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

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<p>To answer this question, a degradation rate of linear DNA (<span class="math"><em>k</em><sub><em>d</em></sub></span>) was added to the model. Since we did not find any reference about the value of <span class="math"><em>k</em><sub><em>d</em></sub></span> for <em>E. coli</em> we considered <span class="math"><em>k</em><sub><em>d</em></sub></span> as a free parameter. Despite of the fact we do not have a good estimative of this parameter, it is well known that linear DNA degradation rate is lower than RNA degradation rate (<span class="math"><em>k</em><sub><em>d</em><em>R</em><em>N</em><em>A</em></sub></span>). So, we varied the parameter from zero to values close to <span class="math"><em>k</em><sub><em>d</em><em>R</em><em>N</em><em>A</em></sub></span>.</p>
<p>To answer this question, a degradation rate of linear DNA (<span class="math"><em>k</em><sub><em>d</em></sub></span>) was added to the model. Since we did not find any reference about the value of <span class="math"><em>k</em><sub><em>d</em></sub></span> for <em>E. coli</em> we considered <span class="math"><em>k</em><sub><em>d</em></sub></span> as a free parameter. Despite of the fact we do not have a good estimative of this parameter, it is well known that linear DNA degradation rate is lower than RNA degradation rate (<span class="math"><em>k</em><sub><em>d</em><em>R</em><em>N</em><em>A</em></sub></span>). So, we varied the parameter from zero to values close to <span class="math"><em>k</em><sub><em>d</em><em>R</em><em>N</em><em>A</em></sub></span>.</p>
<p>The variable we are interested in optimizing is the concentration of the plug and play plasmids with the ORF inserted. This variable is presented as a function of the degradation rate <span class="math"><em>k</em><sub><em>d</em></sub></span> and ORF concentration in figure 3 and 4, for CRE and FLP, respectively. The value of RNA degradation rate is indicated by a red arrow.</p>
<p>The variable we are interested in optimizing is the concentration of the plug and play plasmids with the ORF inserted. This variable is presented as a function of the degradation rate <span class="math"><em>k</em><sub><em>d</em></sub></span> and ORF concentration in figure 3 and 4, for CRE and FLP, respectively. The value of RNA degradation rate is indicated by a red arrow.</p>
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{{:Team:USP-UNESP-Brazil/Templates/RImage | image=ORFxc.jpg | caption=<p>Fig. 3. The concentration of plasmids with the ORF inserted as a function of ORF mass in concentration and <span class="math"><em>c</em></span> (the fraction of ORF concentration that enters in the bacteria) for CRE recombinase. We suppose that eletroporation was done in a solution of 50 <span class="math"><em>μ</em><em>L</em></span>.</p>
{{:Team:USP-UNESP-Brazil/Templates/RImage | image=ORFxc.jpg | caption=<p>Fig. 3. The concentration of plasmids with the ORF inserted as a function of ORF mass in concentration and <span class="math"><em>c</em></span> (the fraction of ORF concentration that enters in the bacteria) for CRE recombinase. We suppose that eletroporation was done in a solution of 50 <span class="math"><em>μ</em><em>L</em></span>.</p>
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| size=600px }}
 
{{:Team:USP-UNESP-Brazil/Templates/RImage | image=ORFxc_flp.jpg | caption=Fig. 4. Same as figure \ref{fig:ORFxc} but for FLP recombinase. | size=600px }}
{{:Team:USP-UNESP-Brazil/Templates/RImage | image=ORFxc_flp.jpg | caption=Fig. 4. Same as figure \ref{fig:ORFxc} but for FLP recombinase. | size=600px }}
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<p>For CRE recombinase, linear DNA degradation do not play a fundamental role in this process and could even be disregarded, figure . This may occur because the circularization of linear DNA by recombinases is faster than the degradation of it. For FLP, however, linear DNA degradation is an important effect and must be taken in account, figure . This occurs because the association of the first and second monomers for CRE is significantly higher than for FLP.</p>
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<p>For CRE recombinase, linear DNA degradation do not play a fundamental role in this process and could even be disregarded, figure 3. This may occur because the circularization of linear DNA by recombinases is faster than the degradation of it. For FLP, however, linear DNA degradation is an important effect and must be taken in account, figure 4. This occurs because the association of the first and second monomers for CRE is significantly higher than for FLP.</p>
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<p>In the following analysis we evaluated the concentration of plasmids with the ORF as a function of the mass of ORF in the solution during eletroporation and the variable <span class="math"><em>c</em></span> (the fraction of ORF concentration that enters in the bacteria), Figs 5 and 6. We are interested in concentrations of plug and play plasmids with the ORF inserted higher than <span class="math">1</span> <span class="math"><em>n</em><em>M</em></span> which means that, in average, there will be at least one plasmid with the ORF in the bacterium, represented by the red region on the Figs. 5 and 6. According to our results an amount of <span class="math">10000</span> <span class="math"><em>n</em><em>g</em></span> of DNA might be satisfactory when using CRE. Nevertheless, when using FLP this amount might not be enough and the amount needed is highly dependent of the linear DNA degradation rate.</p>
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<p>One possible strategy to improve the recombination without increasing this amount of DNA is to reduce the volume of the solution before eletroporation, which increase the ORF concentration in the solution. Values lower than <span class="math">10000</span> <span class="math"><em>n</em><em>g</em></span> of DNA may also be satisfactory since the ORF has a antibiotics resistance gene and once the ORF had been inserted the bacteria tend to keep and replicate the plasmid.</p>
{{:Team:USP-UNESP-Brazil/Templates/RImage | image=ORFxkd.jpg | caption=<p>Fig. 5. The concentration of plasmids with the ORF inserted as a function of degradation rate and ORF concentration for CRE recombinase. The red arrow indicates the RNA degradation rate <span class="math"><em>k</em><sub><em>d</em><em>R</em><em>N</em><em>A</em></sub> = 0. 0023</span> <span class="math">1 / <em>s</em></span>.</p> | size=600px }}
{{:Team:USP-UNESP-Brazil/Templates/RImage | image=ORFxkd.jpg | caption=<p>Fig. 5. The concentration of plasmids with the ORF inserted as a function of degradation rate and ORF concentration for CRE recombinase. The red arrow indicates the RNA degradation rate <span class="math"><em>k</em><sub><em>d</em><em>R</em><em>N</em><em>A</em></sub> = 0. 0023</span> <span class="math">1 / <em>s</em></span>.</p> | size=600px }}
{{:Team:USP-UNESP-Brazil/Templates/RImage | image=ORFxkd_flp.jpg | caption=Fig. 6. Same as figure \ref{fig:ORFxkd} but for FLP recombinase. | size=600px }}
{{:Team:USP-UNESP-Brazil/Templates/RImage | image=ORFxkd_flp.jpg | caption=Fig. 6. Same as figure \ref{fig:ORFxkd} but for FLP recombinase. | size=600px }}
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<p>In the following analysis we evaluated the concentration of plasmids with the ORF as a function of the mass of ORF in the solution during eletroporation and the variable <span class="math"><em>c</em></span> (the fraction of ORF concentration that enters in the bacteria), Figs  and . We are interested in concentrations of plug and play plasmids with the ORF inserted higher than <span class="math">1</span> <span class="math"><em>n</em><em>M</em></span> which means that, in average, there will be at least one plasmid with the ORF in the bacterium, represented by the red region on the Figs.  and . According to our results an amount of <span class="math">10000</span> <span class="math"><em>n</em><em>g</em></span> of DNA might be satisfactory when using CRE. Nevertheless, when using FLP this amount might not be enough and the amount needed is highly dependent of the linear DNA degradation rate.</p>
 
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<p>One possible strategy to improve the recombination without increasing this amount of DNA is to reduce the volume of the solution before eletroporation, which increase the ORF concentration in the solution. Values lower than <span class="math">10000</span> <span class="math"><em>n</em><em>g</em></span> of DNA may also be satisfactory since the ORF has a antibiotics resistance gene and once the ORF had been inserted the bacteria tend to keep and replicate the plasmid.</p>
 
<h1 id="discussion">Discussion</h1>
<h1 id="discussion">Discussion</h1>

Revision as of 17:33, 24 September 2012