Difference between revisions of "Team:Shanghaitech"

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<br>

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<br>

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~~<br><br>~~

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<head>

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~~<br>~~

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~~<h3 align=~~"~~left~~" ~~style="color~~:~~blue~~;"~~>Project Description<~~/~~h1>~~

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#home-button{height: 210px;width: 225px;left: 50%; margin-bottom: 30px;

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display: inline-block; position: relative; left: 50%; transform: translateX(-50%);}

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#home-button #home-button-bg{

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background: url("https://static.igem.org/mediawiki/2017/5/5f/T--Shanghaitech--Home-Homepage-botton-thick.png") no-repeat 50% 50%/contain;

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width: 336.75px;height: 199.5px;position: absolute;display:block;

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}

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#home-button:hover #home-button-bg{

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background: url("https://static.igem.org/mediawiki/2017/7/7e/T--Shanghaitech--Home-Homepage-button-flat.png") no-repeat 50% 50%/contain;height: 295.5px;width: 424.5px;position: absolute;left: -94.5px;top: -69px;

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}

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~~Our bacteria is engineered to act as chemical wires with the capability of processing signals and linking sophisticated genetic circuits~~. ~~The core concept of our project is modularization, realizing intercellular communication by applying quorum~~-~~sensing systems rather than building the whole genetic circuit in~~ a ~~single cell~~. ~~Through our effort, the complexity of product genetic circuits can be extended~~.<br><br>

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</style>

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</head>

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<body>

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<a href="https://2017.igem.org/Team:Shanghaitech/Awards" style="

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color: #607D6F;

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display: block;

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max-width: 600px;

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margin: 0 auto;

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"><h1 style="

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">奖项及致谢(Click me to see our awards and our special thanks)</h1></a>

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Moreover, we highlight the efficiency of the 'chemical wires'. By well-designed Microflow system, enabling the filtration and dilution, we aim at ameliorate the orthogonality problem caused by the homology of QS systems.<~~br><br~~>

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~~<div align="center">~~

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<img src="https://static.igem.org/mediawiki/2017/d/d0/~~Shanghaitech_laboratory_1~~.~~jpg~~" ~~width=300 height=200></img>~~

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~~</div>~~

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~~<br><br>~~

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~~<div align~~="~~center~~">

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~~<img src~~="~~https~~:~~//static.igem.org/mediawiki/2017/d/d1/Laboratory_1.jpeg~~" width=~~300 height=200><~~/~~img~~>

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</div>

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</p>

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</div></div>

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</body>

</html>

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-{{Shanghaitech}}
+{{Shanghaitech/custom}}
-<html class="no-js" lang="en">
+{{Shanghaitech/css}}
-<br>
+{{Shanghaitech/js}}
-<br>
+<html lang="en">
-<br><br>
+<head>
-<br>
+<style type="text/css">
-<h3 align="left" style="color:blue;">Project Description</h1>
+    #home-button{height: 210px;width: 225px;left: 50%;    margin-bottom: 30px;
+                display: inline-block;    position: relative;    left: 50%;    transform: translateX(-50%);}
+    #home-button #home-button-bg{
+        background: url("https://static.igem.org/mediawiki/2017/5/5f/T--Shanghaitech--Home-Homepage-botton-thick.png") no-repeat 50% 50%/contain;
+        width: 336.75px;height: 199.5px;position: absolute;display:block;
+    }
+    #home-button:hover #home-button-bg{
+        background: url("https://static.igem.org/mediawiki/2017/7/7e/T--Shanghaitech--Home-Homepage-button-flat.png") no-repeat 50% 50%/contain;height: 295.5px;width: 424.5px;position: absolute;left: -94.5px;top: -69px;
+    }
-Our bacteria is engineered to act as chemical wires with the capability of processing signals and linking sophisticated genetic circuits. The core concept of our project is modularization, realizing intercellular communication by applying quorum-sensing systems rather than building the whole genetic circuit in a single cell. Through our effort, the complexity of product genetic circuits can be extended.<br><br>
+</style>
+</head>
+<body>
+<img src="https://static.igem.org/mediawiki/2017/7/7e/T--Shanghaitech--Home-Homepage-button-flat.png" style="display:none"/>
+<div id="main-content-wrapper" style="max-width:none;">
+<div id="content-block" style="max-width:none;padding:0px">
+<a href="https://2017.igem.org/Team:Shanghaitech/Awards" style="
+    color: #607D6F;
+    display: block;
+    max-width: 600px;
+    margin: 0 auto;
+"><h1 style="
+">奖项及致谢(Click me to see our awards and our special thanks)</h1></a>
-Moreover, we highlight the efficiency of the 'chemical wires'. By well-designed Microflow system, enabling the filtration and dilution, we aim at ameliorate the orthogonality problem caused by the homology of QS systems.<br><br>
+<div id="home-story-wrapper" style="position:relative;">
-<div align="center">
+    <img src="https://static.igem.org/mediawiki/2017/0/0b/T--Shanghaitech--Home-Homepage-story.png" alt="homepage-story" style="width:100%;height:auto;max-height:none" height=3000 width=2388/>
-<img src="https://static.igem.org/mediawiki/2017/d/d0/Shanghaitech_laboratory_1.jpg" width=300 height=200></img>
-</div>
-<br><br>
-<div align="center">
-<img src="https://static.igem.org/mediawiki/2017/d/d1/Laboratory_1.jpeg" width=300 height=200></img>
 </div>
+<a href="https://2017.igem.org/Team:Shanghaitech/project" id="home-button"><span id="home-button-bg"></span></a>
+<p style="text-align: center"><video height="600" src="https://static.igem.org/mediawiki/2017/1/10/T--Shanghaitech--Hardware--Project.mp4" controls style="max-width:100%" poster="https://static.igem.org/mediawiki/2017/thumb/e/e6/T--Shanghaitech--works363636hop1.jpg/800px-T--Shanghaitech--works363636hop1.jpg"></video>
+</p>
+</div></div>
+</body>
 </html>