Team:Shenzhen SFLS
From 2014hs.igem.org
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=====Killing Aspergillus flavus===== | =====Killing Aspergillus flavus===== | ||
- | Bacillus subtilis will increase its output of | + | Bacillus subtilis will increase its output of surfactin (something kills Aspergillus flavus) drastically after being inplanted the engineered circuit. Therefore, this process greatly improves the efficiency of the delimitation of Aspergillus flavus. |
=====Neutralizing Aflatoxin B1===== | =====Neutralizing Aflatoxin B1===== |
Revision as of 12:34, 6 March 2014
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Team Shenzhen_SFLS |
Official Team Profile |
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Contents |
Team
Tell us about your team, your school!
Project
Project Description
Shenzhen_SFLS 2014 project description
To begin with
Aflatoxin B1 generated by Aspergillus flavus is a kind of lethal toxin that always contaminates the grains we eat. Aimed to minimize the harm, our project consists of 3 parts from different aspects: killing Aspergillus flavus, neutralizing aflatoxin B1, and reducing the virulence of aflatoxin B1 by turning it into weaker aflatoxin M1.
Killing Aspergillus flavus
Bacillus subtilis will increase its output of surfactin (something kills Aspergillus flavus) drastically after being inplanted the engineered circuit. Therefore, this process greatly improves the efficiency of the delimitation of Aspergillus flavus.
Neutralizing Aflatoxin B1
By optimizing the circuit, aflatoxin will be combined with certain antibodies, and further be immobilized on E.coli’s membrane protein.
Transforming toxic aflatoxin B1 into aflatoxin M1
It will produce astaxanthin to transform fatal aflatoxin B1 into less toxic aflatoxin M1 after its circuit is constructed. In this way, those toxicated grains would be detoxified and would even reach edible standard. We are now trying to improve the yield of astaxant.
In conclusion
As long as the plan is carried out smoothly, three circuits would be connected into a system. The system will start to produce iturin-A automatically once aflatoxin B1 is detected. At the same time, it will trigger E.coli to produce the antibody. Once the antibody is immobilized on the membrane protein, astaxanthin will start to be generated by. As a result, aflatoxin B1 is transformed into aflatoxin M1.
If our project is carried out successfully and is applied in real life, humanbeings would benefit from it to a great extent. In fact, aflatoxin contamination in agriculture and animal husbandry causes a loss of hundreds of million dollars per year. Despite the harsh current situation, we still believe that our relentless effort will bring the problem to an end. The contaminated grains would be detoxified until they are eligible. To be optimistic, many problems the whole population face about human health such as the storage of grains, the food's safety and medical hygiene problems would be solved by our project.
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Safety
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Fun!
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