Team:St Andrews

From 2010.igem.org

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<td width="40%"> Comprised of 9 undergradutes, guided by 5 advisors, we stem from a variety of different scientific fields. <a href="https://2010.igem.org/Team:St Andrews/team/members"> Meet our Team</a> and <a href="https://2010.igem.org/Team:St Andrews/advisors">our advisors!</a></td>
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<td width="40%"> Comprised of 9 undergradutes, guided by 5 advisors, our team stems from a variety of different scientific fields. <a href="https://2010.igem.org/Team:St Andrews/team/members"> Meet our Team</a> and <a href="https://2010.igem.org/Team:St Andrews/advisors">our advisors!</a></td>
<td>Cholera is a disease that affects 5 million people worldwide each year. It can kill within hours if left untreated. Our project involves investigating the basic science behind a potential means of preventing cholera's devestating consequences <a href="https://2010.igem.org/Team:St Andrews/project/objectives"> Find out more about our project. </a></td>
<td>Cholera is a disease that affects 5 million people worldwide each year. It can kill within hours if left untreated. Our project involves investigating the basic science behind a potential means of preventing cholera's devestating consequences <a href="https://2010.igem.org/Team:St Andrews/project/objectives"> Find out more about our project. </a></td>

Revision as of 00:30, 7 September 2010


St Andrews from East Sands

University of St Andrews iGEM 2010

Welcome!

The Saints

University of St Andrews iGEM 2010

Our first year at iGEM!

University of St Andrews 2010 iGEM Team

Welcome to the the University of St Andrews iGEM 2010 Team Website. We are the first University of St Andrews iGEM Team. This page is constantly changing, check back for more soon!

Comprised of 9 undergradutes, guided by 5 advisors, our team stems from a variety of different scientific fields. Meet our Team and our advisors! Cholera is a disease that affects 5 million people worldwide each year. It can kill within hours if left untreated. Our project involves investigating the basic science behind a potential means of preventing cholera's devestating consequences Find out more about our project. We are most grateful to all our sponsors, whose generosity has enabled us to carry out our research. For a list of our sponsors, please visit here
To better understand the inner workings of the Cholera quorum sensing system we produced a series of computational models to simulate the operation of Cholera. Based upon differential equations and solved computationally via the runge kutta method our models provide a comprehensive view of Cholera quorum sensing and bi-stable switching behaviour. To find out how we designed our models from the blackboard to the CPU check out our modelling pages . For more details on our Biology Team's work, please see wet lab section Human practices shapes the future and the very being of all science. The purpose, effects and impact of science are set to change mankind's experience in a big way. To find out about the ethical and social issues we considered and how we see the future of synthetic biology and iGEM vist our human practices page .