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==''mtrB''== | ==''mtrB''== | ||
Many genes are involved in ''S. oneidensis''’s complex respiratory system (Heidelberg et al. 2002). We focused on ''mtrB'', which encodes a 679-amino-acid-long outer membrane protein involved in the binding of metals and the localization of outer membrane cytochromes during reduction (Bretschger et al. 2007). It is unfortunately toxic in ''E. coli'' (Saffarini). Bretschger et al. recently characterized the role of mtrB in anaerobic respiration of ''S. oneidensis'' by looking at the effects of knock-out and complementation of mtrB on the electrical output of ''S. oneidensis''. It was found that the strain which lacked mtrB produced less than 20% of the current generated by the wild type strain. In complemented strains, where mtrB is expressed constitutively under the control of the lacZ promoter in the knock-out strain, the phenotype was rescued with a similar amount of current being produced to that of the wild type (Bretschger et al. 2007). Not only does this experiment demonstrate the importance of mtrB in reduction in ''S. oneidensis'', it also suggests a mechanism by which this electrical output could be controlled. Transforming plasmids containing mtrB under the control of an inducible promoter into mtrB knock out ''S. oneidensis'', would conceivably create a strain of ''S. oneidensis'' which could increase its electrical output in response to the turning-on of the promoter controlling mtrB expression. The creation of a strain with an inducible electrical output could have important applications in biotechnology by creating a system which couples the ability of ''S. oneidensis'' to respond to a diverse array of stimuli with the speed and ubiquity of electricity. | Many genes are involved in ''S. oneidensis''’s complex respiratory system (Heidelberg et al. 2002). We focused on ''mtrB'', which encodes a 679-amino-acid-long outer membrane protein involved in the binding of metals and the localization of outer membrane cytochromes during reduction (Bretschger et al. 2007). It is unfortunately toxic in ''E. coli'' (Saffarini). Bretschger et al. recently characterized the role of mtrB in anaerobic respiration of ''S. oneidensis'' by looking at the effects of knock-out and complementation of mtrB on the electrical output of ''S. oneidensis''. It was found that the strain which lacked mtrB produced less than 20% of the current generated by the wild type strain. In complemented strains, where mtrB is expressed constitutively under the control of the lacZ promoter in the knock-out strain, the phenotype was rescued with a similar amount of current being produced to that of the wild type (Bretschger et al. 2007). Not only does this experiment demonstrate the importance of mtrB in reduction in ''S. oneidensis'', it also suggests a mechanism by which this electrical output could be controlled. Transforming plasmids containing mtrB under the control of an inducible promoter into mtrB knock out ''S. oneidensis'', would conceivably create a strain of ''S. oneidensis'' which could increase its electrical output in response to the turning-on of the promoter controlling mtrB expression. The creation of a strain with an inducible electrical output could have important applications in biotechnology by creating a system which couples the ability of ''S. oneidensis'' to respond to a diverse array of stimuli with the speed and ubiquity of electricity. | ||
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| + | Since we found construction intermediates from the registry to be especially useful, we provided our intermediates with mtrB with RBS, terminator, or both. | ||
==The Genetic Circuitry== | ==The Genetic Circuitry== | ||
Latest revision as of 03:58, 30 October 2008
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