Difference between revisions of "Team:Uppsala"

Latest revision as of 22:45, 20 November 2015

Polycyclic aromatic hydrocarbons (PAHs) are potent carcinogens produced by various activities ranging from grilling meat to coal gasification. Our project aims to degrade high molecular weight PAHs present in industrial waste from district heating plants. There is currently no sustainable way to handle this waste and therefore it is deposited in landfills. We want to solve this problem by employing a bacterial based system.

Our cells need to be able to detect the PAHs for direct degradation. However the high molecular weight PAHs do not readily pass through the cell membrane. We solved this obstacle by using the low weight PAH, naphthalene, as an indicator for the presence of heavier PAHs. The degradation of this small PAH inside the cell relieves repression of genes under the control of the NahR/Psal promoter system. This causes the expression of a series of enzymes for PAH degradation which are secreted outside the cell where they can oxidize and cleave the ring structures of the carcinogenic compounds. This in turn makes them available for downstream biodegradation. To increase the degradation efficiency, our system also produces rhamnolipids. These are biosurfactants that prevent the PAHs from aggregating, making them easier for the enzymes to access.

Click here to read about our journey to gold!
Laccase and dioxygenase are enzymes that are central to our project. Click here to learn more about how we use them!	The degradation of naphthalene is what activates our whole construct. Click here to learn more about how this happens!	We used rhamnolipids to increase our enzymes' accessibility to the PAH:s. Click here to find out more about how we incorporated them into our system!
We needed a fluorometer to measure the efficiency of our system, but we quickly noticed that getting hold of one was not that easy. Therefore, we built our own!
We collaborated with the iGEM team from Stockholm to arrange a meetup of nordic teams in Uppsala. Click here to learn more about the Nordic iGEM Conference!

@@ Line 7: / Line 7: @@
    margin: 0 auto;
    display: block;
-   margin-top: -42px;
+   margin-top: -16px;
 }
@@ Line 24: / Line 24: @@
          box-shadow: 10px 10px 20px #888888;
          /*margin-right: 15px;*/
+        background-color: #E84243;
          margin-right: 20px;
          margin-top:15px;
@@ Line 31: / Line 32: @@
          z-index:0;
 }
+/*Button effects*/
+.buttons img:hover, #nic img, #med img {
+        opacity: 1;
+}
+.buttons img:hover, #nic img:hover, #med img:hover {
+        opacity: 0.2;
+}
+.description {
+        position: absolute;
+        top: inherit;
+        bottom: inherit;
+        left: inherit;
+        right: inherit;
+        visibility:  hidden;
+        opacity: 0;
+        text-align: center;
+        width: 350px;
+        font-family: "Fira Sans";
+        font-size: 200%;
+        color:  #F8F8FF;
+        -webkit-transition: all 300ms ease-out;
+	-moz-transition: all 300ms ease-out;
+	transition: all 300ms ease-out
+}
+.buttons .description {
+ padding: 3px;
+ font-size: 170%;
+}
+#nic .description, #med .description {
+        width:75%;
+        margin: auto;
+}
+.buttons:hover .description, #nic:hover .description, #med:hover .description {
+        visibility: visible;
+        opacity: 1;
+        -moz-transform: translateY(140px);
+	-webkit-transform: translateY(140px);
+	transform: translateY(140px);
+}
+#med:hover .description {
+        visibility: visible;
+        opacity: 1;
+        -moz-transform: translateY(40px);
+	-webkit-transform: translateY(40px);
+	transform: translateY(40px);
+}
+/*Affects all effects on the buttons (opacity, resize). Makes a smooth 300ms transition.*/
+.button_grid img {
+        -webkit-transition: all 300ms;
+	-moz-transition: all 300ms;
+	transition: all 300ms;
+}
+/*Resize of the buttons on hover*/
+.button_grid td:hover img {
+        -webkit-transform: scale(1.2);
+	-moz-transform: scale(1.2);
+	transform: scale(1.2);
+}
 #results_button {
   box-shadow: 3px 3px 10px #888888;
+ margin-left: 10px;
 }
@@ Line 40: / Line 111: @@
   border-radius: 20px;*/
   box-shadow:  10px 10px 20px #888888;
-  background-color: #d3dfe4;
+  /*background-color: #d3dfe4;*/
+ background-color: #E84243;
   margin-top: 17px;
   width: 1100px;
@@ Line 55: / Line 127: @@
 	display:table;
 	margin: 0 auto;
+}
+#medal {
+ /*padding: 25px 0px;*/
+ /*box-shadow: 10px 10px 20px #888888;*/
+ /*margin-top: 14px;
+ margin-bottom: 3px;*/
+}
+#med {
+ width: 1100px;
+ height: 103px;
+ box-shadow: 10px 10px 20px #888888;
+ overflow: hidden;
+ margin-top: 10px;
+ background-color: #E84243;
+}
+*flipping images*/
+/* entire container, keeps perspective */
+.flip-container{
+/*perspective*/
+-webkit-perspective:1000;
+   -moz-perspective:1000;
+    -ms-perspective:1000;
+     -o-perspective:1000;
+        perspective:1000;
+}
+/* flip the pane when hovered */
+.flipped {
+/*transform*/
+-webkit-transform:rotateY(180deg);
+   -moz-transform:rotateY(180deg);
+    -ms-transform:rotateY(180deg);
+     -o-transform:rotateY(180deg);
+        transform:rotateY(180deg);
+}
+.flip-container, .front, .back{
+width: 100%;
+height: 461px;
+}
+/* flip speed goes here */
+.flipper {
+/*transition*/
+-webkit-transition:1s;
+   -moz-transition:1s;
+     -o-transition:1s;
+        transition:1s;
+/*transform-style*/
+-webkit-transform-style:preserve-3d;
+   -moz-transform-style:preserve-3d;
+    -ms-transform-style:preserve-3d;
+     -o-transform-style:preserve-3d;
+        transform-style:preserve-3d;
+position:relative;
+}
+/* hide back of pane during swap */
+.front, .back{
+/*backface-visibility*/
+-webkit-backface-visibility:hidden;
+   -moz-backface-visibility:hidden;
+    -ms-backface-visibility:hidden;
+     -o-backface-visibility:hidden;
+        backface-visibility:hidden;
+position:absolute;
+top:0;
+left:0;
+}
+/* front pane, placed above back */
+.front{
+z-index:2;
+}
+/* back, initially hidden pane */
+.back{
+/*transform*/
+-webkit-transform:rotateY(180deg);
+   -moz-transform:rotateY(180deg);
+    -ms-transform:rotateY(180deg);
+     -o-transform:rotateY(180deg);
+        transform:rotateY(180deg);
 }
@@ Line 60: / Line 223: @@
 </head>
 <body>
+    <!--<img id="home_image" src="https://static.igem.org/mediawiki/2015/4/4d/Uppsala_NewFront.png" alt="iGEM Uppsala" style="width:100%;height:100%;">-->
+<div class="flip-container">
+	<div class="flipper" onclick="this.classList.toggle('flipped')">
+		<div class="front">
+			<img id="home_image" src="https://static.igem.org/mediawiki/2015/4/4d/Uppsala_NewFront.png" alt="iGEM Uppsala" style="width:100%;">
+		</div>
+		<div class="back">
+			<img id="home_image" src="https://static.igem.org/mediawiki/2015/7/72/Uppsala_MansFront.png" alt="iGEM Uppsala" style="width:100%;">
+		</div>
+	</div>
+</div>
      <div id="main">
-    <img id="home_image" src="https://static.igem.org/mediawiki/2015/0/08/Uppsala_NewFrontHeader.png" alt="iGEM Uppsala" style="width:1100px;height:517px;">
-     <h1 class="header">Home</h1>
      <h2 class="header">Abstract</h2>
      <hr>
@@ Line 71: / Line 247: @@
       <td>
        <p>
-     Polycyclic aromatic hydrocarbons (PAHs) are produced by various activities, from grilling meat to coal gasification, and are potent carcinogens. Our project aims to degrade PAHs in industrial waste. The current waste handling method for PAHs is simply to deposit them in landfills where they leak into the environment. The bacterial cells we use need to detect the PAHs for the degradation. However, the molecules do not readily pass through the membrane. We solved this predicament by using one of the smaller PAHs as an indicator to degrade the larger, more dangerous PAHs.  The degradation of this small PAH inside the cell relieves repression of genes under the control of the NahR/Psal promoter system. This causes a series of enzymes to get expressed and secreted outside the cell, oxidising and cleaving the ring structures of the carcinogenic compounds, making them available for downstream biodegradation. To increase the degradation efficiency our system also produces rhamnolipids.
+     Polycyclic aromatic hydrocarbons (PAHs) are potent carcinogens produced by various activities ranging from grilling meat to coal gasification. Our project aims to degrade high molecular weight PAHs present in industrial waste from district heating plants. There is currently no sustainable way to handle this waste and therefore it is deposited in landfills. We want to solve this problem by  employing a bacterial based system.
+     </p>
+     <p>Our cells need to be able to detect the PAHs for direct degradation. However the high molecular weight PAHs do not readily pass through the cell membrane. We solved this obstacle by using the low weight PAH, naphthalene, as an indicator for the presence of heavier PAHs. The degradation of this small PAH inside the cell relieves repression of genes under the control of the NahR/Psal promoter system. This causes the expression of a series of enzymes for PAH degradation which are secreted outside the cell where they can oxidize and cleave the ring structures of the carcinogenic compounds. This in turn makes them available for downstream biodegradation. To increase the degradation efficiency, our system also produces rhamnolipids. These are biosurfactants that prevent the PAHs from aggregating, making them easier for the enzymes to access.
        </p>
        </td>
        <td>
         <a href="https://2015.igem.org/Team:Uppsala/Results">
-         <img id="results_button" src="https://static.igem.org/mediawiki/2015/e/eb/Uppsala_ResultsButton.png" style="width:69px;height:250px;">
+         <img id="results_button" src="https://static.igem.org/mediawiki/2015/e/eb/Uppsala_ResultsButton.png" style="width:90px;">
         </a>
        </td>
@@ Line 82: / Line 260: @@
      </table>
      <hr>
-	<table >
+	<table class="button_grid">
+        <tr>
+                <td colspan="3" >
+                    <div id="med" >
+			<a href="https://2015.igem.org/Team:Uppsala/Journey">
+                              <p class="description">Click here to read about our journey to gold!</p>
+			      <img id="medal" src="https://static.igem.org/mediawiki/2015/f/f7/Uppsala_goldmedal.png">
+                              <!--<h2><span id="textbox">Nordic iGEM Conference</span></h2>-->
+			</a>
+			</div>
+                 </td>
+        </tr>
 	    <tr>
 		<td >
 				<div class="buttons">
 	 			   <a href="https://2015.igem.org/Team:Uppsala/Enzymes">
+                                        <p class="description">Laccase and dioxygenase are enzymes that are central to our project. Click here to learn more about how we use them!</p>
 					<img class="button" src="https://static.igem.org/mediawiki/2015/9/95/Uppsala_Degradation.png" alt="Enyzmatic degradation" style="width:350px;height:583px">
                                          <!--<h2><span id="textbox">Enzymatic Degradation</span></h2>-->
@@ Line 96: / Line 288: @@
 		<td >
 			<div class="buttons">
-			<a href="https://2015.igem.org/Team:Uppsala/Biosurfactants">
+			<a href="https://2015.igem.org/Team:Uppsala/Naphthalene">
-				<img src="https://static.igem.org/mediawiki/2015/b/ba/Uppsala_NewBioButton.png" alt="Biosurfactants" style="width:350px;height:583px">
+                              <p class="description">The degradation of naphthalene is what activates our whole construct. Click here to learn more about how this happens!</p>
-                                <!--<h2><span id="textbox">Biosurfactants</span></h2>-->
+			      <img src="https://static.igem.org/mediawiki/2015/9/92/Uppsala_NewNahButton.png" alt="Naphthalene pathway" style="width:350px;height:583px">
+                              <!--<h2><span id="textbox">Naphthalene Pathway</span></h2>-->
 			</a>
 			</div>
 		</td>
-		<td >
+                <td >
 			<div class="buttons">
-			<a href="https://2015.igem.org/Team:Uppsala/Naphthalene">
+			<a href="https://2015.igem.org/Team:Uppsala/Biosurfactants">
-			      <img src="https://static.igem.org/mediawiki/2015/9/92/Uppsala_NewNahButton.png" alt="Naphthalene pathway" style="width:350px;height:583px">
+                                <p class="description">We used rhamnolipids to increase our enzymes' accessibility to the PAH:s. Click here to find out more about how we incorporated them into our system!</p>
-                              <!--<h2><span id="textbox">Naphthalene Pathway</span></h2>-->
+				<img src="https://static.igem.org/mediawiki/2015/7/73/Uppsala_NewBiosurfButton.png" alt="Biosurfactants" style="width:350px;height:583px">
+                                <!--<h2><span id="textbox">Biosurfactants</span></h2>-->
 			</a>
 			</div>
 		</td>
 	</tr>
+        <tr>
+                <td colspan="3" >
+                    <div id="nic" >
+			<a href="https://2015.igem.org/Team:Uppsala/Software">
+                              <p class="description">We needed a fluorometer to measure the efficiency of our system, but we quickly noticed that getting hold of one was not that easy. Therefore, we built our own!</p>
+			      <img  src="https://static.igem.org/mediawiki/2015/2/27/Uppsala_fluorometer.png" alt="NiC" style="width:1100px; height:263px">
+                              <!--<h2><span id="textbox">Nordic iGEM Conference</span></h2>-->
+			</a>
+			</div>
+                 </td>
+        </tr>
          <tr>
@@ Line 116: / Line 322: @@
                      <div id="nic" >
 			<a href="https://2015.igem.org/Team:Uppsala/nic">
+                              <p class="description">We collaborated with the iGEM team from Stockholm to arrange a meetup of nordic teams in Uppsala. Click here to learn more about the Nordic iGEM Conference!</p>
 			      <img  src="https://static.igem.org/mediawiki/2015/a/ac/Uppsala_NewNiCButton.png" alt="NiC" style="width:1100px; height:263px">
                                <!--<h2><span id="textbox">Nordic iGEM Conference</span></h2>-->
@@ Line 125: / Line 332: @@
 </div>
 </body>
 </html>
+{{Uppsala_NewFooter}}