MEWpy is an integrated Metabolic Engineering Workbench for strain design optimization. It offers methods to explore different classes of constraint-based models (CBM) for:
- Simulation: allows to simulate steady-state metabolic models, considering different formulations (e.g., GECKO, ETFL) and kinetic models;
- Omics data integration (eFlux, GIMME, iMAT);
- Optimization: performs Evolutionary Computation based strain design optimization by knocking out (KO) or over/under expressing (OU) reactions, genes or enzymes.
MEWPy currently supports REFRAMED and COBRApy simulation environments. The optimization engine relies on either inspyred or jMetalPy packages.
Examples are provided as jupyter notebooks and as python scripts.
The package documentation is available at mewpy.readthedocs.io.
Installing from Pypi package repository:
pip install mewpy
Installing from github:
- clone the repository
git clone https://github.com/BioSystemsUM/mewpy.git -b master
- run
python setup.py install
MEWPy requires a compatible linear programming solver, with installed Python dependencies, from the following list:
Vítor Pereira, Fernando Cruz, Miguel Rocha, MEWpy: a computational strain optimization workbench in Python, Bioinformatics, 2021; https://doi.org/10.1093/bioinformatics/btab013
Developed at Centre of Biological Engineering, University of Minho (2019-2023) and received funding from the European Union's Horizon 2020 research and innovation programme under grant agreement number 814408.
MEWpy is currently mantained by Vítor Pereira.
Released under an Apache License.