Team:Copenhagen/Project/Cyanobacteria

From 2012.igem.org

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<table cellpadding=20px><td width="660px" height="100%" valign="top" ><p align="justify"><h2>Bioluminescence</h2>
<table cellpadding=20px><td width="660px" height="100%" valign="top" ><p align="justify"><h2>Bioluminescence</h2>
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Bioluminescence is light that is produced by a chemical reaction and then emitted from the living organism in which the reaction takes place.  
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Bioluminescence is light produced by a chemical reaction and subsequently emitted from the living organism in which the reaction takes place.  
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One of the more known organisms to produce this kind of light are fireflies, but many other, such as bacteria, are able to emit light as well. Bioluminescence is used in nature for many different purposes. Some use it to scare of enemies, others to attract mates and still others use it as camouflage.
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One of the more known organisms to produce this kind of light are fireflies, but many other, such as bacteria, are able to emit light as well. Bioluminescence is used in nature for many different purposes. Some use it to scare of enemies, others as camouflage or even to attract mates.  
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Luciferase is the enzyme responsible for the chemical reaction that produces light. Luciferase catalyzes the oxidation of the compound luciferin which results in an unstable intermediate that will emit light as it decays to its ground state.
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As in nature, bioluminescence can be used for many different purposes in biotechnology as well. A common use is different imaging methods and expression analyses.  
+
Luciferase is the major light-producing enzyme. It catalyzes the oxidation of the compound luciferin into a unstable intermediate which by emitting light will decay into a favorable ground state.
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As in nature, bioluminescence has a broad range of applications in biotechnology as well. A common use is different imaging methods and expression analyses.  
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A. fischeri are gram negative bacteria that can live in symbiosis with for example squid and thereby make them glow. The bacteria contain an operon which is a collection of genes that are all controlled by the same promoter and therefore expressed simultaneously.  The Lux operon in A. fischeri contains the genes Lux A, Lux B, Lux C, Lux D and Lux E whose joint function is to produce the enzyme luciferase and regenerate the components necessary for the enzyme to work. The expression of the genes is controlled by a promotor that can be induced by many different stimulants for example a certain wavelength of light, a high colony concentration or the presence of a certain protein.
+
A. fischeri are gram negative bacteria that can live in symbiosis with for example squid and thereby make them glow. The bacteria contain an operon which is a collection of genes that are all controlled by the same promoter and therefore expressed simultaneously.  The Lux operon in A. fischeri contains the genes Lux A, Lux B, Lux C, Lux D and Lux E whose joint function is to produce the enzyme luciferase and regenerate the components necessary for the enzyme to work. The gene expression is controlled by an inducible-promotor meaning that different stimulants such as certain wavelength of light, a high colony concentration or the presence of a certain protein, can initiate the light production.
In our project the lux operon will be placed in the cyanobacteria PCC 7002 and a night induced promotor lrtA  
In our project the lux operon will be placed in the cyanobacteria PCC 7002 and a night induced promotor lrtA  
<a href="http://partsregistry.org/Part:BBa_K390008" style="text-decoration:none; color:blue;"> BBa_K390008</a><br></p>
<a href="http://partsregistry.org/Part:BBa_K390008" style="text-decoration:none; color:blue;"> BBa_K390008</a><br></p>
  will control the transcription and thereby the production of light.
  will control the transcription and thereby the production of light.

Revision as of 16:29, 5 July 2012

Cyano Bacteria

Background information


Bioluminescence

Bioluminescence is light produced by a chemical reaction and subsequently emitted from the living organism in which the reaction takes place.

One of the more known organisms to produce this kind of light are fireflies, but many other, such as bacteria, are able to emit light as well. Bioluminescence is used in nature for many different purposes. Some use it to scare of enemies, others as camouflage or even to attract mates.

Luciferase is the major light-producing enzyme. It catalyzes the oxidation of the compound luciferin into a unstable intermediate which by emitting light will decay into a favorable ground state. As in nature, bioluminescence has a broad range of applications in biotechnology as well. A common use is different imaging methods and expression analyses.

A. fischeri are gram negative bacteria that can live in symbiosis with for example squid and thereby make them glow. The bacteria contain an operon which is a collection of genes that are all controlled by the same promoter and therefore expressed simultaneously. The Lux operon in A. fischeri contains the genes Lux A, Lux B, Lux C, Lux D and Lux E whose joint function is to produce the enzyme luciferase and regenerate the components necessary for the enzyme to work. The gene expression is controlled by an inducible-promotor meaning that different stimulants such as certain wavelength of light, a high colony concentration or the presence of a certain protein, can initiate the light production.

In our project the lux operon will be placed in the cyanobacteria PCC 7002 and a night induced promotor lrtA

<a href="http://partsregistry.org/Part:BBa_K390008" style="text-decoration:none; color:blue;"> BBa_K390008</a>

will control the transcription and thereby the production of light.