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| <body>
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| <div id="header">
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| <div id="homebutton">
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| <li id="stamp"><a href="http://openwetware.org/wiki/Biomod/2014/Sendai">Home</a></li>
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| <div id="globalnav" class="intro">
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| <ul>
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| <li id="gn-home"><a href="/wiki/Biomod/2014/Sendai">Home</a></li>
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| <li id="gn-intro"><a href="/wiki/Biomod/2014/Sendai/Introduction">Introduction</a></li>
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| <li id="gn-design"><a href="/wiki/Biomod/2014/Sendai/Design">Design</a></li>
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| <li id="gn-simu"><a href="/wiki/Biomod/2014/Sendai/Simulation">Simulation</a></li>
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| <li id="gn-xp"><a href="/wiki/Biomod/2014/Sendai/Experiment">Experiment</a></li>
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| <li id="gn-dis"><a href="/wiki/Biomod/2014/Sendai/Discussion">Discussion</a></li>
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| <li id="gn-team"><a href="/wiki/Biomod/2014/Sendai/Team">Team</a></li>
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| <h1>Background</h1>
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| <h1>Project Goal</h1>
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| <img src="http://openwetware.org/images/c/cf/Hataraki.gif">
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| In this study, we propose a programmable system which releases variable molecules in order. The core of this system is that the order to release output is coded only in input. In this system, output is released by using molecules independent of input repeatedly. Since the size of input is not limited, the number of iteration can be coded in input. This property provides a scalability to the system. Such programmability and scalability are the strong points of this system.
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| This complex system is realized by a cascade reaction of programmable molecule, DNA.
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| DNA that is released in order can be converted into liposome, which is used as a container of various kinds of molecules. Conversion from DNA to liposome is realized by modifying DNA chemically. Although Drug Delivery System is one possible application by containing medicine in liposome, we focus on encapsulating taste substances to utilize the feature of the system.
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| <h1>Application to molecular gastronomy</h1>
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| <p>Our system, which releases taste substances in programmable order, can be regarded as a new scientific perspective of “molecular gastronomy”. Molecular gastronomy is a research field on food, which gives rise to a variety of cuisine and texture we have never experienced before. One of the successful examples of the molecular gastronomy is “Teppae” a Japanese food that gives us three tastes, acid, spicy, and week acid in a fixed order. Unlike Teppae, it is possible to create a variety of foods, such as French and Chinese foods using our system. Therefore, we can experience many foods all over the world, that is, “World Taste Travel”.</p>
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| <div id="footer1">
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| <div class="lefttext">
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| (C)Copyright Biomod 2014 Team Sendai<br />
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| E-MAIL:
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| <a href="mailto:teamsendai2014@gmail.com"><span style="color:white">teamsendai2014@gmail.com</span></a>
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| </div>
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| <div class="rightimg">
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| <a href="http://www.molbot.mech.tohoku.ac.jp/index.html">
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| <img src="http://openwetware.org/images/f/f3/Muratalab-icon2_dark-01.png"
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| width="200" alt="Molcular Robotics Lab"></a>
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| </div>
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