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R/perform_qc.R
In SCOPE: A normalization and copy number estimation method for single-cell DNA sequencing
Defines functions
perform_qc
Documented in
perform_qc
#' @title Quality control for cells and bins
#'
#' @description Perform QC step on single cells and bins.
#'
#' @usage
#' perform_qc(Y_raw, sampname_raw, ref_raw, QCmetric_raw,
#' cov_thresh = 0, minCountQC = 20,
#' mapq20_thresh = 0.3, mapp_thresh = 0.9,
#' gc_thresh = c(20, 80), nMAD = 3)
#'
#' @param Y_raw raw read count matrix returned
#' from \code{\link{get_coverage_scDNA}}
#' @param sampname_raw sample names for quality control returned
#' from \code{\link{get_bam_bed}}
#' @param ref_raw raw GRanges object with corresponding GC content
#' and mappability for quality control returned from
#' \code{\link{get_bam_bed}}
#' @param QCmetric_raw a QC metric for single cells returned from
#' \code{\link{get_samp_QC}}
#' @param cov_thresh scalar variable specifying the lower bound of read count
#' summation of each cell. Default is \code{0}
#' @param minCountQC the minimum read coverage required for
#' normalization and EM fitting. Defalut is \code{20}
#' @param mapq20_thresh scalar variable specifying the lower threshold
#' of proportion of reads with mapping quality greater than 20.
#' Default is \code{0.3}
#' @param mapp_thresh scalar variable specifying mappability of
#' each genomic bin. Default is \code{0.9}
#' @param gc_thresh vector specifying the lower and upper bound of
#' GC content threshold for quality control. Default is \code{20-80}
#' @param nMAD scalar variable specifying the number of MAD from the median
#' of total read counts adjusted by library size for each cell.
#' Default is \code{3}
#'
#' @return A list with components
#' \item{Y}{read depth matrix after quality control}
#' \item{sampname}{sample names after quality control}
#' \item{ref}{A GRanges object specifying whole genomic
#' bin positions after quality control}
#' \item{QCmetric}{A data frame of QC metric for single cells
#' after quality control}
#'
#' @examples
#' Y_raw <- coverageObj.scopeDemo$Y
#' sampname_raw <- rownames(QCmetric.scopeDemo)
#' ref_raw <- ref.scopeDemo
#' QCmetric_raw <- QCmetric.scopeDemo
#' qcObj <- perform_qc(Y_raw = Y_raw, sampname_raw = sampname_raw,
#' ref_raw = ref_raw, QCmetric_raw = QCmetric_raw)
#'
#' @author Rujin Wang \email{rujin@email.unc.edu}
#' @import stats
#' @export
perform_qc <- function(Y_raw, sampname_raw, ref_raw, QCmetric_raw,
cov_thresh = 0, minCountQC = 20,
mapq20_thresh = 0.3, mapp_thresh = 0.9,
gc_thresh = c(20, 80), nMAD = 3) {
if (length(ref_raw) != nrow(Y_raw)) {
stop("Invalid inputs: length of ref and # of rows
in read count matrix must be the same")
}
if (length(sampname_raw) != ncol(Y_raw)) {
stop("Invalid inputs: length of sample names and # of cols in
read count matrix must be the same")
}
if (nrow(QCmetric_raw) != ncol(Y_raw)) {
stop("Invalid inputs: # of rows in QC metric and # of cols in
read count matrix must be the same")
}
mapp <- ref_raw$mapp
gc <- ref_raw$gc
sampfilter1 <- (apply(Y_raw, 2, sum) <= cov_thresh)
message("Removed ", sum(sampfilter1),
" samples due to failed library preparation.")
sampfilter2 <- (apply(Y_raw, 2, mean) <= minCountQC)
message("Removed ", sum(sampfilter2),
" samples due to failure to meet min coverage requirement.")
sampfilter3 <- (QCmetric_raw[, "mapq20_prop"] < mapq20_thresh)
message("Removed ", sum(sampfilter3),
" samples due to low proportion of mapped reads.")
if (sum(sampfilter1 | sampfilter2 | sampfilter3) != 0) {
Y <- Y_raw[, !(sampfilter1 | sampfilter2 | sampfilter3)]
sampname <- sampname_raw[!(sampfilter1 | sampfilter2
| sampfilter3)]
QCmetric <- QCmetric_raw[!(sampfilter1 | sampfilter2
| sampfilter3), ]
} else {
Y <- Y_raw
sampname <- sampname_raw
QCmetric <- QCmetric_raw
}
binfilter1 <- (gc < gc_thresh[1] | gc > gc_thresh[2])
message("Excluded ", sum(binfilter1),
" bins due to extreme GC content.")
binfilter2 <- (mapp < mapp_thresh)
message("Excluded ", sum(binfilter2),
" bins due to low mappability.")
if (sum(binfilter1 | binfilter2) != 0) {
ref <- ref_raw[!(binfilter1 | binfilter2)]
Y <- Y[!(binfilter1 | binfilter2), ]
} else {
ref <- ref_raw
Y <- Y
}
Y.nonzero <- Y[apply(Y, 1, function(x) {
!any(x == 0)
}), , drop = FALSE]
if(dim(Y.nonzero)[1] <= 10){
message("Adopt arithmetic mean instead of geometric mean")
pseudo.sample <- apply(Y, 1, mean)
N <- apply(apply(Y, 2, function(x) {
x/pseudo.sample
}), 2, median, na.rm = TRUE)
} else{
pseudo.sample <- apply(Y.nonzero, 1, function(x) {
exp(sum(log(x))/length(x))
})
N <- apply(apply(Y.nonzero, 2, function(x) {
x/pseudo.sample
}), 2, median)
}
sampfilter3 <- (N == 0)
message("Removed ", sum(sampfilter3),
" samples due to excessive zero read counts in
library size calculation.")
if (sum(sampfilter3) != 0) {
Y <- Y[, !(sampfilter3)]
sampname <- sampname[!(sampfilter3)]
QCmetric <- QCmetric[!(sampfilter3), ]
N <- N[!(sampfilter3)]
}
Nmat <- matrix(nrow = nrow(Y), ncol = ncol(Y), data = N,
byrow = TRUE)
bin.sum <- apply(Y/Nmat, 1, sum)
binfilter3 <- (bin.sum >= (median(bin.sum) -
nMAD * mad(bin.sum))) & (bin.sum <= (median(bin.sum) +
nMAD * mad(bin.sum)))
Y <- Y[binfilter3, ]
ref <- ref[binfilter3]
QCmetric <- as.data.frame(QCmetric)
message("There are ", ncol(Y), " samples and ",
nrow(Y), " bins after QC step. ")
list(Y = Y, sampname = sampname, ref = ref, QCmetric = QCmetric)
}
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SCOPE documentation built on Nov. 8, 2020, 5:27 p.m.
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Defines functions perform_qc
Documented in perform_qc
#' @title Quality control for cells and bins
#'
#' @description Perform QC step on single cells and bins.
#'
#' @usage
#' perform_qc(Y_raw, sampname_raw, ref_raw, QCmetric_raw,
#' cov_thresh = 0, minCountQC = 20,
#' mapq20_thresh = 0.3, mapp_thresh = 0.9,
#' gc_thresh = c(20, 80), nMAD = 3)
#'
#' @param Y_raw raw read count matrix returned
#' from \code{\link{get_coverage_scDNA}}
#' @param sampname_raw sample names for quality control returned
#' from \code{\link{get_bam_bed}}
#' @param ref_raw raw GRanges object with corresponding GC content
#' and mappability for quality control returned from
#' \code{\link{get_bam_bed}}
#' @param QCmetric_raw a QC metric for single cells returned from
#' \code{\link{get_samp_QC}}
#' @param cov_thresh scalar variable specifying the lower bound of read count
#' summation of each cell. Default is \code{0}
#' @param minCountQC the minimum read coverage required for
#' normalization and EM fitting. Defalut is \code{20}
#' @param mapq20_thresh scalar variable specifying the lower threshold
#' of proportion of reads with mapping quality greater than 20.
#' Default is \code{0.3}
#' @param mapp_thresh scalar variable specifying mappability of
#' each genomic bin. Default is \code{0.9}
#' @param gc_thresh vector specifying the lower and upper bound of
#' GC content threshold for quality control. Default is \code{20-80}
#' @param nMAD scalar variable specifying the number of MAD from the median
#' of total read counts adjusted by library size for each cell.
#' Default is \code{3}
#'
#' @return A list with components
#' \item{Y}{read depth matrix after quality control}
#' \item{sampname}{sample names after quality control}
#' \item{ref}{A GRanges object specifying whole genomic
#' bin positions after quality control}
#' \item{QCmetric}{A data frame of QC metric for single cells
#' after quality control}
#'
#' @examples
#' Y_raw <- coverageObj.scopeDemo$Y
#' sampname_raw <- rownames(QCmetric.scopeDemo)
#' ref_raw <- ref.scopeDemo
#' QCmetric_raw <- QCmetric.scopeDemo
#' qcObj <- perform_qc(Y_raw = Y_raw, sampname_raw = sampname_raw,
#' ref_raw = ref_raw, QCmetric_raw = QCmetric_raw)
#'
#' @author Rujin Wang \email{rujin@email.unc.edu}
#' @import stats
#' @export
perform_qc <- function(Y_raw, sampname_raw, ref_raw, QCmetric_raw,
cov_thresh = 0, minCountQC = 20,
mapq20_thresh = 0.3, mapp_thresh = 0.9,
gc_thresh = c(20, 80), nMAD = 3) {
if (length(ref_raw) != nrow(Y_raw)) {
stop("Invalid inputs: length of ref and # of rows
in read count matrix must be the same")
}
if (length(sampname_raw) != ncol(Y_raw)) {
stop("Invalid inputs: length of sample names and # of cols in
read count matrix must be the same")
}
if (nrow(QCmetric_raw) != ncol(Y_raw)) {
stop("Invalid inputs: # of rows in QC metric and # of cols in
read count matrix must be the same")
}
mapp <- ref_raw$mapp
gc <- ref_raw$gc
sampfilter1 <- (apply(Y_raw, 2, sum) <= cov_thresh)
message("Removed ", sum(sampfilter1),
" samples due to failed library preparation.")
sampfilter2 <- (apply(Y_raw, 2, mean) <= minCountQC)
message("Removed ", sum(sampfilter2),
" samples due to failure to meet min coverage requirement.")
sampfilter3 <- (QCmetric_raw[, "mapq20_prop"] < mapq20_thresh)
message("Removed ", sum(sampfilter3),
" samples due to low proportion of mapped reads.")
if (sum(sampfilter1 | sampfilter2 | sampfilter3) != 0) {
Y <- Y_raw[, !(sampfilter1 | sampfilter2 | sampfilter3)]
sampname <- sampname_raw[!(sampfilter1 | sampfilter2
| sampfilter3)]
QCmetric <- QCmetric_raw[!(sampfilter1 | sampfilter2
| sampfilter3), ]
} else {
Y <- Y_raw
sampname <- sampname_raw
QCmetric <- QCmetric_raw
}
binfilter1 <- (gc < gc_thresh[1] | gc > gc_thresh[2])
message("Excluded ", sum(binfilter1),
" bins due to extreme GC content.")
binfilter2 <- (mapp < mapp_thresh)
message("Excluded ", sum(binfilter2),
" bins due to low mappability.")
if (sum(binfilter1 | binfilter2) != 0) {
ref <- ref_raw[!(binfilter1 | binfilter2)]
Y <- Y[!(binfilter1 | binfilter2), ]
} else {
ref <- ref_raw
Y <- Y
}
Y.nonzero <- Y[apply(Y, 1, function(x) {
!any(x == 0)
}), , drop = FALSE]
if(dim(Y.nonzero)[1] <= 10){
message("Adopt arithmetic mean instead of geometric mean")
pseudo.sample <- apply(Y, 1, mean)
N <- apply(apply(Y, 2, function(x) {
x/pseudo.sample
}), 2, median, na.rm = TRUE)
} else{
pseudo.sample <- apply(Y.nonzero, 1, function(x) {
exp(sum(log(x))/length(x))
})
N <- apply(apply(Y.nonzero, 2, function(x) {
x/pseudo.sample
}), 2, median)
}
sampfilter3 <- (N == 0)
message("Removed ", sum(sampfilter3),
" samples due to excessive zero read counts in
library size calculation.")
if (sum(sampfilter3) != 0) {
Y <- Y[, !(sampfilter3)]
sampname <- sampname[!(sampfilter3)]
QCmetric <- QCmetric[!(sampfilter3), ]
N <- N[!(sampfilter3)]
}
Nmat <- matrix(nrow = nrow(Y), ncol = ncol(Y), data = N,
byrow = TRUE)
bin.sum <- apply(Y/Nmat, 1, sum)
binfilter3 <- (bin.sum >= (median(bin.sum) -
nMAD * mad(bin.sum))) & (bin.sum <= (median(bin.sum) +
nMAD * mad(bin.sum)))
Y <- Y[binfilter3, ]
ref <- ref[binfilter3]
QCmetric <- as.data.frame(QCmetric)
message("There are ", ncol(Y), " samples and ",
nrow(Y), " bins after QC step. ")
list(Y = Y, sampname = sampname, ref = ref, QCmetric = QCmetric)
}
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