\name{qPCRset-class} \Rdversion{1.1} \docType{class} \alias{qPCRset-class} \alias{[,qPCRset-method} \alias{exprs,qPCRset-method} \alias{exprs<-,qPCRset,matrix-method} \alias{featureNames,qPCRset-method} \alias{featureNames<-,qPCRset,character-method} \alias{sampleNames,qPCRset-method} \alias{sampleNames<-,qPCRset,character-method} \alias{getCt} \alias{setCt<-} \alias{featureClass} \alias{featureClass<-} \alias{featureCategory} \alias{featureCategory<-} \alias{featurePos} \alias{featurePos<-} \alias{featureType} \alias{featureType<-} \alias{flag} \alias{flag<-} \alias{n.wells} \alias{n.samples} \alias{getCtHistory} \alias{show,qPCRset-method} \alias{summary,qPCRset-method} \title{Class "qPCRset"} \description{This is a class for containing the raw or normalized cycle threshold (Ct) values and some related quality information. It is suitable for TaqMan Low Density Arrays or any other type of (high-throughput) qPCR data, where gene expression is measured for any number of genes, across several samples/conditions. It is similar to \code{\link[Biobase:class.eSet]{eSet}} for microarray data.} \section{Objects from the Class}{ Objects can be created by calls of the form \code{new("qPCRset", ...)} or using \code{readCtData}. } \section{Slots}{ \describe{ \item{\code{featureNames}:}{Object of class \code{"character"} giving the names of the features, such as genes or miRNAs, in the samples.} \item{\code{sampleNames}:}{Object of class \code{"character"} containing the sample names.} \item{\code{exprs}:}{Object of class \code{"matrix"} containing the Ct values.} \item{\code{flag}:}{Object of class \code{"data.frame"} containing the flag for each Ct value, as supplied by the input files.} \item{\code{featureType}:}{Object of class \code{"factor"} representing the different types of features on the card, such as controls and target genes.} \item{\code{featurePos}:}{Object of class \code{"character"} representing the location "well" of a gene on the card (such as well A1, A2, ...). If data does not come from a card format, the positions will be given consecutive names.} \item{\code{featureClass}:}{Object of class \code{"factor"} with some meta-data about the genes, for example if it is a marker, transcription factor or similar.} \item{\code{featureCategory}:}{Object of class \code{"data.frame"} representing the quality of the measurement for each Ct value, such as "OK", "Undetermined" or "Unreliable" if the Ct value is considered too migh.} \item{\code{history}:}{Object of class \code{"data.frame"} indicating how the data has been read in, normalized, filtered etc. Gives the exact commands used during these operations.} } } \section{Methods}{ \describe{ \item{[}{\code{signature(x = "qPCRset")}: Subsets by genes or samples. } \item{exprs}{\code{signature(object = "qPCRset")}: Extracts the Ct matrix. Is identical to \code{getCt}} \item{exprs<-}{\code{signature(object = "qPCRset", value = "matrix")}: Replaces the Ct matrix. Is identical to \code{setCt<-}} \item{getCt}{\code{signature(object = "qPCRset")}: Extracts the Ct matrix. Is identical to \code{exprs}.} \item{setCt<-}{\code{signature(object = "qPCRset", value = "matrix")}: Replaces the Ct matrix. Is identical to \code{exprs<-}.} \item{featureNames}{\code{signature(object = "qPCRset")}: Extracts the features (gene names) on the card. } \item{featureNames<-}{\code{signature(object = "qPCRset", value = "character")}: Replaces the features (gene names) on the card. } \item{sampleNames}{\code{signature(object = "qPCRset")}: Extracts the sample names.} \item{sampleNames<-}{\code{signature(object = "qPCRset", value = "character")}: Replaces the sample names. } \item{featureType}{\code{signature(object = "qPCRset")}: Extracts the feature type for each gene. } \item{featureType<-}{\code{signature(object = "qPCRset", value = "factor")}: Replaces the feature type for each gene. } \item{featurePos}{\code{signature(object = "qPCRset")}: Extracts the position of each feature (gene) on the card. } \item{featurePos<-}{\code{signature(object = "qPCRset", value = "character")}: Replaces the position of each feature (gene) on the card. } \item{featureClass}{\code{signature(object = "qPCRset")}: Extracts the feature class for each gene. } \item{featureClass<-}{\code{signature(object = "qPCRset", value = "factor")}: Replaces the feature class for each gene. } \item{featureCategory}{\code{signature(object = "qPCRset")}: Extracts the category of each Ct value.} \item{featureCategory<-}{\code{signature(object = "qPCRset", value = "data.frame")}: Replaces the category of each Ct value. } \item{flag}{\code{signature(object = "qPCRset")}: Extracts the flag of each Ct value. } \item{flag<-}{\code{signature(object = "qPCRset", value = "data.frame")}: Replaces the flag of each Ct value. } \item{n.wells}{\code{signature(object = "qPCRset")}: Extracts information about the number of wells on the card. } \item{n.samples}{\code{signature(object = "qPCRset")}: Extracts information about the number of samples in the set. } \item{getCtHistory}{\code{signature(object = "qPCRset")}: Extracts information about the history of the object (which operations have been performed on it). } \item{show}{\code{signature(object = "qPCRset")}: Displays some abbreviated information about the data object.} \item{summary}{\code{signature(object = "qPCRset")}: Displays a summary of the Ct values from each sample. } } } \author{Heidi Dvinge} \examples{ data(qPCRraw) show(qPCRraw) getCtHistory(qPCRraw) showClass("qPCRset") str(qPCRraw) } \keyword{classes}