Difference between revisions of "Part:BBa K3091000"

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===Usage and Biology===

===Usage and Biology===

<h1>Aim</h1>

<h1>Aim</h1>

<p>We built this new part as an approach to detecting bacteriophages in fecal polluted water through color change. This enzyme is from Solanum tuberosum, and would cause yellow solution containing tea polyphenol turn red. Also, the product of the reaction, theaflavins, has multiple health benefits. Our bacteria can potentially also play a part in theaflavins industrial production.</p>

<p>We built this new part as an approach to detecting bacteriophages in fecal polluted water through color change. This enzyme is from Solanum tuberosum, and would cause yellow solution containing tea polyphenol turn red. Also, the product of the reaction, theaflavins, has multiple health benefits. Our bacteria can potentially also play a part in theaflavins industrial production.</p>

<p>2. Solution and Reaction</p>

<p>2. Solution and Reaction</p>

<p>Through various journals, we learned that potato PPO is most active at PH=5.5, temperature about 40~50°C. As for the substrate concentration, we still need to conduct control experiments because tea polyphenol can potentially have anti-bacteria effects. More tests should be done to find an ideal solution that make the reaction visible and reliable.</p>

<p>Through various journals, we learned that potato PPO is most active at PH=5.5, temperature about 40~50°C. As for the substrate concentration, we still need to conduct control experiments because tea polyphenol can potentially have anti-bacteria effects. More tests should be done to find an ideal solution that make the reaction visible and reliable.</p>

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<span class='h3bb'>Sequence and Features</span>

<span class='h3bb'>Sequence and Features</span>