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R/filterAdductTable.R
In adductomicsR: Processing of adductomic mass spectral datasets
Defines functions
filterAdductTable
Documented in
filterAdductTable
#' filter samples with low QC and features with large missing values
#' Removes adducts that have not been integrated with many missing values
#' and provides QC on samples
#' @param adductTable character a full path to the peaktable with number of
#' rows equal to the number of adducts from outputPeakTable()
#' which starts with adductQuantif_peakList_
#' @param percMissing numeric percentage threshold to remove adducts with
#' missing values. Default
#' is 51. It is recommended to use just over the number of samples in the
#' smallest
#' group of your study. 51 is used as default for a 50:50 case control study
#' @param HKPmass numeric mass for the housekeeping peptide. Must be the same
#' asthat in the adduct table. max 2 decimal places.
#' default= 575.3 for the LVNEVTEFAK peptide
#' @param quantPeptideMass numeric mass for the peptide for which adducts are
#' being quantified,
# must be the same as that in the adduct table, max 2 decimal places.
#' Default is
#' 811.7 for the ALVLIAFAQYLQQCPFEDHVK peptide
#' @param remHKPzero logical if TRUE removes all samples where the
#' housekeeping peptide is 0. default= FALSE
#' @param remQuantPepzero logical if TRUE removes all samples where the
#' peptide under quantification is 0. default= FALSE
#' @param remHKPlow logical if TRUE removes all samples where the
#' housekeeping peptide has an area less than 100000.
#' default= TRUE.This is recommended because this peak should be large.
#' If the HKP
#' has been mis-identified quantification of all adducts will be affected.
#' @param outputDir character path to results directory
#' output is a csv file with only adducts and samples that passed filter.
#' Remaining adducts can be quantified manually
#' however it is recommended to rescale the quantification results and include
#' the quantification method as a covariate in downstream analysis.
#' @examples filterAdductTable(adductTable=paste0(system.file("extdata",
#' package="adductomicsR"),'/example_adductQuantif_peakList.csv'), percMissing
#' =51,HKPmass = "575.3", quantPeptideMass = "811.7",
#' remHKPzero=FALSE,remQuantPepzero = FALSE, remHKPlow = FALSE, outputDir =
#' NULL)
#' @usage filterAdductTable(adductTable = NULL, percMissing = 51, HKPmass =
#' "575.3", quantPeptideMass = "811.7", remHKPzero = FALSE, remQuantPepzero
#' =FALSE, remHKPlow = FALSE, outputDir = NULL)
#'@return csv file
#'@export
filterAdductTable <- function(adductTable = NULL,
percMissing = 51,
HKPmass = "575.3",
quantPeptideMass = "811.7",
remHKPzero = FALSE,
remQuantPepzero = FALSE,
remHKPlow = FALSE,
outputDir = NULL) {
if (is.null(adductTable)) {
stop("adduct file is missing with no default")
}
if (is.null(outputDir)) {
outputDir <- getwd()
}
outputDir <- paste0(outputDir, "/")
data <- read.csv(adductTable, header = TRUE)
# remove adducts that have not been quantified correctly
to_rem <- which(is.na(data$massAcc))
if (length(to_rem) > 0) {
data = data[-which(is.na(data$massAcc)),]
}
rownames(data) <-
paste0("M", round(data$mass, 2), "_RT", round(data$RT, 2))
# only peak areas with unique adduct ID
data2 <- data[, grep("mzXML", colnames(data))]
# remove adducts where >51% have missing values
perc.missing <- apply(data2, 1, function(x)
(length(which(x == 0)) / ncol(data2)) * 100)
to_rem <- which(perc.missing >= percMissing)
if (length(to_rem) > 0) {
data2 = data2[-to_rem,]
}
# identify HKP peptide
hkp <- suppressWarnings(as.numeric(data[grep(HKPmass,
rownames(data2)),]))
# remove samples where housekeeping not detected
if (remHKPzero == TRUE) {
to_rem <- which(hkp == 0)
if (length(to_rem) > 0) {
data2 = data2[,-to_rem]
}
}
# remove samples where the housekeeping peptide is very low (but not zero)
if (remHKPlow == TRUE) {
hkp <- as.numeric(data2[grep(HKPmass, rownames(data2)),])
to_rem <- which(hkp > 0 & hkp < 1e+05)
if (length(to_rem) > 0) {
data2 = data2[,-to_rem]
}
}
# remove samples where hkp did not pass QC and also the T3 was not detected
if (remQuantPepzero == TRUE) {
T3 <- as.numeric(data2[grep(quantPeptideMass, rownames(data2)),])
to_rem <- which(T3 == 0)
if (length(to_rem) > 0) {
data2 = data2[,-to_rem]
}
}
write.csv(
data2,
paste0(
outputDir,
"adductQuantif_peakList_",
Sys.Date(),
"_filtered.csv"
),
row.names = TRUE
)
} # end function
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Defines functions filterAdductTable
Documented in filterAdductTable
#' filter samples with low QC and features with large missing values
#' Removes adducts that have not been integrated with many missing values
#' and provides QC on samples
#' @param adductTable character a full path to the peaktable with number of
#' rows equal to the number of adducts from outputPeakTable()
#' which starts with adductQuantif_peakList_
#' @param percMissing numeric percentage threshold to remove adducts with
#' missing values. Default
#' is 51. It is recommended to use just over the number of samples in the
#' smallest
#' group of your study. 51 is used as default for a 50:50 case control study
#' @param HKPmass numeric mass for the housekeeping peptide. Must be the same
#' asthat in the adduct table. max 2 decimal places.
#' default= 575.3 for the LVNEVTEFAK peptide
#' @param quantPeptideMass numeric mass for the peptide for which adducts are
#' being quantified,
# must be the same as that in the adduct table, max 2 decimal places.
#' Default is
#' 811.7 for the ALVLIAFAQYLQQCPFEDHVK peptide
#' @param remHKPzero logical if TRUE removes all samples where the
#' housekeeping peptide is 0. default= FALSE
#' @param remQuantPepzero logical if TRUE removes all samples where the
#' peptide under quantification is 0. default= FALSE
#' @param remHKPlow logical if TRUE removes all samples where the
#' housekeeping peptide has an area less than 100000.
#' default= TRUE.This is recommended because this peak should be large.
#' If the HKP
#' has been mis-identified quantification of all adducts will be affected.
#' @param outputDir character path to results directory
#' output is a csv file with only adducts and samples that passed filter.
#' Remaining adducts can be quantified manually
#' however it is recommended to rescale the quantification results and include
#' the quantification method as a covariate in downstream analysis.
#' @examples filterAdductTable(adductTable=paste0(system.file("extdata",
#' package="adductomicsR"),'/example_adductQuantif_peakList.csv'), percMissing
#' =51,HKPmass = "575.3", quantPeptideMass = "811.7",
#' remHKPzero=FALSE,remQuantPepzero = FALSE, remHKPlow = FALSE, outputDir =
#' NULL)
#' @usage filterAdductTable(adductTable = NULL, percMissing = 51, HKPmass =
#' "575.3", quantPeptideMass = "811.7", remHKPzero = FALSE, remQuantPepzero
#' =FALSE, remHKPlow = FALSE, outputDir = NULL)
#'@return csv file
#'@export
filterAdductTable <- function(adductTable = NULL,
percMissing = 51,
HKPmass = "575.3",
quantPeptideMass = "811.7",
remHKPzero = FALSE,
remQuantPepzero = FALSE,
remHKPlow = FALSE,
outputDir = NULL) {
if (is.null(adductTable)) {
stop("adduct file is missing with no default")
}
if (is.null(outputDir)) {
outputDir <- getwd()
}
outputDir <- paste0(outputDir, "/")
data <- read.csv(adductTable, header = TRUE)
# remove adducts that have not been quantified correctly
to_rem <- which(is.na(data$massAcc))
if (length(to_rem) > 0) {
data = data[-which(is.na(data$massAcc)),]
}
rownames(data) <-
paste0("M", round(data$mass, 2), "_RT", round(data$RT, 2))
# only peak areas with unique adduct ID
data2 <- data[, grep("mzXML", colnames(data))]
# remove adducts where >51% have missing values
perc.missing <- apply(data2, 1, function(x)
(length(which(x == 0)) / ncol(data2)) * 100)
to_rem <- which(perc.missing >= percMissing)
if (length(to_rem) > 0) {
data2 = data2[-to_rem,]
}
# identify HKP peptide
hkp <- suppressWarnings(as.numeric(data[grep(HKPmass,
rownames(data2)),]))
# remove samples where housekeeping not detected
if (remHKPzero == TRUE) {
to_rem <- which(hkp == 0)
if (length(to_rem) > 0) {
data2 = data2[,-to_rem]
}
}
# remove samples where the housekeeping peptide is very low (but not zero)
if (remHKPlow == TRUE) {
hkp <- as.numeric(data2[grep(HKPmass, rownames(data2)),])
to_rem <- which(hkp > 0 & hkp < 1e+05)
if (length(to_rem) > 0) {
data2 = data2[,-to_rem]
}
}
# remove samples where hkp did not pass QC and also the T3 was not detected
if (remQuantPepzero == TRUE) {
T3 <- as.numeric(data2[grep(quantPeptideMass, rownames(data2)),])
to_rem <- which(T3 == 0)
if (length(to_rem) > 0) {
data2 = data2[,-to_rem]
}
}
write.csv(
data2,
paste0(
outputDir,
"adductQuantif_peakList_",
Sys.Date(),
"_filtered.csv"
),
row.names = TRUE
)
} # end function
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