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inst/doc/ORFikExperiment.R
In ORFik: Open Reading Frames in Genomics
## ----eval = TRUE, echo = TRUE, message = FALSE--------------------------------
library(ORFik)
## ----eval = TRUE, echo = TRUE-------------------------------------------------
# Read from (create.experiment() template)
# 1. Pick directory (normally a folder with bam / bed / wig files)
dir <- system.file("extdata", "", package = "ORFik")
list.files(dir)
## ----eval = TRUE, echo = TRUE-------------------------------------------------
# 2. Pick an experiment name
exper <- "ORFik"
# 3. Pick .gff/.gtf and fasta location
txdb <- system.file("extdata", "annotations.gtf", package = "ORFik")
fasta <- system.file("extdata", "genome.fasta", package = "ORFik")
template <- create.experiment(dir = dir, # dir is the NGS files
exper, # Experiment name
txdb = txdb, # gtf / gff / gff.db annotation
fa = fasta, # Fasta genome
organism = "Homo sapiens", # Scientific naming
saveDir = NULL, # If not NULL, saves experiment directly
viewTemplate = FALSE)
data.frame(template)
## ----eval = TRUE, echo = TRUE-------------------------------------------------
template$X5[6] <- "heart_valve" # <- fix non unique row (tissue fraction is heart valve)
# read experiment from template
df <- read.experiment(template)
## ----eval = FALSE, echo = TRUE------------------------------------------------
# save.experiment(df, file = "path/to/save/experiment.csv")
## ----eval = TRUE, echo = TRUE-------------------------------------------------
df
## ----eval = TRUE, echo = TRUE-------------------------------------------------
filepath(df, type = "default")
## ----eval = TRUE, echo = TRUE, warning = FALSE--------------------------------
# First load experiment if not present
# We use our already loaded experiment: (df) here
# Load transcript annotation
txdb <- loadTxdb(df) # transcript annotation
# And now NGS data
outputLibs(df, chrStyle = seqlevelsStyle(txdb)) # Use txdb as seqlevelsStyle reference
## ----eval = TRUE, echo = TRUE-------------------------------------------------
bamVarName(df) #This will be the names:
## ----eval = TRUE, echo = TRUE-------------------------------------------------
df@expInVarName <- TRUE
bamVarName(df) #This will be the names:
## ----eval = TRUE, echo = TRUE-------------------------------------------------
df@expInVarName <- FALSE
remove.experiments(df)
outputLibs(df, chrStyle = seqlevelsStyle(txdb))
## ----eval = TRUE, echo = TRUE-------------------------------------------------
txNames <- filterTranscripts(txdb, minFiveUTR = 30,minCDS = 30, minThreeUTR = 30)
loadRegions(txdb, parts = c("leaders", "cds", "trailers"), names.keep = txNames)
## ----eval = TRUE, echo = TRUE, warning=FALSE----------------------------------
transcriptWindow(leaders, cds, trailers, df[3,])
## ----eval = FALSE, echo = TRUE, warning=FALSE---------------------------------
# shiftFootprintsByExperiment(df[df$libtype == "RFP",])
## ----eval = FALSE, echo = TRUE, warning=FALSE---------------------------------
# df.baz <- read.experiment("zf_bazzini14_RFP")
# shiftPlots(df.baz, title = "Ribo-seq, zebrafish, Bazzini et al. 2014")
## ----eval = FALSE, echo = TRUE, warning=FALSE---------------------------------
# shifts.load(df)
## ----eval = FALSE, echo = TRUE, warning=FALSE---------------------------------
# filepath(df[df$libtype == "RFP",], type = "pshifted")
## ----eval = FALSE, echo = TRUE, warning=FALSE---------------------------------
# outputLibs(df[df$libtype == "RFP",], type = "pshifted")
## ----eval = FALSE, echo = TRUE, warning=FALSE---------------------------------
# QCreport(df)
## ----eval = FALSE, echo = TRUE, warning=FALSE---------------------------------
# QCstats(df)
## ----eval = FALSE, echo = TRUE, warning=FALSE---------------------------------
# RiboQC.plot(df)
## ----eval = FALSE, echo = TRUE, warning=FALSE---------------------------------
# outputLibs(df, type = "pshifted") # Output all libraries, fastest way
# libs <- bamVarName(df) # <- here are names of the libs that were outputed
# cds <- loadRegion(df, "cds")
# # parallel loop
# bplapply(libs, FUN = function(lib, cds) {
# return(entropy(cds, get(lib)))
# }, cds = cds)
#
## ----eval = FALSE, echo = TRUE, warning=FALSE---------------------------------
# files <- filepath(df, type = "pshifted")
# cds <- loadRegion(df, "cds")
# # parallel loop
# res <- bplapply(files, FUN = function(file, cds) {
# return(entropy(cds, fimport(file)))
# }, cds = cds)
#
## ----eval = FALSE, echo = TRUE, warning=FALSE---------------------------------
# files <- filepath(df, type = "pshifted")
# cds <- loadRegion(df, "cds")
# # Single thread loop
# lapply(files, FUN = function(file, cds) {
# return(entropy(cds, fimport(file)))
# }, cds = cds)
#
## ----eval = FALSE, echo = TRUE, warning=FALSE---------------------------------
# library(data.table)
#
# outputLibs(df, type = "pshifted")
# libs <- bamVarName(df) # <- here are names of the libs that were outputed
# cds <- loadRegion(df, "cds")
# # parallel loop
# res <- bplapply(libs, FUN = function(lib, cds) {
# return(entropy(cds, get(lib)))
# }, cds = cds)
# # Add some names and convert
# names(res) <- libs
# data.table::setDT(res) # Will give 1 column per library
# res # Now by columns
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## ----eval = TRUE, echo = TRUE, message = FALSE--------------------------------
library(ORFik)
## ----eval = TRUE, echo = TRUE-------------------------------------------------
# Read from (create.experiment() template)
# 1. Pick directory (normally a folder with bam / bed / wig files)
dir <- system.file("extdata", "", package = "ORFik")
list.files(dir)
## ----eval = TRUE, echo = TRUE-------------------------------------------------
# 2. Pick an experiment name
exper <- "ORFik"
# 3. Pick .gff/.gtf and fasta location
txdb <- system.file("extdata", "annotations.gtf", package = "ORFik")
fasta <- system.file("extdata", "genome.fasta", package = "ORFik")
template <- create.experiment(dir = dir, # dir is the NGS files
exper, # Experiment name
txdb = txdb, # gtf / gff / gff.db annotation
fa = fasta, # Fasta genome
organism = "Homo sapiens", # Scientific naming
saveDir = NULL, # If not NULL, saves experiment directly
viewTemplate = FALSE)
data.frame(template)
## ----eval = TRUE, echo = TRUE-------------------------------------------------
template$X5[6] <- "heart_valve" # <- fix non unique row (tissue fraction is heart valve)
# read experiment from template
df <- read.experiment(template)
## ----eval = FALSE, echo = TRUE------------------------------------------------
# save.experiment(df, file = "path/to/save/experiment.csv")
## ----eval = TRUE, echo = TRUE-------------------------------------------------
df
## ----eval = TRUE, echo = TRUE-------------------------------------------------
filepath(df, type = "default")
## ----eval = TRUE, echo = TRUE, warning = FALSE--------------------------------
# First load experiment if not present
# We use our already loaded experiment: (df) here
# Load transcript annotation
txdb <- loadTxdb(df) # transcript annotation
# And now NGS data
outputLibs(df, chrStyle = seqlevelsStyle(txdb)) # Use txdb as seqlevelsStyle reference
## ----eval = TRUE, echo = TRUE-------------------------------------------------
bamVarName(df) #This will be the names:
## ----eval = TRUE, echo = TRUE-------------------------------------------------
df@expInVarName <- TRUE
bamVarName(df) #This will be the names:
## ----eval = TRUE, echo = TRUE-------------------------------------------------
df@expInVarName <- FALSE
remove.experiments(df)
outputLibs(df, chrStyle = seqlevelsStyle(txdb))
## ----eval = TRUE, echo = TRUE-------------------------------------------------
txNames <- filterTranscripts(txdb, minFiveUTR = 30,minCDS = 30, minThreeUTR = 30)
loadRegions(txdb, parts = c("leaders", "cds", "trailers"), names.keep = txNames)
## ----eval = TRUE, echo = TRUE, warning=FALSE----------------------------------
transcriptWindow(leaders, cds, trailers, df[3,])
## ----eval = FALSE, echo = TRUE, warning=FALSE---------------------------------
# shiftFootprintsByExperiment(df[df$libtype == "RFP",])
## ----eval = FALSE, echo = TRUE, warning=FALSE---------------------------------
# df.baz <- read.experiment("zf_bazzini14_RFP")
# shiftPlots(df.baz, title = "Ribo-seq, zebrafish, Bazzini et al. 2014")
## ----eval = FALSE, echo = TRUE, warning=FALSE---------------------------------
# shifts.load(df)
## ----eval = FALSE, echo = TRUE, warning=FALSE---------------------------------
# filepath(df[df$libtype == "RFP",], type = "pshifted")
## ----eval = FALSE, echo = TRUE, warning=FALSE---------------------------------
# outputLibs(df[df$libtype == "RFP",], type = "pshifted")
## ----eval = FALSE, echo = TRUE, warning=FALSE---------------------------------
# QCreport(df)
## ----eval = FALSE, echo = TRUE, warning=FALSE---------------------------------
# QCstats(df)
## ----eval = FALSE, echo = TRUE, warning=FALSE---------------------------------
# RiboQC.plot(df)
## ----eval = FALSE, echo = TRUE, warning=FALSE---------------------------------
# outputLibs(df, type = "pshifted") # Output all libraries, fastest way
# libs <- bamVarName(df) # <- here are names of the libs that were outputed
# cds <- loadRegion(df, "cds")
# # parallel loop
# bplapply(libs, FUN = function(lib, cds) {
# return(entropy(cds, get(lib)))
# }, cds = cds)
#
## ----eval = FALSE, echo = TRUE, warning=FALSE---------------------------------
# files <- filepath(df, type = "pshifted")
# cds <- loadRegion(df, "cds")
# # parallel loop
# res <- bplapply(files, FUN = function(file, cds) {
# return(entropy(cds, fimport(file)))
# }, cds = cds)
#
## ----eval = FALSE, echo = TRUE, warning=FALSE---------------------------------
# files <- filepath(df, type = "pshifted")
# cds <- loadRegion(df, "cds")
# # Single thread loop
# lapply(files, FUN = function(file, cds) {
# return(entropy(cds, fimport(file)))
# }, cds = cds)
#
## ----eval = FALSE, echo = TRUE, warning=FALSE---------------------------------
# library(data.table)
#
# outputLibs(df, type = "pshifted")
# libs <- bamVarName(df) # <- here are names of the libs that were outputed
# cds <- loadRegion(df, "cds")
# # parallel loop
# res <- bplapply(libs, FUN = function(lib, cds) {
# return(entropy(cds, get(lib)))
# }, cds = cds)
# # Add some names and convert
# names(res) <- libs
# data.table::setDT(res) # Will give 1 column per library
# res # Now by columns
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