Team:Bielefeld-Germany/Project/Mediators

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Of great interest is the production of endogenous mediators. The overexpression of glyceroldehydrogenase in E. coli is a promising approach. Because many derivates of glyceroldehydrogenase are small, water-soluble redoxmolecules, they have the properties of a mediator. Futhermore, it will be tested, if there is a possibility of expressing the mediator phenazin. Phenazin is an endogenous mediator of Pseudomonas species.  
Of great interest is the production of endogenous mediators. The overexpression of glyceroldehydrogenase in E. coli is a promising approach. Because many derivates of glyceroldehydrogenase are small, water-soluble redoxmolecules, they have the properties of a mediator. Futhermore, it will be tested, if there is a possibility of expressing the mediator phenazin. Phenazin is an endogenous mediator of Pseudomonas species.  
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[[Image:Bielefeld Germany Mediator principal.jpg|left|thumb|250px|'''Figure 1:''' Principle of electron transfer from bacteria to anode via mediators as electron shuttle.]]
[[Image:Bielefeld Germany Mediator principal.jpg|left|thumb|250px|'''Figure 1:''' Principle of electron transfer from bacteria to anode via mediators as electron shuttle.]]

Revision as of 19:09, 29 September 2013



Mediators


Overview

Of great interest is the production of endogenous mediators. The overexpression of glyceroldehydrogenase in E. coli is a promising approach. Because many derivates of glyceroldehydrogenase are small, water-soluble redoxmolecules, they have the properties of a mediator. Futhermore, it will be tested, if there is a possibility of expressing the mediator phenazin. Phenazin is an endogenous mediator of Pseudomonas species.

Figure 1: Principle of electron transfer from bacteria to anode via mediators as electron shuttle.









Theory

Genetic Approach

Results

References

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Contents