runNPARC: Non-parametric analysis of response curves
In DoroChilds/NPARC: Non-parametric analysis of response curves for thermal proteome profiling experiments
runNPARC R Documentation
Non-parametric analysis of response curves
Description
Wrapper function for melting curve fitting and hypothesis testing.
Usage
runNPARC(x, y, id, groupsNull = NULL, groupsAlt,
BPPARAM = BiocParallel::SerialParam(progressbar = TRUE),
dfType = c("theoretical", "empirical"), control = getParams())
Arguments
x
numeric vector of the independent variables (typically temperature)
y
numeric vector of the dependent variables (typically relative abundance measurements)
id
character vector with the protein ID to which each each data point belongs.
groupsNull
one or more vectors with grouping variables for the null models. See details.
groupsAlt
one or more vectors with grouping variables for the alternative models. See details.
BPPARAM
BiocParallel parameter object to invoke curve fitting in parallel. Default: BiocParallel::SerialParam()
dfType
character value indicating the method for degrees of freedom computation for the F-test.
Theoretical yields the text-book solution. Empirical yields estimates derived from the distribution moments of the RSS.
control
list of parameters used to control specific parts of the analyse
Details
groupsNull or groupsAlt can either be a single vector each, or data.frames of the same length as x and y with one column per factor
Value
data frame with fitted model parameters and additional columns listing e.g. residuals sum of squares of
null and alterantive model
Examples
data(stauro_TPP_data_tidy)
df <- dplyr::filter(stauro_TPP_data_tidy, grepl("CDK|GTP|CRK", uniqueID))
testResults <- runNPARC(x = df$temperature,
y = df$relAbundance,
id = df$uniqueID,
groupsAlt = df$compoundConcentration,
dfType = "empirical")
DoroChilds/NPARC documentation built on May 11, 2023, 2:40 a.m.
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| runNPARC | R Documentation |
Non-parametric analysis of response curves
Description
Wrapper function for melting curve fitting and hypothesis testing.
Usage
runNPARC(x, y, id, groupsNull = NULL, groupsAlt,
BPPARAM = BiocParallel::SerialParam(progressbar = TRUE),
dfType = c("theoretical", "empirical"), control = getParams())
Arguments
x |
numeric vector of the independent variables (typically temperature) |
y |
numeric vector of the dependent variables (typically relative abundance measurements) |
id |
character vector with the protein ID to which each each data point belongs. |
groupsNull |
one or more vectors with grouping variables for the null models. See details. |
groupsAlt |
one or more vectors with grouping variables for the alternative models. See details. |
BPPARAM |
BiocParallel parameter object to invoke curve fitting in parallel. Default: BiocParallel::SerialParam() |
dfType |
character value indicating the method for degrees of freedom computation for the F-test. Theoretical yields the text-book solution. Empirical yields estimates derived from the distribution moments of the RSS. |
control |
list of parameters used to control specific parts of the analyse |
Details
groupsNull or groupsAlt can either be a single vector each, or data.frames of the same length as x and y with one column per factor
Value
data frame with fitted model parameters and additional columns listing e.g. residuals sum of squares of null and alterantive model
Examples
data(stauro_TPP_data_tidy)
df <- dplyr::filter(stauro_TPP_data_tidy, grepl("CDK|GTP|CRK", uniqueID))
testResults <- runNPARC(x = df$temperature,
y = df$relAbundance,
id = df$uniqueID,
groupsAlt = df$compoundConcentration,
dfType = "empirical")
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