Team:ZJU-China/project.htm

From 2012.igem.org

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<p class="fig"><b>Fig2a.(Right)</b> MS2 and PP7 bind to the scaffold and make GFP work. </br>
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<p class="fig"><b>Fig2a.</b> MS2 and PP7 bind to the scaffold and make GFP work. </br>
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<b>Fig2b.(Left)</b> By mutating aptamer binding site, scaffolding is stop. </p>
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<b>Fig2b.</b> By mutating aptamer binding site, scaffolding is stop. </p>
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<p class="fig"><b>Fig4a.</b> Dimerization and trimerization. Protein binding site is sealed off by the scaffolds themselves. Too much scaffold molecular lend to the self regulation.</p>
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<p class="fig"><b>Fig4b.</b> Dimerization and trimerization. Protein binding site is sealed off by the scaffolds themselves. Too much scaffold molecular lend to the self regulation.</p>
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<p class="fig"><b>Fig4a.(Upper)</b> Dimerization and trimerization. Protein binding site is sealed off by the scaffolds themselves. Too much scaffold molecular lend to the self regulation.</br>
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<b>Fig4b.(Lower left)</b> Dimerization and trimerization. Protein binding site is sealed off by the scaffolds themselves. Too much scaffold molecular lend to the self regulation.</br>
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<p class="fig"><b>Fig4c.</b> Polo-scaffold be made by head-tail binding.</p>
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<b>Fig4c.(Lower right)</b> Polo-scaffold be made by head-tail binding.</p>
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<p>Several RNA scaffold mutations are constructed and characterize, but they are the tip of the iceberg. There is still plenty to do in this part. The charms of library are the selection and combination. It introduces a new concept of biobrick combination mode.</p>
<p>Several RNA scaffold mutations are constructed and characterize, but they are the tip of the iceberg. There is still plenty to do in this part. The charms of library are the selection and combination. It introduces a new concept of biobrick combination mode.</p>
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Revision as of 11:30, 26 October 2012

PROJECT

01 ABSTRACT

02 BACKGROUND

03 S0: BASIC RNA SCAFFOLD

04 S1: ALLOSCAFFOLD

05 S2: SCAFFOLD LIBRARY

06 S3: BIOSYNTHESIS OF IAA

07 PARTS

08 RESULTS

09 PERSPECTIVES