Team:ZJU-China/project.htm

From 2012.igem.org

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<p>We plan to develop a RNA scaffold library that offers more tunable responses. We’ve got several members in this library by now and our ultimate goal is acquiring a series of members which span a large acceleration rate range from about 10% to 90%. Thus, researchers may be able to choose a member in the library to acquire the targeted acceleration rate easily.</p>
<p>We plan to develop a RNA scaffold library that offers more tunable responses. We’ve got several members in this library by now and our ultimate goal is acquiring a series of members which span a large acceleration rate range from about 10% to 90%. Thus, researchers may be able to choose a member in the library to acquire the targeted acceleration rate easily.</p>
<h3>Pathway of producing IAA</h3>
<h3>Pathway of producing IAA</h3>
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<p>Accelerating production of IAA with RNA scaffold has been proved to be efficient. Two enzymes, IaaH (BBa_K515000) and IaaM (BBa_K515001), are related to the process. We’ve fused IaaH and IaaM with MS2 and PP7 respectively to got IaaM-2X-MS2(BBa_K738014) and IaaH-2X-PP7(BBa_K738015), which are able to bind on RNA scaffold. Thus, we’d like to regulate the biosynthesis process efficiency with RNA riboscaffold. We plan to submit BBa_K738014 and BBa_738015 later.</p>
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<p>Accelerating production of IAA with RNA scaffold has been proved to be efficient. Two enzymes, IaaH (BBa_K515000) and IaaM (BBa_K515001), are related to the process. We’ve fused IaaH and IaaM with MS2 and PP7 respectively to get IaaM-2X-MS2 and IaaH-2X-PP7, which are able to bind on RNA scaffold. We plan to make and submit this two protein as parts later. Thus, we’d like to regulate the biosynthesis process efficiency with RNA riboscaffold. We plan to submit BBa_K738014 and BBa_738015 later.</p>
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Revision as of 18:40, 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 PARTS

08 RESULTS

09 APPLICATIONS