Team:NRP-UEA-Norwich

From 2012.igem.org

(Difference between revisions)
(The NRP UEA iGEM Team 2012)
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[[File:FinalDraftPurple.png|right|300px|The NRP-UEA iGEM2012 Logo]]
[[File:FinalDraftPurple.png|right|300px|The NRP-UEA iGEM2012 Logo]]
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The iGEM 2012 team for the Norwich Research Park and University of East Anglia (NRP UEA) are a group of seven biology-based undergraduate students working in the labs within UEA’s BIO building. We have been looking at the role of nitric oxide (NO) in biological systems and are aiming to produce a BioBrick that can sense NO within an environment, report on the levels, and go on to make relevant and desirable changes.  
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The iGEM 2012 team for the Norwich Research Park and University of East Anglia (NRP UEA) are a group of seven biology-based undergraduate students working in the labs within UEA’s BIO building. Based in the schools teaching laboratories, they are the second iGEM team that the NRP has produced and truly relish the opportunity to compete in a competition that has placed itself in such an innovative and exciting field of biology.  
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Possible applications we see for this include; cancer therapeutics, where NO levels are detected and raised above the level at which it aids angiogenesis and into the levels at which it is toxic to a tumour; and environmental aspects, where the bio-sensor may be attached to bioluminescence in order to report levels of NO in soil for instance.
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The NRP is one of Europe's largest concentrations of researchers in the life sciences and the environment, the UEA being a core constituent of the park. Known for its abundance of rabbits, its Ziggurats (as seen in various album covers) and its world-leading research. Despite having a olympic sized swimming pool on campus, the team prefer taking leisurely swimming in the river Yare that flows through our campus, a site of special scientific interest. It is frequented by cuckoos, sedge warblers, great crested grebes and, if your lucky, you will see the odd flock of students too!
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Our first BioBrick will be a hybrid bacterial and mammalian promoter (using PyeaR and NS2E9 elements) which will detect NO levels. We aim to use a chassis of ''Escherichia coli'' in order to test our BioBrick before investigating its competency within a mammalian cell chassis for future applications within a medical system. We also aim to characterise BioBricks produced by previous iGEM teams, especially those involved with sensing physiologically-relevant molecules and reporting with fluorescence or bioluminescence.
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The iGEM team really are spoiled by both the natural beauty of their surroundings and the teaching excellence. Despite only having two main official academic advisers, practically everyone in the UEA School of Biology has very kindly imparted some of their wisdom to the student participance, as well as members of the John Innes Centre and the rest of the NRP, making the project a real representation of UEAs best and brightest!
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We have also looked at various aspects of human outreach and plan to undertake a programme of Synthetic Biology public awareness as well as employing various methods to make our project accessible to those interested outside of the team.
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<br>
<br>
= '''Our project''' =
= '''Our project''' =
 +
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We have been looking at the role of nitric oxide (NO) in biological systems and are aiming to produce a BioBrick that can sense NO within an environment, report on the levels, and go on to make relevant and desirable changes.
 +
 +
Possible applications we see for this include; cancer therapeutics, where NO levels are detected and raised above the level at which it aids angiogenesis and into the levels at which it is toxic to a tumour; and environmental aspects, where the bio-sensor may be attached to bioluminescence in order to report levels of NO in soil for instance.
 +
 +
Our first BioBrick will be a hybrid bacterial and mammalian promoter (using PyeaR and NS2E9 elements) which will detect NO levels. We aim to use a chassis of ''Escherichia coli'' in order to test our BioBrick before investigating its competency within a mammalian cell chassis for future applications within a medical system. We also aim to characterise BioBricks produced by previous iGEM teams, especially those involved with sensing physiologically-relevant molecules and reporting with fluorescence or bioluminescence.
 +
 +
We have also looked at various aspects of human outreach and plan to undertake a programme of Synthetic Biology public awareness as well as employing various methods to make our project accessible to those interested outside of the team.

Revision as of 13:47, 29 August 2012

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NRP UEA iGEM 2012

 








The UK Team Meetup

On the 19th of August, all 8 other UK Collegiate iGEM teams were kind enough to join us for a 'hangout' at Google Campus for a day of inspiring presentations, which celebrate the innovative ideas that are emerging from these premier Synthetic Biology research groups. Our hangout were broadcasted through Google+ Events and Google Hangouts, all of which can now be viewed on youtube!

Click Here for Programme PDF



The NRP UEA iGEM Team 2012

The NRP-UEA iGEM2012 Logo

The iGEM 2012 team for the Norwich Research Park and University of East Anglia (NRP UEA) are a group of seven biology-based undergraduate students working in the labs within UEA’s BIO building. Based in the schools teaching laboratories, they are the second iGEM team that the NRP has produced and truly relish the opportunity to compete in a competition that has placed itself in such an innovative and exciting field of biology.

The NRP is one of Europe's largest concentrations of researchers in the life sciences and the environment, the UEA being a core constituent of the park. Known for its abundance of rabbits, its Ziggurats (as seen in various album covers) and its world-leading research. Despite having a olympic sized swimming pool on campus, the team prefer taking leisurely swimming in the river Yare that flows through our campus, a site of special scientific interest. It is frequented by cuckoos, sedge warblers, great crested grebes and, if your lucky, you will see the odd flock of students too!

The iGEM team really are spoiled by both the natural beauty of their surroundings and the teaching excellence. Despite only having two main official academic advisers, practically everyone in the UEA School of Biology has very kindly imparted some of their wisdom to the student participance, as well as members of the John Innes Centre and the rest of the NRP, making the project a real representation of UEAs best and brightest!


Our project

We have been looking at the role of nitric oxide (NO) in biological systems and are aiming to produce a BioBrick that can sense NO within an environment, report on the levels, and go on to make relevant and desirable changes.

Possible applications we see for this include; cancer therapeutics, where NO levels are detected and raised above the level at which it aids angiogenesis and into the levels at which it is toxic to a tumour; and environmental aspects, where the bio-sensor may be attached to bioluminescence in order to report levels of NO in soil for instance.

Our first BioBrick will be a hybrid bacterial and mammalian promoter (using PyeaR and NS2E9 elements) which will detect NO levels. We aim to use a chassis of Escherichia coli in order to test our BioBrick before investigating its competency within a mammalian cell chassis for future applications within a medical system. We also aim to characterise BioBricks produced by previous iGEM teams, especially those involved with sensing physiologically-relevant molecules and reporting with fluorescence or bioluminescence.

We have also looked at various aspects of human outreach and plan to undertake a programme of Synthetic Biology public awareness as well as employing various methods to make our project accessible to those interested outside of the team.