Team:UC Chile/Cyanolux/Project

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<h2>Lux Operon </h2>
<h2>Lux Operon </h2>
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<p>The lux operon is a group of genes that are responsible for density-dependent bioluminescent behavior
<p>The lux operon is a group of genes that are responsible for density-dependent bioluminescent behavior
in various prokariotic organisms such as <i>Vibrio fischeri</i> and <i>Photorabdus luminescens</i> [[#12|12]]. In <i>V. fischeri</i>, the operon is composed of 8 genes: LuxA and LuxB encode for the monomers of a heterodimeric luciferase; LuxC, LuxD and LuxE code for fatty acid reductases enzymes and LuxR and LuxI are responsible for the regulation of the whole operon [[#13|13]].</p>
in various prokariotic organisms such as <i>Vibrio fischeri</i> and <i>Photorabdus luminescens</i> [[#12|12]]. In <i>V. fischeri</i>, the operon is composed of 8 genes: LuxA and LuxB encode for the monomers of a heterodimeric luciferase; LuxC, LuxD and LuxE code for fatty acid reductases enzymes and LuxR and LuxI are responsible for the regulation of the whole operon [[#13|13]].</p>
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<p>Lastly LuxG is believed to act as a FMNH2 dependent FADH reductase, although luminescence is barely affected
<p>Lastly LuxG is believed to act as a FMNH2 dependent FADH reductase, although luminescence is barely affected

Revision as of 22:06, 26 September 2012

Project: Luxilla - Pontificia Universidad Católica de Chile, iGEM 2012