Team:UC Chile/Results/LuxBrick

From 2012.igem.org

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It has been know for some time that general bacterial metabolism is determined by its growth state [[#3|3]]. Growth phase determines available resources and stress derived restrictions. Bacteria can dramatically adjust their  metabolism to adapt to these changing conditions.
It has been know for some time that general bacterial metabolism is determined by its growth state [[#3|3]]. Growth phase determines available resources and stress derived restrictions. Bacteria can dramatically adjust their  metabolism to adapt to these changing conditions.
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At the transcriptional level, different sigma subunits present at different growth states regulate gene expression throughout the whole genome(ref3)
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At the transcriptional level, different sigma subunits present at different growth states regulate gene expression throughout the whole genome [[#4|4]].
We hipotezised that an heterologous metabolic pathway such as Lux light emittion wouldn´t be free from this regulation.  
We hipotezised that an heterologous metabolic pathway such as Lux light emittion wouldn´t be free from this regulation.  
Our results confirm our hipotesis: measured luminiscence output is growth state dependent, low at the early lag phase, peaking at early log phase and decaying at late stationary phase.   
Our results confirm our hipotesis: measured luminiscence output is growth state dependent, low at the early lag phase, peaking at early log phase and decaying at late stationary phase.   
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Lux genes were originally cloned from Vibrio fischeri, a free living bacteria found in tropical sea water that also inhabits the poikilotherm mollusc Euprymna scolopes  body in a symbiotic relationship, therefore we expect the Lux genes performance to be functional in the range of temperatures found in that context.
Lux genes were originally cloned from Vibrio fischeri, a free living bacteria found in tropical sea water that also inhabits the poikilotherm mollusc Euprymna scolopes  body in a symbiotic relationship, therefore we expect the Lux genes performance to be functional in the range of temperatures found in that context.
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It has been shown that the optimal temperature conditions for bioluminescence in V. harveyi range from 20-26°C [[#4|4]] and the LuxBrick page states that luminescence is diminished in temperatures above 30°. We aimed to better characterize the luminiscent response in a set of temperature conditions used in E.coli cultivation.
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It has been shown that the optimal temperature conditions for bioluminescence in V. harveyi range from 20-26°C [[#5|5]] and the LuxBrick page states that luminescence is diminished in temperatures above 30°. We aimed to better characterize the luminiscent response in a set of temperature conditions used in E.coli cultivation.
[[File:UC_Chile-Temperature_growth_effect_on_Luminescence_.png|462px| right]]
[[File:UC_Chile-Temperature_growth_effect_on_Luminescence_.png|462px| right]]
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Revision as of 22:31, 26 September 2012

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