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R/data.R
In ChromSCape: Analysis of single-cell epigenomics datasets with a Shiny App
#' Data.frame of chromosome length - hg38
#'
#' This data frame provides the length of each "canonical" chromosomes of
#' Homo Sapiens genome build hg38.
#'
#' @usage data("hg38.chromosomes")
#'
#' @format hg38.chromosomes - a data frame with 24 rows and 3 variables:
#' \describe{
#' \item{chr}{Chromosome - character}
#' \item{start}{Start of the chromosome (bp) - integer}
#' \item{end}{End of the chromosome (bp) - integer}
#' }
"hg38.chromosomes"
#' Data.frame of chromosome length - mm10
#'
#'This data frame provides the length of each "canonical" chromosomes of
#' Mus Musculus (Mouse) genome build mm10.
#'
#' @usage data("mm10.chromosomes")
#'
#' @format mm10.chromosomes - a data frame with 24 rows and 3 variables:
#' \describe{
#' \item{chr}{Chromosome - character}
#' \item{start}{Start of the chromosome (bp) - integer}
#' \item{end}{End of the chromosome (bp) - integer}
#' }
"mm10.chromosomes"
#' Data.frame of gene TSS - hg38
#'
#' This dataframe was extracted from Gencode v25 and report the Transcription
#' Start Site of each gene in the Homo Sapiens genome build hg38.
#'
#' @usage data("hg38.GeneTSS")
#'
#' @format hg38.GeneTSS - a data frame with 24 rows and 3 variables:
#' \describe{
#' \item{chr}{Chromosome - character}
#' \item{start}{Start of the gene (TSS) - integer}
#' \item{end}{End of the gene - integer}
#' \item{gene}{Gene symbol - character}
#' }
"hg38.GeneTSS"
#' Data.frame of gene TSS - mm10
#'
#' This dataframe was extracted from Gencode v25 and report the Transcription
#' Start Site of each gene in the Mus Musculus genome build mm10 (Mouse).
#'
#' @usage data("mm10.GeneTSS")
#'
#' @format mm10.GeneTSS - a data frame with 24 rows and 3 variables:
#' \describe{
#' \item{chr}{Chromosome name - character}
#' \item{start}{Start of the gene (TSS) - integer}
#' \item{end}{End of the gene - integer}
#' \item{gene}{Gene symbol - character}
#' }
"mm10.GeneTSS"
#' A SingleCellExperiment outputed by ChromSCape
#'
#' Data from a single-cell ChIP-seq experiment against H3K4me3 active mark from
#' two cell lines, Jurkat B cells and Ramos T cells from Grosselin et al., 2019.
#' The count matrices, on 5kbp bins, were given to ChromSCape and the filtering
#' parameter was set to 3% of cells active in regions and subsampled down to
#' 150 cells per sample. After correlation filtering, the experiment is
#' composed of respectively 51 and 55 cells from Jurkat & Ramos and 5499
#' 5kbp-genomic bins where signal is located.
#'
#' The scExp is composed of :
#' * counts and normcounts assays, PCA, UMAP, and Correlation matrix in
#' reducedDims(scExp)
#' * Assignation of genes to genomic bins in rowRanges(scExp)
#' * Cluster information in colData(scExp) correlation
#' * Hierarchical clustering dengogram in metadata$hc_cor
#' * Consensus clustering raw data in metadata$consclust
#' * Consensus clustering cluster-consensus and item consensus dataframes
#' in metadata$icl
#' * Differential analysis in metadata$diff
#' * Gene Set Analysis in metadata$enr
#'
#' @usage data("scExp")
#'
#' @format scExp - a SingleCellExperiment with 106 cells and 5499 features
#' (genomic bins) in hg38: \describe{ \item{chr}{A SingleCellExperiment} }
#'
#' @examples
#' data("scExp")
#' plot_reduced_dim_scExp(scExp)
#' plot_reduced_dim_scExp(scExp,color_by = "cell_cluster")
#' plot_heatmap_scExp(scExp)
#' plot_differential_volcano_scExp(scExp,cell_cluster = "C1")
#' plot_differential_summary_scExp(scExp)
"scExp"
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#' Data.frame of chromosome length - hg38
#'
#' This data frame provides the length of each "canonical" chromosomes of
#' Homo Sapiens genome build hg38.
#'
#' @usage data("hg38.chromosomes")
#'
#' @format hg38.chromosomes - a data frame with 24 rows and 3 variables:
#' \describe{
#' \item{chr}{Chromosome - character}
#' \item{start}{Start of the chromosome (bp) - integer}
#' \item{end}{End of the chromosome (bp) - integer}
#' }
"hg38.chromosomes"
#' Data.frame of chromosome length - mm10
#'
#'This data frame provides the length of each "canonical" chromosomes of
#' Mus Musculus (Mouse) genome build mm10.
#'
#' @usage data("mm10.chromosomes")
#'
#' @format mm10.chromosomes - a data frame with 24 rows and 3 variables:
#' \describe{
#' \item{chr}{Chromosome - character}
#' \item{start}{Start of the chromosome (bp) - integer}
#' \item{end}{End of the chromosome (bp) - integer}
#' }
"mm10.chromosomes"
#' Data.frame of gene TSS - hg38
#'
#' This dataframe was extracted from Gencode v25 and report the Transcription
#' Start Site of each gene in the Homo Sapiens genome build hg38.
#'
#' @usage data("hg38.GeneTSS")
#'
#' @format hg38.GeneTSS - a data frame with 24 rows and 3 variables:
#' \describe{
#' \item{chr}{Chromosome - character}
#' \item{start}{Start of the gene (TSS) - integer}
#' \item{end}{End of the gene - integer}
#' \item{gene}{Gene symbol - character}
#' }
"hg38.GeneTSS"
#' Data.frame of gene TSS - mm10
#'
#' This dataframe was extracted from Gencode v25 and report the Transcription
#' Start Site of each gene in the Mus Musculus genome build mm10 (Mouse).
#'
#' @usage data("mm10.GeneTSS")
#'
#' @format mm10.GeneTSS - a data frame with 24 rows and 3 variables:
#' \describe{
#' \item{chr}{Chromosome name - character}
#' \item{start}{Start of the gene (TSS) - integer}
#' \item{end}{End of the gene - integer}
#' \item{gene}{Gene symbol - character}
#' }
"mm10.GeneTSS"
#' A SingleCellExperiment outputed by ChromSCape
#'
#' Data from a single-cell ChIP-seq experiment against H3K4me3 active mark from
#' two cell lines, Jurkat B cells and Ramos T cells from Grosselin et al., 2019.
#' The count matrices, on 5kbp bins, were given to ChromSCape and the filtering
#' parameter was set to 3% of cells active in regions and subsampled down to
#' 150 cells per sample. After correlation filtering, the experiment is
#' composed of respectively 51 and 55 cells from Jurkat & Ramos and 5499
#' 5kbp-genomic bins where signal is located.
#'
#' The scExp is composed of :
#' * counts and normcounts assays, PCA, UMAP, and Correlation matrix in
#' reducedDims(scExp)
#' * Assignation of genes to genomic bins in rowRanges(scExp)
#' * Cluster information in colData(scExp) correlation
#' * Hierarchical clustering dengogram in metadata$hc_cor
#' * Consensus clustering raw data in metadata$consclust
#' * Consensus clustering cluster-consensus and item consensus dataframes
#' in metadata$icl
#' * Differential analysis in metadata$diff
#' * Gene Set Analysis in metadata$enr
#'
#' @usage data("scExp")
#'
#' @format scExp - a SingleCellExperiment with 106 cells and 5499 features
#' (genomic bins) in hg38: \describe{ \item{chr}{A SingleCellExperiment} }
#'
#' @examples
#' data("scExp")
#' plot_reduced_dim_scExp(scExp)
#' plot_reduced_dim_scExp(scExp,color_by = "cell_cluster")
#' plot_heatmap_scExp(scExp)
#' plot_differential_volcano_scExp(scExp,cell_cluster = "C1")
#' plot_differential_summary_scExp(scExp)
"scExp"
Try the ChromSCape 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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