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inst/doc/proteoQC.R
In proteoQC: An R package for proteomics data quality control
## ----style, echo=FALSE, results="asis", message=FALSE--------------------
knitr::opts_chunk$set(tidy = FALSE,message = FALSE)
## ----echo=FALSE, results="hide"------------------------------------------
library("BiocStyle")
BiocStyle::markdown()
## ----echo=FALSE,warning=FALSE--------------------------------------------
suppressPackageStartupMessages(library("proteoQC"))
suppressPackageStartupMessages(library("R.utils"))
## ----eval=TRUE,warning=FALSE,error=FALSE,cache=TRUE----------------------
library("rpx")
px <- PXDataset("PXD000864")
px
## ----pxfiles, warning=FALSE,error=FALSE----------------------------------
head(pxfiles(px))
tail(pxfiles(px))
## ----eval=TRUE,warning=FALSE---------------------------------------------
mgfs <- grep("mgf", pxfiles(px), value = TRUE)
mgfs <- grep("-0[5-6]-[1|2]", mgfs, value=TRUE)
mgfs
## ----eval=FALSE,cache=TRUE-----------------------------------------------
# mgffiles <- pxget(px, mgfs)
# library("R.utils")
# mgffiles <- sapply(mgffiles, gunzip)
## ----echo=FALSE, eval=FALSE----------------------------------------------
# ## Generate the lightweight qc report,
# ## trim the mgf files to 1/10 of their size.
#
# trimMgf <- function(f, m = 1/10, overwrite = FALSE) {
# message("Reading ", f)
# x <- readLines(f)
# beg <- grep("BEGIN IONS", x)
# end <- grep("END IONS", x)
# n <- length(beg)
# message("Sub-setting to ", m)
# i <- sort(sample(n, floor(n * m)))
# k <- unlist(mapply(seq, from = beg[i], to = end[i]))
# if (overwrite) {
# unlink(f)
# message("Writing ", f)
# writeLines(x[k], con = f)
# return(f)
# } else {
# g <- sub(".mgf", "_small.mgf", f)
# message("Writing ", g)
# writeLines(x[k], con = g)
# return(g)
# }
# }
#
# set.seed(1)
# mgffiles <- sapply(mgffiles, trimMgf, overwrite = TRUE)
## ----eval=FALSE----------------------------------------------------------
# fas <- pxget(px, "TTE2010.zip")
# fas <- unzip(fas)
# fas
## ----eval=FALSE, echo=FALSE----------------------------------------------
#
# ## code to regenerate the design file
# sample <- rep(c("55","75"),each=4)
# techrep <- rep(1:2, 4)
# biorep <- rep(1, length(mgffiles))
# frac <- rep((rep(5:6, each = 2)), 2)
# des <- data.frame(file = mgffiles,
# sample = sample,
# bioRep = biorep, techRep = techrep,
# fraction = frac,
# row.names = NULL)
#
# write.table(des, sep = " ", row.names=FALSE,
# quote = FALSE,
# file = "../inst/extdata/PXD000864-design.txt")
#
## ------------------------------------------------------------------------
design <- system.file("extdata/PXD000864-design.txt", package = "proteoQC")
design
read.table(design, header = TRUE)
## ----eval=FALSE, tidy=FALSE----------------------------------------------
# qcres <- msQCpipe(spectralist = design,
# fasta = fas,
# outdir = "./qc",
# miss = 0,
# enzyme = 1, varmod = 2, fixmod = 1,
# tol = 10, itol = 0.6, cpu = 2,
# mode = "identification")
## ------------------------------------------------------------------------
zpqc <- system.file("extdata/qc.zip", package = "proteoQC")
unzip(zpqc)
qcres <- loadmsQCres("./qc")
## ------------------------------------------------------------------------
print(qcres)
## ------------------------------------------------------------------------
showMods()
## ----message = FALSE-----------------------------------------------------
html <- reportHTML(qcres)
## ----message = FALSE-----------------------------------------------------
html <- reportHTML("./qc")
## ----eval=FALSE, echo=FALSE----------------------------------------------
# ## Remove these files as they are really big
# ## but this breaks reportHTML(qcres), though
# unlink("./qc/database/target_decoy.fasta")
# unlink("./qc/result/*_xtandem.xml")
# unlink("../inst/extdata/qc.zip")
# zip("../inst/extdata/qc.zip", "./qc")
## ----fig.width=6,fig.height=5--------------------------------------------
pep.zip <- system.file("extdata/pep.zip", package = "proteoQC")
unzip(pep.zip)
proteinGroup(file = "pep.txt", outfile = "pg.txt")
## ----warning=FALSE, cache=TRUE-------------------------------------------
mgf.zip <- system.file("extdata/mgf.zip", package = "proteoQC")
unzip(mgf.zip)
a <- labelRatio("test.mgf",reporter = 2)
## ----cache=TRUE----------------------------------------------------------
library(dplyr)
library(plotly)
mgf.zip <- system.file("extdata/mgf.zip", package = "proteoQC")
unzip(mgf.zip)
charge <- chargeStat("test.mgf")
pp <- plot_ly(charge, labels = ~Charge, values = ~Number, type = 'pie') %>%
layout(title = 'Charge distribution',
xaxis = list(showgrid = FALSE, zeroline = FALSE, showticklabels = FALSE),
yaxis = list(showgrid = FALSE, zeroline = FALSE, showticklabels = FALSE))
pp
## ----echo=FALSE----------------------------------------------------------
sessionInfo()
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proteoQC documentation built on Oct. 31, 2019, 3:20 a.m.
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## ----style, echo=FALSE, results="asis", message=FALSE--------------------
knitr::opts_chunk$set(tidy = FALSE,message = FALSE)
## ----echo=FALSE, results="hide"------------------------------------------
library("BiocStyle")
BiocStyle::markdown()
## ----echo=FALSE,warning=FALSE--------------------------------------------
suppressPackageStartupMessages(library("proteoQC"))
suppressPackageStartupMessages(library("R.utils"))
## ----eval=TRUE,warning=FALSE,error=FALSE,cache=TRUE----------------------
library("rpx")
px <- PXDataset("PXD000864")
px
## ----pxfiles, warning=FALSE,error=FALSE----------------------------------
head(pxfiles(px))
tail(pxfiles(px))
## ----eval=TRUE,warning=FALSE---------------------------------------------
mgfs <- grep("mgf", pxfiles(px), value = TRUE)
mgfs <- grep("-0[5-6]-[1|2]", mgfs, value=TRUE)
mgfs
## ----eval=FALSE,cache=TRUE-----------------------------------------------
# mgffiles <- pxget(px, mgfs)
# library("R.utils")
# mgffiles <- sapply(mgffiles, gunzip)
## ----echo=FALSE, eval=FALSE----------------------------------------------
# ## Generate the lightweight qc report,
# ## trim the mgf files to 1/10 of their size.
#
# trimMgf <- function(f, m = 1/10, overwrite = FALSE) {
# message("Reading ", f)
# x <- readLines(f)
# beg <- grep("BEGIN IONS", x)
# end <- grep("END IONS", x)
# n <- length(beg)
# message("Sub-setting to ", m)
# i <- sort(sample(n, floor(n * m)))
# k <- unlist(mapply(seq, from = beg[i], to = end[i]))
# if (overwrite) {
# unlink(f)
# message("Writing ", f)
# writeLines(x[k], con = f)
# return(f)
# } else {
# g <- sub(".mgf", "_small.mgf", f)
# message("Writing ", g)
# writeLines(x[k], con = g)
# return(g)
# }
# }
#
# set.seed(1)
# mgffiles <- sapply(mgffiles, trimMgf, overwrite = TRUE)
## ----eval=FALSE----------------------------------------------------------
# fas <- pxget(px, "TTE2010.zip")
# fas <- unzip(fas)
# fas
## ----eval=FALSE, echo=FALSE----------------------------------------------
#
# ## code to regenerate the design file
# sample <- rep(c("55","75"),each=4)
# techrep <- rep(1:2, 4)
# biorep <- rep(1, length(mgffiles))
# frac <- rep((rep(5:6, each = 2)), 2)
# des <- data.frame(file = mgffiles,
# sample = sample,
# bioRep = biorep, techRep = techrep,
# fraction = frac,
# row.names = NULL)
#
# write.table(des, sep = " ", row.names=FALSE,
# quote = FALSE,
# file = "../inst/extdata/PXD000864-design.txt")
#
## ------------------------------------------------------------------------
design <- system.file("extdata/PXD000864-design.txt", package = "proteoQC")
design
read.table(design, header = TRUE)
## ----eval=FALSE, tidy=FALSE----------------------------------------------
# qcres <- msQCpipe(spectralist = design,
# fasta = fas,
# outdir = "./qc",
# miss = 0,
# enzyme = 1, varmod = 2, fixmod = 1,
# tol = 10, itol = 0.6, cpu = 2,
# mode = "identification")
## ------------------------------------------------------------------------
zpqc <- system.file("extdata/qc.zip", package = "proteoQC")
unzip(zpqc)
qcres <- loadmsQCres("./qc")
## ------------------------------------------------------------------------
print(qcres)
## ------------------------------------------------------------------------
showMods()
## ----message = FALSE-----------------------------------------------------
html <- reportHTML(qcres)
## ----message = FALSE-----------------------------------------------------
html <- reportHTML("./qc")
## ----eval=FALSE, echo=FALSE----------------------------------------------
# ## Remove these files as they are really big
# ## but this breaks reportHTML(qcres), though
# unlink("./qc/database/target_decoy.fasta")
# unlink("./qc/result/*_xtandem.xml")
# unlink("../inst/extdata/qc.zip")
# zip("../inst/extdata/qc.zip", "./qc")
## ----fig.width=6,fig.height=5--------------------------------------------
pep.zip <- system.file("extdata/pep.zip", package = "proteoQC")
unzip(pep.zip)
proteinGroup(file = "pep.txt", outfile = "pg.txt")
## ----warning=FALSE, cache=TRUE-------------------------------------------
mgf.zip <- system.file("extdata/mgf.zip", package = "proteoQC")
unzip(mgf.zip)
a <- labelRatio("test.mgf",reporter = 2)
## ----cache=TRUE----------------------------------------------------------
library(dplyr)
library(plotly)
mgf.zip <- system.file("extdata/mgf.zip", package = "proteoQC")
unzip(mgf.zip)
charge <- chargeStat("test.mgf")
pp <- plot_ly(charge, labels = ~Charge, values = ~Number, type = 'pie') %>%
layout(title = 'Charge distribution',
xaxis = list(showgrid = FALSE, zeroline = FALSE, showticklabels = FALSE),
yaxis = list(showgrid = FALSE, zeroline = FALSE, showticklabels = FALSE))
pp
## ----echo=FALSE----------------------------------------------------------
sessionInfo()
Try the proteoQC package in your browser
Any scripts or data that you put into this service are public.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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