Latest revision as of 03:43, 18 October 2014

Introduction

In our modeling efforts, we followed closely on our major 2 sub-projects,

Color Imaging and Motion Control

and their experimental connection.

Conjugation

Combing all the above, came the

C. imager Modeling.

The governing idea is that a model, intrinsically, should stare at the corresponding experiments, at the same time, go boldly beyond it. In this light, we built models not only deeply rooted in the experimental data, but also powerful of making audacious predictions.

In the Imaging part and the Motion Control part, we built models to simulate the behaviors of light-sensing, color-printing and motion-control genetic circuits, respectively.

On top of that, we attempted to build a procedure bridging the connection between a desired output image and the input image projected onto the bacteria. Also, in-depth modeling about motion control render us penetrating insights, clearly answering the question that how the sticky characteristic of C.C. could contribute to the clearance of output images.

Besides, as the experimental connection between the 2 sub-projects, process of conjugation is highly significant. Therefore, we elaborately established a model to analyze the concentration change of all types of bacterium involved in that process. Founded by concrete parameters extracting from experiments, it produced useful predictions to guide this experiment.

Despite the range, amount and power of our models, they also covered many mathematical & computational methods, ranging from ODE, phase-space analysis, agent-based model to Monte Carlo simulation. Furthermore, a variety types of figures and animations ensure the results vividly displayed.

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          <dl class="accordion" data-accordion>
            <dd class="accordion-navigation">
+             <a href="#panel">Modeling</a>
-             <a href="#panel1">Introduction</a>
+             <div id="panel" class="content active">
-             <div id="panel1" class="content active">
                <ul class="side-nav">
                  <li>
-                   <a href="https://2014.igem.org/Team:USTC-China/modeling/intro">Introduction</a>
+                   <a href="https://2014.igem.org/Team:USTC-China/modeling/color-model" class="active-a">
+                    Color Imaging
+                  </a>
+                </li>
+                <li>
+                  <a href="https://2014.igem.org/Team:USTC-China/modeling/motion-ctrl">
+                    Motion Control
+                  </a>
+                </li>
+                <li>
+                  <a href="https://2014.igem.org/Team:USTC-China/modeling/measurement">
+                    Motion Measurement
+                  </a>
+                </li>
+                <li>
+                  <a href="https://2014.igem.org/Team:USTC-China/modeling/conjugation">
+                    Conjugation Modeling
+                  </a>
+                </li>
+                <li>
+                  <a href="https://2014.igem.org/Team:USTC-China/modeling/cimager">
+                    C. imager Simulation
+                  </a>
                  </li>
-              </ul>
-            </div>
-          </dd>
-          <dd class="accordion-navigation">
-            <a href="#panel2">Colony Level</a>
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@@ Line 101: / Line 44: @@
+  <div class="large-9 columns" id="content-page">
+    <div class="title"><h1>Introduction</h1></div>
+    <div class="text">
+      <p>In our modeling efforts, we followed closely on our major 2 sub-projects,</p>
+        <p><b>Color Imaging</b> and <b> Motion Control</b></p>
+      <p>and their experimental connection.</p>
+        <p><b>Conjugation</b></p>
+      <p>Combing all the above, came the</p>
+        <p><b>C. imager Modeling.</b></p>
+<br>
+ <img src="https://static.igem.org/mediawiki/2014/f/ff/USTC_intro_model.png" width="500"/>
+       <p>The governing idea is that a model, intrinsically, should stare at the corresponding experiments, at the same time, go boldly beyond it. In this light, we built models not only deeply rooted in the experimental data, but also powerful of making audacious predictions.
+</p>
+<br/>
-    <div class="large-9 columns" id="content-page">
+      <p>In the Imaging part and the Motion Control part, we built models to simulate the behaviors of light-sensing, color-printing and motion-control genetic circuits, respectively. </p>
-      <div class="title"><h1>Overview</h1></div>
+<br/>
-       <div class="text">
+       <p>On top of that, we attempted to build a procedure bridging the connection between a desired output image and the input image projected onto the bacteria. Also, in-depth modeling about motion control render us penetrating insights, clearly answering the question that how the sticky characteristic of C.C. could contribute to the clearance of output images.</p>
-        <p>Modern "lithography" has made images vividly printed on pages and animations vigorously projected on screens. <br />
+<br/>
-          From that point, we move a step forward. Our project aims at conceiving and constructing a colorful bio-imaging system, on which once you project an image, ideally, the bio-system would exactly print it out on the substrate. <br />
+      <p>Besides, as the experimental connection between the 2 sub-projects, process of conjugation is highly significant. Therefore, we elaborately established a model to analyze the concentration change of all types of bacterium involved in that process. Founded by concrete parameters extracting from experiments, it produced useful predictions to guide this experiment.
-          To accomplish this, novel bio-bricks(light sensors &amp; color printers), Caulobacter crescentus(a sticky bacteria)and riboswitches were utilized to conceptually render it colorful,clear and compact. The results did prove this idea sound in principle, although further evaluation is required. <br />
+</p>
-          We have managed to build light sensing circuits of three color and a motion control device in C.crescentus. furthermore, RNA logical gates were built in vivo as substitutes for certain parts with hopefully unprecedented effectiveness.
+<br/>
-        </div>
+      <p>Despite the range, amount and power of our models, they also covered many mathematical  & computational methods, ranging from ODE, phase-space analysis, agent-based model to Monte Carlo simulation. Furthermore, a variety types of figures and animations ensure the results vividly displayed.</p>
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