GO2Sum: generating human-readable functional summary of proteins from GO terms.

IF 3.5 2区 生物学 Q1 MATHEMATICAL & COMPUTATIONAL BIOLOGY
Swagarika Jaharlal Giri, Nabil Ibtehaz, Daisuke Kihara
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引用次数: 0

Abstract

Understanding the biological functions of proteins is of fundamental importance in modern biology. To represent a function of proteins, Gene Ontology (GO), a controlled vocabulary, is frequently used, because it is easy to handle by computer programs avoiding open-ended text interpretation. Particularly, the majority of current protein function prediction methods rely on GO terms. However, the extensive list of GO terms that describe a protein function can pose challenges for biologists when it comes to interpretation. In response to this issue, we developed GO2Sum (Gene Ontology terms Summarizer), a model that takes a set of GO terms as input and generates a human-readable summary using the T5 large language model. GO2Sum was developed by fine-tuning T5 on GO term assignments and free-text function descriptions for UniProt entries, enabling it to recreate function descriptions by concatenating GO term descriptions. Our results demonstrated that GO2Sum significantly outperforms the original T5 model that was trained on the entire web corpus in generating Function, Subunit Structure, and Pathway paragraphs for UniProt entries.

Abstract Image

GO2Sum:根据 GO 术语生成人类可读的蛋白质功能摘要。
了解蛋白质的生物学功能对现代生物学至关重要。为了表示蛋白质的功能,基因本体(Gene Ontology,GO)这一受控词汇经常被使用,因为它易于计算机程序处理,避免了开放式文本解释。特别是,目前大多数蛋白质功能预测方法都依赖于 GO 术语。然而,描述蛋白质功能的大量 GO 术语在解释时会给生物学家带来挑战。为了解决这个问题,我们开发了 GO2Sum(基因本体术语总结器),这是一个将一组 GO 术语作为输入,并使用 T5 大语言模型生成人类可读总结的模型。GO2Sum 是通过微调 T5 的 GO 术语分配和 UniProt 条目的自由文本功能描述而开发的,使其能够通过连接 GO 术语描述来重新创建功能描述。我们的研究结果表明,在为 UniProt 条目生成功能、亚基结构和途径段落方面,GO2Sum 明显优于在整个网络语料库中训练的原始 T5 模型。
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来源期刊
NPJ Systems Biology and Applications
NPJ Systems Biology and Applications Mathematics-Applied Mathematics
CiteScore
5.80
自引率
0.00%
发文量
46
审稿时长
8 weeks
期刊介绍: npj Systems Biology and Applications is an online Open Access journal dedicated to publishing the premier research that takes a systems-oriented approach. The journal aims to provide a forum for the presentation of articles that help define this nascent field, as well as those that apply the advances to wider fields. We encourage studies that integrate, or aid the integration of, data, analyses and insight from molecules to organisms and broader systems. Important areas of interest include not only fundamental biological systems and drug discovery, but also applications to health, medical practice and implementation, big data, biotechnology, food science, human behaviour, broader biological systems and industrial applications of systems biology. We encourage all approaches, including network biology, application of control theory to biological systems, computational modelling and analysis, comprehensive and/or high-content measurements, theoretical, analytical and computational studies of system-level properties of biological systems and computational/software/data platforms enabling such studies.
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