Precision DNA methylation typing via hierarchical clustering of Nanopore current signals and attention-based neural network.

IF 6.8 2区生物学 Q1 BIOCHEMICAL RESEARCH METHODS Briefings in bioinformatics Pub Date : 2024-09-23 DOI:10.1093/bib/bbae596

Qi Dai, Hu Chen, Wen-Jing Yi, Jia-Ning Zhao, Wei Zhang, Ping-An He, Xiao-Qing Liu, Ying-Feng Zheng, Zhuo-Xing Shi

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Abstract

Decoding DNA methylation sites through nanopore sequencing has emerged as a cutting-edge technology in the field of DNA methylation research, as it enables direct sequencing of native DNA molecules without the need for prior enzymatic or chemical treatments. During nanopore sequencing, methylation modifications on DNA bases cause changes in electrical current intensity. Therefore, constructing deep neural network models to decode the electrical signals of nanopore sequencing has become a crucial step in methylation site identification. In this study, we utilized nanopore sequencing data containing diverse DNA methylation types and motif sequence diversity. We proposed a feature encoding method based on current signal clustering and leveraged the powerful attention mechanism in the Transformer framework to construct the PoreFormer model for identifying DNA methylation sites in nanopore sequencing. The model demonstrated excellent performance under conditions of multi-class methylation and motif sequence diversity, offering new insights into related research fields.

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通过对纳米孔电流信号和基于注意力的神经网络进行分层聚类，实现精确的 DNA 甲基化分型。

通过纳米孔测序解码 DNA 甲基化位点已成为 DNA 甲基化研究领域的一项前沿技术，因为它可以直接对原生 DNA 分子进行测序，而无需事先进行酶处理或化学处理。在纳米孔测序过程中，DNA 碱基的甲基化修饰会导致电流强度发生变化。因此，构建深度神经网络模型来解码纳米孔测序的电信号已成为甲基化位点鉴定的关键步骤。在本研究中，我们利用了包含不同 DNA 甲基化类型和主题序列多样性的纳米孔测序数据。我们提出了一种基于电流信号聚类的特征编码方法，并利用 Transformer 框架中强大的注意力机制构建了 PoreFormer 模型，用于识别纳米孔测序中的 DNA 甲基化位点。该模型在多类甲基化和主题序列多样性条件下表现出卓越的性能，为相关研究领域提供了新的见解。

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.