Team:ZJU-China/project.htm

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<p align="justify">In cells, engineered multi-enzyme pathways are common and are often physically and spatially organized, thus leading to the high output efficiency. But engineered synthetic pathways utilizing non-homologous enzymes often suffer from low efficiency of production caused by relative lack of spatial organization. RNA scaffold is designed to co-localize enzymes through interactions between binding domains on the scaffold and target peptides fused to each enzyme in engineered biological pathways in vivo. The scaffold allows efficient channeling of substrates to products over several enzymatic steps by limiting the diffusion of intermediates thus providing a bright future for solving the problem.</p>
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<p>In cells, engineered multi-enzyme pathways are common and are often physically and spatially organized, thus leading to the high output efficiency. But engineered synthetic pathways utilizing non-homologous enzymes often suffer from low efficiency of production caused by relative lack of spatial organization. RNA scaffold is designed to co-localize enzymes through interactions between binding domains on the scaffold and target peptides fused to each enzyme in engineered biological pathways in vivo. The scaffold allows efficient channeling of substrates to products over several enzymatic steps by limiting the diffusion of intermediates thus providing a bright future for solving the problem.</p>
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<p>ZJU-China aims to design and realize tunable RNA scaffolds to accelerate biological pathways and control them on and off. In order to achieve the object, we added an aptamer structure on RNA scaffold as a switch to regulate biological pathways by micromolecular ligands. Then we can control the all-or-none binding relationship between the enzymes and the scaffold by the absence and the presence of a special ligand. </p>
<p>ZJU-China aims to design and realize tunable RNA scaffolds to accelerate biological pathways and control them on and off. In order to achieve the object, we added an aptamer structure on RNA scaffold as a switch to regulate biological pathways by micromolecular ligands. Then we can control the all-or-none binding relationship between the enzymes and the scaffold by the absence and the presence of a special ligand. </p>

Revision as of 05:37, 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