Team:Panama INDICASAT

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<div><font color="#99CC00" face="Calibri" class="ws14"><B>Genetically Modified E. coli as an Alternative Biosensor of Cyanide and Cyanide Coumpunds</B></font></div>
<div><font color="#99CC00" face="Calibri" class="ws14"><B>Genetically Modified E. coli as an Alternative Biosensor of Cyanide and Cyanide Coumpunds</B></font></div>
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<div><font color="#969696" face="Verdana" class="ws8"><BR> Cyanide is consider an extremely harmful toxic for the enviroment and living organisms since it inhibits the cellular respiration at the level of electron transport chain. In the industrial sector, cyanide is used to produce paper, paints, textiles and plastics. It is also very common in the mining industry as a way to recover metals. Due to its application and toxicity, it is necessary to monitor and keep the cyanide at a subtoxic level. The most recent methods for the detection of cyanide compounds include simple vision detection, spectrophometry/colorimetry, capillary electrophoresis with optical absorbance detection, fluorometry, chemoluminiscence, near-infrared spectroscopy, atomic absorption spectrometry, electrochemical methods, mass spectrometry, gas chromatography and quartz crystal monitoring. In this project, we are generating a new alternative by using genetic engineering to modify E. coli genetically. We will incorporate genes that will allow the bacteria to become a biosensor with the capacity to detect the presence of cyanide and cyanide compounds by adding the expression of a reporter gene (RFP) under the control of a promoter inducible by these compounds. This gene comes from the bacteria Pseudomonas pseudoalcaligenes. This new tecnique, which will be used to detect water and soil contamination, will also become a platform so that in the future we could incorporate a gene that allows the bacteria, not only detect, but also degrade these compounds using a method that is accessible and environmentally friendly through bioremediation. In order for the bacteria to degrade cyanide, it needs not only the metabolic route, but a sort of resistance to these compounds. For this reason, we will also add cyanide resistant genes (cioAB) to elevate the detection potential of our biosensor. This will provide the bacteria an alternate route for the electron transportation insensitive to cyanide</font></div>
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<div><font color="#969696" face="Verdana" class="ws8"><BR>Cyanide is consider an extremely harmful toxic for the enviroment and living organisms since it inhibits the cellular respiration at the level of electron transport chain.</font></div>
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<div><font color="#969696" face="Verdana" class="ws8"><BR>In the industrial sector, cyanide is used to produce paper, paints, textiles and plastics. It is also very common in the mining industry as a way to recover metals. Due to its application and toxicity, it is necessary to monitor and keep the cyanide at a subtoxic level. </font></div>
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Revision as of 21:06, 15 July 2012



























Genetically Modified E. coli as an Alternative Biosensor of Cyanide and Cyanide Coumpunds


Cyanide is consider an extremely harmful toxic for the enviroment and living organisms since it inhibits the cellular respiration at the level of electron transport chain.

In the industrial sector, cyanide is used to produce paper, paints, textiles and plastics. It is also very common in the mining industry as a way to recover metals. Due to its application and toxicity, it is necessary to monitor and keep the cyanide at a subtoxic level.


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