Team:USTC-Software

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Latest revision as of 14:26, 7 November 2013

Header2

Slide

Take a gNAP before wearing your gloves! Genetic Network Analyze and Predict

The sketch and final GUI of gNAP!

We compare the result of our software with gene expression profile in literature.

We are USTC-Software!

Home

Overall

Gene Network Analyze and Predict (gNAP) is a software which can model and analyze the change of new GRN constructing after exogenous gene’s import. What’s more, gNAP's reverse analysis based on global GRN gives some advise to experimenters before choosing the imported gene meeting their purpose.

Software

gNAP, gene network analyze and predict, is our main software which could analyze the input gene’s effects forward and reversely. gFinder, gene finder, is a website software which could find a specific gene in a database by gene’s function of regulation. gRNA, gene regulatory network analysts, is a small game which could improve the children’s ability of network analysis.

Methodologies

In order to simulate the GRN’s working and analyze the changing after exogenous gene imported, some advanced algorithms and classical methods are employed in the software. These algorithms and methods include Binary Tree method, Needle-Wunsch Algorithm, Decision Tree method, Hill Equation and PSO Algorithm.

Communication

Our team hope to create a better community for iGEM software, so we collaborate with other teams. Open source on github with detailed API of our source code make our software’s development more easy and convenient. What’s more, to popularize iGEM in our campus, we also give “Hi” from iGEM to all the students and teachers and give their “Hello” back.

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+<!--div id="camera">
+  <div class="camera_wrap camera_charcoal_skin" id="camera_wrap_1" align="center">
+                    <div data-thumb="https://static.igem.org/mediawiki/2013/c/ca/USTC-Software-3s.jpg
+" data-src="https://static.igem.org/mediawiki/2013/8/85/USTC_Software_Page1.png
+">
+                        <div class="camera_caption fadeFromBottom"><em>Take a gNAP before wearing your gloves!<br/>Genetic Network Analyze and Predict</em></div>
+                    </div>
-<div class="line">
-<h2>Welcome to our wiki!</h2>
+                    <div data-thumb="https://static.igem.org/mediawiki/2013/9/9f/USTC-Software-main2s.jpg" data-src="https://static.igem.org/mediawiki/2013/1/15/2.jpg">
+                        <div class="camera_caption fadeFromBottom"><em>The sketch and final GUI of gNAP!</em></div>
+                    </div>
+                    <div data-thumb="https://static.igem.org/mediawiki/2013/archive/3/32/20131028070148%21USTC-Software-2s.jpg" data-src="https://static.igem.org/mediawiki/2013/3/32/USTC-Software-2s.jpg">
+                        <div class="camera_caption fadeFromBottom"><em>We compare the result of our software with gene expression profile in literature.</em></div>
+                    </div>
+                    <div data-thumb="https://static.igem.org/mediawiki/2013/8/80/USTC_Software_4s.jpg" data-src="https://static.igem.org/mediawiki/2013/c/cb/USTC_Software_4.jpg">
+                        <div class="camera_caption fadeFromBottom"><em>We are USTC-Software!</em></div>
+                    </div>
+  </div>
+</div-->
+<div id="green">
+	<div class="right">
+		<h2>Overall</h2>
+		<p align="justify">Gene Network Analyze and Predict (gNAP) is a software which can model and analyze the change of new GRN constructing after exogenous gene’s import. What’s more, gNAP's reverse analysis based on global GRN gives some advise to experimenters before choosing the imported gene meeting their purpose.</p>
+<a href="https://2013.igem.org/Team:USTC-Software/Project/Overall" class="more"></a>
+		</div>
+<div class="left">
+<img src="https://static.igem.org/mediawiki/2013/a/a6/USTC_Software_Overall.png"/>
 </div>
-  <div class="camera_wrap camera_azure_skin" id="camera_wrap_1">
-     <div data-thumb="pictures/slides/thumbs/1.jpg" data-src="http://openwetware.org/images/thumb/c/ce/IGEM2006worldmap.gif/800px-IGEM2006worldmap.gif">
-             <div class="camera_caption fadeFromBottom">Reverse Engineering<em>Reverse Engineering is the process of discovering the inner technological or scientific principles of a device, object or system. Synthetic biology is a combination of biology and engineering, and with the engineering process gets more and more complicated, often it is impossible to easily understand the inside, which is the biological part of the system. Reverse engineering serves perfectly for the purpose to bring back the biological essence. </em>             </div>
-        </div>
-     <div data-thumb="pictures/slides/thumbs/2.jpg" data-src="https://static.igem.org/mediawiki/2011/7/71/BAC2andplasmid.png">
-            <div class="camera_caption fadeFromBottom">Genetic Regulatory Networks<em>Genetic Regulatory Network(GRN) has been a major subject in recent researches of synthetic biology, and the modulation of a GRN gives rise to a variety of exciting works among iGEM programs as well as softwares assisting synthetic biology researches. Traditionally, researches of GRNs have been focused on either connecting GRNs with real parts in the registry or with experimental data. Therefore, we want to completely connect these three factors.</em>             </div>
-        </div>
-    <div data-thumb="pictures/slides/thumbs/3.jpg" data-src="pictures/slides/3.jpg">
-            <div class="camera_caption fadeFromBottom">All-in-one Software<em>In order to fully combine biological networks, experimental data and mathematical models, we build a suite of applications that serves to solve different tasks and make them work seamlessly together. With the all-in-one software suite, you can display experimental data, extract mathematical models, understand the genetic regulatory networks and get a well-designed report of the results. We designed the user interfaces to be fun to interact with and easy to use.</em>            </div>
-        </div>
-    <div data-thumb="pictures/slides/thumbs/4.jpg" data-src="pictures/slides/4.jpg">
-            <div class="camera_caption fadeFromBottom">Machine Learning<em>Machine learning is a branch of artificial intelligence that is widely used in many disciplines such as software engineering, computer vision, finance, Neuroscience and bioinformatics. During reverse engineering, we use many machine learning techniques and algorithms to help optimize the process so that the process is faster and more accurate.</em>            </div>
-        </div>
-     <div data-thumb="pictures/slides/thumbs/5.jpg" data-src="pictures/slides/5.jpg">
-            <div class="camera_caption fadeFromBottom">Report<em>Report organizes all output information in folders. You can review the simulation result while looking at the behaviors of certain genes or proteins. In addition, Report creates a web page where you can review the results on the go.</em>            </div>
-       </div>
-    </div>
 </div>
+<div id="cyan">
+	<div class="right">
+		<h2><span class="head">Software</span></h2>
+		<p align="justify"><span style="font-family:Arial, Helvetica, sans-serif;">gNAP, gene network analyze and predict, is our main software which could analyze the input gene’s effects forward and reversely. gFinder, gene finder, is a website software which could find a specific gene in a database by gene’s function of regulation. gRNA, gene regulatory network analysts, is a small game which could improve the children’s ability of network analysis.<br/></span></p>
+<a href="https://2013.igem.org/Team:USTC-Software/Project/Software" class="more"></a>
+		</div>
+  <div class="left">
+<img src="https://static.igem.org/mediawiki/2013/6/6e/USTC_Software_Software.png" />
+	</div>
+</div>
+<div id="blue">
+<div class="right">
+<h2>Methodologies</h2>
+<p align="justify">In order to simulate the GRN’s working and analyze the changing after exogenous gene imported, some advanced algorithms and classical methods are employed in the software. These algorithms and methods include Binary Tree method, Needle-Wunsch Algorithm, Decision Tree method, Hill Equation and PSO Algorithm.</p>
+<a href="https://2013.igem.org/Team:USTC-Software/Project/Method" class="more"></a>
+               </div>
+<div class="left">
+<img src="https://static.igem.org/mediawiki/2013/d/d7/USTC_Software_Method.png" />
+</div>
+</div>
+<div id="purple">
+	<div class="right">
+		<h2><span class="head">Communication</span></h2>
+		<p align="justify">Our team hope to create a better community for iGEM software, so we <a href="https://2013.igem.org/Team:USTC-Software/collaboration" id="homelink">collaborate</a> with other teams. Open source on github with detailed <a href="https://2013.igem.org/Team:USTC-Software/Project/Develop" id="homelink">API</a> of our source code make our software’s development more easy and convenient. What’s more, to <a href="https://2013.igem.org/Team:USTC-Software/Human_practice" id="homelink">popularize</a> iGEM in our campus, we also give “Hi” from iGEM to all the students and teachers and give their “Hello” back.</p>
+<a href="https://2013.igem.org/Team:USTC-Software/Human_practice" class="more"></a>
+	</div>
+  <div class="left">
+<img src="https://static.igem.org/mediawiki/2013/c/c0/USTC_Software_Humanpractice.png"/>
+	</div>
+</div>
+    <div id="sponsors">
+    <div style="margin-left:100px;">
+    <h2>Sponsors</h2>
+    <div class="img" id="img">
+    <div class='mask1'></div>
+    <a href="http://china.db.com/index_e.html"><img src='https://static.igem.org/mediawiki/2012/f/fc/USTC-Software-images-db-logo.png' /></a>
+    </div>
+  <div class='img' id='img'>
+    <div class='mask2'></div>
+    <a href="http://www.ustcif.org/default.php"><img src='https://static.igem.org/mediawiki/2012/d/d9/USTC-Software-images-ustcif-logo.png' /></a>
+    </div>
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+    <a href="http://en.physics.ustc.edu.cn//"><img src='https://static.igem.org/mediawiki/2012/f/f5/USTC-Software-images-physics-logo.png' /></a>
+  </div>
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+    <div class='mask5'></div>
+    <a href="http://en.biox.ustc.edu.cn/"><img src='https://static.igem.org/mediawiki/2012/2/27/USTC-Software-images-life-logo.png' /></a>
+  </div>
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