Difference between revisions of "Team:ShanghaitechChina/IBS"

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         <h2 align="center" style="font-weight:bold">Hydrogenases Expression and Enzyme Activity Assay</h2>
 
         <h2 align="center" style="font-weight:bold">Hydrogenases Expression and Enzyme Activity Assay</h2>
 
         <h3>(1) Principles and Methods</h3>
 
         <h3>(1) Principles and Methods</h3>
         In the activity assay of the hydrogenase in producing hydrogen, we repeated three  parallel experiments to test the activity and validated the repeatability of our rudimentary system. In each parallel experiment, the system goes through three periods of “light-on and light-off”. The results (see below) shows the stability of the system and the reversible catalytic activity of the hydrogenase of the reaction, 2H<sup>+</sup> + 2e<sup>-</sip>  ⇿ H<sub>2</sub> .<p></p>
+
         In the activity assay of the hydrogenase in producing hydrogen, we repeated three  parallel experiments to test the activity and validated the repeatability of our rudimentary system. In each parallel experiment, the system goes through three periods of “light-on and light-off”. The results (see below) shows the stability of the system and the reversible catalytic activity of the hydrogenase of the reaction, 2H<sup>+</sup> + 2e<sup>-</sup>  ⇿ H<sub>2</sub> .<p></p>
 
The three parallel systems consist of <em>E. coli</em> with engineered hydrogenase (wet weight 100ug) resuspended in PBS, 200ul quantum dots/nanorods (7.72*10^-9 M) resuspended in PBS, 150Mm NaCl, 100mM VitaminC, and mediator solution (5mM Paraquat dichloride, for mediating the electrons across the cell membrane). The whole solution including bacteria is adjusted to pH=4 by 100mM Tris-HCl(pH=7.0), given that the pH of 4 was reported to be an optimal environment.<span style=”font-size:12px”> </span> Prior to the assay, the <em>E. coli</em> was induced with IPTG overnight at room temperature. The whole system is based on former study. <span style=”font-size:12px”></span><p></p>
 
The three parallel systems consist of <em>E. coli</em> with engineered hydrogenase (wet weight 100ug) resuspended in PBS, 200ul quantum dots/nanorods (7.72*10^-9 M) resuspended in PBS, 150Mm NaCl, 100mM VitaminC, and mediator solution (5mM Paraquat dichloride, for mediating the electrons across the cell membrane). The whole solution including bacteria is adjusted to pH=4 by 100mM Tris-HCl(pH=7.0), given that the pH of 4 was reported to be an optimal environment.<span style=”font-size:12px”> </span> Prior to the assay, the <em>E. coli</em> was induced with IPTG overnight at room temperature. The whole system is based on former study. <span style=”font-size:12px”></span><p></p>
 
In addition, we did a fourth assay with resuspended microspheres covered with quantum dots/nanorods bound biofilm in PBS, in place of the resuspended quantum dots/nanorods solution. The fourth set is the actual system we are proposing, since it is as efficient and allows the recycling of quantum dots/nanorods.<p></p>
 
In addition, we did a fourth assay with resuspended microspheres covered with quantum dots/nanorods bound biofilm in PBS, in place of the resuspended quantum dots/nanorods solution. The fourth set is the actual system we are proposing, since it is as efficient and allows the recycling of quantum dots/nanorods.<p></p>

Revision as of 21:47, 19 October 2016

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