Team:Leeds
From 2013.igem.org
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==A biological system designed to detect the presence of pathogens in water samples== | ==A biological system designed to detect the presence of pathogens in water samples== | ||
Micro-Beagle is a novel reporter system for E-coli that, as an iGEM first, has been designed to dynamically detect arbitrary target solids (including other cells) through a mechanism activated by cell surface binding. | Micro-Beagle is a novel reporter system for E-coli that, as an iGEM first, has been designed to dynamically detect arbitrary target solids (including other cells) through a mechanism activated by cell surface binding. | ||
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- | [[File:Leeds_NEWBS3image.png| | + | [[File:Leeds_NEWBS3image.png|750px|center|What can microBeagle do for you?|link=http://www.purefilteredwater.com/bsf.htm|frameless]] |
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Micro-Beagle was initially developed to address the need for a low cost, energy efficient and robust tool to be used to assess the effectiveness of current water purification systems. As the Micro-Beagle is intended to operate at a low cost it is ideal for use in low-income areas where the testing of water purification techniques cannot be maintained at an acceptable frequency. | Micro-Beagle was initially developed to address the need for a low cost, energy efficient and robust tool to be used to assess the effectiveness of current water purification systems. As the Micro-Beagle is intended to operate at a low cost it is ideal for use in low-income areas where the testing of water purification techniques cannot be maintained at an acceptable frequency. | ||
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Micro-Beagle is designed to also be a modular system, utilising Ice Nucleation Protein to express and position target-binding peptides on the cell surface. Target binding induces membrane stress that activates the Cpx signalling pathway, and Micro-Beagle thus utilises a promoter from this pathway (pCpxR) to initiate expression of a reporter protein, such as GFP. | Micro-Beagle is designed to also be a modular system, utilising Ice Nucleation Protein to express and position target-binding peptides on the cell surface. Target binding induces membrane stress that activates the Cpx signalling pathway, and Micro-Beagle thus utilises a promoter from this pathway (pCpxR) to initiate expression of a reporter protein, such as GFP. | ||
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As a proof of concept, we have used silica beads as a model diagnostic target (a pathogen surrogate) and the silica-binding “Si4” sequence as the target-binding peptide. | As a proof of concept, we have used silica beads as a model diagnostic target (a pathogen surrogate) and the silica-binding “Si4” sequence as the target-binding peptide. | ||
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We foresee Micro-Beagle being adapted for both the detection of waterborne pathogens and a variety of other diagnostic applications, and we envision future multisensor Micro-Beagles in which diverse pathogens can be simultaneously and quantitatively measured from a single water sample | We foresee Micro-Beagle being adapted for both the detection of waterborne pathogens and a variety of other diagnostic applications, and we envision future multisensor Micro-Beagles in which diverse pathogens can be simultaneously and quantitatively measured from a single water sample | ||
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Revision as of 00:31, 5 October 2013