"
Team:Caltech/Notebook
From 2012.igem.org
(→Overall Project) |
|||
| Line 27: | Line 27: | ||
Summary of proteorhodopsin project. | Summary of proteorhodopsin project. | ||
| + | |||
| + | The production pathways we plan to introduce in ''E. coli'' require NADH for the reactions; however, ''E. coli'' require NADH as an proton donor in order to generate the proton-motive force that drives its ATP synthase to produce ATP. ''E. coli'' uses NADH dehydrogenase to convert NADH to NAD+ and expel the proton outside of the cell membrane. We plan to make the production pathways by reducing the bacteria's inherent need for NADH in two ways: 1. Lambda Red removal of Nuo, an NADH dehydrogenase found in ''E. coli''; 2. introduction of proteorhodopsin, a light-powered proton pump, into ''E. coli'' to replace the electron transport chain. | ||
[[https://2012.igem.org/Team:Caltech/Notebook/Proteorhodopsin Proteorhodopsin Notebook]] | [[https://2012.igem.org/Team:Caltech/Notebook/Proteorhodopsin Proteorhodopsin Notebook]] | ||
Revision as of 20:58, 29 June 2012
Overall ProjectOur overall project is do degrade things like lignin and alginate and generate biofuel. Our notebook is organized by project. Below we summarize each project.
Degradation summary: we degrade things.
Summary of proteorhodopsin project. The production pathways we plan to introduce in E. coli require NADH for the reactions; however, E. coli require NADH as an proton donor in order to generate the proton-motive force that drives its ATP synthase to produce ATP. E. coli uses NADH dehydrogenase to convert NADH to NAD+ and expel the proton outside of the cell membrane. We plan to make the production pathways by reducing the bacteria's inherent need for NADH in two ways: 1. Lambda Red removal of Nuo, an NADH dehydrogenase found in E. coli; 2. introduction of proteorhodopsin, a light-powered proton pump, into E. coli to replace the electron transport chain. Summary of biofuel project. |
