Difference between revisions of "Team:ShanghaitechChina/Hydrogen"

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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>
 
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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           <h1 align="center">Construction of [FeFe]-hydrogenases gene cluster</h1>
 
           <h1 align="center">Construction of [FeFe]-hydrogenases gene cluster</h1>
           <h3 class="bg" id="CPrinciple">Principle of Molecular Cloning</h3>
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           <h3 class="bg" >Principle of Molecular Cloning</h3>
 
               To ensure normal enzyme activity, we need to make sure that these four enzymes are simultaneously expressed in <em>E. coli</em> with a moderate amount. The well-established high-efficiency Acembl system [5] came into our sight.<p></p>
 
               To ensure normal enzyme activity, we need to make sure that these four enzymes are simultaneously expressed in <em>E. coli</em> with a moderate amount. The well-established high-efficiency Acembl system [5] came into our sight.<p></p>
  
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In particular, pACE is the “acceptor” plasmid with hydA sequence, while others are the “donor” plasmids with the auxiliary protein sequences. With one-step Cre recombination and subsequent transformation into BL21 or DH5a, we would obtain strictly fused plasmid with either all gene circuits integrated in one big plasmid or non-fused single plasmids. The screening of successful assembly involves different resistance (Ampicillin / Chloramphenicol / spectinomycin) and different kinds of origin. In pACE1, it has a replication origin that can be recognized by common DH5a or BL21. In pDC,pDS,pDk, it has a special origin (R6K gamma ori) can be recognized only by a mutation strain of <em>E. coli</em>. (PirHC or PirLC, which can express pir gene product for its replication.) Only a successful fusion into the acceptor plasmid can it propagate, using the accepters ori. Therefore, we efficiently put all four hyd sequences on one single plasmid, avoiding the potential problems imposed by the two-plasmid system.<p></p>
 
In particular, pACE is the “acceptor” plasmid with hydA sequence, while others are the “donor” plasmids with the auxiliary protein sequences. With one-step Cre recombination and subsequent transformation into BL21 or DH5a, we would obtain strictly fused plasmid with either all gene circuits integrated in one big plasmid or non-fused single plasmids. The screening of successful assembly involves different resistance (Ampicillin / Chloramphenicol / spectinomycin) and different kinds of origin. In pACE1, it has a replication origin that can be recognized by common DH5a or BL21. In pDC,pDS,pDk, it has a special origin (R6K gamma ori) can be recognized only by a mutation strain of <em>E. coli</em>. (PirHC or PirLC, which can express pir gene product for its replication.) Only a successful fusion into the acceptor plasmid can it propagate, using the accepters ori. Therefore, we efficiently put all four hyd sequences on one single plasmid, avoiding the potential problems imposed by the two-plasmid system.<p></p>
 
The basis of our constructs, the four sequences, are not directly obtained from bacteria. But they are all codon-optimized to ensure high-level expression.  (The original sequences of hydrogenase are found on <a href="http://www.genome.jp">www.genome.jp.</a>)<p></p>
 
The basis of our constructs, the four sequences, are not directly obtained from bacteria. But they are all codon-optimized to ensure high-level expression.  (The original sequences of hydrogenase are found on <a href="http://www.genome.jp">www.genome.jp.</a>)<p></p>
 
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<h3 class="bg"id="CResult"> Results of cloning</h3>
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<h3 class="bg"> Results of cloning</h3>
 
As mentioned before, we basically relied on the Acembl system for hydrogenases gene cluster construction. In using the system, however, we can either fuse 4 single plasmids with one step of Cre recombination or do it step by step, integrating each plasmid one at a time. In order to gain higher success rate, we choose the second way.<p></p>
 
As mentioned before, we basically relied on the Acembl system for hydrogenases gene cluster construction. In using the system, however, we can either fuse 4 single plasmids with one step of Cre recombination or do it step by step, integrating each plasmid one at a time. In order to gain higher success rate, we choose the second way.<p></p>
 
<h4><b>First step:Fusion of plasmid 1/2 and plasmid 4</b></h4>
 
<h4><b>First step:Fusion of plasmid 1/2 and plasmid 4</b></h4>
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Revision as of 18:41, 19 October 2016

igem2016:ShanghaiTech