--- title: "Introduction to singleCellTK" author: - name: David Jenkins affiliation: - The Section of Computational Biomedicine, Boston University School of Medicine, Boston, MA - Program in Bioinformatics, Boston University, Boston, MA email: dfj@bu.edu - name: Tyler Faits affiliation: - The Section of Computational Biomedicine, Boston University School of Medicine, Boston, MA - Program in Bioinformatics, Boston University, Boston, MA - name: W. Evan Johnson affiliation: - The Section of Computational Biomedicine, Boston University School of Medicine, Boston, MA - Program in Bioinformatics, Boston University, Boston, MA package: singleCellTK output: BiocStyle::html_document: toc_float: false vignette: > %\VignetteIndexEntry{1. Introduction to singleCellTK} %\VignetteEngine{knitr::rmarkdown} %\VignetteEncoding{UTF-8} --- The Single Cell Toolkit (SCTK) is an interactive scRNA-Seq analysis package that allows a user to upload raw scRNA-Seq count matrices and perform downstream scRNA-Seq analysis interactively through a web interface, or through a set of R functions through the command line. The package is written in R with a graphical user interface (GUI) written in Shiny. Users can perform analysis with modules for filtering raw results, clustering, batch correction, differential expression, pathway enrichment, and scRNA-Seq study design, all in a simple to use point and click interface. The toolkit also supports command line data processing, and results can be loaded into the GUI for additional exploration and downstream analysis. # Installation You can download the release version of the Single Cell Toolkit in [Bioconductor v3.7](https://bioconductor.org/packages/release/bioc/html/singleCellTK.html): ```r if (!requireNamespace("BiocManager", quietly=TRUE)) install.packages("BiocManager") BiocManager::install("singleCellTK") ``` ## Troubleshooting Installation For the majority of users, the commands above will install the latest version of the singleCellTK without any errors. Rarely, you may encounter an error due to previously installed versions of some packages that are required for the singleCellTK. If you encounter an error during installation, use the commands below to check the version of Bioconductor that is installed: ```{r eval=FALSE} if (!requireNamespace("BiocManager", quietly=TRUE)) install.packages("BiocManager") BiocManager::version() ``` If the version number is not 3.7 or higher, you must upgrade Bioconductor to install the toolkit: ```{r eval=FALSE} BiocManager::install() ``` After you install Bioconductor 3.7 or higher, you should be able to install the toolkit using ```BiocManager::install("singleCellTK")```. If you still encounter an error, ensure your Bioconductor packages are up to date by running the following command. ```{r eval=FALSE} BiocManager::valid() ``` If the command above does not return ```TRUE```, run the following command to update your R packages: ```{r eval=FALSE} BiocManager::install() ``` Then, try to install the toolkit again: ```{r eval=FALSE} BiocManager::install("singleCellTK") ``` If you still encounter an error, please [contact us](mailto:dfj@bu.edu) and we'd be happy to help. # Data Structure The Single Cell Toolkit uses a [SingleCellExperiment](https://www.bioconductor.org/packages/release/bioc/html/SingleCellExperiment.html) object to store data matrices along with annotation information, metadata, and reduced dimensionality data (PCA, t-SNE, etc.). # Run the Shiny App ## Example Data Example data is available within the app. To get started, simply run the singleCellTK function: ```{r eval=FALSE} library(singleCellTK) singleCellTK() ``` ## Upload data directly through the shiny app To upload count matrices and annotation information stored as text files, run the singleCellTK function: ```{r eval=FALSE} library(singleCellTK) singleCellTK() ``` Then, follow data upload instructions in the "Upload Tab" vignette. ## Load data from a SingleCellExperiment object ### Creating a SingleCellExperiment object To create a SingleCellExperiment object, we have provided the ```createSCE()``` function: ```{r, message=FALSE} library(singleCellTK) data("mouseBrainSubsetSCE") counts_mat <- assay(mouseBrainSubsetSCE, "counts") sample_annot <- colData(mouseBrainSubsetSCE) row_annot <- rowData(mouseBrainSubsetSCE) newSCE <- createSCE(assayFile = counts_mat, annotFile = sample_annot, featureFile = row_annot, assayName = "counts", inputDataFrames = TRUE, createLogCounts = TRUE) ``` ### Loading data stored in a SingleCellExperiment object Once a SingleCellExperiment object is created, the object can be loaded directly from the R console: ```{r eval=FALSE} singleCellTK(newSCE) ``` # Vignettes To help you get started with the SCTK, we have prepared several vignettes in two categories: interactive analysis and R console analysis. ## Interactive Analysis * [Upload Tab](https://compbiomed.github.io/sctk_docs/articles/v03-tab01_Upload.html) * [Data Summary and Filtering Tab](https://compbiomed.github.io/sctk_docs/articles/v04-tab02_Data-Summary-and-Filtering.html) * [Visualization and Clustering Tab](https://compbiomed.github.io/sctk_docs/articles/v05-tab03_Visualization-and-Clustering.html) * [Batch Correction Tab](https://compbiomed.github.io/sctk_docs/articles/v06-tab04_Batch-Correction.html) * [Differential Expression Tab](https://compbiomed.github.io/sctk_docs/articles/v07-tab05_Differential-Expression.html) * [Pathway Activity Analysis Tab](https://compbiomed.github.io/sctk_docs/articles/v08-tab06_Pathway-Activity-Analysis.html) * [Sample Size Tab](https://compbiomed.github.io/sctk_docs/articles/v09-tab07_Sample-Size.html) ## R Console Analysis * [Processing and Visualizing Data in the Single Cell Toolkit](v02-Processing_and_Visualizing_Data_in_the_SingleCellTK.html) * [Aligning and Quantifying scRNA-Seq Data](https://compbiomed.github.io/sctk_docs/articles/v10-Aligning_and_Quantifying_scRNA-Seq_Data.html) # Session info {.unnumbered} ```{r sessionInfo, echo=FALSE} sessionInfo() ```