Team:Peking

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<a href="https://2013.igem.org/Team:Peking">Home</a>
<a href="https://2013.igem.org/Team:Peking">Home</a>
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<a href="https://2013.igem.org/Team:Peking/Project">Project</a>
<a href="https://2013.igem.org/Team:Peking/Project">Project</a>
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                                 <li><a href="https://2013.igem.org/Team:Peking/Project/SensorMining">Biosensor Mining</a></li>
                                 <li><a href="https://2013.igem.org/Team:Peking/Project/SensorMining">Biosensor Mining</a></li>
<li><a href="https://2013.igem.org/Team:Peking/Project/BioSensors">Biosensors</a></li>
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<li><a href="https://2013.igem.org/Team:Peking/Project/Plugins">Adaptors</a></li>
<li><a href="https://2013.igem.org/Team:Peking/Project/Plugins">Adaptors</a></li>
<li><a href="https://2013.igem.org/Team:Peking/Project/BandpassFilter">Band-pass Filter</a></li>
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                                <li><a href="https://2013.igem.org/Team:Peking/Project/Devices">Devices</a></li>
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                                <li><a href="https://2013.igem.org/Team:Peking/Model">Band-pass Filter</a></li>
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                                <li><a href="https://2013.igem.org/Team:Peking/ModelforFinetuning">Biosensor Fine-tuning</a></li>
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<li id="PKU_navbar_HumanPractice" class="Navbar_Item" style="width:120px">
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<li><a href="https://2013.igem.org/Team:Peking/HumanPractice/FactoryVisit">Factory Visit</a></li>
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                                 <li><a href="https://2013.igem.org/Team:Peking/HumanPractice/Questionnaire">Questionnaire Survey</a></li>
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                                 <li><a href="https://2013.igem.org/Team:Peking/HumanPractice/iGEMWorkshop">Team Coummunication</a></li>
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<li><a href="https://2013.igem.org/Team:Peking/HumanPractice/FactoryVisit">Visit and Interview</a></li>
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<li><a href="https://2013.igem.org/Team:Peking/HumanPractice/ModeliGEM">Model iGEM</a></li>
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                                 <li><a href="https://2013.igem.org/Team:Peking/HumanPractice/ModeliGEM">Practical Analysis</a></li>
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<li><a href="https://2013.igem.org/Team:Peking/HumanPractice/iGEMWorkshop">Team Communication</a></li>
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<h1 id="ProjectName">Aromatics Scouts<img id="LittleScout" src="https://static.igem.org/mediawiki/igem.org/8/8a/Peking2013_home_Telescope.png" /></h1>
<h1 id="ProjectName">Aromatics Scouts<img id="LittleScout" src="https://static.igem.org/mediawiki/igem.org/8/8a/Peking2013_home_Telescope.png" /></h1>
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                 <h1 id="ProjectSubname">A Comprehensive Biosensor Toolkit to Profile Aromatics in the Environment</h1>
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                 <h1 id="ProjectSubname">A Comprehensive Biosensor Toolkit for Profiling Aromatic Compounds in the Environment</h1>
   
   
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<p id="PreLocation">
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<B>★Presentation:</B> Room 34-101, Saturday 12:30 PM, Session 2
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      &ensp;&ensp;&ensp;&ensp;<B>★Poster:</B> Sunday, #13 (Stata)
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         <img id="MajorBodyBackground" src="https://static.igem.org/mediawiki/igem.org/9/97/Peking2013_Home_background.jpg" />
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               <p id="AbstractContent">Monitoring aromatic compounds in the environment remains a substantial challenge today. Noting the power of biosensors for quick and convenient testing, Peking iGEM has developed a functionally comprehensive biosensor toolkit to profile aromatics in the environment.  
               <p id="AbstractContent">Monitoring aromatic compounds in the environment remains a substantial challenge today. Noting the power of biosensors for quick and convenient testing, Peking iGEM has developed a functionally comprehensive biosensor toolkit to profile aromatics in the environment.  
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Transcriptional regulators that each senses a specific class of aromatics were first bioinformatically determined; they were then utilized to build a comprehensive set of biosensor circuits. Characterization on the detection profiles of individual biosensors and their orthogonality/crosstalk proved that these biosensors are really high-performance to profile aromatics in water.  
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Transcriptional regulators that each detect a specific class of aromatics were first bioinformatically determined; and then utilized to build a comprehensive set of biosensor circuits. Characterization on the detection profiles of individual biosensors and the orthogonality/crosstalk between them proved that these biosensors are very capable at profiling aromatics present in water.  
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Moreover, for the ease of practical applications, two types of genetic devices were also developed as plug-ins for biosensors: "Adaptors", a set of conceptually novel devices to convert undetectable chemicals into detectable aromatics, and "Band-pass Filter", a "concentration filter" that allows the detection of analyte concentration within a specific range.  
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Moreover, for the ease of practical applications, two types of genetic devices were also developed as plug-ins for biosensors: "Adaptors", a set of conceptually novel devices to convert undetectable compounds into detectable compounds, and "Band-pass Filter", a "concentration filter" that allows the detection of analyte concentration within a specific range.  
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We expect that these novel biosensors, together with the plug-in devices, will serve as intriguing synthetic biological tools for diverse practical applications.
We expect that these novel biosensors, together with the plug-in devices, will serve as intriguing synthetic biological tools for diverse practical applications.
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                     <img id="Appendix1Icon" class="AppendixIcon" src="https://static.igem.org/mediawiki/igem.org/1/13/Peking2013_home_appendix1icon.png" />
                     <img id="Appendix1Icon" class="AppendixIcon" src="https://static.igem.org/mediawiki/igem.org/1/13/Peking2013_home_appendix1icon.png" />
                     <p>The core component of our biosensor toolkit is the transcriptional regulators that sense aromatics. For the comprehensiveness of aromatics-sensing, a data-mining process was conducted to mine transcriptional regulators for each typical class of aromatics from the database Uniprot. </p>
                     <p>The core component of our biosensor toolkit is the transcriptional regulators that sense aromatics. For the comprehensiveness of aromatics-sensing, a data-mining process was conducted to mine transcriptional regulators for each typical class of aromatics from the database Uniprot. </p>
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                     <a href="">LEARN MORE</a>
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                     <a href="https://2013.igem.org/Team:Peking/Project/SensorMining">LEARN MORE</a>
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                     <h1 class="AppendixHeadLine">Biosensors</h1>
                     <h1 class="AppendixHeadLine">Biosensors</h1>
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                     <p>A comprehensive set of biosensor circuits has been implemented using the aromatics-sensing transcriptional regulators. Each biosensor has a specific aromatics-sensing profile. Furthermore, the orthogonality of their sensing profiles was carefully assessed for practical applications.</p>
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                     <p>A comprehensive set of biosensor circuits have been implemented using the aromatics-sensing transcriptional regulators. Each biosensor has a specific aromatics-sensing profile. Furthermore, the orthogonality of their sensing profiles was carefully assessed for practical applications.</p>
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                     <a href="">LEARN MORE</a>
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                     <a href="https://2013.igem.org/Team:Peking/Project/BioSensors">LEARN MORE</a>
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               <h1 id="Appendix3Title"><i>Convert the undetectable into<br/>the detectable</i></h1>
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               <h1 id="Appendix3Title"><i>Converting the undetectable into<br/>the detectable</i></h1>
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                     <h1 class="AppendixHeadLine">Adaptors</h1>
                     <h1 class="AppendixHeadLine">Adaptors</h1>
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                     <p> To expand the detection profiles of some biosensors, enzymes of aromatics-metabolizing were gleaned from natural metabolic pathways, working as Adaptors to convert undetectable chemicals into detectable aromatics when coupled with biosensor circuits.</p>
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                     <p> To expand the detection profiles of some biosensors, aromatics-metabolizing enzymes were taken from natural metabolic pathways, working as Adaptors to convert undetectable chemicals into detectable aromatics when coupled with biosensor circuits.</p>
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                     <a href="">LEARN MORE</a>
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                     <a href="https://2013.igem.org/Team:Peking/Project/Plugins">LEARN MORE</a>
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               <h1 id="Appendix4Title"><i>Rapidly tell the concentration <br/> of the analyte</i></h1>
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               <h1 id="Appendix4Title"><i>Rapidly determining <br/> the analyte concentration</i></h1>
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                     <p>For the ease of practical analysis, a genetic device called "Band-pass Filter" has been constructed to allow the detection of analyte concentration within a specific range. Biosensors equipped with the Band-pass Filter can robustly quantify the aromatics in environmental samples. </p>
                     <p>For the ease of practical analysis, a genetic device called "Band-pass Filter" has been constructed to allow the detection of analyte concentration within a specific range. Biosensors equipped with the Band-pass Filter can robustly quantify the aromatics in environmental samples. </p>
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                     <a href="">LEARN MORE</a>
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                     <a href="https://2013.igem.org/Team:Peking/Project/BandpassFilter">LEARN MORE</a>
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               <h1 id="Appendix5Title"><i>Resonate to bridge the gap<br/>between minds</i></h1>
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               <h1 id="Appendix5Title"><i>Communications, Questionnaire survey,  <br/>Factory Visit</i> and interview</h1>
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                     <h1 class="AppendixHeadLine">Human Practice</h1>
                     <h1 class="AppendixHeadLine">Human Practice</h1>
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                     <p>To obtain the information about public awareness and the situation of aromatics pollution, a survey including factory visiting and questionnaires has been conducted. We also guided an iGEM HS team and held "Model iGEM" as a competition without competitiveness.</p>
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                     <p>To obtain the information about public awareness and the situation of aromatics pollution, a survey including factory visit and questionnaires has been conducted. We also guided an iGEM HS team and held "Model iGEM" as a competition without competitiveness.</p>
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                     <a href="">LEARN MORE</a>
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                     <a href="https://2013.igem.org/Team:Peking/HumanPractice">LEARN MORE</a>
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Latest revision as of 18:10, 28 October 2013

Aromatics Scouts

A Comprehensive Biosensor Toolkit for Profiling Aromatic Compounds in the Environment

★Presentation: Room 34-101, Saturday 12:30 PM, Session 2     ★Poster: Sunday, #13 (Stata)

Monitoring aromatic compounds in the environment remains a substantial challenge today. Noting the power of biosensors for quick and convenient testing, Peking iGEM has developed a functionally comprehensive biosensor toolkit to profile aromatics in the environment.

Transcriptional regulators that each detect a specific class of aromatics were first bioinformatically determined; and then utilized to build a comprehensive set of biosensor circuits. Characterization on the detection profiles of individual biosensors and the orthogonality/crosstalk between them proved that these biosensors are very capable at profiling aromatics present in water.

Moreover, for the ease of practical applications, two types of genetic devices were also developed as plug-ins for biosensors: "Adaptors", a set of conceptually novel devices to convert undetectable compounds into detectable compounds, and "Band-pass Filter", a "concentration filter" that allows the detection of analyte concentration within a specific range.

We expect that these novel biosensors, together with the plug-in devices, will serve as intriguing synthetic biological tools for diverse practical applications.

Mining aromatics-sensing Biobricks
from the genomic database

Biosensor Mining

The core component of our biosensor toolkit is the transcriptional regulators that sense aromatics. For the comprehensiveness of aromatics-sensing, a data-mining process was conducted to mine transcriptional regulators for each typical class of aromatics from the database Uniprot.

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High-performance, profile-
specific biosensors

Biosensors

A comprehensive set of biosensor circuits have been implemented using the aromatics-sensing transcriptional regulators. Each biosensor has a specific aromatics-sensing profile. Furthermore, the orthogonality of their sensing profiles was carefully assessed for practical applications.

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Converting the undetectable into
the detectable

Adaptors

To expand the detection profiles of some biosensors, aromatics-metabolizing enzymes were taken from natural metabolic pathways, working as Adaptors to convert undetectable chemicals into detectable aromatics when coupled with biosensor circuits.

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Rapidly determining
the analyte concentration

Band-pass Filter

For the ease of practical analysis, a genetic device called "Band-pass Filter" has been constructed to allow the detection of analyte concentration within a specific range. Biosensors equipped with the Band-pass Filter can robustly quantify the aromatics in environmental samples.

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Communications, Questionnaire survey,
Factory Visit
and interview

Human Practice

To obtain the information about public awareness and the situation of aromatics pollution, a survey including factory visit and questionnaires has been conducted. We also guided an iGEM HS team and held "Model iGEM" as a competition without competitiveness.

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