Difference between revisions of "Team:Jiangnan"

Latest revision as of 03:01, 18 October 2018

Project Description

The limiting factors of most vaccine companies, according to our previous investigation and survey, are mulitifaceted costs in actual production process and long product lift cycle and other issues due to complex application process of new vaccines(cell line).
The goal of our project is to enable three features of our chassis cell, i.e.,high titer, suspension cultivation, and broad spectrum to reduce the production cost increase the yield of viruses for vaccine production. The chassis cell we used here is MDBK cell.

Broad Spectrum

Suspension Culture

High Titer

Broad Spectrum

Through text mining, we classified cell receptors according to the Baltimore subtyping of viruses and summarized the primary receptors mediating the entry of different types of viruses. After systematic analysis, we aim to express Nectin 4 and Tfr on our chassis cells to make them possible to a broad spectrum of viruses.

Suspension Culture

Through high throughput sequencing of two pairs of cells with and without the suspension feature, we found a panel of genes responsible for the suspension feature of cells following network construction using computational approach. The top gene was functionally validated before applied to the chassis cell for genomic modulation.

High Titer

Through bioinformatics analysis and mathematical modeling, we constructed the network regulating virus titer of cells. The top gene was selected, functionally validated in vitro and used for genomic modulation in the chassis cells to enable them the feature of increased titer. On the other hand, we manufactured a device to generate cold atmospheric plasma, using which cell titer was further increased in response to plasma irradiation.

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 <link rel="stylesheet" href="https://2018.igem.org/Team:Jiangnan/CSSmaterializecss?action=raw&ctype=text/css">
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 				<li><a href="https://2018.igem.org/Team:Jiangnan/Entrepreneurship">Gold</a></li>
 				<li class="divider"></li>
-				<li><a href="https://2018.igem.org/Team:Jiangnan/Public_Engagement">Pulic Engagement</a></li>
+				<li><a href="https://2018.igem.org/Team:Jiangnan/Public_Engagement">Public Engagement</a></li>
 				<li class="divider"></li>
 				<li><a href="https://2018.igem.org/Team:Jiangnan/Entrepreneurship">Entrepreneurship</a></li>
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-<div style="width:100%;background-color: #f0ebea">
+<div style="width:100%;">
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 			<img src="https://static.igem.org/mediawiki/2018/a/a1/T--Jiangnan--main_logo.png" width="10%">
 			<h4 style="color: white;">Project Description</h4>
-			<div style="margin-bottom: 0; width: 60%;display: inline;position: relative;">
+			<div style="margin-bottom: 0; width: 60%; display: inline; position: relative;">
-				<p style="text-align: center;color: white">The limitingg factors of most vaccine companies, according to our previous invetigation and survey, are
+				<p style="text-align: center; color: white;">The limiting factors of most vaccine companies, according to our previous investigation and survey, are
-				mulitifaceted costs in actual production process and long product lift cycle and other issues due to
+				mulitifaceted costs in actual production process and long product lift cycle and other issues due
-				to complex application process of new vaccines(call line).<br>
+				to complex application process of new vaccines(cell line).<br/>
-				The goal of our project is to enable three features of our chassis cell, i.e.,high titration, suspension cultivation, and
+				The goal of our project is to enable three features of our chassis cell, i.e.,high titer, suspension cultivation, and
-				 broad spectrum to reduce the production cost increase the yield of viruses for vaccine production. The chassis cell we used here if.
+				 broad spectrum to reduce the production cost increase the yield of viruses for vaccine production. The chassis cell we used here is
-				.MDBK cell.</p>
+				MDBK cell.</p>
 			</div>
 			<div style="width: 33.3%;float: left;">
 				<a href="#broad"><img class="animated infinite pulse" src="https://static.igem.org/mediawiki/2018/0/06/T--JiangNan--broad.png" width="50%"></a>
-				<div><h4 style="color: white">Broad spectrum</h4></div>
+				<div><h4 style="color: white">Broad Spectrum</h4></div>
 			</div>
 			<div style="width: 33.3%;float: left;">
 				<a href="#sus"><img class="animated infinite swing" src="https://static.igem.org/mediawiki/2018/c/cf/T--Jiangnan--main--sus.png" width="50%"></a>
-				<div><h4 style="color: white">Suspension</h4></div>
+				<div><h4 style="color: white">Suspension Culture</h4></div>
 			</div>
 			<div style="width: 33.3%;float: left;">
 				<a href="#high"><img class="animated infinite rubberBand" src="https://static.igem.org/mediawiki/2018/9/96/T--Jiangnan--main--high.png" width="50%"></a>
-				<div><h4 style="color: white">High titer</h4></div>
+				<div><h4 style="color: white">High Titer</h4></div>
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 	<div id="broad" class="row">
 		<div class="col s7 offset-s1">
-			<h5 style="color: #2e7d32">Broad spectrum</h5>
+			<h5 style="color: #2e7d32">Broad Spectrum</h5>
 			<p>Through text mining, we classified cell receptors according to the Baltimore subtyping of viruses and summarized the primary receptors mediating the entry of different types of viruses. After systematic analysis, we aim to express Nectin 4 and Tfr on our chassis cells to make them possible to a broad spectrum of viruses.</p>
 		</div>
@@ Line 198: / Line 199: @@
 		</div>
 		<div class="col s7">
-			<h5 style="text-align: right;color: #ff9100">Suspension</h5>
+			<h5 style="text-align: right;color: #ff9100">Suspension Culture</h5>
 			<p>Through high throughput sequencing of two pairs of cells with and without the suspension feature, we found a panel of genes responsible for the suspension feature of cells following network construction using computational approach. The top gene was functionally validated before applied to the chassis cell for genomic modulation.</p>
 		</div>
@@ Line 204: / Line 205: @@
 	<div id="high" class="row">
 		<div class="col s7 offset-s1">
-			<h5 style="color: #03a9f4">High titer</h5>
+			<h5 style="color: #03a9f4">High Titer</h5>
-			<p>Through bioinformatics analysis and mathematical modeling, we constructed the network regulating virus titration of cells. The top gene was selected, functionally validated in vitro and used for genomic modulation in the chassis cells to enable them the feature of increased titration. On the other hand, we manufactured a device to generate cold atmospheric plasma, using which cell titration was further increased in response to plasma irradiation.</p>
+			<p>Through bioinformatics analysis and mathematical modeling, we constructed the network regulating virus titer of cells. The top gene was selected, functionally validated in vitro and used for genomic modulation in the chassis cells to enable them the feature of increased titer. On the other hand, we manufactured a device to generate cold atmospheric plasma, using which cell titer was further increased in response to plasma irradiation.</p>
 		</div>
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 		</div>
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-</div>
 <img src="https://static.igem.org/mediawiki/2018/b/b6/T--Jiangnan--thanks.png" width="100%" style="margin-bottom: -1em;">
 </div>