metDataModel 0.1.2

Data models for metabolomics

metDataModel, data models for mass spectrometry based metabolomics

Our goal is to define a minimal set of data models to promote interoperability in computational metabolomics. This package will lay out the basic concepts and data structures, then we can import them to other projects, and extend to more specialized classes via inheritance.

There's been extensive software development in related areas. The XCMS ecosystem (https://www.bioconductor.org/packages/release/bioc/html/xcms.html) is a leading example of data preprocessing. The modeling of metabolism is exemplified by the Escher project (https://github.com/zakandrewking/escher). The advancing of science relies on the close interaction of experimental measurements and theoretical modeling, and the two should feed on each other. However, a clear gap exists between the two in metabolomics. E.g., the elemental mass table in Escher (retrieved on version 1.7.3) are of average mass, but mass spectrometers measure isotopic mass. Many software programs already have excellent data models and data structures. But the reuse of data models is much easier to start from basics, hence this project, where complexity is an option.

Core data Structure

metabolic model

    compound
    reaction
    pathway
    network

experimental data model

    peak
    feature
    empirical compound
    experiment

Try to keep the core models minimal. Leave index functions in util or applications.

empCpd format (JSON)

{"neutral_base_mass": 0, 
  "list_of_features": [
            # feature, ion, [m/z, rtime, mean_intensity]
            {'feature': '', 'ion': 'M-H[1-]', 'm/z': 169.0013, 'rtime': 55},
            {},
            # ...
        ],
  "identity": {
            # compound(mixtures): probability
            (compound x): 0.6,
            (compound y, compound z): 0.2,
    }
}

The mummichog suite

This package is used in mummichog 3.

• mummichog(3): core algorithm package for pathway/network analysis

• cloud-mummichog: server and worker (RESTful) implementations

• Azimuth DB: the chemical database for biology, including metabolic models

• metDataModel: data models for metabolomics, used by mummichog and Azimuth DB

• mass2chem: common utilities in interpreting mass spectrometry data, annotation

• massBrowser: visualization using js

For developers

This should be language neutral. We start using Python code, and it'd be the primary reference. But we encourage the adaptation/update/extension in other languages.

YAML should be equivalent to JSON. Since Python classes are where we started, please use them as primary reference.

Minimal JSON formats should be used for mummichog project.

In progress: need better and consistent use of operators (getters, setters) in Python code.

Use Wiki pages for detailed discussions of ideas.

Related community resources

While we focus on the application of mass spectrometry data, many mass spectrometry data structures are defined in various software projects that focus on "pre-processing", e.g.

• openMS (https://abibuilder.informatik.uni-tuebingen.de/archive/openms/Documentation/nightly/html/index.html)

• MSnBase (used by XCMS, https://github.com/lgatto/MSnbase)

To learn about mass spectrometry concepts and pre-processing:

• Data structure described for (py)openMS (https://pyopenms.readthedocs.io/en/latest/datastructures.html)

• XCMS tutorial by Johannes Rainer (https://github.com/jorainer/metabolomics2018)

To learn about genome scale metabolic models:

• review by Gu et al, 2019 (https://link.springer.com/article/10.1186/s13059-019-1730-3)

• our book chapter to explain metabolic models in the context of metabolomic pathway analysis (https://link.springer.com/protocol/10.1007/978-1-0716-0239-3_19)

History

This repo was renamed from Azimuth-metabolomics. All annotation functions are moved to mass2chem package.