Team:Bielefeld-CeBiTec/Project/rMFC/Mediators

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       <font size="2" style="text-align:left;"><b>Figure 1</b>: Chemical structure of the triphenylmethane dye neutral red.</font>
       <font size="2" style="text-align:left;"><b>Figure 1</b>: Chemical structure of the triphenylmethane dye neutral red.</font>
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Neutral red is normally used as pH-indicator due to the fact that it changes its colour from red (pH 6.8) to yellow (pH 8.0).<br>  
Neutral red is normally used as pH-indicator due to the fact that it changes its colour from red (pH 6.8) to yellow (pH 8.0).<br>  
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Besides that it could be shown that reduced neutral red is also capable as the sole source of reducing power for growth and metabolism of H<sub>2</sub> consuming bacteria cultures. (Park 2000) <br>
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Besides that it could be shown that reduced neutral red is also capable as the sole source of reducing power for growth and metabolism of H<sub>2</sub> consuming bacteria cultures.(<a href="#lPark2000">Park, D. H. &amp; Zeikus, J. G. 2000</a>)
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There is also evidence that electrically reduced neutral red can bind to the cell membrane and chemically reduces NAD. Furthermore it is not tocxic to the cells  
There is also evidence that electrically reduced neutral red can bind to the cell membrane and chemically reduces NAD. Furthermore it is not tocxic to the cells  
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and can replace H<sup>2</sup> which is the natural electron shuttle for some bacteria species. (Park, 1999)  
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and can replace H<sup>2</sup> which is the natural electron shuttle for some bacteria species. (<a href="#lPark1999">Park et al., 2000</a>)
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Revision as of 19:18, 15 October 2014


rMFC

Neutral Red

Neutral red (3-Amino-7-dimethylamino-2-methylphenazine hydrochloride) is a phenazine-based dye which has an suitable redox-potential to function as an electron-shuttle from the electrode to the cells. The chemical structure is shown in figure 1.


Figure 1: Chemical structure of the triphenylmethane dye neutral red.
Neutral red is normally used as pH-indicator due to the fact that it changes its colour from red (pH 6.8) to yellow (pH 8.0).
Besides that it could be shown that reduced neutral red is also capable as the sole source of reducing power for growth and metabolism of H2 consuming bacteria cultures.(Park, D. H. & Zeikus, J. G. 2000)
There is also evidence that electrically reduced neutral red can bind to the cell membrane and chemically reduces NAD. Furthermore it is not tocxic to the cells and can replace H2 which is the natural electron shuttle for some bacteria species. (Park et al., 2000)
Bromphenol Blue
Bromphenolblue is a triarylmethane dye that is similar to neutral red and also capable to function as mediator.

Figure 2: Chemical structure of the triphenylmethane dye bromphenol blue.
Cytochromes
Cytochromes are proteins containing a heme group. They are primarly responsible for the electron transport in the respiratory chain.

References
  • Park, D. H.,Laivenieks, M., Guettler, M. V., Jain, M. K. & Zeikus, J. G. (1999) Microbial utilization of electrically reduced neutral red as the sole electron donor for growth and metabolic production. In: Applied and Environmental Microbiology, 65 (7), pp. 2912 - 2917.
  • Park, D. H. & Zeikus, J. G. (2000) Electricity generation in microbial fuel cells using neutral red as an electronophore. In: Applied and Environmental Microbiology, 66 (4), pp. 1292 - 1297.