Difference between revisions of "Team:ShanghaitechChina/Hydrogen"

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   <h1 align="center">Connection to the project</h1>
 
   <h1 align="center">Connection to the project</h1>
In our sun-powered biofilm-interfaced hydrogen-producing system, hydrogenase  harnessed in engineered E. coli are conceived to efficiently catalyze proton reduction upon receiving electrons originally donated by semiconductor nanomaterials. Electron transportation from semiconductors to hydrogenase could be bridged and facilitated by the use of mediators, methyl viologen. To achieve efficient enzymatic activities, we codon-optimized and constructed the whole hydrogenase gene clusters (from Clostridium Acetobutylicum) by leveraging the multi-expression Acembl System. <p></p>
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In our sun-powered biofilm-interfaced hydrogen-producing system, <strong>hydrogenase  harnessed in engineered E. coli are conceived to efficiently catalyze proton reduction upon receiving electrons originally donated by semiconductor nanomaterials</strong>. Electron transportation from semiconductors to hydrogenase could be bridged and facilitated by the use of mediators, methyl viologen. To achieve efficient enzymatic activities, we codon-optimized and constructed the whole hydrogenase gene clusters (from Clostridium Acetobutylicum) by leveraging the multi-expression Acembl System. <p></p>
 
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<div id="motivation" class="content">
 
<div id="motivation" class="content">

Revision as of 15:40, 18 October 2016

igem2016:ShanghaiTech