Introduction
The omXplore
package offers a series of built-in plots dedicated to the
visualization and the analysis of *omics (genomic, transcriptomics, proteomics)
data. As for several R packages available in Biocondcutor
for exploring
omics-like datasets, omXplore
is based on Shiny to make those plots easily
available in a web application. Four popular Bioconductor data objects are
currently supported: SummarizedExperiment
, MultiAssayExperiment
, MSnset
and QFeatures.
It is also possible to use data.frame
or matrix
(or lists of)
which contains quantitative data tables (rows for features and columns for
samples).
All these formats are automatically converted into an internal S4 class which
is an enriched version of the MultiAssayexperiment
class. This process is
invisible to the end-user.
The package omXplore
was created to be versatile, reusable and scalable. It
differs from similar R packages in two main points:
(versatile) The main Shiny module in omXplore
is a hub which gives access
to the individual plots. The plots are automatically updated w.r.t the selected
dataset (in case of data which contains several ExperimentData like the
classes MultiAssayExperiment
or QFeatures
).
(scalable) with less effort, it is easy integrate external plots (written as
Shiny modules) in the main GUI of omXplore
.
(reusable) Each plot (a Shiny module) can be run alone or integrated as a
complementary tool in third party Shiny apps. As an example, it is well suited
for the package
Prostar
in which it is used.
Features
omXplore
provides a graphical user interface using the Shiny
and
the highcharter
packages for the following visualizations:
- Connected Components of graph-type data (e.g. in proteomics datasets, graphs
of peptide-protein relationship),
- Principal Component Analysis (PCA),
- Histograms to analyze the quantitative data based on cell metadata
(eg missing values, imputed values, …),
- Intensity plots (boxplot and violinplot) of quantitative data. There is also
a tool to select and view (by superimposition) the evolution of intensity over
samples for a given set of entities,
- Density plot
- Variance distribution plot
- Heatmap
- Correlation plot
For developers or users who wants to enhance their application, additional
features include:
- As each plot is a Shiny module, it can be launched in a standalone mode
(from a R console) or it can be easily integrated into any third party Shiny app
- Internal convert function from a large variety of
Bioconductor
objects,
- A easy way to add user-defined plots (written as Shiny modules) in the main
GUI of
omXplore
Installation
To install this package, start R (version “4.3”) and enter:
if (!require("BiocManager", quietly = TRUE))
install.packages("BiocManager")
BiocManager::install("omXplore")
This will also install dependencies.
It is also possible to install omXplore
from Github:
library(devtools)
install_github('prostarproteomics/omXplore')
Then, load the package into R environment:
library("omXplore")
Enriching native MultiAssayExperiment
The internal data struture used in omXplore
is based on the class MultiAssayExperiments which is enriched with specific slots needed to create built-in plots.
The plots display statistical information about data contained in the SummarizedExperiment
slots of a dataset.
Some items are added to the metadata of the instance of
MultiAssayExperiment and to each of the instances of SummarizedExperiment.
Additional info in MultiAssayExperiment
Currently, there is no custom slot in the metadata of the mae contains
the following additional items (in the slot names other
):
data(vdata)
MultiAssayExperiment::metadata(vdata)
## $other
## list()
Additional info in SummarizedExperiment
The metadata of each SummarizedExperiment dataset contains the following
items:
proteinID: the name of the column which contains xxx
colID: the name of the column which serves as unique index
cc: the list of Connected Components, based on the adjacency
matrix (if exists)
type: the type of data contained in the current Experiment (e.g. peptide, protein, …)
pkg_version: the name and version number which has been used to
create the current Experiment.
data(vdata)
MultiAssayExperiment::metadata(vdata[[1]])
## $pkg_version
## NULL
##
## $type
## [1] "protein"
##
## $colID
## [1] "protID"
##
## $proteinID
## [1] "protID"
##
## $cc
## $cc[[1]]
## 1 x 1 sparse Matrix of class "dgCMatrix"
## proteinID_1
## prot_1 1
##
## $cc[[2]]
## 1 x 1 sparse Matrix of class "dgCMatrix"
## proteinID_2
## prot_2 1
##
## $cc[[3]]
## 1 x 1 sparse Matrix of class "dgCMatrix"
## proteinID_3
## prot_3 1
##
## $cc[[4]]
## 1 x 1 sparse Matrix of class "dgCMatrix"
## proteinID_4
## prot_4 1
##
## $cc[[5]]
## 1 x 1 sparse Matrix of class "dgCMatrix"
## proteinID_5
## prot_5 1
The adjacencyMatrix (when exists) is stored as a DataFrame in the
rowData() of a SummarizedExperiment itemµ.
All modules are self-contained in the sense that it is not necessary to manipulate datasets to view the plots. The information described above are given only to discover the slots used if the user wants to enrich its dataset before using omXplore.
Using omXplore
The package omXplore
offers a collection of standard plots written as Shiny modules.
The main app is a Shiny module itself which displays the plots of each
module.
This section describes how to view built-in plots and the main app of omXplore
.
Individual built-in plots
The list of plots available in the current R session via omXplore can be obtained with:
listPlotModules()
## [1] "omXplore_cc" "omXplore_corrmatrix" "omXplore_density"
## [4] "omXplore_heatmap" "omXplore_intensity" "omXplore_pca"
## [7] "omXplore_tabExplorer" "omXplore_variance"
By default, this function lists the built-in modules and the external modules compliant with omXplore.
Each of these functions is a Shiny app implemented as a module and can be launched in a standalone mode or embedded in another shiny app (as it is the case with the main UI of omXplore
or inserted in a third party Shiny app).
Most of these functions analyse the data contained in an Experiment of the dataset (an instance of the class SummarizedExperiment
). For a sake of simplicity, they all have the same two parameters: (1) the dataset in any (compatible) format (See the help page of the plot functions for details) and (2) the indice of the assay to analyse (See MultiAssayExperiment).
Internally, each function builds the enriched instance of MAE used inside omXplore then show the plot for the assay which has been specified in parameters.
data(sub_R25)
app <- omXplore_density(sub_R25, 1)
shiny::runApp(app)
Note: this code to run a shiny app follows the recommendations of Bioconductor on Running Shiny apps.
Main UI
As it is 9described in the previous section, omXplore have several built-in plots. And it may be fastidious to launch each plot function one after one to completely analyze a dataset.
For that purpose, omXplore
has another shiny app, called view_dataset()
which acts as a hub for plots to facilitate the analyse of the different assays in a dataset. It is launched as follows:
data(sub_R25)
app <- view_dataset(sub_R25)
shiny::runApp(app)
The resulting UI is the following: