Compare CENTIPEDE predictions for HIF1A

Last updated: 2018-06-20

workflowr checks: (Click a bullet for more information)

✔ R Markdown file: up-to-date

Great! Since the R Markdown file has been committed to the Git repository, you know the exact version of the code that produced these results.
✔ Environment: empty

Great job! The global environment was empty. Objects defined in the global environment can affect the analysis in your R Markdown file in unknown ways. For reproduciblity it’s best to always run the code in an empty environment.
✔ Seed: set.seed(20180613)

The command set.seed(20180613) was run prior to running the code in the R Markdown file. Setting a seed ensures that any results that rely on randomness, e.g. subsampling or permutations, are reproducible.
✔ Session information: recorded

Great job! Recording the operating system, R version, and package versions is critical for reproducibility.
✔ Repository version: 7f7a2b4
Great! You are using Git for version control. Tracking code development and connecting the code version to the results is critical for reproducibility. The version displayed above was the version of the Git repository at the time these results were generated.

Note that you need to be careful to ensure that all relevant files for the analysis have been committed to Git prior to generating the results (you can use wflow_publish or wflow_git_commit). workflowr only checks the R Markdown file, but you know if there are other scripts or data files that it depends on. Below is the status of the Git repository when the results were generated:
```
Ignored files:
    Ignored:    .DS_Store
    Ignored:    .Rhistory
    Ignored:    .Rproj.user/

Untracked files:
    Untracked:  analysis/ATACseq_footprinting_pipeline.Rmd
    Untracked:  code_RCC/
    Untracked:  docs/figure/compare_centipede_predictions.Rmd/
    Untracked:  workflow_setup.R

Unstaged changes:
    Modified:   analysis/compare_centipede_predictions_CTCF.Rmd
```
Note that any generated files, e.g. HTML, png, CSS, etc., are not included in this status report because it is ok for generated content to have uncommitted changes.

Expand here to see past versions:

File	Version	Author	Date	Message
Rmd	7f7a2b4	kevinlkx	2018-06-20	compare centipede predictions for HIF1A
html	b298a15	kevinlkx	2018-06-20	Build site.
Rmd	84a6174	kevinlkx	2018-06-20	compare centipede predictions for HIF1A

library(ggplot2)
library(grid)
library(gridExtra)
library(limma)
library(edgeR)
library(VennDiagram)

Warning: package 'VennDiagram' was built under R version 3.4.4

Loading required package: futile.logger

message <- futile.logger::flog.threshold(futile.logger::ERROR, name = "VennDiagramLogger")

## venn diagram
plot_venn_overlaps <- function(overlaps.m, title = "", col_fill = NULL, category.names = NULL){
  grid.newpage()
  overlaps_venn.l <- lapply(as.data.frame(overlaps.m), function(x) which(x == 1))
  if(is.null(col_fill)){
    col_fill <-  1:length(overlaps_venn.l)
  }
  if(is.null(category.names)){
    category.names <- names(x)
  }
  
  venn.plot <- venn.diagram( 
    x = overlaps_venn.l,
    category.names = category.names, 
    filename = NULL,
    fill = col_fill,
    alpha=rep(0.5, length(overlaps_venn.l)), 
    cex = 1.5, 
    cat.fontface=4, 
    main=title) 
  grid.draw(venn.plot)
}

select TF

tf_name <- "HIF1A"
pwm_name <- "HIF1A::ARNT_MA0259.1_1e-4"

thresh_PostPr_bound <- 0.99
cat(pwm_name, "\n")

HIF1A::ARNT_MA0259.1_1e-4

load CENTIPEDE predictions

dir_predictions <- paste0("~/Dropbox/research//ATAC-seq/for_Olivia_Gray/results/centipede_predictions/", pwm_name)

## condition: N
bam_namelist_N <- c("N1_nomito_rdup.bam", "N2_nomito_rdup.bam", "N3_nomito_rdup.bam")

site_predictions_N.l <- vector("list", 3)
names(site_predictions_N.l) <- bam_namelist_N

for(i in 1:length(bam_namelist_N)){
  bam_basename <- tools::file_path_sans_ext(basename(bam_namelist_N[[i]]))
  site_predictions_N.l[[i]] <- read.table(paste0(dir_predictions, "/", pwm_name, "_", bam_basename, "_predictions.txt.gz"), header = T, stringsAsFactors = F)
}

CentPostPr_N.df <- data.frame(N1 = site_predictions_N.l[[1]]$CentPostPr, 
                              N2 = site_predictions_N.l[[2]]$CentPostPr, 
                              N3 = site_predictions_N.l[[3]]$CentPostPr)

CentLogRatios_N.df <- data.frame(N1 = site_predictions_N.l[[1]]$CentLogRatios, 
                                 N2 = site_predictions_N.l[[2]]$CentLogRatios, 
                                 N3 = site_predictions_N.l[[3]]$CentLogRatios)


## condition: H
bam_namelist_H <- c("H1_nomito_rdup.bam", "H2_nomito_rdup.bam", "H3_nomito_rdup.bam")

site_predictions_H.l <- vector("list", 3)
names(site_predictions_H.l) <- bam_namelist_H

for(i in 1:length(bam_namelist_H)){
  bam_basename <- tools::file_path_sans_ext(basename(bam_namelist_H[[i]]))
  site_predictions_H.l[[i]] <- read.table(paste0(dir_predictions, "/", pwm_name, "_", bam_basename, "_predictions.txt.gz"), header = T, stringsAsFactors = F)
}

name_sites <- site_predictions_H.l[[1]]$name

CentPostPr_H.df <- data.frame(H1 = site_predictions_H.l[[1]]$CentPostPr, 
                              H2 = site_predictions_H.l[[2]]$CentPostPr, 
                              H3 = site_predictions_H.l[[3]]$CentPostPr)

CentLogRatios_H.df <- data.frame(H1 = site_predictions_H.l[[1]]$CentLogRatios, 
                                 H2 = site_predictions_H.l[[2]]$CentLogRatios, 
                                 H3 = site_predictions_H.l[[3]]$CentLogRatios)

CentPostPr.df <- cbind(CentPostPr_N.df, CentPostPr_H.df)
CentLogRatios.df <- cbind(CentLogRatios_N.df, CentLogRatios_H.df)

binarize to bound and unbound

cat("Number of bound sites: \n")

Number of bound sites:

colSums(CentPostPr.df > thresh_PostPr_bound)

  N1   N2   N3   H1   H2   H3 
4139 3834 3539 2334 2213 2788

idx_bound <- which(rowSums(CentPostPr.df > thresh_PostPr_bound) >= 2)
cat(length(idx_bound), "sites are bound in at least two samples \n")

3882 sites are bound in at least two samples

cat(length(idx_bound), "(",round(length(idx_bound)/nrow(CentPostPr.df) *100, 2), "% ) sites are bound in at least two samples \n")

3882 ( 6.85 % ) sites are bound in at least two samples

bound_N <- rowSums(CentPostPr.df[,c("N1", "N2", "N3")] > thresh_PostPr_bound) >= 2
bound_H <- rowSums(CentPostPr.df[,c("H1", "H2", "H3")] > thresh_PostPr_bound) >= 2
bound_N_H <- data.frame(N = bound_N, H = bound_H)
plot_venn_overlaps(bound_N_H, title = paste("Number of", tf_name, "bound sites"), 
                   category.names = c("Bound in N", "Bound in H"), col_fill = c("blue", "red"))

Plot average binding and average logRatios

all sites

par(pty="s")
plot(rowMeans(CentPostPr_N.df), rowMeans(CentPostPr_H.df), 
     xlab = "N average P(Bound)", ylab = "H average P(Bound)", main = tf_name,
     pch = ".", col = rgb(0,0,1,0.7))
abline(a=0,b=1)

Expand here to see past versions of unnamed-chunk-5-1.png:

Version	Author	Date
b298a15	kevinlkx	2018-06-20

par(mfrow = c(1,2))
par(pty="s")
plot(rowMeans(CentLogRatios_N.df), rowMeans(CentLogRatios_H.df), 
     xlab = "N average logRatios", ylab = "H average logRatios", main = tf_name, 
     pch = ".", col = rgb(0,0,1,0.7))
abline(a=0,b=1,col = "darkgray")

plot(x = (rowMeans(CentLogRatios_H.df)+rowMeans(CentLogRatios_N.df))/2, 
     y = rowMeans(CentLogRatios_H.df) - rowMeans(CentLogRatios_N.df),
     xlab = "average logRatios", ylab = "Difference in logRatios (H - N)", main = tf_name,
     pch = ".", col = rgb(0,0,1,0.7))
abline(v=0, h=0, col = "darkgray")

Expand here to see past versions of unnamed-chunk-5-2.png:

Version	Author	Date
b298a15	kevinlkx	2018-06-20

bound sites

par(pty="s")
plot(rowMeans(CentPostPr_N.df[idx_bound,]), rowMeans(CentPostPr_H.df[idx_bound,]), 
     xlab = "N average P(Bound)", ylab = "H average P(Bound)", main = paste(tf_name, "bound sites"),
     pch = ".", col = rgb(0,0,1,0.7))
abline(a=0,b=1)

Expand here to see past versions of unnamed-chunk-6-1.png:

Version	Author	Date
b298a15	kevinlkx	2018-06-20

par(mfrow = c(1,2))
par(pty="s")
plot(rowMeans(CentLogRatios_N.df[idx_bound,]), rowMeans(CentLogRatios_H.df[idx_bound,]), 
     xlab = "N average logRatios", ylab = "H average logRatios", main = tf_name, 
     pch = ".", col = rgb(0,0,1,0.7))
abline(a=0,b=1,col = "darkgray")

plot(x = (rowMeans(CentLogRatios_H.df[idx_bound,])+rowMeans(CentLogRatios_N.df[idx_bound,]))/2, 
     y = rowMeans(CentLogRatios_H.df[idx_bound,]) - rowMeans(CentLogRatios_N.df[idx_bound,]),
     xlab = "average logRatios", ylab = "Difference in logRatios (H - N)", main = tf_name,
     pch = ".", col = rgb(0,0,1,0.7))
abline(v=0, h=0, col = "darkgray")

Expand here to see past versions of unnamed-chunk-6-2.png:

Version	Author	Date
b298a15	kevinlkx	2018-06-20

PCA

all sites

pca_logRatios <- prcomp(t(CentLogRatios.df))
percentage <- round(pca_logRatios$sdev / sum(pca_logRatios$sdev) * 100, 2)
percentage <- paste0( colnames(pca_logRatios$x), " (", paste( as.character(percentage), "%)") )

pca_logRatios.df <- as.data.frame(pca_logRatios$x)
pca_logRatios.df$group <- rep(c("N","H"), each = 3)
p <- ggplot(pca_logRatios.df, aes(x=PC1,y=PC2,color=group,label=row.names(pca_logRatios.df)))
p <- p + geom_point() + geom_text(size = 3, show.legend = F, vjust = 2, nudge_y = 0.5) + 
  labs(title = tf_name, x = percentage[1], y = percentage[2])
p

Expand here to see past versions of unnamed-chunk-7-1.png:

Version	Author	Date
b298a15	kevinlkx	2018-06-20

bound sites

pca_logRatios <- prcomp(t(CentLogRatios.df[idx_bound, ]))
percentage <- round(pca_logRatios$sdev / sum(pca_logRatios$sdev) * 100, 2)
percentage <- paste0( colnames(pca_logRatios$x), " (", paste( as.character(percentage), "%)") )

pca_logRatios.df <- as.data.frame(pca_logRatios$x)
pca_logRatios.df$group <- rep(c("N","H"), each = 3)
p <- ggplot(pca_logRatios.df, aes(x=PC1,y=PC2,color=group,label=row.names(pca_logRatios.df)))
p <- p + geom_point() + geom_text(size = 3, show.legend = F, vjust = 2, nudge_y = 0.5) + 
  labs(title = tf_name, x = percentage[1], y = percentage[2])
p

Expand here to see past versions of unnamed-chunk-8-1.png:

Version	Author	Date
b298a15	kevinlkx	2018-06-20

Differential logRatios for bound sites using limma

targets <- data.frame(bam = c(bam_namelist_N, bam_namelist_H), 
                      label = colnames(CentLogRatios.df), 
                      condition = rep(c("N", "H"), each = 3))

print(targets)

                 bam label condition
1 N1_nomito_rdup.bam    N1         N
2 N2_nomito_rdup.bam    N2         N
3 N3_nomito_rdup.bam    N3         N
4 H1_nomito_rdup.bam    H1         H
5 H2_nomito_rdup.bam    H2         H
6 H3_nomito_rdup.bam    H3         H

condition <- factor(targets$condition, levels = c("N", "H"))
design <- model.matrix(~0+condition)
colnames(design) <- levels(condition)
print(design)

  N H
1 1 0
2 1 0
3 1 0
4 0 1
5 0 1
6 0 1
attr(,"assign")
[1] 1 1
attr(,"contrasts")
attr(,"contrasts")$condition
[1] "contr.treatment"

CentLogRatios_Bound.df <- CentLogRatios.df[idx_bound, ]

fit <- lmFit(CentLogRatios_Bound.df, design)
contrasts <- makeContrasts(H-N, levels=design)
fit2 <- contrasts.fit(fit, contrasts)
fit2 <- eBayes(fit2, trend=TRUE)
num_diffbind <- summary(decideTests(fit2))
percent_diffbind <- round(num_diffbind / sum(num_diffbind) * 100, 2)
cat(percent_diffbind[1], "% down in H vs. N,", percent_diffbind[3], "% up in H vs. N \n")

63.34 % down in H vs. N, 0.52 % up in H vs. N

# volcanoplot(fit2, main="H vs. N", xlab = "Difference in logRatios (H - N)")

plot(x = fit2$coef, y = -log10(fit2$p.value),
     xlab = "Difference in logRatios (H - N)", ylab = "-log10(P-value)", main= paste(tf_name, "H vs. N"),
     pch = 16, cex = 0.35)

Expand here to see past versions of unnamed-chunk-9-1.png:

Version	Author	Date
b298a15	kevinlkx	2018-06-20

Session information

sessionInfo()

R version 3.4.3 (2017-11-30)
Platform: x86_64-apple-darwin15.6.0 (64-bit)
Running under: macOS High Sierra 10.13.4

Matrix products: default
BLAS: /Library/Frameworks/R.framework/Versions/3.4/Resources/lib/libRblas.0.dylib
LAPACK: /Library/Frameworks/R.framework/Versions/3.4/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] grid      stats     graphics  grDevices utils     datasets  methods  
[8] base     

other attached packages:
[1] VennDiagram_1.6.20  futile.logger_1.4.3 edgeR_3.20.9       
[4] limma_3.34.9        gridExtra_2.3       ggplot2_2.2.1      

loaded via a namespace (and not attached):
 [1] Rcpp_0.12.16         compiler_3.4.3       pillar_1.2.2        
 [4] formatR_1.5          git2r_0.21.0         plyr_1.8.4          
 [7] workflowr_1.0.1      R.methodsS3_1.7.1    R.utils_2.6.0       
[10] futile.options_1.0.1 tools_3.4.3          digest_0.6.15       
[13] evaluate_0.10.1      tibble_1.4.2         gtable_0.2.0        
[16] lattice_0.20-35      rlang_0.2.0          yaml_2.1.18         
[19] stringr_1.3.0        knitr_1.20           locfit_1.5-9.1      
[22] rprojroot_1.3-2      rmarkdown_1.9        lambda.r_1.2.2      
[25] magrittr_1.5         whisker_0.3-2        splines_3.4.3       
[28] backports_1.1.2      scales_0.5.0         htmltools_0.3.6     
[31] colorspace_1.3-2     labeling_0.3         stringi_1.1.7       
[34] lazyeval_0.2.1       munsell_0.4.3        R.oo_1.22.0

This reproducible R Markdown analysis was created with workflowr 1.0.1

Compare CENTIPEDE predictions for HIF1A

Kaixuan Luo

6/18/2018

select TF

load CENTIPEDE predictions

binarize to bound and unbound

Plot average binding and average logRatios

all sites

bound sites

PCA

all sites

bound sites

Differential logRatios for bound sites using limma

Session information