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A collection of 230+ Boolean networks from various sources useful for benchmarking or testing.

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Biodivine Boolean Models (BBM) Benchmark Dataset

What is this? BBM is a collection of Boolean models (Boolean networks) used in systems biology. It aims to be a comprehensive collection suitable for benchmarking and testing new tools and methods. At the moment, there are 230+ models from major model repositories (GINsim, CellCollective, Biomodels, etc.) or individual publications. Additionally, the repository is configured to automatically check integrity of all models and generate different model formats for different tools.

Note that this is not a biological database. Each model has a link to the original source where you can find more biologically relevant data. However, we do not aim to preserve or categorise this additional information in any way.

If you want to learn more, you can read our technical report.

Where are the models? If you just need individual models, you can head to the ./models directory where each model has a subdirectory containing bnet/aeon/sbml source files as well as JSON metadata file and a human-friendly readme. There is also a models/summary.csv file with the full list of models. Alternatively, you can download one of the "edition archives" in the repository releases. These contain the same model files as the ./models directory, but are grouped by model format and exported as a single directory, so they are easier to digest by scripts or programs.

Note on model inputs (source nodes): By default, all inputs (entities with no incoming regulations) are represented as "free" variables (i.e. their update function is omitted). However, this is not supported by all tools. If you need to, you can change this input representation when generating a custom "edition" of the dataset (see below).

Note on multivalued models: The dataset also includes Booleanized versions of multi-valued models. If you wish to exclude these, they can be identified using the keyword multi-valued.

Citation

If you found this dataset useful in your academic work, you can cite the technical report:

Repository of logically consistent real-world Boolean network models
Samuel Pastva, David Safranek, and others
bioRxiv 2023.06.12.544361; doi: https://doi.org/10.1101/2023.06.12.544361

Custom Model Editions

If you need to generate models with specific properties (or formats), you can use bundle.py to generate custom model editions. In particular, for each edition you can pick the desired format (bnet/aeon/sbml), desired input representation (free, constant true or false, random, or the identity function), and you can filter the models using a Python expression (e.g. you want to only include models with specific keywords or size).

Random input valuations: If you select random input values, you'll be given the option to specify how many samples should be taken for each model (assuming the model has enough valuations). Each sample is unique and is saved as an individual model file. Furthermore, you will be able to select what random seed should be used to initialize the generator for each model. As such, the process should be fully reproducible.

Once you have AEON.py installed (pip install -r requirements.txt), you can simply run python3 bundle.py and answer the script prompts with your desired specification. For inspiration, here are several filter expression that can be useful for generating custom editions:

# Models with at least 10 variables and 5 inputs:
len(variables) > 10 and len(inputs) > 5
# Models that are on GINsim but not on CellCollective:
'ginsim' in metadata['keywords'] and not 'cellcollective' in metadata['keywords']
# Models with variable ERK that are originally multi-valued.
'ERK' in variables and 'multi-valued' in metadata['keywords']

Contributing

We accept new models and improvements through issues and pull request. In CONTRIBUTING.md, you can find how to let us know about a new model through an issue or a pull request.

Random networks

Currently, we only accept networks that have a demonstrated relationship with some biological system. However, we do not assume any specific level of curation---the models can be hand made, inferred from data, or anything in between. This rules out randomly generated models though. If you would also like to test your tool on randomly generated networks, we can recommend this or this dataset (and the associated network generators). 

Unresolved issues

When working with the dataset, you may want to consider the following limitations:

  • GINsim model export automatically "hides" some logical errors in models (Issue 57).
  • Regulatory network data is unavailable for .bnet models (Issue 61).
  • Extra metadata available in .sbml models is erased by the static analysis workflow (Issue 60).
  • In the future, we may incorporate more structural metadata; SCCs of the regulatory graph, feedback vertex set, positive/negative edges, etc. (Issue 59).

Copyright of all models belongs to their respective authors and/or publishers. All other information is provided as is for free reproduction.

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