Difference between revisions of "Team:HFLS H2Z Hangzhou"
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Currently, most industrial production of pickles relies on the natural decomposing process of nitrite, which is inefficient and often takes months to complete. To make an improvement, we designed a bio-device to make the degradation of nitrite more rapid and environmental-friendly. | Currently, most industrial production of pickles relies on the natural decomposing process of nitrite, which is inefficient and often takes months to complete. To make an improvement, we designed a bio-device to make the degradation of nitrite more rapid and environmental-friendly. | ||
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Our device consists of a positive feedback loop device followed by a fusion enzyme which can reduce nitrite to nitrogen and oxygen. The feedback loop is regulated by a nitrite/nitrate specific promoter to ensure the expression of downstream function proteins only in pickles environment. Our solution drastically shorten the production period and increases profit margin for the multibillion-dollar pickled vegetables industry. | Our device consists of a positive feedback loop device followed by a fusion enzyme which can reduce nitrite to nitrogen and oxygen. The feedback loop is regulated by a nitrite/nitrate specific promoter to ensure the expression of downstream function proteins only in pickles environment. Our solution drastically shorten the production period and increases profit margin for the multibillion-dollar pickled vegetables industry. | ||
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<div style="font-size: 300%;">More coming soon</div> | <div style="font-size: 300%;">More coming soon</div> | ||
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Revision as of 09:06, 1 November 2017
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Hangzhou
HFLS&H2Z
HFLS&H2Z
Abstract
Pickles have long been an important part in the worldwide diet. But the nitrite generated in the production of pickles has always been a concerning problem to health and food safety, due to its conversion to carcinogenic nitrosamine once taken up by humans.
Currently, most industrial production of pickles relies on the natural decomposing process of nitrite, which is inefficient and often takes months to complete. To make an improvement, we designed a bio-device to make the degradation of nitrite more rapid and environmental-friendly.
Our device consists of a positive feedback loop device followed by a fusion enzyme which can reduce nitrite to nitrogen and oxygen. The feedback loop is regulated by a nitrite/nitrate specific promoter to ensure the expression of downstream function proteins only in pickles environment. Our solution drastically shorten the production period and increases profit margin for the multibillion-dollar pickled vegetables industry.
