Team:Duke/Modeling/Codes/Thermo1
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Hyunsoo kim (Talk | contribs) (→Mathematical Modeling of Bistable Toggle Switch) |
Hyunsoo kim (Talk | contribs) (→Mathematical Modeling of Bistable Toggle Switch) |
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delEpd=Kb*T*log(Kspd/Knspd); %Binding energy between polymerase and DNA | delEpd=Kb*T*log(Kspd/Knspd); %Binding energy between polymerase and DNA | ||
- | Ksrd=(3)*10^-9; %TALE %dissociation constant for specific binding of repressor on DNA (TALE: 1/150nM~, paper example: 0.02) | + | Ksrd=(3)*10^-9; %TALE %dissociation constant for specific binding of repressor on DNA |
+ | (TALE: 1/150nM~, paper example: 0.02) | ||
Knsrd=10000; %dissociation constant for non-specific binding of repressor on DNA | Knsrd=10000; %dissociation constant for non-specific binding of repressor on DNA | ||
delErd=Kb*T*log(Ksrd/Knsrd); %Binding energy between repressor and DNA | delErd=Kb*T*log(Ksrd/Knsrd); %Binding energy between repressor and DNA | ||
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figure1=figure(1); | figure1=figure(1); | ||
% subplot(2,1,1),semilogx(R,Fold_Change1,'k.', R,fit1,'k-', R,Fold_Change3,'b.', R,fit3,'b-', R,Fold_Change5,'r.',R,fit5,'r-') | % subplot(2,1,1),semilogx(R,Fold_Change1,'k.', R,fit1,'k-', R,Fold_Change3,'b.', R,fit3,'b-', R,Fold_Change5,'r.',R,fit5,'r-') | ||
- | semilogx(R,Fold_Change1,'k.', R,fit1,'k-', R,Fold_Change3,'b.', R,fit3,'b-', R,Fold_Change5,'r.',R,fit5,'r-') | + | semilogx(R,Fold_Change1,'k.', R,fit1,'k-', R,Fold_Change3,'b.', R,fit3,'b-', R,Fold_Change5, |
+ | 'r.',R,fit5,'r-') | ||
axis([10^-6 10^5 0 1]) | axis([10^-6 10^5 0 1]) | ||
- | title(char('Thermodynamic Model and Apparent Hill Coefficient',' Fold Change vs Repressor Level (Lin - Log)')) | + | title(char('Thermodynamic Model and Apparent Hill Coefficient',' Fold Change vs Repressor Level |
+ | (Lin - Log)')) | ||
xlabel('R (number of repressor molecules)') | xlabel('R (number of repressor molecules)') | ||
ylabel('Fold-Change of P_b_o_u_n_d') | ylabel('Fold-Change of P_b_o_u_n_d') | ||
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<br><br><br> | <br><br><br> | ||
- |
Revision as of 09:36, 22 September 2013
Mathematical Modeling of Bistable Toggle Switch
Nns=5*10^6; %Number of non-specific sites Kb=1.3806*10^-23; %(JK-1) %Boltzman's constant T=298; %(K) %Temperature in Kelvin P=3000; %Number of RNA polymerase (2000-4000) Kspd=100*10^-9; %dissociation constant for specific binding of polymerase on DNA Knspd=10000; %dissociation constant for non-specific binding of polymerase on DNA delEpd=Kb*T*log(Kspd/Knspd); %Binding energy between polymerase and DNA Ksrd=(3)*10^-9; %TALE %dissociation constant for specific binding of repressor on DNA (TALE: 1/150nM~, paper example: 0.02) Knsrd=10000; %dissociation constant for non-specific binding of repressor on DNA delErd=Kb*T*log(Ksrd/Knsrd); %Binding energy between repressor and DNA R=logspace(-6, 5,100); %Number of repressors % R=linspace(0,100); Freg1=1./(1+(R./Nns).*exp(-delErd/(Kb*T))); %Regulation factor 1x (<1 for repression) Freg3=(1./(1+(R./Nns).*exp(-delErd/(Kb*T)))).^3; %Regulation factor 3x (<1 for repression) Freg5=(1./(1+(R./Nns).*exp(-delErd/(Kb*T)))).^5; %Regulation factor 5x (<1 for repression) p_bound_base=1./(1+(Nns/P)*exp(delEpd/(Kb*T))); %basal level p_bound_1=1./(1+(Nns./(P.*Freg1)).*exp(delEpd/(Kb*T))); %level with repressor bound (1x) p_bound_3=(1./(1+(Nns./(P.*Freg3)).*exp(delEpd/(Kb*T)))); %level with repressor bound (3x) p_bound_5=(1./(1+(Nns./(P.*Freg5)).*exp(delEpd/(Kb*T)))); %level with repressor bound (5x) Fold_Change1=p_bound_1./p_bound_base; %Fold Change 1x Fold_Change3=p_bound_3./p_bound_base; %Fold Change 3x Fold_Change5=p_bound_5./p_bound_base; %Fold Change 5x fit1=1./(0.0111.*(R).^1+1); fit3=1./(4.7215e9.*(R).^2.9929+1); fit5=1./(6.6001e20.*(R).^4.8635+1); figure1=figure(1); % subplot(2,1,1),semilogx(R,Fold_Change1,'k.', R,fit1,'k-', R,Fold_Change3,'b.', R,fit3,'b-', R,Fold_Change5,'r.',R,fit5,'r-') semilogx(R,Fold_Change1,'k.', R,fit1,'k-', R,Fold_Change3,'b.', R,fit3,'b-', R,Fold_Change5, 'r.',R,fit5,'r-') axis([10^-6 10^5 0 1]) title(char('Thermodynamic Model and Apparent Hill Coefficient',' Fold Change vs Repressor Level (Lin - Log)')) xlabel('R (number of repressor molecules)') ylabel('Fold-Change of P_b_o_u_n_d') %ylabel(char(' Fold-Change of P_b_o_u_n_d','(probability of Polymerase binding to promoter)')) legend('1x Binding Site Model','1x Binding Site Hill Function Fit', '3x Binding Site Model', '3x Binding Site Hill Function Fit', '5x Binding Site Model','5x Binding Site Hill Function Fit','Location','NorthEastOutside') % subplot(2,1,2),loglog(R,Fold_Change1,'k--', R,Fold_Change3,'b--', R,Fold_Change5,'r--') figure(2) loglog(R,Fold_Change1,'k--', R,Fold_Change3,'b--', R,Fold_Change5,'r--') axis([10^-6 10^5 10^-3 10^0]) title(char(' Thermodynamic Model and Sensitivity','Fold Change vs Repressor Level (Log - Log)')) legend('1x Binding Site', '3x Binding Site', '5x Binding Site','Location','NorthEastOutside') xlabel('R (number of repressor molecules)') ylabel('Fold-Change of P_b_o_u_n_d') % ylabel(char(' Fold-Change of P_b_o_u_n_d','(probability of Polymerase binding to promoter)'))