\name{snp.cor} \alias{snp.cor} \title{Correlations with columns of a snp.matrix} \description{ This function calculates Pearson correlation coefficients between columns of a \code{snp.matrix} and columns of an ordinary matrix. The two matrices must have the same number of rows. All valid pairs are used in the computation of each correlation coefficient. } \usage{ snp.cor(x, y) } \arguments{ \item{x}{An \var{N} by \var{M} \code{snp.matrix}} \item{y}{An \var{N} by \var{P} general matrix} } \details{ This can be used together with \code{\link{xxt}} and \code{\link[base]{eigen}} to calculate standardized loadings in the principal components } \value{ An \var{M} by \var{P} matrix of correlation coefficients } \author{David Clayton \email{david.clayton@cimr.cam.ac.uk}} \note{ This version cannot handle X chromosomes } \seealso{\code{\link{xxt}}} \examples{ # make a snp.matrix with a small number of rows data(testdata) small <- Autosomes[1:100,] # Calculate the X.X-transpose matrix xx <- xxt(small, correct.for.missing=TRUE) # Calculate the principal components pc <- eigen(xx, symmetric=TRUE)$vectors # Calculate the loadings in first 10 components, # for eaxample to plot against chromosome position loadings <- snp.cor(small, pc[,1:10]) } \keyword{array} \keyword{multivariate}