Team:UC Chile/Biosafety

From 2012.igem.org

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In this way it would kill any gram negative bacteria unless grown at all times under higher magnesium sulfate concentrations than those found in nature. In consequence, cells expressing the gen would be unable to thrive in an environment other than strict laboratory conditions.
In this way it would kill any gram negative bacteria unless grown at all times under higher magnesium sulfate concentrations than those found in nature. In consequence, cells expressing the gen would be unable to thrive in an environment other than strict laboratory conditions.
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Description : Although the mechanism for which Mg+2 interferes with the mE gene is not known, when Mg+2 concentrations of 0.2M are present, the mE gene does not exert any deleterious effect on bacteria.
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Description : Although the mechanism for which MgSO4 interferes with the mE gene is not known, when MgSO4 concentrations of 0.2M are present, the mE gene does not exert any deleterious effect on bacteria.
Our next goal is to test this biosafety mechanism by assembling a model construct to transform E. coli in order to characterize its effectiveness.
Our next goal is to test this biosafety mechanism by assembling a model construct to transform E. coli in order to characterize its effectiveness.

Revision as of 02:26, 27 September 2012

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