Team:UC Chile/Cyanolux/Project short
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Main Goal: Our project consists on achieving bioluminescence controlled under circadian rhythms with long-term functionality. To do this, we have thought on coupling the bioluminescence pathway with endogenous circadian rhythms only during dusk hours, so that during daytime there is no production of light. Our aim is to produce a bioluminescent cyanobacteria which lights up during dusk hours and that regenerates the substrates during the day.
We believe that our project will serve as a proof of concept about developing high-level functionality from biology in the form of a biological lamp, Luxilla biolamp, which turns on only during the night and recharges itself during the day.
Rationale:
The importance of Biological context in Synthetic Biology has been largely underestimated. We have addressed this issue by centering our project on enhancing functionality of a previoulsy characterized Biobrick, LuxBrick, by placing it in a context which allows new features.
Bioluminescence
Bioluminescence is a enzymatic reaction which yield photons in the process, producing light.
In 2010 the Cambridge iGEM team Biobricked the LuxBrick, a collection of genes from the Lux operon that incorporate both the Luciferase and the substrate production enzymes, allowing endogenous bioluminescence on E. coli
Chassis We have chosen to work with a model cyanobacteria, Synechocystis PCC. 6803 because it exhibits autotrophic metabolism and circadian rhythms.
This organism has also been sequenced and there is abundant literature available.
Coupling the endogenous circadian rhythms of this organism to the expression of the Lux genes will enable high-level functionality through a complex behaviour.
Strategy
According to literature (CITA!), the liminting step for the bacterial bioluminescent reaction is the substrate (n-decanal) concentration, therefore, to control the light emition over time we decided to control it´s abundance in the cells, which in our model is a function of the substrates generation (by Lux C, D, E and G enzymes) and consumption (by the LuxAB luciferase). - imagen -
In turn, the production of these enzymes can be specifically set to any desired time of the day by fusing their CDSs to promoters controlled by the cyrcadian rythm.
Mathematical Modelling.
Our model works as a “black box” in which the input takes the form of a specific hour of the day (i.e the hour on which you want your metabolite to reach maximal concentration) and the output is a couple of promoters from Synechocystis genome. It assumes that the metabolite´s production is controlled by enzymes under the control of promoter 1 and it´s degradation by enzimes under promoter 2. for more details please check (link: mathematical model)
Wetlab strategy
Having chosen the right promoters we set out to built our constructs to transform synechocystis. As there weren´t straighforward tools to start working with in the registry (i.e characterized plasmids backbones, protocols, etc) we started from scrach.
We designed two recombination plasmids backbones (link:see results, plasmid construction). One targets a gene essential for our chassis survival in the enviroment (link:see biosafety) and the other one a neutral site.
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We planned to insert the LuxAB genes under the right circadian promoter in the neutral recombnation plasmid
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We planned to insert the LuxCDEG genes under the right circadian promoter in the neutral in the biosafety plasmid
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Implementation
Synthetic biology inspires in nature to make abstractions of it´s principles and mechanisms.v We thought this moto could be applied beyond mollecular genetics. With the relevance of context in mind, a biomimetic biolamp structure was designed that resembles the organ in which Vibrio fischeri -the bacteria from which the lux genes were biobricked- lives.
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Synthetic sociology (we are going to put this thing here?)