greatR

CRAN_Status_Badge lifecycle R-CMD-check codecov pkgdown GitHub last commit

greatR (Gene Registration from Expression and Time-courses in R) is a tool to register (align) two sets of gene expression profiles that users wish to compare.

These gene profiles data will be referred as the query and the reference data. To match the time point ranges between those profiles, the time points of the query profiles will be transformed through a stretching and shifting process. This tool uses a statistical model comparison based on a Bayesian approach to evaluate the optimality of the gene expression profiles alignment.

Package workflow

The flowchart below illustrates the workflow of the package given an input data:

More details on how to use this package are available on function documentations and the following vignettes:

  1. Input data requirements
  2. Register data
  3. Process registration results

Installation

You can install the stable version of greatR from CRAN with:

install.packages("greatR")

And the development version of greatR from GitHub with:

# install.packages("devtools")
devtools::install_github("ruthkr/greatR")

Usage - quick start

This is a basic example which shows you how to register (align) gene expression profiles over time:

# Load the package
library(greatR)
# Load a data frame from the sample data
b_rapa_data <- system.file("extdata/brapa_arabidopsis_data.csv", package = "greatR") |>
  utils::read.csv()

# Running the registration
registration_results <- register(
  b_rapa_data,
  reference = "Ro18",
  query = "Col0",
  scaling_method = "z-score"
)
#> ── Validating input data ────────────────────────────────────────────────────────
#> ℹ Will process 10 genes.
#> ℹ Using estimated standard deviation, as no `exp_sd` was provided.
#> ℹ Using `scaling_method` = "z-score".
#>
#> ── Starting registration with optimisation ──────────────────────────────────────
#> ℹ Using L-BFGS-B optimisation method.
#> ℹ Using computed stretches and shifts search space limits.
#> ℹ Using `overlapping_percent` = 50% as a registration criterion.
#> ✔ Optimising registration parameters for genes (10/10) [2s]

Reference

Calderwood, A., Hepworth, J., Woodhouse, … Morris, R. (2021). Comparative transcriptomics reveals desynchronisation of gene expression during the floral transition between Arabidopsis and Brassica rapa cultivars. Quantitative Plant Biology, 2, E4. doi:10.1017/qpb.2021.6

mirror server hosted at Truenetwork, Russian Federation.