Difference between revisions of "Team:China Tongji/Achivement"

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Achivement

1. Parts

2. Equipment

3. Modeling

4. Judging Form

1. Parts

Cells sense the environment, process information, and make response to stimuli. To make cells work well in complex natural environments, lots of processes have to be preset to react to various signals. However, when well-characterized modules are combined to construct higher order systems, unpredictable behaviors often occur because of the interplay between modules. Another significant problem is that complex integrated systems composed of numerous parts may cause cell overload.

Figure 1. Schematic demonstration of HIV

We proposed an elegant method to design higher order systems. Instead of merely combining different functional modules, we constructed one integrated processing module with fewer parts by utilizing the common structures between modules. The circuit we designed is a rewirable one and the topological structure of the processing module can be altered to adapt to environmental change. The basic idea is to rewire the connections between parts and devices to implement multiple functions with the help of the site-specific recombination systems.

Our design approach may lead to a revolutionary step towards system integration in synthetic biology. Potential fields of application include organism development, living therapeutics and environment improvement.

2. Equipment

Since its inception more than a decade ago, synthetic biology has undergone considerable development and has attained significant achievements with the help of the engineering slant. However, there are still obstacles to build a cell. Engineers try to abstract the DNA sequences into some standard functional parts and assemble them using some principles in electrical engineering. So far, the limited understanding of biological system prevents us to combine parts and modules to create larger scale systems. The complexity of synthetic systems didn’t increase rapidly as the Moore’s law (Purnick and Weiss, 2009).

We designed a time-sharing system that can process information according to the input signal. Cells rewire its synthetic circuit to alter the topological structure of regulatory pathway when they receive the corresponding stimuli. In this way, we reuse the existing synthetic module rather than add a new one to implement another function, which reduces the resource cost in running unnecessary function and prevents the interplay between parallel modules. After overcoming these two big problems, our engineered cells are more versatile and flexible in information processing.

3. Modeling

Cells sense the environment, process information, and make response to stimuli. To make cells work well in complex natural environments, lots of processes have to be preset to react to various signals. However, when well-characterized modules are combined to construct higher order systems, unpredictable behaviors often occur because of the interplay between modules. Another significant problem is that complex integrated systems composed of numerous parts may cause cell overload.

Figure 2. China Tongji logo

Our design approach may lead to a revolutionary step towards system integration in synthetic biology. Potential fields of application include organism development, living therapeutics and environment improvement.

4. Judging Form

Cells sense the environment, process information, and make response to stimuli. To make cells work well in complex natural environments, lots of processes have to be preset to react to various signals. However, when well-characterized modules are combined to construct higher order systems, unpredictable behaviors often occur because of the interplay between modules. Another significant problem is that complex integrated systems composed of numerous parts may cause cell overload.

Figure 2. China_Tongji_iGEM_logo

Our design approach may lead to a revolutionary step towards system integration in synthetic biology. Potential fields of application include organism development, living therapeutics and environment improvement.

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           <div class="navOne" id="divAchivement"><a class="navOneA" id="Achivement" href="https://2015.igem.org/Team:China_Tongji/Achivement">Achivement <img src="https://static.igem.org/mediawiki/2015/0/07/China_Tongji_2015_dropdown_arrow.png"></a>
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-                     <li class="navTwo" id="navParts"><a href="https://2015.igem.org/Team:China_Tongji/Achivement">Parts</a></li>
+                     <li class="navTwo" id="navParts"><a>Parts</a></li>
-                     <li class="navTwo" id="navEquipment"><a href="https://2015.igem.org/Team:China_Tongji/Achivement">Equipment</a></li>
+                     <li class="navTwo" id="navEquipment"><a>Equipment</a></li>
-                     <li class="navTwo" id="navModeling"><a href="https://2015.igem.org/Team:China_Tongji/Achivement">Modeling</a></li>
+                     <li class="navTwo" id="navModeling"><a>Modeling</a></li>
-                     <li class="navTwo" id="navJudgingForm"><a href="https://2015.igem.org/Team:China_Tongji/Achivement">Judging Form</a></li>
+                     <li class="navTwo" id="navJudgingForm"><a>Judging Form</a></li>
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               <div class="navDrop">
-                 <li class="navTwo" id="navHumanPractice"><a>Human Practice</a></li>
+                 <li class="navTwo" id="navHumanPractice"><a href="https://2015.igem.org/Team:China_Tongji/Outreach">Human Practice</a></li>
-                 <li class="navTwo" id="navCollaboration"><a>Collaboration</a></li>
+                 <li class="navTwo" id="navCollaboration"><a href="https://2015.igem.org/Team:China_Tongji/Outreach">Collaboration</a></li>
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+	<div class="bugDiv"><img class="bugImg" src="https://static.igem.org/mediawiki/2015/6/6e/China-Tongji-achievementBug.png"></div>
+	<p align="left">Achivement</p>
 </div>
 <div class="myContent">
 	<div id="contentList">
-         <li class="listOne"><p id="listHumanPractice">1. Human Practice</p>
+         <li class="listOne"><p id="listParts">1. Parts</p></li>
-            <ul class="listOneDrop" id="listDropHumanPractice">
+        <li class="listOne"><p id="listEquipment">2. Equipment</p>
-                <li class="listTwo" onClick="window.scrollTo(0,document.getElementById('First1').offsetTop)">1.1 Three Teams Communication Meeting 1</li>
-                <li class="listTwo" onClick="window.scrollTo(0,document.getElementById('First2').offsetTop)">1.2 Three Teams Communication Meeting 2</li>
-                <li class="listTwo" onClick="window.scrollTo(0,document.getElementById('First3').offsetTop)">1.3 Popularize Scientific Knowledge about Synthetic Biology</li>
-                <li class="listTwo" onClick="window.scrollTo(0,document.getElementById('First4').offsetTop)">1.4 Communication Meeting with SYSU-China</li>
-                <li class="listTwo" onClick="window.scrollTo(0,document.getElementById('First5').offsetTop)">1.5 Exhibition at Shanghai Technology Museum</li>
-            </ul>
          </li>
-         <li class="listOne"><p id="listCollaboration">2. Collaboration</p></li>
+         <li class="listOne"><p id="listModeling">3. Modeling</p></li>
+        <li class="listOne"><p id="listJudgingForm">4. Judging Form</p></li>
      </div>
      <div id=mainContent>
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-        <div class="fivePx"></div><div class="fivePx"></div>
+         <p class="titleOne" id="Parts">1. Parts</p>
-         <p class="titleOne" id="HumanPractice">1. Human Practice</p>
          <p class="contentP">
-         This year, our team mainly focus on communicating with other iGEM teams and raising public awareness towards synthetic biology. Through our practice, we have learned more from each other and built sincere friendship among our team and other teams. Moreover, we promoted the public’s understanding of iGEM and our project.</p>
+         Cells sense the environment, process information, and make response to stimuli. To make cells work well in complex natural environments, lots of processes have to be preset to react to various signals. However, when well-characterized modules are combined to construct higher order systems, unpredictable behaviors often occur because of the interplay between modules. Another significant problem is that complex integrated systems composed of numerous parts may cause cell overload.</p>
-         <div class="divider"></div>
+         <center><img class="contentImg" src="https://static.igem.org/mediawiki/2015/5/57/China_Tongji_team-logo-300px.png" ></center>
-         <p class="titleTwo" id="First1">1.1 Three Teams Communication Meeting 1 -- 2015.4.19</p>
+         <p class="imgName" align="center">Figure 1. Schematic demonstration of HIV</p>
          <p class="contentP">
-         On April 19th, we went to Shanghai Jiaotong University to have a communication meeting .Three teams including SJTU-BioX-Shanghai,NJAU_China and Tongji have attended. In this meeting, we first introduced our project respectively. Then we raised some question and gave some advice on other teams projects. We not only considered these suggestions and perfected our projects but made friends with each other as well.</p>
+         We proposed an elegant method to design higher order systems. Instead of merely combining different functional modules, we constructed one integrated processing module with fewer parts by utilizing the common structures between modules. The circuit we designed is a rewirable one and the topological structure of the processing module can be altered to <span style="font-weight:bold;">adapt</span> to environmental change. The basic idea is to rewire the connections between parts and devices to <span style="font-weight:bold;">implement multiple functions</span> with the help of the site-specific recombination systems.</p>
-        <!-- 图片轮播2015.4.19 -->
+         <p class="contentP">
-        <div id="banner_tabs0419" class="flexslider">
+         Our design approach may lead to a revolutionary step towards <span style="font-weight:bold;">system integration</span> in synthetic biology. Potential fields of application include organism development, living therapeutics and environment improvement.</p>
-            <ul class="slides">
+        <p></p><div class="divider"></div>
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-        <div class="divider"></div>
-        <p class="titleTwo" id="First2">1.2 Three Teams Communication Meeting 2 -- 2015.6.8</p>
-		<p class="contentP">
-        On Jun 8th we had a meet-up with NYU Shanghai, SJTU and a behalf from ITB, at NYU Shanghai. This culture-mixed gathering covered not only those topics on our projects, but exchanging of our daily experiences as well. After this happy meeting, we had a general understanding about each other’s idea and set up a long-term union for mutual assistance.</p>
-        <!-- 图片轮播2015.6.08 -->
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-            </ul>
-            <ul class="flex-direction-nav">
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-            </ul>
-            <ol id="bannerCtrl0608" class="flex-control-nav flex-control-paging">
-                <li class="active"><a>1</a></li>
-                <li class=""><a>2</a></li>
-                <li class=""><a>3</a></li>
-            </ol>
-        </div>
-        <div class="divider"></div>
-        <p class="titleTwo" id="First3">1.3 Popularize Scientific Knowledge about Synthetic Biology -- 2015.6.22</p>
-		<p class="contentP">
-         On June 22nd,we had a class in Tongji primary school.</p>
-		<p class="contentP">
-         Firstly, we introduced iGEM and synthetic biology to them. Then, we briefly explained our project. We had adapted our project for a interesting story. So in this class, we showed them this story by PPT and our explanation. They were very interested about C.elegans and asked many questions about it.</p>
-		<p class="contentP">
-        After this class, these kids had more knowledge about synthetic biology and iGEM. We achieved our goal that popularizing scientific knowledge.</p>
-        <!-- 图片轮播2015.6.22 -->
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-                    <a><img width="800" height="533" alt="" style="background: url(https://static.igem.org/mediawiki/2015/5/51/China-Tongji-humanPractice-20150622-1.jpg) no-repeat center;"></a>
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-                    <a><img width="800" height="533" alt="" style="background: url(https://static.igem.org/mediawiki/2015/5/51/China-Tongji-humanPractice-20150622-2.jpg) no-repeat center;"></a>
-                </li>
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-                    <a><img width="800" height="533" alt="" style="background: url(https://static.igem.org/mediawiki/2015/e/e6/China-Tongji-humanPractice-20150622-3.jpg) no-repeat center;"></a>
-                </li>
-            </ul>
-            <ul class="flex-direction-nav">
-                <li><a class="flex-prev" href="javascript:;">Previous</a></li>
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-            </ul>
-            <ol id="bannerCtrl0622" class="flex-control-nav flex-control-paging">
-                <li class="active"><a>1</a></li>
-                <li class=""><a>2</a></li>
-                <li class=""><a>3</a></li>
-            </ol>
-        </div>
-        <div class="divider"></div>
-        <p class="titleTwo" id="First4">1.4 Communication Meeting with SYSU-China -- 2015.7.11</p>
-		<p class="contentP">
-        On July 11st, we communicated with the captain of SYSU-China. We exchanged some problems and difficulties that we met in our experimental process. This led us to make a summing up of the experience and lessons.</p>
-		<p class="contentP">
-        We showed our logo and gave some advice to each other. What’s more, we talked about the construction of our wikis.</p>
-        <!-- 图片2015.7.11 -->
-        <center><img class="contentImg" src="https://static.igem.org/mediawiki/2015/8/8b/China-Tongji-humanPractice-20150711-1.jpg" ></center>
-        <div class="divider"></div>
-        <p class="titleTwo" id="First5">1.5 Exhibition at Shanghai Technology Museum -- 2015.8.8</p>
-		<p class="contentP">
-        On Aug 8th, with 6 other iGEM teams, we made an exhibition at Shanghai Technology Museum. We introduced our project and the iGEM competition to the people who visited the museum that day. More than 5000 people have seen our project, what’s more, we had a good communication with other teams about our projects!</p>
-		<p class="contentP">
-        Teams include: NYU-Shanghai, Tongji, FDU, SJTU, SJTU-software, XJTLU, ZJU.</p>
-        <!-- 图片2015.8.8 -->
-        <!-- 图片轮播 -->
-        <div id="banner_tabs0808" class="flexslider">
-            <ul class="slides">
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-                    <a><img width="800" height="533" alt="" style="background: url(https://static.igem.org/mediawiki/2015/1/1f/China-Tongji-humanPractice-20150808-1.jpg) no-repeat center;"></a>
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-                    <a><img width="800" height="533" alt="" style="background: url(https://static.igem.org/mediawiki/2015/3/3d/China-Tongji-humanPractice-20150808-4.jpg) no-repeat center;"></a>
-                </li>
-            </ul>
-            <ul class="flex-direction-nav">
-                <li><a class="flex-prev" href="javascript:;">Previous</a></li>
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-            </ul>
-            <ol id="bannerCtrl0808" class="flex-control-nav flex-control-paging">
-                <li class="active"><a>1</a></li>
-                <li class=""><a>2</a></li>
-                <li class=""><a>3</a></li>
-                <li class=""><a>4</a></li>
-            </ol>
-        </div>
-        <div class="divider"></div>
+		<p class="titleOne" id="Equipment">2. Equipment</p>
-		<p class="titleOne" id="Collaboration">2. Collaboration</p>
+         <p class="contentP">Since its inception more than a decade ago, synthetic biology has undergone considerable development and has attained significant achievements with the help of the engineering slant. However, there are still obstacles to build a cell. Engineers try to abstract the DNA sequences into some standard functional parts and assemble them using some principles in electrical engineering. So far, the limited understanding of biological system prevents us to combine parts and modules to create larger scale systems. The complexity of synthetic systems didn’t increase rapidly as the Moore’s law (Purnick and Weiss, 2009). </p>
-         <p class="contentP">Since its inception more than a decade ago, synthetic biology has undergone considerable development and has attained significant achievements with the help of the engineering slant. However, there are still obstacles to build a cell. Engineers try to abstract the DNA sequences into some standard functional parts and assemble them using some principles in electrical engineering. So far, the limited understanding of biological system prevents us to combine parts and modules to create larger scale systems. The complexity of synthetic systems didn’t increase rapidly as the Moore’s law (Purnick and Weiss, 2009). </p>
+        <p class="contentP">We designed a time-sharing system that can process information according to the input signal. Cells rewire its synthetic circuit to <span style="font-weight:bold;">alter the topological structure of regulatory pathway</span> when they receive the corresponding stimuli. In this way, we <span style="font-weight:bold;">reuse the existing synthetic module</span> rather than add a new one to implement another function, which reduces the resource cost in running unnecessary function and prevents the interplay between parallel modules. After overcoming these two big problems, our engineered cells are more <span style="font-weight:bold;">versatile</span> and <span style="font-weight:bold;">flexible</span> in information processing. </p>
+        <p></p><div class="divider"></div>
+		<p class="titleOne" id="Modeling">3. Modeling</p>
+        <p class="contentP">
+        Cells sense the environment, process information, and make response to stimuli. To make cells work well in complex natural environments, lots of processes have to be preset to react to various signals. However, when well-characterized modules are combined to construct higher order systems, unpredictable behaviors often occur because of the interplay between modules. Another significant problem is that complex integrated systems composed of numerous parts may cause cell overload.</p>
+        <center><img class="contentImg" src="https://static.igem.org/mediawiki/2015/5/57/China_Tongji_team-logo-300px.png" ></center>
+        <p class="imgName" align="center">Figure 2. China Tongji logo</p>
+        <p class="contentP">
+        Our design approach may lead to a revolutionary step towards <span style="font-weight:bold;">system integration</span> in synthetic biology. Potential fields of application include organism development, living therapeutics and environment improvement.</p>
+        <p></p><div class="divider"></div>
+		<p class="titleOne" id="JudgingForm">4. Judging Form</p>
+        <p class="contentP">
+        Cells sense the environment, process information, and make response to stimuli. To make cells work well in complex natural environments, lots of processes have to be preset to react to various signals. However, when well-characterized modules are combined to construct higher order systems, unpredictable behaviors often occur because of the interplay between modules. Another significant problem is that complex integrated systems composed of numerous parts may cause cell overload.</p>
          <p class="contentP">
          Cells sense the environment, process information, and make response to stimuli. To make cells work well in complex natural environments, lots of processes have to be preset to react to various signals. However, when well-characterized modules are combined to construct higher order systems, unpredictable behaviors often occur because of the interplay between modules. Another significant problem is that complex integrated systems composed of numerous parts may cause cell overload.</p>
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-		var t = document.documentElement.scrollTop || document.body.scrollTop;
+    var t = document.documentElement.scrollTop || document.body.scrollTop;
-		var contentList = document.getElementById( "contentList" );
+    var contentList = document.getElementById( "contentList" );
-		if( t >= 200 ) {
+    if( t >= 200 ) {
-			contentList.style.position = "fixed";
+        contentList.style.position = "fixed";
-			contentList.style.top = "78px";
+		contentList.style.top = "78px";
-		} else {
+    } else {
-			contentList.style.position = "static";
+        contentList.style.position = "static";
-		}
+    }
+	var EquipmentST = document.getElementById("Equipment").offsetTop;
+	var ModelingST = document.getElementById("Modeling").offsetTop;
+	var JudgingFormST = document.getElementById("JudgingForm").offsetTop;
-		var CollaborationST = document.getElementById("Collaboration").offsetTop;
+	if( t<EquipmentST-78 ){
+		document.getElementById("listParts").style.color = "#F0F";
-		if( t<=CollaborationST-78 ){
+	}else{
-			document.getElementById("listHumanPractice").style.color = "#F0F";
+		document.getElementById("listParts").style.color = "#000";
-			document.getElementById("listDropHumanPractice").style.display = "block";
-		}else if((t<CollaborationST-78) || (t>=CollaborationST-78)){
-			document.getElementById("listHumanPractice").style.color = "#000";
-			document.getElementById("listDropHumanPractice").style.display = "none";
-		}
-		if( t>=CollaborationST-78 ){
-			document.getElementById("listCollaboration").style.color = "#F0F";
-		}else{
-			document.getElementById("listCollaboration").style.color = "#000";
-		}
 	}
-	//0419图片轮播控制
+	if( (t>=EquipmentST-78) ){
-	$(function() {
+		document.getElementById("listEquipment").style.color = "#F0F";
-		var bannerSlider = new Slider($('#banner_tabs0419'), {
+		if(t>=ModelingST-78){
-			time: 3000,
+		document.getElementById("listEquipment").style.color = "#000";
-			delay: 400,
+	}}else{
-			event: 'hover',
+		document.getElementById("listEquipment").style.color = "#000";
-			auto: true,
+	}
-			mode: 'fade',
-			controller: $('#bannerCtrl0419'),
+	if( (t>=ModelingST-78) ){
-			activeControllerCls: 'active'
+		document.getElementById("listModeling").style.color = "#F0F";
-		});
+		if(t>=JudgingFormST-78){
-		$('#banner_tabs0419 .flex-prev').click(function() {
+		document.getElementById("listModeling").style.color = "#000";
-			bannerSlider.prev()
+	}}else{
-		});
+		document.getElementById("listModeling").style.color = "#000";
-		$('#banner_tabs0419 .flex-next').click(function() {
+	}
-			bannerSlider.next()
-		});
+	if( t>=JudgingFormST-78 ){
-	})
+		document.getElementById("listJudgingForm").style.color = "#F0F";
-	//0608图片轮播控制
+	}else{
-	$(function() {
+		document.getElementById("listJudgingForm").style.color = "#000";
-		var bannerSlider = new Slider($('#banner_tabs0608'), {
+	}
-			time: 3000,
+}
-			delay: 400,
-			event: 'hover',
-			auto: true,
-			mode: 'fade',
-			controller: $('#bannerCtrl0608'),
-			activeControllerCls: 'active'
-		});
-		$('#banner_tabs0608 .flex-prev').click(function() {
-			bannerSlider.prev()
-		});
-		$('#banner_tabs0608 .flex-next').click(function() {
-			bannerSlider.next()
-		});
-	})
-	//0622图片轮播控制
-	$(function() {
-		var bannerSlider = new Slider($('#banner_tabs0622'), {
-			time: 3000,
-			delay: 400,
-			event: 'hover',
-			auto: true,
-			mode: 'fade',
-			controller: $('#bannerCtrl0622'),
-			activeControllerCls: 'active'
-		});
-		$('#banner_tabs0622 .flex-prev').click(function() {
-			bannerSlider.prev()
-		});
-		$('#banner_tabs0622 .flex-next').click(function() {
-			bannerSlider.next()
-		});
-	})
-	//0808图片轮播控制
-	$(function() {
-		var bannerSlider = new Slider($('#banner_tabs0808'), {
-			time: 3000,
-			delay: 400,
-			event: 'hover',
-			auto: true,
-			mode: 'fade',
-			controller: $('#bannerCtrl0808'),
-			activeControllerCls: 'active'
-		});
-		$('#banner_tabs0808 .flex-prev').click(function() {
-			bannerSlider.prev()
-		});
-		$('#banner_tabs0808 .flex-next').click(function() {
-			bannerSlider.next()
-		});
-	})
 </script>
 </body>
 </html>
 {{China_Tongji_Foot}}