Team:IvyTech-South Bend/Project

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(Overall project)
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|You can write a background of your team here.  Give us a background of your team, the members, etc.  Or tell us more about something of your choosing.
 
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|Our iGEM team is composed primarily of Ivy Tech Biotech students, most of which are getting credit for their program capstone course (BIOT 280).
|Our iGEM team is composed primarily of Ivy Tech Biotech students, most of which are getting credit for their program capstone course (BIOT 280).
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''Tell us more about your project.  Give us background.  Use this is the abstract of your project.  Be descriptive but concise (1-2 paragraphs)''
 
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<!--- The Mission, Experiments --->
<!--- The Mission, Experiments --->
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= Abstract =
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'''Anyone who wants to enjoy bathing in natural bodies of water in or near areas populated by humans or livestock may encounter unsafe levels of enteric bacteria.  Contemporary methods of assessing water quality have a slow turn-around time so we have taken steps to perfect a biosensor for rapidly indirectly quantifying the presence of enteric bacteria in natural water samples through the detection of quorum sensing factors.  Previous IGEMS have exploited the LuxR/pLux system for the detection of a variety of N-acylhomoserine lactone autoinducers.  We have taken steps to further perfect a biosensor based on this device by transforming a gram-positive bacteria host to eliminate any background autoinducer signal and to build-in an enzymatic “read-out” to obtain an analog output.  We envision the development of a handheld monitor that uses this IGEM biosensor, immobilized on input paper strips, to rapidly detect unsafe levels of enteric bacteria in water samples.
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== '''Overall project''' ==
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Final Track Selection          (how qualified)
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1.      Environment                      (water quality monitoring)
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= Abstract =
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2.      Health/Medicine          (assessing health risks)
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3.      Manufacturing            (a device to detect water quality)
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'''
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'''Anyone who wants to enjoy bathing in natural bodies of water in or near areas populated by humans or livestock may encounter unsafe levels of enteric bacteria.  Contemporary methods of assessing water quality have a slow turn-around time so we have taken steps to perfect a biosensor for rapidly indirectly quantifying the presence of enteric bacteria in natural water samples through the detection of quorum sensing factors.  Previous IGEMS have exploited the LuxR/pLux system for the detection of a variety of N-acylhomoserine lactone autoinducers.  We have taken steps to further perfect a biosensor based on this device by transforming a gram-positive bacteria host to eliminate any background autoinducer signal and to build-in an enzymatic “read-out” to obtain an analog output.  We envision the development of a handheld monitor that uses this IGEM biosensor, immobilized on input paper strips, to rapidly detect unsafe levels of enteric bacteria in water samples.
 
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Final Track Selection          (how qualified)
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== '''Overall project''' ==
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1.      Environment                      (water quality monitoring)
 
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2.      Health/Medicine          (assessing health risks)
 
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3.      Manufacturing            (a device to detect water quality)
 
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'''
 
== Project Details==
== Project Details==

Revision as of 04:36, 21 September 2010


Our iGEM team is composed primarily of Ivy Tech Biotech students, most of which are getting credit for their program capstone course (BIOT 280).

Contents

Abstract

Anyone who wants to enjoy bathing in natural bodies of water in or near areas populated by humans or livestock may encounter unsafe levels of enteric bacteria. Contemporary methods of assessing water quality have a slow turn-around time so we have taken steps to perfect a biosensor for rapidly indirectly quantifying the presence of enteric bacteria in natural water samples through the detection of quorum sensing factors. Previous IGEMS have exploited the LuxR/pLux system for the detection of a variety of N-acylhomoserine lactone autoinducers. We have taken steps to further perfect a biosensor based on this device by transforming a gram-positive bacteria host to eliminate any background autoinducer signal and to build-in an enzymatic “read-out” to obtain an analog output. We envision the development of a handheld monitor that uses this IGEM biosensor, immobilized on input paper strips, to rapidly detect unsafe levels of enteric bacteria in water samples.


Final Track Selection (how qualified)

1. Environment (water quality monitoring)

2. Health/Medicine (assessing health risks)

3. Manufacturing (a device to detect water quality)



Overall project

Project Details

Part 2

The Experiments

Part 3

Results

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