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WGCNA (version 1.61)

sampledBlockwiseModules: Blockwise module identification in sampled data

Description

This function repeatedly resamples the samples (rows) in supplied data and identifies modules on the resampled data.

Usage

sampledBlockwiseModules(
  datExpr,
  nRuns,
  startRunIndex = 1,
  endRunIndex = startRunIndex + nRuns -1,
  replace = FALSE,
  fraction = if (replace) 1.0 else 0.63,
  randomSeed = 12345,
  checkSoftPower = TRUE,
  nPowerCheckSamples = 2000,
  skipUnsampledCalculation = FALSE,
  corType = "pearson",
  power = 6,
  networkType = "unsigned",
  saveTOMs = FALSE,
  saveTOMFileBase = "TOM",
  ...,
  verbose = 2, indent = 0)

Arguments

datExpr

Expression data. A matrix (preferred) or data frame in which columns are genes and rows ar samples.

nRuns

Number of network construction and module identification runs.

startRunIndex

Number to be assigned to the start run. The run number or index is used to make saved files unique; it has no effect on the actual results of the run.

endRunIndex

Number (index) of the last run. If given, nRuns is ignored.

replace

Logical: should samples (observations or rows in entries in multiExpr) be sampled with replacement?

fraction

Fraction of samples to sample for each run.

randomSeed

Integer specifying the random seed. If non-NULL, the random number generator state is saved before the seed is set and restored at the end of the function. If NULL, the random number generator state is not changed nor saved at the start, and not restored at the end.

checkSoftPower

Logical: should the soft-tresholding power be adjusted to approximately match the connectivity distribution of the sampled data set and the full data set?

nPowerCheckSamples

Number of genes to be sampled from the full data set to calculate connectivity and match soft-tresholding powers.

skipUnsampledCalculation

Logical: should a calculation on original (not resampled) data be skipped?

corType

Character string specifying the correlation to be used. Allowed values are (unique abbreviations of) "pearson" and "bicor", corresponding to Pearson and bidweight midcorrelation, respectively. Missing values are handled using the pairwise.complete.obs option.

power

Soft-thresholding power for network construction.

networkType

network type. Allowed values are (unique abbreviations of) "unsigned", "signed", "signed hybrid". See adjacency.

saveTOMs

Logical: should the networks (topological overlaps) be saved for each run? Note that for large data sets (tens of thousands of nodes) the TOM files are rather large.

saveTOMFileBase

Character string giving the base of the file names for TOMs. The actual file names will consist of a concatenation of saveTOMFileBase and "-run-<run number>-Block-<block number>.RData".

Other arguments to blockwiseModules.

verbose

integer level of verbosity. Zero means silent, higher values make the output progressively more and more verbose.

indent

indentation for diagnostic messages. Zero means no indentation, each unit adds two spaces.

Value

A list with one component per run. Each component is a list with the following components:

mods

The output of the function blockwiseModules applied to a resampled data set.

samples

Indices of the samples selected for the resampled data step for this run.

powers

Actual soft-thresholding powers used in this run.

Details

For each run, samples (but not genes) are randomly sampled to obtain a perturbed data set; a full network analysis and module identification is carried out, and the results are returned in a list with one component per run.

For each run, the soft-thresholding power can optionally be adjusted such that the mean adjacency in the re-sampled data set equals the mean adjacency in the original data.

References

An application of this function is described in the motivational example section of

Langfelder P, Horvath S (2012) Fast R Functions for Robust Correlations and Hierarchical Clustering. Journal of Statistical Software 46(11) 1-17; PMID: 23050260 PMCID: PMC3465711

See Also

blockwiseModules for the underlying network analysis and module identification;

sampledHierarchicalConsensusModules for a similar resampling analysis of consensus networks.