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Team:Cambridge/Bioluminescence/Bacterial Luciferases
From 2010.igem.org
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* Substrate production within E. coli, avoiding the need for addition of external substrates, such as luciferin. | * Substrate production within E. coli, avoiding the need for addition of external substrates, such as luciferin. | ||
| - | Lux operons are found in the genomes of a range of [https://2010.igem.org/Team:Cambridge/Bioluminescence/Background natural bioluminescent bacteria] | + | Lux operons are found in the genomes of a range of [https://2010.igem.org/Team:Cambridge/Bioluminescence/Background natural bioluminescent bacteria] and encode five enzymes involved in the light-generating pathway. |
*<i>luxA</i> and <i>luxB</i> form the luciferase of the system, which causes the emission of light when acting on the substrate <b>tetradecanal</b>. | *<i>luxA</i> and <i>luxB</i> form the luciferase of the system, which causes the emission of light when acting on the substrate <b>tetradecanal</b>. | ||
*<i>luxC</i>, <i>luxD</i> and <i>luxE</i> are involved in the biosynthesis of tetradecanal from readily available substrates. | *<i>luxC</i>, <i>luxD</i> and <i>luxE</i> are involved in the biosynthesis of tetradecanal from readily available substrates. | ||
Revision as of 18:21, 23 October 2010
Project Vibrio: Introduction
One of the plates of V. phosphoreum we prepared.
Project Vibrio was designed to complement Project Firefly, by using bacterial lux operons to do what had been impossible with firefly luciferases:
- Emission of blue light to complete our spectrum of emission wavelengths.
- Substrate production within E. coli, avoiding the need for addition of external substrates, such as luciferin.
Lux operons are found in the genomes of a range of natural bioluminescent bacteria and encode five enzymes involved in the light-generating pathway.
- luxA and luxB form the luciferase of the system, which causes the emission of light when acting on the substrate tetradecanal.
- luxC, luxD and luxE are involved in the biosynthesis of tetradecanal from readily available substrates.
In nature, the lux genes appear to be repressed by the nucleoid protein, H-NS, and occur under quorum sensing control.
Our work
We cloned the lux operon from the bacterium Vibrio fischeri, which
- Vibrio fischeri, which forms a symbiosis with squid allowing the squid to hunt in moonlit nights without casting a shadow. Due to this their lux proteins are non-functional above 30 degrees
