Team:USP-UNESP-Brazil/Plasmid Plug n Play/Modeling

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<li><p><span class="math">[<em>S</em>]<sub>0</sub></span> - initial concentration of ORF inside bacterium</p></li>
<li><p><span class="math">[<em>S</em>]<sub>0</sub></span> - initial concentration of ORF inside bacterium</p></li>
</ul>
</ul>
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<p>To estimate the concentration of the variables, we need the volume of <em>E coli</em>. According to [2]<br /><span class="math"><em>V</em><sub><em>e</em><em>c</em></sub> = 0.7*10<sup>−15</sup><em>L</em></span><br />. Using this, it is possible to estimate the concentration of one molecule inside the bacterium in molar concentration (<br /><span class="math">1<em>M</em> = 1<em>m</em><em>o</em><em>l</em> / 1<em>L</em> = 6 * 10<sup>23</sup><em>m</em><em>o</em><em>l</em><em>e</em><em>c</em><em>u</em><em>l</em><em>e</em><em>s</em> / <em>L</em></span><br />).</p>
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<p>To estimate the concentration of the variables, we need the volume of <em>E coli</em>. According to [2]<br /><span class="math"><em>V</em><sub><em>e</em><em>c</em></sub> = 0.7*10<sup>−15</sup><em>L</em></span><br />. Using this, it is possible to estimate the concentration of one molecule inside the bacterium in molar concentration <br /><span class="math">1<em>M</em> = 1<em>m</em><em>o</em><em>l</em> / 1<em>L</em> = 6*10<sup>23</sup><em>m</em><em>o</em><em>l</em><em>e</em><em>c</em><em>u</em><em>l</em><em>e</em><em>s</em> / <em>L</em></span><br /></p>
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<p><br /><span class="math">$[1 molec] = 1/(0.7*10^{-15} L) = \frac{1}{6*10^{23}  
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<p><br /><span class="math">$[1 molec] = \frac{1}{0.7*10^{-15} L} = \frac{1}{6*10^{23}  
0.7*10^{-15}}M \simeq 10^{-9} M = 1 nM$</span><br /></p>
0.7*10^{-15}}M \simeq 10^{-9} M = 1 nM$</span><br /></p>

Revision as of 18:01, 23 September 2012