Team:Tokyo Tech/Project

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<title>Tokyo_Tech</title>
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<a href="https://2014.igem.org/Main_Page"><img src="https://static.igem.org/mediawiki/2014/thumb/8/84/Tokyo_Tech_iGEM_logo.png/794px-Tokyo_Tech_iGEM_logo.png" width="90" /></a></div>
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<li><a href="#">Experiment</a>
<li><a href="#">Experiment</a>
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        <li><a href="https://2014.igem.org/Team:Tokyo_Tech/Experiment/C4HSL-dependent_3oxoC12HSL_production" style="width:400px; margin-left:-135px;">C4HSL-dependent 3oxoC12HSL production</a></li>
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        <li><a href="https://2014.igem.org/Team:Tokyo_Tech/Experiment/Plux and Prhl reporter assay" style="width:400px; margin-left:-135px;">Plux and Prhl reporter assay </a></li>
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        <li><a href="https://2014.igem.org/Team:Tokyo_Tech/Experiment/3oxoC12HSL-dependent_C4HSL_production" style="width:400px; margin-left:-135px;">3oxoC12HSL-dependent C4HSL production</a></li>
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        <li><a href="https://2014.igem.org/Team:Tokyo_Tech/Experiment/Prhl_reporter_assay" style="width:400px; margin-left:-135px;">Improved Prhl reporter assay </a></li>
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        <li><a href="https://2014.igem.org/Team:Tokyo_Tech/Experiment/Symbiosis_confirmation_by_co-culture" style="width:400px; margin-left:-135px;">Symbiosis confirmation by co-culture </a></li>
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        <li><a href="https://2014.igem.org/Team:Tokyo_Tech/Experiment/C4HSL-dependent_3OC12HSL_production" style="width:400px; margin-left:-135px;">C4HSL-dependent 3OC12HSL production</a></li>
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        <li><a href="https://2014.igem.org/Team:Tokyo_Tech/Experiment/Prhl_reporter_assay" style="width:400px; margin-left:-135px;">Prhl reporter assay </a></li>
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        <li><a href="https://2014.igem.org/Team:Tokyo_Tech/Experiment/3OC12HSL-dependent_C4HSL_production" style="width:400px; margin-left:-135px;">3OC12HSL-dependent C4HSL production</a></li>
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        <li><a href="https://2014.igem.org/Team:Tokyo_Tech/Experiment/Symbiosis_confirmation_by_co-culture" style="width:400px; margin-left:-135px;">Mutualism Confirmation ~Co-culture Assay~</a></li>
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<li><a href="https://2014.igem.org/Team:Tokyo_Tech/Modeling">Modeling</a></li>
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<li><a href="#">Modeling</a>
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                          <ul>
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                              <li><a href="https://2014.igem.org/Team:Tokyo_Tech/Modeling/Overview"  style="width:400px; margin-left:-135px;">Overview</a></li>
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                              <li><a href="https://2014.igem.org/Team:Tokyo_Tech/Modeling/Growth Conditions For Company And Customer"  style="width:400px; margin-left:-135px;">Growth Conditions For Company And Customer</a></li>
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                              <li><a href="https://2014.igem.org/Team:Tokyo_Tech/Modeling/Analysis of C4HSL-dependent Switch" style="width:400px; margin-left:-135px;">Analysis of C4HSL-dependent Switch</a></li>
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                              <li><a href="https://2014.igem.org/Team:Tokyo_Tech/Modeling/Economic Wave"  style="width:400px; margin-left:-135px;">Economic Wave</a></li>
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                          </ul>
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                        </li>
<li><a href="https://2014.igem.org/Team:Tokyo_Tech/Parts">Parts</a></li>
<li><a href="https://2014.igem.org/Team:Tokyo_Tech/Parts">Parts</a></li>
<li><a href="https://2014.igem.org/Team:Tokyo_Tech/Policy_and_Practices" style="height:50px; padding-top:3px;">Policy and Practices</a></li>
<li><a href="https://2014.igem.org/Team:Tokyo_Tech/Policy_and_Practices" style="height:50px; padding-top:3px;">Policy and Practices</a></li>
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      <h2 class="title"><a href="https://2014.igem.org/Team:Tokyo_Tech/Policy_and_Practice">Project</a></h2>
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      <h2 class="title">Project</h2>
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             <span class="meta">Learning economics by Bank <em>E. coli</em> </span>
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             <span class="meta">Economy learning with Bank E.coli </span>
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                      <p align="center" class="title-small">Contents</p>
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              <p align="left" class="info-24"><a href="#1">1. Project Planning: Interaction with General Public</a></p>  
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              <p align="left" class="info-24"><a href="#2">2. Mutualism between Company and Customer</a></p>
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                      <p align="left" class="info-18"><a href="#2.1">2.1 Molecular Basis of Mutualism</a></p>
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                      <p align="left" class="info" style="text-indent:40px;"><a href="#2.1.1">2.1.1 Company</a></p>
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                      <p align="left" class="info" style="text-indent:40px;"><a href="#2.1.2">2.1.2 Customer</a></p>
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                      <p align="left" class="info-18"><a href="#2.2">2.2 Native Prhl promoter does not satisfy
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requirement from system analysis</a></p>
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                      <p align="left" class="info-18"><a href="#2.3">2.3 The improvement of Prhl promoter</a></p>
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                      <p align="left" class="info-18"><a href="#2.4">2.4 AHL-dependent responses of Company <em>E. coli</em> with improved promoter and Customer <em>E. coli</em></a></p>
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                      <p align="left" class="info" style="text-indent:40px;"><a href="#2.4.1">2.4.1 Company with improved promoter</a></p>
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                      <p align="left" class="info" style="text-indent:40px;"><a href="#2.4.2">2.4.2 Customer</a></p>
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                      <p align="left" class="info-18"><a href="#2.5">2.5 Assay of symbiosis between Company and Customer by co-culture</a></p>
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      <p align="left" class="info-24"><a href="#3">3. Addition of Bank</a></p>
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                      <p align="left" class="info-18"><a href="#3.1">3.1 Motivation</a></p>
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                      <p align="left" class="info-18"><a href="#3.2">3.2 Genetic circuit design of Bank <em>E. coli</em></a></p>
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                      <p align="left" class="info" style="text-indent:40px;"><a href="#3.2.1">3.2.1 Distribution state</a></p>
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                      <p align="left" class="info" style="text-indent:40px;"><a href="#3.2.2">3.2.2 Change to Collection State </a></p>
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                      <p align="left" class="info" style="text-indent:40px;"><a href="#3.2.3">3.2.3 Collection State</a></p>
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                      <p align="left" class="info" style="text-indent:40px;"><a href="#3.2.4">3.2.4 Change to distribution state</a></p>
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                      <p align="left" class="info-18"><a href="#3.3">3.3 Modeling:Bank actually helps the development of economy</a></p>
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                      <p align="left" class="info-24"><a href="#4">4. Economic Wave: Advice from Entrepreneurs</a></p>
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      <p align="left" class="info-24"><a href="#5">5. Project Evaluation</a></p>
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      <p align="left" class="info-24"><a href="#6">6. Reference</a></p>
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                      <div class="title" style="clear: both;">&nbsp;</div>
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              <div class="entry-long" style="clear: both;">&nbsp;<a name="1" id="1"></a></div>
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              <div id="gototop"><a href="#"><img src="https://static.igem.org/mediawiki/2014/5/55/Tokyo_Tech_Go-to-top-icon.png" height="50" /></a></div>
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                   <td width="890"><div align="center" class="title-small">Project</div></td>
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                   <td colspan="2">&nbsp;</td>
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                   <td>&nbsp;</td>
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                   <td colspan="2"><h2>1.Project Planning: Interaction with General Public</h2></td>
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                   <td><h2>1. Abstract</h2></td>
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                   <td colspan="2"><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_2-1-1.jpg"><img src="https://static.igem.org/mediawiki/2014/c/cb/Tokyo_Tech_2-1-1.jpg" alt="" width="500" /></a></div></td>
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                   <td>&nbsp;</td>
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                   <td colspan="2"><div align="center"><strong>Fig. 2-1-1.</strong> Our  members discussing about the project with the visitor </div></td>
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                   <td><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_Fig.2-1-1_Relationship_among_three_type_of_E.coli.jpg"><img src="https://static.igem.org/mediawiki/2014/thumb/d/d5/Tokyo_Tech_Fig.2-1-1_Relationship_among_three_type_of_E.coli.jpg/800px-Tokyo_Tech_Fig.2-1-1_Relationship_among_three_type_of_E.coli.jpg" alt="" width="480" height="360" /></a></div></td>
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                   <td colspan="2">&nbsp;</td>
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                  <td colspan="2"><p class="info-18">This year, we decided to make an educational tool for economics by using <em>E. coli</em>. This tool, which is supported with BioBrick parts and modeling, can be easily adapted to not only iGEMers, but also other students majoring in biology who are great human resource of innovation. </p></td>
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                  <td height="9" colspan="2"><p class="info-18">At the project planning stage of this year, we took part in a poster session held at the school festival of the University of Tokyo. We showed our preliminary plans, such as <em>E. coli</em> solar battery, and fertilizer. (See <a href="https://2014.igem.org/Team:Tokyo_Tech/Policy_and_Practices#Poster">Policy and Practice</a> for more details) (Fig. 2-1-1). After communicating with people engaged in business, we realized that we do not know much about economic system. This lack of knowledge, which may be common with other iGEMers, can be an obstacle for innovation from our research activity. In order to solve this, we thought of making an educational tool for economics by using <em>E. coli</em> and BioBrick, which are familiar for iGEMers.</p></td>
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                  <td height="9" colspan="2">&nbsp;</td>
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                  <td height="9" colspan="2"><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_Relationship.png"><img src="https://static.igem.org/mediawiki/2014/3/3b/Tokyo_Tech_Relationship.png" alt="" width="500" /></a></div></td>
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                  <td height="9" colspan="2"><div align="center"><strong>Fig. 2-1-2.</strong> Relationship  among three types of <em>E. coli</em></div></td>
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                  <td height="9" colspan="2">&nbsp;</td>
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                  <td height="9" colspan="2"><p class="info-18">Our educational tool has three types of <em>E. coli</em>. They are Bank, Company, and Customer (Fig. 2-1-2).Like the exchange of money and products in the real economy, we designed these three <em>E. coli</em> to exchange Product and Money in the tool’s economic system. The Company makes Product, and sells them to the Customer. On the other hand, the Customer pays Money to buy the Product made by the Company. With this mutual action, the Customer and the Company build mutualistic relationship. Additionally, the Bank regulates the Money supply in the market. It functions as a central bank like FRB and European Central Bank (ECB) (see <a href="http://en.wikipedia.org/wiki/Central_bank">here</a> for more information about central bank).  Here, Product and Money were represented by 3OC12HSL and C4HSL, the signaling molecules of the quorum sensing, respectively.</p></td>
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                  <td colspan="2">&nbsp;</td>
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                  <td colspan="2" class="entry-long">&nbsp;<a name="2" id="2"></a></td>
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                  <td colspan="2">&nbsp;</td>
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              <div align="center"> Fig.2-1-1Relationship  among three type of E.coli</div>
 
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                 <td colspan="2">&nbsp;</td>
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                <td colspan="2"><h2>2. Mutualism  between Company and Customer</h2></td>
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                 <td colspan="2">&nbsp;<a name="2.1" id="2.1"></a></td>
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                  <td colspan="2"><p class="info-18">We designed educational tool for economics has three types of E. coli: Bank, Company, and Customer. (Fig. 2-1-1). Like the exchange  of money and products in the real economy, we make these E. coli exchange products  and money in this system. Company makes products, and sell them to customers.  Customer pays money for the products made by Company. Here, signal molecule of  the quorum sensing. 3OC12HSL and C4HSL represent products and money.
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                <td colspan="2"><h1>2.1 Molecular  Basis of Mutualism</h1></td>
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                <td colspan="2"><p align="justify" class="info-18">We  designed two genetically engineered <em>E. coli</i></em>, Company and Customer (Fig. 2-1-3), each of which produces its own quorum sensing molecule  for the mutualism between the two. Since Company and Customer need  each other to continue the now-in-state economy, we designed the mutualism  between the two <em>E. coli</em>. Company is dependent on the Money  supplied by Customer. On the other hand, Customer is dependent on the Product supplied by Company. The detailed design of the circuit is shown in the following sections.</br><a href="https://2014.igem.org/Team:Tokyo_Tech/Project/Animation1">Click here to see all picture of Animation</a></p></td>
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                 <td colspan="2" class="entry-long">&nbsp;</td>
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                 <td colspan="2"><p align="center" class="info-18"><a href="https://2014.igem.org/File:Tokyo_Tech_Fig.2-1-2_Company_and_Customer_circuit_design.gif"><img src="https://static.igem.org/mediawiki/2014/a/a6/Tokyo_Tech_Fig.2-1-2_Company_and_Customer_circuit_design.gif" alt="" width="400" /></a></p></td>
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                 <td colspan="2"><h2>2. Interdependence between Company and Customer</h2></td>
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                 <td colspan="2"><div align="center"><strong>Fig. 2-1-3.</strong> The genetic circuit design of Company and Customer</div></td>
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                 <td colspan="2">&nbsp;<a name="2.1.1." id="2.1.1."></a></td>
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                 <td colspan="2" class="head">2.0 Overall function of the system</td>
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                 <td colspan="2" class="head">2.1.1.  Company</td>
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                 <td colspan="2">&nbsp;</td>
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                 <td width="445" height="39">&nbsp;</td>
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                <td width="445" rowspan="4"><p align="justify" class="info-18">In the  presence of C4HSL, which represents Money, Company can produce chloramphenicol-resistance  gene product (CmR) and LasI. CmR protects the Company from the antibiotic action  of chloramphenicol. LasI produces signaling molecule 3OC12HSL, which represents  the Product made by the Company. If there is not any C4HSL in the medium, Company cannot produce  CmR. This will lead to the growth inhibition of the Company, which represents the  Company’s bankruptcy.</p></td>
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                <td><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_The_genetic_circuit_Company.png"><img src="https://static.igem.org/mediawiki/2014/8/8c/Tokyo_Tech_The_genetic_circuit_Company.png" alt="" width="400" /></a></div></td>
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                <td><div align="center"><strong>Fig. 2-1-4.</strong> The genetic  circuit design of Company</div></td>
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                 <td>&nbsp;</td>
                 <td>&nbsp;</td>
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                <td>&nbsp;<a name="2.1.2" id="2.1.2"></a></td>
                 <td>&nbsp;</td>
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                 <td width="498" rowspan="2"><p class="info-18">We designed two genetically  engineered E. coli, Company and Customer.
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                 <td class="head">2.1.2 Customer</td>
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                  Their circuits are shown in Fig2-1-2
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                 <td>&nbsp;</td>
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                    </p>                  </td>
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                 <td width="392"><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_Fig.2-1-2_Company_and_Customer_circuit_design.jpg"><img src="https://static.igem.org/mediawiki/2014/d/d8/Tokyo_Tech_Fig.2-1-2_Company_and_Customer_circuit_design.jpg" alt="" width="300" /></a></div></td>
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                 <td><div align="center">                  Fig.2-1-2 Company and Customer circuit design</div></td>
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                 <td><p align="justify" class="info-18">The basic design of Customer’s circuit is the same as Company. In the presence of  3OC12HSL, which represents the Product, Customer produces CmR and RhlI. CmR  prevents the Customer from growth inhibition, and RhlI produces C4HSL, which  represents Money. If there is not any Product in the market, Customer cannot  produce CmR. This leads to the growth inhibition of Customer.</p></td>
 +
                <td><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_The_genetic_circuit_Customer.png"><img src="https://static.igem.org/mediawiki/2014/e/e3/Tokyo_Tech_The_genetic_circuit_Customer.png" alt="" width="400" /></a></div></td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="2"><p class="info-18">Since Company and Customer need  each other to continue now-in-state economy, we designed the  two  E. coli mutually  dependent. Company is dependent on money supplied by customer.  S ignaling  molecule C4HSL represents money supplied.  Customer  is dependent on products supplied by Company.  signaling molecule 3OC12HSL  represents the Products from company. Detailed design of circuit is shown in the  following sections. </p></td>
+
                 <td>&nbsp;</td>
 +
                <td><div align="center"><strong>Fig. 2-1-5.</strong> The genetic circuit design of Customer</div></td>
               </tr>
               </tr>
 +
              <tr>
 +
                <td>&nbsp;<a name="2.2" id="2.2"></a></td>
 +
                <td>&nbsp;</td>
 +
              </tr>
 +
              <tr>
 +
                <td colspan="2"><h1 style="line-height:normal;">2.2 Native Prhl Promoter does not satisfy  <br />
 +
                  requirement from system analysis</h1></td>
 +
                </tr>
 +
             
 +
              <tr>
 +
                <td colspan="2"><p class="info-18">From the simulation results (Fig. 2-1-6), we  noticed that the strengths of Prhl and Plux promoter need to be equally strong  in order to promote the growth of the two <em>E. coli</em>. If the  strength levels of Prhl and Plux promoters are in the red area, Company and  Customer can help the growth of each other. This means, both promoters need to  be strong and balanced for realizing the mutualism. However, if the strength  level is in the blue area, at least one of them cannot grow well. (See the <a href="https://2014.igem.org/Team:Tokyo_Tech/Modeling/Overview">Modeling page</a> for detailed analysis).</p>                  </td>
 +
              </tr>
 +
             
               <tr>
               <tr>
                 <td colspan="2">&nbsp;</td>
                 <td colspan="2">&nbsp;</td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="2"><h2>2.1 Company                </h2></td>
+
                 <td colspan="2"><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_2-1-6.jpg"><img src="https://static.igem.org/mediawiki/2014/5/58/Tokyo_Tech_2-1-6.jpg" alt="" width="500" /></a></div></td>
 +
              </tr>
 +
              <tr>
 +
                <td colspan="2"><div align="center"><strong>Fig. 2-1-6.</strong> The growth dependency of Prhl and Plux  promoters’ strength levels</div></td>
               </tr>
               </tr>
               <tr>
               <tr>
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               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="2" class="head">2.1.1C4HSL dependent 3OC12HSL excretion.</td>
+
                 <td colspan="2"><p align="justify" class="info-18">   We then checked whether the strength levels of Prhl and Plux promoters satisfy  the conditions described above. As shown in Fig. 2-1-7, the strength level of  Plux promoter was about 20- fold higher than that of Plux promoter. Although  RBS strength modulation under Plux promoter might compensate the imbalance  between AHL-synthase expressions under the two promoters, such modulation  corresponds to the decreased Plux activity which did not lead to any growth of  Customer and Company. Therefore, the improvement of Prhl promoter’s strength  level became necessary to meet the modeling results.</p>
 +
                  <div>
 +
                    <div> </div>
 +
                    <div> </div>
 +
                </div></td>
               </tr>
               </tr>
               <tr>
               <tr>
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               </tr>
               </tr>
               <tr>
               <tr>
-
                <td rowspan="6"><p align="justify" class="info-18">In the presence of C4HSL,  which represents money, Company can produce chloramphenicol resistance <u>gene (CmR) </u>and LasI. CmR protects Company from chloramphenicol antibiotic action. LasI produces signaling molecules 3OC12HSL,  representing Products  from Company. </p><p>We ascertained C4HSL dependent 3OC12HSL excretion in the experiment  shown in Fig. 2-1-4. We  measured the population of the cell in the presence of C4HSL. 具体説明欠けているThis result  confirmed that the company cell produces 3OC12HSL in the presence of C4HSL.</p>
+
                <td colspan="2"><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_The_result_of_Prhl_Plux.png"><img src="https://static.igem.org/mediawiki/2014/b/be/Tokyo_Tech_The_result_of_Prhl_Plux.png" alt="" width="500" /></a></div></td>
-
                </td>
+
-
                <td>&nbsp;</td>
+
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td width="392"><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_Fig.2-1-3_Company_excretes_3OC12HSL.jpg"><img src="https://static.igem.org/mediawiki/2014/4/42/Tokyo_Tech_Fig.2-1-3_Company_excretes_3OC12HSL.jpg" alt="" width="300" /></a></div></td>
+
                 <td colspan="2"><div align="center"><strong>Fig. 2-1-7.</strong> The result of Prhl, Plux promoter assay</div></td>
-
                </tr>
+
              </tr>
               <tr>
               <tr>
-
                 <td><div align="center">Fig.2-1-3 Company excretes 3OC12HSL<br />
+
                 <td colspan="2">&nbsp;<a name="2.3" id="2.3"></a></td>
-
                in the presence of C4HSL</div></td>
+
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td>&nbsp;</td>
+
                 <td colspan="2"><h1>2.3.  The improvement of Prhl promoter</h1></td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td width="392"><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_Fig.2-1-4_C4HSL_dependent_3OC12HSL.jpg"><img src="https://static.igem.org/mediawiki/2014/thumb/3/35/Tokyo_Tech_Fig.2-1-4_C4HSL_dependent_3OC12HSL.jpg/800px-Tokyo_Tech_Fig.2-1-4_C4HSL_dependent_3OC12HSL.jpg" alt="" width="300" /></a></div></td>
+
                 <td colspan="2"><span class="info-18">To meet the modeling results, we added three improved C4HSL-dependent promoters with high maximum expression  level by combinations of regulatory-protein binding sites. (Fig. 2-1-8)</span></td>
-
                </tr>
+
              </tr>
               <tr>
               <tr>
-
                 <td><div align="center">Fig.2-1-4 C4HSL dependent 3OC12HSL </div></td>
+
                 <td colspan="2">&nbsp;</td>
 +
              </tr>
 +
              <tr>
 +
                <td colspan="2"><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_Designs_of_tmproved_Prhl.jpg"><img src="https://static.igem.org/mediawiki/2014/2/2d/Tokyo_Tech_Designs_of_tmproved_Prhl.jpg" alt="" width="500" /></a></div></td>
 +
              </tr>
 +
              <tr>
 +
                <td colspan="2"><div align="center"><strong>Fig. 2-1-8.</strong> Designs of improved Prhl promoters</div></td>
               </tr>
               </tr>
-
             
 
               <tr>
               <tr>
                 <td colspan="2">&nbsp;</td>
                 <td colspan="2">&nbsp;</td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="2"><span class="head">2.1.2 C4HSL dependent cell growth</span></td>
+
                 <td colspan="2"><p align="justify" class="info-18">First, we designed a new Lux promoter with two RhlR  binding sites instead of two LuxR binding sites (Prhl(RR): <a href="http://parts.igem.org/Part:BBa_K1529320">BBa_K1529320</a>) as tried in a previous paper (Chuang 2009). To  evaluate the function of this promoter, we constructed Prhl(RR)-GFP plasmids  and measured the fluorescence intensity by flow cytometer. In the measurement,  we confirmed that GFP under the control of Prhl(RR) promoter showed about  20-fold higher in the fluorescence than that of the native Prhl promoter (<a href="http://parts.igem.org/Part:BBa_R0071">BBa_R0071</a>) (See  the <a href="https://2014.igem.org/Team:Tokyo_Tech/Experiment/Prhl_reporter_assay">Experiment page</a>)  (Fig. 2-1-9)</p></td>
 +
                </tr>
 +
             
 +
              <tr>
 +
                <td colspan="2"><p class="info-18">  However,  Prhl(RR) promoter showed a significant leak in the absence of C4HSL(See the <a href="https://2014.igem.org/Team:Tokyo_Tech/Experiment/Prhl_reporter_assay">Experiment page</a>). High level of leakage is not suitable for the  Company-Customer relationship because their mutualism will be broken.</p></td>
 +
                </tr>
 +
              <tr>
 +
                <td colspan="2"><p class="info-18">In order to lessen the leak while keeping higher expression  level than the native PRhl promoter, we newly designed two promoters, Prhl(LR)  (<a href="http://parts.igem.org/Part:BBa_K1529310">BBa_K1529310</a>) and Prhl(RL) (<a href="http://parts.igem.org/Part:BBa_K1529300">BBa_K1529300</a>). These promoters have one LuxR binding site and  one RhlR binding site. We changed either the former RhlR binding site of  Prhl(RR) promoter to LuxR binding site (Prhl(LR)), or the latter RhlR binding  site to Lux binding site (Prhl(RL)).</p></td>
 +
              </tr>
 +
              <tr>
 +
                <td colspan="2"><p class="info-18">One of our new promoter, Prhl(RL) (Fig. 2-1-9.lane  4), improved in its expression level while keeping the low leakage. GFP under  the control of this Prhl(RL) promoter showed about 82-fold higher in the  fluorescence with C4 addition compared to the fluorescence without C4 addition.  This is much higher than that of the native Prhl promoter, which is 22-fold.</p></td>
 +
              </tr>
 +
              <tr>
 +
                <td colspan="2"><p class="info-18">Although the other Prhl(LR) promoter (Fig. 2-1-9. lane 3) showed a higher maximum expression level, it showed a significant leak like Prhl(RR) promoter(Fig. 2-1-9. lane  2). GFP under the control of Prhl(LR) promoter showed about  17-fold higher in the fluorescence with C4 addition compared to the  fluorescence without C4 addition. However, the leak showed no less than 25-fold  higher than the native Prhl promoter. Thus we used our most improved Prhl(RL) (K1529320)  in the following experiments and modeling.</p></td>
               </tr>
               </tr>
               <tr>
               <tr>
Line 166: Line 286:
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td><p class="info-18">If there are no C4  in the  medium, Company cannot produce  CmR even in  the presence of chloramphenicol. This would lead  to  the death of Company, which represents Company’s bankruptcy.</p></td>
+
                 <td colspan="2"><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_The_improvement_of_Prhl_promoters.png"><img src="https://static.igem.org/mediawiki/2014/9/9a/Tokyo_Tech_The_improvement_of_Prhl_promoters.png" width="600" /></a></div></td>
-
                <td><div align="center"><a href="https://2014.igem.org/File:Fig.2-1-5_Company_cannot_grow_without_C4HSL.jpg"><img src="https://static.igem.org/mediawiki/2014/c/c3/Fig.2-1-5_Company_cannot_grow_without_C4HSL.jpg" width="300" /></a></div></td>
+
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td>&nbsp;</td>
+
                 <td colspan="2"><div align="center">
-
                <td><div align="center">Fig.2-1-5 Company cannot grow </div></td>
+
                  <div align="center"><strong>Fig. 2-1-9.</strong> The improvement of Prhl promoters</div>
 +
                </div></td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td>&nbsp;</td>
+
                 <td colspan="2">&nbsp;<a name="2.4" id="2.4"></a></td>
-
                <td>&nbsp;</td>
+
               </tr>
               </tr>
 +
  </table>
 +
  <table border="0">
               <tr>
               <tr>
-
                 <td><p class="info-18">We confirmed C4HSL dependent CmR production in the experiment  ( Fig. 2-1-6) . We measured  population of the cell in the presence of C4HSL. This result  confirmed that Company cell produces CmR in the presence of C4HSL.</p></td>
+
                 <td colspan="2"><h1 style="line-height:normal;">2.4. AHL-dependent responses of Company <em>E. coli</em> with improved promoter and Customer <em>E. coli</em></h1>
-
                <td><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_Fig.2-1-6_C4HSL_dependent_CmR_production_.jpg"><img src="https://static.igem.org/mediawiki/2014/thumb/2/27/Tokyo_Tech_Fig.2-1-6_C4HSL_dependent_CmR_production_.jpg/800px-Tokyo_Tech_Fig.2-1-6_C4HSL_dependent_CmR_production_.jpg" width="300" /></a></div></td>
+
                <a name="2.4.1" id="2.4.1"></a></td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td>&nbsp;</td>
+
                 <td colspan="2" class="head">2.4.1. Company with improved promoter</td>
-
                <td><div align="center">Fig.2-1-6 C4HSL dependent CmR production</div></td>
+
               </tr>
               </tr>
               <tr>
               <tr>
                 <td colspan="2">&nbsp;</td>
                 <td colspan="2">&nbsp;</td>
               </tr>
               </tr>
-
              </table>
 
-
  <table width="900" border="0">
 
               <tr>
               <tr>
-
                 <td colspan="3" class="head">2.2 Customer</td>
+
                 <td colspan="2"><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_Gene_circuit_of_Company_with_improved_promoter.png"><img src="https://static.igem.org/mediawiki/2014/d/d5/Tokyo_Tech_Gene_circuit_of_Company_with_improved_promoter.png" alt="" width="500" /></a></div></td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="3">&nbsp;</td>
+
                 <td colspan="2"><div align="center"><strong>Fig. 2-1-10.</strong> Genetic circuit of Company with
 +
                improved promoter</div></td>
               </tr>
               </tr>
 +
                <tr>
 +
                  <td colspan="2">&nbsp;</td>
 +
                </tr>
 +
                <tr>
 +
                <td colspan="2"><p class="info-18">For  construction of the C4HSL-dependent chloramphenicol resistance gene product  (CmR) and 3OC12HSL production module, we designed a new part Prhl(RL)-CmR-LasI.  (BBa_K1529302) (Fig. 2-1-10) In order to confirm the Company’s dependency on  C4HSL, we measured the growth of Company cell in the presence and absence of  C4HSL. After the induction, we added chloramphenicol into the medium and  measured the optical density for about 10 hours to estimate the concentration of the cell.</p></td>
 +
                </tr>
 +
             
               <tr>
               <tr>
-
                 <td width="300"><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_Fig.2-2-1_Customer_excretes_C4HSL.jpg"><img src="https://static.igem.org/mediawiki/2014/6/6e/Tokyo_Tech_Fig.2-2-1_Customer_excretes_C4HSL.jpg" width="260" /></a></div></td>
+
                 <td colspan="2"><p class="info-18">Without  induction of C4HSL, the cell cannot express CmR resistance gene and cannot  survive in the presence of chloramphenicol. As shown in Fig. 2-1-11, when C4HSL  is added to the culture, Company cell survived and increased. This result indicates that Company cell produced 3OC12HSL in response to C4HSL induction by the function of Prhl(RL)-CmR-LasI. From these
-
                <td width="300"><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_Fig.2-2-2_3OC12HSL_dependent_C4HSL_excretion.jpg"><img src="https://static.igem.org/mediawiki/2014/thumb/7/7b/Tokyo_Tech_Fig.2-2-2_3OC12HSL_dependent_C4HSL_excretion.jpg/800px-Tokyo_Tech_Fig.2-2-2_3OC12HSL_dependent_C4HSL_excretion.jpg" width="260" /></a></div></td>
+
experiments, we confirmed that a new part Prhl(RL)-CmR-LasI synthesized CmR and 3OC12HSL work as expected.</p>                   </td>
-
                <td width="300"><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_Fig.2-2-3_Customer_cannot_survive.jpg"><img src="https://static.igem.org/mediawiki/2014/c/c6/Tokyo_Tech_Fig.2-2-3_Customer_cannot_survive.jpg" width="260" /></a></div></td>
+
                </tr>
-
              </tr>
+
               <tr>
               <tr>
-
                 <td> <div align="center">Fig.2-2-1  Customer excretes C4HSL <br />
+
                 <td colspan="2">&nbsp;</td>
-
                in the presence  of3OC12HSL</div></td>
+
-
                <td> <div align="center">Fig.2-2-2  3OC12HSL dependent C4HSL excretion</div></td>
+
-
                <td> <div align="center">Fig.2-2-3  Customer cannot survive <br />
+
-
                without 3OC12HSL</div></td>
+
               </tr>
               </tr>
               <tr>
               <tr>
-
                <td colspan="3">&nbsp;</td>
+
                                  <td><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_Company_can_not_grow_2.png"><img src="https://static.igem.org/mediawiki/2014/7/78/Tokyo_Tech_Company_can_not_grow_2.png" alt="" width="700" /></a></div></td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td height="19" colspan="3"><p class="info-18">The basic design of circuit  is the same to Company. In the presence of 3OC12HSL, which  represent products, customer produces CmR and RhlI. CmR prevents customer from  dying, and RhlI produces C4HSL, representing money. 3OC12HSL dependent C4HSL  excretion was also confirmed in the experiment shown in Fig. 2-2-1.</p><p class="info-18">If there are no products in economy, customer cannot produce CmR. This leads to the death of customer.
+
                 <td colspan="2"><div align="center"><strong>Fig. 2-1-11.</strong> Company cannot grow without C4HSL</div></td>
-
                This was also confirmed in  the experiment shown in Fig. 2-2-2 </p></td>
+
                </tr>
-
                </tr>            
+
               <tr>
               <tr>
-
                 <td colspan="3">&nbsp;</td>
+
                 <td colspan="2">&nbsp;</td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="3"><span class="head">2.3 Interdependence between Company and Customer
+
                 <td colspan="2"><p class="info-18">To characterize the function of C4HSL-dependent  3OC12HSL production, we also performed a reporter assay by using lux reporter cell  (Fig. 2-1-12) First, the expression of LasI was induced by adding C4HSL to the  culture of the Company cell. Then, the supernatant of the culture was added to  the culture of reporter cell. The expression  of GFP in the reporter cell was measured by flow cytometer.</p></td>
-
                </span>
+
                 </tr>
-
                 <div></div></td>
+
              </table>
 +
      <table width="900" border="0">
 +
              <tr>
 +
                <td>&nbsp;</td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="3">&nbsp;</td>
+
                 <td><p align="justify" class="info-18">As  Fig. 2-1-12 shows, when the reporter cell E was incubated in the culture of the  induced Company cell, the fluorescence intensity of the reporter cell  increased. Comparing the results of the culture with the induced Company cell  and not induced Company cell, the reporter cell in the supernatant of induced  cell had 29-fold higher fluorescence intensity.</p></td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="3"><p class="info-18">Story1: <u>Even though we succeeded co-culture assay experiment, the amount of E. coli we added to the culture was too much if we consider to expand our system to more number of pairs of “Company and Customer”, or more number of E. coli strains which can represent other  roles in economy.(意味不明)</u></p></td>
+
                 <td><p class="info-18">This  result indicates that Company cell produced 3OC12HSL in response to C4HSL induction by the function of Prhl(RL)-CmR-LasI. From these experiment, we  confirmed that a new part Prhl(RL)-CmR-LasI synthesized CmR and 3OC12HSL as expected.</p></td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="3"><p class="info-18">Story2: Despite of our  careful assay, company and customer failed to grow in the assay. </p></td>
+
                 <td><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_Company_excretes.png"><img src="https://static.igem.org/mediawiki/2014/9/98/Tokyo_Tech_Company_excretes.png" alt="" width="500" /></a></div></td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="3">&nbsp;</td>
+
                 <td><div align="center"><strong>Fig. 2-1-12.</strong> Company  excretes 3OC12HSL by new BioBrick parts when C4HSL exists</div></td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="2" class="entry-long">&nbsp;</td>
+
                 <td>&nbsp;<a name="2.4.2" id="2.4.2"></a></td>
               </tr>
               </tr>
-
      </table>
+
  </table>
-
      <table width="900" border="0">
+
  <table width="900" border="0">
               <tr>
               <tr>
-
                 <td colspan="2"><h2 style="line-height:normal;">3. Solution to the problem about <br />
+
                 <td colspan="2" class="head">2.4.2.  Customer</td>
-
                     
+
-
                Interdependence between Company and Customer</h2></td>
+
               </tr>
               </tr>
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               </tr>
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-
                 <td rowspan="2"><p class="info-18">To make the <u>system of customer and company</u> grow even in the small culture, we proposed two solutions to the problem. </p>                </td>
+
                 <td colspan="2"><p align="justify" class="info-18">For  construction of the 3OC12HSL-dependent chloramphenicol resistance (CmR) and C4HSL production module, we designed a new part Plux-CmR-RhlI (BBa_K1529797)(Fig. 2-1-13). In  order to confirm the Customer’s dependency on 3OC12HSL, we measured the growth  of Customer cell in the presence and absence of 3OC12HSL. After induction, we  added chloramphenicol into the medium and measured optical density for about ten  hours to estimate the concentration of the  cell.</p></td>
-
                <td><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_Fig.2-2-4_Company_and_Customer_circuit_design.jpg"><img src="https://static.igem.org/mediawiki/2014/thumb/5/59/Tokyo_Tech_Fig.2-2-4_Company_and_Customer_circuit_design.jpg/800px-Tokyo_Tech_Fig.2-2-4_Company_and_Customer_circuit_design.jpg" height="150" /></a></div></td>
+
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td><div align="center">Fig.2-2-4 Company and Customer circuit design</div></td>
+
                 <td colspan="2"><p align="justify" class="info-18">Without  induction of 3OC12HSL, the cell cannot express CmR and cannot survive in the  presence of chloramphenicol. As shown in Fig. 2-1-14, when 3OC12HSL was added to the culture, Customer cell survived and increased. This result indicates  that CmR was produced in response to 3OC12HSL induction by the function of Plux-CmR-RhlI.</p></td>
               </tr>
               </tr>
 +
              <tr>
 +
                <td colspan="2"><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_Genetic_circuit_design_of_customer.png"><img src="https://static.igem.org/mediawiki/2014/thumb/6/6c/Tokyo_Tech_Genetic_circuit_design_of_customer.png/800px-Tokyo_Tech_Genetic_circuit_design_of_customer.png" width="500" /></a></div>                 
 +
                <div align="center"><strong>Fig. 2-1-13.</strong> Genetic  circuit design of Customer</div></td>
 +
                </tr>
 +
             
               <tr>
               <tr>
                 <td colspan="2">&nbsp;</td>
                 <td colspan="2">&nbsp;</td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="2" class="head">3.1. Improvement of Prhl Promoter</td>
+
                 <td colspan="2">&nbsp;</td>
               </tr>
               </tr>
 +
              <tr>
 +
                <td colspan="2"><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_Customer_cannot_survive_1.png"><img src="https://static.igem.org/mediawiki/2014/d/df/Tokyo_Tech_Customer_cannot_survive_1.png" width="700" /></a></div></td>
 +
             
 +
              </tr>
 +
              <tr>
 +
                <td colspan="2"><div align="center"><strong>Fig. 2-1-14.</strong> Customer  cannot survive without 3OC12HSL</div></td>
 +
                </tr>
               <tr>
               <tr>
                 <td colspan="2">&nbsp;</td>
                 <td colspan="2">&nbsp;</td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="2"><p class="info-18">One of the solutions to the problem is improvement of Prhl in the Company.                 </p></td>
+
                 <td colspan="2"><p class="info-18">To characterize the function of 3OC12HSL-dependent  C4HSL production, we also performed a reporter assay by using lux reporter cell  (Fig. 2-1-15).</p></td>
 +
              </tr>
 +
              <tr>
 +
                <td colspan="2"><p class="info-18">First, the expression of RhlI was induced by adding 3OC12HSL  to the culture of the Customer cell. Then, the supernatant of the culture was  added to the culture of reporter cell. The  expression of GFP in the reporter cell was measured by flow cytometer.</p></td>
 +
              </tr>
 +
              <tr>
 +
                <td colspan="2"><p align="justify" class="info-18">As  Fig. 2-1-15 shows, when the reporter cell Plux-CmR-RhlI was incubated in the  culture of the induced Customer cell, the fluorescence intensity of the  reporter cell increased. Comparing the results of the induced cell and not  induced dell, reporter cell in the supernatant of the induced cell had 95-fold  higher fluorescence intensity. This result indicates that Customer cell  produced C4HSL in response to 3OC12HSL induction by the function of  Plux-CmR-RhlI.</p></td>
 +
              </tr>
 +
              <tr>
 +
                <td colspan="2"><p class="info-18">From  these experiments, we confirmed that a new part Plux-CmR-RhlI synthesized CmR  and C4HSL as expected.</p></td>
               </tr>
               </tr>
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               </tr>
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-
                 <td colspan="2" ><p class="info-18" style="text-indent:0px;"><strong>3.1.1 Motivation</strong></p></td>
+
                 <td colspan="2"><div align="center">
 +
                  <blockquote>
 +
                    <p><a href="https://2014.igem.org/File:Tokyo_Tech_Customer_excretes.png"><img src="https://static.igem.org/mediawiki/2014/b/bc/Tokyo_Tech_Customer_excretes.png" alt="" width="500" /></a></p>
 +
                  </blockquote>
 +
                </div></td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="2"><p class="info-18">(Kato will add some contents here later) </p>                 </td>
+
                 <td colspan="2"><div align="center"><strong>Fig. 2-1-15.</strong> Customer  excretes C4HSL when C12HSL exists</div></td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="2"><p class="info-18">There are just two ways to improve the growth of  the Company and Customer system without changing the circuit.</p></td>
+
                 <td colspan="2">&nbsp;<a name="2.5" id="2.5"></a></td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="2" class="info-18">        1. Improving the productivity of 3OC12HSL from LasI in company. </td>
+
                 <td colspan="2"><h1>2.5Assay of symbiosis between Company and Customer by co-culture</h1></td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="2" class="info-18">        2. Improve the maximum expression rate of Prhl promoter. </td>
+
                 <td rowspan="4"><p align="justify" class="info-18">For the accomplishment of mutualism between the Company cells and Customer cells, we mixed and co-cultured the two cells to show symbiosis of them. Company’s  characteristics are C4HSL-dependent survival and 3OC12HSL production, and  Customer’s characteristics are the opposite from Company’s. (If you want to  know about these cells in more detail, see the above section. Each cells’  function is described.) From these characteristics, the symbiosis between the  two cells can be established.</p></td>
 +
                <td height="45">&nbsp;</td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="2"><p class="info-18">We chose latter solution because modifying Prhl  promoter is easier than improve LasI enzyme activity, because Max activity of Prhl  promoter is lesser than other 良く使われる promoters.</p></td>
+
                 <td><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_The_result_of_co-culture.png"><img src="https://static.igem.org/mediawiki/2014/5/5b/Tokyo_Tech_The_result_of_co-culture.png" alt="" width="400" /></a></div></td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="2">&nbsp;</td>
+
                 <td><div align="center"><strong>Fig. 2-1-16.</strong> The result of co-culture assay</div></td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="2" ><p class="info-18" style="text-indent:0px;"><strong>3.1.2 Design of new Prhl promoters</strong></p></td>
+
                <td>&nbsp;</td>
 +
              </tr>
 +
              <tr>
 +
                 <td colspan="2"><p align="justify" class="info-18">Two  types of fluorescent proteins were used to trace the growth of each cells in  our symbiosis experiments. We constructed the Company cell containing GFP and  Customer cell containing RFP. By measuring the OD of the cells expressing GFP with  flow cytometer, the symbiosis was detected.</p></td>
 +
              </tr>
 +
              <tr>
 +
                <td colspan="2"><span class="info-18">  
 +
                </span>                   <p class="info-18">The result of the co-culture assay is shown  in Fig. 2-1-16. By looking at the fluorescence intensity of GFP in Company cells, the optical density increased faster  in co-culture than single culture. From this point, we  can say that Company and Customer actually mutualize in the medium.</p></td>
               </tr>
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               </tr>
               <tr>
               <tr>
-
                 <td height="227"><p class="info-18">As shown in Fig. , we added 3 new promoters, into the parts registry, derived from  Prhl. First we made Prhl_RR. Prhl_RR was designed by 「論文の人」.  Taking  Plux, we changed lux boxes of Plux to Prhl’s. The assay result is shown in Fig.  2-3-1.Although the maximum expression rate of Prhl promoter improved, leakage  of the expression also increased.
+
                 <td colspan="2" class="entry-long">&nbsp;</td>
-
                  </p>                </td>
+
-
                <td><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_Fig.2-3-1_Our_Prhl_promoter_design.jpg"><img src="https://static.igem.org/mediawiki/2014/thumb/2/28/Tokyo_Tech_Fig.2-3-1_Our_Prhl_promoter_design.jpg/800px-Tokyo_Tech_Fig.2-3-1_Our_Prhl_promoter_design.jpg" alt="." width="300" /></a></div></td>
+
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td>&nbsp;</td>
+
                 <td colspan="2">&nbsp;<a name="3" id="3"></a></td>
-
                <td><div align="center">                  Fig.2-3-1  Our Prhl promoter design</div></td>
+
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td>&nbsp;</td>
+
                 <td colspan="2"><h2>3.  Addition of Bank</h2></td>
-
                <td>&nbsp;</td>
+
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td><p class="info-18">High level of leakage is not suitable for the company and customer system because mutual dependency will be broken. Therefore, we the designed new promoters named Prhl_LR and Prhl_RL in    Fig.2-3-2. We can see Prhl_RL shows high maximum  expression rate and low leakage</p>
+
                 <td colspan="2"><p class="info-18">We have  demonstrated the mutualism between Company and Customer through modeling and  wet-experiments. However, thousands of Company-Customer pairs exists in the  actual economy. In the experimental design of such next demonstration, our  modeling suggests that our educational tool of economics include an additional  player, Bank.</p></td>
-
                  <div></div></td>
+
-
                <td><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_Fig.2-3-2_Our_improved_Prhl_promoter.jpg"><img src="https://static.igem.org/mediawiki/2014/thumb/7/74/Tokyo_Tech_Fig.2-3-2_Our_improved_Prhl_promoter.jpg/800px-Tokyo_Tech_Fig.2-3-2_Our_improved_Prhl_promoter.jpg" alt="." width="300" /></a></div></td>
+
               </tr>
               </tr>
 +
             
               <tr>
               <tr>
-
                 <td>&nbsp;</td>
+
                 <td colspan="2">&nbsp;<a name="3.1" id="3.1"></a></td>
-
                <td><div align="center">                  Fig.2-3-2  Our improved Prhl promoter</div></td>
+
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="2">&nbsp;</td>
+
                 <td colspan="2"><h1>3.1.  Motivation</h1></td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="2" ><p class="info-18" style="text-indent:0px;"><strong>3.1.3 Co-culture</strong></p></td>
+
                 <td colspan="2"><p align="justify" class="info-18">In the  experimental design to expand the number of Company-Customer pairs in one test  tube, we found that carrying capacity of a medium is shared among the pairs. In other words,  the  amount of cell corresponding to each pair must be less to establish the  symbiosis.</p></td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="2" >&nbsp;</td>
+
                 <td colspan="2"><p align="justify" class="info-18">    Our modeling,  however, suggested that a certain amount of cells is needed to maintain the symbiosis  between Company and Customer (See 2.2. Condition for the  optimal growth deducted from simulation).</p></td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="2" ><p class="info-18">(don’t know whether the experiment is planned or not. I can insert the simulation result, but experimental result would be more persuasive)</p></td>
+
                 <td colspan="2"><p align="justify" class="info-18">   We noticed that the introduction of bank may assist not only the symbiosis with small  amount of cells in a test tube, but also the understanding of economics as an education tool. In real economy, a central bank will supply money to the market when money  is in short supply. Therefore, we designed Bank <em>E. coli</em> that  does the same work as central bank.</p></td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="2" >&nbsp;</td>
+
                 <td colspan="2">&nbsp;<a name="3.2" id="3.2"></a></td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="2" class="head" >3.2. Addition of Bank                 </td>
+
                 <td colspan="2"><h1>3.2. Genetic  circuit design of Bank <em>E. coli</em></h1></td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="2" >&nbsp;</td>
+
                 <td colspan="2"><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_2-1-19.jpg"><img src="https://static.igem.org/mediawiki/2014/b/b5/Tokyo_Tech_2-1-19.jpg" alt="" width="600" /></a></div></td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="2" ><p class="info-18" style="text-indent:0px;"><strong>3.2.1 Motivation</strong></p></td>
+
                 <td colspan="2"><div align="center"><strong>Fig. 2-1-17.</strong> Genetic  circuit of Bank <em>E. coli</em></div></td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="2" >&nbsp;</td>
+
                 <td colspan="2">&nbsp;</td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="2" ><p class="info-18">In the real economy, a central bank  will supply money to the economy if there is not enough money. So we designed Bank E. coli  that supply money to the economy. Bank E. coli help interdependence between Company and Customer. </p>                 </td>
+
                 <td colspan="2"><p align="justify" class="info-18">The circuit design of Bank <em>E. coli</em> is shown in Fig. 2-1-16 Bank <em>E. coli</em> functions as a central bank to regulate the money supply in the market. Bank <em>E. coli</em> can change into two states by using toggle switch (Gardner, 2000), which depends on C4HSL concentration (Fig.  2-1-17).</p></td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="2" >&nbsp;</td>
+
                 <td colspan="2"><p class="info-18">  The whole mechanism this  state switching is explained below in four steps.</p></td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="2" ><p class="info-18" style="text-indent:0px;"><strong>3.2.1 Motivation</strong></p></td>
+
                 <td colspan="2">&nbsp;<a name="3.2.1" id="3.2.1"></a></td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="2" >&nbsp;</td>
+
                 <td colspan="2" class="head">3.2.1 Distribution  state</td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td rowspan="4" ><p align="justify" class="info-18">Circuit design of Bank E. coli is shown in Fig.2-3-3 . Bank  E. coli regulate the money supply in the economy. </p>
+
                 <td rowspan="2"><p class="info-18">When Bank is in the distribution state, RhlI in Bank will be expressed to produce C4HSL, which is the money supplied to the market.</p></td>
-
                 <p align="justify" class="info-18">When the money supply in the  economy becomes lower than certain level, Bank supply money by expressing RhlI. On the other hand, when money supply becomes higher, Bank E. coli will collect money from the  market by  expressing AiiA. We will walk through the whole mechanism below.</p></td>
+
                 <td><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_2-1-23.jpg"><img src="https://static.igem.org/mediawiki/2014/c/c7/Tokyo_Tech_2-1-23.jpg" alt="" width="300" /></a></div></td>
-
                <td height="37">&nbsp;</td>
+
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_Fig.2-3-3_design_of_bank_E.coli.jpg"><img src="https://static.igem.org/mediawiki/2014/thumb/2/22/Tokyo_Tech_Fig.2-3-3_design_of_bank_E.coli.jpg/800px-Tokyo_Tech_Fig.2-3-3_design_of_bank_E.coli.jpg" alt="." width="300" /></a></div></td>
+
                 <td><div align="center"><strong>Fig. 2-1-18.</strong> Distribution  state</div></td>
-
                </tr>
+
              </tr>
               <tr>
               <tr>
-
                 <td height="8"> <div align="center">                  Fig. 2-3-3 design of bank E.coli</div></td>
+
                 <td colspan="2">&nbsp;<a name="3.2.2" id="3.2.2"></a></td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td height="9">&nbsp;</td>
+
                 <td height="19" colspan="2" class="head">3.2.2 Change  to Collection State </td>
 +
                </tr>
 +
             
 +
              <tr>
 +
                <td height="19" rowspan="2"><p class="info-18">If  Bank is always in the distribution state, too much money will be supplied to  the economy. Thus when the amount of C4HSL is excessed which will activate  Prhl/lac promoter to express AiiA. When Bank finishes this change, it will  switch to the collection state.</p></td>
 +
                <td height="19"><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_2-1-24.jpg"><img src="https://static.igem.org/mediawiki/2014/2/2b/Tokyo_Tech_2-1-24.jpg" alt="" width="300" /></a></div></td>
               </tr>
               </tr>
                
                
               <tr>
               <tr>
-
                 <td colspan="2" >&nbsp;</td>
+
                <td height="19"><div align="center"><strong>Fig. 2-1-19.</strong> Change to  collection state</div></td>
-
                </tr>
+
              </tr>
 +
              <tr>
 +
                 <td colspan="2">&nbsp;<a name="3.2.3" id="3.2.3"></a></td>
 +
              </tr>
 +
              <tr>
 +
                <td height="19" colspan="2" class="head">3.2.3  Collection State</td>
 +
              </tr>
 +
              <tr>
 +
                <td height="19" rowspan="2"><p class="info-18">If the  amount of money in the economy becomes excessive, Bank will be in the collection  state. In this state, AiiA in Bank will be expressed. AiiA decomposes C4HSL and  3OC12HSL in the medium to decrease the money supply in the economy.</p></td>
 +
                <td><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_2-1-25.jpg"><img src="https://static.igem.org/mediawiki/2014/8/80/Tokyo_Tech_2-1-25.jpg" alt="" width="300" /></a></div></td>
 +
              </tr>
 +
              <tr>
 +
                <td><div align="center"><strong>Fig. 2-1-20.</strong> Collection  State</div></td>
 +
                </tr>
 +
              <tr>
 +
                <td colspan="2">&nbsp;<a name="3.2.4" id="3.2.4"></a></td>
 +
              </tr>
 +
              <tr>
 +
                <td height="19" colspan="2" class="head">3.2.4 Change  to distribution state</td>
 +
                </tr>
 +
              <tr>
 +
                <td height="19" rowspan="2"><p class="info-18">For maintenance  of symbiosis even in lack of money supply, Bank changes to the distribution  state. In this step, transcription in Prhl/lac promoter is stopped by lower  C4HSL concentration resolved by AiiA. Therefore, TetR will lower the  expression. Instead, Ptet promoter is activated to express RhlI and LacI.</p></td>
 +
                <td><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_2-1-26.jpg"><img src="https://static.igem.org/mediawiki/2014/3/38/Tokyo_Tech_2-1-26.jpg" alt="" width="300" /></a></div></td>
 +
              </tr>
 +
              <tr>
 +
                <td><div align="center"><strong>Fig. 2-1-21.</strong> Change to  distribution state</div></td>
 +
                </tr>
 +
              <tr>
 +
                <td colspan="2">&nbsp;<a name="3.3" id="3.3"></a></td>
 +
                </tr>
 +
              <tr>
 +
                <td colspan="2"><h1>3.3. Modeling: Bank actually helps the development  of the economy</h1></td>
 +
              </tr>
 +
              <tr>
 +
                <td colspan="2"><p class="info-18"> We made a  mathematical model to ensure the functioning of the Bank. Bank helps Company  and Customer to grow well even with a few amounts. As shown in Fig. 2-1-22, if  the amounts of Company and Customer are few, then they cannot grow well. But  once the Bank is included, all of them can grow well.</p></td>
 +
              </tr>
                
                
               <tr>
               <tr>
-
                 <td colspan="2" ><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_Fig.2-3-4_The_role_of_Bank_E.coli.jpg"><img src="https://static.igem.org/mediawiki/2014/thumb/e/e3/Tokyo_Tech_Fig.2-3-4_The_role_of_Bank_E.coli.jpg/800px-Tokyo_Tech_Fig.2-3-4_The_role_of_Bank_E.coli.jpg" alt="." width="500" /></a></div></td>
+
                 <td colspan="2">&nbsp;</td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="2" ><div align="center">                   Fig.2-3-4  The roll of Bank E.coli</div></td>
+
                 <td colspan="2"><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_Bank_helps_Company_and_Customer_to_grow_well.jpg"><img src="https://static.igem.org/mediawiki/2014/8/81/Tokyo_Tech_Bank_helps_Company_and_Customer_to_grow_well.jpg" width="600" /></a></div></td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="2" >&nbsp;</td>
+
                 <td colspan="2"><div align="center"><strong>Fig. 2-1-22.</strong> Bank helps Company and Customer to  grow well</div></td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="2" ><p class="info-18" style="text-indent:0px;"><strong>Step1: Collection state</strong></p></td>
+
                 <td colspan="2">&nbsp;</td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td rowspan="2" ><p class="info-18">If there are excess amount of money in the economy, Bank is in the collection state. In collection state, Bank expresses AiiA. AiiA decompose C4HSL and 3OC12HSL. Thus reducing money  supply in the economy.</p></td>
+
                 <td colspan="2"><p class="info-18">Also to ensure the functioning, we analyzed the Bank’s internal switch depending on the C4HSL concentration. Fig. 2-1-23 shows the RhlI concentration depending on  the C4 concentration in the Bank cell. When the C4 concentration increases from  low to high, the RhlI concentration follows the green line on the figure,  decreasing the RhlI expression. This means the Bank switches its state from  distribution state to collection state. On the other hand, when the C4  concentration decreases, the RhlI concentration follows the blue line,  increasing the RhlI expression. This means the Bank switches its state from  collection state to distribution state.</p></td>
-
                <td><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_Fig.2-3-4_1.jpg"><img src="https://static.igem.org/mediawiki/2014/thumb/5/53/Tokyo_Tech_Fig.2-3-4_1.jpg/800px-Tokyo_Tech_Fig.2-3-4_1.jpg" alt="." width="300" /></a></div></td>
+
               </tr>
               </tr>
 +
             
               <tr>
               <tr>
-
                 <td><div align="center"> Fig. </div></td>
+
                 <td colspan="2">&nbsp;</td>
-
                </tr>
+
              </tr>
 +
              <tr>
 +
                <td colspan="2"><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_Bank_changes_its_state.png"><img src="https://static.igem.org/mediawiki/2014/d/dc/Tokyo_Tech_Bank_changes_its_state.png" width="500" /></a></div></td>
 +
                </tr>
               <tr>
               <tr>
-
                 <td colspan="2" >&nbsp;</td>
+
                 <td colspan="2"><div align="center"><strong>Fig. 2-1-23.</strong> Bank changes its state from  Distribution State to Collection State</div></td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="2" ><p class="info-18" style="text-indent:0px;"><strong>Step2: Change to distribution state</strong></p></td>
+
                 <td colspan="2">&nbsp;</td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td rowspan="2" ><p class="info-18">Once the amount of money supply decrease, Prhl/lac followed by AiiA and TetR will lower the expression.  Instead, Ptet activates to express RhlI and LacI.</p></td>
+
                 <td colspan="2"><p align="center" class="info-18">&quot;These results show that Bank functions as a central bank as in the real economy.&quot;</p></td>
-
                <td><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_Fig.2-3-4_3.jpg"><img src="https://static.igem.org/mediawiki/2014/thumb/1/1f/Tokyo_Tech_Fig.2-3-4_3.jpg/800px-Tokyo_Tech_Fig.2-3-4_3.jpg" alt="." width="300" /></a></div></td>
+
               </tr>
               </tr>
 +
             
               <tr>
               <tr>
-
                 <td><div align="center"> Fig.  </div></td>
+
                 <td colspan="2">&nbsp;</td>
-
                </tr>
+
              </tr>
               <tr>
               <tr>
-
                 <td colspan="2" ><p class="info-18" style="text-indent:0px;"><strong>Step3: Distribution state</strong></p></td>
+
                 <td colspan="2" class="entry-long">&nbsp;</td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td rowspan="2" ><p class="info-18">When the bank is in the  distribution state, Bank expresses RhlI to produce C4HSL, money to the economy.</p></td>
+
                 <td colspan="2">&nbsp;<a name="4" id="4"></a></td>
-
                <td><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_Fig.2-3-4_4.jpg"><img src="https://static.igem.org/mediawiki/2014/thumb/0/06/Tokyo_Tech_Fig.2-3-4_4.jpg/800px-Tokyo_Tech_Fig.2-3-4_4.jpg" alt="." width="300" /></a></div></td>
+
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td><div align="center"> Fig. </div></td>
+
                 <td colspan="2"><h2 style="line-height:normal;">4. Economic Wave: Advice from Entrepreneurs</h2></td>
-
                </tr>
+
              </tr>
               <tr>
               <tr>
-
                 <td colspan="2" ><p class="info-18" style="text-indent:0px;"><strong>Step4: Change to collection state</strong></p></td>
+
                 <td colspan="2"><p class="info-18">We introduced our Bank <em>E. coli</em> project to  businessmen, executives, and technicians engaged in IT companies at a workshop  called MUSE TALK for professional opinions (See <a href="https://2014.igem.org/Team:Tokyo_Tech/Policy_and_Practices#MUSE">Policy  and Practice</a> for more details). They  pointed out that economic wave should be integrated into our system to make it  more realistic (Fig. 2-1-24).</p></td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td rowspan="2" ><p class="info-18">If Bank is always in the distribution state, Bank  will supply too much money to the economy. Thus  when the amount  of C4HSL is excessed  which will activate the Prhl/lac  to express AiiA. When Bank finished this change,  bank  will  switch to the  collection state.</p></td>
+
                 <td colspan="2">&nbsp;</td>
-
                <td><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_Fig.2-3-4_5.jpg"><img src="https://static.igem.org/mediawiki/2014/thumb/8/89/Tokyo_Tech_Fig.2-3-4_5.jpg/800px-Tokyo_Tech_Fig.2-3-4_5.jpg" alt="." width="300" /></a></div></td>
+
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td><div align="center"> Fig. </div></td>
+
                 <td colspan="2"><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_2-1-30.jpg"><img src="https://static.igem.org/mediawiki/2014/7/7b/Tokyo_Tech_2-1-30.jpg" alt="" width="300" /></a></div></td>
-
                </tr>
+
              </tr>
               <tr>
               <tr>
-
                 <td colspan="2" >&nbsp;</td>
+
                 <td colspan="2"><div align="center"><strong>Fig. 2-1-24.</strong>  Our teammates exchanging opinions with professionals</div></td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="2" class="head" >3.2.3  Modeling  results</td>
+
                 <td colspan="2">&nbsp;</td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="2" >&nbsp;</td>
+
                 <td colspan="2"><p class="info-18">In the real economy, there are long-term financial  wave named Kitchin inventory, Kondratiev wave etc. (Wikipedia.org). These  long-term financial waves deeply affect the whole economy. We were advised that  ignoring these waves can be a crucial defect in our project.</p></td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td rowspan="7" ><p class="info-18">C4によって、単安定、双安定、単安定と切り替わる相図(加藤君よろしくお願いします。) Since we couldn’t construct Bank, we have simulated <u>the  Bank system with Company and Customer.</u> <u>When we add bank to the Company and Customer, </u>the simulation predicts the culture grows well. In this simulation, Bank switches state from distribution state to collection state as shown in Fig. </p>                 </td>
+
                 <td colspan="2"><p class="info-18"> In order to develop  our educational tool for iGEMERs more, we merged the idea of economic wave into our system as the fluctuation of C4HSL concentration. Even though Company and Customer can grow well only by themselves as shown in Fig. 2-1-25(left), they  cannot endure the effect of economic wave as shown in Fig. 2-1-25(center).  These results show that Company and Customer are not good at dealing with the economic wave. Let us introduce the Bank to the market with economic wave. As shown in Fig. 2-1-25(right), Bank helps Company and Customer  to grow well. </p></td>
-
                <td >&nbsp;</td>
+
               </tr>
               </tr>
 +
             
               <tr>
               <tr>
-
                 <td><div align="center"><a href="#"><img src="Project/2-1-2.png" height="150" /></a></div></td>
+
                 <td colspan="2">&nbsp;</td>
-
                </tr>
+
              </tr>
 +
              </table>
 +
              <table width="900" border="0">
 +
                <tr>
 +
                  <td><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_Company_and_Customer_can_not_survive_1.png"><img src="https://static.igem.org/mediawiki/2014/1/12/Tokyo_Tech_Company_and_Customer_can_not_survive_1.png" alt="" width="250" /></a></div></td>
 +
                  <td><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_Company_and_Customer_can_not_survive_2.png"><img src="https://static.igem.org/mediawiki/2014/e/e4/Tokyo_Tech_Company_and_Customer_can_not_survive_2.png" alt="" width="250" /></a></div></td>
 +
                  <td><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_Company_and_Customer_can_not_survive_3.png"><img src="https://static.igem.org/mediawiki/2014/e/ef/Tokyo_Tech_Company_and_Customer_can_not_survive_3.png" alt="" width="250" /></a></div></td>
 +
                </tr>
 +
                <tr>
 +
                  <td colspan="3"><div align="center"><strong>Fig. 2-1-25.</strong> Company and Customer cannot survive  when they face economic wave. </div></td>
 +
                </tr>
 +
              </table>
 +
  <table width="900" border="0">
               <tr>
               <tr>
-
                 <td><div align="center">                   Fig. 2-1-15 Bank, company  and customer growth </div></td>
+
                 <td colspan="2">&nbsp;</td>
-
                </tr>
+
              </tr>
               <tr>
               <tr>
-
                 <td >&nbsp;</td>
+
                 <td colspan="2"><p class="info-18">Money supplies in these situations, represented by C4  concentrations, are shown in Fig. 2-1-26. Even though the money supply  decreases very much by the effect of economic wave as shown in  Fig,2-1-26(center), the introduction of the Bank changes the state drastically,  results in abundant money supply Fig. 2-1-26(right).</p></td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td><div align="center"><a href="#"><img src="Project/2-1-2.png" height="150" /></a></div></td>
+
                 <td colspan="2">&nbsp;</td>
-
                </tr>
+
              </tr>
 +
  </table>
 +
              <table width="900" border="0">
 +
                <tr>
 +
                  <td><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_Money_supply_1.png"><img src="https://static.igem.org/mediawiki/2014/b/b1/Tokyo_Tech_Money_supply_1.png" alt="" width="250" /></a></div></td>
 +
                  <td><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_Money_supply_2.png"><img src="https://static.igem.org/mediawiki/2014/0/00/Tokyo_Tech_Money_supply_2.png" alt="" width="250" /></a></div></td>
 +
                  <td><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_Money_supply_3.png"><img src="https://static.igem.org/mediawiki/2014/d/d9/Tokyo_Tech_Money_supply_3.png" alt="" width="250" /></a></div></td>
 +
                </tr>
 +
                <tr>
 +
                  <td colspan="3"><div align="center"><strong>Fig. 2-1-26</strong> Money supply (C4 concentration) in every  situation described in Fig. 2-1-25.</div></td>
 +
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 +
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                 <td><div align="center">                   Fig. 2-1-16 Bank switch </div></td>
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                 <td colspan="2">&nbsp;</td>
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                 <td >&nbsp;</td>
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                 <td colspan="2"><p class="info-18">Although the above results show how Bank stabilizes the system, small change of parameter in economic wave makes Bank to fail  managing.  With harsh economic wave, the effect of economic wave begins to be out  of hands of Bank. As shown in Fig.2-1-27(left), the population of Company and  Customer fluctuates very much. This is due to the fluctuation of money supply in  the market(Fig. 2-1-27(right)). Interestingly, the Bank constantly grows while  the other two suffers the fluctuation of the money supply (Fig. 2-1-27(left)). Be  careful not to be like this in your countries.</p></td>
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                 <td colspan="2" >&nbsp;</td>
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                 <td colspan="2" class="entry-long">&nbsp;</td>
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                 <td width="445"><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_Bank_can_help_1.png"><img src="https://static.igem.org/mediawiki/2014/8/8d/Tokyo_Tech_Bank_can_help_1.png" alt="" width="250" /></a></div></td>
 +
                <td width="445"><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_C4HSL_concentration_during_the_sumulation2.png"><img src="https://static.igem.org/mediawiki/2014/7/72/Tokyo_Tech_C4HSL_concentration_during_the_sumulation2.png" alt="" width="250" /></a></div></td>
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               <tr>
               <tr>
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                 <td colspan="2" ><h2>4. Economic Wave</h2></td>
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                 <td colspan="2"><div align="center"><strong>Fig. 2-1-27.</strong> Bank can help Company and Customer even with harsh economic wave</div></td>
               </tr>
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                 <td colspan="2" >&nbsp;</td>
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                 <td colspan="2">&nbsp;</td>
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                 <td rowspan="7" ><p class="info-18"><u>According to the advice we  received during the presentation  practices企業人への,</u> we began to
+
                 <td colspan="2" class="entry-long">&nbsp;<a name="5" id="5"></a></td>
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consider  economic waves. In the real  economy, there are long- term  financial wave named Kitchin  inventory , Kondratiev wave etc. These long- term  financial wave deeply affect the whole economy. We were suggested  that ignoring
+
              </tr>
-
these waves
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              <tr>
-
can be a crucial  defect in the system. Therefore, we integrated this wave into our system.</p>
+
                <td colspan="2">&nbsp;</td>
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                  <p class="info-18">When only Customer and  Company are present…. (still not completed because of the lack of simulation results) ここに波をシミュレートしたときの原稿を入れる</p>                   </td>
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              </tr>
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                 <td height="52" >&nbsp;</td>
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              <tr>
 +
                        <td colspan="2"><h2>5. Project Evaluation</h2></td>
 +
                      </tr>
 +
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                        <td colspan="2">&nbsp;</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td colspan="2"><p align="left" class="info-18">Finally, the evaluation of our educational tool using E. coli and
 +
BioBrick showed that our project is highly effective for students majoring in biology to understand economics (Fig. 2-1-28).</p></td>
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                        <td colspan="2"><div align="center"><a href="https://2014.igem.org/File:Tokyo_Tech_Fig1-1-9.png"><img src="https://static.igem.org/mediawiki/2014/a/a0/Tokyo_Tech_Fig1-1-9.png" width="615" height="243" /></a></div></td>
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                        <td colspan="2"><div align="center"><strong>Fig. 2-1-28. </strong>Effects of our presentation</div></td>
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                        <td colspan="2"><div align="right" class="info-18">(<a href="https://2014.igem.org/Team:Tokyo_Tech/Policy_and_Practices">Go to Policy and Practices Page</a>)</div></td>
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                        <td colspan="2" class="entry-long">&nbsp;<a name="6" id="6"></a></td>
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                 <td colspan="2">&nbsp;</td>
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 +
                <td colspan="2"><h2>6. Reference </h2></td>
 +
              </tr>
 +
              <tr>
 +
                <td colspan="2">&nbsp;</td>
               </tr>
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                 <td><div align="center"><a href="#"><img src="Project/2-1-2.png" height="150" /></a></div></td>
+
                 <td colspan="2" class="info-18">1. Frederick K Balagadde <em>et al. </em>(2008) A synthetic <em>Escherichia  coli</em> predator–prey ecosystem. Molecular Systems Biology 4: 187</td>
               </tr>
               </tr>
               <tr>
               <tr>
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                 <td><div align="center">                   Fig. 2-1-17 Economic  wave without bank </div></td>
+
                 <td colspan="2" class="info-18">2. Alissa Kerner <em>et al</em>. (2012) A Programmable <em>Escherichia coli</em> Consortium via Tunable  Symbiosis. PLoS ONE 7(3): e34032</td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td >&nbsp;</td>
+
                 <td colspan="2" class="info-18">3. Jennifer M. Henke<em> et al.</em> (2004) Bacterial social  engagements. TRENDS in Cell Biology 14: 11</td>
               </tr>
               </tr>
               <tr>
               <tr>
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                 <td><div align="center"><a href="#"><img src="Project/2-1-2.png" height="150" /></a></div></td>
+
                 <td colspan="2" class="info-18">4. Bo Hu <em>et al. </em>(2010) An Environment-Sensitive  Synthetic Microbial Ecosystem. PLoS ONE 5(5): e10619</td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td><div align="center">                  Fig. 2-1-18 Economic wave with  bank </div></td>
+
                 <td colspan="2" class="info-18">5. John S. Chuang <em>et al. </em>(2009) Simpson’s Paradox in a  Synthetic Microbial System. SCIENCE 323: 272-275</td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td >&nbsp;</td>
+
                 <td colspan="2" class="info-18">6. Hideki Kobayashi<em> et al.</em> (2004) Programmable cells:  Interfacing natural and engineered gene networks. PNAS 101: 8414-8419</td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="2" >&nbsp;</td>
+
                 <td colspan="2" class="info-18">7. Lingchong You <em>et al.</em> (2004) Programmed population  control by cell–cell communication and regulated killing. NATURE 428: 868-871</td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="2" ><h2>5 .Reference </h2></td>
+
                 <td colspan="2" class="info-18">8. Timothy S. Gardner <em>et  al.</em> (2000) Construction of a genetic toggle switch in <em>Escherichia coli</em>. Nature 403: 339-342</td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="2" >&nbsp;</td>
+
                 <td colspan="2" class="info-18">9. Roji Sekine <em>et al.</em> (2011) Tunable synthetic  phenotypic diversification on Waddington’s landscape through autonomous  signaling. PNAS 108: 17969-17973</td>
               </tr>
               </tr>
               <tr>
               <tr>
-
                 <td colspan="2" >.......</td>
+
                 <td colspan="2" class="info-18">10. Kendall M. Gray <em>et al.</em> (1994) Interchangeability and  specificity of components from the quorum-sensing regulatory systems of <em>Vibrio fischeri</em> and <em>Pseudomonas aeruginosa</em>. Journal of Bacteriology 176(10): 3076–3080</td>
               </tr>
               </tr>
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                 <td colspan="2" >&nbsp;</td>
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                 <td colspan="2" class="info-18">&nbsp;</td>
               </tr>
               </tr>
               </table>
               </table>

Latest revision as of 04:00, 18 October 2014

Tokyo_Tech

Project

Learning economics by Bank E. coli

Contents

1. Project Planning: Interaction with General Public

2. Mutualism between Company and Customer

2.1 Molecular Basis of Mutualism

2.1.1 Company

2.1.2 Customer

2.2 Native Prhl promoter does not satisfy requirement from system analysis

2.3 The improvement of Prhl promoter

2.4 AHL-dependent responses of Company E. coli with improved promoter and Customer E. coli

2.4.1 Company with improved promoter

2.4.2 Customer

2.5 Assay of symbiosis between Company and Customer by co-culture

3. Addition of Bank

3.1 Motivation

3.2 Genetic circuit design of Bank E. coli

3.2.1 Distribution state

3.2.2 Change to Collection State

3.2.3 Collection State

3.2.4 Change to distribution state

3.3 Modeling:Bank actually helps the development of economy

4. Economic Wave: Advice from Entrepreneurs

5. Project Evaluation

6. Reference

 
 
 

1.Project Planning: Interaction with General Public

Fig. 2-1-1. Our members discussing about the project with the visitor
 

This year, we decided to make an educational tool for economics by using E. coli. This tool, which is supported with BioBrick parts and modeling, can be easily adapted to not only iGEMers, but also other students majoring in biology who are great human resource of innovation.

At the project planning stage of this year, we took part in a poster session held at the school festival of the University of Tokyo. We showed our preliminary plans, such as E. coli solar battery, and fertilizer. (See Policy and Practice for more details) (Fig. 2-1-1). After communicating with people engaged in business, we realized that we do not know much about economic system. This lack of knowledge, which may be common with other iGEMers, can be an obstacle for innovation from our research activity. In order to solve this, we thought of making an educational tool for economics by using E. coli and BioBrick, which are familiar for iGEMers.

 
Fig. 2-1-2. Relationship among three types of E. coli
 

Our educational tool has three types of E. coli. They are Bank, Company, and Customer (Fig. 2-1-2).Like the exchange of money and products in the real economy, we designed these three E. coli to exchange Product and Money in the tool’s economic system. The Company makes Product, and sells them to the Customer. On the other hand, the Customer pays Money to buy the Product made by the Company. With this mutual action, the Customer and the Company build mutualistic relationship. Additionally, the Bank regulates the Money supply in the market. It functions as a central bank like FRB and European Central Bank (ECB) (see here for more information about central bank). Here, Product and Money were represented by 3OC12HSL and C4HSL, the signaling molecules of the quorum sensing, respectively.

 
 
 

2. Mutualism between Company and Customer

 

2.1 Molecular Basis of Mutualism

We designed two genetically engineered E. coli, Company and Customer (Fig. 2-1-3), each of which produces its own quorum sensing molecule for the mutualism between the two. Since Company and Customer need each other to continue the now-in-state economy, we designed the mutualism between the two E. coli. Company is dependent on the Money supplied by Customer. On the other hand, Customer is dependent on the Product supplied by Company. The detailed design of the circuit is shown in the following sections.
Click here to see all picture of Animation

 

Fig. 2-1-3. The genetic circuit design of Company and Customer
 
2.1.1. Company
 

In the presence of C4HSL, which represents Money, Company can produce chloramphenicol-resistance gene product (CmR) and LasI. CmR protects the Company from the antibiotic action of chloramphenicol. LasI produces signaling molecule 3OC12HSL, which represents the Product made by the Company. If there is not any C4HSL in the medium, Company cannot produce CmR. This will lead to the growth inhibition of the Company, which represents the Company’s bankruptcy.

Fig. 2-1-4. The genetic circuit design of Company
 
   
2.1.2 Customer  

The basic design of Customer’s circuit is the same as Company. In the presence of 3OC12HSL, which represents the Product, Customer produces CmR and RhlI. CmR prevents the Customer from growth inhibition, and RhlI produces C4HSL, which represents Money. If there is not any Product in the market, Customer cannot produce CmR. This leads to the growth inhibition of Customer.

 
Fig. 2-1-5. The genetic circuit design of Customer
   

2.2 Native Prhl Promoter does not satisfy
requirement from system analysis

From the simulation results (Fig. 2-1-6), we noticed that the strengths of Prhl and Plux promoter need to be equally strong in order to promote the growth of the two E. coli. If the strength levels of Prhl and Plux promoters are in the red area, Company and Customer can help the growth of each other. This means, both promoters need to be strong and balanced for realizing the mutualism. However, if the strength level is in the blue area, at least one of them cannot grow well. (See the Modeling page for detailed analysis).

 
Fig. 2-1-6. The growth dependency of Prhl and Plux promoters’ strength levels
 

We then checked whether the strength levels of Prhl and Plux promoters satisfy the conditions described above. As shown in Fig. 2-1-7, the strength level of Plux promoter was about 20- fold higher than that of Plux promoter. Although RBS strength modulation under Plux promoter might compensate the imbalance between AHL-synthase expressions under the two promoters, such modulation corresponds to the decreased Plux activity which did not lead to any growth of Customer and Company. Therefore, the improvement of Prhl promoter’s strength level became necessary to meet the modeling results.

 
Fig. 2-1-7. The result of Prhl, Plux promoter assay
 

2.3. The improvement of Prhl promoter

To meet the modeling results, we added three improved C4HSL-dependent promoters with high maximum expression level by combinations of regulatory-protein binding sites. (Fig. 2-1-8)
 
Fig. 2-1-8. Designs of improved Prhl promoters
 

First, we designed a new Lux promoter with two RhlR binding sites instead of two LuxR binding sites (Prhl(RR): BBa_K1529320) as tried in a previous paper (Chuang 2009). To evaluate the function of this promoter, we constructed Prhl(RR)-GFP plasmids and measured the fluorescence intensity by flow cytometer. In the measurement, we confirmed that GFP under the control of Prhl(RR) promoter showed about 20-fold higher in the fluorescence than that of the native Prhl promoter (BBa_R0071) (See the Experiment page) (Fig. 2-1-9)

However, Prhl(RR) promoter showed a significant leak in the absence of C4HSL(See the Experiment page). High level of leakage is not suitable for the Company-Customer relationship because their mutualism will be broken.

In order to lessen the leak while keeping higher expression level than the native PRhl promoter, we newly designed two promoters, Prhl(LR) (BBa_K1529310) and Prhl(RL) (BBa_K1529300). These promoters have one LuxR binding site and one RhlR binding site. We changed either the former RhlR binding site of Prhl(RR) promoter to LuxR binding site (Prhl(LR)), or the latter RhlR binding site to Lux binding site (Prhl(RL)).

One of our new promoter, Prhl(RL) (Fig. 2-1-9.lane 4), improved in its expression level while keeping the low leakage. GFP under the control of this Prhl(RL) promoter showed about 82-fold higher in the fluorescence with C4 addition compared to the fluorescence without C4 addition. This is much higher than that of the native Prhl promoter, which is 22-fold.

Although the other Prhl(LR) promoter (Fig. 2-1-9. lane 3) showed a higher maximum expression level, it showed a significant leak like Prhl(RR) promoter(Fig. 2-1-9. lane 2). GFP under the control of Prhl(LR) promoter showed about 17-fold higher in the fluorescence with C4 addition compared to the fluorescence without C4 addition. However, the leak showed no less than 25-fold higher than the native Prhl promoter. Thus we used our most improved Prhl(RL) (K1529320) in the following experiments and modeling.

 
Fig. 2-1-9. The improvement of Prhl promoters
 

2.4. AHL-dependent responses of Company E. coli with improved promoter and Customer E. coli

2.4.1. Company with improved promoter
 
Fig. 2-1-10. Genetic circuit of Company with improved promoter
 

For construction of the C4HSL-dependent chloramphenicol resistance gene product (CmR) and 3OC12HSL production module, we designed a new part Prhl(RL)-CmR-LasI. (BBa_K1529302) (Fig. 2-1-10) In order to confirm the Company’s dependency on C4HSL, we measured the growth of Company cell in the presence and absence of C4HSL. After the induction, we added chloramphenicol into the medium and measured the optical density for about 10 hours to estimate the concentration of the cell.

Without induction of C4HSL, the cell cannot express CmR resistance gene and cannot survive in the presence of chloramphenicol. As shown in Fig. 2-1-11, when C4HSL is added to the culture, Company cell survived and increased. This result indicates that Company cell produced 3OC12HSL in response to C4HSL induction by the function of Prhl(RL)-CmR-LasI. From these experiments, we confirmed that a new part Prhl(RL)-CmR-LasI synthesized CmR and 3OC12HSL work as expected.

 
Fig. 2-1-11. Company cannot grow without C4HSL
 

To characterize the function of C4HSL-dependent 3OC12HSL production, we also performed a reporter assay by using lux reporter cell (Fig. 2-1-12) First, the expression of LasI was induced by adding C4HSL to the culture of the Company cell. Then, the supernatant of the culture was added to the culture of reporter cell. The expression of GFP in the reporter cell was measured by flow cytometer.

 

As Fig. 2-1-12 shows, when the reporter cell E was incubated in the culture of the induced Company cell, the fluorescence intensity of the reporter cell increased. Comparing the results of the culture with the induced Company cell and not induced Company cell, the reporter cell in the supernatant of induced cell had 29-fold higher fluorescence intensity.

This result indicates that Company cell produced 3OC12HSL in response to C4HSL induction by the function of Prhl(RL)-CmR-LasI. From these experiment, we confirmed that a new part Prhl(RL)-CmR-LasI synthesized CmR and 3OC12HSL as expected.

Fig. 2-1-12. Company excretes 3OC12HSL by new BioBrick parts when C4HSL exists
 
2.4.2. Customer
 

For construction of the 3OC12HSL-dependent chloramphenicol resistance (CmR) and C4HSL production module, we designed a new part Plux-CmR-RhlI (BBa_K1529797)(Fig. 2-1-13). In order to confirm the Customer’s dependency on 3OC12HSL, we measured the growth of Customer cell in the presence and absence of 3OC12HSL. After induction, we added chloramphenicol into the medium and measured optical density for about ten hours to estimate the concentration of the cell.

Without induction of 3OC12HSL, the cell cannot express CmR and cannot survive in the presence of chloramphenicol. As shown in Fig. 2-1-14, when 3OC12HSL was added to the culture, Customer cell survived and increased. This result indicates that CmR was produced in response to 3OC12HSL induction by the function of Plux-CmR-RhlI.

Fig. 2-1-13. Genetic circuit design of Customer
 
 
Fig. 2-1-14. Customer cannot survive without 3OC12HSL
 

To characterize the function of 3OC12HSL-dependent C4HSL production, we also performed a reporter assay by using lux reporter cell (Fig. 2-1-15).

First, the expression of RhlI was induced by adding 3OC12HSL to the culture of the Customer cell. Then, the supernatant of the culture was added to the culture of reporter cell. The expression of GFP in the reporter cell was measured by flow cytometer.

As Fig. 2-1-15 shows, when the reporter cell Plux-CmR-RhlI was incubated in the culture of the induced Customer cell, the fluorescence intensity of the reporter cell increased. Comparing the results of the induced cell and not induced dell, reporter cell in the supernatant of the induced cell had 95-fold higher fluorescence intensity. This result indicates that Customer cell produced C4HSL in response to 3OC12HSL induction by the function of Plux-CmR-RhlI.

From these experiments, we confirmed that a new part Plux-CmR-RhlI synthesized CmR and C4HSL as expected.

 

Fig. 2-1-15. Customer excretes C4HSL when C12HSL exists
 

2.5. Assay of symbiosis between Company and Customer by co-culture

For the accomplishment of mutualism between the Company cells and Customer cells, we mixed and co-cultured the two cells to show symbiosis of them. Company’s characteristics are C4HSL-dependent survival and 3OC12HSL production, and Customer’s characteristics are the opposite from Company’s. (If you want to know about these cells in more detail, see the above section. Each cells’ function is described.) From these characteristics, the symbiosis between the two cells can be established.

 
Fig. 2-1-16. The result of co-culture assay
 

Two types of fluorescent proteins were used to trace the growth of each cells in our symbiosis experiments. We constructed the Company cell containing GFP and Customer cell containing RFP. By measuring the OD of the cells expressing GFP with flow cytometer, the symbiosis was detected.

The result of the co-culture assay is shown in Fig. 2-1-16. By looking at the fluorescence intensity of GFP in Company cells, the optical density increased faster in co-culture than single culture. From this point, we can say that Company and Customer actually mutualize in the medium.

 
 
 

3. Addition of Bank

We have demonstrated the mutualism between Company and Customer through modeling and wet-experiments. However, thousands of Company-Customer pairs exists in the actual economy. In the experimental design of such next demonstration, our modeling suggests that our educational tool of economics include an additional player, Bank.

 

3.1. Motivation

In the experimental design to expand the number of Company-Customer pairs in one test tube, we found that carrying capacity of a medium is shared among the pairs. In other words, the amount of cell corresponding to each pair must be less to establish the symbiosis.

Our modeling, however, suggested that a certain amount of cells is needed to maintain the symbiosis between Company and Customer (See 2.2. Condition for the optimal growth deducted from simulation).

We noticed that the introduction of bank may assist not only the symbiosis with small amount of cells in a test tube, but also the understanding of economics as an education tool. In real economy, a central bank will supply money to the market when money is in short supply. Therefore, we designed Bank E. coli that does the same work as central bank.

 

3.2. Genetic circuit design of Bank E. coli

Fig. 2-1-17. Genetic circuit of Bank E. coli
 

The circuit design of Bank E. coli is shown in Fig. 2-1-16 Bank E. coli functions as a central bank to regulate the money supply in the market. Bank E. coli can change into two states by using toggle switch (Gardner, 2000), which depends on C4HSL concentration (Fig. 2-1-17).

  The whole mechanism this state switching is explained below in four steps.

 
3.2.1 Distribution state

When Bank is in the distribution state, RhlI in Bank will be expressed to produce C4HSL, which is the money supplied to the market.

Fig. 2-1-18. Distribution state
 
3.2.2 Change to Collection State

If Bank is always in the distribution state, too much money will be supplied to the economy. Thus when the amount of C4HSL is excessed which will activate Prhl/lac promoter to express AiiA. When Bank finishes this change, it will switch to the collection state.

Fig. 2-1-19. Change to collection state
 
3.2.3 Collection State

If the amount of money in the economy becomes excessive, Bank will be in the collection state. In this state, AiiA in Bank will be expressed. AiiA decomposes C4HSL and 3OC12HSL in the medium to decrease the money supply in the economy.

Fig. 2-1-20. Collection State
 
3.2.4 Change to distribution state

For maintenance of symbiosis even in lack of money supply, Bank changes to the distribution state. In this step, transcription in Prhl/lac promoter is stopped by lower C4HSL concentration resolved by AiiA. Therefore, TetR will lower the expression. Instead, Ptet promoter is activated to express RhlI and LacI.

Fig. 2-1-21. Change to distribution state
 

3.3. Modeling: Bank actually helps the development of the economy

We made a mathematical model to ensure the functioning of the Bank. Bank helps Company and Customer to grow well even with a few amounts. As shown in Fig. 2-1-22, if the amounts of Company and Customer are few, then they cannot grow well. But once the Bank is included, all of them can grow well.

 
Fig. 2-1-22. Bank helps Company and Customer to grow well
 

Also to ensure the functioning, we analyzed the Bank’s internal switch depending on the C4HSL concentration. Fig. 2-1-23 shows the RhlI concentration depending on the C4 concentration in the Bank cell. When the C4 concentration increases from low to high, the RhlI concentration follows the green line on the figure, decreasing the RhlI expression. This means the Bank switches its state from distribution state to collection state. On the other hand, when the C4 concentration decreases, the RhlI concentration follows the blue line, increasing the RhlI expression. This means the Bank switches its state from collection state to distribution state.

 
Fig. 2-1-23. Bank changes its state from Distribution State to Collection State
 

"These results show that Bank functions as a central bank as in the real economy."

 
 
 

4. Economic Wave: Advice from Entrepreneurs

We introduced our Bank E. coli project to businessmen, executives, and technicians engaged in IT companies at a workshop called MUSE TALK for professional opinions (See Policy and Practice for more details). They pointed out that economic wave should be integrated into our system to make it more realistic (Fig. 2-1-24).

 
Fig. 2-1-24. Our teammates exchanging opinions with professionals
 

In the real economy, there are long-term financial wave named Kitchin inventory, Kondratiev wave etc. (Wikipedia.org). These long-term financial waves deeply affect the whole economy. We were advised that ignoring these waves can be a crucial defect in our project.

In order to develop our educational tool for iGEMERs more, we merged the idea of economic wave into our system as the fluctuation of C4HSL concentration. Even though Company and Customer can grow well only by themselves as shown in Fig. 2-1-25(left), they cannot endure the effect of economic wave as shown in Fig. 2-1-25(center). These results show that Company and Customer are not good at dealing with the economic wave. Let us introduce the Bank to the market with economic wave. As shown in Fig. 2-1-25(right), Bank helps Company and Customer to grow well.

 
Fig. 2-1-25. Company and Customer cannot survive when they face economic wave.
 

Money supplies in these situations, represented by C4 concentrations, are shown in Fig. 2-1-26. Even though the money supply decreases very much by the effect of economic wave as shown in Fig,2-1-26(center), the introduction of the Bank changes the state drastically, results in abundant money supply Fig. 2-1-26(right).

 
Fig. 2-1-26 Money supply (C4 concentration) in every situation described in Fig. 2-1-25.
 

Although the above results show how Bank stabilizes the system, small change of parameter in economic wave makes Bank to fail managing. With harsh economic wave, the effect of economic wave begins to be out of hands of Bank. As shown in Fig.2-1-27(left), the population of Company and Customer fluctuates very much. This is due to the fluctuation of money supply in the market(Fig. 2-1-27(right)). Interestingly, the Bank constantly grows while the other two suffers the fluctuation of the money supply (Fig. 2-1-27(left)). Be careful not to be like this in your countries.

 
Fig. 2-1-27. Bank can help Company and Customer even with harsh economic wave
 
 
 

5. Project Evaluation

 

Finally, the evaluation of our educational tool using E. coli and BioBrick showed that our project is highly effective for students majoring in biology to understand economics (Fig. 2-1-28).

 
Fig. 2-1-28. Effects of our presentation
 
 
 
 

6. Reference

 
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