Difference between revisions of "Team:Pretoria UP"

 
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#animation
 
#animation
 
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{
 
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padding-top:140px;
top:0px;
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padding-left:5%;
 
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}
  
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   background: black;
 
   background: black;
 
}
 
}
#description
 
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color:blue;
 
  top: 4.7em;
 
  
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</style>
 
</style>
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window.onload = function() {
 
window.onload = function() {
 
performMenuHiding();
 
performMenuHiding();
$('#animation').css({marginTop: '+=220px'});
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$('#animation').css({marginTop: '+=150px'});
  
$('#bannerHolder').css({marginTop: '-=60px'});
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//$('#bannerHolder').css({marginTop: '-=130px'});
  
  
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<body>
 
<body>
 
<div class="wtf_div">
 
<div class="wtf_div">
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<div align="center" id ="bannerHolder" >
  
<div align="center" id ="bannerHolder" style="clear:both;">
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<img id="Banner" alt="Banner By Natascha Muller" src="/wiki/images/0/03/Banner_Pretoria_UP.png" style="width:30%; padding-top:7.5%;"/>
  
<div id="bannerSpace">
 
<img id="Banner" alt="Banner By Natascha Muller" src="/wiki/images/0/03/Banner_Pretoria_UP.png" style="width:30%"/>
 
</div>
 
  
<br><br><br>
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<!--<h4 id="description">SYNCHRONIZED, CONDITIONAL, GENETIC CHEMOTAXIS PROGRAMMING</h4>-->
<h4 id="description">SYNCHRONIZED, CONDITIONAL, GENETIC CHEMOTAXIS PROGRAMMING</h4>
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                <h2 id="description"> Synchronized, Conditional, Genetic Chemotaxis Programming  </h2>
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</div>
 
</div>
  
  
<div align="center" style="width:90%;height:780px;">
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<div align="center" style="width:90%;height:840px;">
<br>
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<img id="animation" alt="Animation by Schae Ind" src="/wiki/images/1/15/Up_animation.gif"/>
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<img id="animation" alt="Animation by Schae Ind" src="/wiki/images/1/15/Up_animation.gif" />
  
  
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<p>  
 
<p>  
  The Pretoria UP iGEM team of 2015 have proposed a designed for intelligent motile bacteria based on a combination of DNA modules that confer different functions. The synchronous behaviour of the bacteria will be achieved through a quorum sensing module allowing the population to behave as a swarm instead of disparate units. A conditional response to an environmental signal is conferred through a post transcriptional control technique known as riboswitching, thus the bacterial swarm may recognise and respond to theophylline in an environment. Since the system makes use of several modular component, an AND gate is required to process the various signals which in turn would trigger a irreversible change in the bacterial chemotaxis. The irreversible change in behaviours is programmed by a DNA recombination switch which inverts the directionality of a promoter through the Cre-loxP pathway. We invite you to explore the various aspects of the on this site.
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  The Pretoria UP iGEM team of 2015 have proposed a design for intelligent motile bacteria based on a combination of DNA modules that confer different functions. The synchronous behaviour of the bacteria will be achieved through a quorum sensing module allowing the population to behave as a swarm instead of independent units. A conditional response to an environmental signal is conferred through a post transcriptional control mechanism known as riboswitching, thus the bacterial swarm may recognise and respond to a chemical attractant. Since the system makes use of several modular components, an AND gate is required to process the various signals which in turn would trigger a genetic switch in the bacterial chemotaxis. The irreversible change is programmed by a DNA recombination switch which inverts the directionality of a promoter through the Cre-loxP pathway. We invite you to explore the various aspects of the project on this site.
 
</p>
 
</p>
  

Latest revision as of 22:00, 18 September 2015

Synchronized, Conditional, Genetic Chemotaxis Programming

Animation by Schae Ind

Project Description

The Pretoria UP iGEM team of 2015 have proposed a design for intelligent motile bacteria based on a combination of DNA modules that confer different functions. The synchronous behaviour of the bacteria will be achieved through a quorum sensing module allowing the population to behave as a swarm instead of independent units. A conditional response to an environmental signal is conferred through a post transcriptional control mechanism known as riboswitching, thus the bacterial swarm may recognise and respond to a chemical attractant. Since the system makes use of several modular components, an AND gate is required to process the various signals which in turn would trigger a genetic switch in the bacterial chemotaxis. The irreversible change is programmed by a DNA recombination switch which inverts the directionality of a promoter through the Cre-loxP pathway. We invite you to explore the various aspects of the project on this site.