Team:BIT/Modeling

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      <td class="t2"><strong>Introduction</storng><br>
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      <td class="t2"><strong>Introduction</storng></td>
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&nbsp;&nbsp;&nbsp;&nbsp;Our biological system connects the biosensors and the reporters. The different concentration of antibiotics can result in different intension of fluorescences.So if we can predict the concentration with the detected intension of fluorescences. The problem is how to get the relationship of them in math.<br>
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<td class="t2">&nbsp;&nbsp;&nbsp;&nbsp;Our biological system connects the biosensors and the reporters. The different concentration of antibiotics can result in different intension of fluorescences.So if we can predict the concentration with the detected intension of fluorescences. The problem is how to get the relationship of them in math.<br>
&nbsp;&nbsp;&nbsp;&nbsp;In addition, noise exits in the system and the electronic device. That is the reason we make the amplifier and the controller. Through those parts, we can get the value of prediction more accurately.<br>
&nbsp;&nbsp;&nbsp;&nbsp;In addition, noise exits in the system and the electronic device. That is the reason we make the amplifier and the controller. Through those parts, we can get the value of prediction more accurately.<br>
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&nbsp;&nbsp;&nbsp;&nbsp;What’s more, on the condition that the intension of fluorescence is constant, to make sure our system can adjust to different standard of concentration, we can predict the IPTG which needs adding based on our model. In other word, we can give a value of IPTG which needs adding to decide if the antibiotics is superscalar in any standards.<br>
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&nbsp;&nbsp;&nbsp;&nbsp;What’s more, on the condition that the intension of fluorescence is constant, to make sure our system can adjust to different standard of concentration, we can predict the IPTG which needs adding based on our model. In other word, we can give a value of IPTG which needs adding to decide if the antibiotics is superscalar in any standards.</td>
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<strong>Calculation</strong>
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&nbsp;&nbsp;&nbsp;&nbsp;In this part, we list our calculating progress. Because of the same principle, we only take the tetracycline part as an example.<br>
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      <td class="t2"><strong>Calculation</strong></td>
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      <td class="t2">&nbsp;&nbsp;&nbsp;&nbsp;In this part, we list our calculating progress. Because of the same principle, we only take the tetracycline part as an example.<br>
&nbsp;&nbsp;&nbsp;&nbsp;At first, let’s look at our tetracycline biosensor:<br>
&nbsp;&nbsp;&nbsp;&nbsp;At first, let’s look at our tetracycline biosensor:<br>
<img src="https://static.igem.org/mediawiki/2013/8/8c/BIT_Modeling1.jpg"><br>
<img src="https://static.igem.org/mediawiki/2013/8/8c/BIT_Modeling1.jpg"><br>
&nbsp;&nbsp;&nbsp;&nbsp;We use Df  represent the concentration of DNA that does not combine with tetR protein; and X-D represent the concentration of DNA bonded by tetR protein; Dt represent the total concentration of promoter of DNA; X represent the concentration of tetR protein.<br>
&nbsp;&nbsp;&nbsp;&nbsp;We use Df  represent the concentration of DNA that does not combine with tetR protein; and X-D represent the concentration of DNA bonded by tetR protein; Dt represent the total concentration of promoter of DNA; X represent the concentration of tetR protein.<br>
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&nbsp;&nbsp;&nbsp;&nbsp;According to law of conservation of mass:<br>
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&nbsp;&nbsp;&nbsp;&nbsp;According to law of conservation of mass:</br>
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<img src="https://static.igem.org/mediawiki/2013/8/8b/BIT_Modeling2.jpg">
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<img src="https://static.igem.org/mediawiki/2013/8/8b/BIT_Modeling2.jpg"><br>
&nbsp;&nbsp;&nbsp;&nbsp;Among them, kon represent the compound X-D generation rate and koff represent the compound X-D dissociation rate.<br>
&nbsp;&nbsp;&nbsp;&nbsp;Among them, kon represent the compound X-D generation rate and koff represent the compound X-D dissociation rate.<br>
&nbsp;&nbsp;&nbsp;&nbsp;If<img src="https://static.igem.org/mediawiki/2013/0/0c/BIT_Modeling3.jpg"<br>
&nbsp;&nbsp;&nbsp;&nbsp;If<img src="https://static.igem.org/mediawiki/2013/0/0c/BIT_Modeling3.jpg"<br>
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&nbsp;&nbsp;&nbsp;&nbsp;Then:<img src="https://static.igem.org/mediawiki/2013/b/b8/BIT_Modeling4.jpg" <br>
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&nbsp;&nbsp;&nbsp;&nbsp;Then:<img src="https://static.igem.org/mediawiki/2013/b/b8/BIT_Modeling4.jpg" <br><br>
&nbsp;&nbsp;&nbsp;&nbsp;When location of D is free, the RNA polymerase could combine with promoter PltetO1, and start transcription. The transcription rate of free promoter PltetO1 can described by the biggest transcription rate β. As we know, β is changed along with the changes of DNA sequence, the location of RNA combine to and other facts.<br>
&nbsp;&nbsp;&nbsp;&nbsp;When location of D is free, the RNA polymerase could combine with promoter PltetO1, and start transcription. The transcription rate of free promoter PltetO1 can described by the biggest transcription rate β. As we know, β is changed along with the changes of DNA sequence, the location of RNA combine to and other facts.<br>
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&nbsp;&nbsp;&nbsp;&nbsp;The activity of promoter=<img src="https://static.igem.org/mediawiki/2013/f/f2/BIT_Modeling5.jpg"><br>
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&nbsp;&nbsp;&nbsp;&nbsp;The activity of promoter=<br>
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<img src="https://static.igem.org/mediawiki/2013/f/f2/BIT_Modeling5.jpg"><br>
&nbsp;&nbsp;&nbsp;&nbsp;Now, let’s look at tetracycline. Just as our PPT shows, tetracycline is an inducer.<br>
&nbsp;&nbsp;&nbsp;&nbsp;Now, let’s look at tetracycline. Just as our PPT shows, tetracycline is an inducer.<br>
&nbsp;&nbsp;&nbsp;&nbsp;X-Tx represent the concentration of X bonded with Tx, and Tx is the concentration of inducer-tetracycline. Xt is the total concentration of tetR protein.<br>
&nbsp;&nbsp;&nbsp;&nbsp;X-Tx represent the concentration of X bonded with Tx, and Tx is the concentration of inducer-tetracycline. Xt is the total concentration of tetR protein.<br>
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         <td>&nbsp;</td>
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         <td> E-mail: yifei0114@bit.edu.cn</td>
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         <td> E-mail:<a href="mailto:yifei0114@bit.edu.cn"> yifei0114@bit.edu.cn</a></td>
         <td>&nbsp;</td>
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