Team:Nankai

From 2014.igem.org

(Difference between revisions)

Revision as of 18:26, 17 October 2014

<!DOCTYPE html> iGEM2014 Nankai

Overview

iGEM 2014 Nankai

Biosurfactants in MEOR
Microbial enhanced oil recovery (MEOR) is a popular method today in oil production that relies on microorganisms and their metabolic products to mobilize residual oil. Early in 1946 people began to study the application of biosurfactants in oil production, when Zobell discovered that microbe-producing biosurfactants are one of the mechanisms of MEOR. Biosurfactants lower the oil-water interfacial tension, letting the oil droplets release from the sandstones surface, and reduce the viscosity of heavy oil to help its flow. The production of biosurfactants in aerobic environment has been comprehensively researched. Rhamnolipid for instance, has been extensively studied and applied because of its remarkable surface activity and emulsifying properties.

$说明: F:\Viedo.Nk\Word\伯苓班\大二下\IGEM所有\油瓶子\DH\P1160770.JPG$
Emulsifying properties of different biosurfactants
Weak(left) Strong(right)
Problems and Solutions
However, until today, it remains at a stage where we have to produce our biosurfactants like rhamnolipid at a bioreactor and then injected them into the oil reservoir. The process of product purification and transportation is very costly and complex, which makes it too unpractical to employ in offshore oil wells. In the meantime, the chance for biosurfactants molecules to meet residual oil along the water pathway is very small. We can’t target the oil droplets separated all over the oil field which is often half wrapped by sandstones. Thus the increase of oil output depends largely on the amount of biosurfactants we pump into the well, causing its low efficiency.

Currently in-situ production of biosurfactants underground is considered advantageous in MEOR. Yet, it is also limited by the oxygen-depleted environments of oil reservoirs because most studied producers are aerobic microorganisms. So clearly, microorganisms that can produce biosurfactants under anaerobic conditions are desperately needed.

Why Pseudomonas stutzeri
Among the very few anaerobic biosurfactant-producing microorganisms reported, we selected Pseudomonas stutzeri as our host bacteria. For one reason, we have acquired Pseudomonas stutzeri strains in almost every oil field we studied, indicating its universality. In addition, we want it to produce Rhamnolipid, and Pseudomonas stutzeri is genetically close to Pseudomonas aeruginosa, in which Rhamnolipid ligase genes are highly expressed.
$说明: C:\Users\Administrator\Desktop\initpintu_副本.jpg$
Oil-Water Mixture cultivation
Blank(left) Pseudomonas stutzeri(right)

Pseudomonas stutzeri take in oil as their carbon source for living. Thus they would trace down to where an oil droplet is held, and surround it as they grow and multiply. In this way, we sucessfully manage to bring our biosurfactant factories right into the reservoir. And all the nutrition we need to supply is nitrogen in the form of nitrates, which is very cheap and easy to transport.

Why Rhamnolipid
Rhamnolipid is a series of congeners, which may have one or two rhamnoses bonded to β-hydroxy fatty acid with different carbon chain lengths. As we mentioned above, Rhamnolipid has excellent surface activity and terrific emulsifying properties. Moreover, since most of the bacteria like Pseudomonas stutzeri themselves have two uncorrelated synthesis systems of rhamnose and fatty acid, all we have to do is transform the Rhamnolipid ligase genes into bacteria.

Rhamnolipid biosynthetic pathway
Rhamnose Parts(left) Fatty Acid Parts(right)

Once it is expressed, it would join the two parts together and give the host bacteria the ability to synthesise Rhamnolipid. Therefore our target genes Rhl ABRI are the key to generate our tiny but enormous underground Rhamnolipid factories.

Team:Nankai

From 2014.igem.org

Revision as of 18:26, 17 October 2014

iGEM Nankai

iGEM logo

Overview

Our Results

Our Team

Our Costs

@@ Line 1: / Line 1: @@
+<!DOCTYPE html>
 <html>
-<!--Thanks to Nelson's works.make Bootstrap template (any outside servers) perfectly work in iGEM wiki system. How to? First you buy a server and upload your
+<head>
+<meta http-equiv="content-type" content="text/html; charset=UTF-8">
+<meta charset="utf-8">
+<title>iGEM2014 Nankai</title>
+<meta name="keywords" content="iGEM Nankai">
+<meta name="description" content="iGEM Nankai">
+<link rel="bookmark" type="image/x-icon" href="#">
+<!--各种图标，多个设备支持-->
+<link rel="shortcut icon" type="image/png" href="#">
+<link rel="icon" type="image/png" href="#">
+<link rel="apple-touch-icon" href="#">
+<!--public js&css start-->
+<!--public js&css end -->
+<script type="text/javascript" src="assets/jqueryv182.js"></script>
+<script type="text/javascript" src="assets/slide.js"></script>
+<link rel="stylesheet" type="text/css" href="assets/style2.css">
+</head>
-websites, and then copy my code below, replace your servers address. Second, in every iGEM wiki page, put the similar code.(How to edit page? Replace your
+<body>
+<!--header static-->
+<div class="header">
+  <div class="wrap" style="
+    width: 1280px;
+    margin-right: 0px;
+    border-left-width: 160px;
+    margin-left: 120px;
+">
+    <div class="img-logo">
+      <h1> <a alt="iGEM Nankai" class="ie6fixpic" title="iGEM Nankai" href="#">iGEM Nankai</a> </h1>
+    </div>
+    <div class="igem-logo">
+      <h1> <a alt="iGEM logo" class="ie6fixpic" title="iGEM logo" onclick=window.parent.location.href="https://2014.igem.org/">iGEM logo</a> </h1>
+    </div>
+    <!--menu start-->
+    <div class="menu">
+      <ul class="clearfix">
+        <li class="select"><a onclick=window.parent.location.href="https://2014.igem.org/Team:Nankai">Home </a></li>
+        <li><a onclick=window.parent.location.href="https://2014.igem.org/Team:Nankai/Project">Project </a></li>
+       <li><a onclick=window.parent.location.href="https://2014.igem.org/Team:Nankai/Modeling">Physical Modeling</a></li>
+        <li><a onclick=window.parent.location.href="https://2014.igem.org/Team:Nankai/Parts">Parts</a></li>
+        <li><a onclick=window.parent.location.href="https://2014.igem.org/Team:Nankai/Practices">Practices</a></li>
+        <li><a onclick=window.parent.location.href="https://2014.igem.org/Team:Nankai/Team">Team</a></li>
+      </ul>
+    </div>
+    <!--menu end-->
+    <!--search start-->
+    <!--search end-->
+    <!--login start-->
+    <!--login end-->
+  </div>
+</div>
+<!--header-end-->
+<link rel="stylesheet" type="text/css" href="assets/style1.css">
+<div class="banner">
+  <div class="wrap">
+    <style>
+				#JS-banner_ul{position:relative;}
+				#JS-banner_ul li{float:left}
+			</style>
+    <div class="wrap" style="overflow:hidden;">
+      <ul id="JS-banner_ul" class="clearfix" style="height: 392px; width: 5760px; margin-left: 0px;">
+        <li> <a target="_blank" href="#"> <img data-load="ok" data-init="ok" src="./assets/images/slide1.jpg" class="lz" data-src="./images/slide1.jpg" height="392" width="960"> </a> </li>
+        <li> <a target="_blank" href="./deal-show.html"> <img data-load="ok" data-init="ok" src="./assets/images/slide2.jpg" class="lz" data-src="./images/slide2.jpg" height="392" width="960"> </a> </li>
+         <li> <a target="_blank" href="./deal-show.html"> <img data-load="ok" data-init="ok" src="./assets/images/slide3.jpg" class="lz" data-src="./images/slide3.jpg" height="392" width="960"> </a> </li>
+          <li> <a target="_blank" href="./deal-show.html"> <img data-load="ok" data-init="ok" src="./assets/images/slide4.jpg" class="lz" data-src="./images/slide4.jpg" height="392" width="960"> </a> </li>
+      </ul>
+    </div>
+    <div class="focus-btn"> <a id="JS-banner_pre" class="prev common-sprite ie6fixpic" href="javascript:void(0);">上一张</a> <a id="JS-banner_next" class="next common-sprite ie6fixpic" href="javascript:void(0);">下一张</a> </div>
+  </div>
+</div>
+<script type="text/javascript" src="./assets/slide.js"></script>
+<div class="site-focus">
+  <div class="wrap">
+    <div class="mod-title clearfix">
+      <h2> &nbsp;&nbsp;Overview</h2>
+      <div class="title-sub"> iGEM 2014 Nankai</a> </div>
+    </div>
+  </div>
+</div>
+<div class="main wrap" style="
+    height: 1900px;
+">
+  <div class="hot-project-box">
+    <!--mod tit start-->
+    <!--mod tit end-->
+    <div class="hot-project">
+      <ul class="clearfix">
+        <li style="
+    width: 960px;
+">
+          <!--Deal Card Module-->
+          <!--Deal Card Module-->
+          <div class="home-list-item" style="
+    width: 960px;
+">
+            <div class="item-caption" style="
+    padding-top: 10px;
+"> <span style="font-size:16px;">
+<p>Biosurfactants in MEOR<br>
+Microbial enhanced oil recovery (MEOR) is a popular method today in oil production that relies on microorganisms and their metabolic products to mobilize residual oil. Early in 1946 people began to study the application of biosurfactants in oil production, when Zobell discovered that microbe-producing biosurfactants are one of the mechanisms of MEOR. Biosurfactants lower the oil-water interfacial tension, letting the oil droplets release from the sandstones surface, and reduce the viscosity of heavy oil to help its flow. The production of biosurfactants in aerobic environment has been comprehensively researched. Rhamnolipid for instance, has been extensively studied and applied because of its remarkable <a name="OLE_LINK177">surface activity and emulsifying properties</a>.<br>
+ <br>
+<img width="322" height="289" src="http://inankai.cn/igem/assets/images/overview1.png" align="left" hspace="9" alt="说明: F:\Viedo.Nk\Word\伯苓班\大二下\IGEM所有\油瓶子\DH\P1160770.JPG"><br clear="all">
+Emulsifying properties of different biosurfactants<br>
+Weak(left)   Strong(right)<br>
+Problems and Solutions<br>
+However, until today, it remains at a stage where we have to produce our <a name="OLE_LINK248">biosurfactants</a> like rhamnolipid at a bioreactor and then injected them into the oil reservoir. The process of product purification and transportation is very costly and complex, which makes it too unpractical to employ in offshore oil wells. In the meantime, the chance for biosurfactants molecules to meet residual oil along the water pathway is very small. We can&rsquo;t target the oil droplets separated all over the oil field which is often half wrapped by sandstones. Thus the increase of oil output depends largely on the amount of biosurfactants we pump into the well, causing its low efficiency.</p>
+</span>
+              <p><img width="417" height="256" src="http://inankai.cn/igem/assets/images/gif1.gif" alt="">
+              <img width="417" height="256" src="http://inankai.cn/igem/assets/images/gif2.gif" alt=""> <br>
+                Currently <em>in-situ</em> production of biosurfactants underground is considered advantageous in MEOR. Yet, it is also limited by the oxygen-depleted environments of oil reservoirs because most studied producers are aerobic microorganisms. So clearly, microorganisms that can produce biosurfactants under anaerobic conditions are desperately needed.</p>
+              <p>Why Pseudomonas stutzeri<br>
+                Among the very few anaerobic biosurfactant-producing microorganisms reported, we selected Pseudomonas stutzeri as our host bacteria. For one reason, we have acquired Pseudomonas stutzeri strains in almost every oil field we studied, indicating its universality. In addition, we want it to produce Rhamnolipid, and Pseudomonas stutzeri is genetically close to Pseudomonas aeruginosa, in which Rhamnolipid ligase genes are highly expressed.<br>
+  <img width="414" height="160" src="http://inankai.cn/igem/assets/images/overview3.png" alt="说明: C:\Users\Administrator\Desktop\initpintu_副本.jpg"> <br>
+                Oil-Water Mixture cultivation<br>
+                Blank(left)  Pseudomonas stutzeri(right)</p>
+              <p>Pseudomonas stutzeri take in oil as their carbon source for living. Thus they would trace down to where an oil droplet is held, and surround it as they grow and multiply. In this way, we sucessfully manage to bring our biosurfactant factories right into the reservoir. And all the nutrition we need to supply is nitrogen in the form of nitrates, which is very cheap and easy to transport.</p>
+              <p>Why Rhamnolipid<br>
+                <a name="OLE_LINK241"></a><a name="OLE_LINK228">Rhamnolipid</a> is a series of congeners, which may have one or two rhamnoses bonded to β-hydroxy fatty acid with different carbon chain lengths. As we mentioned above, Rhamnolipid has excellent surface activity and terrific emulsifying properties. Moreover, since most of the bacteria like Pseudomonas stutzeri themselves have two uncorrelated synthesis systems of rhamnose and fatty acid, all we have to do is transform the Rhamnolipid ligase genes into bacteria.</p>
+              <p><strong>&nbsp;</strong></p>
+              <p align="center"><img src="http://inankai.cn/igem/assets/images/overview4.png" alt="" width="417" height="347"><br>
+                Rhamnolipid&nbsp;biosynthetic&nbsp;pathway<br>
+                Rhamnose Parts(left)    Fatty Acid Parts(right)</p>
+              <p>Once it is expressed, it would join the two parts together and give the host bacteria the ability to synthesise Rhamnolipid. Therefore our target genes Rhl ABRI are the key to generate our tiny but enormous underground Rhamnolipid factories.</p>
+              <span style="font-size:16px;">
+<p>&nbsp;</p>
+<p>&nbsp;</p>
+            </span></div>
+          </div>
+        </li>
+        <li>
+          </div>
+        </li>
+      </ul>
+    </div>
+  <!--跳转到所有项目页面-->
+</div>
+</div>
+</div>
+<div class="support">
+  <div class="wrap">
+    <div class="mod-title clearfix">
+    </div>
+    <div class="support-con clearfix">
+      <ul class="support-big clearfix" align="center">
+      <li><span class="icon-sup pro-sum"></span>
+          <h3>Our Results</h3>
+          <p class="red">details<em></em></p>
+        </li>
+        <li><span class="icon-sup pro-per"></span>
+          <h3>Our Team</h3>
+          <p class="violet">people<em></em></p>
+        </li>
+        <li><span class="icon-sup pro-money"></span>
+          <h3>Our Costs</h3>
+          <p class="yellow"><em></em>money</p>
+        </li>
+      </ul>
+    </div>
+  </div>
+</div>
-school name (and year ) in "https://2014.igem.org/wiki/index.php?title=Team:Nankai&action=edit" and put it in your browser) (and if you want to edit Nankai/Team,
+<!--footer static-->
+<div class="footer">
-just add /Team in that address) Third, in every linkage, replace "href="xxx" by "onclick=window.parent.location.href="xxx"", if you have pdf file, please upload
+  <!--footer section start-->
-to iGEM and paste the address. If you have further question please feel free to ask Nelson's email: yuiuiuiuiui@163.com-->
-<meta name="viewport" content="width=device-width, initial-scale=1">
-<script src="http://inankai.cn/igem/assets/jqueryv182.js"></script>
-<script>
-  $('head').empty();
-  $('body').empty().removeClass().css('margin','0');
-   var iframe = $('<iframe src="http://inankai.cn/igem" style="border: 0; width: 100%;"></iframe>').css('height',$(window).height());
+   <!--footer section start-->
-  $('body').html(iframe);
+  <div class="footer-copy">
+    <div class="wrap">
+      <div class="ft-links">
+        <div class="links-arrow">Creator：</div>
+        <p>Nankai University<a href="#" target="_blank">iGEM 2014 Team</a></p>
+      </div>
+      <p>©2014 Nankai University iGEM Team</p>
+    </div>
+  </div>
+</div>
+<div id="code"></div>
+<div id="code_img"></div>
+<div style="display: none;" id="gotop"></div>
+<script type="text/javascript" src="./assets/scroll.js"></script>
+<!--footer end-->
+<!-- <div style="display:none;">
+    <script type="text/javascript">
+      var _bdhmProtocol = (("https:" == document.location.protocol) ? " https://" : " http://");
+      document.write(unescape("%3Cscript src='" + _bdhmProtocol + "hm.baidu.com/h.js%3Fe89e365e0d0438aa7f6d6eab7960962c' type='text/javascript'%3E%3C/script%3E"));
+    </script>
+</div> -->
-  $(window).resize(function () {
+<!--[if IE 6]>
-    iframe.css('height',$(window).height());
+<script src="/static/zhongchou/js/DD_belatedPNG_0.0.8a.js"></script>
-  });
+<![endif]-->
-</script>
+<div id="xunlei_com_thunder_helper_plugin_d462f475-c18e-46be-bd10-327458d045bd"></div>
+<img style="display: none; width: 0px; height: 0px;" src="assets/pv.gif"><img style="display: none; width: 0px; height: 0px;" src="assets/tker.gif">
+</body>
 </html>