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R/sc_sample_qc.R
In scPipe: pipeline for single cell RNA-seq data analysis
#' @name sc_sample_qc
#' @title quality control information for a small sample scRNA-seq dataset to
#' demonstrate capabilities of scPipe.
#' @description This data.frame contains cell quality control information
#' for the 100 cells. For each cell it has: \itemize{
#' \item{unaligned} the number of unaligned reads.
#' \item{aligned_unmapped} the number of reads that aligned to genome but
#' fail to map to any features.
#' \item{mapped_to_exon} is the number of reads that mapped
#' to exon.
#' \item{mapped_to_intron} is the number of reads that mapped to intron.
#' \item{ambiguous_mapping} is the number of reads that mapped to multiple
#' features. They are not considered in the following analysis.
#' \item{mapped_to_ERCC} is the number of reads that mapped to ERCC
#' spike-in controls.
#' \item{mapped_to_MT} is the number of reads that mapped to mitochondrial
#' genes.
#' \item{total_count_per_cell} is the number of reads that mapped to exon
#' after UMI deduplication. In contrast, `mapped_to_exon` is the
#' number of reads mapped to exon before UMI deduplication.
#' \item{number_of_genes} is the number of genes detected for each cells
#' \item{non_ERCC_percent} is 1 - (percentage of ERCC reads). Reads are
#' UMI deduplicated.
#' \item{non_mt_percent} is 1 - (percentage of mitochondrial reads).
#' Reads are UMI deduplicated.
#' \item{non_ribo_percent} is 1- (percentage of ribosomal reads).
#' Reads are UMI deduplicated.
#' }
#' @return NULL, but makes a data frame with cell quality control data.frame
#' @docType data
#' @usage sc_sample_qc
#' @format a data.frame instance, one row per cell.
#' @source Christin Biben (WEHI). She FACS sorted cells from several immune
#' cell types including B cells, granulocyte and some early progenitors.
#' @author Luyi Tian
#' @examples
#' data("sc_sample_data")
#' data("sc_sample_qc")
#' sce = SingleCellExperiment(assays = list(counts = as.matrix(sc_sample_data)))
#' organism(sce) = "mmusculus_gene_ensembl"
#' gene_id_type(sce) = "ensembl_gene_id"
#' QC_metrics(sce) = sc_sample_qc
#' head(QC_metrics(sce))
#' plot_mapping(sce,percentage=TRUE,dataname="sc_sample")
#'
NULL
#' @name UMI_duplication
#' @title UMI duplication statistics for a small sample scRNA-seq dataset to
#' demonstrate capabilities of scPipe
#' @description This data.frame contains UMI duplication statistics, where the
#' first column is the number of duplication, and the second column is the
#' count of UMIs.
#'
#' @return NULL, but makes a data frame with UMI dulication statistics
#' @docType data
#' @usage sc_sample_qc
#' @format a data.frame instance, one row per cell.
#' @source Christin Biben (WEHI). She FACS sorted cells from several immune
#' cell types including B cells, granulocyte and some early progenitors.
#' @author Luyi Tian
#' @examples
#' data("sc_sample_data")
#' data("sc_sample_qc")
#' sce = SingleCellExperiment(assays = list(counts =as.matrix(sc_sample_data)))
#' organism(sce) = "mmusculus_gene_ensembl"
#' gene_id_type(sce) = "ensembl_gene_id"
#' QC_metrics(sce) = sc_sample_qc
#' demultiplex_info(sce) = cell_barcode_matching
#' UMI_dup_info(sce) = UMI_duplication
#'
#' head(UMI_dup_info(sce))
#'
NULL
#' @name cell_barcode_matching
#' @title cell barcode demultiplex statistics for a small sample scRNA-seq
#' dataset to demonstrate capabilities of scPipe
#' @description This data.frame contains cell barcode demultiplex statistics
#' with several rows:\itemize{
#' \item{barcode_unmatch_ambiguous_mapping} is the number of reads that do not
#' match any barcode, but aligned to the genome and mapped to multiple
#' features.
#' \item{barcode_unmatch_mapped_to_intron} is the number of reads that do
#' not match any barcode, but aligned to the genome and mapped to intron.
#' \item{barcode_match} is the number of reads that match the cell barcodes
#' \item{barcode_unmatch_unaligned} is the number of reads that do not
#' match any barcode, and not aligned to the genome
#' \item{barcode_unmatch_aligned} is the number of reads that do not
#' match any barcode, but aligned to the genome and do not mapped to any
#' feature
#' \item{barcode_unmatch_mapped_to_exon} is the number of reads that do not
#' match any barcode, but aligned to the genome and mapped to the exon
#' }
#' @return NULL, but makes a data frame with cell barcode demultiplex statistics
#' @docType data
#' @usage sc_sample_qc
#' @format a data.frame instance, one row per cell.
#' @source Christin Biben (WEHI). She FACS sorted cells from several immune
#' cell types including B cells, granulocyte and some early progenitors.
#' @author Luyi Tian
#' @examples
#' data("sc_sample_data")
#' data("sc_sample_qc")
#' sce = SingleCellExperiment(assays = list(counts =as.matrix(sc_sample_data)))
#' organism(sce) = "mmusculus_gene_ensembl"
#' gene_id_type(sce) = "ensembl_gene_id"
#' QC_metrics(sce) = sc_sample_qc
#' demultiplex_info(sce) = cell_barcode_matching
#' UMI_dup_info(sce) = UMI_duplication
#'
#' demultiplex_info(sce)
#'
NULL
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#' @name sc_sample_qc
#' @title quality control information for a small sample scRNA-seq dataset to
#' demonstrate capabilities of scPipe.
#' @description This data.frame contains cell quality control information
#' for the 100 cells. For each cell it has: \itemize{
#' \item{unaligned} the number of unaligned reads.
#' \item{aligned_unmapped} the number of reads that aligned to genome but
#' fail to map to any features.
#' \item{mapped_to_exon} is the number of reads that mapped
#' to exon.
#' \item{mapped_to_intron} is the number of reads that mapped to intron.
#' \item{ambiguous_mapping} is the number of reads that mapped to multiple
#' features. They are not considered in the following analysis.
#' \item{mapped_to_ERCC} is the number of reads that mapped to ERCC
#' spike-in controls.
#' \item{mapped_to_MT} is the number of reads that mapped to mitochondrial
#' genes.
#' \item{total_count_per_cell} is the number of reads that mapped to exon
#' after UMI deduplication. In contrast, `mapped_to_exon` is the
#' number of reads mapped to exon before UMI deduplication.
#' \item{number_of_genes} is the number of genes detected for each cells
#' \item{non_ERCC_percent} is 1 - (percentage of ERCC reads). Reads are
#' UMI deduplicated.
#' \item{non_mt_percent} is 1 - (percentage of mitochondrial reads).
#' Reads are UMI deduplicated.
#' \item{non_ribo_percent} is 1- (percentage of ribosomal reads).
#' Reads are UMI deduplicated.
#' }
#' @return NULL, but makes a data frame with cell quality control data.frame
#' @docType data
#' @usage sc_sample_qc
#' @format a data.frame instance, one row per cell.
#' @source Christin Biben (WEHI). She FACS sorted cells from several immune
#' cell types including B cells, granulocyte and some early progenitors.
#' @author Luyi Tian
#' @examples
#' data("sc_sample_data")
#' data("sc_sample_qc")
#' sce = SingleCellExperiment(assays = list(counts = as.matrix(sc_sample_data)))
#' organism(sce) = "mmusculus_gene_ensembl"
#' gene_id_type(sce) = "ensembl_gene_id"
#' QC_metrics(sce) = sc_sample_qc
#' head(QC_metrics(sce))
#' plot_mapping(sce,percentage=TRUE,dataname="sc_sample")
#'
NULL
#' @name UMI_duplication
#' @title UMI duplication statistics for a small sample scRNA-seq dataset to
#' demonstrate capabilities of scPipe
#' @description This data.frame contains UMI duplication statistics, where the
#' first column is the number of duplication, and the second column is the
#' count of UMIs.
#'
#' @return NULL, but makes a data frame with UMI dulication statistics
#' @docType data
#' @usage sc_sample_qc
#' @format a data.frame instance, one row per cell.
#' @source Christin Biben (WEHI). She FACS sorted cells from several immune
#' cell types including B cells, granulocyte and some early progenitors.
#' @author Luyi Tian
#' @examples
#' data("sc_sample_data")
#' data("sc_sample_qc")
#' sce = SingleCellExperiment(assays = list(counts =as.matrix(sc_sample_data)))
#' organism(sce) = "mmusculus_gene_ensembl"
#' gene_id_type(sce) = "ensembl_gene_id"
#' QC_metrics(sce) = sc_sample_qc
#' demultiplex_info(sce) = cell_barcode_matching
#' UMI_dup_info(sce) = UMI_duplication
#'
#' head(UMI_dup_info(sce))
#'
NULL
#' @name cell_barcode_matching
#' @title cell barcode demultiplex statistics for a small sample scRNA-seq
#' dataset to demonstrate capabilities of scPipe
#' @description This data.frame contains cell barcode demultiplex statistics
#' with several rows:\itemize{
#' \item{barcode_unmatch_ambiguous_mapping} is the number of reads that do not
#' match any barcode, but aligned to the genome and mapped to multiple
#' features.
#' \item{barcode_unmatch_mapped_to_intron} is the number of reads that do
#' not match any barcode, but aligned to the genome and mapped to intron.
#' \item{barcode_match} is the number of reads that match the cell barcodes
#' \item{barcode_unmatch_unaligned} is the number of reads that do not
#' match any barcode, and not aligned to the genome
#' \item{barcode_unmatch_aligned} is the number of reads that do not
#' match any barcode, but aligned to the genome and do not mapped to any
#' feature
#' \item{barcode_unmatch_mapped_to_exon} is the number of reads that do not
#' match any barcode, but aligned to the genome and mapped to the exon
#' }
#' @return NULL, but makes a data frame with cell barcode demultiplex statistics
#' @docType data
#' @usage sc_sample_qc
#' @format a data.frame instance, one row per cell.
#' @source Christin Biben (WEHI). She FACS sorted cells from several immune
#' cell types including B cells, granulocyte and some early progenitors.
#' @author Luyi Tian
#' @examples
#' data("sc_sample_data")
#' data("sc_sample_qc")
#' sce = SingleCellExperiment(assays = list(counts =as.matrix(sc_sample_data)))
#' organism(sce) = "mmusculus_gene_ensembl"
#' gene_id_type(sce) = "ensembl_gene_id"
#' QC_metrics(sce) = sc_sample_qc
#' demultiplex_info(sce) = cell_barcode_matching
#' UMI_dup_info(sce) = UMI_duplication
#'
#' demultiplex_info(sce)
#'
NULL
Try the scPipe package in your browser
Any scripts or data that you put into this service are public.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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