. The contrast of FI obviously shown that RNA scaffold D0 could bind split GFPs together, so that split GFPs could fluoresce. (Pictures were obtained with Olympus fluoview fv1000 confocal laser scanning microscope, using a 60X objective.)</p>
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<img src="https://static.igem.org/mediawiki/2012/3/32/ZJU_PROJECT_S0_FI.png" width="600px" />
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<p>Fig3.  FI/OD of different combination of D0, FA and FB. </p>

Revision as of 08:13, 26 September 2012

PROJECT

01 ABSTRACT

02 BACKGROUND

03 S0: BASIC RNA SCAFFOLD

04 S1: RIBOSCAFFOLD

05 S2: SCAFFOLD LIBRARY

06 S3: BIOSYNTHESIS OF IAA

07 RESULTS

08 APPLICATIONS