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- | __NOTOC__<html lang="en">
| + | {{Aquila}} |
- | | + | |
- | <head>
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- | <!-- wiki hacks -->
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- | <style type="text/css">
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- | #globalwrapper {
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- | width:975px;
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- | padding:20px 0px;
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- | margin: 0 auto;
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- | background-color:#ffffff;
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- | height:100%;
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- | }
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- | .firstHeading {
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- | height:0px;
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- | visibility:hidden;
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- | } | + | |
- | body {
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- | background: #E8E8E8;
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- | background-image: url('https://static.igem.org/mediawiki/2011/b/be/Background-gradient.jpg');
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- | background-position: center;
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- | background-repeat: repeat-y;
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- | }
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- | #p-logo {
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- | height:1px; overflow:hidden; display: none;
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- | }
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- | #top-section {
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- |
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- | background-image: url('http://img828.imageshack.us/img828/549/igemheader.jpg');
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- | background-position: top;
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- | height:200px ;
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- | background-repeat: no-repeat;
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- | border-width:0px;
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- | border-top-width:1px;
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- | }
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- | #content {
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- | border-left-width:0px;
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- | border-right-width:0px;
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- | padding:5px;
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- | width:965px;
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- | }
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- | #menubar {
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- | background-color: white;
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- | }
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- | #menubar ul li a {
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- | color: #999999; }
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- | .right-menu li a {
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- | color: black;
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- | background-color: white;
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- | }
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- | | + | |
- | #navbar
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- | ul.navbar {
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- | float:left;
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- | width:100%;
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- | padding:0;
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- | margin:0;
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- | list-style-type:none;
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- | }
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- | ul.navbar a {
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- | float:left;
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- | text-align:center;
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- | width:7em;
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- | text-decoration:none;
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- | color:white;
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- | background-color:#1A2B32;
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- | padding:0.2em 0.6em;
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- | border-right:1px solid white;
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- | }
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- | ul.navbar a:hover {background-color:#A3ABAE;}
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- | ul.navbar li {display:inline;}
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- | #long {
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- | width:10em;
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- | }
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- | .navbar {
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- | padding:0 20px;
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- | }
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- | </style>
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- | </head>
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- | | + | |
- | <body>
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- | | + | |
- | | + | |
- | <!--navigation menu-->
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- | <ul class="navbar">
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- | <li><a href="https://2012hs.igem.org/Team:Sharon_MA_Aquila">HOME</a></li>
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- | <li><a href="https://2011.igem.org/Team:MIT/Project/">PROJECT</a></li>
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- | <li><a href="https://2011.igem.org/Team:MIT/Results/">DATA</a></li>
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- | <li><a href="https://2011.igem.org/Team:MIT/Notebook/">NOTEBOOK</a></li>
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- | <li><a href="https://2011.igem.org/Team:MIT/Tools/">MODEL</a></li>
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- | <li><a href="https://2011.igem.org/Team:MIT/Partners/">PARTNERS</a></li>
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- | <li><a href="https://2011.igem.org/Team:MIT/Team/Undergraduates">TEAM</a></li>
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- | <li><a id="long" href="https://2011.igem.org/Team:MIT/HumanPractices/">HUMAN PRACTICES</a></li>
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- | </ul>
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- | | + | |
- | </body>
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- | </html>
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- | | + | |
- | <html lang="en">
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- | <head>
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- | <style type="text/css">
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- | | + | |
- | a {
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- | color: #991133;
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- | text-decoration: none;
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- | }
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- | a:hover {
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- | text-decoration: underline;
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- | }
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- | | + | |
- | #minimalist {
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- | font-family:"Lucida Sans Unicode", "Lucida Grande", Sans-Serif;
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- | font-size:9px;
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- | width: 100%;
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- | background:#fff;
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- | border-collapse:collapse;
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- | text-align:left;
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- | margin:20px;
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- | }
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- | | + | |
- | #minimalist th {
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- | font-size:10px;
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- | font-weight:normal;
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- | color:#039;
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- | border-bottom:2px solid #6678b1;
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- | padding:10px 8px;
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- | }
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- | | + | |
- | #minimalist td {
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- | color:#669;
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- | padding:9px 8px 0;
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- | }
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- | | + | |
- | .clear {
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- | clear:both;
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- | }
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- | | + | |
- | #col_left{
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- | float: left;
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- | width: 576px;
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- | padding: 30px 0px;
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- | margin:0;
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- | }
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- | #col_right{
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- | float: right;
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- | width: 242px;
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- | padding: 30px 28px 30px 15px;
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- | margin:0;
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- | }
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- | #col_center{
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- | float: center;
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- | width: 576;
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- | padding: 30px 100px;
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- | margin:0;
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- | }
| + | |
- | #col_nav{
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- | float: left;
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- | width: 200px;
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- | padding: 30px 15px 30px 50px;
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- | margin:0;
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- | }
| + | |
- | #block-content{
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- | padding-bottom: 15px;
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- | clear:both;
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- | }
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- | | + | |
- | #gold_sponsors{
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- | float: left;
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- | width: 197px;
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- | margin-right: 17px;
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- | display: inline;
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- | }
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- | #gold_sponsors h3{
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- | color: #FFBE30;
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- | text-align:center;
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- | }
| + | |
- | #gold_sponsors ul{
| + | |
- | background-color: #FFF1C4;
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- | }
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- | #partners{
| + | |
- | float: left;
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- | width: 175px;
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- | margin-right: 17px;
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- | display: inline;
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- | }
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- | #partners h3{
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- | text-align:center;
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- | }
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- | #contributing_departments{
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- | float: left;
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- | width: 170px;
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- | display: inline;
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- | }
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- | #contributing_departments h3{
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- | text-align:center;
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- | }
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- | #partners ul, #contributing_departments ul, #gold_sponsors ul{
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- | list-style-type:none;
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- | list-style-image:none;
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- | margin-left:0px;
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- | }
| + | |
- | #partners li, #contributing_departments li, #gold_sponsors li{
| + | |
- | margin-left: 0px;
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- | }
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- | #partners img, #contributing_departments img, #gold_sponsors img{
| + | |
- | border: 1px solid #ccc;
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- | }
| + | |
- | h3{
| + | |
- | padding: 30px 0 20px 0;
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- | font-family: "Lucida Sans Unicode", "Lucida Grande", Sans-Serif;
| + | |
- | font-size: 18px;
| + | |
- | font-weight: normal;
| + | |
- | }
| + | |
- | | + | |
- | #center{
| + | |
- | float:left;
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- | padding-bottom: 35px;
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- | margin-bottom:10px;
| + | |
- | border-top: 1px dotted #999;
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- | border-bottom: 1px dotted #999;
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- | clear:both;
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- | padding-left: 50px;
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- | padding-right: 50px;
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- | }
| + | |
- | #quote{
| + | |
- | float:left;
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- | padding: 0 25px 25px 25px;
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- | font-family: Georgia, "Times New Roman", Times, serif;
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- | font-size: 17px;
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- | font-style: italic;
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- | letter-spacing: 2px;
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- | color: #333;
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- | }
| + | |
- | #quote p{
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- | line-height: 22px;
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- | }
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- | #quote p.testimonial{
| + | |
- | font-size: 12px;
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- | font-family: Arial, Helvetica, sans-serif;
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- | font-style: normal;
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- | color: #000;
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- | margin-left:15px;
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- |
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- | }
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- | #quote .quote{
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- | font-size: 26px;
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- | }
| + | |
- | #contacts h2{
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- | margin-top: 20px;
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- | }
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- | .col_list ul{
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- | list-style-type:none;
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- | list-style-image:none;
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- | background-image:none;
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- | }
| + | |
- | .col_list li{
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- | background-color:#e1e6e9;
| + | |
- | padding: 5px 15px;
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- | }
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- | | + | |
- | .col_list_team ul{
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- | list-style-type:none;
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- | list-style-image:none;
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- | background-image:none;
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- | }
| + | |
- | .col_list_team li{
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- | background-color:#e1e6e9;
| + | |
- | }
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- | | + | |
- | | + | |
- | | + | |
- | /* TEAM PAGE */
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- | | + | |
- | | + | |
- | .bio {
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- | clear:both;
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- | padding-bottom: 20px;
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- | border-bottom: 1px solid #ccc;
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- | }
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- | .bio img {
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- | float:left;
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- | margin-right: 10px;
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- | }
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- | | + | |
- | #videoiframe {
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- | overflow: hidden;
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- | margin-top: 20px;
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- | }
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- | | + | |
- | #accordion .ui-accordion-content { padding: 0px 0px 0px 0px; }
| + | |
- | | + | |
- | </style>
| + | |
- | </head>
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- | </html>
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- | | + | |
- | ===Team===
| + | |
- | We are a group of students from Sharon High School in Sharon, Massachusetts. Our two mentors, Mr. Snow and Mr. Dixon, are biology teachers at our school.
| + | |
- | | + | |
- | These are our team members:
| + | |
- | *Hannah Binney
| + | |
- | *Frank Zhou
| + | |
- | *George Rakushkin
| + | |
- | *Rachel Fyler
| + | |
- | *Brahm Gardner
| + | |
- | *Gabby Crosby
| + | |
- | *Nancy Chinnapan
| + | |
- | *Peter Jiang
| + | |
- | | + | |
- | ===Project===
| + | |
| The purpose of our project is to insert antifreeze protein (AFP) into yogurt cultures. Milk is converted to yogurt using ''Lactobacillus delbrueckii'' subsp. ''bulgaricus'' and ''Streptococcus salivarius'' subsp. ''thermophilus'' bacteria. These cultures ferment the lactose sugar present in the milk and convert it to lactic acid, which gives yogurt its distinctive taste and texture. | | The purpose of our project is to insert antifreeze protein (AFP) into yogurt cultures. Milk is converted to yogurt using ''Lactobacillus delbrueckii'' subsp. ''bulgaricus'' and ''Streptococcus salivarius'' subsp. ''thermophilus'' bacteria. These cultures ferment the lactose sugar present in the milk and convert it to lactic acid, which gives yogurt its distinctive taste and texture. |
| | | |
- | AFP is a protein produced by plants, fungi, bacteria, and some vertebrates to prevent the formation of dangerous ice crystals at subzero temperatures. AFP is about 300 times more effective than industrially produced antifreezes at the same concentration, so they have many possible commercial applications, including cryosurgery, hypothermia treatment, and farm fish production. Some companies have also started isolating AFPs from fish and introducing them into milk and yogurt products. The protein could help prevent freezer burn and improve the texture of the yogurt (frozen or otherwise). | + | AFP is a protein produced by plants, fungi, bacteria, and some vertebrates to prevent the formation of dangerous ice crystals at subzero temperatures. AFP is about 300 times more effective than industrially produced antifreezes at the same concentration, so it have many possible commercial applications, including cryosurgery, hypothermia treatment, and farm fish production. Some companies have also started isolating AFPs from fish and introducing them into milk and yogurt products. The protein could help prevent freezer burn and improve the texture of the yogurt (frozen or otherwise). |
| | | |
| Our project will instead introduce the AFP-producing gene directly into the ''Lactobacillus bulgaricus'' bacteria, so that it is constantly produced as the bacteria metabolizes lactose. Hooking up production of the protein to the lactose sensor already present in the bacteria would allow continuous production of the protein. Since transplantation of a small quantity of yogurt cultures can be used to produce another batch of yogurt, our altered bacteria would easily be able to replicate and produce AFP in new batches. | | Our project will instead introduce the AFP-producing gene directly into the ''Lactobacillus bulgaricus'' bacteria, so that it is constantly produced as the bacteria metabolizes lactose. Hooking up production of the protein to the lactose sensor already present in the bacteria would allow continuous production of the protein. Since transplantation of a small quantity of yogurt cultures can be used to produce another batch of yogurt, our altered bacteria would easily be able to replicate and produce AFP in new batches. |
| + | <forum_subtle /> |
| | | |
- | ===Notebook===
| |
- | '''March 13:''' After looking through old iGEM projects for inspiration, we stumbled upon a [https://2011.igem.org/Team:KULeuven/Description project] dealing with antifreeze protein (AFP) production. We began brainstorming possible applications of this protein, which prevents ice crystal formation in certain fish, plants, fungi, and bacteria. We discussed using AFP on roads, but after researching activation methods for road-thawing bacteria, we determined that we would have to introduce another material (arabinose, lactose, etc.) in order for our bacteria to begin producing the protein. Briefly, we researched cold activation methods, before determining that these methods were generally difficult to implement and only operational at temperatures above zero - not to mention that bacteria are usually nonfunctional below freezing.
| |
- | <br><br>
| |
- | '''March 20:''' After some discussion with Mr. Dixon and among the group members, we decided to take an idea from the [https://2008.igem.org/Team:MIT 2008 MIT iGEM team], who created teeth-cleaning bacteria by transforming the bacteria used for yogurt cultures. We decided it might be a good idea to introduce the AFP gene into one of the yogurt bacteria, which would already be present in the food we were trying to affect. We additionally decided that the gene should be activated by lactose, because it was already present in the yogurt and because the bacteria already reacted to it to produce lactic acid.
| |
- | <br>
| |
- | After researching the two bacteria present in yogurt cultures, ''Lactobacillus delbrueckii'' subsp. ''bulgaricus'' and ''Streptococcus salivarius'' subsp. ''thermophilus'', we determined that the former is more suitable for our experiment, because it generally remains in the yogurt following yogurt production - and because the MIT team wiki had detailed [https://2008.igem.org/Team:MIT/Experiments protocols] regarding transformation of ''Lactobacillus bulgaricus'' bacteria.
| |
| | | |
- | ===Results/Conclusions=== | + | <!------------------------SOCIAL MEDIA DIV--------------------------------------------------------------------> |
- | What did you achieve over the course of your semester?
| + | <html> |
- | | + | <div style="margin-top: 10px; text-align: center; margin-left: 175px;background-color: transparent;"> |
- | | + | <g:plusone size="medium"></g:plusone> |
- | ===Safety=== | + | <script type="text/javascript"> |
- | What safety precautions did your team take? Did you take a safety training course? Were you supervised at all times in the lab?
| + | (function() { |
- | | + | var po = document.createElement('script'); po.type = 'text/javascript'; po.async = true; |
- | | + | po.src = 'https://apis.google.com/js/plusone.js'; |
- | ===Attributions=== | + | var s = document.getElementsByTagName('script')[0]; s.parentNode.insertBefore(po, s); |
- | '''Wiki:''' Hannah Binney, Frank Zhou | + | })(); |
- | <br> | + | </script> |
- | '''Fundraising:''' Rachel Fyler
| + | </div> |
- | | + | </html> |
- | ===Human Practices===
| + | |
- | What impact does/will your project have on the public?
| + | |
- | | + | |
- | | + | |
- | ===Fun!===
| + | |
- | What was your favorite team snack?? Have a picture of your team mascot?
| + | |
- | | + | |
- | | + | |
- | | + | |
- | <forum_subtle /> | + | |
The purpose of our project is to insert antifreeze protein (AFP) into yogurt cultures. Milk is converted to yogurt using Lactobacillus delbrueckii subsp. bulgaricus and Streptococcus salivarius subsp. thermophilus bacteria. These cultures ferment the lactose sugar present in the milk and convert it to lactic acid, which gives yogurt its distinctive taste and texture.
AFP is a protein produced by plants, fungi, bacteria, and some vertebrates to prevent the formation of dangerous ice crystals at subzero temperatures. AFP is about 300 times more effective than industrially produced antifreezes at the same concentration, so it have many possible commercial applications, including cryosurgery, hypothermia treatment, and farm fish production. Some companies have also started isolating AFPs from fish and introducing them into milk and yogurt products. The protein could help prevent freezer burn and improve the texture of the yogurt (frozen or otherwise).
Our project will instead introduce the AFP-producing gene directly into the Lactobacillus bulgaricus bacteria, so that it is constantly produced as the bacteria metabolizes lactose. Hooking up production of the protein to the lactose sensor already present in the bacteria would allow continuous production of the protein. Since transplantation of a small quantity of yogurt cultures can be used to produce another batch of yogurt, our altered bacteria would easily be able to replicate and produce AFP in new batches.
<forum_subtle />