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-                          <a href="/Team:NUDT_CHINA/Human_Practices">Human Practices</a></li>
-                        <li>
-                          <a href="/Team:NUDT_CHINA/HP/Silver">Silver</a></li>
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-              <style>.nav-global ul li a{ font-size:0.85rem; } @media screen and (max-width: 865px) { .nav-global ul li a{ font-size:0.85rem; } }</style>
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-        <div id="feature" class="row collapse text-light feature-footer-active">
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-                      <section class="big-header bh__height-size-3 text-light bh__video">
-                        <div class="bh__background bh__background-color " style="background-color: rgb(3,13,38);background-image:url(https://static.igem.org/mediawiki/2016/thumb/3/3f/NUDT_CHINA2016_FILES-img-banner-3.0.png/800px-NUDT_CHINA2016_FILES-img-banner-3.0.png);background-size:100%;background-repeat:no-repeat;"></div>
-                        <div class="bh__content-wrap">
-                          <div class="bh__content ">
-                            <div class="bh__content-inner-wrap">
-                              <!--h3 class="bh__subtitle"><a href="http#/explore/whats-here/exhibits/brick-by-brick/"><span class="line-wrap"><span class="line"><span class="bh__info">Exhibit / </span>Brick by Brick</span></span></a></h3-->
-                              <h1 class="bh__title ">
-                                <!--<a href="#">-->
-                                  <span class="line-wrap">
-                                    <span class="line">Cancer,</span></span>
-                                  <br>
-                                  <span style="line-height:75px;" class="line-wrap">
-                                    <span style="line-height:75px;" class="line">No More Hiding</span></span>
-                                <!--</a>-->
-                              </h1>
-                              <h2 style="font-size:36px;" class="bh__title ">
-                                <!--<a href="#">-->
-                                  <span style="line-height:41px;" class="line-wrap">
-                                    <span style="line-height:41px;" class="line">Development of A Novel</span></span>
-                                  <span style="line-height:41px;" class="line-wrap">
-                                    <span style="line-height:41px;" class="line">Blood-MicroRNA Handy Detection System with CRISPR</span></span>
-                                <!--</a>-->
-                              </h2>
-                            </div>
-                          </div>
-                        </div>
-                      </section>
-                      <!-- end .feature-ce --></div>
-                    <!-- end .columns --></div>
-                  <!-- end .row --></div>
-              </div>
-              <div class="cycle-pager" id="cycle-pager-4811"></div>
-            </div>
-            <!--TYPO3SEARCH_end--></div>
-          <!-- end .columns --></div>
-        <!-- end #feature -->
-        <!-- end .columns --></div>
-      <div style="margin-top:80px;" id="content-wrap-ink"><!-- adjust in add_JS -->
-	<div class="row footer-link" style="">
-	<!--标题-->
-<h2>
-	<span><span style="color:#7f1015">Abstract</span></span><hr />
-</h2>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-size:18px;">This
-model was created to evaluate the effectiveness of initial design, and offered
-guidelines about how the system can (or must) be improved. (You can go <a href="/Team:NUDT_CHINA/Design">DESIGN.page</a></li> to see more.) The core idea was to simulate the process of producing the
-signal which can be detected, and drew a conclusion by obtaining the
-relationship between the signal intensity and the concentration of miRNA.
-</span>
-</p>
-</br>
-<!--标题-->
-<h2>
-	<span><span style="color:#7f1015">Introduction </span></span><hr />
-</h2>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-size:18px;">Mathematical models of two aspects of our project were created, a
-RCA model and a signal detection model.
-</span>
-</p>
-</br>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-size:18px;">The RCA
-model was based on the Michaelis-Menten equation. The relationship between the
-concentration of miRNA and the number of stem-loop structures was obtained
-through theoretical calculation, and our experimental results was used to
-calculate the parameters we introduced previously.</span>
-</p>
-</br>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-size:18px;">The
-signal detection model was composed of a probability model and a kinetic
-equation of enzymatic reaction, thus the relationship between the number of
-stem-loop structures and the signal intensity under the premise of adding a
-certain amount of fusion proteins of dCas9 and split-HRP fragments was obtained.
-</span>
-</p>
-</br>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-size:18px;">By
-integrating the two models, the impacts of the molecule number of proteins on
-the signal to noise ratio was theoretically predicted and the trend of the
-signal intensity with the change of the concentration of miRNA in our wet-lab
-work was explained.</span>
-</p>
-</br>
-<!--标题-->
-<h2>
-	<span><span style="color:#7f1015"> Assumption and Justification
-</span></span><hr />
-</h2>
-<!--标题-->
-<h3>
-	<span><span style="color:#7f1015">  About model    </span></span><hr />
-</h3>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-size:18px;">
-Assuming that miRNA is not degraded throughout the reaction process.</span>
-</p>
-</br>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-size:18px;">
-Assuming that the two fusion proteins of dCas9 and split-HRP fragments have the
-same ability to combine with the stem-loop structure, and only when two
-different proteins next to each other, can they have the ability to catalyze
-substrate and produce signal.</span>
-</p>
-</br>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-size:18px;">
-Assuming that the number of stem-loop structures in each RCA product is equal
-under a certain reaction time. </span>
-</p>
-</br>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-size:18px;">
-Assuming that the enzymatic activity remains unchanged with time under the
-premise of excessive amount of enzymes or a short-time reaction.</span>
-</p>
-</br>
-<!--标题-->
-<h3>
-	<span><span style="color:#7f1015">  About the data   </span></span><hr
-/>
-</h3>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-size:18px;">	Assuming that the data we obtain from wet-lab experiment are
-reliable.</span>
-</p>
-</br>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-size:18px;">	Assuming that all the results are trustworthy in the process of
-statistical processing and data calculation.</span>
-</p>
-</br>
-<!--标题-->
-<h2>
-	<span><span style="color:#7f1015">Model </span></span><hr />
-</h2>
-<!--标题-->
-<h3>
-	<span><span style="color:#7f1015">Notations </span></span><hr />
-</h3>
-<!--表格-->
-<p>
-	<table class="MsoTableGrid" border="1" cellspacing="0" cellpadding="0" style="border:none;">
-		<tbody>
-			<tr>
-				<td width="66" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<span>Symbol </span>
-					</p>
-				</td>
-				<td width="487" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<span>Definition </span>
-					</p>
-				</td>
-			</tr>
-			<tr>
-				<td width="66" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<i><span>X</span></i>
-					</p>
-				</td>
-				<td width="487" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<a name="OLE_LINK7"></a><a name="OLE_LINK6"></a><span>The concentration of</span><span> miRNA (pM)</span>
-					</p>
-				</td>
-			</tr>
-			<tr>
-				<td width="66" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<i><span>C<sub>1</sub></span></i>
-					</p>
-				</td>
-				<td width="487" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<span>The concentration of initiated probe (Abbreviated
-  to iprobe)</span>
-					</p>
-				</td>
-			</tr>
-			<tr>
-				<td width="66" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<i><span>k<sub>1</sub></span></i>
-					</p>
-				</td>
-				<td width="487" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<a name="OLE_LINK8"></a><span>A constant representing
-  the scale factor</span>
-					</p>
-				</td>
-			</tr>
-			<tr>
-				<td width="66" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<i><span>K<sub>m </sub></span></i>
-					</p>
-				</td>
-				<td width="487" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<span>One of the characteristic constants of
-  phi29 DNA polymerase</span>
-					</p>
-				</td>
-			</tr>
-			<tr>
-				<td width="66" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<i><span>V<sub>max</sub></span></i>
-					</p>
-				</td>
-				<td width="487" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<span>One of the characteristic constants of phi29
-  DNA polymerase</span>
-					</p>
-				</td>
-			</tr>
-			<tr>
-				<td width="66" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<i><span>k<sub>2</sub></span></i>
-					</p>
-				</td>
-				<td width="487" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<span>A constant representing the scale factor</span>
-					</p>
-				</td>
-			</tr>
-			<tr>
-				<td width="66" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<i><span>V</span></i>
-					</p>
-				</td>
-				<td width="487" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<span>The initial speed of RCA </span>
-					</p>
-				</td>
-			</tr>
-			<tr>
-				<td width="66" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<a name="OLE_LINK9"></a><i><span>n<sub>1</sub></span></i><i><sub><span></span></sub></i>
-					</p>
-				</td>
-				<td width="487" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<span>The moles of RCA product</span>
-					</p>
-				</td>
-			</tr>
-			<tr>
-				<td width="66" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<i><span>n<sub>2</sub></span></i>
-					</p>
-				</td>
-				<td width="487" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<a name="OLE_LINK10"></a><span>The number of
-  stem-loop structures in each RCA product</span>
-					</p>
-				</td>
-			</tr>
-			<tr>
-				<td width="66" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<i><span>n</span></i>
-					</p>
-				</td>
-				<td width="487" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<span>The total amount of <a name="OLE_LINK23"></a><a name="OLE_LINK22"></a>stem-loop structures</span>
-					</p>
-				</td>
-			</tr>
-			<tr>
-				<td width="66" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<i><span>N</span></i>
-					</p>
-				</td>
-				<td width="487" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<a name="OLE_LINK41"></a><a name="OLE_LINK16"></a><span>The molecule number of fusion
-  protein of dCas9 and split-HRP fragments</span>
-					</p>
-				</td>
-			</tr>
-			<tr>
-				<td width="66" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<i><span>k<sub>3</sub></span></i>
-					</p>
-				</td>
-				<td width="487" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<span>A constant representing the scale factor</span>
-					</p>
-				</td>
-			</tr>
-			<tr>
-				<td width="66" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<i><span>y<sub>1</sub></span></i>
-					</p>
-				</td>
-				<td width="487" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<span>The fluorescence intensity of
-  DNA-dye-complex (RFU)</span>
-					</p>
-				</td>
-			</tr>
-			<tr>
-				<td width="66" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<i><span>N<sub>1</sub></span></i>
-					</p>
-				</td>
-				<td width="487" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<span>The molecule number of fusion protein of
-  dCas9 and split-HRP fragments in the solution</span>
-					</p>
-				</td>
-			</tr>
-			<tr>
-				<td width="66" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<i><span>N<sub>2</sub></span></i>
-					</p>
-				</td>
-				<td width="487" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<a name="OLE_LINK45"></a><span>The molecule number
-  of fusion protein of dCas9 and split-HRP fragments binding with stem-loop
-  structure</span>
-					</p>
-				</td>
-			</tr>
-			<tr>
-				<td width="66" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<i><span>k<sub>4</sub></span></i>
-					</p>
-				</td>
-				<td width="487" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<span>A constant representing the scale factor</span>
-					</p>
-				</td>
-			</tr>
-			<tr>
-				<td width="66" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<i><span>k<sub>5</sub></span></i>
-					</p>
-				</td>
-				<td width="487" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<span>A constant representing the scale factor</span>
-					</p>
-				</td>
-			</tr>
-			<tr>
-				<td width="66" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<i><span style="font-family:宋体;">ρ</span><span></span></i>
-					</p>
-				</td>
-				<td width="487" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<span>Signal to noise ratio(Abbreviated to
-  SNR)</span>
-					</p>
-				</td>
-			</tr>
-			<tr>
-				<td width="66" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<i><span style="font-family:宋体;">I</span></i>
-					</p>
-				</td>
-				<td width="487" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<span>The molecule number of formed intact HRP
-  proteins </span>
-					</p>
-				</td>
-			</tr>
-			<tr>
-				<td width="66" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<i><span style="font-family:宋体;">I<sub>1</sub></span></i>
-					</p>
-				</td>
-				<td width="487" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<span>The molecule number of formed intact HRP
-  proteins in the solution</span>
-					</p>
-				</td>
-			</tr>
-			<tr>
-				<td width="66" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<i><span style="font-family:宋体;">I<sub>2</sub></span></i>
-					</p>
-				</td>
-				<td width="487" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<a name="OLE_LINK43"></a><span>The molecule number
-  of formed intact HRP proteins through binding with stem-loop structure</span>
-					</p>
-				</td>
-			</tr>
-			<tr>
-				<td width="66" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<i><span style="font-family:宋体;">t</span></i>
-					</p>
-				</td>
-				<td width="487" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<span>Reaction time</span>
-					</p>
-				</td>
-			</tr>
-			<tr>
-				<td width="66" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<i><span style="font-family:宋体;">y<sub>2</sub></span></i>
-					</p>
-				</td>
-				<td width="487" valign="top" style="border:solid windowtext 1.0pt;">
-					<p class="MsoNormal">
-						<span>The signal intensity (OD<sub>450</sub>)</span>
-					</p>
-				</td>
-			</tr>
-		</tbody>
-	</table>
-</p>
-<!--标题-->
-<h3>
-	<span><span style="color:#7f1015">  The RCA model    </span></span><hr
-/>
-</h3>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-size:18px;">Firstly, we assume that there is a linear relationship between the
-concentration of the initiated probes and miRNA as the combination reaction
-between miRNA and probe occurs spontaneously<sup>1 </sup> . This can be written
-as:
-</span>
-</p>
-</br>
-<!--插入图片-->
-</br>
-</html>
-[[File:T--NUDT_CHINA--model1.jpg|70px|center]]
-<html>
-</br>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-size:18px;">Next,
-RCA is an enzymatic reaction, the reaction equation is written as: iprobe+dNTP→
-iprobe-dN+PPi, under the premise of excessive amount of enzymes and dNTPs, the
-relationship between the concentration of iprobe and the initial speed of RCA
-can be described by the Michaelis-Menten equation. This can be written as：
-</span>
-</p>
-</br>
-<!--插入图片-->
-</br>
-</html>
-[[File:T--NUDT_CHINA--model2.jpg|105px|center]]
-<html>
-</br>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-size:18px;">It is
-obvious that there is a linear relationship between the molecule numbers of
-iprobe-dN (n<sub>1 </sub>, reflects the molecule numbers of RCA product) and the initial
-speed of RCA reaction. Notably, under the premise of excessive amount of
-enzymes, the extending of each RCA production is related to the reaction time,
-not the concentration of the iprobe. It is a linear relationship when we assume
-that the enzymatic activity remains unchanged with time, thus, the number of
-stem-loop structures (n<sub>2 </sub>) in each RCA product is stable under the premise of a
-certain reaction time. </span>
-</p>
-</br>
-<!--插入图片-->
-</br>
-</html>
-[[File:T--NUDT_CHINA--modelfig1.jpg|350px|center]]
-<html>
-</br>
-<!--图注-->
-<p>
-	<b><span style="line-height:2;font-family:Perpetua;font-
-size:18px;">Figure 1. Schematic diagram</span></b>
-</p>
-</br>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-size:18px;">This
-can be written as:</span>
-</p>
-</br>
-<!--插入图片-->
-</br>
-</html>
-[[File:T--NUDT_CHINA--model3.jpg|70px|center]]
-<html>
-</br>
-<!--插入图片-->
-</br>
-</html>
-[[File:T--NUDT_CHINA--model4.jpg|70px|center]]
-<html>
-</br>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-size:18px;">And
-then, SYBR Green binds to DNA. The resulting DNA-dye-complex absorbs blue light
-(λmax = 497nm) and emits green light (λmax = 520nm). Thus, there is a linear
-relationship between the total amount of stem-loop structures and the
-fluorescence intensity of DNA-dye-complex. This can be written as:</span>
-</p>
-</br>
-<!--插入图片-->
-</br>
-</html>
-[[File:T--NUDT_CHINA--model5.jpg|70px|center]]
-<html>
-</br>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-size:18px;">In
-summary, the relationship between the concentration of miRNA and the
-fluorescence intensity of DNA-dye-complex can be written as:</span>
-</p>
-</br>
-<!--插入图片-->
-</br>
-</html>
-[[File:T--NUDT_CHINA--model6.jpg|105px|center]]
-<html>
-</br>
-<!--标题-->
-<h3>
-	<span><span style="color:#7f1015">  The signal detection model
-</span></span><hr />
-</h3>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-
-size:18px;">Firstly, it is obvious that there is a linear relationship between
-the molecule number of formed intact HRP proteins in the solution (consider as
-NOISE) and the molecule number of fusion protein s in the solution. This can be
-written as:</span>
-</p>
-</br>
-<!--插入图片-->
-</br>
-</html>
-[[File:T--NUDT_CHINA--model7.jpg|70px|center]]
-<html>
-</br>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-size:18px;">Next,
-we built a probability model to find the expression of the molecule number of
-formed intact HRP proteins (fused with dCas9) through binding with stem-loop
-structure (consider as SIGNAL). It is related to the total amount of stem-loop
-structures and the molecule number of DNA-bound fusion proteins. We obtain the
-result by Monte Carlo method. </span>
-</p>
-</br>
-<!--图和图注-->
-</br>
-</html>
-[[File:T--NUDT_CHINA--modelfig2.jpg|350px|center]]
-<html>
-</br>
-<p>
-	<b><span style="line-height:2;font-family:Perpetua;font-
-size:18px;">Figure2. Frequency Distribution</span></b>
-</p>
-<p>
-	<span style="line-height:2;font-family:Perpetua;font-size:16px;">Plot of
-frequency distribution of the molecule number of formed intact HRP proteins
-through binding with stem-loop structure. </span>
-</p>
-</br>
-<!--图和图注-->
-</br>
-</html>
-[[File:T--NUDT_CHINA--modelfig3.jpg|350px|center]]
-<html>
-</br>
-<p>
-	<b><span style="line-height:2;font-family:Perpetua;font-
-size:18px;">Figure 3. The result of the probability model</span></b>
-</p>
-<p>
-	<span style="line-height:2;font-family:Perpetua;font-size:16px;">Plot of
-the expect value of the molecule number of formed intact proteins against the
-total amount of stem-loop structures, carried out at 0.1, 0.3, 0.5, 0.7, 0.9 of
-N2 to n ratio. </span>
-</p>
-</br>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-size:18px;">The
-result can be written as:</span>
-</p>
-</br>
-<!--插入图片-->
-</br>
-</html>
-[[File:T--NUDT_CHINA--model8.jpg|105px|center]]
-<html>
-</br>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-size:18px;">As for
-N2, which refers to the molecule number of fusion proteins binding with stem-
-loop structure. The equation is formulated based on the limiting case. The
-equation can be written as:</span>
-</p>
-</br>
-<!--插入图片-->
-</br>
-</html>
-[[File:T--NUDT_CHINA--model9.jpg|105px|center]]
-<html>
-</br>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-size:18px;">And
-then, we can obtain the expressions for ρ and I separately.</span>
-</p>
-</br>
-<!--插入图片-->
-</br>
-</html>
-[[File:T--NUDT_CHINA--model10.jpg|105px|center]]
-<html>
-</br>
-<!--插入图片-->
-</br>
-</html>
-[[File:T--NUDT_CHINA--model11.jpg|70px|center]]
-<html>
-</br>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-
-size:18px;">Notably, under the premise of excessive substrates, it is a linear
-relationship between the reaction rate and the concentration of enzymes when we
-assume that the enzymatic activity remain unchanged with time, thus, we can
-obtain the expression of the signal intensity at tth time-step. This is written
-as:</span>
-</p>
-</br>
-<!--插入图片-->
-</br>
-</html>
-[[File:T--NUDT_CHINA--model12.jpg|105px|center]]
-<html>
-</br>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-size:18px;">In
-summary, the relationship between the number of stem-loop structures and the
-signal to noise ratio under the premise of adding a certain amount of fusion
-proteins is written as:</span>
-</p>
-</br>
-<!--插入图片-->
-</br>
-</html>
-[[File:T--NUDT_CHINA--model13.jpg|105px|center]]
-<html>
-</br>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-size:18px;">The
-relationship between the number of Stem-loop structures and the signal intensity
-under the premise of adding a certain amount of fusion proteins is written
-as:</span>
-</p>
-</br>
-<!--插入图片-->
-</br>
-</html>
-[[File:T--NUDT_CHINA--model14.jpg|105px|center]]
-<html>
-</br>
-<!--标题-->
-<h3>
-	<span><span style="color:#7f1015">  The calculation of the constants
-</span></span><hr />
-</h3>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-size:18px;">To
-simplify the equation (1), the constants could be integrated. As can be seen
-from the above table, k1, k2, k3 are constants representing the scale factor, Km
-and Vmax are characteristic constants of phi 29 DNA polymerase, and n2, which
-refers to the number of stem-loop structures in each RCA product, is stable
-under the premise of a certain reaction time. Thus, define two constants, mark
-as a and b, and then the equation can be simplified as:</span>
-</p>
-</br>
-<!--插入图片-->
-</br>
-</html>
-[[File:T--NUDT_CHINA--model15.jpg|105px|center]]
-<html>
-</br>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-size:18px;">We used
-this equation to fit the data points obtained through experiments. (Figure …in
-the ….page) The fitting curve is shown below.</span>
-</p>
-</br>
-<!--图和图注-->
-</br>
-</html>
-[[File:T--NUDT_CHINA--modelfig4.jpg|350px|center]]
-<html>
-</br>
-<p>
-	<b><span style="line-height:2;font-family:Perpetua;font-
-size:18px;">Figure 4. Fitting curve</span></b>
-</p>
-<p>
-	<span style="line-height:2;font-family:Perpetua;font-size:16px;">Fitting
-curve of fluorescence intensity of DNA-dye-complex (RFU) against the
-concentrations of miRNA (Pm). </span>
-</p>
-</br>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-size:18px;">With
-regard to the equation (2), we set the parameters based on the experiments as
-follows:
-k3 =8.35*10-16 (n=y1/k3); k4 =0.038; k5t=5.9*10-12.
-</span>
-</p>
-</br>
-<!--标题-->
-<h3>
-	<span><span style="color:#7f1015">   Results and Analysis
-</span></span><hr />
-</h3>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-size:18px;">By
-integrating the two models, we can obtain the relationships between the signal
-to noise ratio, the signal intensity respectively and the concentration of miRNA
-under different additional amount of fusion proteins.</span>
-</p>
-</br>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-size:18px;">The
-results are shown below.</span>
-</p>
-</br>
-<!--图和图注-->
-</br>
-</html>
-[[File:T--NUDT_CHINA--modelfig5.jpg|350px|center]]
-<html>
-</br>
-<p>
-	<b><span style="line-height:2;font-family:Perpetua;font-
-size:18px;">Figure 5. The signal intensity (OD450)</span></b>
-</p>
-<p>
-	<span style="line-height:2;font-family:Perpetua;font-size:16px;">Three-
-dimensional map of signal intensity (OD450) against miRNA concentration(pM) and
-additional amount of fusion proteins. </span>
-</p>
-</br>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-size:18px;">There
-exists a monotonous relation between the concentration of miRNA and the signal
-intensity when the value of the molecule number of fusion proteins is relatively
-large. While the relationship does not hold when the value of the molecule
-number of fusion proteins is relatively small. And the signal intensity
-increases as the value of the molecule number of fusion proteins
-increases.</span>
-</p>
-</br>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-size:18px;">The
-trend of the signal intensity with the change of the concentration of miRNA is
-consistent with that we obtained in our wet-lab work.(…….. in the result
-page)</span>
-</p>
-</br>
-<!--图和图注-->
-</br>
-</html>
-[[File:T--NUDT_CHINA--modelfig6.jpg|350px|center]]
-<html>
-</br>
-<p>
-	<b><span style="line-height:2;font-family:Perpetua;font-
-size:18px;">Figure 6. The result of signal to noise ratio</span></b>
-</p>
-<p>
-	<span style="line-height:2;font-family:Perpetua;font-size:16px;">Three-
-dimensional map of signal to noise ratio against miRNA concentration (pM) and
-additional amount of fusion proteins.</span>
-</p>
-</br>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-size:18px;">The
-signal-to-noise ratio decreases as the value of the molecule number of fusion
-proteins increases. </span>
-</p>
-</br>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-
-size:18px;">Furthermore, we consider that it is conducive to signal detection
-when the values of signal intensity and signal to noise ratio are both greater
-than two. We obtain the ideal region through calculation, which is shown as
-below.  </span>
-</p>
-</br>
-<!--图和图注-->
-</br>
-</html>
-[[File:T--NUDT_CHINA--modelfig7.jpg|350px|center]]
-<html>
-</br>
-<p>
-	<b><span style="line-height:2;font-family:Perpetua;font-
-size:18px;">Figure 7. Ideal region</span></b>
-</p>
-<p>
-	<span style="line-height:2;font-family:Perpetua;font-size:16px;">Region
-of qualified logarithm of concentrations of miRNA (pM) and logarithm of the
-additional amount of fusion proteins.</span>
-</p>
-</br>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-size:18px;">When
-the value of N is set to 1013.3, the range of the value of x contained in the
-ideal region is the largest, which means when the value of the molecule number
-of fusion proteins is 1013.3, the concentration range of miRNA contained in the
-ideal region is the largest.  </span>
-</p>
-</br>
-<!--标题-->
-<h2>
-	<span><span style="color:#7f1015">Conclusion </span></span><hr />
-</h2>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-size:18px;">Based
-on our simulation, we came to the conclusion that:</span>
-</p>
-</br>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-size:18px;">The
-calculated trend of the signal intensity with the change of the concentration of
-miRNA from our model is consistent with the trend we obtained in our laboratory
-work.</span>
-</p>
-</br>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-size:18px;">The
-value of the molecule number of fusion protein of dCas9 and split-HRP fragments
-not only affects the signal-to-noise ratio, but also the signal intensity. So we
-need to weigh its impact on both to select the optimal solution.</span>
-</p>
-</br>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-size:18px;">The
-concentration range of miRNA contained in the ideal region is the largest when
-we set the value of the molecule number of fusion proteins to be 1013.3, we
-optimize the value of the addition amount of fusion proteins in our wet-lab work
-based on it.</span>
-</p>
-</br>
-<!--标题-->
-<h2>
-	<span><span style="color:#7f1015">Reference  </span></span><hr />
-</h2>
-<!--正文-->
-<p style="text-indent:22pt;">
-	<span style="line-height:2;font-family:Perpetua;font-size:18px;">1
-Deng, R. et al. Toehold-initiated rolling circle amplification for visualizing
-individual microRNAs in situ in single cells. Angew Chem Int Ed Engl 53, 2389-
-, doi:10.1002/anie.201309388 (2014).</span>
-</p>
-</br>
-	</div>
-      </div>
-      <!-- end #content-wrap -->
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-               <br/>
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-                <BR/>PRACTICES</h5>
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-                    <a href="/Team:NUDT_CHINA/Human_Practices">Human Practices</a></li>
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-                    <a href="/Team:NUDT_CHINA/HP/Silver">Silver</a></li>
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-                    <a href="/Team:NUDT_CHINA/HP/Gold">Gold</a></li>
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-                    <a href="/Team:NUDT_CHINA/Integrated_Practices">Integrated Practices</a></li>
-                  <li>
-                    <a href="/Team:NUDT_CHINA/Engagement">Engagement</a></li>
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-              <h5 class="column-header">AWARDS</h5>
-              <div class="menu-link-container">
-                <ul>
-                  <li>
-                    <a href="/Team:NUDT_CHINA/Model">Model</a></li>
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-        <div class="row footer-link">
-<div class="medium-6 columns">
-            <img src="https://static.igem.org/mediawiki/2016/thumb/2/22/NUDT_CHINA2016_FILES-img-igem-logo.png/800px-NUDT_CHINA2016_FILES-img-igem-logo.png" style="width:300px;">
-            <div class="content-open" style="width:300px;">
-              <p class="intro" style="font-size:18px;line-height:30px;">
-			  <br/>No. 109 Deya Road, Kaifu District,
-<br/>Changsha, Hunan Province 410073
-<br/>P.R.China
-                </p>
-                  <!--ul class="arrow-list footer-support-links">
-                  <li><a href="/support/membership/">Become a member</a></li>
-                  <li><a href="/support/donate/">Donate now</a></li></ul--></div>
-          </div>
-          <div style="position:relative;left:250px;top:10px;width:500px;"><h5 style="color:white;">SPONSORS</h5></div>
-		  <div style="position:relative;left:0px;margin-left:600px;top:20px;">
-			<img style="width:300px;" src="https://static.igem.org/mediawiki/2016/d/dc/T--NUDT_CHINA--Factory1.png" /><br/><br/>
-			<img style="width:300px;" src="https://static.igem.org/mediawiki/2016/thumb/a/a2/T--NUDT_CHINA--Factory2.png/320px-T--NUDT_CHINA--Factory2.png" /><br/><br/>
-			<img style="width:300px;" src="https://static.igem.org/mediawiki/2016/a/a3/T--NUDT_CHINA--Factory3.png" />
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-            <span>COPYRIGHT &copy; &nbsp;2016 NUDT_CHINA</span></div>
-          <!-- end .columns -->
-          <!--div class="large-8 large-pull-10 medium-24 columns copyright">
-          <span>&copy;&nbsp;2016 Museum of Science and Industry, Chicago</span></div-->
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-        <!-- end .row --></footer>
-    </div>
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-<script>
-$(document).ready(function(){
-	/*alert("NUDT");
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-    <!-- <div style="border:solid 5px yellow;"><div class="row footer-link" style="border:solid 1px red;">ink</div></div>
-    -->
-  </body>
-</html>

Difference between revisions of "Team:NUDT CHINA/Model"

Revision as of 09:09, 16 October 2016