Team:UCSF/Project/Conjugation/Data1
From 2013.igem.org
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<h3>Knock-down of RFP with CRISPRi:</h3> | <h3>Knock-down of RFP with CRISPRi:</h3> | ||
<p2>Next, we needed to confirm that the CRISPRi system we designed could sufficiently repress RFP expression in our target strain. By directly transforming our engineered conjugative plasmid (which contains our CRISPRi system) into our target cells, we were able to measure RFP fluorescence after induction of the conjugative plasmid. We were able to observe significant knock-down of RFP expression in the cell containing our CRISPRi system.</p2> | <p2>Next, we needed to confirm that the CRISPRi system we designed could sufficiently repress RFP expression in our target strain. By directly transforming our engineered conjugative plasmid (which contains our CRISPRi system) into our target cells, we were able to measure RFP fluorescence after induction of the conjugative plasmid. We were able to observe significant knock-down of RFP expression in the cell containing our CRISPRi system.</p2> | ||
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<p3>Figure 3: The efficiency of our CRISPRi system. The positive control is a direct transformation of the conjugative plasmid backbone (pARO190 without gRNA and dCas9) into our recipient cells. RFP fluorescence is measured via plate reader and error bars show standard deviation calculated on the basis of technical replicates.</p2> | <p3>Figure 3: The efficiency of our CRISPRi system. The positive control is a direct transformation of the conjugative plasmid backbone (pARO190 without gRNA and dCas9) into our recipient cells. RFP fluorescence is measured via plate reader and error bars show standard deviation calculated on the basis of technical replicates.</p2> | ||
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<p3>Figure 4: The dose-response curve for our CRISPRi (dCas9 and gRNA) system. RFP fluorescence was measured under different aTc concentrations (0, 0.625, 1, 6.25, 9.375, 12.5, 18.75, 25, 37.5, 50, 250, 500 ng/mL aTc). Positive control was a direct transformation of the conjugative plasmid backbone (pARO190 without gRNA and dCas9) into our target cells, and negative control was directly transform of conjugative plasmid into JM109 strain without any fluorescent markers. RFP fluorescence was measured via flow cytometry and error bars show standard deviation calculated on the basis of technical replicates.</p2> | <p3>Figure 4: The dose-response curve for our CRISPRi (dCas9 and gRNA) system. RFP fluorescence was measured under different aTc concentrations (0, 0.625, 1, 6.25, 9.375, 12.5, 18.75, 25, 37.5, 50, 250, 500 ng/mL aTc). Positive control was a direct transformation of the conjugative plasmid backbone (pARO190 without gRNA and dCas9) into our target cells, and negative control was directly transform of conjugative plasmid into JM109 strain without any fluorescent markers. RFP fluorescence was measured via flow cytometry and error bars show standard deviation calculated on the basis of technical replicates.</p2> | ||
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<h3>Conjugation of the CRISPRi System into Target Cells:</h3> | <h3>Conjugation of the CRISPRi System into Target Cells:</h3> | ||
<p2>After demonstrating that our delivery (conjugation) and repression systems (CRISPRi system) are both functional in our assays, we moved on to test whether or not we can do both. That is, if it is possible to induce knock-down of a specific gene by transferring specific instructions from one cell to another via conjugation.</p2> | <p2>After demonstrating that our delivery (conjugation) and repression systems (CRISPRi system) are both functional in our assays, we moved on to test whether or not we can do both. That is, if it is possible to induce knock-down of a specific gene by transferring specific instructions from one cell to another via conjugation.</p2> | ||
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<p2>After the transfer of the conjugative plasmid, there is a decrease in RFP expression in strains that have received the CRISPRi system compared to the control (pARO190 backbone), which shows no significant change. Our data in the second trial seem to suggest that dCas9 expression is somewhat leaky behind our pTET promoter, for there is expression of dCas9 without induction. Since our guideRNA is constitutively expressed, this results in a small amount of specific targeting, and therefore RFP repression, without induction. It also appears that overexpression of the dCas9 protein could be somewhat toxic to the cells, so we are currently working on modifying the promoter to achieve a tighter regulation of dCas9 expression.</p2> | <p2>After the transfer of the conjugative plasmid, there is a decrease in RFP expression in strains that have received the CRISPRi system compared to the control (pARO190 backbone), which shows no significant change. Our data in the second trial seem to suggest that dCas9 expression is somewhat leaky behind our pTET promoter, for there is expression of dCas9 without induction. Since our guideRNA is constitutively expressed, this results in a small amount of specific targeting, and therefore RFP repression, without induction. It also appears that overexpression of the dCas9 protein could be somewhat toxic to the cells, so we are currently working on modifying the promoter to achieve a tighter regulation of dCas9 expression.</p2> | ||
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Revision as of 12:04, 28 October 2013
CRISPR Conjugation - Experiments and Results
Confirming Conjugation:
We first needed to confirm that conjugation was possible in our experimental setup. To test this, we co-cultured the donor strain (spectinomycin resistance) containing our empty pARO190 plasmid (carbenicillin resistance) with our target strain, which has RFP and chloramphenicol resistance intergrated into its chromosome (JM109-RFP). At certain time points, we took a sample of the co-cultures and selected for target strain cells that have received the conjugative plasmid, which we call “transconjugates”. On average, we obtained a conjugation efficiency of 0.4%.