Difference between revisions of "Team:Tokyo Tech/Experiment/FimE dependent fim switch state assay"

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     <div id="titlearea">
 
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       <h1>FimE dependent <i>fim</i> switch state assay</h1>
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       <h1>FimB dependent <i>fim</i> switch state assay</h1>
 
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       <h3 class="link"><a href="#Summary">2. Summary of the Experiment</a></h3>
 
       <h3 class="link"><a href="#Summary">2. Summary of the Experiment</a></h3>
 
       <h3 class="link"><a href="#Results">3. Results</a></h3>
 
       <h3 class="link"><a href="#Results">3. Results</a></h3>
       <h3 class="link2"><a href="#Result1">3.1. Arabinose dependent FimE expression</a></h3>
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       <h3 class="link2"><a href="#Result1">3.1. Arabinose-dependent FimB (wild-type) expression</a></h3>
       <h3 class="link2"><a href="#Result2">3.2. FLA analysis</a></h3>                
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       <h3 class="link2"><a href="#Result2">3.2. FLA analysis</a></h3>
       <h3 class="link"><a href="#Materials">4. Materials and Methods</a></h3>
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       <h3 class="link"><a href="#Discussion">4. Discussion</a></h3>             
       <h3 class="link2"><a href="#Const">4.1.  Construction</a></h3>
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      <h3 class="link"><a href="#Materials">5. Materials and Methods</a></h3>
       <h3 class="link2"><a href="#Protocol">4.2. Assay Protocol</a></h3>
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       <h3 class="link2"><a href="#Const">5.1.  Construction</a></h3>
         <h3 class="link3"><a href="#Protol1">4.2.1 Arabinose dependent FimE expression</a></h3>
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       <h3 class="link2"><a href="#Protocol">5.2. Assay Protocol</a></h3>
         <h3 class="link3"><a href="#Protol2">4.2.2. FLA analysis</a></h3>
+
         <h3 class="link3"><a href="#Protol1">5.2.1 Arabinose dependent FimB expression</a></h3>
 +
         <h3 class="link3"><a href="#Protol2">5.2.2. FLA analysis</a></h3>
 
       <h3 class="link"><a href="#Reference">6. Reference</a></h3>
 
       <h3 class="link"><a href="#Reference">6. Reference</a></h3>
 
       <br>
 
       <br>
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   <div class="textarea">
 
   <div class="textarea">
 
           <h2 id="Introduction" class="smalltitle">1. Introduction</h2>
 
           <h2 id="Introduction" class="smalltitle">1. Introduction</h2>
      <p class="text">To confirm the function of fim switch in the presence of FimE, we constructed two new genetic circuit parts, BBa_K1632013 and BBa_K1632002 (Fig. 3-5-1). BBa_K1632013 enables arabinose-inducible expression of wild type FimE. In BBa_K1632013 and BBa_K1632002, either [ON] or [OFF] fim switch is placed upstream of GFP coding sequence. </p>
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         <table width="940 px" border="0px">
    <table width="940 px" border="0px">
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                <tr>
 +
              <td width="470px">
 +
            <p class="text">In order to enable a prisoner <i>coli</i> to randomly select its option between cooperation and defection, we noticed that a <i>fim</i> switch(wild-type), which can invert a promoter sequence bidirectionally in the presence of FimB (wild-type) recombinase, is the part we need (Fig. 3-4-1-1).</p></td>
 +
                <td width="470px">
 +
                  <div align="center"><img src="https://static.igem.org/mediawiki/2015/e/ee/Tokyo_Tech_fimB_summary.png" width="450px"/>
 +
                </td>
 +
                </tr>
 +
      <tr>
 +
      <td width="940px">&nbsp;</td>
 +
      <td width="940px">
 +
      <h4 align="center" class="fig"><strong>Fig.&nbsp;3-4-1-1.</strong>&nbsp;In the presence of FimB recombinase, the <i>fim</i> switch which is a promoter containing repeated DNA sequence, is invert at random. </h4>
 +
      </td>
 +
      </tr>
 +
      </table>
 +
      <p class="text">For implementation of Decision making <i>coli</i>, we newly constructed plasmid, P<sub>BAD/<i>araC</i></sub>_<i>fimB</i>(wild-type) (<a href="http://parts.igem.org/Part:BBa_K1632012">BBa_K1632012</a>) that produces FimB (wild-type).  We also prepared two other new plasmids, <a href="http://parts.igem.org/Part:BBa_K1632007">BBa_K1632007</a> and <a href="http://parts.igem.org/Part:BBa_K1632008">BBa_K1632008</a> (Fig. 3-4-1-2). <a href="http://parts.igem.org/Part:BBa_K1632012">BBa_K1632012</a> enables arabinose-inducible expression of FimB (wild-type). In <a href="http://parts.igem.org/Part:BBa_K1632012">BBa_K1632007</a> and <a href="http://parts.igem.org/Part:BBa_K1632008">BBa_K1632008</a>, either [ON] or [OFF] <i>fim</i> switch (wild-type) is placed upstream of GFP coding sequence. </p>  
 +
          <table width="940 px" border="0px">
 
       <tr>
 
       <tr>
       <td width="940px"><div align="center"><img src="https://static.igem.org/mediawiki/2015/8/8a/Tokyo_Tech_arabinosefimEsummary.png" />
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       <td width="940px"><div align="center"><img src="https://static.igem.org/mediawiki/2015/8/8e/Tokyo_Tech_fimB_summary1.png" />
 
       </td>
 
       </td>
 
       </tr>
 
       </tr>
 
       <tr>
 
       <tr>
 
       <td width="940px">
 
       <td width="940px">
       <h4 align="center" class="fig"><strong>Fig.3-7-2-1.</strong>&nbsp; New plasmids we constructed to confirm the function of <i>fim</i> switch</h4>
+
       <h4 align="center" class="fig"><strong>Fig.3-4-1-2.</strong>&nbsp;New plasmids we constructed to confirm the function of <a href="http://parts.igem.org/Part:BBa_K1632012">BBa_K1632012</a> plasmid for Decision making <i>coli</i></h4>
 
       <td>
 
       <td>
 
       </tr>
 
       </tr>
 
       </table>
 
       </table>
 +
 +
  
  
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           <h2 id="Summary" class="smalltitle">2. Summary of the Experiment</h2>
 
           <h2 id="Summary" class="smalltitle">2. Summary of the Experiment</h2>
      <p class="text">Our purpose is to confirm that FimE inverts fimswitch only from ON to OFF. Taking endogenous FimB and FimE into account, we prepared six plasmids sets shown below. We measured the fluorescence intensity by GFP expression when we added arabinose. また、我々はFimSが本当に反転しているかどうかを確認するために、FLAを使った解析とシークエンスデータの解析を行いました。</p>
+
      <p class="text">Our purpose is to confirm that FimB (wild-type) inverts the <i>fim</i> switch (wild-type) from ON to the OFF and from OFF to ON (Fig.3-5-2-1). We prepared six plasmids below. (Fig.3-5-2-2). We measured the fluorescence intensity from the GFP expression in the presence of arabinose. From the results, we confirmed that our <i>fim</i> switch (wild-tyoe) is inverted from ON to OFF and OFF to ON. From the results we also confirmed our <i>fim</i> switch (wild-type) is not inverted by the endogenous FimB and FimE and that FImB expression doesn’t affect the gfp expression. We also confirmed the inversion of our <i>fim</i> switch (wild-type) by コロニーカウンティング以下は篠原よろしく</p>
 +
<p class="text4">
 +
(1) P<sub>BAD/<i>araC</i></sub>_<i>fimB</i> (pSB6A1)+<i> fim</i> switch[default ON](wild-type)_GFP (pSB3K3)<br>
 +
(2) P<sub>BAD/<i>araC</i></sub>_<i>fimB</i> (pSB6A1) +<i> fim</i> switch[default OFF](wild-type) _GFP (pSB3K3)<br>
 +
(3)Positive control 1: (pSB6A1)+ <i>fim</i> switch[default ON](wild-type) _GFP (pSB3K3)<br>
 +
(4)Negative control 1: (pSB6A1)+ <i>fim</i> switch[default OFF](wild-type) _GFP (pSB3K3)<br>
 +
(5)Positive control 2: P<sub>BAD/<i>araC</i></sub>_<i>fimB</i> (wild-type) (pSB6A1)+Pcon_GFP (pSB3K3)<br>
 +
(6)Negative control 2: P<sub>BAD/<i>araC</i></sub>_<i>fimB</i> (wild-type) (pSB6A1)+promoter less_GFP (pSB3K3)<br>
 +
 
 
     <table width="940 px" border="0px">
 
     <table width="940 px" border="0px">
 
       <tr>
 
       <tr>
       <td width="940px"><div align="center"><img src="https://static.igem.org/mediawiki/2015/0/06/Tokyo_Tech_arabinosefimE.png" width="800px" />
+
       <td width="940px"><div align="center"><img src="https://static.igem.org/mediawiki/2015/d/dd/Tokyo_Tech_arabinosefimB.png" width="700px" />
 
       </td>
 
       </td>
 
       </tr>
 
       </tr>
 
       <tr>
 
       <tr>
 
       <td width="940px">
 
       <td width="940px">
       <h4 align="center" class="fig"><strong>Fig.3-7-2-1.</strong>&nbsp;Plasmids for the experiment of FimE dependent fim switch state assay</h4>
+
       <h4 align="center" class="fig"><strong>Fig.3-4-2-1.</strong>&nbsp;Plasmids for the experiment of FimB dependent fim switch state assay</h4>
 
       <td>
 
       <td>
 
       </tr>
 
       </tr>
 
       </table>
 
       </table>
 
 
 
 
 
 
 
 
 
 
 
           <h2 id="Results" class="smalltitle">3. Results</h2>
 
           <h2 id="Results" class="smalltitle">3. Results</h2>
               <h3 id="Result1" class="sub5">3.1. Arabinose dependent FimE expression</h3>
+
               <h3 id="Result1" class="sub5">3.1. Arabinose-dependent FimB (wild-type) expression</h3>
          <p class="text2">
+
          <p class="text2">We tried to confirm that <i>fim</i> switch is bidirectically inverted in the presence of FimB (wild-type) by using GFP as a reporter, under 4 different concentrations of arabinose. In the medium with 0 M arabinose, we supplemented the medium with 0.5 % glucose in order to repress the leakage in the P<sub>BAD/<i>araC</i></sub> promoter. Fig. 3-5-3-1 shows the histograms of the samples measured by the flow cytometer. In the results of the reporter cell (1), when the Induction of FimB(wild-type) expression increases, the fluorescence intensity decreases. From this fact, we confirmed that the <i>fim</i> switch is inverted from ON to OFF by FimB (wild-type). From the result of the reporter cell (2), when the expression amount of FimB(wild-type) increases, the expression amount of GFP in the reporter cell (2) increases. From this fact, we confirmed that the <i>fim</i> switch is inverted from OFF to ON by FimB(wild-type). From the results of the two reporter cells (1) and (2), we successfully confirmed that FimB (wild-type) inverts the <i>fim</i> switch from ON to OFF and from OFF to ON.<br>&nbsp;&nbsp;
Fig.3-5-3-1 はフローサイトメーターで測定した各サンプルのヒストグラムである。レポーターセルCとDの結果から、内在性のFImBとFimEは無視できることがわかる。また、レポーターセルE,Fの結果から、FImEの発現はヒストグラムの波形にほとんど影響を与えないことがわかる。
+
 The results of positive control 1 and negative control 1 confirmed that the endogenous FimB and FimE did not invert our fim switch (wild-tyoe). Also, the result of negative control 2, indicates that the expression of FimB (wild-type) do not have effects on the gfp expression. The reason the fluorescence intensity of the positive control 2 is increasing in proportion to the arabinose concentration is described in 4. Discussion section.
 レポーターセルAの結果は、FimEの発現量が増加すると、蛍光強度が減少することを示している。このことより、我々はFimSがFimEによってOn状態からOff状態に切り替わっていることを確信した。また、レポーターセルBの結果はFimEの発現量が増加してもレポーターセルBのGFP発現量は変化しないことを示している。これより、fimSはFimEによってOff状態からOn状態に切り替わらないことを確信した。以上二つのレポーターセルA,Bの結果より、FimEはFimSをinverts fimswitch only from ON to OFF していることを確信した。
+
 
</p>
 
</p>
 
                 <table width="940 px" border="0px">
 
                 <table width="940 px" border="0px">
 
                   <tr>
 
                   <tr>
                   <td width="940px"><div align="center"><img src="https://static.igem.org/mediawiki/2015/c/cc/Tokyo_Tech_arabinose_fimE_result1.png" width="900px"/>
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                   <td width="940px"><div align="center"><img src="https://static.igem.org/mediawiki/2015/1/1a/Tokyo_Tech_arabinose_fimB_result1.png" width="800px"/>
 
       </td>
 
       </td>
 
       </tr>
 
       </tr>
 
       <tr>
 
       <tr>
       <td width="980px">
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       <td width="940px">
       <h4 align="center" class="fig"><strong>Fig. 3-5-3-1.</strong></h4>
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       <h4 align="center" class="fig"><strong>Fig. 3-4-3-1.</strong> Histogram of the samples measured by flow cytometer</h4>
 
       <td>
 
       <td>
 
       </tr>
 
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               <h3 id="Result2" class="sub5">3.2. FLA analysis</h3>
 
               <h3 id="Result2" class="sub5">3.2. FLA analysis</h3>
 
          <p class="text2">写真とシークエンスデータ</p>
 
          <p class="text2">写真とシークエンスデータ</p>
 +
          <h2 id="Discussion" class="smalltitle">4. Discussion</h2>
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                <table width="940 px" border="0px">
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                  <tr>
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                  <td width="470px"><p class="text">When the concentration of FimB (wild-type) increased by increasing the concentration of arabinose, we confirmed that the fluorescence intensity decreased in both ON to OFF process and OFF to ON process.<br>&nbsp;&nbsp;
 +
  The result of the reporter cell (2) shows that when the concentration of arabinose is increased to 0〜20 microM, the fluorescence intensity increases. This shows the function of FimB (wild-type) inverting the <i>fim</i> switch (wild-type) from OFF to ON. However, when the arabinose concentration is excess amount, (5mM)、the fluorescence intensity decreases (Fig.3-5-4-1). According to [1], this is caused by the excess increase of the inversion rate of the fim switch. When the inversion rate is too high, there is not enough time for transcription initiation. Consequently, the GFP expression decreases.</p></td>
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                  <td width="470px">
 +
                    <div align="center"><img src="https://static.igem.org/mediawiki/2015/9/93/Tokyo_Tech_arabinose_fimB_discussion1.png" width="450px"/>                 
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                  </td>
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                  </tr>
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                  <tr>
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                  <td width="470px">&nbsp;</td>
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                  <td width="470px"><h4 align="center" class="fig"><strong>Fig.3-4-4-1.</strong>&nbsp;Histogram of reporter cell (2)</h4></td>
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                </table><br>
 +
                <table width="940 px" border="0px">
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                  <tr>
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                  <td width="470px">
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                    <div align="center"><img src="https://static.igem.org/mediawiki/2015/c/c7/Tokyo_Tech_arabinose_fimB_discussion2.png" width="450px"/>
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                  </td>
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                  <td width="470px">                 
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                    <p class="text">Even though there is no <i>fim</i> switch (wild-type) in the plasmid of positive control 2, similar increase of fluorescence intensity dependent on the expression of FimB (wild-type) was found in our positive control 2 (Fig.3-5-4-1) This unpredictable increase of fluorescence intensity is caused by the decrease of dilution rate of proteins inside cells. The FimB (wild-type) expression, depending on the arabinose induction, inhibits cell division that decreases protein concentration inside the individual cells. Therefore, the concentration of GFP in individual cell increases. </p>
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                  </td>
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                  </tr>
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                  <td width="470px">
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                    <h4 align="center" class="fig"><strong>Fig.3-4-4-2.</strong>&nbsp;The histogram of positive control 2</h4></td>
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                  </tr>
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                  <td width="470px">&nbsp;</td>
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           <h2 id="Materials" class="smalltitle">4. Materials and Methods</h2>
 
           <h2 id="Materials" class="smalltitle">4. Materials and Methods</h2>
 
               <h3 id="Const" class="sub5">4.1.  Construction</h3>
 
               <h3 id="Const" class="sub5">4.1.  Construction</h3>

Revision as of 23:11, 17 September 2015

FimB dependent fim switch state assay

  
  

1. Introduction

           
      

In order to enable a prisoner coli to randomly select its option between cooperation and defection, we noticed that a fim switch(wild-type), which can invert a promoter sequence bidirectionally in the presence of FimB (wild-type) recombinase, is the part we need (Fig. 3-4-1-1).

 

Fig. 3-4-1-1. In the presence of FimB recombinase, the fim switch which is a promoter containing repeated DNA sequence, is invert at random.

      

For implementation of Decision making coli, we newly constructed plasmid, PBAD/araC_fimB(wild-type) (BBa_K1632012) that produces FimB (wild-type). We also prepared two other new plasmids, BBa_K1632007 and BBa_K1632008 (Fig. 3-4-1-2). BBa_K1632012 enables arabinose-inducible expression of FimB (wild-type). In BBa_K1632007 and BBa_K1632008, either [ON] or [OFF] fim switch (wild-type) is placed upstream of GFP coding sequence.

      

Fig.3-4-1-2. New plasmids we constructed to confirm the function of BBa_K1632012 plasmid for Decision making coli

2. Summary of the Experiment

      

Our purpose is to confirm that FimB (wild-type) inverts the fim switch (wild-type) from ON to the OFF and from OFF to ON (Fig.3-5-2-1). We prepared six plasmids below. (Fig.3-5-2-2). We measured the fluorescence intensity from the GFP expression in the presence of arabinose. From the results, we confirmed that our fim switch (wild-tyoe) is inverted from ON to OFF and OFF to ON. From the results we also confirmed our fim switch (wild-type) is not inverted by the endogenous FimB and FimE and that FImB expression doesn’t affect the gfp expression. We also confirmed the inversion of our fim switch (wild-type) by コロニーカウンティング以下は篠原よろしく

(1) PBAD/araC_fimB (pSB6A1)+ fim switch[default ON](wild-type)_GFP (pSB3K3)
(2) PBAD/araC_fimB (pSB6A1) + fim switch[default OFF](wild-type) _GFP (pSB3K3)
(3)Positive control 1: (pSB6A1)+ fim switch[default ON](wild-type) _GFP (pSB3K3)
(4)Negative control 1: (pSB6A1)+ fim switch[default OFF](wild-type) _GFP (pSB3K3)
(5)Positive control 2: PBAD/araC_fimB (wild-type) (pSB6A1)+Pcon_GFP (pSB3K3)
(6)Negative control 2: PBAD/araC_fimB (wild-type) (pSB6A1)+promoter less_GFP (pSB3K3)

Fig.3-4-2-1. Plasmids for the experiment of FimB dependent fim switch state assay

3. Results

3.1. Arabinose-dependent FimB (wild-type) expression

      

We tried to confirm that fim switch is bidirectically inverted in the presence of FimB (wild-type) by using GFP as a reporter, under 4 different concentrations of arabinose. In the medium with 0 M arabinose, we supplemented the medium with 0.5 % glucose in order to repress the leakage in the PBAD/araC promoter. Fig. 3-5-3-1 shows the histograms of the samples measured by the flow cytometer. In the results of the reporter cell (1), when the Induction of FimB(wild-type) expression increases, the fluorescence intensity decreases. From this fact, we confirmed that the fim switch is inverted from ON to OFF by FimB (wild-type). From the result of the reporter cell (2), when the expression amount of FimB(wild-type) increases, the expression amount of GFP in the reporter cell (2) increases. From this fact, we confirmed that the fim switch is inverted from OFF to ON by FimB(wild-type). From the results of the two reporter cells (1) and (2), we successfully confirmed that FimB (wild-type) inverts the fim switch from ON to OFF and from OFF to ON.
    The results of positive control 1 and negative control 1 confirmed that the endogenous FimB and FimE did not invert our fim switch (wild-tyoe). Also, the result of negative control 2, indicates that the expression of FimB (wild-type) do not have effects on the gfp expression. The reason the fluorescence intensity of the positive control 2 is increasing in proportion to the arabinose concentration is described in 4. Discussion section.

Fig. 3-4-3-1. Histogram of the samples measured by flow cytometer

3.2. FLA analysis

      

写真とシークエンスデータ

4. Discussion

When the concentration of FimB (wild-type) increased by increasing the concentration of arabinose, we confirmed that the fluorescence intensity decreased in both ON to OFF process and OFF to ON process.
   The result of the reporter cell (2) shows that when the concentration of arabinose is increased to 0〜20 microM, the fluorescence intensity increases. This shows the function of FimB (wild-type) inverting the fim switch (wild-type) from OFF to ON. However, when the arabinose concentration is excess amount, (5mM)、the fluorescence intensity decreases (Fig.3-5-4-1). According to [1], this is caused by the excess increase of the inversion rate of the fim switch. When the inversion rate is too high, there is not enough time for transcription initiation. Consequently, the GFP expression decreases.

 

Fig.3-4-4-1. Histogram of reporter cell (2)


Even though there is no fim switch (wild-type) in the plasmid of positive control 2, similar increase of fluorescence intensity dependent on the expression of FimB (wild-type) was found in our positive control 2 (Fig.3-5-4-1) This unpredictable increase of fluorescence intensity is caused by the decrease of dilution rate of proteins inside cells. The FimB (wild-type) expression, depending on the arabinose induction, inhibits cell division that decreases protein concentration inside the individual cells. Therefore, the concentration of GFP in individual cell increases.

Fig.3-4-4-2. The histogram of positive control 2

 

4. Materials and Methods

4.1. Construction

-Strain

      

All the samples were DH5alpha strain.

-Plasmids

      

A. Pbad/araC_fimE(wild-type) (pSB6A1)+ fim switch[default ON](wild-type)_gfp (pSB3K3)

Fig. 3-5-4-1.

      

B. Pbad/araC_fimE(wild-type) (pSB6A1)+ fim switch[default OFF](wild-type)_gfp (pSB3K3)

Fig. 3-5-4-2.

      

C. promoter less M256ICysE(pSB6A1)+ fim switch[default ON](wild-type)_gfp(pSB3K3)…Positive control 1

Fig. 3-5-4-3.

      

D. promoter less M256ICysE(pSB6A1)+ fim switch[default OFF](wild-type)_gfp(pSB3K3)…Negative control 1

Fig. 3-5-4-4.

      

E. Pbad/araC-fimE (pSB6A1) +J23119 promoter_gfp (pSB3K3)…Positive control2

Fig. 3-5-4-5.

      

F. Pbad/araC-fimE (pSB6A1) +promoter less gfp (pSB3K3)…Negative control2

Fig. 3-5-4-6.

4.2. Assay Protocol

4.2.1. Arabinose dependent FimE expression

1. Prepare overnight cultures for the each sample in 3 ml LB medium, containing ampicillin (50 microg / mL), kanamycin (30 microg / mL) and glucose (final concentration of mass of glucose is 1.0 percent) at 37 ℃ for 12h.
2. Make a 1:100 dilution in 3 mL of fresh LB containing Amp, Kan and glucose (final concentration of mass of glucose is 1.0 percent).
3. Grow the cells at 37 ℃ until the observed OD590 reaches 0.4 (Fresh Culture)
4. After incubation, take 1 mL of the samples, and centrifuge at 5000x g, 1 min, 25 ℃.
5. Remove the supernatant by using P1000 pipette.
6. Suspend the pellet in 1 mL of LB containing Amp and Kan, and centrifuge at 5000x g, 1 min, 25 ℃
7. Remove the supernatant by using P1000 pipette.
8. Take the samples, and centrifuge at 5000x g, 1 min, 25 ℃.
9. Remove the supernatant by using P1000 pipette.
10. Add 1 mL of LB containing Amp and Kan, and suspend.
11. Add 30 microL of suspension in the following medium.
   ① 3 mL of LB containing Amp, Kan and 3 microL sterile water
   ② 3 mL of LB containing Amp, Kan and 30 microL of 500μM arabinose (final concentration of arabinose is 1 microM)
   ③ 3 mL of LB containing Amp, Kan and 30 microL of 1 mM arabinose (final concentration of arabinose is 2 microM)
   ④3 mL of LB containing Amp, Kan and 30 microL of 2 mM arabinose (final concentration of arabinose is 5 microM)
   ※ As for C and D, the suspension were added only in medium ① and ④. 12. Grow the samples at 37 ℃ for 6 hours.
13. Measure OD590 of all the samples every hour.
14. Start preparing the flow cytometer 1 h before the end of incubation.
15. After the incubation, take the samples, and centrifuge at 9000x g, 1min, 4℃.
16. Remove the supernatant by using P1000 pipette.
17. Add 1 mL of filtered PBS (phosphate-buffered saline) and suspend. (The ideal of OD is 0.3)
18. Dispense all of each suspension into a disposable tube through a cell strainer.
19. Use flow cytometer to measure the fluorescence of GFP. (We used BD FACSCaliburTM Flow Cytometer of Becton, Dickenson and Company.)

4.2.2. FLA analysis

1. After the assay of “Arabinose dependent FimB expression”, miniprep cell culture (A,B, ,C and D) of leftover as here.(http://parts.igem.org/Help:Protocols/Miniprep)
2. Turn on water bath to 42℃.
3. Take competent DH5alpha strain from -80℃ freezer and leave at rest on ice.
4. Add 3 µl of each plasmids in a 1.5 ml tube.
5. Put 25 µl competent cell into each 1.5 ml tubes with plasmid.
6. Incubate on ice for 15 min.
7. Put tubes with DNA and competent cells into water bath at 42℃ for 30 seconds.
8. Put tubes back on ice for 2 minutes.
9. Add 125 µl of SOC medium. Incubate tubes for 30 minutes at 37℃.
10. Make a 1:5 dilution in 150µl of fresh SOC medium.
11. Spread about 100 µl of the resulting culture of LB plate containing kanamycin.
12. Incubate LB plate for 14-15 hours at 37℃.

5. Reference

      

1. Timothy S. Ham et al. (2006) A Tightly Regulated Inducible Expression System Utilizing the fim Inversion Recombination Switch. Biotechnol Bioeng 94(1):1-4