\name{GRangesForUCSCGenome} \alias{GRangesForUCSCGenome} \alias{GRangesForBSGenome} \alias{SeqinfoForUCSCGenome} \alias{SeqinfoForBSGenome} \title{ GRanges for a Genome } \description{ These functions assist in the creation of \code{\link[GenomicRanges:Seqinfo-class]{Seqinfo}} or \code{\link[GenomicRanges:GRanges-class]{GRanges}} for a genome. } \usage{ GRangesForUCSCGenome(genome, chrom = NULL, ranges = NULL, ...) GRangesForBSGenome(genome, chrom = NULL, ranges = NULL, ...) SeqinfoForUCSCGenome(genome) SeqinfoForBSGenome(genome) } %- maybe also 'usage' for other objects documented here. \arguments{ \item{genome}{ A string identifying a genome, usually one assigned by UCSC, like "hg19". } \item{chrom}{ A character vector of chromosome names, or \code{NULL}. } \item{ranges}{ A \code{\link[IRanges:Ranges-class]{Ranges}} object with the intervals. } \item{\dots}{ Additional arguments to pass to the \code{\link[GenomicRanges:GRanges]{GRanges}} constructor. } } \details{ The genome ID is stored in the metadata of the ranges and is retrievable via the \code{\link{genome}} function. The sequence lengths are also properly initialized for the genome. This mitigates the possibility of accidentally storing intervals for the wrong genome. \code{GRangesForUCSCGenome} obtains sequence information from the UCSC website, while \code{GRangesForBSGenome} looks for it in an installed \code{BSGenome} package. Using the latter is more efficient in the long-run, but requires downloading and installing a potentially large genome package, or creating one from scratch if it does not yet exist for the genome of interest. } \value{ For the \code{GRangesFor*} functions, a \code{GRanges} object, with the appropriate \code{\link[GenomicRanges:seqlengths]{seqlengths}} and \code{\link{genome}} ID. The \code{SeqinfoFor*} functions return a \code{Seqinfo} for the indicated genome. } \author{ Michael Lawrence }