Difference between revisions of "Team:Nagahama/Medal Parts"
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λPL+r.b.s.+ispA+MEP+×× | λPL+r.b.s.+ispA+MEP+×× | ||
(r.b.s.+dxs+r.b.s.+m-idi+r.b.s.+ispDF) | (r.b.s.+dxs+r.b.s.+m-idi+r.b.s.+ispDF) | ||
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+ | FOH is probably generated through FPP hydrolysis by endogenous phosphatases, which are induced by an increased intracellular FPP level (Asadollahi et al., 2008; Muramatsu et al., 2008a). Analogously, we hypothesized that ''E. coli'' could produce FOH under cellular conditions of an increased intracellular FPP level through metabolic engineering. | ||
+ | A MEP pathway has been shown to synthesize IPP and DMAPP efficiently in E. coli (Martin et al., 2003). | ||
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Revision as of 07:32, 9 September 2015
Contents
Medal parts
銅
銀
λPL+r.b.s.+ispA+MEP+×× (r.b.s.+dxs+r.b.s.+m-idi+r.b.s.+ispDF)
FOH is probably generated through FPP hydrolysis by endogenous phosphatases, which are induced by an increased intracellular FPP level (Asadollahi et al., 2008; Muramatsu et al., 2008a). Analogously, we hypothesized that E. coli could produce FOH under cellular conditions of an increased intracellular FPP level through metabolic engineering. A MEP pathway has been shown to synthesize IPP and DMAPP efficiently in E. coli (Martin et al., 2003).
Gas Chromatography/Mass(GC/MS)
菌
Note
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Did your team make a lot of great parts? Is there a theme that ties all your parts together? Do you have more than 10 parts in this collection? Did you make a CRISPR collection, a MoClo collection, or a collection of awesome pigment parts? Describe your parts collection on this page, so the judges can evaluate you for the Best Part Collection award.