DRAG: design RNAs as hierarchical graphs with reinforcement learning.

IF 7.7 2区生物学 Q1 BIOCHEMICAL RESEARCH METHODS Briefings in bioinformatics Pub Date : 2025-03-04 DOI:10.1093/bib/bbaf106

Yichong Li, Xiaoyong Pan, Hongbin Shen, Yang Yang

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Abstract

The rapid development of RNA vaccines and therapeutics puts forward intensive requirements on the sequence design of RNAs. RNA sequence design, or RNA inverse folding, aims to generate RNA sequences that can fold into specific target structures. To date, efficient and high-accuracy prediction models for secondary structures of RNAs have been developed. They provide a basis for computational RNA sequence design methods. Especially, reinforcement learning (RL) has emerged as a promising approach for RNA design due to its ability to learn from trial and error in generation tasks and work without ground truth data. However, existing RL methods are limited in considering complex hierarchical structures in RNA design environments. To address the above limitation, we propose DRAG, an RL method that builds design environments for target secondary structures with hierarchical division based on graph neural networks. Through extensive experiments on benchmark datasets, DRAG exhibits remarkable performance compared with current machine-learning approaches for RNA sequence design. This advantage is particularly evident in long and intricate tasks involving structures with significant depth.

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将rna设计为带有强化学习的分层图。

RNA 疫苗和疗法的快速发展对 RNA 序列设计提出了更高的要求。RNA 序列设计或 RNA 反折叠旨在生成可折叠成特定目标结构的 RNA 序列。迄今为止，针对 RNA 二级结构的高效、高精度预测模型已经开发出来。它们为计算 RNA 序列设计方法提供了基础。特别是强化学习（RL），由于它能够从生成任务中的试验和错误中学习，而且无需基本真实数据，因此已成为一种很有前途的 RNA 设计方法。然而，现有的强化学习方法在考虑 RNA 设计环境中的复杂层次结构时受到了限制。为了解决上述局限性，我们提出了一种基于图神经网络的 RL 方法--DRAG，它能为目标二级结构构建具有层次划分的设计环境。通过在基准数据集上的广泛实验，与目前用于 RNA 序列设计的机器学习方法相比，DRAG 表现出了卓越的性能。这一优势在涉及深度结构的长而复杂的任务中尤为明显。

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.