Team:UT Dallas/immunobot modeling

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The equations contain binding rate k_f L(R^T-C-2C_2 ), unbinding rate k_r C, dimerization rate k_dim C^2 and undimerization rate 2k_undim C_2, where k_f, k_r, k_dim and k_undim represent the rate constants for binding, unbinding, dimerization and undimerization reactions. The values of the parameters are obtained from (Forsten-Williams, Chua et al. 2005). Typical simulation results in response to L=1 µM are:
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The equations contain binding rate k<sub>f</sub>L(R<sup>T</sup>-C-2C<sub>2</sub> ), unbinding rate k<sub>r</sub>C, dimerization rate k<sub>dim</sub>C<sup>2</sup> and undimerization rate 2k<sub>undim</sub>C<sub>2</sub>, where k<sub>f</sub>, k<sub>r</sub>, k<sub>dim</sub> and k<sub>undim</sub> represent the rate constants for binding, unbinding, dimerization and undimerization reactions. The values of the parameters are obtained from (Forsten-Williams, Chua et al. 2005). Typical simulation results in response to L=1 µM are:
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<b>Module 2:</b> Transcription/translation of CheZ<br>
<b>Module 2:</b> Transcription/translation of CheZ<br>
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In this module, the dimerized complex C_2 activates the transcription of the cheZ mRNA. The reactions are the standard transcription and translation reactions illustrated as:<br>
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In this module, the dimerized complex C<sub>2</sub> activates the transcription of the cheZ mRNA. The reactions are the standard transcription and translation reactions illustrated as:<br>
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<img hight='30' src="https://static.igem.org/mediawiki/2011/0/0c/Equation5.jpg"><br>
<img hight='30' src="https://static.igem.org/mediawiki/2011/0/0c/Equation5.jpg"><br>
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Where k_0 represents the basal transcription rate of Z_m, k_1 represents the transcription rate activated by C_2, k_3 represents the translational rate of Z_p, and k_2 and k_4 represent the degradation rates of Z_m and Z_p. Typical simulation results are:<br>
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Where k<sub>0</sub> represents the basal transcription rate of Z<sub>m</sub>, k<sub>1</sub> represents the transcription rate activated by C<sub>2</sub>, k<sub>3</sub> represents the translational rate of Z<sub>p</sub>, and k<sub>2</sub> and k<sub>4</sub> represent the degradation rates of Z<sub>m</sub> and Z<sub>p</sub>. Typical simulation results are:<br>
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<img hight='30' src="https://static.igem.org/mediawiki/2011/a/a1/Equation9.png"><br>
<img hight='30' src="https://static.igem.org/mediawiki/2011/a/a1/Equation9.png"><br>
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Where Y^Tis the total concentration of the CheY protein, and k_p and k_d are the phosphorylation and the dephosphorylation rate constants of CheY. The parameter values are obtained from (Spiro, Parkinson et al. 1997). Typical simulation results are:<br>
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Where Y<sup>T</sup> is the total concentration of the CheY protein, and k<sub>p</sub> and k<sub>d</sub> are the phosphorylation and the dephosphorylation rate constants of CheY. The parameter values are obtained from (Spiro, Parkinson et al. 1997). Typical simulation results are:<br>
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Cluzel, P., M. Surette, et al. (2000). "An ultrasensitive bacterial motor revealed by monitoring signaling proteins in single cells." Science 287(5458): 1652-5.<br>
Cluzel, P., M. Surette, et al. (2000). "An ultrasensitive bacterial motor revealed by monitoring signaling proteins in single cells." Science 287(5458): 1652-5.<br>
Forsten-Williams, K., C. C. Chua, et al. (2005). "The kinetics of FGF-2 binding to heparan sulfate proteoglycans and MAP kinase signaling." J Theor Biol 233(4): 483-99.<br>
Forsten-Williams, K., C. C. Chua, et al. (2005). "The kinetics of FGF-2 binding to heparan sulfate proteoglycans and MAP kinase signaling." J Theor Biol 233(4): 483-99.<br>
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Spiro, P. A., J. S. Parkinson, et al. (1997). "A model of excitation and adaptation in bacterial chemotaxis." Proc Natl Acad Sci U S A 94(14): 7263-8.<br>
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Spiro, P. A., J. S. Parkinson, et al. (1997). "A model of excitation and adaptation in bacterial chemotaxis." Proc Natl Acad Sci U S A 94(14): 7263-8.<br><br><br>
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Latest revision as of 03:25, 29 September 2011