Here deposites the code for simulating gene expression noise modulated by microRNA as well as calculating gene expression noise from flow cytometry data.
This code is created and tested with MATLAB 2020b.
Run simulation/solve_noise.m
to simulate noise, and run simulation/plot_noise.m
to plot the result. An example of the result with default parameters is shown in simulation/sample_output
.
There are three types of preset miRNA regulation models, which can be set by the parameter type
in Line 7 of simulation/plot_noise.m
.
For competing RNAs, type = 1
; for repetitive targets of same miRNAs, type = 2
; for multiple targets of different miRNAs, type = 3
.
All parameters involved in the model should be set before simulation in the set fixed parameters
section. All parameters that should be altered for simulating different conditions should be set in the set altered parameters
section.
The simulation step size and range should be assigned in the set simulation parameters
section. The simulation range determines the range that the gene expression is simulated in by setting the production rate of the target gene’s mRNA (kT
). We recommend users to set a wide range with a large step size to quickly determine the lower and upper limit of the range, and then narrow the step size to gain a refined simulation result.
This code is created and tested with R 3.6.1. ggplot2 is necessary for visualizing the result.
Run flow_cytometry/plot.r
to calculate noise from the sample data in flow_cytometry/data
. Sample outputs are shown in flow_cytometry/result
.
For any issues, please contact [email protected]
.