Team:Osaka/PROJECT

From 2009.igem.org

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     <h2>Overview</h2></div>  
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<p>In 1933, Alexander Fleming, who discovered penicillin in 1927, exhibited his ‘germ paintings’. It was the origin of “BioArt” that represents a crossover of art and the biological sciences with genes, proteins, cells and animals. Fleming’s early works were reductively judged in the terms of its aesthetic criteria, beauty.
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<p>In 1933, Alexander Fleming, who discovered penicillin in 1927, exhibited his ‘germ paintings’. It was the origin of “Bio Art” that represents a crossover of art and the biological sciences with genes, proteins, cells and animals. Fleming’s early works were reductively judged in the terms of its aesthetic criteria, beauty</a>.
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In this year, our project consists of two interrelated themes.<p><br>  
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In this year, our project consists of two interrelated themes.<br><br>
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<p style="text-indent: 2em">1. We try to create a new tool for “germ paintings” by integrating cell-to-cell communication with motility, color and other behavior such as fragrance.</p>
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<p style="text-indent: 2em">2. Using this tool, we try to draw not only patterns but also paintings. </p><br>
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<p style="text-indent: -1em">1. We try to create a new tool for “germ paintings” by integrating cell-to-cell communication with motility and color.</p>
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<p>BioArt is still at the threshold of definition because of the lack of interdisciplinary work. Given such current condition, we will consider significance and prospect of BioArt through doing works and discussion with artist.</p><br>
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<p style="text-indent: 1em">>>See <a href="/Team:Osaka/COLOR">COLOR</a>, <a href="/Team:Osaka/SIGNAL">SIGNAL</a> and <a href="/Team:Osaka/MOTILITY">MOTILITY</a></p>
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<p style="text-indent: -1em">2. We make art works using genetic engineered bacteria. Through making art works, we also consider biomedia and bioethics in the context of synthetic biology.</p>
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<p style="text-indent: 1em">>>See <a href="/Team:Osaka/WORKS">WORKS</a> and <a href="/Team:Osaka/ETHICS">ETHICS</a>
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<p>Such artworks can give rise to a number of issues and metaphors accompanying the advance of science and technology. Because bio art is still at the threshold of definition, there are few interdisciplinary works such as collaborations between bio-artists and synthetic biologists. Given this condition, we will try to accomplish the interactive evolution of "ColrColi (biological painting tool)" and "BioArt".</p><br>
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    <h2>Object</h2></div>  
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<p>Conceptual diagram below this sentence shows the relationship between Colrcoli and BioArt. While making Colrcoli will lead enhancement of tool's limitation and stimulate creator's imagination, through BioArt we might found practical requirements for biological painting tool. Thus, both BioArt and Colrcoli will go on with effects of results from the counter-part.</p><br>
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<div align="center"><img src="https://static.igem.org/mediawiki/2009/b/bc/Bioart.jpg" width="600px" height="315px"></div>
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    <p>Expression range of art is limited by media, each of which has several limitations about forms of expression, and if we get new media, the expression range is enhanced.
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The more wide the expression range become, the more wide possibilities of art works become.
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In reverse, by the same token, specific demands from artists to media will make advances in media and finally expand possibility of art.
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In our project, which theme is BioArt, medium is created by using parts and devices of genetical engineering and biotechnology, so we can develop science and engineering by creating art works through this project.</p><br>  
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<div align="center"><img src="https://static.igem.org/mediawiki/2009/b/bc/Bioart.jpg" width="600px" height="315px"></div><br>
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<p>We named the results of our science activity "Colrcoli" and developed it in three categories "Color", "Signal" and "Motility". We used it as a tool for art and making a piece of work.</p>
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Latest revision as of 19:30, 21 October 2009

Home of iGEMOSAKA wiki

PROJECT

Overview

In 1933, Alexander Fleming, who discovered penicillin in 1927, exhibited his ‘germ paintings’. It was the origin of “Bio Art” that represents a crossover of art and the biological sciences with genes, proteins, cells and animals. Fleming’s early works were reductively judged in the terms of its aesthetic criteria, beauty. In this year, our project consists of two interrelated themes.

1. We try to create a new tool for “germ paintings” by integrating cell-to-cell communication with motility and color.

>>See COLOR, SIGNAL and MOTILITY

2. We make art works using genetic engineered bacteria. Through making art works, we also consider biomedia and bioethics in the context of synthetic biology.

>>See WORKS and ETHICS


Such artworks can give rise to a number of issues and metaphors accompanying the advance of science and technology. Because bio art is still at the threshold of definition, there are few interdisciplinary works such as collaborations between bio-artists and synthetic biologists. Given this condition, we will try to accomplish the interactive evolution of "ColrColi (biological painting tool)" and "BioArt".


Conceptual diagram below this sentence shows the relationship between Colrcoli and BioArt. While making Colrcoli will lead enhancement of tool's limitation and stimulate creator's imagination, through BioArt we might found practical requirements for biological painting tool. Thus, both BioArt and Colrcoli will go on with effects of results from the counter-part.