How to create consensus network from SampledBlockwiseModules in WGCNA?
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as8020 • 0
@e3de3d4e
Last seen 2.3 years ago
United Kingdom

Hi, I have run the SampledBlockwiseModules function for WGCNA in order to subsample my data and create modules from it iteratively. I then relabeled modules in each of the resampling runs so that full and resampled modules with best overlaps have the same labels. So, I was wondering how do I create a consensus network from the relabeled module labels? What I'm trying to do is combine the results from each of the subsamples to create the most optimal and robust network.

Code should be placed in three backticks as shown below


#Resampling analysis of module stability
# Number of resampling runs

nRuns = 10
power = 12
deepSplit = 2
minModuleSize = 30
networkType = "signed"
TOMType = "unsigned"
TOMDenom = "mean"
reassignThreshold = 0
mergeCutHeight = 0.20


# Proportion of missing data. Not needed for the calculations, but useful to know.
propNA = sum(is.na(datExpr))/length(datExpr)
propNA

tmf1 = system.time ( {
  mods1 = sampledBlockwiseModules(
    datExpr = datExpr,
    nRuns = 10,
    replace = TRUE,
    fraction = 0.5,
    maxBlockSize = 30000,
    randomSeed = 12345,
    checkSoftPower = TRUE,
    nPowerCheckSamples = 2000,
    skipUnsampledCalculation = FALSE,
    corType = "pearson",
    power = 12,
    networkType = "signed",
    TOMType = "unsigned",
    TOMDenom = "mean",
    deepSplit = 2,
    mergeCutHeight = 0.20,
    saveTOMs = FALSE,
    saveTOMFileBase = "sampled.TOM" ) } )

# Print the timing results
print(tmf1)
# Save the resampled modules
save(tmf1, mods1, file = "sampledModuleExample-mods.RData")

#Run single iteration of network construction
slowAnalysis = function(datExpr)
{
  cor = stats::cor(datExpr, use = "p")
  cor[cor<0] = 0
  adj = cor^12
  dTOM = TOMdist(adj, TOMType = "unsigned", TOMDenom = "mean")
  collectGarbage()
  tree = stats::hclust(as.dist(dTOM), method = "a")
  labels = cutreeDynamic(tree, minClusterSize = 30, distM = dTOM, deepSplit = 2)
  mergedLabels = mergeCloseModules(datExpr, labels, cutHeight = 0.20)
  mergedLabels
}
tms = system.time({slowLabels = slowAnalysis(datExpr)})
print(tms)
collectGarbage()

#Visualisation of results

nGenes = ncol(datExpr)
nSamples = nrow(datExpr)
# Define a matrix of labels for the original and all resampling runs
labels = matrix(0, nGenes, nRuns + 1)
labels[, 1] = mods0[[1]]$mods$colors

# Relabel modules in each of the resampling runs so that full and resampled modules with best overlaps have
# the same labels. This is achieved by the function matchLabels.
pind = initProgInd()
for (r in 2:(nRuns+1))
{
  labels[, r] = matchLabels(mods0[[r]]$mods$colors, labels[, 1])
  pind = updateProgInd((r-1)/nRuns, pind)
}
# Save the results
save(labels, file = "sampledModuleExample-matchedLabels.RData")

sessionInfo( )

R version 4.2.0 (2022-04-22) -- "Vigorous Calisthenics"
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Platform: x86_64-pc-linux-gnu (64-bit)

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> sessionInfo()
R version 4.2.0 (2022-04-22)
Platform: x86_64-pc-linux-gnu (64-bit)
Running under: Ubuntu 20.04.3 LTS

Matrix products: default
BLAS:   /usr/lib/x86_64-linux-gnu/blas/libblas.so.3.9.0
LAPACK: /usr/lib/x86_64-linux-gnu/lapack/liblapack.so.3.9.0

locale:
 [1] LC_CTYPE=C.UTF-8       LC_NUMERIC=C           LC_TIME=C.UTF-8        LC_COLLATE=C.UTF-8    
 [5] LC_MONETARY=C.UTF-8    LC_MESSAGES=C.UTF-8    LC_PAPER=C.UTF-8       LC_NAME=C             
 [9] LC_ADDRESS=C           LC_TELEPHONE=C         LC_MEASUREMENT=C.UTF-8 LC_IDENTIFICATION=C   

attached base packages:
[1] stats     graphics  grDevices utils     datasets  methods   base     

loaded via a namespace (and not attached):
  [1] backports_1.4.1        Hmisc_4.7-0            scWGCNA_1.0.0          plyr_1.8.7            
  [5] igraph_1.3.2           lazyeval_0.2.2         sp_1.5-0               splines_4.2.0         
  [9] RApiSerialize_0.1.0    listenv_0.8.0          scattermore_0.8        GenomeInfoDb_1.32.2   
 [13] ggplot2_3.3.6          digest_0.6.29          foreach_1.5.2          htmltools_0.5.2       
 [17] GO.db_3.15.0           fansi_1.0.3            checkmate_2.1.0        magrittr_2.0.3        
 [21] memoise_2.0.1          tensor_1.5             cluster_2.1.3          doParallel_1.0.17     
 [25] ROCR_1.0-11            globals_0.15.1         fastcluster_1.2.3      Biostrings_2.64.0     
 [29] RcppParallel_5.1.5     matrixStats_0.62.0     spatstat.sparse_2.1-1  jpeg_0.1-9            
 [33] colorspace_2.0-3       blob_1.2.3             ggrepel_0.9.1          xfun_0.31             
 [37] dplyr_1.0.9            crayon_1.5.1           RCurl_1.98-1.7         jsonlite_1.8.0        
 [41] progressr_0.10.1       spatstat.data_2.2-0    impute_1.70.0          stringfish_0.15.7     
 [45] survival_3.2-13        zoo_1.8-10             iterators_1.0.14       glue_1.6.2            
 [49] polyclip_1.10-0        gtable_0.3.0           zlibbioc_1.42.0        XVector_0.36.0        
 [53] leiden_0.4.2           future.apply_1.9.0     BiocGenerics_0.42.0    abind_1.4-5           
 [57] scales_1.2.0           DBI_1.1.3              spatstat.random_2.2-0  miniUI_0.1.1.1        
 [61] Rcpp_1.0.8.3           htmlTable_2.4.0        viridisLite_0.4.0      xtable_1.8-4          
 [65] reticulate_1.25        spatstat.core_2.4-4    foreign_0.8-82         bit_4.0.4             
 [69] preprocessCore_1.58.0  Formula_1.2-4          stats4_4.2.0           htmlwidgets_1.5.4     
 [73] httr_1.4.3             RColorBrewer_1.1-3     ellipsis_0.3.2         Seurat_4.1.1          
 [77] ica_1.0-2              pkgconfig_2.0.3        nnet_7.3-17            uwot_0.1.11           
 [81] deldir_1.0-6           utf8_1.2.2             dynamicTreeCut_1.63-1  tidyselect_1.1.2      
 [85] rlang_1.0.3            reshape2_1.4.4         later_1.3.0            AnnotationDbi_1.58.0  
 [89] munsell_0.5.0          tools_4.2.0            cachem_1.0.6           cli_3.3.0             
 [93] generics_0.1.2         RSQLite_2.2.14         ggridges_0.5.3         stringr_1.4.0         
 [97] fastmap_1.1.0          goftest_1.2-3          knitr_1.39             bit64_4.0.5           
[101] fitdistrplus_1.1-8     purrr_0.3.4            hdWGCNA_0.1.1.9002     RANN_2.6.1            
[105] KEGGREST_1.36.2        pbapply_1.5-0          future_1.26.1          nlme_3.1-157          
[109] mime_0.12              compiler_4.2.0         rstudioapi_0.13        plotly_4.10.0         
[113] png_0.1-7              spatstat.utils_2.3-1   tibble_3.1.7           stringi_1.7.6         
[117] rgeos_0.5-9            lattice_0.20-45        Matrix_1.4-1           vctrs_0.4.1           
[121] pillar_1.7.0           lifecycle_1.0.1        spatstat.geom_2.4-0    lmtest_0.9-40         
[125] RcppAnnoy_0.0.19       data.table_1.14.2      cowplot_1.1.1          bitops_1.0-7          
[129] irlba_2.3.5            httpuv_1.6.5           patchwork_1.1.1        latticeExtra_0.6-29   
[133] R6_2.5.1               qs_0.25.3              promises_1.2.0.1       KernSmooth_2.23-20    
[137] gridExtra_2.3          IRanges_2.30.0         parallelly_1.32.0      codetools_0.2-18      
[141] MASS_7.3-57            assertthat_0.2.1       SeuratObject_4.1.0     sctransform_0.3.3     
[145] S4Vectors_0.34.0       GenomeInfoDbData_1.2.8 mgcv_1.8-40            parallel_4.2.0        
[149] grid_4.2.0             rpart_4.1.16           tidyr_1.2.0            Rtsne_0.16            
[153] base64enc_0.1-3        Biobase_2.56.0         shiny_1.7.1            WGCNA_1.71
NetworkInference SampledBlockWiseModules WGCNA • 778 views
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