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MINE 2.0: enhanced biochemical coverage for peak identification in untargeted metabolomics.


ABSTRACT:

Summary

Although advances in untargeted metabolomics have made it possible to gather data on thousands of cellular metabolites in parallel, identification of novel metabolites from these datasets remains challenging. To address this need, Metabolic in silico Network Expansions (MINEs) were developed. A MINE is an expansion of known biochemistry which can be used as a list of potential structures for unannotated metabolomics peaks. Here, we present MINE 2.0, which utilizes a new set of biochemical transformation rules that covers 93% of MetaCyc reactions (compared to 25% in MINE 1.0). This results in a 17-fold increase in database size and a 40% increase in MINE database compounds matching unannotated peaks from an untargeted metabolomics dataset. MINE 2.0 is thus a significant improvement to this community resource.

Availability and implementation

The MINE 2.0 website can be accessed at https://minedatabase.ci.northwestern.edu. The MINE 2.0 web API documentation can be accessed at https://mine-api.readthedocs.io/en/latest/. The data and code underlying this article are available in the MINE-2.0-Paper repository at https://github.com/tyo-nu/MINE-2.0-Paper. MINE 2.0 source code can be accessed at https://github.com/tyo-nu/MINE-Database (MINE construction), https://github.com/tyo-nu/MINE-Server (backend web API) and https://github.com/tyo-nu/MINE-app (web app).

Supplementary information

Supplementary data are available at Bioinformatics online.

SUBMITTER: Strutz J 

PROVIDER: S-EPMC9237697 | biostudies-literature | 2022 Jun

REPOSITORIES: biostudies-literature

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MINE 2.0: enhanced biochemical coverage for peak identification in untargeted metabolomics.

Strutz Jonathan J   Shebek Kevin M KM   Broadbelt Linda J LJ   Tyo Keith E J KEJ  

Bioinformatics (Oxford, England) 20220601 13


<h4>Summary</h4>Although advances in untargeted metabolomics have made it possible to gather data on thousands of cellular metabolites in parallel, identification of novel metabolites from these datasets remains challenging. To address this need, Metabolic in silico Network Expansions (MINEs) were developed. A MINE is an expansion of known biochemistry which can be used as a list of potential structures for unannotated metabolomics peaks. Here, we present MINE 2.0, which utilizes a new set of bi  ...[more]

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