Difference between revisions of "Team:East Chapel Hill/Description"
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| − | The riboswitch we used is from the previously characterized B. | + | The riboswitch we used is from the previously characterized <i>B. cereus</i>. In Figure 3 we have displayed the crystal structure of the aptamer of this riboswitch. We tested two variations of this riboswitch, which we labeled FRS1 and FRS2. Figure 4a shows the predicted folding structure of FRS1, and figure 4b shows the predicted folding structure of FRS2. We were interested in determining how the predicted folding structure may influence the binding ability of this riboswitch to fluoride. |
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In nature, this riboswitch regulates the expression of genes that are able to pump high levels of fluoride out of the cell. The crcB gene in E.coli bacteria encodes the fluoride efflux channel, which is capable of pumping fluoride out of the cell so that it is no longer toxic. In our experiments, we used a modified crcB E.coli strain so that fluoride may accumulate in the cell. | In nature, this riboswitch regulates the expression of genes that are able to pump high levels of fluoride out of the cell. The crcB gene in E.coli bacteria encodes the fluoride efflux channel, which is capable of pumping fluoride out of the cell so that it is no longer toxic. In our experiments, we used a modified crcB E.coli strain so that fluoride may accumulate in the cell. | ||
Revision as of 21:41, 15 October 2018
Description
Introduction
The Impacts of Excess Fluoride:
Unfortunately, mitigating fluoride problems has proven to be very expensive and challenging. Please see our interview with Tewodros Godebo to understand more about how many are attempting to solve the issue of high-fluoride water. One of the issues we are attempting to address with our project is diligently tracking fluoride concentrations after treatment attempts. In rural communities, even once there has been treatment to high-fluoride water, it is difficult to monitor fluoride concentrations after the treatment.
We hope that the operon we have developed may assist the monitoring of fluoride concentrations in small, low-technology villages after treatment of the water has been administered.
Solution
About the Riboswitch
Riboswitches may be translational or transcriptional. A transcriptional riboswitch has a “switching sequence” in the aptamer that directs the formation of a transcriptional terminator, which signals to RNA polymerase to stop transcription. One may think of this process as an “on” or “off” switch, with “on” allowing for transcription of a gene. When the aptamer (ligand-binding) region of the fluoride riboswitch interacts with fluoride, the terminator is not formed allowing the RNA polymerase to proceed and transcribe the downstream gene.
2015 Exeter iGEM Team, RNA Riboswitches
In nature, this riboswitch regulates the expression of genes that are able to pump high levels of fluoride out of the cell. The crcB gene in E.coli bacteria encodes the fluoride efflux channel, which is capable of pumping fluoride out of the cell so that it is no longer toxic. In our experiments, we used a modified crcB E.coli strain so that fluoride may accumulate in the cell.
Aiming Ren, Kanagalaghatta R. Rajashankar, Dinshaw J. Patel “Fluoride ion encapsulation by Mg2+ ions and phosphates in a fluoride riboswitch” 2012 Nature 486, 85–89
Our Design
