Difference between revisions of "Team:NEFU China/Model1"

 
Line 279: Line 279:
 
<section id="resume" style="box-shadow: inset 0px 15px 15px -15px cyan">
 
<section id="resume" style="box-shadow: inset 0px 15px 15px -15px cyan">
 
<div class="row introduction">
 
<div class="row introduction">
<div class="three columns header-col" style="
+
<div class="three columns header-col" style="">
">
+
 
             <h1><span>intorduction</span></h1>
 
             <h1><span>intorduction</span></h1>
 
         </div>
 
         </div>
Line 287: Line 286:
 
<div class="twelve columns">
 
<div class="twelve columns">
 
<br><br>
 
<br><br>
<p style="font-size: 26px!important;">
+
                    <p style="font-size: 26px!important;">
 
 
 
Based on the procedure of our case, we hypothesized that the duration of induced spy yeast ( the information carrying yeast, designated as "spy yeast" ) death was relevant to the initial amounts of two types of yeast and production of secreted α factor. The duration of spy yeast death was proportional to the expression of Bax gene, while Bax gene expression depended on the activation efficiency of the promoter Fig2c. Thus, we should eventually determine whether the transcription efficiency of the Fig2c promoter is directly relevant to these three parameters. To verify the hypothesis, we used  correlation analysis to calculate the correlation <br>&lt;&gt;coefficients.<br>
 
Based on the procedure of our case, we hypothesized that the duration of induced spy yeast ( the information carrying yeast, designated as "spy yeast" ) death was relevant to the initial amounts of two types of yeast and production of secreted α factor. The duration of spy yeast death was proportional to the expression of Bax gene, while Bax gene expression depended on the activation efficiency of the promoter Fig2c. Thus, we should eventually determine whether the transcription efficiency of the Fig2c promoter is directly relevant to these three parameters. To verify the hypothesis, we used  correlation analysis to calculate the correlation <br>&lt;&gt;coefficients.<br>
Line 293: Line 292:
 
                     <img src="https://static.igem.org/mediawiki/2018/5/53/T--NEFU_China--model1_f1.png"><br>  
 
                     <img src="https://static.igem.org/mediawiki/2018/5/53/T--NEFU_China--model1_f1.png"><br>  
 
 
 
 
The data obtained from the wet laboratory, starting efficiency and initial alpha dosage of promoter Fig2c, were calculated correlation coefficient and fitted into a curve below.
+
The data obtained from the wet laboratory, starting efficiency and initial alpha dosage of promoter Fig2c, were calculated correlation coefficient and fitted into a curve below.
                    </p>
+
</p>
 
</div>
 
</div>
 
             </div>  
 
             </div>  
Line 310: Line 309:
 
               <div class="twelve columns">
 
               <div class="twelve columns">
 
  <br><br>
 
  <br><br>
<p style="font-size: 26px!important;">
+
<p style="font-size: 26px!important;">
  
  The result is as followed:</p><p style="
+
  The result is as followed:</p><p style="
    font-size: 26px!important;
+
font-size: 26px!important;
"><br>
+
"><br>
Result 1: Correlation Coefficient of efficiency promoter Fig2c and initial dosage of killing yeast is below, and we find out their coefficient have strong correlation which verify our hypothesize is right. </p><p>
+
Result 1: Correlation Coefficient of efficiency promoter Fig2c and initial dosage of killing yeast is below, and we find out their coefficient have strong correlation which verify our hypothesize is right. </p><p>
</p><div align="center">
+
</p><div align="center">
 
    <span style="font-size: 100px;text-align: center;"></span>
 
    <span style="font-size: 100px;text-align: center;"></span>
 
<img src="https://static.igem.org/mediawiki/2018/9/90/T--NEFU_China--model1_f2.png" style="width:600px;"><div>
 
<img src="https://static.igem.org/mediawiki/2018/9/90/T--NEFU_China--model1_f2.png" style="width:600px;"><div>
    <br>
+
<br>
    <span style="
+
<span style="
    font-size: 24px!important;
+
font-size: 24px!important;
">Result 2: Fitting into curve of two correlation coefficient.</span><br><br><br>
+
    ">Result 2: Fitting into curve of two correlation coefficient.</span><br><br><br>
 
<span style="text-align: left;"> </span>
 
<span style="text-align: left;"> </span>
 
    <img src="https://static.igem.org/mediawiki/2018/0/0f/T--NEFU_China--model1-f3.png" style="width: 595px;"><br><br><br>
 
    <img src="https://static.igem.org/mediawiki/2018/0/0f/T--NEFU_China--model1-f3.png" style="width: 595px;"><br><br><br>

Latest revision as of 13:08, 9 November 2018

Model 1

intorduction



Based on the procedure of our case, we hypothesized that the duration of induced spy yeast ( the information carrying yeast, designated as "spy yeast" ) death was relevant to the initial amounts of two types of yeast and production of secreted α factor. The duration of spy yeast death was proportional to the expression of Bax gene, while Bax gene expression depended on the activation efficiency of the promoter Fig2c. Thus, we should eventually determine whether the transcription efficiency of the Fig2c promoter is directly relevant to these three parameters. To verify the hypothesis, we used correlation analysis to calculate the correlation
<>coefficients.
Coefficients is :

The data obtained from the wet laboratory, starting efficiency and initial alpha dosage of promoter Fig2c, were calculated correlation coefficient and fitted into a curve below.

RESULTS



The result is as followed:


Result 1: Correlation Coefficient of efficiency promoter Fig2c and initial dosage of killing yeast is below, and we find out their coefficient have strong correlation which verify our hypothesize is right.


Result 2: Fitting into curve of two correlation coefficient.