Team:SCU-China/Modeling
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<li ><a href="#Top">Back to top</a></li> | <li ><a href="#Top">Back to top</a></li> | ||
+ | <li ><a href="#1">Physical model Or Statistical model?</a></li> | ||
+ | <li ><a href="#2">Plan</a></li> | ||
</ul> </div> | </ul> </div> | ||
<div class="col-lg-8"> | <div class="col-lg-8"> | ||
- | <h1 | + | <h1 id="1">Physical model Or Statistical model?</h1><p>At first we want to make such a model only depending on physical tests with data derived from our experiments. The first step ,we need some data such as the force between the two molecules ,the structures of molecules ,the influent scale of different molecules ,some characters of our flowing cell culture and the endocellular matrix.</p><p>We applied many physical approaches to build the model we should get. During such a period ,we have divide space into many cells called boxes, and different molecules occupying different numbers of boxes. But it is too hard to get the main equation which can characterize most of the features we can refer to. Even if we can build such an equation, there are enough reasons to deny our model.</p><p>Maybe we got the wrong way to analyze life processes, which are so complicated that it confuses us. So we should seek another way to build the model. Swe can’t exactly describe the truth to predict all the changes, why not use the finite data to make a equation that can characterize a small scale of our model. So statistics provides us a good tool to build such a model.</p><p>We also detect if different reporter would influence our data.</p><p>The results are obvious.</p><p>Our experiments are discribled as follows.</p><h1 ID="2">Plan</h1><p>We describe factors which influences our final results as many parameters. These parameters are expected to include time, concentration of inducers, and the space. In terms of space ,we have other ideas to ignore it, for example using semipermeable membrane to isolate different cells to guarantee each kind of cell can be in the similar conditions as culturing it alone. Hence, there are only two influencing factors left now.</p><p>So all we need to do is to characterize .</p><p>R instead of final result, we detect the fluorescence intensities of our system as the recorded result.</p><p>T means the time we culture and induce the system.</p><p>C is the concentrations of our inductors</p><p>Here we investigated the fluorescence intensities with the inductor’s concentrations vary from 50uM to 100Mm (culture for 17h)</p><table class="table table-striped"><tr><td><p>Group 1</p> |
</td><td><p>61.06</p> | </td><td><p>61.06</p> | ||
</td><td><p>35.49</p> | </td><td><p>35.49</p> |
Latest revision as of 22:27, 17 October 2014