Antriviral Application

Copy and past code from this page as a template for the res

   <section id="CRISPR Targeting" title="CRISPR Targeting">

Headers

Headers

Headers

   </section>

   <section id="CaMV Replication" title="CaMV Replication">

ODE System

DNA

$$\frac{d d_g}{dt} = k_v V (d_{max} - d_{total}) - \alpha_c d_g - k_g d_g - \gamma_d d_g$$ $$\frac{d d_c}{dt} = \alpha_c d_g - k_c d_c - \gamma_d d_c$$ $$\frac{d d_{gm}}{dt} = k_v V_m (d_{max} - d_{total}) - \alpha_c d_{gm} + k_g d_g - \gamma_d d_{gm}$$ $$\frac{d d_{cm}}{dt} = \alpha_c d_{gm} + k_c d_c - \gamma_d d_{cm}$$

RNA

$$\frac{d r_{19S}}{dt} = \alpha_{19S} d_c - (\gamma_{19S}+\gamma_{r}) r_{19S}$$ $$\frac{d r_{35S}}{dt} = \alpha_{35S} d_c - k_p p_4 p_5 f_u r_{35S} - (\gamma_{35S}+\gamma_{r}) r_{35S}$$ $$\frac{d r_{35Sm}}{dt} = \alpha_{35S} d_{cm} - k_p p_4 p_5 f_u r_{35Sm} - (\gamma_{35S}+\gamma_{r}) r_{35Sm}$$

Protein

$$\frac{d p_3}{dt} = \beta_3 \left( \frac{p_6}{p_6+K_6} \right) (r_{35S} + r_{35Sm}) - k_a p_3 (V_i+V_{im}) - \delta_3 p_3$$ $$\frac{d p_4}{dt} = \beta_4 \left( \frac{p_6}{p_6+K_6} \right) (r_{35S} + r_{35Sm}) - k_p p_4 p_5 f_u (r_{35S} + r_{35Sm}) - \delta_4 p_4$$ $$\frac{d p_5}{dt} = \beta_5 \left( \frac{p_6}{p_6+K_6} \right) (r_{35S} + r_{35Sm}) - k_p p_4 p_5 f_u (r_{35S} + r_{35Sm}) - \delta_5 p_5$$ $$\frac{d p_6}{dt} = \beta_6 r_{19S} - \delta_6 p_6$$

Virions

$$\frac{d V_i}{dt} = k_p p_4 p_5 f_u r_{35S} - k_a p_3 V_i$$ $$\frac{d V}{dt} = k_a p_3 V_i - k_v V (d_{max} - d_{total}) - v_e V - \delta_v V$$ $$\frac{d V_{im}}{dt} = k_p p_4 p_5 f_u r_{35Sm} - k_a p_3 V_{im}$$ $$\frac{d V_m}{dt} = k_a p_3 V_{im} - k_v V_m (d_{max} - d_{total}) - v_e V_m - \delta_v V_m$$

Algebraic Equations

$$d_{total} = d_g + d_c + d_{gm} + d_{cm}$$ $$\gamma_r = \frac{L}{1+e^{k (p_6-x_0)}}$$ $$x_0 = \frac{1}{2} p_6 ^{ss}$$ $$p_6 ^{ss} = \frac{\beta_6}{\delta_6} \frac{\alpha_{19}}{\gamma_{19}} d_{max}$$

Parameters

               <section id="table" title="Table">

Parameter Table

Here are the parameters for the model

<thead> </thead> <tbody> </tbody>

Symbol	Value	Units	Description
$k_v$	0.1	min$^{-1}$	Rate at which virions produced by the cell reinfect the nucleus.
$d_{max}$	100/vol	molecules/volume	Maximum concentration of viral genomes in the nucleus.
$\alpha_c$	0.1	min$^{-1}$	Rate at which gaps are repaired in gapped DNA to form cccDNA.
$k_g$	0.01	min$^{-1}$	Rate at which the P6 gene on the gapped DNA is modified.
$k_c$	0.01	min$^{-1}$	Rate at which the P6 gene on cccDNA is modified.
$\gamma_d$	0.001	min$^{-1}$	DNA Degradation rate.
$\alpha_{19S}$	0.01	min$^{-1}$	Transcription rate of 19S RNA.
$\alpha_{35S}$	0.05	min$^{-1}$	Transcription rate of 35S RNA.
$\gamma_{19S}$	0.001	min$^{-1}$	Degradation rate of 19S RNA.
$\gamma_{35S}$	0.001	min$^{-1}$	Degradation rate of 35S RNA.
$f_u$	0.3	unitless	Fraction of unspliced 35S RNA in the cell (assumed at equilibrium).
$\beta_3$	0.1	min$^{-1}$	Translation rate of P3.
$\beta_4$	0.1	min$^{-1}$	Translation rate of P4.
$\beta_5$	0.1	min$^{-1}$	Translation rate of P5.
$\beta_6$	0.1	min$^{-1}$	Translation rate of P6.
$K_6$	1000	molecules/volume	Half-saturation constant for transactivation of P1-P5 production.
$\delta_3$	0.001	min$^{-1}$	Degradation rate of P3.
$\delta_4$	0.001	min$^{-1}$	Degradation rate of P4.
$\delta_5$	0.001	min$^{-1}$	Degradation rate of P5.
$\delta_6$	0.001	min$^{-1}$	Degradation rate of P6.
$k_p$	0.1	???	Packaging rate.
$k_a$	0.1	???	Rate of P3 anchoring to virions.
$v_e$	0.1	min$^{-1}$	Rate at which virions exit the cell.
$\delta_v$	0.001	min$^{-1}$	Rate of virion degradation.

           </section>

Assumptions

Headers

   </section>

   <section id="Intercellular Spread" title="Intercellular Spread">

Headers

Headers

Headers

   </section>

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