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<body> <div id="globalnav" class="design"> <ul> <li id="gn-home"><a href="/wiki/Biomod/2014/Sendai/temp/0821">Home</a></li> <li id="gn-intro"><a href="/wiki/Biomod/2014/Sendai/temp/0821/Introduction">Introduction</a></li> <li id="gn-design"><a href="/wiki/Biomod/2014/Sendai/temp/0821/Design">Design</a></li> <li id="gn-simu"><a href="/wiki/Biomod/2014/Sendai/temp/0821/Simulation">Simulation</a></li> <li id="gn-xp"><a href="/wiki/Biomod/2014/Sendai/temp/0821/Experiment">Experiment</a></li> <li id="gn-protocol"><a href="/wiki/Biomod/2014/Sendai/temp/0821/Protocol">Protocol</a></li> <li id="gn-dis"><a href="/wiki/Biomod/2014/Sendai/temp/0821/Discussion">Discussion</a></li> <li id="gn-team"><a href="/wiki/Biomod/2014/Sendai/temp/0821/Team">Team</a></li> <li id="gn-end"><a href="#"></a></li> </ul> </div> <div id="main"> <h1>System Design</h1> <p>To complete our goal, we propose two different types of system. One is DNA molecules system using enzyme, polymerase, nickase, and restriction enzyme. The other is enzyme-free system only using DNA, inspired by seesaw gate (Lulu Qian et.al, 2011). And to demonstrate these systems, we put taste substances into liposomes and effuse them.</p>

<h2>1-a.Enzyme System</h2> <p>Enzyme System has three processes.</p> <ol> <li>The process in which DNA Polymerase amplifies KEY DNA. (Amplifying process)</li> <li>The process in which KEY DNA releases the liposome. (Releasing process).</li> <li>The process in which restriction enzyme renews the 3’ end of the input-DNA sequence to get an output. (Renewing process).</li> </ol>

<h3>1.Amplifying process</h3> <img src="http://openwetware.org/images/9/9e/Fde1a0-01.png"> <img src="http://openwetware.org/images/c/c9/Figure-01.png">

<table> <tr></tr> <tr> <td> <figure> <img src="http://openwetware.org/images/b/bf/Figure1-2_figure1-2a.png"> <figcaption>あなたのまちの はたらく にっかーぜ</figcaption> </figure></td> <td> <figure> <img src="http://openwetware.org/images/5/50/Figure1-2_figure1-2b.png"> <figcaption>説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明</figcaption> </figure></td> <td> <figure> <img src="http://openwetware.org/images/a/a7/Figure1-2_figure1-2c.png"> <figcaption>説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明</figcaption> </figure></td> </tr> </table>

<p>In this system, polymerase and nickase read input-DNA arrangement from one end to another, and effuse output to it. Information (A, B, and C) is recorded as input-DNA arrangement (A, B and C are able to be permutated voluntarily). When input-DNA is put into this system, template A, B, and C cohere with input A, B, and C correspondingly. Then complementary arrangement to remaining template nearest input’s 3’ end (figure A1) is copied and effused with polymerase and nickase. This DNA arrangement (We will call it A1.) is an input to following 2 and 3 system. <br> &#9312; Domains A, B, and C in the template combine with domains A, B, and C in the input respectively. </p>

&#9312; Domains A0, B0, and C0 in the template combine with domains A0-, B0-, and C0- in the input respectively. Input-Template complex is created.<br> &#9313; Polymerase recognizes 3’ end of input. (Identified with dashed circle) <br> &#9314; Extending input sequence. The sequence A1 is newly formed. <br> &#9315; Polymerase runs away from Input-Template complex. <br> &#9316; Nickase combines with its recognition cite. <br> &#9317; Cleaving the end of the copied domain./ Making nick between A0 and A1. <br> &#9318; Polymerase works from the gap (Identified with dashed circle) created by the nickase. <br> &#9319; Running on DNA with making nucleotides and pushing out the A1. <br> &#9320; Repeating this process again and again amplifies the number of domain A1. <br><br>

The A1 domain becomes an input to following process both 2 and 3. <br><br>

<h3>2.Releasing system</h3> <table> <tr></tr> <tr> <td> <figure> <img src="http://openwetware.org/images/7/72/Figure2_fusen_figure1-2a.png"> <figcaption>説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明</figcaption> </figure></td> <td> <figure> <img src="http://openwetware.org/images/f/fd/Figure2_fusen_figure1-2b.png"> <figcaption>説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明</figcaption> </figure></td> <td> <figure> <img src="http://openwetware.org/images/e/e8/Figure2_fusen_figure1-2c.png"> <figcaption>説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明説明</figcaption> </figure></td> </tr> </table> <img src="http://openwetware.org/images/1/1f/IMG_3657-02.jpg" width="735px" height="600px"> <p>A1 combines with the end of the DNA which fixes the liposome-modifying DNA (output-A). Polymerases recognize the 3’end of the A1 and extend the chain. At the same time, output-A is denatured and released.</p> <h3>3.Cutting system</h3> <img src="http://openwetware.org/images/7/7f/Figure3-01.png">

<p>When A1 combines with the gate-A, thanks to polymerases, the DNA which has the recognition sequence corresponding to the restriction enzyme releases. (thanks to polymerases → by polymerases) When this DNA combines with the input, restriction enzyme is activated, and cuts the chain between A and B. To do so, A is replaced by B in the area near the 3’ end of the input and back to the system-1 .</p> <p>In this way, output-A, output-B, and output-C are released in order.</p>

<h2>1-b.Enzyme-free System</h2> <img src="http://openwetware.org/images/9/97/Figure_EnzymeFree-01.png">

<img src="http://openwetware.org/images/f/f6/Figure_EnzymeFree-03.png"> <img src="http://openwetware.org/images/8/89/Figure_EnzymeFree-04.png"> <p>This system aims to output signals to each input signals in order. To achieve this goal, we prepared an Input-DNA sequence, a trigger-DNA sequence, three kinds of DNA sequence (fuel, input, gate), and three kinds of double strand DNA with liposome (figure 1). We assembled a circuit with seesaw gate mechanism and those DNA sequences.</p> <img src="http://openwetware.org/images/7/79/Figure_EnzymeFree-02.png"> <p>Reactions as follows : </p> <h3>1.</h3> <p>First, add input to trigger-, fuel-, gate-DNA sequence, and three kinds of double strand DNA with a liposome solution. Then, input reacts with trigger, and DNA (1) peels off.</p> <h3>2.</h3> <p>DNA (1) which peeled off at process 1 reacts with double strand DNA with a liposome, and effuse a single strand DNA with a liposome. This reaction takes place before process 3 because toe hold is longer than gate toe hold as seesaw gate’s threshold reaction.</p> <h3>3.</h3> <p>On the other hand, remaining DNA(1) reacts with the gate, and DNA(2) is released from the gate. Then, the gate free from DNA(2) and the part of DNA(1) couples complementarily . As a result, we get double-strand DNA(3) from them.</p> <h3>4.</h3> <p>Double-strand DNA and fuel react, and DNA(2) is made.</p> <h3>5.</h3> <p>Repeating the method3 and method4 again and again, the amount of DNA(2) increases. (If you want to know about method1~5, refer Figure2.)

</p> <img src="http://openwetware.org/images/4/42/Enzyme-free_System_picture2.jpg" width="441px" height="599px"> <h3>6.</h3> <p>DNA(2) plays the role as a trigger, reacts with the input, induces the same reaction as the one previously described. At this point, we get DNA(4) in the same manner as DNA(2).

</p> <img src="http://openwetware.org/images/2/20/Enzyme-free_System_picture3.jpg" width="426px" height="600px"> <h3>7.</h3> <p>DNA(4) plays the role as a trigger, reacts with the input, induces the same reaction as the one previously described.(Figure4)</p> <img src="http://openwetware.org/images/d/d4/Enzyme-free_System_picture4.jpg" width=395px height="599px"> <p>Taking advantage of such reactions, we are convinced of outputting the targeting output in order. (taking advantage of such reactions → by these reactions)</p>

<h2>2.Demonstration</h2> <p> We contained a taste substances in a liposome. The liposome was modified with a DNA (outputA etc.) The DNA attached to the liposome and the DNA which had the complementary arrangement (agaDNA) were sprouted on agarose gel, and were hybridized each other. The template reacted with the input, polymerase, and nickase. Then the DNA (A1 etc.) is generated. With this DNA, we caused to denature output and agaDNA, then the liposome was released from agarose gel, and taste substances were effused.</p>

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