Last updated: 2022-01-05

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Knit directory: single-cell-topics/analysis/

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This is a more systematic comparison of the new fastTopics DE analysis with MAST and DESeq2 based on an initial smaller simulation. The results were generated using the run_sims.R script, and here we summarize the results of these simulations.

Load the packages needed for this analysis, and some additional functions used to compile the results and generate the plots.

library(Matrix)
library(Seurat)
library(DESeq2)
library(MAST)
library(fastTopics)
library(ggplot2)
library(cowplot)
source("../code/de_analysis_functions.R")

Load the results of the simulations.

load("../output/sims/sims-k=2-alpha=0.01.RData")

These were the R packages used to run the simulations:

res$session.info
# R version 4.1.0 (2021-05-18)
# Platform: x86_64-pc-linux-gnu (64-bit)
# Running under: Scientific Linux 7.4 (Nitrogen)
# 
# Matrix products: default
# BLAS/LAPACK: /software/openblas-0.3.13-el7-x86_64/lib/libopenblas_haswellp-r0.3.13.so
# 
# locale:
#  [1] LC_CTYPE=en_US.UTF-8       LC_NUMERIC=C              
#  [3] LC_TIME=en_US.UTF-8        LC_COLLATE=en_US.UTF-8    
#  [5] LC_MONETARY=en_US.UTF-8    LC_MESSAGES=en_US.UTF-8   
#  [7] LC_PAPER=en_US.UTF-8       LC_NAME=C                 
#  [9] LC_ADDRESS=C               LC_TELEPHONE=C            
# [11] LC_MEASUREMENT=en_US.UTF-8 LC_IDENTIFICATION=C       
# 
# attached base packages:
# [1] stats4    tools     stats     graphics  grDevices utils     datasets 
# [8] methods   base     
# 
# other attached packages:
#  [1] fastTopics_0.6-97           MAST_1.20.0                
#  [3] SeuratObject_4.0.2          Seurat_4.0.3               
#  [5] DESeq2_1.34.0               scran_1.22.1               
#  [7] scuttle_1.4.0               SingleCellExperiment_1.16.0
#  [9] SummarizedExperiment_1.24.0 Biobase_2.54.0             
# [11] GenomicRanges_1.46.0        GenomeInfoDb_1.30.0        
# [13] IRanges_2.28.0              S4Vectors_0.32.0           
# [15] BiocGenerics_0.40.0         MatrixGenerics_1.6.0       
# [17] matrixStats_0.60.1          Matrix_1.3-3               
# 
# loaded via a namespace (and not attached):
#   [1] utf8_1.2.1                reticulate_1.20          
#   [3] tidyselect_1.1.1          RSQLite_2.2.8            
#   [5] AnnotationDbi_1.56.1      htmlwidgets_1.5.3        
#   [7] grid_4.1.0                BiocParallel_1.28.0      
#   [9] Rtsne_0.15                munsell_0.5.0            
#  [11] ScaledMatrix_1.2.0        codetools_0.2-18         
#  [13] ica_1.0-2                 statmod_1.4.36           
#  [15] future_1.21.0             miniUI_0.1.1.1           
#  [17] colorspace_2.0-2          rstudioapi_0.13          
#  [19] ROCR_1.0-11               tensor_1.5               
#  [21] listenv_0.8.0             GenomeInfoDbData_1.2.7   
#  [23] mixsqp_0.3-43             polyclip_1.10-0          
#  [25] MCMCpack_1.6-0            bit64_4.0.5              
#  [27] coda_0.19-4               parallelly_1.26.1        
#  [29] vctrs_0.3.8               generics_0.1.0           
#  [31] R6_2.5.0                  rsvd_1.0.5               
#  [33] invgamma_1.1              locfit_1.5-9.4           
#  [35] bitops_1.0-7              spatstat.utils_2.2-0     
#  [37] cachem_1.0.5              DelayedArray_0.20.0      
#  [39] assertthat_0.2.1          promises_1.2.0.1         
#  [41] scales_1.1.1              gtable_0.3.0             
#  [43] beachmat_2.10.0           globals_0.14.0           
#  [45] conquer_1.0.2             goftest_1.2-2            
#  [47] mcmc_0.9-7                rlang_0.4.11             
#  [49] MatrixModels_0.5-0        genefilter_1.76.0        
#  [51] splines_4.1.0             lazyeval_0.2.2           
#  [53] spatstat.geom_2.2-0       reshape2_1.4.4           
#  [55] abind_1.4-5               httpuv_1.6.1             
#  [57] ggplot2_3.3.5             ellipsis_0.3.2           
#  [59] spatstat.core_2.2-0       RColorBrewer_1.1-2       
#  [61] ggridges_0.5.3            Rcpp_1.0.7               
#  [63] plyr_1.8.6                sparseMatrixStats_1.6.0  
#  [65] progress_1.2.2            zlibbioc_1.40.0          
#  [67] purrr_0.3.4               RCurl_1.98-1.5           
#  [69] prettyunits_1.1.1         rpart_4.1-15             
#  [71] deldir_0.2-10             pbapply_1.4-3            
#  [73] ashr_2.2-51               cowplot_1.1.1            
#  [75] zoo_1.8-9                 ggrepel_0.9.1            
#  [77] cluster_2.1.2             magrittr_2.0.1           
#  [79] data.table_1.14.0         scattermore_0.7          
#  [81] SparseM_1.81              lmtest_0.9-38            
#  [83] RANN_2.6.1                truncnorm_1.0-8          
#  [85] SQUAREM_2021.1            fitdistrplus_1.1-5       
#  [87] hms_1.1.0                 patchwork_1.1.1          
#  [89] mime_0.11                 xtable_1.8-4             
#  [91] XML_3.99-0.6              gridExtra_2.3            
#  [93] compiler_4.1.0            tibble_3.1.2             
#  [95] KernSmooth_2.23-20        crayon_1.4.1             
#  [97] htmltools_0.5.1.1         mgcv_1.8-35              
#  [99] later_1.2.0               tidyr_1.1.3              
# [101] geneplotter_1.72.0        RcppParallel_5.1.4       
# [103] DBI_1.1.1                 MASS_7.3-54              
# [105] quadprog_1.5-8            parallel_4.1.0           
# [107] metapod_1.2.0             igraph_1.2.6             
# [109] pkgconfig_2.0.3           plotly_4.9.4.1           
# [111] spatstat.sparse_2.0-0     annotate_1.72.0          
# [113] dqrng_0.3.0               XVector_0.34.0           
# [115] stringr_1.4.0             digest_0.6.27            
# [117] sctransform_0.3.2         RcppAnnoy_0.0.18         
# [119] spatstat.data_2.1-0       Biostrings_2.62.0        
# [121] leiden_0.3.8              uwot_0.1.10              
# [123] edgeR_3.36.0              DelayedMatrixStats_1.16.0
# [125] shiny_1.6.0               quantreg_5.86            
# [127] lifecycle_1.0.0           nlme_3.1-152             
# [129] jsonlite_1.7.2            BiocNeighbors_1.12.0     
# [131] viridisLite_0.4.0         limma_3.50.0             
# [133] fansi_0.5.0               pillar_1.6.1             
# [135] lattice_0.20-44           KEGGREST_1.34.0          
# [137] fastmap_1.1.0             httr_1.4.2               
# [139] survival_3.2-11           glue_1.4.2               
# [141] png_0.1-7                 bluster_1.4.0            
# [143] bit_4.0.4                 stringi_1.6.2            
# [145] blob_1.2.1                BiocSingular_1.10.0      
# [147] memoise_2.0.0             dplyr_1.0.7              
# [149] irlba_2.3.3               future.apply_1.7.0

Since we are comparing with MAST and DESeq2, two methods that do not allow for partial membership to groups, we have simulated count data from a topic model in which the true topic proportions are all 0 or 1, or mostly very close to 0 or 1.

res["session.info"] <- NULL
x <- combine_sim_res(res,function (x) apply(x$dat$L,1,max))
mean(x > 0.99)
# [1] 0.98625

Before comparing the methods, first we assess accuracy of the Monte Carlo computations by comparing the estimates from two independent MCMC simulations. The estimates from the two independent simulations are largely consistent.

pdat <- data.frame(lfc1 = combine_sim_res(res,function (x) x$de1$postmean[,2]),
                   lfc2 = combine_sim_res(res,function (x) x$de2$postmean[,2]),
                   z1   = combine_sim_res(res,function (x) x$de1$z[,2]),
           z2   = combine_sim_res(res,function (x) x$de2$z[,2]))
p1 <- ggplot(pdat,aes(x = lfc1,y = lfc2)) +
  geom_point(color = "dodgerblue",shape = 4,size = 0.75) +
  geom_abline(intercept = 0,slope = 1,linetype = "dotted") +
  labs(x = "first posterior mean",y = "second posterior mean") +
  theme_cowplot(font_size = 12)
p2 <- ggplot(pdat,aes(x = z1,y = z2)) +
  geom_point(color = "dodgerblue",shape = 4,size = 0.75) +
  geom_abline(intercept = 0,slope = 1,linetype = "dotted") +
  labs(x = "first z-score estimate",y = "second z-score estimate") +
  xlim(-45,42) + 
  ylim(-45,42) + 
  theme_cowplot(font_size = 12)
plot_grid(p1,p2)

Version Author Date
10fc0dc Peter Carbonetto 2022-01-05

Now we compare LFC estimates for the second topic:

j  <- paste0("g",1:10000)
lfc.deseq <- combine_sim_res(res,function (x) x$deseq$log2FoldChange)
lfc.fasttopics <- combine_sim_res(res,function (x) x$de1$postmean[,2])
lfc.mast <- combine_sim_res(res,function (x) x$mast[j,"avg_log2FC"])
z.deseq <- combine_sim_res(res,function (x) with(x$deseq,log2FoldChange/lfcSE))
z.fasttopics <- combine_sim_res(res,function (x) x$de1$z[,2])
pdat <- data.frame(lfc.deseq      = lfc.deseq,
                   lfc.fasttopics = lfc.fasttopics,
                   lfc.mast       = clamp(lfc.mast,-6,+6),
                   z.deseq        = z.deseq,
                   z.fasttopics   = z.fasttopics)
p1 <- ggplot(pdat,aes(x = lfc.mast,y = lfc.fasttopics)) +
  geom_point(color = "dodgerblue",shape = 4,size = 0.75) +
  geom_abline(intercept = 0,slope = 1,linetype = "dotted") +
  labs(x = "MAST",y = "fastTopics",title = "LFC estimates") +
  theme_cowplot(font_size = 12)
p2 <- ggplot(pdat,aes(x = lfc.deseq,y = lfc.fasttopics)) +
  geom_point(color = "dodgerblue",shape = 4,size = 0.75) +
  geom_abline(intercept = 0,slope = 1,linetype = "dotted") +
  labs(x = "DESeq2",y = "fastTopics",title = "LFC estimates") +
  theme_cowplot(font_size = 12)
p3 <- ggplot(pdat,aes(x = z.deseq,y = z.fasttopics)) +
  geom_point(color = "dodgerblue",shape = 4,size = 0.75) +
  geom_abline(intercept = 0,slope = 1,linetype = "dotted") +
  labs(x = "DESeq2",y = "fastTopics",title = "z-scores") +
  theme_cowplot(font_size = 12)
plot_grid(p1,p2,p3,nrow = 1,ncol = 3)

Version Author Date
10fc0dc Peter Carbonetto 2022-01-05

The fastTopics and DESeq2 estimates are very similar across the board, whereas the MAST estimare are broadly correlated, but show a number of large differences.

Compare the MAST, DESeq2 and fastTopics p-values (or s-values), separately for all true positives (dark blue) and true negatives (orange). Not surprisingly, the DESeq2 and fastTopics s-value distributions are also very similar.

deseq       <- combine_sim_res(res,function (x) x$deseq$svalue)
fasttopics  <- combine_sim_res(res,function (x) x$de1$svalue[,2])
mast        <- combine_sim_res(res,function (x) x$mast[j,"p_val"])
nonzero_lfc <-
  combine_sim_res(res,function (x) with(x$dat,abs(F[,1] - F[,2]) > 1e-8))
pdat <- data.frame(deseq       = deseq,
                   fasttopics  = fasttopics,
                   mast        = mast,
                   nonzero_lfc = factor(nonzero_lfc))
p4 <- ggplot(pdat,aes(x = mast,color = nonzero_lfc,fill = nonzero_lfc)) +
  geom_histogram(bins = 64,show.legend = FALSE) +
  scale_color_manual(values = c("darkorange","darkblue")) +
  scale_fill_manual(values = c("darkorange","darkblue")) +
  labs(x = "p-value",y = "genes",title = "MAST") +
  theme_cowplot(font_size = 12)
p5 <- ggplot(pdat,aes(x = deseq,color = nonzero_lfc,fill = nonzero_lfc)) +
  geom_histogram(bins = 64,show.legend = FALSE) +
  scale_color_manual(values = c("darkorange","darkblue")) +
  scale_fill_manual(values = c("darkorange","darkblue")) +
  labs(x = "s-value",y = "genes",title = "DESeq2") +
  theme_cowplot(font_size = 12)
p6 <- ggplot(pdat,aes(x = fasttopics,color = nonzero_lfc,fill = nonzero_lfc)) +
  geom_histogram(bins = 64,show.legend = FALSE) +
  scale_color_manual(values = c("darkorange","darkblue")) +
  scale_fill_manual(values = c("darkorange","darkblue")) +
  labs(x = "s-value",y = "genes",title = "fastTopics") +
  theme_cowplot(font_size = 12)
plot_grid(p4,p5,p6,nrow = 1,ncol = 3)


sessionInfo()
# R version 3.6.2 (2019-12-12)
# Platform: x86_64-apple-darwin15.6.0 (64-bit)
# Running under: macOS Catalina 10.15.7
# 
# Matrix products: default
# BLAS:   /Library/Frameworks/R.framework/Versions/3.6/Resources/lib/libRblas.0.dylib
# LAPACK: /Library/Frameworks/R.framework/Versions/3.6/Resources/lib/libRlapack.dylib
# 
# locale:
# [1] en_US.UTF-8/en_US.UTF-8/en_US.UTF-8/C/en_US.UTF-8/en_US.UTF-8
# 
# attached base packages:
# [1] parallel  stats4    stats     graphics  grDevices utils     datasets 
# [8] methods   base     
# 
# other attached packages:
#  [1] cowplot_1.0.0               ggplot2_3.3.5              
#  [3] fastTopics_0.6-96           MAST_1.12.0                
#  [5] SingleCellExperiment_1.8.0  DESeq2_1.33.5              
#  [7] SummarizedExperiment_1.16.1 DelayedArray_0.12.3        
#  [9] BiocParallel_1.18.1         matrixStats_0.61.0         
# [11] Biobase_2.46.0              GenomicRanges_1.38.0       
# [13] GenomeInfoDb_1.22.1         IRanges_2.20.2             
# [15] S4Vectors_0.24.4            BiocGenerics_0.32.0        
# [17] Seurat_3.2.3                Matrix_1.2-18              
# 
# loaded via a namespace (and not attached):
#   [1] backports_1.1.5        workflowr_1.6.2        systemfonts_1.0.2     
#   [4] plyr_1.8.5             igraph_1.2.5           lazyeval_0.2.2        
#   [7] splines_3.6.2          listenv_0.8.0          scattermore_0.7       
#  [10] digest_0.6.23          invgamma_1.1           htmltools_0.4.0       
#  [13] SQUAREM_2017.10-1      fansi_0.4.0            magrittr_2.0.1        
#  [16] memoise_1.1.0          tensor_1.5             cluster_2.1.0         
#  [19] ROCR_1.0-11            globals_0.13.0         annotate_1.64.0       
#  [22] RcppParallel_4.4.2     MCMCpack_1.4-5         prettyunits_1.1.1     
#  [25] colorspace_1.4-1       blob_1.2.1             ggrepel_0.9.1         
#  [28] xfun_0.11              dplyr_1.0.7            crayon_1.4.1          
#  [31] RCurl_1.98-1.2         jsonlite_1.7.2         genefilter_1.68.0     
#  [34] spatstat_1.64-1        spatstat.data_1.4-3    survival_3.1-8        
#  [37] zoo_1.8-7              glue_1.4.2             polyclip_1.10-0       
#  [40] gtable_0.3.0           zlibbioc_1.32.0        XVector_0.26.0        
#  [43] MatrixModels_0.4-1     leiden_0.3.3           future.apply_1.6.0    
#  [46] SparseM_1.78           abind_1.4-5            scales_1.1.0          
#  [49] DBI_1.1.0              miniUI_0.1.1.1         Rcpp_1.0.7            
#  [52] progress_1.2.2         viridisLite_0.3.0      xtable_1.8-4          
#  [55] reticulate_1.16        bit_1.1-15.2           rsvd_1.0.2            
#  [58] truncnorm_1.0-8        htmlwidgets_1.5.1      httr_1.4.2            
#  [61] RColorBrewer_1.1-2     ellipsis_0.3.2         ica_1.0-2             
#  [64] farver_2.0.1           pkgconfig_2.0.3        XML_3.99-0.3          
#  [67] uwot_0.1.10            deldir_0.1-29          locfit_1.5-9.4        
#  [70] utf8_1.1.4             labeling_0.3           tidyselect_1.1.1      
#  [73] rlang_0.4.11           reshape2_1.4.3         later_1.0.0           
#  [76] AnnotationDbi_1.48.0   munsell_0.5.0          tools_3.6.2           
#  [79] generics_0.0.2         RSQLite_2.2.0          ggridges_0.5.2        
#  [82] evaluate_0.14          stringr_1.4.0          fastmap_1.0.1         
#  [85] ragg_0.3.1             yaml_2.2.0             goftest_1.2-2         
#  [88] mcmc_0.9-6             knitr_1.26             bit64_0.9-7           
#  [91] fs_1.3.1               fitdistrplus_1.1-1     purrr_0.3.4           
#  [94] RANN_2.6.1             pbapply_1.5-1          future_1.18.0         
#  [97] nlme_3.1-142           quantreg_5.54          whisker_0.4           
# [100] mime_0.8               compiler_3.6.2         plotly_4.9.2          
# [103] png_0.1-7              spatstat.utils_1.17-0  tibble_3.1.3          
# [106] geneplotter_1.64.0     stringi_1.4.3          lattice_0.20-38       
# [109] vctrs_0.3.8            pillar_1.6.2           lifecycle_1.0.0       
# [112] lmtest_0.9-38          RcppAnnoy_0.0.18       data.table_1.12.8     
# [115] bitops_1.0-6           irlba_2.3.3            httpuv_1.5.2          
# [118] patchwork_1.0.1        R6_2.4.1               promises_1.1.0        
# [121] KernSmooth_2.23-16     gridExtra_2.3          codetools_0.2-16      
# [124] MASS_7.3-51.4          assertthat_0.2.1       rprojroot_1.3-2       
# [127] withr_2.4.2            sctransform_0.3.2      GenomeInfoDbData_1.2.2
# [130] hms_1.1.0              mgcv_1.8-31            quadprog_1.5-8        
# [133] grid_3.6.2             rpart_4.1-15           coda_0.19-3           
# [136] tidyr_1.1.3            rmarkdown_2.3          ashr_2.2-51           
# [139] Rtsne_0.15             git2r_0.26.1           mixsqp_0.3-46         
# [142] shiny_1.4.0