Team:UNAM-Genomics Mexico

From 2010.igem.org

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==='''The Gist'''===
==='''The Gist'''===
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Synthetic Biology has been enabling changes in all bio-domains, one such being communication. Traditional cellular communication has relied since time immemorial on chemical messengers to exchange information. Regardless of their scope, these messengers are constrained to a system; eg: even far reaching couriers such as hormones are bound within the chemical structure that is the human body. But this is about to change.
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For millions of years, bacteria have only transmitted information in a chemical fashion (i.e. Quorum sensing). It is now time to start a paradigm shift where communication is mediated by light , not only  through its presence or absence, but also through the wavelength(color) emitted, thus breaking spacial and chemical barriers.  
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In this project, our goal is to render the chemical barrier deprecated by using a non-chemical herald: photons. These will transport information between our engineered cells, creating a photon-based inter-cellular communication system.
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We have implemented 3 emission and 3 reception modules for red, green, and blue light, and interconnected them so as to construct a light-based feedback loop of red-green-blue light, which will make the proof of concept of  communication over distance and proper signal decoding.  
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These messengers are produced through bio-luminescent reactions, and are quite capable of traversing multiple environments. This enables the transmission of information beyond the chemical, biological, and even spatial limitations. As the courier is effectively decoupled from the chemical layer, it is an innovative step in establishing communications between organic-based and silicon-based systems, such as computers.
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We are sure that this new level will soon change reasoning and design in synthetic biology while interfacing living systems with themselves and informational systems, as computers.
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The time has come to embrace possibilities like intercontinental cell synchronization, bio cables, cuaternary (as opposed to binary) logic gates, computer controlled gene expression, and anything within the reach of human imagination.
===The Quick & Dirty Facts===
===The Quick & Dirty Facts===

Revision as of 03:21, 28 October 2010



The Gist

For millions of years, bacteria have only transmitted information in a chemical fashion (i.e. Quorum sensing). It is now time to start a paradigm shift where communication is mediated by light , not only through its presence or absence, but also through the wavelength(color) emitted, thus breaking spacial and chemical barriers.

We have implemented 3 emission and 3 reception modules for red, green, and blue light, and interconnected them so as to construct a light-based feedback loop of red-green-blue light, which will make the proof of concept of communication over distance and proper signal decoding.

We are sure that this new level will soon change reasoning and design in synthetic biology while interfacing living systems with themselves and informational systems, as computers.

The time has come to embrace possibilities like intercontinental cell synchronization, bio cables, cuaternary (as opposed to binary) logic gates, computer controlled gene expression, and anything within the reach of human imagination.

The Quick & Dirty Facts


First Div Content

Here goes information.

Second Div Content

Here goes more information

Third Div Content

Here goes even more info.


Movie

We made this short animation to show the concept behind our project.


Sponsors

As you are probably aware, most projects are unfeasible without economic support. Our iGEM project is no different. In this section we kindly thank our sponsors, whose help is greatly appreciated in aiding us with the development of this project.

Welcome

You are very much welcome to our Wiki! We have invested considerable effort in it, we hope you like it.

iGEM

iGEM is the International Genetically Engineered Machines Competition, held each year at MIT and organized with support of the Parts Registry. See more here.

Synthetic Biology

This is defined as attempting to manipulate living objects as if they were man-made machines, specifically in terms of genetic engineering. See more here.

Genomics

We are students on the Genomic Sciences program at the Center for Genomic Sciences of the National Autonomous University of Mexico, campus Morelos. See more here.

Locations of visitors to this page

This site is best viewed with a Webkit based Browser (eg: Google's Chrome, Apple's Safari),

or a Gecko one (eg: Mozilla's Firefox, Netscape). Some of the code requires an up-to-date browser.


Trident based (Microsoft's Internet Explorer) or Presto based (Opera) are not currently supported. Sorry.