Difference between revisions of "Team:HUST-China/Modeling overview"

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Sort of three genes

1. Overview

In Rhodopseudomonas, the sequence of genes in plasmid influences them expression ability. (Shou-Chen.2012) We have three genes to transfer. So we should find out which gene is the most important, and we sort three genes by their importance.

But then we meet a problem that there are not enough references about Rhodopseudomonas for us to obtain enough parameters for our simulation, so we run the simulation in a large range of parameters for many times and use the statistical result to decide how to sort the three genes

2. Function

(We skip some reactions in tricarboxylic acid cycle, and let Isocitrate come to Malate in one reaction.)

3. Parameters

There are not enough references for us to get exact parameters. So we assort parameters into several groups and change one group’s value each time. At the same time, we change the expression abilities of three genes to find which is the most important in this parameter situation.

Income parameters	Metabolism parameters	Cross membrane parameters	Ks parameters	Gene expression
g_Pyruvate	k_2LdhA	V_max2	K_s1	K_s2
g_Acetyl-CoA	k_1LdhA		Ks_3A	[LdhA]
	V_max1		Ks_3M	Ks₅
	V_max3		K_s4
	V_max4
	V_max5

4. Result

We generate each group ’s value from 〖10〗^(-5) to 〖10〗^5，and run the simulation. At the beginning, we simply sum the concentration of Lactate outside. But it is not fair for each parameter situation because in some cases the value of final result is much lower than others. So we use the SOFTMAX function to turn the concentration result into scores from 0 to 1. The function is shown below:

If the gene expression parameter is lower than 1，we take the negative value of score. Then we sum all scores together, and get the final result.

(the curve: score(x,y) means the sum of the first x parameter conditions’ scores when the model runs for y units of times)

The result shows that in more than 10，000 parameter conditions, mles is the most important gene. So we sort three genes by their final scores: mles, lldp, ldhA.

5. Reference

[1] 1.Shou-Chen Lo. 2012. Enhancement of Hydrogen Production and Carbon Fixation in Purple Nonsulfur Bacterium by Synthetic Biology. Ph.D. Dissertation

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                                <li><a class="waves-effect waves-dark" href="https://2018.igem.org/Team:HUST-China/Results">Results</a></li>
                                <li><a class="waves-effect waves-dark" href="https://2018.igem.org/Team:HUST-China/wetlab/protocols">Protocols</a></li>
                                <li><a class="waves-effect waves-dark" href="https://2018.igem.org/Team:HUST-China/InterLab">Interlab</a></li>
                                <li><a class="waves-effect waves-dark" href="https://2018.igem.org/Team:HUST-China/Improve">Improve</a></li>
                                <li><a class="waves-effect waves-dark" href="https://2018.igem.org/Team:HUST-China/Notebook">Notebook</a></li>
                            </ul>
@@ Line 105: / Line 108: @@
                                <li><a class="waves-effect waves-dark" href="https://2018.igem.org/Team:HUST-China/Comparison between PSB">Comparison between PSB</a></li>
                                <li><a class="waves-effect waves-dark" href="https://2018.igem.org/Team:HUST-China/Sort of three genes">Sort of three genes</a></li>
-                               <li><a class="waves-effect waves-dark" href="https://2018.igem.org/Team:HUST-China/Software">Intelligent device software</a></li>
+                               <li><a class="waves-effect waves-dark" href="https://2018.igem.org/Team:HUST-China/Intelligent device software">Intelligent device software</a></li>
                            </ul>
                        </li>
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                            <ul class="dropdown-menu">
                                <li><a class="waves-effect waves-dark" href="https://2018.igem.org/Team:HUST-China/Parts Overview">Parts Overview</a></li>
+                              <li><a class="waves-effect waves-dark" href="https://2018.igem.org/Team:HUST-China/Basic part">Basic part</a></li>
                                <li><a class="waves-effect waves-dark" href="https://2018.igem.org/Team:HUST-China/Composite part">Composite part</a></li>
                                <li><a class="waves-effect waves-dark" href="https://2018.igem.org/Team:HUST-China/Part collection">Part collection</a></li>
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      <div class="row">
        <div class="col-lg-12">
-         <h2 class="pageTitle">Modeling overview
+         <h2 class="pageTitle">Sort of three genes</h2>
-        </h2>
        </div>
      </div>
    </div>
    </section>
    <section class="content">
    <div class="container">
-         <div class="row">
-          <div class="col-md-9 col-md-offset-2">
+         <div class="row">
-             <div class="col-md-12 content-text">
+            <div class="col-md-1"> </div>
+        	<div class="col-md-10">
+             <div class="col-md-12  content-text">
                  <div class="about-logo">
-                   <h3><strong>1. <span class="red-content">Overview </span></strong></h3>
+                   <h3><strong>1. <span class="red-content">Overview</span></strong></h3>
-                   <p style="font-size:16px; line-height: 25px;letter-spacing:1px; text-indent:0px;">
+                   <p>In Rhodopseudomonas, the sequence of genes in plasmid influences them expression ability. (Shou-Chen.2012) We have three genes to transfer. So we should find out which gene is the most important, and we sort three genes by their importance.</p>
-This year, our job can be mainly divided into three parts: model of system, sort of three genes pathway in Rhodopseudomonas, and intelligent device software.
+<p>But then we meet a problem that there are not enough references about Rhodopseudomonas for us to obtain enough parameters for our simulation, so we run the simulation in a large range of parameters for many times and use the statistical result to decide how to sort the three genes
-                  </p>
+</p>
+                   </div>
                  </div>
-             </div>
-             </div>
-           <div class="col-md-9 col-md-offset-2">
              <div class="col-md-12 content-text">
                  <div class="about-logo">
-                   <h3><strong>2. <span class="red-content">Model of System</span></strong></h3>
+                   <h3><strong>2. <span class="red-content">Function</span></strong></h3>
-                   <p style="font-size:16px; line-height: 25px;letter-spacing:1px; text-indent:0px;">
+                   <img src="https://static.igem.org/mediawiki/2018/c/cf/T--HUST-China--2018-sort-pic1.png" class="img-responsive" >
-In order to see whether our system can work and how our system will work, we build a model to simulate our system. This model shows us the details of our system, inspire us how to improve our system and give our intelligent device software data so that we can change the application experiment to get a better result.
+                  <p>(We skip some reactions in tricarboxylic acid cycle, and let Isocitrate come to Malate in one reaction.)</p>
-</p>
                  </div>
-               </div>
+            </div>
-           </div>
-            <div class="col-md-9 col-md-offset-2">
              <div class="col-md-12 content-text">
                  <div class="about-logo">
-                   <h3><strong>3. <span class="red-content">Sort of three genes</span></strong></h3>
+                   <h3><strong>3. <span class="red-content">Parameters</span></strong></h3>
-                   <p style="font-size:16px; line-height: 25px;letter-spacing:1px; text-indent:0px;">
+                   <p>There are not enough references for us to get exact parameters. So we assort parameters into several groups and change one group’s value each time. At the same time, we change the expression abilities of three genes to find which is the most important in this parameter situation.
-In Rhodopseudomonas, the sequence of genes in plasmid influences them expression ability. (Shou-Chen.2012) We have three genes to transfer. So we should find out which gene is the most important, and we sort three genes by their importance.
+                  </p>
+                  <!--表格-->
+                   <div class="col-md-10 col-md-offset-1">
+                      <table class="table table-bordered table-hover" style="text-align: center;">
+                            <tr>
+                              <th>Income parameters</th>
+                              <th>Metabolism parameters</th>
+                              <th>Cross membrane parameters </th>
+                              <th>Ks parameters</th>
+                              <th>Gene expression</th>
+                            </tr>
+                            <tr>
+                              <td>g<sub>Pyruvate</sub></td>
+                              <td>k<sub>2LdhA</sub></td>
+                              <td>V<sub>max2</sub></td>
+                              <td>K<sub>s1</sub></td>
+                              <td>K<sub>s2</sub></td>
+                            </tr>
+                              <tr>
+                              <td>g<sub>Acetyl-CoA</sub></td>
+                              <td>k<sub>1LdhA</sub></td>
+                              <td></td>
+                              <td>Ks<sub>3A</sub></td>
+                              <td>[LdhA]</td>
+                            </tr>
+                            <tr>
+                              <td></td>
+                                <td>V<sub>max1</sub></td>
+                              <td></td>
+                              <td>Ks<sub>3M</sub></td>
+                              <td>Ks<sub>5</sub></td>
+                            </tr>
+                             <tr>
+                              <td></td>
+                              <td>V<sub>max3</sub></td>
+                              <td></td>
+                              <td>K<sub>s4</sub></td>
+                              <td></td>
+                            </tr>
+                             <tr>
+                              <td></td>
+                              <td>V<sub>max4</sub></td>
+                              <td></td>
+                              <td></td>
+                              <td></td>
+                            </tr>
+                            <tr>
+                              <td></td>
+                              <td>V<sub>max5</sub></td>
+                              <td></td>
+                              <td></td>
+                              <td></td>
+                            </tr>
+                      </table>
+                  </div>
+                  <!--表格-->
                  </div>
              </div>
-          </div>
+               <div class="col-md-12 content-text">
-       <div class="col-md-9 col-md-offset-2">
-       <div class="col-md-12 content-text">
                  <div class="about-logo">
-                   <h3><strong>3. <span class="red-content">Intelligent device software</span></strong></h3>
+                   <h3><strong>4. <span class="red-content">Result</span></strong></h3>
+                  <p>We generate each group ’s value from 〖10〗^(-5) to 〖10〗^5，and run the simulation. At the beginning, we simply sum the concentration of Lactate outside. But it is not fair for each parameter situation because in some cases the value of final result is much lower than others. So we use the SOFTMAX function to turn the concentration result into scores from 0 to 1. The function is shown below:</p>
+                     <div align="center">
+                      <img src="https://static.igem.org/mediawiki/2018/archive/c/cf/20181014074349%21T--HUST-China--2018-sort-pic1.png" class="img-responsive" ></div>
+                      <p>If the gene expression parameter is lower than 1，we take the negative value of score. Then we sum all scores together, and get the final result.</p>
+                        <img src="https://static.igem.org/mediawiki/2018/archive/c/cf/20181014074548%21T--HUST-China--2018-sort-pic1.png" class="img-responsive" >
+                      <p>(the curve: score(x,y) means the sum of the first x parameter conditions’ scores when the model runs for y units of times)</p>
+                      <p>The result shows that in more than 10，000 parameter conditions, mles is the most important gene. So we sort three genes by their final scores: mles, lldp, ldhA.</p>
+                </div>
+                 <div class="col-md-12 content-text">
+                <div class="about-logo">
+                  <h3><strong>5. <span class="red-content">Reference</span></strong></h3>
                    <p style="font-size:16px; line-height: 25px;letter-spacing:1px; text-indent:0px;">
-Using a new multi-culture bacteria system means that we should use a new fermentation strategy. So we use algorithm to know the situation of the system and decide how to control the device, so that the system will work more efficiently and steadily.
+ <span>[1] 1.Shou-Chen Lo. 2012. Enhancement of Hydrogen Production and Carbon Fixation in Purple Nonsulfur Bacterium by Synthetic Biology. Ph.D. Dissertation</span></p>
-Reference
+                  </p>
                  </div>
-             </div>
+             </div>
            </div>
-           <div class="col-md-9 col-md-offset-2">
+          <div class="col-md-1"></div>
-            <div class="col-md-12 content-text">
+          </div>
-            <h4><strong>Reference </strong></h4>
+            </div>
-           <p style="font-size:16px; line-height: 25px;letter-spacing:1px; text-indent:0px;">
- <span>[1] 2.Shou-Chen Lo. 2012. Enhancement of Hydrogen Production and Carbon Fixation in Purple Nonsulfur Bacterium by Synthetic Biology. Ph.D. Dissertation</span></p>
-        </div>
    </div>
-</div>
 </section>