--- title: "SCoPE2: macrophage vs monocytes" date: "`r BiocStyle::doc_date()`" vignette: | %\VignetteIndexEntry{SCoPE2: macrophage vs monocytes} %\VignetteEngine{knitr::rmarkdown} %\VignetteEncoding{UTF-8} output: BiocStyle::html_document: toc_float: true package: SingleCellMultiModal bibliography: ../inst/REFERENCES.bib --- This vignette will guide you through how accessing and manipulating the SCoPE2 data sets available from the `SingleCellMultimodal` package. # Installation ```{r,eval=FALSE} if (!requireNamespace("BiocManager", quietly = TRUE)) install.packages("BiocManager") BiocManager::install("SingleCellMultiModal") ``` ## Load packages ```{r,include=TRUE,results="hide",message=FALSE,warning=FALSE} library(SingleCellMultiModal) library(MultiAssayExperiment) ``` # SCoPE2 SCoPE2 is a mass spectrometry (MS)-based single-cell proteomics protocol to quantify the proteome of single-cells in an untargeted fashion. It was initially developed by @Specht2021-pm. ## Downloading data sets The user can see the available data set by using the default options. ```{r} SCoPE2("macrophage_differentiation", mode = "*", version = "1.0.0", dry.run = TRUE) ``` Or by simply running: ```{r} SCoPE2("macrophage_differentiation") ``` ## Available projects Currently, only the `macrophage_differentiation` is available. ## Retrieving data You can retrieve the actual data from `ExperimentHub` by setting `dry.run = FALSE`. This example retrieves the complete data set (transcriptome and proteome) for the `macrophage_differentiation` project: ```{r,message=FALSE} scope2 <- SCoPE2("macrophage_differentiation", modes = "rna|protein", dry.run = FALSE) scope2 ``` # The macrophage differentiation project This data set has been acquired by the Slavov Lab (@Specht2021-pm). It contains single-cell proteomics and single-cell RNA sequencing data for macrophages and monocytes. The objective of the research that led to generate the data is to understand whether homogeneous monocytes differentiate in the absence of cytokines to macrophages with homogeneous or heterogeneous profiles. The transcriptomic and proteomic acquisitions are conducted on two separate subset of similar cells (same experimental design). The cell type of the samples are known only for the **proteomics** data. The proteomics data was retrieved from the authors' [website](https://scope2.slavovlab.net/docs/data) and the transcriptomic data was retrieved from the GEO database (accession id: [GSE142392](https://www.ncbi.nlm.nih.gov/geo/query/acc.cgi?acc=GSE142392)). For more information on the protocol, see @Specht2021-pm. ## Data versions Only version `1.0.0` is currently available. The `macrophage_differentiation` data set in this package contains two assays: `rna` and `protein`. ### Cell annotation The single-cell proteomics data contains cell type annotation (`celltype`), sample preparation batch (`batch_digest` and `batch_sort`), chromatography batch (`batch_chromatography`), and the MS acquisition run (`batch_MS`). The single-cell transcriptomics data was acquired in two batches (`batch_Chromium`). Note that because the cells that compose the two assays are distinct, there is no common cell annotation available for both proteomics and transcriptomics. The annotation were therefore filled with `NA`s accordingly. ```{r} colData(scope2) ``` ### Transcriptomic data You can extract and check the transcriptomic data through subsetting: ```{r} scope2[["rna"]] ``` The data is rather large and is therefore stored on-disk using the HDF5 backend. You can verify this by looking at the assay data matrix. Note that the counts are UMI counts. ```{r} assay(scope2[["rna"]])[1:5, 1:5] ``` ### Proteomic data The `protein` assay contains MS-based proteomic data. The data have been passed sample and feature quality control, normalized, log transformed, imputed and batch corrected. Detailed information about the data processing is available in [another vignette](https://uclouvain-cbio.github.io/SCP.replication/articles/SCoPE2.html). You can extract the proteomic data similarly to the transcriptomic data: ```{r} scope2[["protein"]] ``` In this case, the protein data have reasonable size and are loaded directly into memory. The data matrix is stored in `logexprs`. We decided to not use the traditional `logcounts` because MS proteomics measures intensities rather than counts as opposed to scRNA-Seq. ```{r} assay(scope2[["protein"]])[1:5, 1:5] ``` # sessionInfo ```{r} sessionInfo() ``` # References