R/calculateProteolyticResistance.R
In Vitek-Lab/MSstatsLiP: LiP Significance Analysis in shotgun mass spectrometry-based proteomic experiments
Defines functions
calculateProteolyticResistance
Documented in
calculateProteolyticResistance
#' Calcutates proteolytic resistance for provided data. Requires input from
#' dataSummarizationLiP function. Can optionally calculate differential
#' analysis using proteolytic resistance. In order for this function to work,
#' Conditions and run numbers must match between the LiP and TrP
#' data.
#'
#' @export
#' @importFrom MSstats groupComparison MSstatsContrastMatrix
#'
#' @param LiP_data name of variable containing LiP data. Must be output of
#' dataSummarizationLiP function.
#' @param fasta_file name of variable containing FASTA data. If FASTA file has
#' not been processed please run the tidyFasta() function on it before inputting
#' into this function. Protein names in file must match those in LiP_data.
#' @param differential_analysis logical indicating whether to run differential
#' analysis. Default is FALSE. Conditions and run numbers must match between
#' the LiP and TrP data.
#' @param contrast.matrix either a string of "pairwise" or a matrix including
#' what comparisons to make in the differential analysis. Only required if
#' differential_analysis=TRUE. Default is "pairwise".
#' @return a `data.frame` including either the summarized Proteolytic data or
#' differential analysis depending on parameter selection.
#' @examples
#' fasta <- tidyFasta(system.file("extdata", "ExampleFastaFile.fasta", package="MSstatsLiP"))
#' #calculateProteolyticResistance(MSstatsLiP_data, fasta)
calculateProteolyticResistance = function(LiP_data,
fasta_file,
differential_analysis = FALSE,
contrast.matrix = "pairwise"){
# TODO: Add checks
# .checkProteolyticParams(LiP_data, fasta, differential_analysis)
fully_TRI = ProteinName = uniprot_iso = Label = NULL
PeptideSequence = sig = Coverage = Index = NULL
## Calculate tryptic
calc_data = LiP_data$LiP$ProteinLevelData[, c("FULL_PEPTIDE", "Protein")]
calc_data$PeptideSequence = unlist(
lapply(calc_data$FULL_PEPTIDE, function(x){str_split(x, "_")[[1]][[2]]}))
setnames(calc_data, c("Protein"), c("ProteinName"))
tryptic_info = calculateTrypticity(calc_data, fasta_file)
tryptic_info$FULL_PEPTIDE = paste(tryptic_info$ProteinName,
tryptic_info$PeptideSequence, sep = "_")
# Extract correct data.frames from input data
lip_features = LiP_data$LiP$ProteinLevelData[, c("FULL_PEPTIDE", "Protein",
"LogIntensities", "GROUP",
"RUN")]
lip_features = as.data.table(lip_features)
trp_features = LiP_data$TrP$ProteinLevelData[, c("Protein", "LogIntensities",
"GROUP", "RUN")]
trp_features = as.data.table(trp_features)
# Load and format Fasta file
## Make sure file is loaded into memory
if (identical(typeof(fasta_file), "character")){
fasta_file = tidyFasta(fasta_file)
}
formated_fasta = as.data.table(fasta_file)
formated_fasta = formated_fasta[, c("sequence", "uniprot_iso")]
## Test for missing proteins in FASTA file
model.proteins = unique(c(lip_features$PROTEIN,
as.character(trp_features$PROTEIN)))
fasta.proteins = unique(formated_fasta[, uniprot_iso])
missing = setdiff(model.proteins, fasta.proteins)
if (!identical(missing, character(0))){
message(paste0("The following proteins are present in the data but ",
"not in the FASTA file. Note proteins must be in the FASTA ",
"in order to be plotted: ", paste(missing, collapse=", "))
)
}
# Calculate Resistance for each peptide
# Join lip and trp
joined_data = merge(lip_features, trp_features,
by = c("Protein", "GROUP", "RUN"), all.x = TRUE)
## Bring tryptic info into data
joined_data = merge(joined_data, tryptic_info, all.x = TRUE,
by = "FULL_PEPTIDE")
joined_data = joined_data[fully_TRI == TRUE, ]
joined_data$Accessibility_ratio = 2 ^ (joined_data$LogIntensities.x -
joined_data$LogIntensities.y)
joined_data$Accessibility_ratio = ifelse(joined_data$Accessibility_ratio > 1,
1., joined_data$Accessibility_ratio)
joined_data = joined_data[, c("FULL_PEPTIDE", "Protein", "PeptideSequence",
"GROUP", "RUN", "Accessibility_ratio")]
MSstatsFormatDF = merge(joined_data, LiP_data$LiP$ProteinLevelData,
by = c("FULL_PEPTIDE", "Protein", "GROUP", "RUN"),
all.x = TRUE)
MSstatsFormatDF[,LogIntensities:=NULL]
if (differential_analysis){
## Prep data for group comp function
da_input = LiP_data$LiP
da_proteinleveldata = copy(MSstatsFormatDF)
da_proteinleveldata$LogIntensities = da_proteinleveldata$Accessibility_ratio
da_proteinleveldata$Protein = da_proteinleveldata$FULL_PEPTIDE
da_input$ProteinLevelData = da_proteinleveldata
## Create pairwise matrix for label free
if (contrast.matrix[1] == "pairwise"){
labels = unique(da_input$ProteinLevelData$GROUP)
contrast.matrix = MSstatsContrastMatrix('pairwise', labels)
}
## TODO: replace group comparison with reference model
da_analysis = MSstats::groupComparison(contrast.matrix, da_input)
da_analysis$ComparisonResult = as.data.table(da_analysis$ComparisonResult)
da_analysis$ComparisonResult = da_analysis$ComparisonResult[
!is.na(da_analysis$ComparisonResult$Protein),]
da_analysis$ComparisonResult = merge(da_analysis$ComparisonResult,
unique(joined_data[,c("FULL_PEPTIDE",
"Protein",
"PeptideSequence")]),
by.x = 'Protein',
by.y = 'FULL_PEPTIDE', all.x = TRUE)
da_analysis$ComparisonResult$FULL_PEPTIDE = da_analysis$ComparisonResult$Protein
da_analysis$ComparisonResult$Protein = da_analysis$ComparisonResult$Protein.y
da_analysis$ComparisonResult[,Protein.y:=NULL]
return(list(RunLevelData = MSstatsFormatDF,
groupComparison = da_analysis$ComparisonResult))
} else{
return(list(RunLevelData = MSstatsFormatDF))
}
}
Vitek-Lab/MSstatsLiP documentation built on April 5, 2024, 3:25 a.m.
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Defines functions calculateProteolyticResistance
Documented in calculateProteolyticResistance
#' Calcutates proteolytic resistance for provided data. Requires input from
#' dataSummarizationLiP function. Can optionally calculate differential
#' analysis using proteolytic resistance. In order for this function to work,
#' Conditions and run numbers must match between the LiP and TrP
#' data.
#'
#' @export
#' @importFrom MSstats groupComparison MSstatsContrastMatrix
#'
#' @param LiP_data name of variable containing LiP data. Must be output of
#' dataSummarizationLiP function.
#' @param fasta_file name of variable containing FASTA data. If FASTA file has
#' not been processed please run the tidyFasta() function on it before inputting
#' into this function. Protein names in file must match those in LiP_data.
#' @param differential_analysis logical indicating whether to run differential
#' analysis. Default is FALSE. Conditions and run numbers must match between
#' the LiP and TrP data.
#' @param contrast.matrix either a string of "pairwise" or a matrix including
#' what comparisons to make in the differential analysis. Only required if
#' differential_analysis=TRUE. Default is "pairwise".
#' @return a `data.frame` including either the summarized Proteolytic data or
#' differential analysis depending on parameter selection.
#' @examples
#' fasta <- tidyFasta(system.file("extdata", "ExampleFastaFile.fasta", package="MSstatsLiP"))
#' #calculateProteolyticResistance(MSstatsLiP_data, fasta)
calculateProteolyticResistance = function(LiP_data,
fasta_file,
differential_analysis = FALSE,
contrast.matrix = "pairwise"){
# TODO: Add checks
# .checkProteolyticParams(LiP_data, fasta, differential_analysis)
fully_TRI = ProteinName = uniprot_iso = Label = NULL
PeptideSequence = sig = Coverage = Index = NULL
## Calculate tryptic
calc_data = LiP_data$LiP$ProteinLevelData[, c("FULL_PEPTIDE", "Protein")]
calc_data$PeptideSequence = unlist(
lapply(calc_data$FULL_PEPTIDE, function(x){str_split(x, "_")[[1]][[2]]}))
setnames(calc_data, c("Protein"), c("ProteinName"))
tryptic_info = calculateTrypticity(calc_data, fasta_file)
tryptic_info$FULL_PEPTIDE = paste(tryptic_info$ProteinName,
tryptic_info$PeptideSequence, sep = "_")
# Extract correct data.frames from input data
lip_features = LiP_data$LiP$ProteinLevelData[, c("FULL_PEPTIDE", "Protein",
"LogIntensities", "GROUP",
"RUN")]
lip_features = as.data.table(lip_features)
trp_features = LiP_data$TrP$ProteinLevelData[, c("Protein", "LogIntensities",
"GROUP", "RUN")]
trp_features = as.data.table(trp_features)
# Load and format Fasta file
## Make sure file is loaded into memory
if (identical(typeof(fasta_file), "character")){
fasta_file = tidyFasta(fasta_file)
}
formated_fasta = as.data.table(fasta_file)
formated_fasta = formated_fasta[, c("sequence", "uniprot_iso")]
## Test for missing proteins in FASTA file
model.proteins = unique(c(lip_features$PROTEIN,
as.character(trp_features$PROTEIN)))
fasta.proteins = unique(formated_fasta[, uniprot_iso])
missing = setdiff(model.proteins, fasta.proteins)
if (!identical(missing, character(0))){
message(paste0("The following proteins are present in the data but ",
"not in the FASTA file. Note proteins must be in the FASTA ",
"in order to be plotted: ", paste(missing, collapse=", "))
)
}
# Calculate Resistance for each peptide
# Join lip and trp
joined_data = merge(lip_features, trp_features,
by = c("Protein", "GROUP", "RUN"), all.x = TRUE)
## Bring tryptic info into data
joined_data = merge(joined_data, tryptic_info, all.x = TRUE,
by = "FULL_PEPTIDE")
joined_data = joined_data[fully_TRI == TRUE, ]
joined_data$Accessibility_ratio = 2 ^ (joined_data$LogIntensities.x -
joined_data$LogIntensities.y)
joined_data$Accessibility_ratio = ifelse(joined_data$Accessibility_ratio > 1,
1., joined_data$Accessibility_ratio)
joined_data = joined_data[, c("FULL_PEPTIDE", "Protein", "PeptideSequence",
"GROUP", "RUN", "Accessibility_ratio")]
MSstatsFormatDF = merge(joined_data, LiP_data$LiP$ProteinLevelData,
by = c("FULL_PEPTIDE", "Protein", "GROUP", "RUN"),
all.x = TRUE)
MSstatsFormatDF[,LogIntensities:=NULL]
if (differential_analysis){
## Prep data for group comp function
da_input = LiP_data$LiP
da_proteinleveldata = copy(MSstatsFormatDF)
da_proteinleveldata$LogIntensities = da_proteinleveldata$Accessibility_ratio
da_proteinleveldata$Protein = da_proteinleveldata$FULL_PEPTIDE
da_input$ProteinLevelData = da_proteinleveldata
## Create pairwise matrix for label free
if (contrast.matrix[1] == "pairwise"){
labels = unique(da_input$ProteinLevelData$GROUP)
contrast.matrix = MSstatsContrastMatrix('pairwise', labels)
}
## TODO: replace group comparison with reference model
da_analysis = MSstats::groupComparison(contrast.matrix, da_input)
da_analysis$ComparisonResult = as.data.table(da_analysis$ComparisonResult)
da_analysis$ComparisonResult = da_analysis$ComparisonResult[
!is.na(da_analysis$ComparisonResult$Protein),]
da_analysis$ComparisonResult = merge(da_analysis$ComparisonResult,
unique(joined_data[,c("FULL_PEPTIDE",
"Protein",
"PeptideSequence")]),
by.x = 'Protein',
by.y = 'FULL_PEPTIDE', all.x = TRUE)
da_analysis$ComparisonResult$FULL_PEPTIDE = da_analysis$ComparisonResult$Protein
da_analysis$ComparisonResult$Protein = da_analysis$ComparisonResult$Protein.y
da_analysis$ComparisonResult[,Protein.y:=NULL]
return(list(RunLevelData = MSstatsFormatDF,
groupComparison = da_analysis$ComparisonResult))
} else{
return(list(RunLevelData = MSstatsFormatDF))
}
}
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