Team:University of Chicago

From 2008.igem.org

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(Prototype team page)
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<div id="template" style="text-align: center; font-weight: bold; font-size: large; color: #f6f6f6; padding: 5px;">
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This is a template page. READ THESE INSTRUCTIONS.
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The University of Chicago's
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You are provided with this team page template with which to start the iGEM season.  You may choose to personalize it to fit your team but keep the same "look." Or you may choose to take your team wiki to a different level and design your own wiki.  You can find some examples <a href="https://2008.igem.org/Help:Template/Examples">HERE</a>.
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<strong>GENE HACKERS: MONSTERS OF THE MIDWAY</strong>
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You <strong>MUST</strong> have a team description page, a project abstract, a complete project description, and a lab notebook.  PLEASE keep all of your pages within your Team:Example namespace.
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Are Happy To Welcome You.
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This is our team description page.
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Forthcoming on our wiki: a project abstract, a complete project description, and a lab notebook.</div>
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|You can write a background of your team here. Give us a background of your team, the members, etcOr tell us more about something of your choosing.
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OUR INTERPRETATION
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|Our approach to the iGEM 2008 challenge is typical of the University of Chicago: heavily theoretical. We interpret the fundamental goal of synthetic biology to be the organization of genetic information into standardized regions of code, that will create the functional equivalent of an open-source biological programming language. Synthetic biology is a novel approach to engineering biology, focusing on organizing genetic information into “standard parts,” comparable to interchangeable parts in manufacturing industries such as automobiles or electronicsAs opposed to ad hoc genetic engineering methods, that do not necessarily emphasize the organization of genetic data, synthetic biology aims to move towards a scalable engineering framework. This framework is built upon the principles of standards of abstraction. Abstraction, the process of generalization to reduce information content, allows us to hide the complexity of the genetic code, and utilize a greater amount of information in a simpler design.
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|[[Image:Example_logo.png|200px|right|frame]]
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''Tell us more about your project. Give us background. Use this is the abstract of your project. Be descriptive but concise (1-2 paragraphs)''
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''It is our aim to add to the Registry of Standard Biological Parts, by organizing the genetic material necessary to express mussel foot proteins (Mefp-3, Mefp-5, and Mgfp-5) in E. coli. These proteins have both bio-adhesive and anti-biofouling properties. Bio-adhesion gives mussels the ability to attach to various substrates, while anti-biofouling prevents the accumulation of unwanted biological material on selected surfaces. This makes these proteins a unique and promising target of study for biomedical research (e.g. synthetic implants, pacemakers, artificial organs, and internal prosthetics).''
|[[Image:Team.png|right|frame|Your team picture]]
|[[Image:Team.png|right|frame|Your team picture]]
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Revision as of 07:53, 23 May 2008


The University of Chicago's
GENE HACKERS: MONSTERS OF THE MIDWAY
Are Happy To Welcome You.
This is our team description page. Forthcoming on our wiki: a project abstract, a complete project description, and a lab notebook.



OUR INTERPRETATION
Our approach to the iGEM 2008 challenge is typical of the University of Chicago: heavily theoretical. We interpret the fundamental goal of synthetic biology to be the organization of genetic information into standardized regions of code, that will create the functional equivalent of an open-source biological programming language. Synthetic biology is a novel approach to engineering biology, focusing on organizing genetic information into “standard parts,” comparable to interchangeable parts in manufacturing industries such as automobiles or electronics. As opposed to ad hoc genetic engineering methods, that do not necessarily emphasize the organization of genetic data, synthetic biology aims to move towards a scalable engineering framework. This framework is built upon the principles of standards of abstraction. Abstraction, the process of generalization to reduce information content, allows us to hide the complexity of the genetic code, and utilize a greater amount of information in a simpler design.
Example logo.png

It is our aim to add to the Registry of Standard Biological Parts, by organizing the genetic material necessary to express mussel foot proteins (Mefp-3, Mefp-5, and Mgfp-5) in E. coli. These proteins have both bio-adhesive and anti-biofouling properties. Bio-adhesion gives mussels the ability to attach to various substrates, while anti-biofouling prevents the accumulation of unwanted biological material on selected surfaces. This makes these proteins a unique and promising target of study for biomedical research (e.g. synthetic implants, pacemakers, artificial organs, and internal prosthetics).

Your team picture
Team Example 2


Home The Team The Project Parts Submitted to the Registry Modeling Notebook

(Or you can choose different headings. But you must have a team page, a project page, and a notebook page.)