#' Import results from a Fusioncatcher run into a list of Fusion objects.
#'
#' A function that imports the results from a Fusioncatcher run, typically from
#' a final-list-candidate-fusion-genes.txt file, into a list of Fusion objects.
#'
#' @param filename Filename for the Fusioncatcher
#' final-list-candidate-fusion-genes.txt results file.
#' @param genome_version Which genome was used in mapping (hg19, hg38, etc.).
#' @param limit A limit on how many lines to read.
#'
#' @return A list of Fusion objects.
#'
#' @examples
#' fusioncatcher833ke <- system.file(
#' "extdata",
#' "fusioncatcher_833ke_final-list-candidate-fusion-genes.txt",
#' package = "chimeraviz")
#' fusions <- import_fusioncatcher(fusioncatcher833ke, "hg38", 3)
#' # This should import a list of 3 fusions described in Fusion objects.
#'
#' @importFrom data.table fread
#'
#' @export
import_fusioncatcher <- function(filename, genome_version, limit) {
# Is the genome version valid?
valid_genomes <- c("hg19", "hg38", "mm10")
if (is.na(match(tolower(genome_version), tolower(valid_genomes)))) {
stop("Invalid genome version given")
}
# If the limit is set, is the value valid?
if (missing(limit) == FALSE) {
if (is.numeric(limit) == FALSE || limit <= 0) {
stop("limit must be a numeric value bigger than 0")
}
}
# Try to read the fusion report
report <- withCallingHandlers({
col_types <- c(
"Gene_1_symbol(5end_fusion_partner)" = "character",
"Gene_2_symbol(3end_fusion_partner)" = "character",
"Spanning_pairs" = "integer",
"Spanning_unique_reads" = "integer",
"Fusion_point_for_gene_1(5end_fusion_partner)" = "character",
"Fusion_point_for_gene_2(3end_fusion_partner)" = "character",
"Gene_1_id(5end_fusion_partner)" = "character",
"Gene_2_id(3end_fusion_partner)" = "character",
"Fusion_sequence" = "character",
"Predicted_effect" = "character"
)
if (missing(limit)) {
# Read all lines
data.table::fread(
input = filename,
colClasses = col_types,
showProgress = FALSE
)
} else {
# Only read up to the limit
data.table::fread(
input = filename,
colClasses = col_types,
showProgress = FALSE,
nrows = limit
)
}
},
error = function(cond) {
message(paste0("Reading ", filename, " caused an error: ", cond[[1]]))
stop(cond)
},
warning = function(cond) {
# Begin Exclude Linting
message(paste0("Reading ", filename, " caused a warning: ", cond[[1]]))
# End Exclude Linting
}
)
# Set variables
id <- NA
inframe <- NA
fusion_tool <- "fusioncatcher"
spanning_reads_count <- NA
split_reads_count <- NA
junction_sequence <- NA
# List to hold all Fusion objects
fusion_list <- vector("list", dim(report)[1])
# Iterate through each line in the .tsv file
for (i in 1:dim(report)[1]) {
# Import fusioncatcher-specific fields
fusion_tool_specific_data <- list()
# Set id for this fusion. Fusioncatcher does not have any unique identifier
# for each row of the results file, so just use our counter.
id <- as.character(i)
# Is the downstream fusion partner in-frame?
if (report[[i, "Predicted_effect"]] == "in-frame") {
inframe <- TRUE
} else {
inframe <- FALSE
}
gene_upstream_position <-
unlist(
strsplit(
report[[i, "Fusion_point_for_gene_1(5end_fusion_partner)"]],
split = ":"
)
)
gene_downstream_position <-
unlist(
strsplit(
report[[i, "Fusion_point_for_gene_2(3end_fusion_partner)"]],
split = ":"
)
)
# Chromosome names
chromosome_upstream <- paste("chr", gene_upstream_position[1], sep = "")
chromosome_downstream <- paste("chr", gene_downstream_position[1], sep = "")
# Breakpoints
breakpoint_upstream <- as.numeric(gene_upstream_position[2])
breakpoint_downstream <- as.numeric(gene_downstream_position[2])
# Strand
strand_upstream <- gene_upstream_position[3]
strand_downstream <- gene_downstream_position[3]
# Number of supporting reads
split_reads_count <- report[[i, "Spanning_pairs"]]
spanning_reads_count <- report[[i, "Spanning_unique_reads"]]
# Get the fusion sequence. Split it into the part from gene1 and gene2
junction_sequence <- strsplit(report[[i, "Fusion_sequence"]], split = "\\*")
junction_sequence_upstream <-
Biostrings::DNAString(junction_sequence[[1]][1])
junction_sequence_downstream <-
Biostrings::DNAString(junction_sequence[[1]][2])
# Gene names
name_upstream <- report[[i, "Gene_1_symbol(5end_fusion_partner)"]]
name_downstream <- report[[i, "Gene_2_symbol(3end_fusion_partner)"]]
# Ensembl ids
ensembl_id_upstream <- report[[i, "Gene_1_id(5end_fusion_partner)"]]
ensembl_id_downstream <- report[[i, "Gene_2_id(3end_fusion_partner)"]]
# PartnerGene objects
gene_upstream <- new(
Class = "PartnerGene",
name = name_upstream,
ensembl_id = ensembl_id_upstream,
chromosome = chromosome_upstream,
breakpoint = breakpoint_upstream,
strand = strand_upstream,
junction_sequence = junction_sequence_upstream,
transcripts = GenomicRanges::GRangesList()
)
gene_downstream <- new(
Class = "PartnerGene",
name = name_downstream,
ensembl_id = ensembl_id_downstream,
chromosome = chromosome_downstream,
breakpoint = breakpoint_downstream,
strand = strand_downstream,
junction_sequence = junction_sequence_downstream,
transcripts = GenomicRanges::GRangesList()
)
fusion_list[[i]] <- new(
Class = "Fusion",
id = id,
fusion_tool = fusion_tool,
genome_version = genome_version,
spanning_reads_count = spanning_reads_count,
split_reads_count = split_reads_count,
fusion_reads_alignment = Gviz::AlignmentsTrack(),
gene_upstream = gene_upstream,
gene_downstream = gene_downstream,
inframe = inframe,
fusion_tool_specific_data = fusion_tool_specific_data
)
}
# Return the list of Fusion objects
fusion_list
}
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