EnzChemRED, a Rich Enzyme Chemistry Relation Extraction Dataset

Overview

Journal Sci Data

Specialty Science

Date 2024 Sep 9

PMID 39251610

Authors

Po-Ting Lai

Elisabeth Coudert

Lucila Aimo

Kristian Axelsen

Lionel Breuza

Edouard de Castro

Marc Feuermann

Anne Morgat

Lucille Pourcel

Ivo Pedruzzi

Sylvain Poux

Nicole Redaschi

Catherine Rivoire

Anastasia Sveshnikova

Chih-Hsuan Wei

Robert Leaman

Ling Luo

Zhiyong Lu

Alan Bridge

Affiliations

Soon will be listed here.

Abstract

Expert curation is essential to capture knowledge of enzyme functions from the scientific literature in FAIR open knowledgebases but cannot keep pace with the rate of new discoveries and new publications. In this work we present EnzChemRED, for Enzyme Chemistry Relation Extraction Dataset, a new training and benchmarking dataset to support the development of Natural Language Processing (NLP) methods such as (large) language models that can assist enzyme curation. EnzChemRED consists of 1,210 expert curated PubMed abstracts where enzymes and the chemical reactions they catalyze are annotated using identifiers from the protein knowledgebase UniProtKB and the chemical ontology ChEBI. We show that fine-tuning language models with EnzChemRED significantly boosts their ability to identify proteins and chemicals in text (86.30% F score) and to extract the chemical conversions (86.66% F score) and the enzymes that catalyze those conversions (83.79% F score). We apply our methods to abstracts at PubMed scale to create a draft map of enzyme functions in literature to guide curation efforts in UniProtKB and the reaction knowledgebase Rhea.

Citing Articles

FuncFetch: an LLM-assisted workflow enables mining thousands of enzyme-substrate interactions from published manuscripts.

Smith N, Yuan X, Melissinos C, Moghe G Bioinformatics. 2024; 41(1).

PMID: 39718779 PMC: 11734755. DOI: 10.1093/bioinformatics/btae756.

EnzChemRED, a rich enzyme chemistry relation extraction dataset.

Lai P, Coudert E, Aimo L, Axelsen K, Breuza L, de Castro E Sci Data. 2024; 11(1):982.

PMID: 39251610 PMC: 11384730. DOI: 10.1038/s41597-024-03835-7.

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