\name{avereps} \alias{avereps} \alias{avereps.default} \alias{avereps.MAList} \alias{avereps.EList} \title{Average Over Irregular Replicate Probes} \description{ Condense a microarray data object so that values for within-array replicate probes are replaced with their average. } \usage{ \method{avereps}{default}(x, ID=rownames(x)) \method{avereps}{MAList}(x, ID=NULL) \method{avereps}{EList}(x, ID=NULL) } \arguments{ \item{x}{a matrix-like object, usually a matrix, \code{MAList} or \code{EList} object.} \item{ID}{probe identifier.} } \details{ A new data object is computed in which each probe ID is represented by the average of its replicate spots or features. For an \code{MAList} object, the components \code{M} and \code{A} are both averaged in this way, as are \code{weights} and any matrices found in \code{object$other}. For an \code{MAList} object, \code{ID} defaults to \code{MA$genes$ID} is that exists, otherwise to \code{rownames(MA$M)}. \code{EList} objects are similar, except that the \code{E} component is averaged instead of \code{M} and \code{A}. If \code{x} is of mode \code{"character"}, then the replicate values are assumed to be equal and the first is taken as the average. } \value{ A data object of the same class as \code{x} with a row for each unique value of \code{ID}. } \author{Gordon Smyth} \seealso{ \code{\link{avedups}}, \code{\link{avearrays}}. Also \code{\link[base]{rowsum}} in the base package. \link{02.Classes} gives an overview of data classes used in LIMMA. } \examples{ x <- matrix(rnorm(8*3),8,3) colnames(x) <- c("S1","S2","S3") rownames(x) <- c("b","a","a","c","c","b","b","b") avereps(x) } \keyword{array}