\name{eff} \alias{eff} \title{The amplification efficiency curve of a fitted object} \description{ Calculates the efficiency curve from the fitted object by \eqn{E = \frac{F(n)}{F(n-1)}}, with E = efficiency, F = raw fluorescence, n = Cycle number. Alternatively, a cubic spline interpolation can be used on the raw data as in Shain et al. (2008). } \usage{ eff(object, type = c("sigfit", "spline"), sequence = NULL, baseshift = NULL, smooth = FALSE, plot = FALSE) } \arguments{ \item{object}{an object of class 'pcrfit'.} \item{type}{the efficiency curve is either calculated from the sigmoidal fit (default) or a cubic spline interpolation.} \item{sequence}{a 3-element vector (from, to, by) defining the sequence for the efficiency curve. Defaults to [min(Cycles), max(Cycles)] with 100 points per cycle.} \item{baseshift}{baseline shift value in case of \code{type = "spline"}. See documentation to \code{\link{maxRatio}}.} \item{smooth}{logical. If \code{TRUE} and \code{type = "spline"}, invokes a 5-point convolution filter (\code{\link{filter}}). See documentation to \code{\link{maxRatio}}.} \item{plot}{should the efficiency be plotted?} } \value{ A list with the following components: \item{eff.x}{the cycle points.} \item{eff.y}{the efficiency values at \code{eff.x}.} \item{effmax.x}{the cycle number with the highest efficiency.} \item{effmax.y}{the maximum efficiency.} } \details{ For more information about the curve smoothing, baseline shifting and cubic spline interpolation for the method as in Shain et al. (2008), see 'Details' in \code{\link{maxRatio}}. } \author{ Andrej-Nikolai Spiess } \references{ A new method for robust quantitative and qualitative analysis of real-time PCR.\cr Shain & Clemens, \emph{Nucleic Acids Research}, 2008, \bold{36}, e91. } \examples{ m <- pcrfit(reps, 1, 7, l5) ## with default 100 points per cycle eff(m, plot = TRUE) ## not all data and only 10 points per cycle eff(m, sequence = c(5, 35, 0.1), plot = TRUE) ## using cubic splines ## it is preferred to use the ## smoothing option eff(m, type = "spline", plot = TRUE, smooth = TRUE, baseshift = 0.3) } \keyword{models} \keyword{nonlinear}