Team:NRP-UEA-Norwich

From 2012.igem.org

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(UK Team Meetup)
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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!  
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!  
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== '''Download the final programme (PDF)''' ==
 
[https://dl.dropbox.com/u/9957127/UK%20iGEM%20Team%20Hangout%2017th%20Aug%202012%20Programme.pdf '''Click Here for Programme PDF''']
[https://dl.dropbox.com/u/9957127/UK%20iGEM%20Team%20Hangout%2017th%20Aug%202012%20Programme.pdf '''Click Here for Programme PDF''']

Revision as of 13:16, 29 August 2012

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NRP UEA iGEM 2012

 





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



NRP UEA iGEM Team 2012 Project Outline

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. 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.

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