Team:Cambridge-JIC/Parts

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<h2>The New Application- "Catch-All" Track </h2>
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<h2>New Application </h2>
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Our project is multifaceted and encompasses different fields, reflecting the diversity of our team. We have been working on biological, bioinformatical and technological fronts as well as a strong hold on outreach. This work has allowed the introduction of a novel chassis, Marchantia Polymorpha, opening iGEM to the plant world.<br>
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<p>Mösbi uses <em>Marchantia polymorpha</em>
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We aim to open access to synthetic biology by the introduction of this new-user friendly plant chassis, allowing users to build genetic circuits in the comfort of their home.<br>
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This shift in paradigm brings Synthetic Biology out of the high-resource-requiring labs and into the open.<br>
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<h2>Foundational Advance </h2>
<h2>Foundational Advance </h2>
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Innovative ideas are needed to make Synthetic Biology cheap and more open to access. We have taken up the challenge to tackle this core limitation. Our unconventional solution is to modularise plant strains which can then be crossed by simple Mendelian genetics.
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<p>Innovative ideas are needed to make Synthetic Biology cheap and more open to access. We have taken up the challenge to tackle this core limitation. Our unconventional solution is to modularise plant strains which can then be crossed by simple Mendelian genetics.</p>
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<h2>Information Processing </h2>
<h2>Information Processing </h2>
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Information Processing in iGEM covers a diverse range of projects. Like the Foundational Advance track, IP teams are not trying to solve a real world problem with practical applications, but to tackle an interesting problem that might otherwise not attract attention. Teams enter this track if they are attempting projects such as building elements of a biological computer, creating a game using biology or working on a signal processing challenges.
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<p>Information Processing in iGEM covers a diverse range of projects. Like the Foundational Advance track, IP teams are not trying to solve a real world problem with practical applications, but to tackle an interesting problem that might otherwise not attract attention. Teams enter this track if they are attempting projects such as building elements of a biological computer, creating a game using biology or working on a signal processing challenges.
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Engineering ways to make biological systems perform computation is one of the core goals of synthetic biology. We generally work at the DNA level, engineering systems to function using BioBricks. In most biological systems, protein-protein interactions are where the majority of processing takes place. Being able to design proteins to accomplish computation would allow for systems to function on a much faster timescale than the current transcription-translation paradigm. These are some of the challenges that face teams entering projects into the Information Processing track in iGEM.
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Engineering ways to make biological systems perform computation is one of the core goals of synthetic biology. We generally work at the DNA level, engineering systems to function using BioBricks. In most biological systems, protein-protein interactions are where the majority of processing takes place. Being able to design proteins to accomplish computation would allow for systems to function on a much faster timescale than the current transcription-translation paradigm. These are some of the challenges that face teams entering projects into the Information Processing track in iGEM. </p>
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Latest revision as of 09:47, 29 September 2014

Cambridge iGEM 2014


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Any parts your team has created will appear in this table below:
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Our Tracks

1- New Application

2- Foundational Advance

3- Information Processing


New Application

Mösbi uses Marchantia polymorpha



Foundational Advance

Innovative ideas are needed to make Synthetic Biology cheap and more open to access. We have taken up the challenge to tackle this core limitation. Our unconventional solution is to modularise plant strains which can then be crossed by simple Mendelian genetics.



Information Processing

Information Processing in iGEM covers a diverse range of projects. Like the Foundational Advance track, IP teams are not trying to solve a real world problem with practical applications, but to tackle an interesting problem that might otherwise not attract attention. Teams enter this track if they are attempting projects such as building elements of a biological computer, creating a game using biology or working on a signal processing challenges.
Engineering ways to make biological systems perform computation is one of the core goals of synthetic biology. We generally work at the DNA level, engineering systems to function using BioBricks. In most biological systems, protein-protein interactions are where the majority of processing takes place. Being able to design proteins to accomplish computation would allow for systems to function on a much faster timescale than the current transcription-translation paradigm. These are some of the challenges that face teams entering projects into the Information Processing track in iGEM.




New Application teams work to create novel, forward thinking projects and innovative ideas that don't fit into conventional paradigms. It is the novelty of ideas and approach in investigating a question that may never have previously been examined that qualifies a project in the New Application track.

<groupparts>iGEM013 Cambridge-JIC</groupparts>