Team:NTU-Singapore

From 2009.igem.org

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<div class="grid_1 link selflink">[[Team:NTU-Singapore | <span class="selflink">Home</span>]]</div><div class="grid_2 link">[[Team:NTU-Singapore/Project | pLaq''U''<span class="sup">e</span> Out!]]</div><div class="grid_3 link">[[Team:NTU-Singapore/HPA | Human Practice]]</div><div class="grid_2 link">[[Team:NTU-Singapore/Notebook | Notebook]]</div><div class="grid_2 link">[[Team:NTU-Singapore/About/Team | About Us]]</div><div class="grid_2 link contact">[[Team:NTU-Singapore/Contact | Contact Us!]]</div>
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<div class="grid_1 link selflink">[[Team:NTU-Singapore | <span class="selflink">Home</span>]]</div><div class="grid_2 link">[[Team:NTU-Singapore/Project | pLaq''U''<span class="sup">e</span> Out!]]</div><div class="grid_2 link">[[Team:NTU-Singapore/HPA | DIYbio]]</div><div class="grid_3 link">[[Team:NTU-Singapore/Notebook/Deliverables | <span class="red">Accomplishments!</span>]]</div><div class="grid_2 link">[[Team:NTU-Singapore/Notebook | Notebook]]</div><div class="grid_2 link">[[Team:NTU-Singapore/About/Team | About Us]]</div>
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=== About our project ===
=== About our project ===
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'''Atherosclerosis''' is a growing healthcare concern, affecting millions of people worldwide every year. Conventional treatments only treat the symptoms, but do not prevent or cure the problem! The NTU iGEM ’09 team is proud to announce that we are working on a proposed alternative treatment for this disease.<br />
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'''Atherosclerosis''' is a growing healthcare concern, affecting millions of people worldwide every year. Conventional medical regimens only treat the symptoms, but do not provide a means for prevention or cure! The NTU iGEM ’09 team is proud to announce that we are working on a proposed alternative treatment for this disease.
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<div class="grid_7 alpha">[[Image:NTUphysystem.jpg|407px|center|Our system in its physiological conditions]]</div>
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'''This year, we will be working on an ''in vivo'' approach to visualize and degrade atherosclerotic plaque.'''
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<div class="grid_4 omega">Our system, '''p'''Laq''U''<span class="sup">e</span> '''Out'''<span class="serif bold">''!''</span>, ideally in a macrophage chassis,  can be introduced into the bloodstream.
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Our system, '''p'''Laq''U''<span class="sup">e</span> '''Out'''<span class="serif bold">''!''</span>, ideally in a T-helper cell chassis,  can be introduced into the bloodstream. It will be activated by a symptom that is typical of plaque buildup. Upon activation, our system will release a cholesterol degrading enzyme, a novel reporter protein and a vasodilator.
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# The sensing construct triggers the system in response to falling nitric oxide concentrations.
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# The cholesterol degrading enzyme breaks down the plaque.
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# The reporter protein, with its unique fluorescent property, allows the plaque site to be visualized ''in vivo''.
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# Finally, the vasodilator will simultaneously dilate the blood vessels for better flow, as well as switch off the extended activity of our system.
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It will be activated by a symptom that is typical of plaque buildup.
 
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<center>This is '''p'''Laq''U''<span class="sup">e</span> '''Out'''<span class="serif bold">''!''</span> in action<br /></center>
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Upon activation, our system will release a cholesterol degrading enzyme, a novel reporter protein and a vasodilator.
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<html><center><object width="400" height="300"><param name="allowfullscreen" value="true" /><param name="allowscriptaccess" value="always" /><param name="movie" value="http://vimeo.com/moogaloop.swf?clip_id=7181176&amp;server=vimeo.com&amp;show_title=1&amp;show_byline=1&amp;show_portrait=0&amp;color=&amp;fullscreen=1" /><embed src="http://vimeo.com/moogaloop.swf?clip_id=7181176&amp;server=vimeo.com&amp;show_title=1&amp;show_byline=1&amp;show_portrait=0&amp;color=&amp;fullscreen=1" type="application/x-shockwave-flash" allowfullscreen="true" allowscriptaccess="always" width="400" height="300"></embed></object></center></html>
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# The sense construct triggers the system in response to falling nitric oxide concentrations.
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For now, ''E. coli'' is used as a model organism to test our system.
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# The cholesterol degrading enzyme breaks down the plaque.
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# The reporter protein, with its unique fluorescent property, allows the plaque site to be visualized ''in vivo''.
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# Finally, the vasodilator will simultaneously dilate the blood vessels for better flow, as well as switch off the extended activity of our system.  
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For now, E. coli is used as a model organism to test our system.
 
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'''Check out [[Team:NTU-Singapore/Notebook/Deliverables | our accomplishments]]!'''
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''We've made '''three working parts'''! We had lots of fun doing it too!''
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=== Accomplishments! ===
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=== Human Practices Advance ===
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'''We will be looking into DIYbio, a branch of hobbyist biology that aims to make biotechnology open and accessible to amateur biologists!'''
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We researched intensively on the origins and scope of DIYbio, debated its merits and demerits, conducted a public survey & interviewed the top names in DIYbio.
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Read more [[Team:NTU-Singapore/HPA | here]]!
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=== About the team ===
=== About the team ===
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This marks the second year NTU-Singapore is taking part in this competition. The team consists of 8 undergraduates, guided by 7 instructors and 3 advisors. We are really looking forward to pitting our minds against top minds in universities worldwide, and eventually meeting everyone at the iGEM Jamboree. Good luck everyone!
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This marks the second year NTU-Singapore is taking part in this competition. The team consists of 8 undergraduates, guided by 7 instructors and 3 advisors.
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''See you at the Jamboree!''
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[[Team:NTU-Singapore/Contact | Contact Us!]]
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<div class="grid_4 omega">[[Image:NTUjnj.png|center|200px|Johnson & Johnson]]</div><br class="clear" />
<div class="grid_4 omega">[[Image:NTUjnj.png|center|200px|Johnson & Johnson]]</div><br class="clear" />
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You can see the complete list of sponsors [[Team:NTU-Singapore/Sponsors | here]].
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Latest revision as of 02:39, 22 October 2009


Hello iGEM.

Welcome to the official Nanyang Technological University project wiki for iGEM '09.

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About our project

Atherosclerosis is a growing healthcare concern, affecting millions of people worldwide every year. Conventional medical regimens only treat the symptoms, but do not provide a means for prevention or cure! The NTU iGEM ’09 team is proud to announce that we are working on a proposed alternative treatment for this disease.


This year, we will be working on an in vivo approach to visualize and degrade atherosclerotic plaque.

Our system, pLaqUe Out!, ideally in a T-helper cell chassis, can be introduced into the bloodstream. It will be activated by a symptom that is typical of plaque buildup. Upon activation, our system will release a cholesterol degrading enzyme, a novel reporter protein and a vasodilator.

  1. The sensing construct triggers the system in response to falling nitric oxide concentrations.
  2. The cholesterol degrading enzyme breaks down the plaque.
  3. The reporter protein, with its unique fluorescent property, allows the plaque site to be visualized in vivo.
  4. Finally, the vasodilator will simultaneously dilate the blood vessels for better flow, as well as switch off the extended activity of our system.


This is pLaqUe Out! in action


For now, E. coli is used as a model organism to test our system.


Check out our accomplishments!

We've made three working parts! We had lots of fun doing it too!


Human Practices Advance

We will be looking into DIYbio, a branch of hobbyist biology that aims to make biotechnology open and accessible to amateur biologists!

We researched intensively on the origins and scope of DIYbio, debated its merits and demerits, conducted a public survey & interviewed the top names in DIYbio.

Read more here!

About the team

This marks the second year NTU-Singapore is taking part in this competition. The team consists of 8 undergraduates, guided by 7 instructors and 3 advisors.

See you at the Jamboree!

Contact Us!



Our top sponsors

We would like to sincerely thank our Gold sponsors, Genentech Singapore and Johnson & Johnson Singapore for their invaluable contribution to the team!


Genentech
Johnson & Johnson

You can see the complete list of sponsors here.

Visitor's info

Locations of visitors to this page



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