Difference between revisions of "Team:Warwick"

m
m
 
(12 intermediate revisions by 2 users not shown)
Line 5: Line 5:
 
<script src="https://ajax.googleapis.com/ajax/libs/jquery/3.3.1/jquery.min.js"></script>
 
<script src="https://ajax.googleapis.com/ajax/libs/jquery/3.3.1/jquery.min.js"></script>
 
 
<script>
+
<script>
 +
 
 +
function goToNotebook(){
 +
    window.location = 'https://2018.igem.org/Team:Warwick/Notebook';
 +
}
 +
 
 
function changeNavBar(navbarSelection){
 
function changeNavBar(navbarSelection){
  
Line 15: Line 20:
  
 
case 0:
 
case 0:
bottnav.innerHTML = "<li onclick='goToDescription()'><span>Project Description</span></li><li onclick='goToDesign()'><span>Design</span></li><li onclick='goToModel()'><span>Modelling</span></li><li onclick='goToResults()'><span>Results</span></li>";
+
bottnav.innerHTML = "<li onclick='goToDescription()'><span>Project Description</span></li><li onclick='goToDesign()'><span>Design</span></li><li onclick='goToModel()'><span>Modelling</span></li><li onclick='goToResults()'><span>Results</span></li><li onclick='goToMedals()'><span>Medals</span></li>";
 
bottnav.style.marginLeft = "25%"
 
bottnav.style.marginLeft = "25%"
 
bottnav.style.background = 'linear-gradient(to right, white, #e6fefe)';
 
bottnav.style.background = 'linear-gradient(to right, white, #e6fefe)';
Line 25: Line 30:
 
break;
 
break;
 
case 2:
 
case 2:
bottnav.innerHTML = "<li onclick='goToHumanPractices()'><span>Integrated Human Practices</span></li><li onclick='Outreach()'><span>Public Engagement</span></li>";
+
bottnav.innerHTML = "<li onclick='goToHumanPractices()'><span>Integrated Human Practices</span></li><li onclick='goToOutreach()'><span>Public Engagement</span></li>";
 
bottnav.style.marginLeft = "55%"
 
bottnav.style.marginLeft = "55%"
 
bottnav.style.background = 'linear-gradient(to right, #d8fdfd, #bbf0f3)';
 
bottnav.style.background = 'linear-gradient(to right, #d8fdfd, #bbf0f3)';
Line 101: Line 106:
 
function goHome(){
 
function goHome(){
 
         window.location = "https://2018.igem.org/Team:Warwick";
 
         window.location = "https://2018.igem.org/Team:Warwick";
 +
}
 +
 +
function goToResults(){
 +
        window.location = 'https://2018.igem.org/Team:Warwick/Results';
 +
}
 +
 +
function goToMedals(){
 +
        window.location = 'https://2018.igem.org/Team:Warwick/Medals';
 
}
 
}
  
Line 127: Line 140:
 
     case 0:
 
     case 0:
 
     h3content.html("Biological");
 
     h3content.html("Biological");
     pcontent.html("Riboswitches used to find RNA from legionella allowing quick confirmation of the presence of the live bacteria.");
+
     pcontent.html("Riboswitches used to find RNA from Legionella allowing reliable confirmation of the presence of the live bacteria.");
 
     break;
 
     break;
 
     case 1:
 
     case 1:
 
h3content.html("Organic");
 
h3content.html("Organic");
     pcontent.html("Utilising bacteria, specifically E.coli, to degrade Oestregen from water to help out wildlife.");
+
     pcontent.html("Utilising bacteria, specifically E.coli, to degrade Oestrogen from water to help out wildlife.");
 
     break;
 
     break;
 
     case 2:
 
     case 2:
 
h3content.html("Inorganic");
 
h3content.html("Inorganic");
     pcontent.html("Utilisting the lead absorbing properties of B.subtilis bacteria to collect lead from water and with a newly injected gas vesicle gene to make the bacteria float ot the surface for easy collection.");
+
     pcontent.html("Utilisting the lead absorbing properties of B.subtilis bacteria to collect lead from water and with a newly injected gas vesicle gene to make the bacteria float to the surface for easy collection.");
 
     break;
 
     break;
 
     }
 
     }
Line 216: Line 229:
 
<div class='contentDivs' id='CDiv1'>
 
<div class='contentDivs' id='CDiv1'>
 
<h1>Why water safety?</h1>
 
<h1>Why water safety?</h1>
<p>Access to safe water is among the many crises we face as a growing population.  
+
<p>Access to safe water is among the many crises we face as a growing population. The WHO estimates that 2.1 billion people lack access to safely managed drinking water services (http://www.un.org/en/sections/issues-depth/water/) , and it is estimated that $260B lost globally each year due to lack of basic water. <a href='https://water.org/our-impact/water-crisis/'>source</a><br><br>When we tried to break down this problem, we were overwhelmed by the many different types of contaminants in water, each of which require different approaches to their removal. We decided to look into how to remove on of each in three main sub-categories of contaminants: Biological, Organic and Inorganic.<br><br>Looking into this event, we realised there were many different types of contaminants in water, each of which require different approaches to their removal. We decided to look into how to remove on of each in three main sub-categories of contaminants: Biological, Organic and Inorganic.</p>
The inspiration for our project is rooted in our recognition of one of the most publicised water safety disasters today: The Flint Water Crisis. Flint xxxxxxx
+
Looking into this event, we realised there were many different types of contaminants in water, each of which require different approaches to their removal. We decided to look into how to remove on of each in three main sub-categories of contaminants: Biological, Organic and Inorganic.
+
</p>
+
 
</div>
 
</div>
  
 
<div class='contentDivs' id='CDiv2'>
 
<div class='contentDivs' id='CDiv2'>
 
<h1>Three very different problems: Lead, Legionella and Oestrogen.</h1>
 
<h1>Three very different problems: Lead, Legionella and Oestrogen.</h1>
<p>This is where two of our project ideas were born. Lead and Legionella are two of the famed contaminants of water in flint. Our third focus is Oestrogen because as we looked a little closer to home, and found it was a massive issue specifically in the UK. XXXX
+
<p>We are tackling the bioremediation of waters, focusing on three water pollutants in particular: the organic (oestrogen), inorganic (lead) and biological (legionella). Core concepts of synthetic biology were used create circuits which degrade, remove and detect these pollutants respectively.<br><br>Our projects are ambitious and attempt to solve a wide range of problems that aren’t connected to each other by a unified solution, and that’s not what we are trying to come up with. Each of these areas we have invested in were chosen based on the resources we had as a university in terms of expertise, equipment and experience.</p>
Our projects are ambitious and attempt to solve a wide range of problems that aren’t connected to each other by a unified solution, and that’s not what we are trying to come up with. Each of these areas we have invested in were chosen based on the resources we had as a university in terms of expertise, equipment and experience.
+
</p>
+
 
</div>
 
</div>
 
 
Line 254: Line 262:
 
</h1><br>
 
</h1><br>
 
<p style='font-weight: 300; font-size: 1.5vw; width: 60%; margin: 0 auto'>
 
<p style='font-weight: 300; font-size: 1.5vw; width: 60%; margin: 0 auto'>
Here on the Ripple iGEM team we are dedicating ourselves to making water safe again; not just for the ourselves, but for the surrounding environments and wildlfe too.
+
Here on the Ripple iGEM team we are dedicating ourselves to making water safe again; not just for the ourselves, but for the surrounding environments and wildlife too.
 
</p>
 
</p>
 
<br>
 
<br>

Latest revision as of 02:10, 18 October 2018

Ripple

Ripple




Biological




Organic




Inorganic




Solutions to clean water

Why water safety?

Access to safe water is among the many crises we face as a growing population. The WHO estimates that 2.1 billion people lack access to safely managed drinking water services (http://www.un.org/en/sections/issues-depth/water/) , and it is estimated that $260B lost globally each year due to lack of basic water. source

When we tried to break down this problem, we were overwhelmed by the many different types of contaminants in water, each of which require different approaches to their removal. We decided to look into how to remove on of each in three main sub-categories of contaminants: Biological, Organic and Inorganic.

Looking into this event, we realised there were many different types of contaminants in water, each of which require different approaches to their removal. We decided to look into how to remove on of each in three main sub-categories of contaminants: Biological, Organic and Inorganic.

Three very different problems: Lead, Legionella and Oestrogen.

We are tackling the bioremediation of waters, focusing on three water pollutants in particular: the organic (oestrogen), inorganic (lead) and biological (legionella). Core concepts of synthetic biology were used create circuits which degrade, remove and detect these pollutants respectively.

Our projects are ambitious and attempt to solve a wide range of problems that aren’t connected to each other by a unified solution, and that’s not what we are trying to come up with. Each of these areas we have invested in were chosen based on the resources we had as a university in terms of expertise, equipment and experience.

Click one

Ripple is

Making water safe again, one step at a time


Here on the Ripple iGEM team we are dedicating ourselves to making water safe again; not just for the ourselves, but for the surrounding environments and wildlife too.