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− | <p>The simulation results show that we can indeed reach a steady state concentration in the root area, and that this concentration depends on the enzyme concentration. This relationship is sigmoidal; on a semi-log graph, the linear region ranges between 10-7 mM and 10-6 mM of catalase concentration (Figure 1,2). The time required to approach steady state is reasonably short, at around 45 minutes (Figure 3). </p> | + | <p>The simulation results show that we can indeed reach a steady state concentration in the root area, and that this concentration depends on the enzyme concentration. This relationship is sigmoidal; on a semi-log graph, the linear region ranges between 10<sup>-7</sup> mM and 10<sup>-6</sup> mM of catalase concentration (Figure 1,2). The time required to approach steady state is reasonably short, at around 45 minutes (Figure 3). </p> |
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<img class = "img-responsive" src="https://static.igem.org/mediawiki/2017/f/fd/T--Cornell--transientstate.png" alt= "modelfigure3"> | <img class = "img-responsive" src="https://static.igem.org/mediawiki/2017/f/fd/T--Cornell--transientstate.png" alt= "modelfigure3"> | ||
− | <p>Figure 3: Mean peroxide concentration around the plant vs. time for 6 *10-10 M of catalase</p> | + | <p>Figure 3: Mean peroxide concentration around the plant vs. time for 6 *10<sup>-10</sup> M of catalase</p> |
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Revision as of 06:08, 30 October 2017
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