Team:ETH Zurich/Experiments
From 2013.igem.org
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<h1>Final Circuit</h1> | <h1>Final Circuit</h1> | ||
- | <p align="justify">For the final Colisweeper circuit we plan a four plasmid system. The mine cells constitutively express LuxI for signal generation and NagZ as identifier hydrolase. In the non-mine cells LuxR is expressed constitutively to process the | + | <p align="justify">For the final Colisweeper circuit we plan a four plasmid system. The mine cells constitutively express LuxI for signal generation and NagZ as identifier hydrolase. In the non-mine cells LuxR is expressed constitutively to process the AHL signal. To reduce the leakiness of the system we introduced the LacI repressor to reduce expression of LuxR in the uninduced state. At high AHL concentrations the pLuxL reporter is repressed leading to a positive feedback loop motif. PhoA as reporter for safe cells is expressed constitutively from the chromosome and is therefore not necessary as a plasmid. Aes and GusA are expressed from pLux promoters with different sensitivities. You can find all the biobricks we used and our own new biobricks in the figure below.</p> |
<br clear="all"/> | <br clear="all"/> | ||
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<td>1</td> | <td>1</td> | ||
<td>Receiver cell construct for GFP diffusion experiments</td> | <td>Receiver cell construct for GFP diffusion experiments</td> | ||
- | <td>[http://parts.igem.org/Part:BBa_J09855 BBa_J09855] backbone (SpeI, PstI) and [http://parts.igem.org/Part:BBa_E0840 BBa_E0840] insert (XbaI, PstI)</td> | + | <td>Plac-LuxR-pLuxR [http://parts.igem.org/Part:BBa_J09855 BBa_J09855] backbone (SpeI, PstI) and [http://parts.igem.org/Part:BBa_E0840 BBa_E0840] insert (XbaI, PstI)</td> |
<td>[[File:Pla1.png|300px]<br>[File:Pla2.png|300px]]</td> | <td>[[File:Pla1.png|300px]<br>[File:Pla2.png|300px]]</td> | ||
</tr> | </tr> | ||
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<td>2</td> | <td>2</td> | ||
<td>Library of the Receiver cell constructs</td> | <td>Library of the Receiver cell constructs</td> | ||
- | <td>Using the BBa_J09855.BBa_E0840 construct a library with mutated pLux promoters was created through site-saturation mutagenesis to screen for promoters with changed sensitivities<br>Primers:<br>5'-tatactagagac<b>nnn</b>taggatcgtacag<br>5'-gatcgta<b>nnn</b>gtttacgcaagaaaatg<br>5'-tagagac<b>nnn</b>taggatcgta<b>nnn</b>gtttacgcaagaaaatg<br>5'-tagagacc<b>nn</b>taggatcgta<b>n</b>a<b>n</b>gtttacgcaagaaaatg<br>5'-tagagacct<b>n</b>taggatcgtaca<b>n</b>gtttacgcaagaaaatg<br>Interesting versions of the promoter were sequenced and inserted into pSB1C3 backbone using custom-made oligos. They could then be used for further cloning.</td> | + | <td>Using the Plac-LuxR-pLuxR BBa_J09855.BBa_E0840 construct a library with mutated pLux promoters was created through site-saturation mutagenesis to screen for promoters with changed sensitivities<br>Primers:<br>5'-tatactagagac<b>nnn</b>taggatcgtacag<br>5'-gatcgta<b>nnn</b>gtttacgcaagaaaatg<br>5'-tagagac<b>nnn</b>taggatcgta<b>nnn</b>gtttacgcaagaaaatg<br>5'-tagagacc<b>nn</b>taggatcgta<b>n</b>a<b>n</b>gtttacgcaagaaaatg<br>5'-tagagacct<b>n</b>taggatcgtaca<b>n</b>gtttacgcaagaaaatg<br>Interesting versions of the promoter were sequenced and inserted into pSB1C3 backbone using custom-made oligos. They could then be used for further cloning.</td> |
<td>[[File:Pla3.png|300px]]</td> | <td>[[File:Pla3.png|300px]]</td> | ||
</tr> | </tr> | ||
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<td>4</td> | <td>4</td> | ||
<td>Receiver cell construct for GFP experiments with positive feedback loop to reduce leakiness</td> | <td>Receiver cell construct for GFP experiments with positive feedback loop to reduce leakiness</td> | ||
- | <td>BBa_J09855.BBa_E0840 construct where the pLac promoter was replaced with pLuxR to build a positive feedback loop. The promoter was inserted with two pairs of custom-made oligos using XbaI and HindIII restriction sites.<br>Oligos:<br>5’-ctagagacctgtaggatcgtacaggtttacgcaagaaaatggtttgttatagtcgaataaatactaga | + | <td>Plac-LuxR-pLuxR BBa_J09855.BBa_E0840 construct where the pLac promoter was replaced with pLuxR to build a positive feedback loop. The promoter was inserted with two pairs of custom-made oligos using XbaI and HindIII restriction sites.<br>Oligos:<br>5’-ctagagacctgtaggatcgtacaggtttacgcaagaaaatggtttgttatagtcgaataaatactaga |
<br>5’-gattaaagaggagaaatactagatgaaaaacataaatgccgacgacacatacagaataattaataaaattaa<br>5’-aatctctagtatttattcgactataacaaaccattttcttgcgtaaacctgtacgatcctacaggtct<br>5’-agctttaattttattaattattctgtatgtgtcgtcggcatttatgtttttcatctagtatttctcctcttt</td> | <br>5’-gattaaagaggagaaatactagatgaaaaacataaatgccgacgacacatacagaataattaataaaattaa<br>5’-aatctctagtatttattcgactataacaaaccattttcttgcgtaaacctgtacgatcctacaggtct<br>5’-agctttaattttattaattattctgtatgtgtcgtcggcatttatgtttttcatctagtatttctcctcttt</td> | ||
<td>[[File:Pla6.png|300px]]</td> | <td>[[File:Pla6.png|300px]]</td> | ||
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<td>10</td> | <td>10</td> | ||
<td>constitutive LuxR generating biobrick</td> | <td>constitutive LuxR generating biobrick</td> | ||
- | <td>[http://parts.igem.org/Part:BBa_J09855 BBa_J09855]</td> | + | <td>Plac-LuxR-pLuxR [http://parts.igem.org/Part:BBa_J09855 BBa_J09855]</td> |
<td>[[File:Pla10.png|250px]]</td> | <td>[[File:Pla10.png|250px]]</td> | ||
</tr> | </tr> | ||
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<td>23</td> | <td>23</td> | ||
<td>AHL inducible expression of GusA</td> | <td>AHL inducible expression of GusA</td> | ||
- | <td>[http://parts.igem.org/Part:BBa_J09855 BBa_J09855] (SpeI, PstI) backbone and [http://parts.igem.org/Part:BBa_K1216000 BBa_K1216000]insert (XbaI, PstI)</td> | + | <td>Plac-LuxR-pLuxR [http://parts.igem.org/Part:BBa_J09855 BBa_J09855] (SpeI, PstI) backbone and [http://parts.igem.org/Part:BBa_K1216000 BBa_K1216000]insert (XbaI, PstI)</td> |
<td>[[File:Pla25.png|300px]]<br>[[File:Pla26.png|300px]]</td> | <td>[[File:Pla25.png|300px]]<br>[[File:Pla26.png|300px]]</td> | ||
</tr> | </tr> | ||
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<td>24</td> | <td>24</td> | ||
<td>AHL inducible expression of GusA with positive feedback loop for LuxR expression</td> | <td>AHL inducible expression of GusA with positive feedback loop for LuxR expression</td> | ||
- | <td>BBa_J09855.BBa_K1216000 construct where the pLac promoter was replaced with pLuxR to build a positive feedback loop. The promoter was inserted with two pairs of custom-made oligos using XbaI and HindIII restriction sites.<br>Oligos:<br>5’-ctagagacctgtaggatcgtacaggtttacgcaagaaaatggtttgttatagtcgaataaatactaga | + | <td>Plac-LuxR-pLuxR BBa_J09855.BBa_K1216000 construct where the pLac promoter was replaced with pLuxR to build a positive feedback loop. The promoter was inserted with two pairs of custom-made oligos using XbaI and HindIII restriction sites.<br>Oligos:<br>5’-ctagagacctgtaggatcgtacaggtttacgcaagaaaatggtttgttatagtcgaataaatactaga |
<br>5’-gattaaagaggagaaatactagatgaaaaacataaatgccgacgacacatacagaataattaataaaattaa<br>5’-aatctctagtatttattcgactataacaaaccattttcttgcgtaaacctgtacgatcctacaggtct<br>5’-agctttaattttattaattattctgtatgtgtcgtcggcatttatgtttttcatctagtatttctcctcttt</td> | <br>5’-gattaaagaggagaaatactagatgaaaaacataaatgccgacgacacatacagaataattaataaaattaa<br>5’-aatctctagtatttattcgactataacaaaccattttcttgcgtaaacctgtacgatcctacaggtct<br>5’-agctttaattttattaattattctgtatgtgtcgtcggcatttatgtttttcatctagtatttctcctcttt</td> | ||
<td>[[File:Pla27.png|300px]]<br>[[File:Pla28.png|300px]]</td> | <td>[[File:Pla27.png|300px]]<br>[[File:Pla28.png|300px]]</td> | ||
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<td>25</td> | <td>25</td> | ||
<td>AHL inducible expression of Aes</td> | <td>AHL inducible expression of Aes</td> | ||
- | <td>[http://parts.igem.org/Part:BBa_J09855 BBa_J09855] (SpeI, PstI) backbone and [http://parts.igem.org/Part:BBa_K1216002 BBa_K1216002]insert (XbaI, PstI)</td> | + | <td>Plac-LuxR-pLuxR [http://parts.igem.org/Part:BBa_J09855 BBa_J09855] (SpeI, PstI) backbone and [http://parts.igem.org/Part:BBa_K1216002 BBa_K1216002]insert (XbaI, PstI)</td> |
<td>[[File:Pla29.png|300px]]</td> | <td>[[File:Pla29.png|300px]]</td> | ||
</tr> | </tr> |
Latest revision as of 19:22, 28 October 2013
Contents |
Final Circuit
For the final Colisweeper circuit we plan a four plasmid system. The mine cells constitutively express LuxI for signal generation and NagZ as identifier hydrolase. In the non-mine cells LuxR is expressed constitutively to process the AHL signal. To reduce the leakiness of the system we introduced the LacI repressor to reduce expression of LuxR in the uninduced state. At high AHL concentrations the pLuxL reporter is repressed leading to a positive feedback loop motif. PhoA as reporter for safe cells is expressed constitutively from the chromosome and is therefore not necessary as a plasmid. Aes and GusA are expressed from pLux promoters with different sensitivities. You can find all the biobricks we used and our own new biobricks in the figure below.
Figure 1. Plasmids in mine and non-mine cells: move the cursor over the separate parts to check which biobricks we used.
Cloned Constructs
To get to the circuit mentioned above we tested different versions of the circuit. For example we started our experiments using GFP as a reporter instead of the hydrolases. Then we also tested different LuxI and LuxR generating constructs. In the following table we list all the biobricks we used, the plasmids we cloned and what experiments we used them for. In general we used standard biobrick cloning techniques as described in the methods section. Whenever we used PCR gene amplification for cloning, we list the primers used in the following table. To be able to co-transform different plasmids we used backbones with compatible origins of replication and resistance genes. In the table you can find which backbone versions we used for which constructs.
Groupparts / Biobricks
In the following table you can find all the biobricks that were submitted by our group.
<groupparts>iGEM2013 ETH_Zurich</groupparts>