Description Usage Arguments Value Examples
Create an RacipeSE object. RacipeSE is an S4 class for
Random Circuit Perturbation (RACIPE) simulations of networks in which a large
number of models with randomized parameters are used for simulation of the
circuit. Each model can be considered as a sample.
It extends the SummarizedExperiment class to store and access
the circuit, simulated gene expressions, parameters, intial conditions and
other meta information.
SummarizedExperiment slot assays is used for storing simulated
gene expressions. The rows of these
matrix-like elements correspond to various genes in the circuit and columns
correspond to models.
The first element is used for unperturbed deterministic
simulations. The subsequent elements are used for stochastic simulations
at different noise levels and/or knockout simulations.
SummarizedExperiment slot rowData stores the circuit topology. It is a square
matrix with dimension equal to the number of genes in the circuit. The values
of the matrix represent the type of interaction in the gene pair given by
row and column. 1 represents activation, 2 inhibition and 0 no interaction.
This should not be set directly and sracipeCircuit
accessor should be used instead.
SummarizedExperiment slot colData contains the parameters
and initial conditions for each
model. Each gene in the circuit has two parameters, namely, its production
rate and its degradation rate. Each interaction in the has three parameters,
namely, threshold of activation, the hill coefficient, and the fold change.
Each gene has one or more initial gene expression values as specified
by nIC. This should not be modified directly and sracipeParams
and sracipeIC
accessors should be used instead.
SummarizedExperiment slot metadata Contains metadata
information especially the config list
(containing the simulation settings), annotation, nInteraction (number of
interactions in the circuit), normalized (whether the data is normalized or
not), data analysis lists like pca, umap, cluster assignment of the models
etc. The config list includes simulation parameters like integration method
(stepper) and other lists or vectors like simParams,
stochParams, hyperParams, options, thresholds etc.
The list simParams contains values for parameters like the
number of models (numModels),
simulation time (simulationTime), step size for simulations
(integrateStepSize), when to start recording the gene expressions
(printStart), time interval between recordings (printInterval), number of
initial conditions (nIC), output precision (outputPrecision), tolerance for
adaptive runge kutta method (rkTolerance), parametric variation (paramRange).
The list stochParams contains the parameters for stochastic simulations like
the number of noise levels to be simulated (nNoise), the ratio of subsequent
noise levels (noiseScalingFactor), maximum noise (initialNoise), whether to
use same noise for all genes or to scale it as per the median expression of
the genes (scaledNoise), ratio of shot noise to additive noise (shotNoise).
The list hyperParams contains the parameters like the minimum and maximum
production and degration of the genes, fold change, hill coefficient etc.
The list options includes logical values like annealing (anneal), scaling of
noise (scaledNoise), generation of new initial conditions (genIC), parameters
(genParams) and whether to integrate or not (integrate). The user
modifiable simulation options can be specified as arguments to
sracipeSimulate
function.
1 2 3 4 5 6 7 8 |
.object |
(optional) Another RacipeSE object. |
assays |
(optional) assay object for initialization |
rowData |
(optional) rowData for initialization |
colData |
(optional) colData for initialization |
metadata |
(optional) metadata for initialization |
... |
Arguments passed to SummarizedExperiment |
RacipeSE object
1 | rSet <- RacipeSE()
|
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