Difference between revisions of "Team:ShanghaitechChina/Hydrogen"

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             At molecular level, the gene sequences involved in producing hydrogenase in different species vary wildly. In our study, we focus on hydrogenase gene cluster from Clostridium. acetobutylicum. The important genes include hydA, hydEF, hydG, which are expressed as HydA, HydE and HydF, HydG respectively.  We will briefly introduce these enzymes below. (Tip:click enzymes to have fun:)<p></p>
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             At molecular level, the gene sequences involved in producing hydrogenase in different species vary wildly. In our study, we focus on hydrogenase gene cluster from Clostridium acetobutylicum. The important genes include hydA, hydEF, hydG, which are expressed as HydA, HydE and HydF, HydG respectively.  We will briefly introduce these enzymes below. (Tip:click enzymes to have fun:)<p></p>
  
  
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Our goal is to transplant the gene clusters of [FeFe]-hydrogenase from Clostridium. acetobutylicum into <em>E. coli</em>, and produce a strain that could effectively produce hydrogen. This seemingly novel idea has been actually fulfilled by Yuki Honda, et al. [4] However, the methods and the result of gene manipulation was not efficient. They used the pETDuet-1+pCDFDuet-1 system to carry the hydEA and hydFG sequence separately. This method in cloning is not only laborious but also inefficient. Firstly, the expression of HydA, HydE, HydF, HydG are not controlled in a synchronized way; secondly, the two-plasmid system runs certain risk in the stability of the strain[4]. Thus to explore the strength of synthetic biology, we made certain improvements on the system from the level of gene manipulation.<p></p>
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Our goal is to transplant the gene clusters of [FeFe]-hydrogenase from Clostridium acetobutylicum into <em>E. coli</em>, and engineer a strain that could effectively produce hydrogen. Previous work for transferring [FeFe]-hydrogenase into E. coli using a two-plasmid system been demonstrated by Yuki Honda, et al. [4] Specifically, they used the pETDuet-1 and pCDFDuet-1 system to carry the hydEA and hydFG sequence separately. However, their method for gene manipulation was laborious and the results were not efficient, as expression of HydA, HydE, HydF, HydG is not controlled in a synchronized way. In addition, the two-plasmid system runs certain risk in the stability of the strain[4]. We made significant improvements on the system using a high-efficiency and multi-expression Acembl system by leveraging the power of synthetic biology, .<p></p>
 
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Revision as of 16:26, 18 October 2016

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