fbar is a simple, easy to use Flux Balance Analysis package with a tidy data approach. Just data_frames
and the occasional list
, no new classes to learn. The focus is on simplicity and speed. Models are expected as a flat table, and results can be simply appended to the table. This makes this package very suitable for useage in pipelines with pre- and post- processing of models and results, so that it works well as a backbone for customized methods. Loading, parsing and evaluating a model takes around 0.1s, which, together with the straightforward data structures used, makes this library very suitable for large parameter sweeps.
This example calculates the fluxes for the model ecoli_core. Ecoli_core starts out as a data frame, and is returned as the same data frame, with fluxes appended.
library(fbar) data(ecoli_core) try({ # this will fail if no appropriate solver is available. library(ROI.plugin.ecos) ecoli_core_with_flux <- find_fluxes_df(ecoli_core) })
This example finds the fluxes in ecoli_core, just like the previous case. However, this has more detail to show how the package works.
library(fbar) library(dplyr) library(ROI) try(library(ROI.plugin.ecos)) data(ecoli_core) roi_model <- ecoli_core %>% reactiontbl_to_expanded %>% expanded_to_ROI # First, we need to check that an appropriate solver is available. # If you don't have an appropriate solver, see the section on installing # one later in this document. if(length(ROI_applicable_solvers(roi_model))>=1){ roi_result <- ROI_solve(roi_model) ecoli_core_with_flux <- ecoli_core %>% mutate(flux = roi_result[['solution']]) }
This example expands the single data frame model into an intermediate form, the collapses it back to a gurobi model and evaluates it. Then it adds the result as a column, named flux. This longer style is useful because it allows access to the intermediate form. This just consists of three data frames: metabolites, stoichiometry, and reactions. This makes it easy to alter and combine models.
fbar
’s functions can be considered in three groups: convenience wrappers which perform a common workflow all in one go, parsing and conversion functions that form the core of the package and provide extensibility, and functions for gene set processing which allow models to be parameterized by genetic information.
These functions wrap common workflows. They parse and evaluate models all in one go.
find_fluxes_df
Given a metabolic model as a data frame, return a new data frame with fluxes. For simple FBA, this is what you want.find_flux_varability_df
Given a metabolic model as a data frame, return a new data frame with fluxes and variability.These functions convert metabolic models between different formats.
reactiontbl_to_gurobi
Convert a reaction table data frame to gurobi format. This is shorthand for reactiontbl_to_expanded
followed by expanded_to_gurobi
.reactiontbl_to_expanded
Convert a reaction table to an expanded, intermediate, format.expanded_to_gurobi
Convert a metabolic model in expanded format to a gurobi problem.devtools::install_github('maxconway/fbar')
This package requires a linear programming solver. There are a number of options for this (see below), but the easiest way to get started is to install ROI.plugin.ecos
(one of the suggested packages).
install.packages('ROI.plugin.ecos')
The most famous package for constraint based methods is probably COBRA, a Matlab package. If you prefer Matlab to R, you’ll probably want to try that before fbar
.
The existing R packages for Flux Balance Analysis include sybil
and abcdeFBA
. Compared to these packages, fbar
is smaller and does less. The aim of fbar
is to be more suitable for use as a building block in bioinformatics pipelines. Whereas sybil
and to a lesser extent abcdeFBA
intend to act as tools with a function for each analysis you might want to do, fbar
intends to supply just enough functionality that you can easily construct your analysis with only standard data frame operations.
fbar
uses ROI by default, which gives access to a number of solvers via plugins. It also supports Rglpk and Gurobi directly. Gurobi is substantially faster than other solvers in my experience, so it is recommended if you can get it (it is commercial, but has a free academic licence).
If you find problems with the package, or there’s anything that it doesn’t do which you think it should, please submit them to https://github.com/maxconway/fbar/issues. In particular, let me know about optimizers and formats which you’d like supported, or if you have a workflow which might make sense for inclusion as a default convenience function.