Difference between revisions of "Team:HKUST-Rice"

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In the previous iGEM competitions, multiple teams have worked on nitrate and phosphate responsive promoters, but none of them attempted to provide a potassium responsive promoter. In view of this,  our team is constructing a biological sensor in <i>E. coli</i>, which can detect NPK levels in the surrounding environment and give responses in the form of colors. In addition, we are characterizing the effects of a dual output system, in contrast to a single output system, in order to anticipate the expression of multiple outputs in a single system.</font></p>
 
In the previous iGEM competitions, multiple teams have worked on nitrate and phosphate responsive promoters, but none of them attempted to provide a potassium responsive promoter. In view of this,  our team is constructing a biological sensor in <i>E. coli</i>, which can detect NPK levels in the surrounding environment and give responses in the form of colors. In addition, we are characterizing the effects of a dual output system, in contrast to a single output system, in order to anticipate the expression of multiple outputs in a single system.</font></p>
 
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  <p class="link"><a class=" learn" href><font color=#6B6B47> Learn more ... </font></a></p>
 
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Revision as of 06:32, 2 August 2015


ABSTRACT


Nitrogen (N), Phosphorus (P), and potassium (K) are three macronutrients for plants, and deficiencies in any of these can lead to plant diseases. By creating a biological sensor that can quickly provide soil status to plant owners, we can prevent plant diseases due to the lack of nutrients.

In the previous iGEM competitions, multiple teams have worked on nitrate and phosphate responsive promoters, but none of them attempted to provide a potassium responsive promoter. In view of this, our team is constructing a biological sensor in E. coli, which can detect NPK levels in the surrounding environment and give responses in the form of colors. In addition, we are characterizing the effects of a dual output system, in contrast to a single output system, in order to anticipate the expression of multiple outputs in a single system.


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