BS-时钟,利用高分辨率 DNA 甲基化亚硫酸氢盐测序数据推进表观遗传学年龄预测。

Congcong Hu, Yunxiao Li, Longhui Li, Naiqian Zhang, Xiaoqi Zheng
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引用次数: 0

摘要

动机DNA甲基化模式由于其稳健性和与衰老过程相关的可预测变化,可以精确地估计生物年龄。虽然近年来已经开发出了几种甲基化衰老时钟,但它们主要是针对DNA甲基化阵列数据设计的,与亚硫酸氢盐测序数据相比,DNA甲基化阵列的CpG覆盖范围和检测灵敏度有限:在此,我们介绍了基于亚硫酸氢盐测序数据的新型人类衰老DNA甲基化时钟BS-clock。与现有的基于阵列的时钟相比,我们的 BS-clock 与多种组织类型中的实际年龄具有更高的相关性。我们的研究揭示了不同年龄阶段和疾病条件下的年龄依赖性衰老率,以及将在一种组织类型上训练的模型应用于其他组织类型的总体跨组织预测能力较低的问题。总之,BS-时钟克服了基于阵列的技术的局限性,提供了全基因组 CpG 位点覆盖和更稳健、更准确的衰老量化。这项研究为先进的衰老表观遗传学研究铺平了道路,并为开发有针对性的干预措施以促进健康衰老带来了希望:用于重现研究结果的所有分析代码均可在 https://github.com/hucongcong97/BS-clock.Supplementary 信息网站上公开获取:补充数据可在 Bioinformatics online 上获取。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
BS-clock, advancing epigenetic age prediction with high-resolution DNA methylation bisulfite sequencing data.

Motivation: DNA methylation patterns provide precise and accurate estimates of biological age due to their robustness and predictable changes associated with aging processes. Although several methylation aging clocks have been developed in recent years, they are primarily designed for DNA methylation array data, which has limited CpG coverage and detection sensitivity compared to bisulfite sequencing data.

Results: Here, we present BS-clock, a novel DNA methylation clock for human aging based on bisulfite sequencing data. Using BS-seq data from 529 samples retrieved from four tissues, our BS-clock achieves higher correlations with chronological age in multiple tissue types compared to existing array-based clocks. Our study revealed age-dependent aging rates across different age stages and disease conditions, and overall low cross-tissue prediction capability by applying the model trained on one tissue type to others. In summary, BS-clock overcomes limitations of array-based techniques, offering genome-wide CpG site coverage and more robust and accurate aging quantification. This research paves the way for advanced epigenetic studies of aging and holds promise for developing targeted interventions to promote healthy aging.

Availability and implementation: All analysis codes for reproducing the results of the study are publicly available at https://github.com/hucongcong97/BS-clock.

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