Team:NTU Taiwan/index.html

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                 In hope of ?? the value of our biological heating device, we strive to improving the sensitivity of our sensor - the cold shock promoter. This final goal can be break down on two parts: 1. tuning the temperature-responsive range of cold shock promoter 2. amplifying its signal under low temperature. In order to understand what kind of structure of a genetic circuit and what kinds of characteristics of activator and repressor are needed for our purpose, we create several mathematical models to explore the problem. In the end, we expect to get some useful information as a guidance to screen possible biological parts when we actually start to construct the genetic circuit.
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                 In hope of putting more values in our biological heating device, we strive to improving the sensitivity of our sensor - the cold shock promoter. This final goal can be break down on two parts: 1. tuning the temperature-responsive range of cold shock promoter 2. amplifying its signal under low temperature. In order to understand what kind of structure of a genetic circuit and what kinds of characteristics of activator and repressor are needed for our purpose, we create several mathematical models to explore the problem. In the end, we expect to get some useful information as a guidance to screen possible biological parts when we actually start to construct the genetic circuit.
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                     <img class="pull-left img-responsive" src="https://static.igem.org/mediawiki/2013/d/d4/Tir1-1-1.png" alt-src="./images/result/tir1-1.png" style="margin-top: 50px"width=600>
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                     <img class="pull-left img-responsive" src="https://static.igem.org/mediawiki/2013/d/d4/Tir1-1-1.png" alt-src="./images/result/tir1-1.png" style="margin-top: 50px" width=400>
                     <img class="pull-right img-responsive" src="https://static.igem.org/mediawiki/2013/b/b1/Tir1-2.png" alt-src="./images/result/tir1-2.png" width= 500>
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                     <div class="col-md-11" style="margin-top: 10px"><p>We predicted the Tir-1 promoter should be at about 1000 base pairs upstream, so we tried to amplified the Tir-1 promoter sequence from Saccharomyces cerevisiae by PCR. We design the primer with expanded restriction enzyme sites and about 30 base pairs complementary to the S.c. genome sequence, preventing from non-specific product. However, it’s harder to PCR a sequence from genomic DNA than plasmid. In hence, we tried different annealing temperature to make sure we have target product and decrease non-specific band.</p></div>
                     <div class="col-md-11" style="margin-top: 10px"><p>We predicted the Tir-1 promoter should be at about 1000 base pairs upstream, so we tried to amplified the Tir-1 promoter sequence from Saccharomyces cerevisiae by PCR. We design the primer with expanded restriction enzyme sites and about 30 base pairs complementary to the S.c. genome sequence, preventing from non-specific product. However, it’s harder to PCR a sequence from genomic DNA than plasmid. In hence, we tried different annealing temperature to make sure we have target product and decrease non-specific band.</p></div>

Revision as of 04:05, 28 September 2013

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