Team:Leeds

From 2013.igem.org

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<font size="6">[[Team:Leeds/Project|The Microbeagle]]</font>
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==Who the heck are Leeds?==
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==A biological system designed to detect the presence of pathogens in water samples==
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[[File:Leeds_Map.png|200px|right|Leeds is a city in West Yorkshire, in the North of England. It has strong historical ties to the wool industry, and is famous for the Tetley brand of bitter ale|link=http://maps.google.co.uk/maps?q=Leeds+map&oe=utf-8&client=firefox-a&ie=UTF-8&ei=VHDuUci7J7CT0AWYoYCQDg&ved=0CAoQ_AUoAg|frameless]]We are the Leeds 2013 iGEM team, We are a group of undergrads from various courses all with a passion for synthetic biology!
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[[File:Leeds_NEWBS3image.png|400px|right|What can microBeagle do for you? (Additional Image credit to University of Virginia)|link=http://inhabitat.com/6-water-purifying-devices-for-clean-drinking-water-in-the-developing-world/|frameless]]<p align="justify">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.</p>
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<p align="justify">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.</p>
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<p align="justify">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.</p>
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<p align="justify">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.</p>
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<p align="justify">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.</p>
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==The Leeds 2013 iGEM team==
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[[File:Leeds_Map.png|300px|right|The Kings in the North|link=http://maps.google.co.uk/maps?q=Leeds+map&oe=utf-8&client=firefox-a&ie=UTF-8&ei=VHDuUci7J7CT0AWYoYCQDg&ved=0CAoQ_AUoAg|frameless]]
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We are the Leeds 2013 iGEM team, a group of undergrads from various courses at the University of Leeds, all with a passion for synthetic biology!
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==So what's the [[Team:Leeds/Project | Big Idea]]?==
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Leeds is a city in West Yorkshire, in the North of England. It has strong historical ties to the wool industry, and is famous for the Tetley brand of bitter ale.  
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Like the Beagle hunting dog chasing hares, our Micro-beagle is a biosensor designed to hunt down pathogens. Micro-beagle utilises the Cpx pathway and GFP, which, when it fluoresces can be seen with the naked eye.
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In order to achieve this we will have designed our biosensor to physically bind to antigens or particles. This binding will induce membrane stress activating the Cpx pathway. By placing the GFP gene downstream of the Cpx promoter, GFP protein will be produced following membrane stress consequently causing the cells tol fluoresce when the pathogen is present in the solution.
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As a proof of concept, we will be using silica beads as target analogue for pathogens. In order to bind to the beads will be expressing a silica binding peptide on the surface of the cells using Ice Nucleation Protein (INP). INP allows expression of any gene placed at its C terminus on the cell surface. The theory is that the silica binding peptide sequence can be easily swapped for a sequence of any antigen binding moiety and therefore enable us to detect any pathogen simply, quickly and cheaply.
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Upon completion of our project our suggested initial use for the Micro-Beagle will be a low cost easy to use test used to assess the efficacy of water treatment systems. However as stated earlier the detection system can easily be modified to allow any other large particles whose identification could be of value
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The University of Leeds is a [http://en.wikipedia.org/wiki/Red_brick_university British Red Brick] and member of the Russell Group and was officially formed as an independent university via Royal Charter from King Edward VII in 1904.
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<a href="http://www.youtube.com/watch?v=vMgjmikHjbo"><img border="0" src="https://static.igem.org/mediawiki/2013/f/f3/Leeds_SummaryVid.jpg" alt="Click to view on Youtube" width="500" height="281.25"></a>
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<p style="font-style:italic;color:red;border-style:solid;border-width:2px;border-color:red">Your browser either does not support HTML5 or cannot handle MediaWiki open video formats. Please consider upgrading your browser, installing the appropriate plugin or switching to a Firefox or Chrome install.</p>
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Latest revision as of 03:52, 5 October 2013

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Back to iGEM Main Page
Welcome to the Leeds Wiki!
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iGEM Leeds Facebook
iGEM Leeds Twitter
iGEM Leeds Youtube
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awesome looking header


The Microbeagle

A biological system designed to detect the presence of pathogens in water samples

What can microBeagle do for you? (Additional Image credit to University of Virginia)

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 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 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.

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.

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.


The Leeds 2013 iGEM team

The Kings in the North

We are the Leeds 2013 iGEM team, a group of undergrads from various courses at the University of Leeds, all with a passion for synthetic biology!
Leeds is a city in West Yorkshire, in the North of England. It has strong historical ties to the wool industry, and is famous for the Tetley brand of bitter ale.
The University of Leeds is a [http://en.wikipedia.org/wiki/Red_brick_university British Red Brick] and member of the Russell Group and was officially formed as an independent university via Royal Charter from King Edward VII in 1904.


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Geneious, our fine sponsors and suppliers of software Bioline, our fine sponsors and suppliers of equipment Qiagen, our fine sponsors and suppliers of PCR kits
Bangs Laboratories, our fine sponsors and suppliers of silica beads
Leeds Homepage