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ClassyFire: automated chemical classification with a comprehensive, computable taxonomy

Background: Scientists have long been driven by the desire to describe, organize, classify, and compare objects using taxonomies and/or ontologies. In contrast to biology, geology, and many other scientific disciplines, the world of chemistry still lacks a standardized chemical ontology or taxonomy. Several attempts at chemical classification have been made; but they have mostly been limited to either manual, or semi-automated proof-of-principle applica-tions. This is regrettable as comprehensive chemical classification and description tools could not only improve our understanding of chemistry but also improve the linkage between chemistry and many other fields. For instance, the chemical classification of a compound could help predict its metabolic fate in humans, its druggability or potential hazards associated with it, among others. However, the sheer number (tens of millions of compounds) and complex-ity of chemical structures is such that any manual classification effort would prove to be near impossible. Results: We have developed a comprehensive, flexible, and computable, purely structure-based chemical taxonomy (ChemOnt), along with a computer program (ClassyFire) that uses only chemical structures and structural features to automatically assign all known chemical compounds to a taxonomy consisting of >4800 different categories. This new chemical taxonomy consists of up to 11 different levels (Kingdom, SuperClass, Class, SubClass, etc.) with each of the categories defined by unambiguous, computable structural rules. Furthermore each category is named using a consensus-based nomenclature and described (in English) based on the characteristic common structural proper-ties of the compounds it contains. The ClassyFire webserver is freely accessible at http://classyfire.wishartlab.com/. Moreover, a Ruby API version is available at https://bitbucket.org/wishartlab/classyfire_api, which provides program-matic access to the ClassyFire server and database. ClassyFire has been used to annotate over 77 million compounds and has already been integrated into other software packages to automatically generate textual descriptions for, and/or infer biological properties of over 100,000 compounds. Additional examples and applications are provided in this paper. Conclusion: ClassyFire, in combination with ChemOnt (ClassyFire’s comprehensive chemical taxonomy), now allows chemists and cheminformaticians to perform large-scale, rapid and automated chemical classification. Moreover, a freely accessible API allows easy access to more than 77 million “ClassyFire” classified compounds. The results can be used to help annotate well studied, as well as lesser-known compounds. In addition, these chemical classifications can be used as input for data integration, and many other cheminformatics-related tasks.

Citation

Y. Djoumbou Feunang, R. Eisner, C. Knox, L. Chepelev, J. Hastings, G. Owen, E. Fahy, C. Steinbeck, S. Subramanian, E. Bolton, R. Greiner, D. Wishart. "ClassyFire: automated chemical classification with a comprehensive, computable taxonomy". Journal Of Cheminformatics, 8, pp 61, November 2016.

Keywords: metabolomics, taxonomy, chemical informatics
Category: In Journal
Web Links: DOI
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BibTeX

@article{DjoumbouFeunang+al:JCheminfo16,
  author = {Yannick Djoumbou Feunang and Roman Eisner and Craig Knox and Leonid
    Chepelev and Janna Hastings and Gareth Owen and Eoin Fahy and Christoph
    Steinbeck and Shankar Subramanian and Evan Bolton and Russ Greiner and
    David S. Wishart},
  title = {ClassyFire: automated chemical  classification with a comprehensive,
     computable taxonomy},
  Volume = "8",
  Pages = {61},
  journal = {Journal Of Cheminformatics},
  year = 2016,
}

Last Updated: February 10, 2020
Submitted by Sabina P

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