Team:HKUST-Hong Kong/mic.html
From 2011.igem.org
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In order to quantitatively demonstrate the effect of indole charity as well as our construct’s ability to negate it, we have decided to perform a series of minimum inhibition concentration (MIC) tests, where we subjected different strains and mixes of E.coli to an antibiotic gradient and cultured overnight (18 hours). The OD600 readings of each test were recorded afterwards and will be shown in later sections. <a href=#top>[top]</a><br><br> | In order to quantitatively demonstrate the effect of indole charity as well as our construct’s ability to negate it, we have decided to perform a series of minimum inhibition concentration (MIC) tests, where we subjected different strains and mixes of E.coli to an antibiotic gradient and cultured overnight (18 hours). The OD600 readings of each test were recorded afterwards and will be shown in later sections. <a href=#top>[top]</a><br><br> | ||
- | <a name=wild type></a><b>I. Wild Type (RR1) MIC Test</b><br> | + | <a name=wild type></a><b>I. Wild Type (RR1) MIC Test</b><br><br> |
<u>Phase 1 - Kanamycin MIC test</u><br><br> | <u>Phase 1 - Kanamycin MIC test</u><br><br> | ||
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For the testing under indole concentration of 300µM and 500µM, we can see that the MIC for RR-1 increased to ( )which is in consistence with the result of our Mixed culture MIC posted later. The RR-1 is able to survive under kanamycin concentration of ( ) .<br><br> | For the testing under indole concentration of 300µM and 500µM, we can see that the MIC for RR-1 increased to ( )which is in consistence with the result of our Mixed culture MIC posted later. The RR-1 is able to survive under kanamycin concentration of ( ) .<br><br> | ||
- | On the other hand, we also did some 1mM and 2mM indole MIC testing, which aims at finding out whether the over dosage of indole could kill the population instead of protecting them. The result shows that indole did have a killing effect at higher concentration and the MIC did decrease compared to the result of 300µM indole MIC.<br><br> | + | On the other hand, we also did some 1mM and 2mM indole MIC testing, which aims at finding out whether the over dosage of indole could kill the population instead of protecting them. The result shows that indole did have a killing effect at higher concentration and the MIC did decrease compared to the result of 300µM indole MIC. <a href=#top> [top]</a><br><br> |
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<p align=justify style="margin: 20px 20px 20px 20px"> | <p align=justify style="margin: 20px 20px 20px 20px"> | ||
- | <a name=mixed culture></a><b>II. Mixed Culture MIC Tests< | + | <a name=mixed culture></a><b>II. Mixed Culture MIC Tests</b></a><br><br> |
<u>Phase 1 - Wild type (RR1) with RFP-labelled kanamycin resistance strain (RFP) (99:1)<br><br></u> | <u>Phase 1 - Wild type (RR1) with RFP-labelled kanamycin resistance strain (RFP) (99:1)<br><br></u> | ||
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<u>Phase 3 - Wild type (RR1), RFP-labelled kanR strain and GFP-Labeled KanR T4MO (98:1:1) [???]<br><br></u> | <u>Phase 3 - Wild type (RR1), RFP-labelled kanR strain and GFP-Labeled KanR T4MO (98:1:1) [???]<br><br></u> | ||
- | It has been proved in the phase 2 that T4MO does interrupt the indole charity work. So in the next step, we plan to practice our model, which is introducing a T4MO strain into the environment predominantly consisting of RR-1with few kanamycin resistant mutants. By comparing the resulting ratio of RR-1 to the antibiotic resistant strain to that of the T4MO and RR-1 Mix culture, we may observe again the strong effect of indole; by comparing the resulting ratio of RR-1 to the antibiotic resistant strain to that of the KanR/RFP RR-1 Mix culture without T4MO, we would be able to tell how T4MO takes effect.<br><br> | + | It has been proved in the phase 2 that T4MO does interrupt the indole charity work. So in the next step, we plan to practice our model, which is introducing a T4MO strain into the environment predominantly consisting of RR-1with few kanamycin resistant mutants. By comparing the resulting ratio of RR-1 to the antibiotic resistant strain to that of the T4MO and RR-1 Mix culture, we may observe again the strong effect of indole; by comparing the resulting ratio of RR-1 to the antibiotic resistant strain to that of the KanR/RFP RR-1 Mix culture without T4MO, we would be able to tell how T4MO takes effect. <a href=#top> [top]</a><br><br> |
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- | <a name=conclusion></a><b>III. Conclusion< | + | <a name=conclusion></a><b>III. Conclusion</b></a><br><br> |
- | [lalaala]<br><br> | + | [lalaala] <a href=#top> [top]</a><br><br> |
- | <a name=future></a><b>IV. Future Plans | + | <a name=future></a><b>IV. Future Plans</b><br><br. |
<u>Phase II - Wild type (RR1), RFP-labeled kanR, and GFP-labeled T4MO/Bcr mix<br><br></u> | <u>Phase II - Wild type (RR1), RFP-labeled kanR, and GFP-labeled T4MO/Bcr mix<br><br></u> | ||
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(insert a picture here showing out ideal construction) | (insert a picture here showing out ideal construction) | ||
- | By having this strain in the population, the charity work will be restricted, so that the selection process can be done efficiently without applying over dosage of antibiotics, and the presence of this strain can be controlled by us so that this alien strain only performs the duty of degrading indole and brings no side effect on the whole selection process.<br><br> | + | By having this strain in the population, the charity work will be restricted, so that the selection process can be done efficiently without applying over dosage of antibiotics, and the presence of this strain can be controlled by us so that this alien strain only performs the duty of degrading indole and brings no side effect on the whole selection process. <a href=#top> [top]</a><br><br> |
- | <a name=biobrick></a><b>V. Biobrick construction< | + | <a name=biobrick></a><b>V. Biobrick construction</b><br><br> |
<u>Bcr</u> | <u>Bcr</u> | ||
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In our iGEM project, we planned to construct a biobrick with the pLac promoter driving expression of Bcr. The reason behind this is to take advantage of the additive effect of IPTG on pLac activation. We hope that by varying the concentration of IPTG, we can control the level of expression of Bcr and thus manipulate the mutant E. coli’s MIC to certain antibiotics. | In our iGEM project, we planned to construct a biobrick with the pLac promoter driving expression of Bcr. The reason behind this is to take advantage of the additive effect of IPTG on pLac activation. We hope that by varying the concentration of IPTG, we can control the level of expression of Bcr and thus manipulate the mutant E. coli’s MIC to certain antibiotics. | ||
<br><br> | <br><br> | ||
- | However, as the time limited,we only submit a plasmid contain only the bcr gene to part registry. You can use it for selection of bacteria in the future.<br><br> | + | However, as the time limited,we only submit a plasmid contain only the bcr gene to part registry. You can use it for selection of bacteria in the future. <a href=#top> [top]</a><br><br> |
*: compared with wild type<br><br> | *: compared with wild type<br><br> | ||
- | <a name=appendix></a><b>VI. Appendix< | + | <a name=appendix></a><b>VI. Appendix</b></a><br><br> |
- | [Extra data] Protocols will probably be included in the Notebook section<br> | + | [Extra data] Protocols will probably be included in the Notebook section <a href=#top> [top]</a><br> |
Revision as of 14:16, 4 October 2011
2. MIC
2.1. Theory
0. Introduction
II. Mixed Culture MIC Tests
III. Conclusion
[1] http://www.nature.com/nature/journal/v467/n7311/abs/nature09354.html |
MIC2 MIC 0. Introduction I. Wild Type (RR1) MIC Test II. Mixed Culture MIC Tests III. Conclusion IV. Future Plans V. Biobrick construction VI. Appendix |
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