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<h2 id="Characterization of TA system" class="smalltitle">1. Characterization of TA system</h2> | <h2 id="Characterization of TA system" class="smalltitle">1. Characterization of TA system</h2> | ||
<a name="Characterization of TA system"></a> | <a name="Characterization of TA system"></a> | ||
+ | <table rules="rows" border="2px solid #583612" width="800px" style="line-height: 1.4em; text-align:center; font-weight: bold;"> | ||
+ | <tbody> | ||
+ | <tr bgcolor="#1971b9" style="color:#ffffff;"> | ||
+ | <th width="250px">Team</th> | ||
+ | <th width="150px">TA System</th> | ||
+ | <th width="300px">Function</th> | ||
+ | </tr> | ||
+ | <tr bgcolor="#dcebf8" style="color:#000000;"> | ||
+ | <td><a href="https://2012.igem.org/Team:UCSF">UCSF 2012</a></td> | ||
+ | <td>YoeB-YefM<br /> MazE-MazF</td> | ||
+ | <td>Communication by TA system</td> | ||
+ | </tr> | ||
+ | <tr bgcolor="#95c2e8" style="color:#000000;"> | ||
+ | <td><a href="https://2012.igem.org/Team:Colombia">Colombia 2012</td> | ||
+ | <td>HipA7-HipB<br />MqsR-MqsA<br />TisB-istR</td> | ||
+ | <td>Kill Switch</td> | ||
+ | </tr> | ||
+ | <tr bgcolor="#dcebf8" style="color:#000000;"> | ||
+ | <td><a href="https://2013.igem.org/Team:Bonn">Bonn 2013</td> | ||
+ | <td>MazE-MazF</td> | ||
+ | <td>Kill Switch</td> | ||
+ | </tr> | ||
+ | <tr bgcolor="#95c2e8" style="color:#000000;"> | ||
+ | <td><a href="https://2013.igem.org/Team:Uppsala">Uppsala 2013</a></td> | ||
+ | <td>from lactobacillus<br />plantarum</td> | ||
+ | <td>Kill Switch</td> | ||
+ | </tr> | ||
+ | <tr bgcolor="#dcebf8" style="color:#000000;"> | ||
+ | <td><a href="https://2013.igem.org/Team:UGent">UGent 2013</td> | ||
+ | <td>ccdB-ccdA</td> | ||
+ | <td>eliminate the need for antibiotics</td> | ||
+ | </tr> | ||
+ | <tr bgcolor="#95c2e8" style="color:#000000;"> | ||
+ | <td><a href="https://2014.igem.org/Team:Wageningen_UR">Wageningen UR 2014</a></td> | ||
+ | <td>Kid-Kis<br />Zeta-Epsilon</td> | ||
+ | <td>Kill Switch</td> | ||
+ | </tr> | ||
+ | <tr bgcolor="#dcebf8" style="color:#000000;"> | ||
+ | <td><a href="https://2014.igem.org/Team:ULB-Brussels">ULB-Brussels 2014</td> | ||
+ | <td>ccdB-ccdA</td> | ||
+ | <td>Kill Switch</td> | ||
+ | </tr> | ||
+ | <tr bgcolor="#95c2e8" style="color:#000000;"> | ||
+ | <td><a href="https://2015.igem.org/Team:UMaryland">UMaryland 2015</a></td> | ||
+ | <td>Hok-Soc</td> | ||
+ | <td>eliminate the need for antibiotics</td> | ||
+ | </tr> | ||
+ | <tr bgcolor="#dcebf8" style="color:#000000;"> | ||
+ | <td><a href="https://2015.igem.org/Team:ZJU-China">ZJU-China 2015</td> | ||
+ | <td>tcdA1-tcdB1<br />Plu0840-Plu1537</td> | ||
+ | <td>Kill Switch</td> | ||
+ | </tr> | ||
+ | <tr bgcolor="#95c2e8" style="color:#000000;"> | ||
+ | <td><a href="https://2015.igem.org/Team:BABS_UNSW_Australia">BABS UNSW Australia 2015</a></td> | ||
+ | <td>Tsi2-Tse2</td> | ||
+ | <td>eliminate the need for antibiotics</td> | ||
+ | </tr> | ||
+ | </tbody> | ||
+ | </table> | ||
<h3 id="21" class="sub5">2.1. "Background”for our Characterization of TA system</h3> | <h3 id="21" class="sub5">2.1. "Background”for our Characterization of TA system</h3> | ||
<p class="text2">TA system is the function that regulates cell growth on the genomic DNA of many microorganisms. | <p class="text2">TA system is the function that regulates cell growth on the genomic DNA of many microorganisms. | ||
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<p class="text2"> We studied maz system with various conditions and found that the best condition of expressing maz system in one cell. Besides, we also found that cell growth regulated by the alternative expression of mazE and mazF.</p><br> | <p class="text2"> We studied maz system with various conditions and found that the best condition of expressing maz system in one cell. Besides, we also found that cell growth regulated by the alternative expression of mazE and mazF.</p><br> | ||
<h3 id="21" class="sub5">1.3. Results</h3> | <h3 id="21" class="sub5">1.3. Results</h3> | ||
+ | <img src="https://static.igem.org/mediawiki/2016/6/6b/T--Tokyo_Tech--Description_Toxin1.png" width="400px"/> | ||
+ | <img src="https://static.igem.org/mediawiki/2016/4/42/T--Tokyo_Tech--Description_Toxin2.png" width="400px"/> | ||
+ | <img src="https://static.igem.org/mediawiki/2016/0/06/T--Tokyo_Tech--Description_Toxin3.png" width="400px"/> | ||
+ | <img src="https://static.igem.org/mediawiki/2016/7/78/T--Tokyo_Tech--Description_Toxin4.png" width="400px"/> | ||
+ | <img src="https://static.igem.org/mediawiki/2016/4/44/T--Tokyo_Tech--Description_Toxin5.png" width="400px"/> | ||
+ | <img src="https://static.igem.org/mediawiki/2016/2/26/T--Tokyo_Tech--Description_Toxin6.png" width="400px"/> | ||
+ | <img src="https://static.igem.org/mediawiki/2016/b/b7/T--Tokyo_Tech--Description_Toxin7.png" width="400px"/> | ||
+ | <img src="https://static.igem.org/mediawiki/2016/e/e7/T--Tokyo_Tech--Description_Toxin8.png" width="400px"/> | ||
<h4 id="21" class="sub5">1.3.1 Adjustment of Expression of MazF</h4> | <h4 id="21" class="sub5">1.3.1 Adjustment of Expression of MazF</h4> |
Revision as of 03:56, 15 October 2016
Tokyo_Tech
Description
Contents
0. Summary
1. Characterization of TA system
2. Improvement of Prhl
3. Characterization of rhlR
0. Summary
When we tried to represent Snow White with TA system and Quorum Sensing, we faced two problems. First, we could access too little data of TA system to work on our project. Second, simulation of our final genetic circuits revealed that Rhl system was too weak to function as well as Lux system and our final circuits could not work well. So we decided to characterize the existing TA system and rhlR parts, and improve the past improved Prhl in order to represent Snow White as faithfully as we could. As a results, the data we obtained makes easy to use these existing TA system and rhlR parts. Furthermore, our original improved Prhl expands the possibility to use Quorum Sensing.
1. Characterization of TA system
Team | TA System | Function |
---|---|---|
UCSF 2012 | YoeB-YefM MazE-MazF |
Communication by TA system |
Colombia 2012 | HipA7-HipB MqsR-MqsA TisB-istR |
Kill Switch |
Bonn 2013 | MazE-MazF | Kill Switch |
Uppsala 2013 | from lactobacillus plantarum |
Kill Switch |
UGent 2013 | ccdB-ccdA | eliminate the need for antibiotics |
Wageningen UR 2014 | Kid-Kis Zeta-Epsilon |
Kill Switch |
ULB-Brussels 2014 | ccdB-ccdA | Kill Switch |
UMaryland 2015 | Hok-Soc | eliminate the need for antibiotics |
ZJU-China 2015 | tcdA1-tcdB1 Plu0840-Plu1537 |
Kill Switch |
BABS UNSW Australia 2015 | Tsi2-Tse2 | eliminate the need for antibiotics |
2.1. "Background”for our Characterization of TA system
TA system is the function that regulates cell growth on the genomic DNA of many microorganisms. So far, iGEM 2014 team ULB-Brussels, iGEM 2013 team UGent had studied about ccdB-ccd, iGEM 2014 team Wageningen UR about Kid-Kis and Zeta-Epsilon, iGEM 2015 team UMaryland about Hok-Soc. Almost all the iGEM teams dealing with TA system aimed to use it as Kill Switch or substitution for antibiotics. On the other hand, we aim to study the interaction of toxin and antitoxin in a cell. Besides some teams failed to show enough data of TA system assay. Although UCSF 2012 experienced the communication through TA system including mazEF system, they did not introduce toxin and antitoxin into a cell and could not show mazEF system assay data. Our results show that the cell growth can be controlled by mazEF system.
iGEM 2016 team Tokyo_Tech has studied about mazEF system (MazF : toxin , MazE : antitoxin) that has been researched well as TA system.
1.2. Summary of the experiment
We studied maz system with various conditions and found that the best condition of expressing maz system in one cell. Besides, we also found that cell growth regulated by the alternative expression of mazE and mazF.
1.3. Results
1.3.1 Adjustment of Expression of MazF
It was concluded that MazF should be induced under the condition that the Arabinose concentration is 0.02% so that MazF functions as a toxin and GFP fluoresces sufficiently in mazEF system assay.
1.3.2 mazEF System Assay
Since MazE resuscitates E. coli after MazF expression inhibits cell growth and translation, MazF inhibits cell growth and translation after MazE expression, it was suggested that using maze system can regulate cell growth and translation.
1.4 Discussion
We learned the appropriate Arabinose concentration, 0.02%, to induce MazF. This assay firstly shows that in one cell, MazE resuscitates E. coli after MazF expression inhibits cell growth and translation, then, MazF inhibits cell growth and translation after MazE expression. It is suggested that using maze system regulate cell growth and translation. In conclusion, we can indicate, as the function of TA system, not Kill Switch but a regulator of systems. It will be useful for information processing.
2. Improvement of Prhl
2.1. "Background”for our improvement of Prhl
We simulated our final genetic circuits and found that the circuits did not work, because Prhl activity was too weak compared to Plux. (see the Model page and the AHL Only Assay page). We therefore considered using the improved Prhl (BBa_K1529310, BBa_K1529300) established by iGEM 2014 Tokyo_Tech, but we noticed that they were inappropriate for two reasons: crosstalk to C12 and type of rhlR (written below). Then, we decided to improve wild type Prhl.
2.2. Summary of the experiment
By introducing a single point mutation into wild type Prhl (BBa_R0071) by PCR, we obtained 198 Prhl mutants and obtained the Prhl mutants of which promoter activity was stronger than wild type Prhl, and named it Prhl(Noticeable Mutant) (BBa_K1949060), hereafter referred to as Prhl(NM), which suited our goal.
2.3. Results
The SN ratio of Prhl(NM) was higher than that of Prhl(LR) and Prhl(NM) did not crosstalk to C12 unlike Prhl(LR).
2.4. Discussion
Many iGEM teams used AHL and probably this tendency continues. When you use AHL, you will find that promoter strength is quite different depending on the type of AHL and it bothers you to design genetic circuits, for example, including Plux and Prhl. Prhl(NM) has almost as same strong activity as Plux. Furthermore, Prhl(NM) has higher specificity to C4 than Prhl(LR). Prhl(NM) can be said that it expands the possibility of using various combination promoters depending on AHL.
3. Characterization of rhlR
3.1. "Background”for our Characterization of rhlR
When we used two type of rhlR, one was LVA-tagged and the other was normal, we found that gfp introduced with rhlR barely expressed but gfp introduced with rhlR-LVA expressed greatly. We decided to find this cause.
3.2. Summary of the experiment
Measure RFU of GFP of the E. coli containing (a) Pcon-rbs-rhlR-LVA (pSB6A1), Prhl(LR)-rbs-gfp (pSB3K3), (b) Pcon-rbs-rhlR (pSB6A1), Prhl(LR)-rbs-gfp (pSB3K3), (c) Pcon-rbs-rhlR-LVA (pSB6A1), Prhl(RL)-rbs-gfp (pSB3K3) or (d)Pcon-rbs-rhlR(pSB6A1), Prhl(RL)-rbs-gfp (pSB3K3). And we found that gfp expresses much if it introduced with rhlR-LVA even though using stronger Prhl than wild type Prhl. Thls is because that RhlR, which represses Prhl without C4, tagged LVA is prone to be degraded and the concentration of RhlR in a cell decreases then the repression becomes weak.
3.3. Results
The level of GFP expression of (a)~(d) are shown below.
3.4. Discussion
The expression level of the gene under Prhl depends on not only Prhl activity but also the type of the rhlR. In other words, this characterize shows that the combinations of Prhl and rhlR can control the expression level of the gene under Prhl. It gives you more choices which Prhl and rhlR you use.