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<h2> The Impacts of Excess Fluoride:</h2> | <h2> The Impacts of Excess Fluoride:</h2> | ||
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<p2 style="font-size:18px;"> Granite and volcanic rocks are extremely high in fluoride, due to large amounts of fluoride-rich minerals, including: biotite, fluorite, amphibole, apatite. These high-fluoride deposits rise through faults and hot springs into groundwater. Prolonged exposure to these high levels of fluoride has been correlated to diseases such as dental and skeletal fluorosis. These diseases have most severe impacts in young children, whose enamel is still developing at the time of fluoride exposure. Please see our interview with Maiko Suzuki to learn specifically how fluorosis manifests in the teeth. | <p2 style="font-size:18px;"> Granite and volcanic rocks are extremely high in fluoride, due to large amounts of fluoride-rich minerals, including: biotite, fluorite, amphibole, apatite. These high-fluoride deposits rise through faults and hot springs into groundwater. Prolonged exposure to these high levels of fluoride has been correlated to diseases such as dental and skeletal fluorosis. These diseases have most severe impacts in young children, whose enamel is still developing at the time of fluoride exposure. Please see our interview with Maiko Suzuki to learn specifically how fluorosis manifests in the teeth. | ||
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− | 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. | + | 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. |
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− | 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. | + | |
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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. | 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. |
Revision as of 16:32, 12 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
What is a Riboswitch?
Our Design
How CHOP works:
- Using the ΔcrcB E. coli strain, which can accumulate fluoride intracellularly
- The Riboswitch detects fluoride
- Fluoride activates the chloramphenicol acetyltransferase enzyme
- Which allows for the growth of bacteria on agar plates with the antibiotic chloramphenicol
References
- Using the ΔcrcB E. coli strain, which can accumulate fluoride intracellularly
- The Riboswitch detects fluoride
- Fluoride activates the chloramphenicol acetyltransferase enzyme
- Which allows for the growth of bacteria on agar plates with the antibiotic chloramphenicol