Team:UCL/FAQ/iGEM
From 2014.igem.org
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- | Previous UCL iGEM teams include <a data-tip="true" class="top large" data-tip-content="In 2013, we explored the potential application genetic engineering techniques on the brain, using synthetic biology to cure Alzheimer's disease." href="https://2013.igem.org/Team:UCL">Spotless Mind</a> (<b>GOLD</b>), <a data-tip="true" class="top large" data-tip-content="In 2013, our entrepreneurship team built a safe, user-friendly, affordable biotechnology laboratory in a beautiful 13 x 11 inch box, containing a centrifuge, a PCR machine and a gel electrophoresis unit inclusive with transilluminator." href="https://2013.igem.org/Team:UCL_E">Darwin Toolbox</a>, <a href="https://2012.igem.org/Team:UCL_London">Plastic Republic</a> (<b>GOLD</b>), <a href="https://2011.igem.org/Team:UCL_London">E. coili</a> (Bronze), <a href="https://2010.igem.org/Team:UCL_London">Hypoxon</a> (<b>GOLD</b>), and <a href="https://2009.igem.org/Team:UCL_London">Stress Busters</a> (Silver).</p> | + | Previous UCL iGEM teams include <a data-tip="true" class="top large" data-tip-content="In 2013, we explored the potential application genetic engineering techniques on the brain, using synthetic biology to cure Alzheimer's disease." href="https://2013.igem.org/Team:UCL">Spotless Mind</a> (<b>GOLD</b>), <a data-tip="true" class="top large" data-tip-content="In 2013, our entrepreneurship team built a safe, user-friendly, affordable biotechnology laboratory in a beautiful 13 x 11 inch box, containing a centrifuge, a PCR machine and a gel electrophoresis unit inclusive with transilluminator." href="https://2013.igem.org/Team:UCL_E">Darwin Toolbox</a>, <a data-tip="true" class="top large" data-tip-content="In 2012, we designed a synthetic biology approach for the bioremediation of micro-plastic pollutants within the marine environment, with emphasis on regions of excessive debris accumulation, such as the North Pacific ‘garbage patch’." href="https://2012.igem.org/Team:UCL_London">Plastic Republic</a> (<b>GOLD</b>), <a data-tip="true" class="top large" data-tip-content="In 2011, we used supercoiliology to increase the production quantity of supercoiled target plasmids by over-expressing the enzyme gyrase, a unique topoisomerase that regulates the topology of DNA molecules." href="https://2011.igem.org/Team:UCL_London">E. coili</a> (Bronze), <a data-tip="true" class="top large" data-tip-content="In 2010, we aimed to create cells capable of self-induction into the production phase, without the introduction of any chemical into the closed system." href="https://2010.igem.org/Team:UCL_London">Hypoxon</a> (<b>GOLD</b>), and <a data-tip="true" class="top large" data-tip-content="In 2009, we produced a series of synthetic biosensor devises, which can improve on the traditional sensors in bioprocessing, using a system called 'The Traffic Light Stress Sensor'." href="https://2009.igem.org/Team:UCL_London">Stress Busters</a> (Silver).</p> |
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As a result of competing in iGEM for over 5 years, UCL has developed a community of synthetic biologists. Our team this year has been lucky to benefit from the advice and experience of past iGEM teams, as well as enjoy the summer working alongside students from all disciplines. | As a result of competing in iGEM for over 5 years, UCL has developed a community of synthetic biologists. Our team this year has been lucky to benefit from the advice and experience of past iGEM teams, as well as enjoy the summer working alongside students from all disciplines. |
Revision as of 15:45, 11 October 2014
An introduction to iGEM
The International Genetically Engineered Machine (iGEM) is a synthetic biology competition where teams from around the The iGEM foundation aids this by creating the Registry of Standard Biological Parts, a library of characterised genetic sequences which perform desired functions. These standardised components (BioBricks) are formatted in a way which enables them to be easily put together so users can mix and match genes to create an organism displaying a unique set of functions. Teams re-use existing BioBricks, as well as designing new ones, in order to create genetically engineered machines. These engineered systems can potentially be used for a range of applications: from medical uses such as the tailored release of insulin for the treatment of diabetes to resolving global environmental issues by mass production of biofuels from renewable sources. |
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This year, the UCL iGEM team attempts to tackle an environmental problem: the pollution of waterways by industrial azo-dye disposal. This addresses the pressing need to clean up industrial effluents of these carcinogenic derivatives before being released into the environment, and thus keeping our water systems clean.
UCL has been involved in iGEM since 2009
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Previous UCL iGEM teams include Spotless Mind (GOLD), Darwin Toolbox, Plastic Republic (GOLD), E. coili (Bronze), Hypoxon (GOLD), and Stress Busters (Silver).
As a result of competing in iGEM for over 5 years, UCL has developed a community of synthetic biologists. Our team this year has been lucky to benefit from the advice and experience of past iGEM teams, as well as enjoy the summer working alongside students from all disciplines.