R/ZeiselBrainData.R
In drisso/scRNAseq: Collection of Public Single-Cell RNA-Seq Datasets
Defines functions
ZeiselBrainData
Documented in
ZeiselBrainData
#' Obtain the Zeisel brain data
#'
#' Obtain the mouse brain single-cell RNA-seq dataset from Zeisel et al. (2015).
#'
#' @param ensembl Logical scalar indicating whether the output row names should contain Ensembl identifiers.
#' @param location Logical scalar indicating whether genomic coordinates should be returned.
#'
#' @details
#' Row data contains a single \code{"featureType"} field describing the type of each feature
#' (endogenous genes, mitochondrial genes, spike-in transcripts and repeats).
#' Spike-ins and repeats are stored as separate entries in the \code{\link{altExps}}.
#'
#' Column metadata is provided in the same form as supplied in \url{http://linnarssonlab.org/cortex/}.
#' This contains information such as the cell diameter and the published cell type annotations.
#'
#' If \code{ensembl=TRUE}, the gene symbols are converted to Ensembl IDs in the row names of the output object.
#' Rows with missing Ensembl IDs are discarded, and only the first occurrence of duplicated IDs is retained.
#'
#' If \code{location=TRUE}, the coordinates of the Ensembl gene models are stored in the \code{\link{rowRanges}} of the output.
#'
#' Spike-in metadata is added using \code{\link{ERCCSpikeInConcentrations}},
#' with molecule counts computed using a volume of 9 nL per cell at a dilution of 1:20000.
#'
#' All data are downloaded from ExperimentHub and cached for local re-use.
#' Specific resources can be retrieved by searching for \code{scRNAseq/zeisel-brain}.
#'
#' @return A \linkS4class{SingleCellExperiment} object with a single matrix of UMI counts.
#'
#' @author Aaron Lun
#'
#' @references
#' Zeisel A et al. (2015).
#' Brain structure. Cell types in the mouse cortex and hippocampus revealed by single-cell RNA-seq.
#' \emph{Science} 347(6226), 1138-42.
#'
#' @examples
#' sce <- ZeiselBrainData()
#'
#' @export
#' @importFrom SingleCellExperiment splitAltExps altExp altExp<-
#' @importFrom SummarizedExperiment rowData rowData<-
#' @importFrom BiocGenerics cbind
ZeiselBrainData <- function(ensembl=FALSE, location=TRUE) {
version <- "2.0.0"
sce <- .create_sce(file.path("zeisel-brain", version))
status <- rowData(sce)$featureType
status[status=="mito"] <- "endogenous"
sce <- splitAltExps(sce, status, "endogenous")
# Decorating spike-ins with row metadata. Probably could be less
# verbose but this is pretty clear.
spike.exp <- altExp(sce, "ERCC")
spikedata <- ERCCSpikeInConcentrations(volume = 9, dilution = 20000)
spikedata <- spikedata[rownames(spike.exp),]
rowData(spike.exp) <- cbind(rowData(spike.exp), spikedata)
rowData(spike.exp)$featureType <- NULL # redundant field; what else would it be!?
altExp(sce, "ERCC") <- spike.exp
.convert_to_ensembl(sce,
symbols=rownames(sce),
species="Mm",
ensembl=ensembl,
location=location)
}
drisso/scRNAseq documentation built on Feb. 16, 2021, 1:18 a.m.
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Defines functions ZeiselBrainData
Documented in ZeiselBrainData
#' Obtain the Zeisel brain data
#'
#' Obtain the mouse brain single-cell RNA-seq dataset from Zeisel et al. (2015).
#'
#' @param ensembl Logical scalar indicating whether the output row names should contain Ensembl identifiers.
#' @param location Logical scalar indicating whether genomic coordinates should be returned.
#'
#' @details
#' Row data contains a single \code{"featureType"} field describing the type of each feature
#' (endogenous genes, mitochondrial genes, spike-in transcripts and repeats).
#' Spike-ins and repeats are stored as separate entries in the \code{\link{altExps}}.
#'
#' Column metadata is provided in the same form as supplied in \url{http://linnarssonlab.org/cortex/}.
#' This contains information such as the cell diameter and the published cell type annotations.
#'
#' If \code{ensembl=TRUE}, the gene symbols are converted to Ensembl IDs in the row names of the output object.
#' Rows with missing Ensembl IDs are discarded, and only the first occurrence of duplicated IDs is retained.
#'
#' If \code{location=TRUE}, the coordinates of the Ensembl gene models are stored in the \code{\link{rowRanges}} of the output.
#'
#' Spike-in metadata is added using \code{\link{ERCCSpikeInConcentrations}},
#' with molecule counts computed using a volume of 9 nL per cell at a dilution of 1:20000.
#'
#' All data are downloaded from ExperimentHub and cached for local re-use.
#' Specific resources can be retrieved by searching for \code{scRNAseq/zeisel-brain}.
#'
#' @return A \linkS4class{SingleCellExperiment} object with a single matrix of UMI counts.
#'
#' @author Aaron Lun
#'
#' @references
#' Zeisel A et al. (2015).
#' Brain structure. Cell types in the mouse cortex and hippocampus revealed by single-cell RNA-seq.
#' \emph{Science} 347(6226), 1138-42.
#'
#' @examples
#' sce <- ZeiselBrainData()
#'
#' @export
#' @importFrom SingleCellExperiment splitAltExps altExp altExp<-
#' @importFrom SummarizedExperiment rowData rowData<-
#' @importFrom BiocGenerics cbind
ZeiselBrainData <- function(ensembl=FALSE, location=TRUE) {
version <- "2.0.0"
sce <- .create_sce(file.path("zeisel-brain", version))
status <- rowData(sce)$featureType
status[status=="mito"] <- "endogenous"
sce <- splitAltExps(sce, status, "endogenous")
# Decorating spike-ins with row metadata. Probably could be less
# verbose but this is pretty clear.
spike.exp <- altExp(sce, "ERCC")
spikedata <- ERCCSpikeInConcentrations(volume = 9, dilution = 20000)
spikedata <- spikedata[rownames(spike.exp),]
rowData(spike.exp) <- cbind(rowData(spike.exp), spikedata)
rowData(spike.exp)$featureType <- NULL # redundant field; what else would it be!?
altExp(sce, "ERCC") <- spike.exp
.convert_to_ensembl(sce,
symbols=rownames(sce),
species="Mm",
ensembl=ensembl,
location=location)
}
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