Difference between revisions of "Team:NCKU Tainan/Results"

Line 1: Line 1:
 
<html><head>
 
<html><head>
     <meta charset="utf-8"><link rel="shortcut icon" href="/wiki/images/8/80/T--NCKU_Tainan--favicon.png" type="image/x-icon"><link rel="icon" type="image/png" href="/wiki/images/8/80/T--NCKU_Tainan--favicon.png"><link rel="icon" type="image/x-icon" href="/wiki/images/8/80/T--NCKU_Tainan--favicon.png"><meta name="viewport" content="width=device-width, initial-scale=1.0"><meta property="og:title" content="Project Results - iGEM NCKU"><meta property="og:site_name" content="Project Results - iGEM NCKU"><meta property="og:description" content=""><title>Project Results - iGEM NCKU</title><meta http-equiv="Content-Type" content="text/html" charset="utf-8"><meta property="og:image" content=""><meta property="og:image:type" content="image/png"><link rel="stylesheet" href="/Team:NCKU_Tainan/css/frame/T--NCKU_Tainan--bootstrap_min_css?ctype=text/css&amp;action=raw"><link href="/Team:NCKU_Tainan/font/T--NCKU_Tainan--NotoSans_css?ctype=text/css&amp;action=raw" rel="stylesheet" type="text/css"><link rel="stylesheet" href="/Team:NCKU_Tainan/font/T--NCKU_Tainan--font-awesome_min_css?ctype=text/css&amp;action=raw"> <link rel="stylesheet" href="/Team:NCKU_Tainan/css/T--NCKU_Tainan--Results_css?ctype=text/css&amp;action=raw">
+
     <meta charset="utf-8"><link rel="shortcut icon" href="/wiki/images/8/80/T--NCKU_Tainan--favicon.png" type="image/x-icon"><link rel="icon" type="image/png" href="/wiki/images/8/80/T--NCKU_Tainan--favicon.png"><link rel="icon" type="image/x-icon" href="/wiki/images/8/80/T--NCKU_Tainan--favicon.png"><meta name="viewport" content="width=device-width, initial-scale=1.0"><meta property="og:title" content="Project Results - iGEM NCKU"><meta property="og:site_name" content="Project Results - iGEM NCKU"><meta property="og:description" content=""><title>Project Results - iGEM NCKU</title><meta http-equiv="Content-Type" content="text/html" charset="utf-8"><meta property="og:image" content=""><meta property="og:image:type" content="image/png"><link rel="stylesheet" href="/Team:NCKU_Tainan/css/frame/T--NCKU_Tainan--bootstrap_min_css?ctype=text/css&amp;action=raw"><link href="/Team:NCKU_Tainan/font/T--NCKU_Tainan--NotoSans_css?ctype=text/css&amp;action=raw" rel="stylesheet" type="text/css"><link rel="stylesheet" href="/Team:NCKU_Tainan/font/T--NCKU_Tainan--font-awesome_min_css?ctype=text/css&amp;action=raw"> <link rel="stylesheet" href="/Team:NCKU_Tainan/css/T--NCKU_Tainan--Layout_css?ctype=text/css&amp;action=raw">
 
   </head>
 
   </head>
 
   <body>
 
   <body>
     <style>@font-face {  font-family: 'NotoSansCJKtc-Regular';  src: url("/wiki/images/0/0b/T--NCKU_Tainan--NotoSansCJKtc-Regular.woff") format('woff');}</style><nav class="navbar navbar-default"><div class="container-fluid">  <div class="navbar-header">      <button type="button" class="navbar-toggle collapsed" data-toggle="collapse" data-target="#navbar" aria-expanded="false">        <span class="sr-only">Toggle navigation</span>        <span class="icon-bar"></span>        <span class="icon-bar"></span>        <span class="icon-bar"></span>      </button>      <a class="navbar-brand" href="/Team:NCKU_Tainan">        <h1>NCKU</h1><h4>Tainan</h4>      </a>  </div>  <div id="navbar" class="navbar-collapse collapse">    <ul class="nav navbar-nav">      <li>        <a class="dropdown-toggle" type="button" id="dropdownMenu1" data-toggle="dropdown" aria-haspopup="true" aria-expa="" nded="true" href="/Team:NCKU_Tainan/Project">Project</a><div class="nav-underline"></div>        <ul class="dropdown-menu" aria-labelledby="dropdownMenu2">          <li><a href="">Overview</a></li>          <li><a href="">Description</a></li>          <li><a href="/Team:NCKU_Tainan/Results">Results</a></li>          <li><a href="">Modeling</a></li>          <li><a href="/Team:NCKU_Tainan/Parts">Parts</a></li>        </ul>      </li>      <li>        <a class="dropdown-toggle" type="button" id="dropdownMenu2" data-toggle="dropdown" aria-haspopup="true" aria-expa="" nded="true" href="">Device</a><div class="nav-underline"></div>        <ul class="dropdown-menu" aria-labelledby="dropdownMenu2">          <li><a href="">Hardware</a></li>          <li><a href="">Software</a></li>          <li><a href="">Demonstrate</a></li>        </ul>      </li>      <li>        <a class="dropdown-toggle" type="button" id="dropdownMenu2" data-toggle="dropdown" aria-haspopup="true" aria-expa="" nded="true" href="">Judging</a><div class="nav-underline"></div>        <ul class="dropdown-menu" aria-labelledby="dropdownMenu2">          <li><a href="/Team:NCKU_Tainan/Medal">Medal</a></li>          <li><a href="/Team:NCKU_Tainan/Safety">Safety form</a></li>        </ul>        </li>      <li>        <a class="dropdown-toggle" type="button" id="dropdownMenu2" data-toggle="dropdown" aria-haspopup="true" aria-expa="" nded="true" href="/Team:NCKU_Tainan/Team">Team</a><div class="nav-underline"></div>        <ul class="dropdown-menu" aria-labelledby="dropdownMenu2">          <li><a href="/Team:NCKU_Tainan/Team">Team</a></li>          <li><a href="/Team:NCKU_Tainan/Attributions">Attributions</a></li>          <li><a href="/Team:NCKU_Tainan/Acknowledgement">Acknowledgement</a></li>          <li><a href="">Collaborations</a></li>        </ul>        </li>      <li>        <a href="/Team:NCKU_Tainan/Human_Practices">Human Pratice</a><div class="nav-underline"></div>      </li>      <li>        <a href="">Notebook</a><div class="nav-underline"></div>      </li>    </ul>    <ul class="nav navbar-nav navbar-right">    </ul>  </div><!--/.nav-collapse --></div><!--/.container-fluid --></nav><div id="container-big"><div id="line-left"></div><div id="line-left2"></div><div id="line-right"></div><div id="photo-left"></div></div><!--/.container-big --> <style>
+
     <style>@font-face {  font-family: 'NotoSansCJKtc-Regular';  src: url("/wiki/images/0/0b/T--NCKU_Tainan--NotoSansCJKtc-Regular.woff") format('woff');}</style><nav class="navbar navbar-default"><div class="container-fluid" style="width:72%">  <div class="navbar-header">      <button type="button" class="navbar-toggle collapsed" data-toggle="collapse" data-target="#navbar" aria-expanded="false">        <span class="sr-only">Toggle navigation</span>        <span class="icon-bar"></span>        <span class="icon-bar"></span>        <span class="icon-bar"></span>      </button>      <a class="navbar-brand" href="/Team:NCKU_Tainan">        <h1>NCKU</h1><h4>Tainan</h4>      </a>  </div>  <div id="navbar" class="navbar-collapse collapse">    <ul class="nav navbar-nav">      <li>        <a class="dropdown-toggle" type="button" id="dropdownMenu1" data-toggle="dropdown" aria-haspopup="true" aria-expa="" nded="true" href="">Project</a><div class="nav-underline"></div>        <ul class="dropdown-menu" aria-labelledby="dropdownMenu2">          <li><a href="/Team:NCKU_Tainan/Project">Overview</a></li>          <li><a href="/Team:NCKU_Tainan/Description">Description</a></li>          <li><a href="/Team:NCKU_Tainan/Results">Results</a></li>          <li><a href="/Team:NCKU_Tainan/Model">Modeling</a></li>          <li><a href="/Team:NCKU_Tainan/Parts">Parts</a></li>        </ul>      </li>      <li>        <a class="dropdown-toggle" type="button" id="dropdownMenu2" data-toggle="dropdown" aria-haspopup="true" aria-expa="" nded="true" href="">Device</a><div class="nav-underline"></div>        <ul class="dropdown-menu" aria-labelledby="dropdownMenu2">          <li><a href="/Team:NCKU_Tainan/Hardware">Hardware</a></li>          <li><a href="/Team:NCKU_Tainan/Software">Software</a></li>          <li><a href="/Team:NCKU_Tainan/Demonstrate">Demonstrate</a></li>        </ul>      </li>      <li>        <a class="dropdown-toggle" type="button" id="dropdownMenu3" data-toggle="dropdown" aria-haspopup="true" aria-expa="" nded="true" href="">Judging</a><div class="nav-underline"></div>        <ul class="dropdown-menu" aria-labelledby="dropdownMenu3">          <li><a href="/Team:NCKU_Tainan/Medal">Medal</a></li>          <li><a href="/Team:NCKU_Tainan/Safety">Safety</a></li>        </ul>        </li>      <li>        <a class="dropdown-toggle" type="button" id="dropdownMenu4" data-toggle="dropdown" aria-haspopup="true" aria-expa="" nded="true" href="/Team:NCKU_Tainan/Team">Team</a><div class="nav-underline"></div>        <ul class="dropdown-menu" aria-labelledby="dropdownMenu4">          <li><a href="/Team:NCKU_Tainan/Team">Team</a></li>          <li><a href="/Team:NCKU_Tainan/Attributions">Attributions</a></li>          <li><a href="/Team:NCKU_Tainan/Acknowledgement">Acknowledgement</a></li>          <li><a href="/Team:NCKU_Tainan/Collaborations">Collaborations</a></li>        </ul>        </li>      <li>        <a class="dropdown-toggle" type="button" id="dropdownMenu5" data-toggle="dropdown" aria-haspopup="true" aria-expa="" nded="true" href="/Team:NCKU_Tainan/Human_Practices">Human Practices</a><div class="nav-underline"></div>        <ul class="dropdown-menu" aria-labelledby="dropdownMenu5">          <li><a href="/Team:NCKU_Tainan/Human_Practices">Overview</a></li>          <li><a href="/Team:NCKU_Tainan/Integrated_Practices">Integrated Practices</a></li>          <li><a href="/Team:NCKU_Tainan/Engagement">Engagement</a></li>        </ul>      </li>      <li>        <a class="dropdown-toggle" type="button" id="dropdownMenu6" data-toggle="dropdown" aria-haspopup="true" aria-expa="" nded="true" href="">Notebook</a><div class="nav-underline"></div>        <ul class="dropdown-menu" aria-labelledby="dropdownMenu6">          <li><a href="/Team:NCKU_Tainan/Notebook_Construction">Construction</a></li>          <li><a href="/Team:NCKU_Tainan/Notebook_Functional_Test">Functional Test</a></li>          <li><a href="/Team:NCKU_Tainan/Notebook_Device_Design">Device Design</a></li>          <li><a href="/Team:NCKU_Tainan/Notebook_Protocols">Protocols</a></li>        </ul>      </li>    </ul>    <ul class="nav navbar-nav navbar-right">    </ul>  </div><!--/.nav-collapse --></div><!--/.container-fluid --></nav><div id="container-big"><div id="iGEMbar"></div><div id="line-left"></div><div id="line-left2"></div><div id="line-right"></div><div id="photo-left"></div></div><!--/.container-big --> <style>
 
#photo-left { background-image: url("/wiki/images/c/c1/T--NCKU_Tainan--sample2.jpg"); }
 
#photo-left { background-image: url("/wiki/images/c/c1/T--NCKU_Tainan--sample2.jpg"); }
 
</style>
 
</style>
Line 9: Line 9:
 
<div class="head">PROJECT / Results</div>
 
<div class="head">PROJECT / Results</div>
 
<div class="content row">
 
<div class="content row">
           <div class="s-content col-md-9">
+
           <div class="col-md-9">
 
             <h2 class="head2">Result / Proof of concept</h2>
 
             <h2 class="head2">Result / Proof of concept</h2>
             <h4>U-know Achiments</h4>
+
             <div class="title-line" id="Achiment">U-KNOW Achievement</div>
             <p>1. We constructed and submitted our Detection circuit and Safety circuit that produce the function of glucose sensor and suicide system.</p>
+
             <p>1. We constructed and submitted our Detection circuit and Safety circuit that serve as a glucose sensor and function the suicide system.</p>
             <p>2. We successfully differentiated diabetic urine sample with control with statistical significance and great sensitivity.</p>
+
             <p>2. We successfully differentiated diabetic urine samples with control with <a href="/Team:NCKU_Tainan/Model_Statistics_Analysis">statistical significance</a> and great sensitivity.</p>
             <p>3. We characterized the relation between glucose concentration and RFP fluorescent intensity and derived the prediction formula for urine glucose level to quantify the amount of glucose.</p>
+
             <p>3. We characterized the relation between the glucose concentration and RFP fluorescent intensity; furthermore, the <a href="/Team:NCKU_Tainan/Model_Fitting_Theory">prediction formula</a> to quantify the amount of glucose in a urine glucose level was derived.</p>
             <p>4. We validated our bio-safety suicide system.</p>
+
             <p>4. We validated our bio-safety <a href="#safety" onclick="toEvent('safety');">suicide system.</a></p>
             <p>5.We built functional prototypes to let our U.coli to work in real world condition</p>
+
             <p>5.We built <a href="/Team:NCKU_Tainan/Hardware">functional prototypes</a> to let our U.coli work in a real world condition</p>
  
             <h4>Glucose Detection</h4>
+
             <div class="title-line" id="Detect">Glucose Detection</div>
  
 
             <h5>Experiment Design</h5>
 
             <h5>Experiment Design</h5>
             <p>The goal for our Detection circuit to detect and indicate the presence of urine glucose with promoter PI. To measure the precise level of urine glucose , we will look at the fluroscence intensity of RFP.</p>
+
             <p>The goals for our Detection circuit are to detect and indicate the presence of urine glucose with promoter PI. To measure the precise level of urine glucose, we need to look at the fluorescence intensity of RFP.</p>
  
             <p>We induce our U.coli detection circuit with urine sample containing different glucose level , and measure the fluorescent intensity both kinetically and at different timepoints</p>
+
             <p>We induce our U.coli detection circuit with urine samples containing different glucose level and measure the fluorescent intensity kinetically at different timepoints.</p>
  
             <h5>characterization of glucose induced RFP expression</h5>
+
             <h5>Characterization of glucose induced RFP expression</h5>
             <p>To preliminary test the function of our Detection circuit , we induced our U coli for 12 hours with final glucose concentration of : 0, 5 ,15 ,30 , 60 mM/L </p>
+
             <p>Within the preliminary test, we induced our U.coli to function our Detection circuit. After 12 hours, the glucose concentrations are 0,5,15,30,60 mM/L </p>
  
 +
          <img src="" alt="fig2 result: PI_RBS_RFP_TT">
 +
          <p>Fig 2 result: PI_RBS_RFP_TT  transformed in <i>E.coli</i> BL21 DE3. After 12-hour induction with final glucose concentration of : 0,5,15,30,60 mM/L, the fluorescence is observed under excitation ray of 470 nm and with the filter “LEE filter 019”</p>
  
             <p>Fig2 result: PI_RBS_RFP_TT  transformed in  E.coli BL21 DE3 . After 12-hour induction with final glucose concentration of : 0, 5 ,15 ,30 , 60 mM/L , the fluroscence is observed under excitation ray of 470 nm and with the filter “LEE filter 019”</p>
+
             <p>To further quantify the fluorescent intensity, and simultaneously the growth curve of U.coli, we used final glucose concentration of: 0,5,15,30 mM/L to induce our U.coli for 8 hours with total volume of 20 ml, and measure the fluorescent intensity at excitation/emission wavelength 562nm/599nm and OD600 for growth curve.</p>
  
             <p>To further quantify the fluorescent intensity ,and simultaneously the growth curve of U coli ,  we used final glucose concentration of : 0, 5 ,15 ,30 mM/L to induce our U coli for 8 hours with total volume of 20 ml , and measure the fluorescent intensity at excitation/emission wavelength 562nm/599nm and OD600 for growth curve.</p>
+
             <div class="two-img">
 +
(a)
 +
              <img src="" alt="fig3 result" style="margin-top:0">
 +
(b)
 +
              <img src="" alt="fig3 result" style="margin-top:0">
 +
</div>
 +
<p>Fig 3 result: above is the growth curve and fluorescent intensity, the experiments were done in <i>E.coli</i> BL21 DE3 in modified M9 medium, the cell were cultured in modified M9 medium for 2 hours and glucose of final concentration: 0, 5, 15, 30 mM/L were add to induce the expression of RFP. The fluorescent intensity were measured every 2 hours, after total time exceeds 10 hours, experiments with 5, 15, 30 mM/L glucose  has 2~4 fold induction compared to control 〈0 mM/L〉. The presence of glucose also affects the growth curve of our U.coli compared to control, but the growth curves of 5, 15, 30 mM/L does not show significant difference.</p>
  
             <p>Fig3 result: above is the growth curve and fluorescent intensity , the experiments were done in E.coli BL21 DE3 in modified M9 medium , the cell were cultured in modified M9 medium for 2 hours and  glucose of final concentration : 0, 5 ,15 ,30 mM/L were add to induce the expression of RFP . The fluorescent intensity were measured every 2 hours , after total time exceeds 10 hours , experiments with 5 ,15 ,30 mM/L glucose  has 2~4 fold induction compared to control 〈0 mM/L〉. The presence of glucose also affects the growth curve of our U.coli compared to control , but the growth curves of 5 ,15 ,30 mM/L does not show significant difference .
+
             <h5>Proof of Concept: Differentiating diabetic urine with normal</h5>
            </p>
+
            <p>To proof that our U.coli serves the purpose to differentiate between diabetic and normal urine samples, we calculated the average prediction interval for fluorescent intensity on each glucose concentration. The upper control limit is considered as the threshold of “positive”. When the fluorescent intensity in a urine sample surpasses the upper control limit, we can refer to the urine sample as diabetic urine. Furthermore, the diabetic test on U-KNOW has sensitivety : / spreciticity : </p>
 +
 
 +
          <img src="" alt="fig4 result">
 +
          <p>Fig 4 result: the 95% prediction interval of glucose positive 〈5mM/L〉urine sample 〈green〉and glucose negative〈0.1mM/L〉 urine sample〈red〉,the two intervals can be separated after T&gt; 101 mins. To verify the function, by applying the upper limit of the 95% prediction interval of glucose negative urine sample〈red〉as the “diabetic threshold“, we performed a test to clarify whether our U.coli can differentiate diabetes from control. At time T= 101mis with n= 84, our result shows sensitivity= 95% and if we delay the testing time to T=120mins, the sensitivity will be 100%.〈n=84〉, which proved that our U.coli do Differentiate diabetic urine with norma</p>
  
            <h5>Proof of Concept : Differentiating diabetic urine with normal</h5>
+
             <p>To further elaborate our proof of concept, we have a <a href="/Team:NCKU_Tainan/Model_Statistics_Analysis">statistical calculation</a></p>
             <p>To proof that our Ucoli do have the function of differentiating diabetic urine sample with control , we calculated the average prediction interval of fluorescent intensity  corresponding to each glucose concentration and we used the upper limit of control as the threshold of “positive” , that is , if the fluorescent intensity of a urine sample surpass the upper limit of control , we can refer the urine sample “diabetic “ , and the diabetic test has sensitivety : / spreciticity : </p>
+
  
             <p>Fig4 result: the 95% prediction interval of glucose positive 〈5mmol/L〉urine sample 〈green〉and glucose negative〈0.1mmol/L〉 urine sample〈red〉,the two intervals can be separated after T&gt; 101 mins . To verify the function , by applying the upper limit of the 95% prediction interval of glucose negative urine sample〈red〉as the “diabetic threshold “ , we performed a test to clarify whether our U coli can differentiate diabetes from control . At time T= 101mis with n= 84 ,  our result shows sensitivity= 95% and if we delay the testing time to T=120mins , the sensitivity will be 100%.〈n=84〉, which proved that our Ucoli do Differentiate diabetic urine with norma
+
             <h5>Proof of Concept: Prediction and Quantifying the amount of urine glucose</h5>
 +
            <p>After successfully differentiating diabetic urine sample with control, we aim to measure the amount of glucose in urine sample. Thus, we used final glucose concentration of: 0,1,3,5,15,30,45 mM/L to induce our U.coli for 12 hours in 96 well and measure the fluorescent intensity at excitation/emission wavelength 562nm/599nm, the difference of fluorescent intensity between each group were significant at T (time) = 8hr.
 
             </p>
 
             </p>
  
            <p>To further elaborate our proof of concept ,we have a statistical calculation</p>
+
          <img src="" alt="fig5 result">
 +
          <p>Fig 5 result: fluorescence intensity with 95% confidence interval after 8 hour induction with final glucose concentration 0,1,3 5,15,30,45 mM/L, all differences between each group shows statistical significance with P &lt; 0.05, proving that out U.coli do differentiate urine sample containing various amount of glucose, ranging from 0~45 mM/L.</p>
  
            <h5>Proof of Concept : Prediction and Quantifying the amount of urine glucose</h5>
+
              <p>Based on the results above, we derived a prediction formula, to calculate the urine glucose concentration 〈C〉</p>
            <p>After successfully differentiating diabetic urine sample with control ,we want determine the amount of glucose present in urine sample. Thus,  we used final glucose concentration of : 0,1,3 5 ,15 ,30,45 mM/L to induce our U coli for 12 hours in 96 well and measure the fluorescent intensity at excitation/emission wavelength 562nm/599nm , the difference of fluorescent intensity between each and every group become significant at time T= 8hr.
+
            </p>
+
  
             <p>
+
             <img src="" alt="fig6 result">
              Fig5 result : fluorescence intensity with 95% confidence interval after 8 hour induction with final glucose concentration 0,1,3 5 ,15 ,30,45 mM/L , all differences between each group shows statistical significance with P &lt; 0.05 , proving that out U.coli do differentiate urine sample containing various amount of glucose , ranging from 0~45 mM/L.
+
            <p>$$\frac{dY}{dt}=\frac{17.05\times [Glucose]^{1.18}+16.07}{[Glucose]^{1.18}+4.04}$$</p>
              </p>
+
  
               <p>To verify the formula , we performed a test to clarify whether our U coli can predict and quantify the concentration of urine glucose. </p>
+
               <div>To verify the formula, we performed a test to clarify whether our U.coli can predict and quantify the concentration of urine glucose. </div>
               <p>Reuslt : with n=63, the average recovery rate is 104% 〈95% ~114%〉. which proved that our Ucoli do predict and quantify the concentration of urine glucose</p>
+
               <div>Reuslt: with n=63, the average recovery rate is 104%〈95% ~114%, which proved that our U.coli do predict and quantify the concentration of urine glucose</div>
  
               <p>In conclution .by applying this prediction formula , proved that our Ucoli do predict and quantify the concentration of urine glucose.</p>
+
               <p>In conclusion, by applying this <a href="/Team:NCKU_Tainan/Model_Fitting_Theory">prediction formula</a>, it shown that our U.coli could predict and quantify the concentration of urine glucose.</p>
 +
 
 +
            <div class="title-line" id="safety">Bio-Safety System</div>
  
 
               <h5>Experiment Design</h5>
 
               <h5>Experiment Design</h5>
               <p>The goal for our Safety circuit to protect our U.coli user and the environment by lysing and killing the U.coli with promoter pBAD that can be activated by arabinose , which is present in our reading column 〈 Device.〉 To determine the efficacy of the Safety circuit , we measured the growth curve and performed CFU assay.</p>
+
               <p>The goal for our Safety circuit is to protect our U.coli user as well as the environment. When arabinose presenting in our column-by-column reading device, the promoter pBAD is activated to lyse and kill the U.coli. Also, the growth curve and performed CFU assay were measured to determine the efficacy of the Safety circuit.</p>
  
               <h5>Growth Inhibition and Lysis activated by Arabinose</h5>
+
               <h5>Growth Inhibition and Lysis activation</h5>
               <p>Promoter pBAD , is activated by arabinose and repressed by glucose . when activated the downstream lysis gene will lyse and kill the Ucoli , to preliminary test the function of our Safety circuit , we induced our U coli 3 hours with the following condition ,and kinetically measure the OD 600 as the indicator of bacteria concetration</p>
+
               <p>Promoter pBAD, is activated by arabinose and repressed by glucose. When activated the downstream lysis gene, it can lyse and kill the U.coli. In a preliminary safety circuit test, we induced our U.coli 3 hours with the following condition and kinetically measured the OD 600 as the indicator of bacteria concentration</p>
  
              <p>Fig: expression of promoter pBAD in different arabinose and gucose concentration , the prescense of glucose will repress promoter pBAD even when arabionse is present</p>
+
            <img src="" alt="fig7">
 +
            <p>Fig.7: expression of promoter pBAD in different arabinose and gucose concentration, the prescense of glucose will repress promoter pBAD even when arabionse is present</p>
  
 
               <table>
 
               <table>
Line 72: Line 84:
 
               </tbody></table>
 
               </tbody></table>
  
              <p>Fig7:  result: pBAD-RBS-lysis-TT transformed in E.coli BL21 DE3 , was culture for 6 hr and transfferd〈1%〉to modified M9 meduim containing different concentration of arabionse and glucose , and OD600 was measured kinetically by 96well plate reader. Compared to control , arabinose significantly inhibited the growth of U.coli after time T&gt;50 mins . In addition ,when glucose and arabinose are both present , glucose will repress the growth inhibitory effect of arabinose , making the cells continue to growth . Still , compared to control , the growth rate is slightly decreased by arabinose , even with the presence of glucose.
+
            <img src="" alt="fig8">
              </p>
+
            <p>Fig 8:  result: pBAD-RBS-lysis-TT transformed in <i>E.coli</i> BL21 DE3, was culture for 6 hr and transfferd〈1%〉to modified M9 meduim containing different concentration of arabionse and glucose, and OD600 was measured kinetically by 96well plate reader. Compared to control, arabinose significantly inhibited the growth of U.coli after time T&gt;50 mins. In addition, when glucose and arabinose are both present, glucose will repress the growth inhibitory effect of arabinose, making the cells continue to growth. Still, compared to control, the growth rate is slightly decreased by arabinose, even with the presence of glucose.</p>
  
               <p>To further validate the effect of our Safety circuit , we performed a CFU assay .
+
               <p>To further validate the effect of our Safety circuit, we performed a CFU assay.
 
               </p>
 
               </p>
 +
</div>
 +
<div class="col-md-3">
 +
<ul id="sidemenu">
 +
<li><a href="#" onclick="return toEvent('Achiment');">U-KNOW Achiments</a></li>
 +
<li><a href="#" onclick="return toEvent('Detect');">Glucose Detection</a></li>
 +
<li><a href="#" onclick="return toEvent('safety');">Bio-Safety System</a></li>
 +
</ul>
 
</div>
 
</div>
 
</div>
 
</div>
 
</div> <!-- /.container-fluid -->
 
</div> <!-- /.container-fluid -->
<script src="/Team:NCKU_Tainan/js/frame/T--NCKU_Tainan--jquery-1_12_0_min_js?ctype=text/javascript&amp;action=raw"></script><script src="/Team:NCKU_Tainan/js/frame/T--NCKU_Tainan--bootstrap_min_js?ctype=text/javascript&amp;action=raw"></script><script src="/Team:NCKU_Tainan/js/T--NCKU_Tainan--common_js?ctype=text/javascript&amp;action=raw"></script>
+
<script src="/Team:NCKU_Tainan/js/frame/T--NCKU_Tainan--jquery-1_12_0_min_js?ctype=text/javascript&amp;action=raw"></script><script src="/Team:NCKU_Tainan/js/frame/T--NCKU_Tainan--bootstrap_min_js?ctype=text/javascript&amp;action=raw"></script><script src="/Team:NCKU_Tainan/js/T--NCKU_Tainan--MathjaxConfigIgem_js?ctype=text/javascript&amp;action=raw"></script><script src="/common/MathJax-2.5-latest/MathJax.js?config=TeX-AMS-MML_HTMLorMML"></script><script src="/Team:NCKU_Tainan/js/T--NCKU_Tainan--common_js?ctype=text/javascript&amp;action=raw"></script><script>(function() {    /* change icon */    var link = document.createElement('link');    link.type = 'image/x-icon';    link.rel = 'shortcut icon';    link.href = '/wiki/images/8/80/T--NCKU_Tainan--favicon.png';    document.getElementsByTagName('head')[0].appendChild(link);}());</script>
  
 
</body></html>
 
</body></html>

Revision as of 19:23, 9 October 2016

Project Results - iGEM NCKU

PROJECT / Results

Result / Proof of concept

U-KNOW Achievement

1. We constructed and submitted our Detection circuit and Safety circuit that serve as a glucose sensor and function the suicide system.

2. We successfully differentiated diabetic urine samples with control with statistical significance and great sensitivity.

3. We characterized the relation between the glucose concentration and RFP fluorescent intensity; furthermore, the prediction formula to quantify the amount of glucose in a urine glucose level was derived.

4. We validated our bio-safety suicide system.

5.We built functional prototypes to let our U.coli work in a real world condition

Glucose Detection
Experiment Design

The goals for our Detection circuit are to detect and indicate the presence of urine glucose with promoter PI. To measure the precise level of urine glucose, we need to look at the fluorescence intensity of RFP.

We induce our U.coli detection circuit with urine samples containing different glucose level and measure the fluorescent intensity kinetically at different timepoints.

Characterization of glucose induced RFP expression

Within the preliminary test, we induced our U.coli to function our Detection circuit. After 12 hours, the glucose concentrations are 0,5,15,30,60 mM/L

fig2 result: PI_RBS_RFP_TT

Fig 2 result: PI_RBS_RFP_TT transformed in E.coli BL21 DE3. After 12-hour induction with final glucose concentration of : 0,5,15,30,60 mM/L, the fluorescence is observed under excitation ray of 470 nm and with the filter “LEE filter 019”

To further quantify the fluorescent intensity, and simultaneously the growth curve of U.coli, we used final glucose concentration of: 0,5,15,30 mM/L to induce our U.coli for 8 hours with total volume of 20 ml, and measure the fluorescent intensity at excitation/emission wavelength 562nm/599nm and OD600 for growth curve.

(a) fig3 result (b) fig3 result

Fig 3 result: above is the growth curve and fluorescent intensity, the experiments were done in E.coli BL21 DE3 in modified M9 medium, the cell were cultured in modified M9 medium for 2 hours and glucose of final concentration: 0, 5, 15, 30 mM/L were add to induce the expression of RFP. The fluorescent intensity were measured every 2 hours, after total time exceeds 10 hours, experiments with 5, 15, 30 mM/L glucose has 2~4 fold induction compared to control 〈0 mM/L〉. The presence of glucose also affects the growth curve of our U.coli compared to control, but the growth curves of 5, 15, 30 mM/L does not show significant difference.

Proof of Concept: Differentiating diabetic urine with normal

To proof that our U.coli serves the purpose to differentiate between diabetic and normal urine samples, we calculated the average prediction interval for fluorescent intensity on each glucose concentration. The upper control limit is considered as the threshold of “positive”. When the fluorescent intensity in a urine sample surpasses the upper control limit, we can refer to the urine sample as diabetic urine. Furthermore, the diabetic test on U-KNOW has sensitivety : / spreciticity :

fig4 result

Fig 4 result: the 95% prediction interval of glucose positive 〈5mM/L〉urine sample 〈green〉and glucose negative〈0.1mM/L〉 urine sample〈red〉,the two intervals can be separated after T> 101 mins. To verify the function, by applying the upper limit of the 95% prediction interval of glucose negative urine sample〈red〉as the “diabetic threshold“, we performed a test to clarify whether our U.coli can differentiate diabetes from control. At time T= 101mis with n= 84, our result shows sensitivity= 95% and if we delay the testing time to T=120mins, the sensitivity will be 100%.〈n=84〉, which proved that our U.coli do Differentiate diabetic urine with norma

To further elaborate our proof of concept, we have a statistical calculation

Proof of Concept: Prediction and Quantifying the amount of urine glucose

After successfully differentiating diabetic urine sample with control, we aim to measure the amount of glucose in urine sample. Thus, we used final glucose concentration of: 0,1,3,5,15,30,45 mM/L to induce our U.coli for 12 hours in 96 well and measure the fluorescent intensity at excitation/emission wavelength 562nm/599nm, the difference of fluorescent intensity between each group were significant at T (time) = 8hr.

fig5 result

Fig 5 result: fluorescence intensity with 95% confidence interval after 8 hour induction with final glucose concentration 0,1,3 5,15,30,45 mM/L, all differences between each group shows statistical significance with P < 0.05, proving that out U.coli do differentiate urine sample containing various amount of glucose, ranging from 0~45 mM/L.

Based on the results above, we derived a prediction formula, to calculate the urine glucose concentration 〈C〉

fig6 result

$$\frac{dY}{dt}=\frac{17.05\times [Glucose]^{1.18}+16.07}{[Glucose]^{1.18}+4.04}$$

To verify the formula, we performed a test to clarify whether our U.coli can predict and quantify the concentration of urine glucose.
Reuslt: with n=63, the average recovery rate is 104%〈95% ~114%, which proved that our U.coli do predict and quantify the concentration of urine glucose

In conclusion, by applying this prediction formula, it shown that our U.coli could predict and quantify the concentration of urine glucose.

Bio-Safety System
Experiment Design

The goal for our Safety circuit is to protect our U.coli user as well as the environment. When arabinose presenting in our column-by-column reading device, the promoter pBAD is activated to lyse and kill the U.coli. Also, the growth curve and performed CFU assay were measured to determine the efficacy of the Safety circuit.

Growth Inhibition and Lysis activation

Promoter pBAD, is activated by arabinose and repressed by glucose. When activated the downstream lysis gene, it can lyse and kill the U.coli. In a preliminary safety circuit test, we induced our U.coli 3 hours with the following condition and kinetically measured the OD 600 as the indicator of bacteria concentration

fig7

Fig.7: expression of promoter pBAD in different arabinose and gucose concentration, the prescense of glucose will repress promoter pBAD even when arabionse is present

GroupFinal ara. Conc. mM/LFinal glu. Conc. mM/mol
Blue00
Orange100
Gray1050
fig8

Fig 8: result: pBAD-RBS-lysis-TT transformed in E.coli BL21 DE3, was culture for 6 hr and transfferd〈1%〉to modified M9 meduim containing different concentration of arabionse and glucose, and OD600 was measured kinetically by 96well plate reader. Compared to control, arabinose significantly inhibited the growth of U.coli after time T>50 mins. In addition, when glucose and arabinose are both present, glucose will repress the growth inhibitory effect of arabinose, making the cells continue to growth. Still, compared to control, the growth rate is slightly decreased by arabinose, even with the presence of glucose.

To further validate the effect of our Safety circuit, we performed a CFU assay.