Growing and linking optimizers: synthesis-driven molecule design.

IF 7.7 2区生物学 Q1 BIOCHEMICAL RESEARCH METHODS

Briefings in bioinformatics Pub Date : 2025-08-31 DOI:10.1093/bib/bbaf482

Clarisse Descamps, Vincent Bouttier, Juan Sanz García, Maoussi Lhuillier-Akakpo, Quentin Perron, Hamza Tajmouati

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Abstract

In the present work, two reaction-based generative models for molecular design are presented: growing optimizer and linking optimizer. These models are designed to emulate real-life chemical synthesis by sequentially selecting building blocks and simulating the reactions between them to form new compounds. By focusing on the feasibility of the generated molecules, growing optimizer and linking optimizer offer several advantages, including the ability to restrict chemistry to specific building blocks, reaction types, and synthesis pathways, a crucial requirement in drug design. Unlike text-based models, which construct molecules by iteratively forming a textual representation of the molecular structure, and graph-based models, which assemble molecules atom by atom or fragment by fragment, our approach incorporates a more comprehensive understanding of chemical knowledge, making it relevant for drug discovery projects. Comparative analysis with REINVENT 4, a state-of-the-art molecular generative model, shows that growing optimizer and linking optimizer are more likely to produce synthetically accessible molecules while reaching molecules of interest with the desired properties.

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生长和连接优化器：合成驱动的分子设计。

在本工作中，提出了两种基于反应的分子设计生成模型：生长优化器和连接优化器。这些模型旨在通过顺序选择构建模块并模拟它们之间的反应以形成新的化合物来模拟现实生活中的化学合成。通过关注生成分子的可行性，生长优化器和连接优化器提供了几个优势，包括将化学限制在特定构建块，反应类型和合成途径的能力，这是药物设计的关键要求。基于文本的模型是通过迭代地形成分子结构的文本表示来构建分子，而基于图的模型是通过原子一个原子或一个片段一个片段地组装分子，与此不同，我们的方法包含了对化学知识的更全面的理解，使其与药物发现项目相关。与最先进的分子生成模型REINVENT 4的比较分析表明，生长优化器和连接优化器更有可能产生可合成的分子，同时获得具有所需性质的感兴趣分子。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Briefings in bioinformatics 生物-生化研究方法

CiteScore

13.20

自引率

13.70%

发文量

549

审稿时长

6 months

期刊介绍： Briefings in Bioinformatics is an international journal serving as a platform for researchers and educators in the life sciences. It also appeals to mathematicians, statisticians, and computer scientists applying their expertise to biological challenges. The journal focuses on reviews tailored for users of databases and analytical tools in contemporary genetics, molecular and systems biology. It stands out by offering practical assistance and guidance to non-specialists in computerized methodologies. Covering a wide range from introductory concepts to specific protocols and analyses, the papers address bacterial, plant, fungal, animal, and human data. The journal's detailed subject areas include genetic studies of phenotypes and genotypes, mapping, DNA sequencing, expression profiling, gene expression studies, microarrays, alignment methods, protein profiles and HMMs, lipids, metabolic and signaling pathways, structure determination and function prediction, phylogenetic studies, and education and training.