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R/byExtremality.R
In biscuiteer: Convenience Functions for Biscuit
Defines functions
.makeGRangesFromMatrix
byExtremality
Documented in
byExtremality
#' Choose loci or features by extremality
#'
#' This function finds the k most extremal features (features above a certain
#' fraction of the Bernoulli variance) in 'bsseq' and returns their values.
#'
#' For DNA methylation, particularly when summarized across regions, we can do
#' better (a lot better) than MAD. Since we know:
#' max(SD(X_j)) if X_j ~ Beta(a, b) < max(SD(X_j)) if X_j ~ Bernoulli(a/(a+b))
#' for X with a known mean and standard deviation (SD), then we can solve for
#' (a+b) by MoM. We can then define the extremality by:
#' extremality = sd(X_j) / bernoulliSD(mean(X_j))
#'
#' @param bsseq A bsseq object
#' @param r Regions to consider - NULL covers all loci (DEFAULT: NULL)
#' @param k How many rows/regions to return (DEFAULT: 500)
#'
#' @return A GRanges object with methylation values sorted by extremality
#'
#' @import SummarizedExperiment
#'
#' @examples
#'
#' shuf_bed <- system.file("extdata", "MCF7_Cunha_chr11p15_shuffled.bed.gz",
#' package="biscuiteer")
#' orig_bed <- system.file("extdata", "MCF7_Cunha_chr11p15.bed.gz",
#' package="biscuiteer")
#' shuf_vcf <- system.file("extdata",
#' "MCF7_Cunha_shuffled_header_only.vcf.gz",
#' package="biscuiteer")
#' orig_vcf <- system.file("extdata",
#' "MCF7_Cunha_header_only.vcf.gz",
#' package="biscuiteer")
#' bisc1 <- readBiscuit(BEDfile = shuf_bed, VCFfile = shuf_vcf,
#' merged = FALSE)
#' bisc2 <- readBiscuit(BEDfile = orig_bed, VCFfile = orig_vcf,
#' merged = FALSE)
#'
#' reg <- GRanges(seqnames = rep("chr11",5),
#' strand = rep("*",5),
#' ranges = IRanges(start = c(0,2.8e6,1.17e7,1.38e7,1.69e7),
#' end= c(2.8e6,1.17e7,1.38e7,1.69e7,2.2e7))
#' )
#'
#' comb <- unionize(bisc1, bisc2)
#'
#' ext <- byExtremality(comb, r = reg)
#'
#' @export
#'
byExtremality <- function(bsseq,
r = NULL,
k = 500) {
if (ncol(bsseq) == 1) {
stop("No variance in a one sample object. Either use a data set ",
"with multiple samples or combine bsseq objects with ",
"unionize().")
}
if (is.null(r)) {
message("No regions specified. This may melt your computer.")
byRegion <- FALSE
} else {
byRegion <- TRUE
}
if (nrow(bsseq) < k) {
message("Requested k (", k, ") exceeds the row count in bsseq ",
"Adjusting k.")
k <- min(nrow(bsseq), k)
}
if (!is.null(r) & length(r) < k) {
message("Requested k (", k, ") exceeds the region count. Adjusting k.")
k <- min(length(r), k)
}
if (byRegion) {
bsseq <- sort(bsseq)
r <- sort(r)
m <- getMeth(bsseq, regions=r, type="raw", what="perRegion")
rownames(m) <- as.character(r)
} else {
m <- getMeth(bsseq, type="raw")
rownames(m) <- as.character(rowRanges(bsseq))
}
extr <- extremality(m)
chosen <- rev(order(extr, na.last=FALSE))[seq_len(k)]
res <- m[chosen, ]
res <- cbind(res, extremality = extr[chosen])
return(.makeGRangesFromMatrix(res))
}
# Matrix must have rownames from as.character(granges)
.makeGRangesFromMatrix <- function(matrix) {
if (is.null(rownames(matrix))) {
stop("Input matrix must have rownames corresponding to",
"as.character(granges), where granges is a GRanges object")
}
# Start with the names of the GRanges from as.character(granges)
df <- data.frame(grNames = rownames(matrix))
# Split off the chromosome portion from ranges portion
df <- data.frame(df, data.frame(do.call('rbind',
strsplit(as.character(df$grNames),':',
fixed=TRUE))))
# Make names easier to work with
names(df) <- c("grNames","chr","range")
# Split up the start and end parts from the ranges portion
df <- data.frame(df, data.frame(do.call('rbind',
strsplit(as.character(df$range),'-',
fixed=TRUE))))
# Rename data.frame to straighforward names
names(df) <- c("grNames","chr","range","start","end")
df <- df[, c("chr","start","end")]
df <- data.frame(df, matrix)
return(makeGRangesFromDataFrame(df,keep.extra.columns=TRUE))
}
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Defines functions .makeGRangesFromMatrix byExtremality
Documented in byExtremality
#' Choose loci or features by extremality
#'
#' This function finds the k most extremal features (features above a certain
#' fraction of the Bernoulli variance) in 'bsseq' and returns their values.
#'
#' For DNA methylation, particularly when summarized across regions, we can do
#' better (a lot better) than MAD. Since we know:
#' max(SD(X_j)) if X_j ~ Beta(a, b) < max(SD(X_j)) if X_j ~ Bernoulli(a/(a+b))
#' for X with a known mean and standard deviation (SD), then we can solve for
#' (a+b) by MoM. We can then define the extremality by:
#' extremality = sd(X_j) / bernoulliSD(mean(X_j))
#'
#' @param bsseq A bsseq object
#' @param r Regions to consider - NULL covers all loci (DEFAULT: NULL)
#' @param k How many rows/regions to return (DEFAULT: 500)
#'
#' @return A GRanges object with methylation values sorted by extremality
#'
#' @import SummarizedExperiment
#'
#' @examples
#'
#' shuf_bed <- system.file("extdata", "MCF7_Cunha_chr11p15_shuffled.bed.gz",
#' package="biscuiteer")
#' orig_bed <- system.file("extdata", "MCF7_Cunha_chr11p15.bed.gz",
#' package="biscuiteer")
#' shuf_vcf <- system.file("extdata",
#' "MCF7_Cunha_shuffled_header_only.vcf.gz",
#' package="biscuiteer")
#' orig_vcf <- system.file("extdata",
#' "MCF7_Cunha_header_only.vcf.gz",
#' package="biscuiteer")
#' bisc1 <- readBiscuit(BEDfile = shuf_bed, VCFfile = shuf_vcf,
#' merged = FALSE)
#' bisc2 <- readBiscuit(BEDfile = orig_bed, VCFfile = orig_vcf,
#' merged = FALSE)
#'
#' reg <- GRanges(seqnames = rep("chr11",5),
#' strand = rep("*",5),
#' ranges = IRanges(start = c(0,2.8e6,1.17e7,1.38e7,1.69e7),
#' end= c(2.8e6,1.17e7,1.38e7,1.69e7,2.2e7))
#' )
#'
#' comb <- unionize(bisc1, bisc2)
#'
#' ext <- byExtremality(comb, r = reg)
#'
#' @export
#'
byExtremality <- function(bsseq,
r = NULL,
k = 500) {
if (ncol(bsseq) == 1) {
stop("No variance in a one sample object. Either use a data set ",
"with multiple samples or combine bsseq objects with ",
"unionize().")
}
if (is.null(r)) {
message("No regions specified. This may melt your computer.")
byRegion <- FALSE
} else {
byRegion <- TRUE
}
if (nrow(bsseq) < k) {
message("Requested k (", k, ") exceeds the row count in bsseq ",
"Adjusting k.")
k <- min(nrow(bsseq), k)
}
if (!is.null(r) & length(r) < k) {
message("Requested k (", k, ") exceeds the region count. Adjusting k.")
k <- min(length(r), k)
}
if (byRegion) {
bsseq <- sort(bsseq)
r <- sort(r)
m <- getMeth(bsseq, regions=r, type="raw", what="perRegion")
rownames(m) <- as.character(r)
} else {
m <- getMeth(bsseq, type="raw")
rownames(m) <- as.character(rowRanges(bsseq))
}
extr <- extremality(m)
chosen <- rev(order(extr, na.last=FALSE))[seq_len(k)]
res <- m[chosen, ]
res <- cbind(res, extremality = extr[chosen])
return(.makeGRangesFromMatrix(res))
}
# Matrix must have rownames from as.character(granges)
.makeGRangesFromMatrix <- function(matrix) {
if (is.null(rownames(matrix))) {
stop("Input matrix must have rownames corresponding to",
"as.character(granges), where granges is a GRanges object")
}
# Start with the names of the GRanges from as.character(granges)
df <- data.frame(grNames = rownames(matrix))
# Split off the chromosome portion from ranges portion
df <- data.frame(df, data.frame(do.call('rbind',
strsplit(as.character(df$grNames),':',
fixed=TRUE))))
# Make names easier to work with
names(df) <- c("grNames","chr","range")
# Split up the start and end parts from the ranges portion
df <- data.frame(df, data.frame(do.call('rbind',
strsplit(as.character(df$range),'-',
fixed=TRUE))))
# Rename data.frame to straighforward names
names(df) <- c("grNames","chr","range","start","end")
df <- df[, c("chr","start","end")]
df <- data.frame(df, matrix)
return(makeGRangesFromDataFrame(df,keep.extra.columns=TRUE))
}
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