Nothing
R/tRNA-features.R
In tRNA: Analyzing tRNA sequences and structures
Defines functions
.get_str_lengths
.get_bulges
.get_mismatches
.get_structures_details
.get_ident_structures
.get_validity_of_structures
.get_infernal_score
.get_secondary_structure_score
.get_hmm_score
.get_scan_score
.get_score
.get_introns
.get_potential_pseudogene
.get_features_bulged
.get_features_mismatches
.get_features_unpaired
.get_features_tstem
.get_features_dstem
.get_features_valid
.get_features_length
.get_cca_ends
.get_gc_content
.get_seq_lengths
.get_widths
#' @include tRNA.R
NULL
#' @name gettRNASummary
#' @aliases gettRNASummary
#'
#' @title Summary of tRNA features
#'
#' @description
#' \code{gettRNASummary} prepares a DataFrame with the aggregated features
#' of tRNAs from a GRanges object. Logical values are converted to numeric
#' values.
#'
#' @param x a GRanges or a GRangesList object. All elements have to pass the
#' \code{istRNAGRanges} test.
#'
#' @return a DataFrame object
#'
#' @export
#' @examples
#' data("gr", package = "tRNA")
#' gettRNASummary(gr)
NULL
TRNA_SUMMARY_FEATURES <- c("gc" = ".get_gc_content",
"width" = ".get_widths",
"length" = ".get_seq_lengths",
"cca" = ".get_cca_ends")
TRNA_SUMMARY_FEATURES_LIST <- c("feature_valid" = ".get_features_valid",
"feature_dstem" = ".get_features_dstem",
"feature_tstem" = ".get_features_tstem")
TRNA_SUMMARY_FEATURES_LIST_SUBSET <-
c("feature_length" = ".get_features_length")
TRNA_SUMMARY_FEATURES_LIST_SUBSET_PAIRED <-
c("unpaired" = ".get_features_unpaired",
"mismatches" = ".get_features_mismatches",
"bulged" = ".get_features_bulged")
TRNA_SUMMARY_FEATURES_OPTIONAL <- c(
"score" = ".get_score",
"tRNAscan_potential.pseudogene" = ".get_potential_pseudogene",
"tRNAscan_intron.start" = ".get_introns",
"tRNAscan_score" = ".get_scan_score",
"tRNAscan_hmm.score" = ".get_hmm_score",
"tRNAscan_sec.str.score" = ".get_secondary_structure_score",
"tRNAscan_infernal" = ".get_infernal_score")
TRNA_SUMMARY_FEATURES_RENAMED <- c("tRNAscan_intron.start" = "tRNAscan_intron")
#' @rdname gettRNASummary
#' @export
setMethod(
f = "gettRNASummary",
signature = signature(x = "GRangesList"),
definition = function(x) {
ans <- lapply(x, gettRNASummary)
names(ans) <- names(x)
return(ans)
}
)
#' @rdname gettRNASummary
#' @export
setMethod(
f = "gettRNASummary",
signature = signature(x = "GRanges"),
definition = function(x) {
# Input check
istRNAGRanges(x)
# get default features
df <- S4Vectors::DataFrame(lapply(TRNA_SUMMARY_FEATURES,
function(f){
do.call(f,list(x))
}))
# get list features from structure informations
strList <- getBasePairing(x$tRNA_str)
str <- .get_tRNA_structures(TRNA_STRUCTURES,
x,
strList)
strListSubsetAll <- .get_ident_structures(ident = TRNA_STRUCTURES,
gr = x,
strList = strList,
str = str)
strListSubsetPaired <- strListSubsetAll[TRNA_STRUCTURES_PAIRED]
data <- lapply(TRNA_SUMMARY_FEATURES_LIST,
function(f){
do.call(f,list(x, str))
})
dataSubset <- lapply(TRNA_SUMMARY_FEATURES_LIST_SUBSET,
function(f){
do.call(f,list(x, strListSubsetAll))
})
dataSubsetPaired <- lapply(TRNA_SUMMARY_FEATURES_LIST_SUBSET_PAIRED,
function(f){
do.call(f,list(x, strListSubsetPaired))
})
dfAdd <- do.call(cbind,
c(unname(lapply(data, S4Vectors::DataFrame)),
unname(lapply(dataSubset, S4Vectors::DataFrame)),
unname(lapply(dataSubsetPaired, S4Vectors::DataFrame))))
colnames(dfAdd) <- unname(c(unlist(lapply(data,names)),
unlist(lapply(dataSubset,names)),
unlist(lapply(dataSubsetPaired,names))))
df <- cbind(df,dfAdd)
# get optional features
dataFeatures <- colnames(S4Vectors::mcols(x))
dataFeatures <- dataFeatures[dataFeatures %in%
names(TRNA_SUMMARY_FEATURES_OPTIONAL)]
if(length(dataFeatures) > 0){
dfAdd <- S4Vectors::DataFrame(
lapply(TRNA_SUMMARY_FEATURES_OPTIONAL[dataFeatures],
function(f){
do.call(f,list(x))
}))
df <- cbind(df, dfAdd)
}
# rename some colums
cnames <- colnames(df)
f <- match(names(TRNA_SUMMARY_FEATURES_RENAMED), cnames)
cnames[f] <- TRNA_SUMMARY_FEATURES_RENAMED
colnames(df) <- cnames
# convert columns to fix types
df$width <- as.integer(df$width)
df$length <- as.integer(df$length)
df$cca <- as.logical(df$cca)
df$features_all_valid <- as.logical(df$features_all_valid)
df$features_Dstem_found <- as.logical(df$features_Dstem_found)
df$features_Tstem_found <- as.logical(df$features_Tstem_found)
df$acceptorStem_length <- as.integer(df$acceptorStem_length)
df$Dprime5_length <- as.integer(df$Dprime5_length)
df$DStem_length <- as.integer(df$DStem_length)
df$Dloop_length <- as.integer(df$Dloop_length)
df$Dprime3_length <- as.integer(df$Dprime3_length)
df$anticodonStem_length <- as.integer(df$anticodonStem_length)
df$anticodonLoop_length <- as.integer(df$anticodonLoop_length)
df$variableLoop_length <- as.integer(df$variableLoop_length)
df$TStem_length <- as.integer(df$TStem_length)
df$Tloop_length <- as.integer(df$Tloop_length)
df$discriminator_length <- as.integer(df$discriminator_length)
df$acceptorStem_unpaired <- as.logical(df$acceptorStem_unpaired)
df$DStem_unpaired <- as.logical(df$DStem_unpaired)
df$anticodonStem_unpaired <- as.logical(df$anticodonStem_unpaired)
df$variableLoop_unpaired <- as.logical(df$variableLoop_unpaired)
df$TStem_unpaired <- as.logical(df$TStem_unpaired)
df$acceptorStem_mismatches <- as.logical(df$acceptorStem_mismatches)
df$DStem_mismatches <- as.logical(df$DStem_mismatches)
df$anticodonStem_mismatches <- as.logical(df$anticodonStem_mismatches)
df$variableLoop_mismatches <- as.logical(df$variableLoop_mismatches)
df$TStem_mismatches <- as.logical(df$TStem_mismatches)
df$acceptorStem_bulges <- as.logical(df$acceptorStem_bulges)
df$DStem_bulges <- as.logical(df$DStem_bulges)
df$anticodonStem_bulges <- as.logical(df$anticodonStem_bulges)
df$variableLoop_bulges <- as.logical(df$variableLoop_bulges)
df$TStem_bulges <- as.logical(df$TStem_bulges)
df$tRNAscan_potential.pseudogene <- as.logical(df$tRNAscan_potential.pseudogene)
df$tRNAscan_intron <- as.logical(df$tRNAscan_intron)
#
return(df)
}
)
# default features -------------------------------------------------------------
# returns the length of tRNAs
.get_widths <- function(gr){
as.numeric(BiocGenerics::width(gr))
}
.get_seq_lengths <- function(gr){
as.numeric(S4Vectors::mcols(gr)$tRNA_length)
}
# get GC content
.get_gc_content <- function(gr){
freq <- Biostrings::alphabetFrequency(S4Vectors::mcols(gr)$tRNA_seq,
baseOnly=TRUE)
gc <- vapply(seq_len(nrow(freq)), function(i){
sum(freq[i,c("G","C")]) / sum(freq[i,])
},numeric(1))
gc
}
# fractions of tRNA with encoded CCA ends
.get_cca_ends <- function(gr){
as.numeric(S4Vectors::mcols(gr)$tRNA_CCA.end)
}
# Summarize features
.get_features_length <- function(gr, strList){
lengths <- lapply(TRNA_STRUCTURES,
function(ident){
l <- .get_str_lengths(ident = ident,
strList = strList[[ident]])
# if no length is found, NA is returned. Set these to 0
l[is.na(l)] <- 0
l
})
names(lengths) <- paste0(TRNA_STRUCTURES,"_length")
return(lengths)
}
.get_features_valid <- function(gr,
str){
ans <- .get_validity_of_structures(str)
ans <- lapply(ans,as.numeric)
names(ans) <- "features_all_valid"
return(ans)
}
.get_features_dstem <- function(gr,
str){
ans <- .get_validity_of_structures(str["DStem"])
ans <- lapply(ans,as.numeric)
names(ans) <- "features_Dstem_found"
return(ans)
}
.get_features_tstem <- function(gr,
str){
ans <- .get_validity_of_structures(str["TStem"])
ans <- lapply(ans,as.numeric)
names(ans) <- "features_Tstem_found"
return(ans)
}
#
.get_features_unpaired <- function(gr,
strList){
unpaired <- lapply(TRNA_STRUCTURES_PAIRED,
function(ident){
if(ident == "variableLoop"){
strList[[ident]] <- lapply(strList[[ident]],
function(str){
str[seq_len(floor(nrow(str)/2)),]
})
}
ansMismatches <-
.get_mismatches(strList = strList[[ident]])[["T"]]
ansBulged <-
.get_bulges(strList = strList[[ident]])[["T"]]
as.numeric(ansMismatches | ansBulged)
})
names(unpaired) <- paste0(TRNA_STRUCTURES_PAIRED,"_unpaired")
return(unpaired)
}
.get_features_mismatches <- function(gr,
strList){
mismatches <- lapply(
TRNA_STRUCTURES_PAIRED,
function(ident){
if(ident == "variableLoop"){
strList[[ident]] <- lapply(strList[[ident]],
function(str){
str[seq_len(floor(nrow(str)/2)),]
})
}
as.numeric(.get_mismatches(strList = strList[[ident]])[["T"]])
})
names(mismatches) <- paste0(TRNA_STRUCTURES_PAIRED,"_mismatches")
return(mismatches)
}
.get_features_bulged <- function(gr,
strList){
bulges <- lapply(
TRNA_STRUCTURES_PAIRED,
function(ident){
if(ident == "variableLoop"){
strList[[ident]] <- lapply(strList[[ident]],
function(str){
str[seq_len(floor(nrow(str)/2)),]
})
}
as.numeric(.get_bulges(strList = strList[[ident]])[["T"]])
})
names(bulges) <- paste0(TRNA_STRUCTURES_PAIRED,"_bulges")
return(bulges)
}
# optional features ------------------------------------------------------------
# fractions of tRNA with pseudogene
.get_potential_pseudogene <- function(gr){
as.numeric(S4Vectors::mcols(gr)$tRNAscan_potential.pseudogene)
}
# fractions of tRNA with introns
.get_introns <- function(gr){
introns <- S4Vectors::mcols(gr)$tRNAscan_intron.start
introns[is.na(introns)] <- 0
introns[introns > 0] <- 1
introns
}
# aggregates the scores
.get_score <- function(gr){
as.numeric(S4Vectors::mcols(gr)[,c("score")])
}
.get_scan_score <- function(gr){
as.numeric(S4Vectors::mcols(gr)[,c("tRNAscan_score")])
}
.get_hmm_score <- function(gr){
as.numeric(S4Vectors::mcols(gr)[,c("tRNAscan_hmm.score")])
}
.get_secondary_structure_score <- function(gr){
as.numeric(S4Vectors::mcols(gr)[,c("tRNAscan_sec.str.score")])
}
.get_infernal_score <- function(gr){
as.numeric(S4Vectors::mcols(gr)[,c("tRNAscan_infernal")])
}
# Feature utility functions ----------------------------------------------------
# also used for subsetting functions
.get_validity_of_structures <- function(str,
combine = TRUE){
widths <- lapply(str,
function(s){
if(is.list(s)){
return(lapply(s,width))
}
width(s)
})
widths <- c(widths[!vapply(widths,is.list,logical(1))],
unlist(widths[vapply(widths,is.list,logical(1))],
recursive = FALSE))
ans <- lapply(widths,"!=",0)
if(combine){
ans <- list(Reduce("&",ans))
}
ans
}
.get_ident_structures <- function(ident, gr, strList, str){
if(missing(strList) || missing(str)){
strList <- getBasePairing(gr$tRNA_str)
str <- .get_tRNA_structures(ident, gr, strList)
}
# Since we will subset the DotBracketDataFrameList it is best to convert them
# to a normal CompressedDataFrameList, since not all positions remain paired
# resulting in an invalid DotBracketDataFrame
strList <- lapply(strList,as.data.frame)
strList <- lapply(ident,
function(id){
if(is.list(str[[id]])){
strL <- mapply(
.subset_structure,
split(c(str[[id]]$prime5,
str[[id]]$prime3),
c(seq_along(str[[id]]$prime5),
seq_along(str[[id]]$prime3))),
strList,
SIMPLIFY = FALSE)
} else {
strL <- mapply(
.subset_structure,
split(str[[id]],seq_along(str[[id]])),
strList,
MoreArgs = list(pairedOnly = FALSE),
SIMPLIFY = FALSE)
}
strL
})
names(strList) <- ident
return(strList)
}
.get_structures_details <- function(strList){
forwardContinously <- vapply(
strList,
function(str){
if(length(str[str$forward != 0,]$forward) == 0) return(TRUE)
ans <- .is_continous_evenly_spaced(str[str$forward != 0,]$forward)
},
logical(1))
reverseContinously <- vapply(
strList,
function(str){
if(length(str[str$reverse != 0,]$reverse) == 0) return(TRUE)
.is_continous_evenly_spaced(str[str$reverse != 0,]$reverse)
},
logical(1))
forwardLength <- vapply(
strList,
function(str){
ifelse(length(str[str$forward != 0,]$forward) > 0,
max(str[str$forward != 0,]$forward) -
min(str[str$forward != 0,]$forward) + 1,
0)
},
double(1))
reverseLength <- vapply(
strList,
function(str){
ifelse(length(str[str$reverse != 0,]$reverse) > 0,
max(str[str$reverse != 0,]$reverse) -
min(str[str$reverse != 0,]$reverse) + 1,
0)
},
double(1))
return(list(forwardContinously = unname(forwardContinously),
reverseContinously = unname(reverseContinously),
forwardLength = unname(forwardLength),
reverseLength = unname(reverseLength)))
}
.get_mismatches <- function(gr, ident, strList){
if(!missing(gr) &&
!missing(ident) &&
missing(strList)){
strList <- .get_ident_structures(ident, gr)[[1]]
}
strListDetails <- .get_structures_details(strList)
ansMismatchesFalse <- strListDetails[["forwardLength"]] ==
strListDetails[["reverseLength"]] &
strListDetails[["forwardContinously"]] &
strListDetails[["reverseContinously"]]
ansMismatchesTrue <- strListDetails[["forwardLength"]] ==
strListDetails[["reverseLength"]] &
((strListDetails[["forwardContinously"]] &
!strListDetails[["reverseContinously"]]) |
(!strListDetails[["forwardContinously"]] &
strListDetails[["reverseContinously"]]) |
(!strListDetails[["forwardContinously"]] &
!strListDetails[["reverseContinously"]]))
return(list("T" = unname(ansMismatchesTrue),
"F" = unname(ansMismatchesFalse)))
}
.get_bulges <- function(gr,
ident,
strList){
if(!missing(gr) &&
!missing(ident) &&
missing(strList)){
strList <- .get_ident_structures(ident,
gr)[[1]]
}
strListDetails <- .get_structures_details(strList)
ansBulgedFalse <- strListDetails[["forwardLength"]] ==
strListDetails[["reverseLength"]] &
((strListDetails[["forwardContinously"]] &
strListDetails[["reverseContinously"]]) |
(!strListDetails[["forwardContinously"]] &
!strListDetails[["reverseContinously"]]))
ansBulgedTrue <- strListDetails[["forwardLength"]] !=
strListDetails[["reverseLength"]] &
((strListDetails[["forwardContinously"]] &
!strListDetails[["reverseContinously"]]) |
(!strListDetails[["forwardContinously"]] &
strListDetails[["reverseContinously"]]) |
(!strListDetails[["forwardContinously"]] &
!strListDetails[["reverseContinously"]]))
return(list("T" = unname(ansBulgedTrue),
"F" = unname(ansBulgedFalse)))
}
.get_str_lengths <- function(gr, ident, strList){
if(missing(strList)){
strList <- .get_ident_structures(ident, gr)[[1]]
}
if(!(ident %in% TRNA_STRUCTURES_LOOP)){
length <- lapply(strList,
function(str){
if(nrow(str) == 0) return(NA)
max(max(str[str$forward != 0,]$forward) -
min(str[str$forward != 0,]$forward),
max(str[str$reverse != 0,]$reverse) -
min(str[str$reverse != 0,]$reverse)) + 1
})
} else {
length <- lapply(strList,
function(str){
if(nrow(str) == 0) return(NA)
max(str$pos) -
min(str$pos) + 1
})
}
length <- unlist(length)
return(unname(length))
}
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tRNA documentation built on Nov. 8, 2020, 11:08 p.m.
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Defines functions .get_str_lengths .get_bulges .get_mismatches .get_structures_details .get_ident_structures .get_validity_of_structures .get_infernal_score .get_secondary_structure_score .get_hmm_score .get_scan_score .get_score .get_introns .get_potential_pseudogene .get_features_bulged .get_features_mismatches .get_features_unpaired .get_features_tstem .get_features_dstem .get_features_valid .get_features_length .get_cca_ends .get_gc_content .get_seq_lengths .get_widths
#' @include tRNA.R
NULL
#' @name gettRNASummary
#' @aliases gettRNASummary
#'
#' @title Summary of tRNA features
#'
#' @description
#' \code{gettRNASummary} prepares a DataFrame with the aggregated features
#' of tRNAs from a GRanges object. Logical values are converted to numeric
#' values.
#'
#' @param x a GRanges or a GRangesList object. All elements have to pass the
#' \code{istRNAGRanges} test.
#'
#' @return a DataFrame object
#'
#' @export
#' @examples
#' data("gr", package = "tRNA")
#' gettRNASummary(gr)
NULL
TRNA_SUMMARY_FEATURES <- c("gc" = ".get_gc_content",
"width" = ".get_widths",
"length" = ".get_seq_lengths",
"cca" = ".get_cca_ends")
TRNA_SUMMARY_FEATURES_LIST <- c("feature_valid" = ".get_features_valid",
"feature_dstem" = ".get_features_dstem",
"feature_tstem" = ".get_features_tstem")
TRNA_SUMMARY_FEATURES_LIST_SUBSET <-
c("feature_length" = ".get_features_length")
TRNA_SUMMARY_FEATURES_LIST_SUBSET_PAIRED <-
c("unpaired" = ".get_features_unpaired",
"mismatches" = ".get_features_mismatches",
"bulged" = ".get_features_bulged")
TRNA_SUMMARY_FEATURES_OPTIONAL <- c(
"score" = ".get_score",
"tRNAscan_potential.pseudogene" = ".get_potential_pseudogene",
"tRNAscan_intron.start" = ".get_introns",
"tRNAscan_score" = ".get_scan_score",
"tRNAscan_hmm.score" = ".get_hmm_score",
"tRNAscan_sec.str.score" = ".get_secondary_structure_score",
"tRNAscan_infernal" = ".get_infernal_score")
TRNA_SUMMARY_FEATURES_RENAMED <- c("tRNAscan_intron.start" = "tRNAscan_intron")
#' @rdname gettRNASummary
#' @export
setMethod(
f = "gettRNASummary",
signature = signature(x = "GRangesList"),
definition = function(x) {
ans <- lapply(x, gettRNASummary)
names(ans) <- names(x)
return(ans)
}
)
#' @rdname gettRNASummary
#' @export
setMethod(
f = "gettRNASummary",
signature = signature(x = "GRanges"),
definition = function(x) {
# Input check
istRNAGRanges(x)
# get default features
df <- S4Vectors::DataFrame(lapply(TRNA_SUMMARY_FEATURES,
function(f){
do.call(f,list(x))
}))
# get list features from structure informations
strList <- getBasePairing(x$tRNA_str)
str <- .get_tRNA_structures(TRNA_STRUCTURES,
x,
strList)
strListSubsetAll <- .get_ident_structures(ident = TRNA_STRUCTURES,
gr = x,
strList = strList,
str = str)
strListSubsetPaired <- strListSubsetAll[TRNA_STRUCTURES_PAIRED]
data <- lapply(TRNA_SUMMARY_FEATURES_LIST,
function(f){
do.call(f,list(x, str))
})
dataSubset <- lapply(TRNA_SUMMARY_FEATURES_LIST_SUBSET,
function(f){
do.call(f,list(x, strListSubsetAll))
})
dataSubsetPaired <- lapply(TRNA_SUMMARY_FEATURES_LIST_SUBSET_PAIRED,
function(f){
do.call(f,list(x, strListSubsetPaired))
})
dfAdd <- do.call(cbind,
c(unname(lapply(data, S4Vectors::DataFrame)),
unname(lapply(dataSubset, S4Vectors::DataFrame)),
unname(lapply(dataSubsetPaired, S4Vectors::DataFrame))))
colnames(dfAdd) <- unname(c(unlist(lapply(data,names)),
unlist(lapply(dataSubset,names)),
unlist(lapply(dataSubsetPaired,names))))
df <- cbind(df,dfAdd)
# get optional features
dataFeatures <- colnames(S4Vectors::mcols(x))
dataFeatures <- dataFeatures[dataFeatures %in%
names(TRNA_SUMMARY_FEATURES_OPTIONAL)]
if(length(dataFeatures) > 0){
dfAdd <- S4Vectors::DataFrame(
lapply(TRNA_SUMMARY_FEATURES_OPTIONAL[dataFeatures],
function(f){
do.call(f,list(x))
}))
df <- cbind(df, dfAdd)
}
# rename some colums
cnames <- colnames(df)
f <- match(names(TRNA_SUMMARY_FEATURES_RENAMED), cnames)
cnames[f] <- TRNA_SUMMARY_FEATURES_RENAMED
colnames(df) <- cnames
# convert columns to fix types
df$width <- as.integer(df$width)
df$length <- as.integer(df$length)
df$cca <- as.logical(df$cca)
df$features_all_valid <- as.logical(df$features_all_valid)
df$features_Dstem_found <- as.logical(df$features_Dstem_found)
df$features_Tstem_found <- as.logical(df$features_Tstem_found)
df$acceptorStem_length <- as.integer(df$acceptorStem_length)
df$Dprime5_length <- as.integer(df$Dprime5_length)
df$DStem_length <- as.integer(df$DStem_length)
df$Dloop_length <- as.integer(df$Dloop_length)
df$Dprime3_length <- as.integer(df$Dprime3_length)
df$anticodonStem_length <- as.integer(df$anticodonStem_length)
df$anticodonLoop_length <- as.integer(df$anticodonLoop_length)
df$variableLoop_length <- as.integer(df$variableLoop_length)
df$TStem_length <- as.integer(df$TStem_length)
df$Tloop_length <- as.integer(df$Tloop_length)
df$discriminator_length <- as.integer(df$discriminator_length)
df$acceptorStem_unpaired <- as.logical(df$acceptorStem_unpaired)
df$DStem_unpaired <- as.logical(df$DStem_unpaired)
df$anticodonStem_unpaired <- as.logical(df$anticodonStem_unpaired)
df$variableLoop_unpaired <- as.logical(df$variableLoop_unpaired)
df$TStem_unpaired <- as.logical(df$TStem_unpaired)
df$acceptorStem_mismatches <- as.logical(df$acceptorStem_mismatches)
df$DStem_mismatches <- as.logical(df$DStem_mismatches)
df$anticodonStem_mismatches <- as.logical(df$anticodonStem_mismatches)
df$variableLoop_mismatches <- as.logical(df$variableLoop_mismatches)
df$TStem_mismatches <- as.logical(df$TStem_mismatches)
df$acceptorStem_bulges <- as.logical(df$acceptorStem_bulges)
df$DStem_bulges <- as.logical(df$DStem_bulges)
df$anticodonStem_bulges <- as.logical(df$anticodonStem_bulges)
df$variableLoop_bulges <- as.logical(df$variableLoop_bulges)
df$TStem_bulges <- as.logical(df$TStem_bulges)
df$tRNAscan_potential.pseudogene <- as.logical(df$tRNAscan_potential.pseudogene)
df$tRNAscan_intron <- as.logical(df$tRNAscan_intron)
#
return(df)
}
)
# default features -------------------------------------------------------------
# returns the length of tRNAs
.get_widths <- function(gr){
as.numeric(BiocGenerics::width(gr))
}
.get_seq_lengths <- function(gr){
as.numeric(S4Vectors::mcols(gr)$tRNA_length)
}
# get GC content
.get_gc_content <- function(gr){
freq <- Biostrings::alphabetFrequency(S4Vectors::mcols(gr)$tRNA_seq,
baseOnly=TRUE)
gc <- vapply(seq_len(nrow(freq)), function(i){
sum(freq[i,c("G","C")]) / sum(freq[i,])
},numeric(1))
gc
}
# fractions of tRNA with encoded CCA ends
.get_cca_ends <- function(gr){
as.numeric(S4Vectors::mcols(gr)$tRNA_CCA.end)
}
# Summarize features
.get_features_length <- function(gr, strList){
lengths <- lapply(TRNA_STRUCTURES,
function(ident){
l <- .get_str_lengths(ident = ident,
strList = strList[[ident]])
# if no length is found, NA is returned. Set these to 0
l[is.na(l)] <- 0
l
})
names(lengths) <- paste0(TRNA_STRUCTURES,"_length")
return(lengths)
}
.get_features_valid <- function(gr,
str){
ans <- .get_validity_of_structures(str)
ans <- lapply(ans,as.numeric)
names(ans) <- "features_all_valid"
return(ans)
}
.get_features_dstem <- function(gr,
str){
ans <- .get_validity_of_structures(str["DStem"])
ans <- lapply(ans,as.numeric)
names(ans) <- "features_Dstem_found"
return(ans)
}
.get_features_tstem <- function(gr,
str){
ans <- .get_validity_of_structures(str["TStem"])
ans <- lapply(ans,as.numeric)
names(ans) <- "features_Tstem_found"
return(ans)
}
#
.get_features_unpaired <- function(gr,
strList){
unpaired <- lapply(TRNA_STRUCTURES_PAIRED,
function(ident){
if(ident == "variableLoop"){
strList[[ident]] <- lapply(strList[[ident]],
function(str){
str[seq_len(floor(nrow(str)/2)),]
})
}
ansMismatches <-
.get_mismatches(strList = strList[[ident]])[["T"]]
ansBulged <-
.get_bulges(strList = strList[[ident]])[["T"]]
as.numeric(ansMismatches | ansBulged)
})
names(unpaired) <- paste0(TRNA_STRUCTURES_PAIRED,"_unpaired")
return(unpaired)
}
.get_features_mismatches <- function(gr,
strList){
mismatches <- lapply(
TRNA_STRUCTURES_PAIRED,
function(ident){
if(ident == "variableLoop"){
strList[[ident]] <- lapply(strList[[ident]],
function(str){
str[seq_len(floor(nrow(str)/2)),]
})
}
as.numeric(.get_mismatches(strList = strList[[ident]])[["T"]])
})
names(mismatches) <- paste0(TRNA_STRUCTURES_PAIRED,"_mismatches")
return(mismatches)
}
.get_features_bulged <- function(gr,
strList){
bulges <- lapply(
TRNA_STRUCTURES_PAIRED,
function(ident){
if(ident == "variableLoop"){
strList[[ident]] <- lapply(strList[[ident]],
function(str){
str[seq_len(floor(nrow(str)/2)),]
})
}
as.numeric(.get_bulges(strList = strList[[ident]])[["T"]])
})
names(bulges) <- paste0(TRNA_STRUCTURES_PAIRED,"_bulges")
return(bulges)
}
# optional features ------------------------------------------------------------
# fractions of tRNA with pseudogene
.get_potential_pseudogene <- function(gr){
as.numeric(S4Vectors::mcols(gr)$tRNAscan_potential.pseudogene)
}
# fractions of tRNA with introns
.get_introns <- function(gr){
introns <- S4Vectors::mcols(gr)$tRNAscan_intron.start
introns[is.na(introns)] <- 0
introns[introns > 0] <- 1
introns
}
# aggregates the scores
.get_score <- function(gr){
as.numeric(S4Vectors::mcols(gr)[,c("score")])
}
.get_scan_score <- function(gr){
as.numeric(S4Vectors::mcols(gr)[,c("tRNAscan_score")])
}
.get_hmm_score <- function(gr){
as.numeric(S4Vectors::mcols(gr)[,c("tRNAscan_hmm.score")])
}
.get_secondary_structure_score <- function(gr){
as.numeric(S4Vectors::mcols(gr)[,c("tRNAscan_sec.str.score")])
}
.get_infernal_score <- function(gr){
as.numeric(S4Vectors::mcols(gr)[,c("tRNAscan_infernal")])
}
# Feature utility functions ----------------------------------------------------
# also used for subsetting functions
.get_validity_of_structures <- function(str,
combine = TRUE){
widths <- lapply(str,
function(s){
if(is.list(s)){
return(lapply(s,width))
}
width(s)
})
widths <- c(widths[!vapply(widths,is.list,logical(1))],
unlist(widths[vapply(widths,is.list,logical(1))],
recursive = FALSE))
ans <- lapply(widths,"!=",0)
if(combine){
ans <- list(Reduce("&",ans))
}
ans
}
.get_ident_structures <- function(ident, gr, strList, str){
if(missing(strList) || missing(str)){
strList <- getBasePairing(gr$tRNA_str)
str <- .get_tRNA_structures(ident, gr, strList)
}
# Since we will subset the DotBracketDataFrameList it is best to convert them
# to a normal CompressedDataFrameList, since not all positions remain paired
# resulting in an invalid DotBracketDataFrame
strList <- lapply(strList,as.data.frame)
strList <- lapply(ident,
function(id){
if(is.list(str[[id]])){
strL <- mapply(
.subset_structure,
split(c(str[[id]]$prime5,
str[[id]]$prime3),
c(seq_along(str[[id]]$prime5),
seq_along(str[[id]]$prime3))),
strList,
SIMPLIFY = FALSE)
} else {
strL <- mapply(
.subset_structure,
split(str[[id]],seq_along(str[[id]])),
strList,
MoreArgs = list(pairedOnly = FALSE),
SIMPLIFY = FALSE)
}
strL
})
names(strList) <- ident
return(strList)
}
.get_structures_details <- function(strList){
forwardContinously <- vapply(
strList,
function(str){
if(length(str[str$forward != 0,]$forward) == 0) return(TRUE)
ans <- .is_continous_evenly_spaced(str[str$forward != 0,]$forward)
},
logical(1))
reverseContinously <- vapply(
strList,
function(str){
if(length(str[str$reverse != 0,]$reverse) == 0) return(TRUE)
.is_continous_evenly_spaced(str[str$reverse != 0,]$reverse)
},
logical(1))
forwardLength <- vapply(
strList,
function(str){
ifelse(length(str[str$forward != 0,]$forward) > 0,
max(str[str$forward != 0,]$forward) -
min(str[str$forward != 0,]$forward) + 1,
0)
},
double(1))
reverseLength <- vapply(
strList,
function(str){
ifelse(length(str[str$reverse != 0,]$reverse) > 0,
max(str[str$reverse != 0,]$reverse) -
min(str[str$reverse != 0,]$reverse) + 1,
0)
},
double(1))
return(list(forwardContinously = unname(forwardContinously),
reverseContinously = unname(reverseContinously),
forwardLength = unname(forwardLength),
reverseLength = unname(reverseLength)))
}
.get_mismatches <- function(gr, ident, strList){
if(!missing(gr) &&
!missing(ident) &&
missing(strList)){
strList <- .get_ident_structures(ident, gr)[[1]]
}
strListDetails <- .get_structures_details(strList)
ansMismatchesFalse <- strListDetails[["forwardLength"]] ==
strListDetails[["reverseLength"]] &
strListDetails[["forwardContinously"]] &
strListDetails[["reverseContinously"]]
ansMismatchesTrue <- strListDetails[["forwardLength"]] ==
strListDetails[["reverseLength"]] &
((strListDetails[["forwardContinously"]] &
!strListDetails[["reverseContinously"]]) |
(!strListDetails[["forwardContinously"]] &
strListDetails[["reverseContinously"]]) |
(!strListDetails[["forwardContinously"]] &
!strListDetails[["reverseContinously"]]))
return(list("T" = unname(ansMismatchesTrue),
"F" = unname(ansMismatchesFalse)))
}
.get_bulges <- function(gr,
ident,
strList){
if(!missing(gr) &&
!missing(ident) &&
missing(strList)){
strList <- .get_ident_structures(ident,
gr)[[1]]
}
strListDetails <- .get_structures_details(strList)
ansBulgedFalse <- strListDetails[["forwardLength"]] ==
strListDetails[["reverseLength"]] &
((strListDetails[["forwardContinously"]] &
strListDetails[["reverseContinously"]]) |
(!strListDetails[["forwardContinously"]] &
!strListDetails[["reverseContinously"]]))
ansBulgedTrue <- strListDetails[["forwardLength"]] !=
strListDetails[["reverseLength"]] &
((strListDetails[["forwardContinously"]] &
!strListDetails[["reverseContinously"]]) |
(!strListDetails[["forwardContinously"]] &
strListDetails[["reverseContinously"]]) |
(!strListDetails[["forwardContinously"]] &
!strListDetails[["reverseContinously"]]))
return(list("T" = unname(ansBulgedTrue),
"F" = unname(ansBulgedFalse)))
}
.get_str_lengths <- function(gr, ident, strList){
if(missing(strList)){
strList <- .get_ident_structures(ident, gr)[[1]]
}
if(!(ident %in% TRNA_STRUCTURES_LOOP)){
length <- lapply(strList,
function(str){
if(nrow(str) == 0) return(NA)
max(max(str[str$forward != 0,]$forward) -
min(str[str$forward != 0,]$forward),
max(str[str$reverse != 0,]$reverse) -
min(str[str$reverse != 0,]$reverse)) + 1
})
} else {
length <- lapply(strList,
function(str){
if(nrow(str) == 0) return(NA)
max(str$pos) -
min(str$pos) + 1
})
}
length <- unlist(length)
return(unname(length))
}
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