Difference between revisions of "Team:Uppsala/Demonstrate"

Latest revision as of 02:30, 2 November 2017

<!DOCTYPE html> Results

We successfully integrated the first five steps of the crocin pathway from FPP to zeaxanthin into the E. coli chromosome. The result is a E. coli strain expressing zeaxanthin. We have created sequence verified BioBricks of our enzymes in the extended crocin pathway: CaCCD2, CsADH2946 and UGTCs2. We have also characterized these enzymes with experiments and simulations. We are the first to purify and confirm activity of CsADH2946 as well as measuring the kinetic parameters of the enzyme. We created and combined the zeaxanthin producing strain with a plasmid containing the extended crocin pathway which gave us an E. coli strain including the entire production pathway from FPP to crocin.

Detailed results that show that our project works can be found on our Results page

Plate with colonies — *E. coli* culture producing colorful pigments from the crocin pathway.

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-{{Uppsala}}
+{{Uppsala/CSS}}
+{{Uppsala/Navbar}}
-<html>
+<!DOCTYPE html>
+<html lang="en">
+<head>
+  <title>Results</title>
+  <meta charset="utf-8">
+  <meta name="viewport" content="width=device-width, initial-scale=1">
+  <link href="https://fonts.googleapis.com/css?family=Raleway" rel="stylesheet">
+  <link href="https://fonts.googleapis.com/css?family=Roboto+Slab" rel="stylesheet">
+  <style type="text/css">
+    .background {
+      background-image: url("https://static.igem.org/mediawiki/2017/f/f9/Results_background.svg");
+      background-repeat: repeat-y;
+      background-position: center;
+      background-size: 100%;
+    }
+    .textbox {
+      font-family: "Roboto Slab";
+      font-size: 3vh;
+      background-image: url("https://static.igem.org/mediawiki/2017/5/5b/Results_text_background.svg");
+      padding: 80px;
+      text-align: center;
+line-height:150%;
-<div class="column full_size">
+    }
-<h1>Demonstrate</h1>
-<h3>Gold Medal Criterion #4</h3>
-<p>
+    .header {
-Teams that can show their system working under real world conditions are usually good at impressing the judges in iGEM. To achieve gold medal criterion #4, convince the judges that your project works. There are many ways in which your project working could be demonstrated, so there is more than one way to meet this requirement. This gold medal criterion was introduced in 2016, so check our what 2016 teams did to achieve a their gold medals!
+     font-family: "Raleway";
-</p>
+     text-align: center;
+font-size: 5vh;
+padding-bottom: 2%;
+line-height:150%;
+    }
-<p>
+  .figtext {
-Please see the <a href="https://2017.igem.org/Judging/Medals">2017 Medals Page</a> for more information.
+      font-family: "Roboto Slab";
-</p>
+      font-size: 2vh;
+      font-weight: bold;
+      color:#4D4D4D;
+      text-align: jcenter;
+line-height:150%;
+    }
+  </style>
+</head>
-</div>
+<body>
+<div class="container-fluid background">
+  <div class="row" style="background-color: #ffffff">
+    <img src="https://static.igem.org/mediawiki/2017/9/94/Uppsala-new-Demonstrate-header.svg" style="width:100%; height: auto">
+  </div>
-<div class="column half_size">
+  <div class="row">
+    <div class="col-xs-1"></div>
-<h4> What should we do for our demonstration?</h4>
+    <div class="col-xs-10 textbox">
+      <div class="header" style="margin-top:100px;">Demonstrate</div>
-<h5> Standard teams </h5>
+      <img src="https://static.igem.org/mediawiki/2017/3/30/Results_line_under_title.svg" style="margin: auto;">
-<p>
-If you have built a proof of concept system, you can demonstrate it working under real world conditions. If you have built a biological device that is intended to be a sensor, can you show it detecting whatever it is intended to sense. If it is intended to work in the field, you can show how this might work using a simulated version in the lab, or a simulation of your device in the field.<strong> Please note biological materials must not be taken out of the lab</strong>.
-</p>
-</div>
-<div class="column half_size">
+      <div style="padding-right:3%; padding-left:3%; text-align:justify;"><br>We successfully integrated the first five steps of the crocin pathway from FPP to zeaxanthin into the E. coli chromosome. The result is a <i>E. coli</i> strain expressing zeaxanthin. We have created sequence verified BioBricks of our enzymes in the extended crocin pathway: CaCCD2, CsADH2946 and UGTCs2. We have also characterized these enzymes with experiments and simulations. We are the first to purify and confirm activity of CsADH2946 as well as measuring the kinetic parameters of the enzyme. We created and combined the zeaxanthin producing strain with a plasmid containing the extended crocin pathway which gave us an <i>E. coli</i> strain including the entire production pathway from FPP to crocin.</div>
 <br>
-<h5> Special track teams </h5>
+<div style="padding-right:3%; padding-left:3%; text-align:justify;">Detailed results that show that our project works can be found on our <a href= "https://2017.igem.org/Team:Uppsala/Results"> Results page </a></di>
-<p>
-Special track teams can achieve this medal criterion by bringing their work to the Jamboree and showcasing it in the track event. Art & Design, Measurement, Hardware and Software tracks will all have showcase events at the Giant Jamboree.<strong> Please note biological materials must not be taken out of the lab</strong>.
-</p>
+</div>
+<br>
+<figure class="figure">
+<img src="https://static.igem.org/mediawiki/2017/0/0d/Uppsala-ZeaBottle.png" alt="Plate with colonies" style="width:30%;margin:auto;"></img>
+<figcaption class="figure-caption figtext" style="padding-bottom: 2%; padding-left: 20%; padding-right: 20%;">
+<i>E. coli </i> culture producing colorful pigments from the crocin pathway.
+</figcaption>
+</figure>
+      <img src="https://static.igem.org/mediawiki/2017/0/07/Results_title_footer.svg" style="margin: auto; width: 60%; padding-top: 20px;" class="img-responsive" align="middle">
+    </div>
+    <div class="col-xs-1"></div>
+  </div>
 </div>
+</body>
+</html>
+{{Uppsala/Footer}}
-</html>