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R/IsoCombinationsNonTracer.R
In IsoCorrectoR: Correction for natural isotope abundance and tracer purity in MS and MS/MS data from stable isotope labeling experiments
Defines functions
IsoCombinationsNonTracer
# COMPUTE ISOTOPE COMBINATIONS OF NON-TRACER ELEMENT
# Combinations, probabilites and mass shifts of the non-tracer elements are
# computed, given that not only the tracer element is provided in
# the molcule file. As with the tracer element,
# IsoCombinationsMaster() feeds into IsoCombinations() also for the other elements.
IsoCombinationsNonTracer <- function(MoleculeFragmentData, Fragment, ElementInfo,
NumberTracers, IDTracer, CalculationThreshold) {
ProbElemList <- list()
MassShiftElemList <- list()
NumberIsoCombEff <- list()
IsotopesElem <- list()
ElementNonTracer_label <- "NonTracer"
ElementsNonTracer <- MoleculeFragmentData[[ElementNonTracer_label]]
if (length(ElementsNonTracer) == 0) {
ElementsNonTracer <- MoleculeFragmentData[["ZeroTracer"]]
ElementNonTracer_label <- "ZeroTracer"
}
NumberElementsNonTracer <- length(ElementsNonTracer)
if (NumberElementsNonTracer > 0) {
for (NonTracer in seq_len(NumberElementsNonTracer)) {
# Definition of parameters for the non-tracer elements
x <- NonTracer
Element <- names(ElementsNonTracer)[x]
if (NumberTracers > 0) {
PlacesToAssign <- as.numeric(ElementInfo[[IDTracer]][[2]] * MoleculeFragmentData[["MaxLabel"]])
} else {
PlacesToAssign <- 0
} # NumberTracers > 0
AvailablePlacesTotal <- as.numeric(MoleculeFragmentData[[ElementNonTracer_label]][Element])
if (PlacesToAssign <= AvailablePlacesTotal) {
IsoCluster <- PlacesToAssign
} else {
IsoCluster <- AvailablePlacesTotal
}
# Calling of IsoCombinations()
IsoCombinationsResultList <- IsoCombinations(
Fragment = Fragment, x = x, Element = Element, ElementInfo = ElementInfo,
AvailablePlacesTotal = AvailablePlacesTotal, IsoCluster = IsoCluster, CalculationThreshold = CalculationThreshold
)
NumberIsoComb <- IsoCombinationsResultList[["NumberIsoComb"]]
tmpProbElem_Array <- vector()
tmpMassShiftElem_Array <- vector()
# tmpIsotopesElem <- list()
for (i in seq_len(NumberIsoComb)) {
tmpProbElem_Array[i] <- IsoCombinationsResultList[["ProbArray"]][i]
tmpMassShiftElem_Array[i] <- IsoCombinationsResultList[["MassShiftArray"]][i]
} # i
ProbElemList[[x]] <- tmpProbElem_Array
MassShiftElemList[[x]] <- tmpMassShiftElem_Array
NumberIsoCombEff[[x]] <- NumberIsoComb
IsotopesElem[[x]] <- IsoCombinationsResultList[["Isotopes"]]
} # NonTracer
names(ProbElemList) <- names(ElementsNonTracer)
names(MassShiftElemList) <- names(ElementsNonTracer)
names(NumberIsoCombEff) <- names(ElementsNonTracer)
names(IsotopesElem) <- names(ElementsNonTracer)
} # NumberElementsNonTracer > 0
return(list(
"ProbElemList" = ProbElemList,
"MassShiftElemList" = MassShiftElemList,
"NumberIsoCombEff" = NumberIsoCombEff,
"IsotopesElem" = IsotopesElem
))
}
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IsoCorrectoR documentation built on Nov. 8, 2020, 5:03 p.m.
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Defines functions IsoCombinationsNonTracer
# COMPUTE ISOTOPE COMBINATIONS OF NON-TRACER ELEMENT
# Combinations, probabilites and mass shifts of the non-tracer elements are
# computed, given that not only the tracer element is provided in
# the molcule file. As with the tracer element,
# IsoCombinationsMaster() feeds into IsoCombinations() also for the other elements.
IsoCombinationsNonTracer <- function(MoleculeFragmentData, Fragment, ElementInfo,
NumberTracers, IDTracer, CalculationThreshold) {
ProbElemList <- list()
MassShiftElemList <- list()
NumberIsoCombEff <- list()
IsotopesElem <- list()
ElementNonTracer_label <- "NonTracer"
ElementsNonTracer <- MoleculeFragmentData[[ElementNonTracer_label]]
if (length(ElementsNonTracer) == 0) {
ElementsNonTracer <- MoleculeFragmentData[["ZeroTracer"]]
ElementNonTracer_label <- "ZeroTracer"
}
NumberElementsNonTracer <- length(ElementsNonTracer)
if (NumberElementsNonTracer > 0) {
for (NonTracer in seq_len(NumberElementsNonTracer)) {
# Definition of parameters for the non-tracer elements
x <- NonTracer
Element <- names(ElementsNonTracer)[x]
if (NumberTracers > 0) {
PlacesToAssign <- as.numeric(ElementInfo[[IDTracer]][[2]] * MoleculeFragmentData[["MaxLabel"]])
} else {
PlacesToAssign <- 0
} # NumberTracers > 0
AvailablePlacesTotal <- as.numeric(MoleculeFragmentData[[ElementNonTracer_label]][Element])
if (PlacesToAssign <= AvailablePlacesTotal) {
IsoCluster <- PlacesToAssign
} else {
IsoCluster <- AvailablePlacesTotal
}
# Calling of IsoCombinations()
IsoCombinationsResultList <- IsoCombinations(
Fragment = Fragment, x = x, Element = Element, ElementInfo = ElementInfo,
AvailablePlacesTotal = AvailablePlacesTotal, IsoCluster = IsoCluster, CalculationThreshold = CalculationThreshold
)
NumberIsoComb <- IsoCombinationsResultList[["NumberIsoComb"]]
tmpProbElem_Array <- vector()
tmpMassShiftElem_Array <- vector()
# tmpIsotopesElem <- list()
for (i in seq_len(NumberIsoComb)) {
tmpProbElem_Array[i] <- IsoCombinationsResultList[["ProbArray"]][i]
tmpMassShiftElem_Array[i] <- IsoCombinationsResultList[["MassShiftArray"]][i]
} # i
ProbElemList[[x]] <- tmpProbElem_Array
MassShiftElemList[[x]] <- tmpMassShiftElem_Array
NumberIsoCombEff[[x]] <- NumberIsoComb
IsotopesElem[[x]] <- IsoCombinationsResultList[["Isotopes"]]
} # NonTracer
names(ProbElemList) <- names(ElementsNonTracer)
names(MassShiftElemList) <- names(ElementsNonTracer)
names(NumberIsoCombEff) <- names(ElementsNonTracer)
names(IsotopesElem) <- names(ElementsNonTracer)
} # NumberElementsNonTracer > 0
return(list(
"ProbElemList" = ProbElemList,
"MassShiftElemList" = MassShiftElemList,
"NumberIsoCombEff" = NumberIsoCombEff,
"IsotopesElem" = IsotopesElem
))
}
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