R/symmetryContext.R
In vbusa1/nearBynding: Discern RNA structure proximal to protein binding
Defines functions
symmetryContext
Documented in
symmetryContext
#' @title symmetryContext
#'
#' @description Calculate the symmetry of a binding context.
#'
#' @param dir_stereogene_output Directory of Stereogene output for protein.
#' Default current directory.
#' @param context_file Name of the context file input to Stereogene. File
#' names must exclude extensions such as ".bedGraph". Requred
#' @param protein_file A vector of at least one protein file name to be
#' averaged for calculation of distance. File names must exclude extensions
#' such as ".bedGraph". All files in the list should be experimental/biological
#' replicates. Required.
#' @param protein_file_input A protein file name of background input to be
#' subtracted from protein_file signal. File name must exclude extension. Only
#' one input file is permitted. Optional.
#' @param range A vector of two integers denoting the range upstream and
#' downstream of the center of protein binding to consider in the comparison.
#' Ranges that are too small miss the holistic binding context, while large
#' ranges amplify distal noise in the binding data. Cannot exceed wSize/2 from
#' write_config. Default c(-200, 200)
#'
#' @return Wasserstein distance between the two halves of the binding context,
#' with lower values suggesting greater symmetry.
#'
#'
#' @examples
#' ## load example StereoGene output
#' get_outfiles()
#'
#' ## This boring example compares a protein's binding with itself for all
#' ## contexts, therefore the distance is 0
#' symmetryContext(context_file = "chr4and5_3UTR_stem_liftOver",
#' protein_file = "chr4and5_liftOver")
#'
#' @importFrom utils read.table
#' @importFrom matrixStats rowSds
#' @importFrom magrittr '%>%'
#' @importFrom dplyr filter
#' @importFrom transport wasserstein1d
#'
#' @export
symmetryContext <- function(dir_stereogene_output = ".",
context_file,
protein_file,
protein_file_input = NULL,
range = c(-200, 200)) {
if (length(protein_file) < 1) {
stop("Requires at least one protein file prefix to calculate distance")
}
if (length(protein_file) > 20) {
stop("There are > 20 protein files input. This is likely in error")
}
if (length(protein_file_input) > 1) {
stop("Only input one background track per protein.")
}
get_dist <- NULL
dist_1 <- NULL
second_dist_1 <- NULL
for (n in seq(length(protein_file))) {
assign(paste0("dist_", n), read.table(paste0(dir_stereogene_output, "/",
context_file, "~", protein_file[n],
".dist"), header = TRUE) %>%
dplyr::filter(range[1] <= .data$x, .data$x <= 0))
assign(paste0("second_dist_",n),read.table(paste0(dir_stereogene_output, "/",
context_file, "~", protein_file[n],
".dist"), header = TRUE) %>%
dplyr::filter(0 <= .data$x, .data$x <= range[2]))
}
if (!is.null(protein_file_input)) {
input <- read.table(paste0(dir_stereogene_output, "/",
context_file,
"~", protein_file_input,
".dist"), header = TRUE)
dist_input<- input %>%
dplyr::filter(range[1] <= .data$x, .data$x <= 0)
second_dist_input <- input %>%
dplyr::filter(0 <= .data$x, .data$x <= range[2])
}
dist <- as.data.frame(matrix(NA,
ncol = (length(protein_file)) + 1,
nrow = nrow(dist_1)))
colnames(dist) <- c("x", paste0("Fg", seq(length(protein_file))))
dist$x <- dist_1$x
second_dist <- as.data.frame(matrix(NA,
ncol = (length(protein_file)) + 1,
nrow = nrow(second_dist_1)))
colnames(second_dist) <- c("x", paste0("Fg",
seq(length(protein_file))))
second_dist$x <- second_dist_1$x
for (n in seq(length(protein_file))) {
dist[, 1 + n] <- eval(parse(text = paste0("dist_", n)))$Fg
second_dist[, 1 + n] <- eval(parse(text = paste0("second_dist_", n)))$Fg
}
if (!is.null(protein_file_input)) {
dist[, 2:(length(protein_file) + 1)] <- dist[,
2:(length(protein_file) + 1)] - dist_input$Fg
second_dist[, 2:(length(protein_file) + 1)] <- second_dist[,
2:(length(protein_file) + 1)] - second_dist_input$Fg
}
if (length(protein_file) > 1) {
dist$Fg <- rowMeans(dist[, 2:(length(protein_file) + 1)])
second_dist$Fg <- rowMeans(second_dist[, 2:(length(protein_file) + 1)])
} else {
dist$Fg <- dist[, 2]
}
second_dist$x<- -second_dist$x
# scale tracks
max<-max(abs(dist$Fg), abs(second_dist$Fg))
dist$Fg<-dist$Fg/max
second_dist$Fg<-second_dist$Fg/max
wasserstein_distance <- suppressWarnings(wasserstein1d(dist$Fg,
second_dist$Fg) %>% as.numeric())
return(wasserstein_distance)
}
vbusa1/nearBynding documentation built on Aug. 4, 2021, 4:08 p.m.
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Defines functions symmetryContext
Documented in symmetryContext
#' @title symmetryContext
#'
#' @description Calculate the symmetry of a binding context.
#'
#' @param dir_stereogene_output Directory of Stereogene output for protein.
#' Default current directory.
#' @param context_file Name of the context file input to Stereogene. File
#' names must exclude extensions such as ".bedGraph". Requred
#' @param protein_file A vector of at least one protein file name to be
#' averaged for calculation of distance. File names must exclude extensions
#' such as ".bedGraph". All files in the list should be experimental/biological
#' replicates. Required.
#' @param protein_file_input A protein file name of background input to be
#' subtracted from protein_file signal. File name must exclude extension. Only
#' one input file is permitted. Optional.
#' @param range A vector of two integers denoting the range upstream and
#' downstream of the center of protein binding to consider in the comparison.
#' Ranges that are too small miss the holistic binding context, while large
#' ranges amplify distal noise in the binding data. Cannot exceed wSize/2 from
#' write_config. Default c(-200, 200)
#'
#' @return Wasserstein distance between the two halves of the binding context,
#' with lower values suggesting greater symmetry.
#'
#'
#' @examples
#' ## load example StereoGene output
#' get_outfiles()
#'
#' ## This boring example compares a protein's binding with itself for all
#' ## contexts, therefore the distance is 0
#' symmetryContext(context_file = "chr4and5_3UTR_stem_liftOver",
#' protein_file = "chr4and5_liftOver")
#'
#' @importFrom utils read.table
#' @importFrom matrixStats rowSds
#' @importFrom magrittr '%>%'
#' @importFrom dplyr filter
#' @importFrom transport wasserstein1d
#'
#' @export
symmetryContext <- function(dir_stereogene_output = ".",
context_file,
protein_file,
protein_file_input = NULL,
range = c(-200, 200)) {
if (length(protein_file) < 1) {
stop("Requires at least one protein file prefix to calculate distance")
}
if (length(protein_file) > 20) {
stop("There are > 20 protein files input. This is likely in error")
}
if (length(protein_file_input) > 1) {
stop("Only input one background track per protein.")
}
get_dist <- NULL
dist_1 <- NULL
second_dist_1 <- NULL
for (n in seq(length(protein_file))) {
assign(paste0("dist_", n), read.table(paste0(dir_stereogene_output, "/",
context_file, "~", protein_file[n],
".dist"), header = TRUE) %>%
dplyr::filter(range[1] <= .data$x, .data$x <= 0))
assign(paste0("second_dist_",n),read.table(paste0(dir_stereogene_output, "/",
context_file, "~", protein_file[n],
".dist"), header = TRUE) %>%
dplyr::filter(0 <= .data$x, .data$x <= range[2]))
}
if (!is.null(protein_file_input)) {
input <- read.table(paste0(dir_stereogene_output, "/",
context_file,
"~", protein_file_input,
".dist"), header = TRUE)
dist_input<- input %>%
dplyr::filter(range[1] <= .data$x, .data$x <= 0)
second_dist_input <- input %>%
dplyr::filter(0 <= .data$x, .data$x <= range[2])
}
dist <- as.data.frame(matrix(NA,
ncol = (length(protein_file)) + 1,
nrow = nrow(dist_1)))
colnames(dist) <- c("x", paste0("Fg", seq(length(protein_file))))
dist$x <- dist_1$x
second_dist <- as.data.frame(matrix(NA,
ncol = (length(protein_file)) + 1,
nrow = nrow(second_dist_1)))
colnames(second_dist) <- c("x", paste0("Fg",
seq(length(protein_file))))
second_dist$x <- second_dist_1$x
for (n in seq(length(protein_file))) {
dist[, 1 + n] <- eval(parse(text = paste0("dist_", n)))$Fg
second_dist[, 1 + n] <- eval(parse(text = paste0("second_dist_", n)))$Fg
}
if (!is.null(protein_file_input)) {
dist[, 2:(length(protein_file) + 1)] <- dist[,
2:(length(protein_file) + 1)] - dist_input$Fg
second_dist[, 2:(length(protein_file) + 1)] <- second_dist[,
2:(length(protein_file) + 1)] - second_dist_input$Fg
}
if (length(protein_file) > 1) {
dist$Fg <- rowMeans(dist[, 2:(length(protein_file) + 1)])
second_dist$Fg <- rowMeans(second_dist[, 2:(length(protein_file) + 1)])
} else {
dist$Fg <- dist[, 2]
}
second_dist$x<- -second_dist$x
# scale tracks
max<-max(abs(dist$Fg), abs(second_dist$Fg))
dist$Fg<-dist$Fg/max
second_dist$Fg<-second_dist$Fg/max
wasserstein_distance <- suppressWarnings(wasserstein1d(dist$Fg,
second_dist$Fg) %>% as.numeric())
return(wasserstein_distance)
}
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