Difference between revisions of "Team:HokkaidoU Japan"
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<h2>Overview</h2> | <h2>Overview</h2> | ||
<p>Today, we have a problem over stock breeding that excrement of livestock causes eutrophication of rivers. This is because they contain phytic acid which has 6 phosphate groups. Moreover, phytic acid chelate and prevent livestock from absorbing minerals. Nowadays, phytase, an enzyme that degrades phytic acids, is widely added to the feed to increase mineral absorption and to alleviate eutrophication. However, feed is sterilized with heat during its production and the activity of phytase drops. To solve this problem, we have come up with a way to maintain the phytase activity by connecting a linker containing Self Assembling Peptides (SAP) to its end. By doing so, we aim to form disulfide bonds between linkers to make phytase circularized and stabilized. </p> | <p>Today, we have a problem over stock breeding that excrement of livestock causes eutrophication of rivers. This is because they contain phytic acid which has 6 phosphate groups. Moreover, phytic acid chelate and prevent livestock from absorbing minerals. Nowadays, phytase, an enzyme that degrades phytic acids, is widely added to the feed to increase mineral absorption and to alleviate eutrophication. However, feed is sterilized with heat during its production and the activity of phytase drops. To solve this problem, we have come up with a way to maintain the phytase activity by connecting a linker containing Self Assembling Peptides (SAP) to its end. By doing so, we aim to form disulfide bonds between linkers to make phytase circularized and stabilized. </p> | ||
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Revision as of 20:22, 1 November 2017
HokkaidoU_Japan Project: E.co Circle
Overview
Today, we have a problem over stock breeding that excrement of livestock causes eutrophication of rivers. This is because they contain phytic acid which has 6 phosphate groups. Moreover, phytic acid chelate and prevent livestock from absorbing minerals. Nowadays, phytase, an enzyme that degrades phytic acids, is widely added to the feed to increase mineral absorption and to alleviate eutrophication. However, feed is sterilized with heat during its production and the activity of phytase drops. To solve this problem, we have come up with a way to maintain the phytase activity by connecting a linker containing Self Assembling Peptides (SAP) to its end. By doing so, we aim to form disulfide bonds between linkers to make phytase circularized and stabilized.
