gcplyr was created to make it easier to import, wrangle, and do
model-free analyses of microbial growth curve data, as commonly output
by plate readers.
gcplyrcan flexibly import all the common data formats output by plate readers and reshape them into ‘tidy’ formats for analyses.gcplyrcan import experimental designs from files or directly inR, then merge this design information with density data.- This merged tidy-shaped data is then easy to work with and plot using
functions from
gcplyrand popular packagesdplyrandggplot2. gcplyrcan calculate plain and per-capita derivatives of density data.gcplyrhas several methods to deal with noise in density or derivatives data.gcplyrcan extract parameters like growth rate/doubling time, maximum density (carrying capacity), lag time, area under the curve, diauxic shifts, extinction, and more without fitting an equation for growth to your data.
Please send all questions, requests, comments, and bugs to mikeblazanin@gmail.com
You can install the version most-recently released on CRAN by running the following line in R:
install.packages("gcplyr")You can install the most recently-released version from GitHub by running the following lines in R:
install.packages("devtools")
devtools::install_github("mikeblazanin/gcplyr")The best way to get started is to check out the online
documentation, which includes
examples of all of the most common gcplyr functions and walks through
how to import, reshape, and analyze growth curve data using gcplyr
from start to finish.
This documentation is also available as a series of pdf vignette files:
- Introduction
- Importing and transforming data
- Incorporating experimental designs
- Pre-processing and plotting data
- Processing data
- Analyzing data
- Dealing with noise
- Best practices and other tips
- Working with multiple plates
- Using make_design to generate experimental designs
Please cite software as:
Blazanin, M. gcplyr: an R package for microbial growth curve data analysis. BMC Bioinformatics 25, 232 (2024). https://doi.org/10.1186/s12859-024-05817-3